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px4-firmware/misc/buildroot/toolchain/gcc/3.3.6/900-sx12-20101109.patch

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Resync new repository with old repo r5166 git-svn-id: http://svn.code.sf.net/p/nuttx/code/trunk@5153 42af7a65-404d-4744-a932-0658087f49c3
2012-09-17 15:18:44 -03:00
diff -u -r -N gcc-3.3.6-core-orig/ChangeLog.M68HC11 gcc-3.3.6/ChangeLog.M68HC11
--- gcc-3.3.6-core-orig/ChangeLog.M68HC11 1970-01-01 01:00:00.000000000 +0100
+++ gcc-3.3.6/ChangeLog.M68HC11 2010-11-09 20:47:16.000000000 +0000
@@ -0,0 +1,4 @@
+2003-05-18 Stephane Carrez <stcarrez@nerim.fr>
+
+ * configure.in (m68hc11): Configure libstdcxx_version.
+
diff -u -r -N gcc-3.3.6-core-orig/config.sub gcc-3.3.6/config.sub
--- gcc-3.3.6-core-orig/config.sub 2003-01-30 23:25:36.000000000 +0000
+++ gcc-3.3.6/config.sub 2010-11-09 20:47:16.000000000 +0000
@@ -268,7 +268,7 @@
| z8k)
basic_machine=$basic_machine-unknown
;;
- m6811 | m68hc11 | m6812 | m68hc12)
+ m6811 | m68hc11 | m6812 | m68hc12 | m9s12x)
# Motorola 68HC11/12.
basic_machine=$basic_machine-unknown
os=-none
diff -u -r -N gcc-3.3.6-core-orig/configure.in gcc-3.3.6/configure.in
--- gcc-3.3.6-core-orig/configure.in 2004-01-02 14:09:48.000000000 +0000
+++ gcc-3.3.6/configure.in 2010-11-09 20:47:16.000000000 +0000
@@ -487,7 +487,7 @@
i[3456]86-*-beos*)
noconfigdirs="$noconfigdirs gdb target-newlib target-libgloss ${libgcj}"
;;
- m68hc11-*-*|m6811-*-*|m68hc12-*-*|m6812-*-*)
+ m68hc11-*-*|m6811-*-*|m68hc12-*-*|m6812-*-*|m9s12x-*-*)
noconfigdirs="$noconfigdirs target-libiberty ${libstdcxx_version} ${libgcj}"
;;
m68k-*-elf*)
diff -u -r -N gcc-3.3.6-core-orig/gcc/ChangeLog.M68HC11 gcc-3.3.6/gcc/ChangeLog.M68HC11
--- gcc-3.3.6-core-orig/gcc/ChangeLog.M68HC11 1970-01-01 01:00:00.000000000 +0100
+++ gcc-3.3.6/gcc/ChangeLog.M68HC11 2010-11-09 20:47:16.000000000 +0000
@@ -0,0 +1,384 @@
+2010-10-28 James Murray <jsm@jsm-net.demon.co.uk>
+ More work on 9s12x target building
+ S12X optimisations in larith.asm
+
+2010-10-26 James Murray <jsm@jsm-net.demon.co.uk>
+ Bump version
+ Include A.E.Smith S12X ldivmod.asm assembler long division
+ Port ldivmod.asm to S12
+ (Earlier work)
+ Support building as 9S12X target to match binutils
+
+2006-01-22 Stephane Carrez <stcarrez@nerim.fr>
+
+ * version.c: Bump to 2006-01-22
+
+2006-01-22 Stephane Carrez <stcarrez@nerim.fr>
+
+ PR savannah/13917
+ * config/m68hc11/m68hc11.c (nonimmediate_noinc_operand): New predicate.
+ * config/m68hc11/m68hc11-protos.h (nonimmediate_noinc_operand): Declare.
+ * config/m68hc11/m68hc11.h (PREDICATE_CODES): Register it.
+ * config/m68hc11/m68hc11.md ("addqi3"): Use it for operand 0, 1.
+ ("uminqi3"): Likewise.
+ ("umaxqi3"): Likewise.
+ ("uminhi3"): Likewise.
+ ("umaxhi3"): Likewise.
+ ("negqi2"): Likewise.
+ ("*ashlqi3_const1", "*ashrqi3_const1"): Likewise.
+ ("lshrhi3_const", "*lshrqi3_const1"): Likewise.
+
+2006-01-20 Stephane Carrez <stcarrez@nerim.fr>
+
+ savannah/15493
+ * config/m68hc11/m68hc11.c (m68hc11_gen_movqi): Must save register
+ A and copy X or Y in it for a move when both operands refer to X or Y.
+
+2005-11-05 Stephane Carrez <stcarrez@nerim.fr>
+
+ PR savannah/13879
+ * expmed.c (make_tree): If we have a constant for SIGN_EXTEND or
+ ZERO_EXTEND, use the mode from the extend node; the constant is VOIDmode
+ and it will crash.
+
+2005-11-05 Stephane Carrez <stcarrez@nerim.fr>
+
+ * expmed.c (store_bit_field): Must apply a correction for big-endian
+ target when the bitfield contains less word than the source constant.
+
+2005-05-15 Stephane Carrez <stcarrez@nerim.fr>
+
+ * config/m68hc11/m68hc11.h (REG_VALID_P): The macro can be used with
+ signed numbers passed as argument.
+ * version.c: Bump to 20050515
+
+2005-05-08 Stephane Carrez <stcarrez@nerim.fr>
+
+ PR savannah/12572
+ * config/m68hc11/m68hc11.md ("movhi"): Sign extend the constants in
+ the range 32768..65535 so that the generated set is recognized.
+
+2005-05-08 Stephane Carrez <stcarrez@nerim.fr>
+
+ * config/m68hc11/m68hc11.md ("mulqi3"): Use general_operand for operand
+ 1 and fix constraints.
+ ("mulqihi3")" Use general_operand for operand 2.
+ * config/m68hc11/m68hc11.c (m68hc11_gen_movqi): Use pula and pulb
+ instead of lda and ldb for 68HC12.
+
+2005-05-08 Stephane Carrez <stcarrez@nerim.fr>
+
+ * config/m68hc11/m68hc11-protos.h (m68hc11_hard_regno_rename_ok): Pass
+ the mode.
+ * config/m68hc11/m68hc11.h (HARD_REGNO_RENAME_OK): Likewise.
+ * config/m68hc11/m68hc11.c (m68hc11_hard_regno_rename_ok): Likewise.
+ * regrename.c (regrename_optimize): Pass the mode in which the register
+ is used.
+
+2005-04-03 Stephane Carrez <stcarrez@nerim.fr>
+
+ PR savannah/12297
+ * config/m68hc11/m68hc11.c (m68hc11_z_replacement): Use emit_insn_after
+ when adding the save Z instruction so that it is part of the good BB.
+
+2005-02-13 Stephane Carrez <stcarrez@nerim.fr>
+
+ PR target/17551
+ * gcse.c (handle_avail_expr): Use gen_move_insn() instead of
+ gen_rtx_SET()
+
+2005-02-13 Stephane Carrez <stcarrez@nerim.fr>
+
+ PR target/16925
+ * config/m68hc11/m68hc11.c (m68hc11_gen_highpart): Handle split of
+ 64-bit constants on 64-bit hosts.
+ (m68hc11_split_logical): Simplify.
+ (m68hc11_split_move): Likewise.
+
+2005-02-12 Stephane Carrez <stcarrez@nerim.fr>
+
+ PR savannah/11813
+ * config/m68hc11/m68hc11.c (reg_or_some_mem_operand): Do not allow
+ the 68HC12 address indirect addressing mode as it is not supported
+ by bset and bclr.
+
+2005-01-29 Stephane Carrez <stcarrez@nerim.fr>
+
+ * version.c (version_string): Bump to 2005-01-29.
+ * config/udivmodsi4.c (__udivmodsi4): Rewrite ediv as it didn't
+ passed the gcc validation.
+
+2005-01-28 Stephane Carrez <stcarrez@nerim.fr>
+
+ From philipljohnson@comcast.net:
+
+ Patch savannah/3626
+ * config/udivmodsi4.c (__udivmodsi4): Use 68HC12 ediv instruction to
+ compute division and modulus.
+
+2004-08-30 Stephane Carrez <stcarrez@nerim.fr>
+
+ * config/m68hc11/m68hc11.c (m68hc11_gen_movhi): Fix invalid generation
+ of indexed indirect addressing with movw
+
+2004-08-29 Stephane Carrez <stcarrez@nerim.fr>
+
+ * version.c (version_string): Bump to 2004-08-29.
+
+2004-08-29 Stephane Carrez <stcarrez@nerim.fr>
+
+ * final.c (alter_subreg): Adjust the offset of paradoxical subreg
+ so that we load the correct value.
+
+2004-08-06 Stephane Carrez <stcarrez@nerim.fr>
+
+ * config/m68hc11/m68hc11.md ("movhi_const0"): Use this pattern only
+ for 68HC11.
+
+2004-08-01 Stephane Carrez <stcarrez@nerim.fr>
+
+ * version.c (version_string): Bump to 2004-08-01 and use gcc 3.3.4.
+
+2004-06-06 Stephane Carrez <stcarrez@nerim.fr>
+
+ PR target/14542
+ * config/m68hc11/m68hc11.md (move peephole2): Emit a use note to avoid
+ a live change of a register after peephole replacement.
+
+2004-06-06 Stephane Carrez <stcarrez@nerim.fr>
+
+ PR target/14457
+ * config/m68hc11/m68hc11.c (splitable_operand): New predicate.
+ * config/m68hc11/m68hc11-protos.h (splitable_operand): Declare.
+ * config/m68hc11/m68hc11.h (PREDICATE_CODES): Register it.
+ (inhibit_libc): Must define.
+ * config/m68hc11/m68hc11.md ("movhi_const0"): Use splitable_operand.
+ ("*andhi3_gen", "iorhi3", "*iorhi3_gen"): Likewise.
+ ("xorhi3"): Likewise.
+
+2004-04-25 Stephane Carrez <stcarrez@nerim.fr>
+
+ * config/m68hc11/m68hc11.md ("iorqi3_gen"): Use general_operand for
+ first operand.
+ ("*andqi3_gen", "xorqi3"): Likewise.
+ ("subqi3", "*subhi3"): Likewise.
+ ("*addhi3_zext"): Likewise.
+
+2004-04-25 Stephane Carrez <stcarrez@nerim.fr>
+
+ * config/m68hc11/m68hc11.h (ASM_OUTPUT_LABELREF): Redefine to strip
+ any name encoding.
+
+2004-03-07 Stephane Carrez <stcarrez@nerim.fr>
+
+ * config/m68hc11/m68hc11.md ("*lshrsi3_const"): Disable for 68HC12.
+ ("*lshrsi3"): Also accept an immediate for 68HC12.
+ ("*ashrsi3_const"): Likewise.
+ ("*ashrsi3"): Likewise.
+ ("*ashlsi3_const"): Likewise.
+ ("*ashlsi3"): Likewise.
+ ("cmphi_1_hc12"): Compare two hard register by pushing them and
+ comparing with a pop; don't use a split for that.
+ ("cmphi split"): Disable compare split for 68HC12.
+
+2004-03-06 Stephane Carrez <stcarrez@nerim.fr>
+
+ * config/m68hc11/m68hc11.md ("*lshrsi3_const1"): Allow a memory for
+ operand 1 when operand 0 is a soft register.
+ ("*ashlsi3_const1"): Likewise.
+
+2004-03-06 Stephane Carrez <stcarrez@nerim.fr>
+
+ * config/m68hc11/m68hc11.c (m68hc11_gen_movhi): Use 2,-sp to push
+ the stack register.
+
+2004-03-06 Stephane Carrez <stcarrez@nerim.fr>
+
+ * doc/extend.texi (Function Attributes): Document page0, trap and
+ update far documentation.
+
+2004-03-06 Stephane Carrez <stcarrez@nerim.fr>
+
+ PR savannah/4987:
+ * doc/invoke.texi (M68hc1x Options): Document -mrelax
+
+2004-03-06 Stephane Carrez <stcarrez@nerim.fr>
+
+ PR savannah/8028:
+ * config/m68hc11/m68hc11.c (expand_prologue): Don't make an interrupt
+ or a trap handler a far symbol.
+ (m68hc11_initial_elimination_offset): Likewise.
+
+2004-03-06 Stephane Carrez <stcarrez@nerim.fr>
+
+ * config/m68hc11/m68hc11.md ("*lshrsi3_const1"): Tune constraints
+ to optimize more case where we don't need a scratch register.
+ ("*ashlsi3_const1"): Likewise.
+ ("*pushdi_internal"): New insn and split
+ to separate push from moves.
+ ("*pushdf_internal"): Likewise.
+ ("*pushsf_internal"): Likewise.
+ ("*pushsi_internal"): Likewise.
+ ("movdi_internal"): Use define_insn_and_split; non push operand.
+ ("movdf_internal"): Likewise.
+ ("movsf_internal"): Likewise.
+ ("movsi_internal"): Likewise.
+
+2004-03-02 Stephane Carrez <stcarrez@nerim.fr>
+
+ * config/m68hc11/m68hc11.c (m68hc11_addr_mode): New variable.
+ (m68hc11_mov_addr_mode): Likewise.
+ (m68hc11_override_options): Initialize them based on target.
+ (register_indirect_p): Allow a MEM for indirect addressing modes and
+ use flags to control what is allowed.
+ (m68hc11_small_indexed_indirect_p): Use m68hc11_mov_addr_mode for
+ supported addressing modes.
+ (m68hc11_register_indirect_p): Use m68hc11_addr_mode.
+ (go_if_legitimate_address_internal): Likewise.
+ (m68hc11_indirect_p): Likewise and check the mode.
+ (print_operand): Allow a (MEM (MEM)) and generate indirect addressing.
+
+2004-02-22 Stephane Carrez <stcarrez@nerim.fr>
+
+ * version.c: Bump to 20040222 and use gcc 3.3.3.
+
+2003-11-16 Stephane Carrez <stcarrez@nerim.fr>
+
+ * version.c: Bump to 200311116.
+
+2003-11-10 Stephane Carrez <stcarrez@nerim.fr>
+
+ * config/m68hc11/m68hc11-protos.h (m68hc11_page0_symbol_p): Declare.
+ * config/m68hc11/m68hc11.c (m68hc11_page0_symbol_p): New predicate.
+ (m68hc11_indirect_p): Use it.
+ (print_operand): Likewise.
+ (m68hc11_handle_page0_attribute): New function to handle page0
+ attribute
+ (m68hc11_attribute_table): New attribute page0
+ (m68hc11_encode_section_info): Check page0 attribute.
+ * config/m68hc11/m68hc11.md: Use define_insn_and_split
+ (peephole2): New peephole to generate bset/bclr.
+ (peephole): New peephole to optimize compare in few cases and
+ setting of 2 registers from memory.
+
+2003-10-04 Stephane Carrez <stcarrez@nerim.fr>
+
+ * version.c: Bump to 20031004.
+
+2003-10-04 Stephane Carrez <stcarrez@nerim.fr>
+
+ PR savannah/3432:
+ * config/m68hc11/t-m68hc11-gas (MULTILIB_MATCHES): m68hcs12 is
+ identical to m68hc12 for libraries.
+
+2003-10-01 Stephane Carrez <stcarrez@nerim.fr>
+
+ * version.c: Bump to 20031001.
+
+2003-09-30 Stephane Carrez <stcarrez@nerim.fr>
+
+ * config/m68hc11/m68hc11.md ("*ashldi3_const32"): Adjust first operand
+ if it uses stack pointer register.
+
+2003-09-30 Stephane Carrez <stcarrez@nerim.fr>
+
+ * config/m68hc11/m68hc11.md (peephole2 "remove one load"): Make sure
+ that register operand 3 does not appear in operand 2.
+
+2003-08-08 Stephane Carrez <stcarrez@nerim.fr>
+
+ * version.c: Bump to 20030808
+
+2003-08-02 Stephane Carrez <stcarrez@nerim.fr>
+
+ * config/m68hc11/m68hc11.md (peephole2 "leas 2,sp"): Enable it
+ and add a use rtx.
+ (peephole2): New peephole to optimize moves on stack.
+
+2003-07-19 Stephane Carrez <stcarrez@nerim.fr>
+
+ * config/m68hc11/m68hc11.md (peephole2 abx): Use m68hc11_gen_lowpart
+ to make sure the constant has the appropriate QImode.
+
+2003-07-08 Stephane Carrez <stcarrez@nerim.fr>
+
+ * config/m68hc11/m68hc11.h (HAVE_AS_DWARF2_DEBUG_LINE): Don't define
+ as .file/.loc directives are incompatible with linker relaxation.
+
+2003-05-19 Stephane Carrez <stcarrez@nerim.fr>
+
+ * config/m68hc11/m68hc11.md ("*movqi" split): Don't split when source
+ or destination is d, b or a register.
+
+2003-05-18 Stephane Carrez <stcarrez@nerim.fr>
+
+ * config/m68hc11/m68hc11.md ("*logicalhi3_zexthi_ashift8): Allow
+ address registers for operand 1 and 2.
+
+2003-05-18 Stephane Carrez <stcarrez@nerim.fr>
+
+ * reload.c (find_reloads_toplev): Do not reload the paradoxical
+ subreg with its wider mode but the register itself.
+
+2003-05-18 Stephane Carrez <stcarrez@nerim.fr>
+
+ Merge 3.0.4-20030501 patchs in 3.3
+
+ 2003-03-12 Stephane Carrez <stcarrez@nerim.fr>
+
+ * config/m68hc11/m68hc11.md
+ ("movdi_internal", "movdf_internal"): Fix constraints.
+ ("movsi_internal", "movsf_internal"): Likewise.
+ (peephole2): New peephole2 to optimize the address computations
+ by using 'abx' and 'aby'.
+ (peephole2): New peephole2 to optimize 32-bit shift and use only
+ one hard register instead of two.
+ (peephole2): New peephole2 to avoid loading the same value in two
+ different registers.
+
+ 2003-03-12 Stephane Carrez <stcarrez@nerim.fr>
+
+ * config/m68hc11/m68hc11.md (split "logicalsi3_silshl16_zext"): Split
+ after reload but reject the particular case that generates a xgdx
+ pattern, it must be handled after Z register replacement.
+
+ 2003-03-10 Stephane Carrez <stcarrez@nerim.fr>
+
+ * config/m68hc11/m68hc11.md ("*addhi3_68hc12"): Accept any constant
+ when adding to X and Y since leax/leay are fast.
+ ("*addhi3"): Accept 'I' constraint when adding to address register.
+
+ 2003-02-27 Stephane Carrez <stcarrez@nerim.fr>
+
+ * config/m68hc11/m68hc11.md ("*logicalsi3_silshr16"): Accept D reg
+ on all operands.
+
+ 2003-01-10 Stephane Carrez <stcarrez@nerim.fr>
+
+ * config/m68hc11/m68hc11.md ("*logicalsi3_silshl16_zext"): New split.
+ ("*logicalsi3_silshr16"): Fix constraints.
+
+ 2002-02-27 Stephane Carrez <Stephane.Carrez@worldnet.fr>
+
+ * reload.c (find_reloads): Change to RELOAD_FOR_OTHER_ADDRESS any
+ RELOAD_FOR_OPERAND_ADDRESS reloads which is used by a RELOAD_FOR_OTHER
+ reload (ensures correct order of reload insns).
+
+ 2001-07-09 Stephane Carrez <Stephane.Carrez@worldnet.fr>
+
+ * reload1.c (merge_assigned_reloads): After a RELOAD_OTHER merge,
+ fix setting of the reloads of that reload to RELOAD_FOR_OTHER_ADDRESS.
+
+ 2001-06-22 Stephane Carrez <Stephane.Carrez@worldnet.fr>
+
+ * config/m68hc11/m68hc11.h (MAX_BITS_PER_WORD): Define to 32.
+
+ 2001-03-01 Stephane Carrez <Stephane.Carrez@worldnet.fr>
+
+ * reload1.c (merge_assigned_reloads): Change the type of the
+ reload to emit it at the good place after the merge.
+
+ 2001-02-24 Stephane Carrez <Stephane.Carrez@worldnet.fr>
+
+ * reload.c (find_reloads_subreg_address): Call find_reloads_address
+ with the same reload type.
diff -u -r -N gcc-3.3.6-core-orig/gcc/collect2.c gcc-3.3.6/gcc/collect2.c
--- gcc-3.3.6-core-orig/gcc/collect2.c 2003-12-08 19:02:39.000000000 +0000
+++ gcc-3.3.6/gcc/collect2.c 2010-11-09 20:47:16.000000000 +0000
@@ -74,6 +74,10 @@
#undef REAL_STRIP_FILE_NAME
#endif
+#ifdef WIN32
+# define USE_POPEN
+#endif
+
/* If we cannot use a special method, use the ordinary one:
run nm to find what symbols are present.
In a cross-compiler, this means you need a cross nm,
@@ -444,7 +448,11 @@
#endif
signal (signo, SIG_DFL);
+#ifndef WIN32
kill (getpid (), signo);
+#else
+ exit(3);
+#endif
}
@@ -2081,6 +2089,31 @@
if (nm_file_name == 0)
fatal ("cannot find `nm'");
+#ifdef USE_POPEN
+ p = (char*) xmalloc (strlen (nm_file_name)
+ + strlen (NM_FLAGS)
+ + strlen (prog_name)
+ + 10);
+ strcpy (p, nm_file_name);
+ strcat (p, " ");
+ if (NM_FLAGS[0] != '\0')
+ {
+ strcat (p, NM_FLAGS);
+ strcat (p, " ");
+ }
+ strcat (p, prog_name);
+ inf = popen (p, "r");
+ if (inf == NULL)
+ fatal_perror ("can't popen `%s'", p);
+
+ /* Trace if needed. */
+ if (vflag)
+ fprintf (stderr, " %s\n", p);
+
+ free (p);
+ fflush (stdout);
+ fflush (stderr);
+#else
nm_argv[argc++] = nm_file_name;
if (NM_FLAGS[0] != '\0')
nm_argv[argc++] = NM_FLAGS;
@@ -2142,6 +2175,7 @@
if (debug)
fprintf (stderr, "\nnm output with constructors/destructors.\n");
+#endif
/* Read each line of nm output. */
while (fgets (buf, sizeof buf, inf) != (char *) 0)
@@ -2215,7 +2249,11 @@
if (fclose (inf) != 0)
fatal_perror ("fclose");
+#ifdef USE_POPEN
+ pclose (inf);
+#else
do_wait (nm_file_name);
+#endif
signal (SIGINT, int_handler);
#ifdef SIGQUIT
diff -u -r -N gcc-3.3.6-core-orig/gcc/combine.c gcc-3.3.6/gcc/combine.c
--- gcc-3.3.6-core-orig/gcc/combine.c 2005-01-18 08:39:05.000000000 +0000
+++ gcc-3.3.6/gcc/combine.c 2010-11-09 20:47:16.000000000 +0000
@@ -6553,7 +6553,7 @@
address, we stay there. If we have a comparison, set to COMPARE,
but once inside, go back to our default of SET. */
- next_code = (code == MEM || code == PLUS || code == MINUS ? MEM
+ next_code = (code == MEM /* SCz: || code == PLUS || code == MINUS */ ? MEM
: ((code == COMPARE || GET_RTX_CLASS (code) == '<')
&& XEXP (x, 1) == const0_rtx) ? COMPARE
: in_code == COMPARE ? SET : in_code);
diff -u -r -N gcc-3.3.6-core-orig/gcc/config/divmod.c gcc-3.3.6/gcc/config/divmod.c
--- gcc-3.3.6-core-orig/gcc/config/divmod.c 2000-11-30 08:25:58.000000000 +0000
+++ gcc-3.3.6/gcc/config/divmod.c 2010-11-09 20:47:16.000000000 +0000
@@ -1,4 +1,21 @@
-long udivmodsi4 ();
+/* cover the root directory case */
+#if !defined(mc68hc11) && !defined(mc68hc12) && !defined(m9s12x)
+#if defined(target11)
+#define mc68hc11
+#endif
+#if defined(target12)
+#define mc68hc12
+#endif
+#if defined(targets12x)
+#define m9s12x
+#define mc68hc12
+#endif
+#endif
+
+#ifndef mc68hc12
+
+extern unsigned long __udivmodsi4 (unsigned long num, unsigned long den,
+ unsigned long *mod);
long
__divsi3 (long a, long b)
@@ -18,7 +35,7 @@
neg = !neg;
}
- res = udivmodsi4 (a, b, 0);
+ res = __udivmodsi4 (a, b, 0);
if (neg)
res = -res;
@@ -41,10 +58,13 @@
if (b < 0)
b = -b;
- res = udivmodsi4 (a, b, 1);
+ __udivmodsi4 (a, b, (unsigned long*) &res);
if (neg)
res = -res;
return res;
}
+
+
+#endif /* !mc68hc12 */
diff -u -r -N gcc-3.3.6-core-orig/gcc/config/larith.asm gcc-3.3.6/gcc/config/larith.asm
--- gcc-3.3.6-core-orig/gcc/config/larith.asm 1970-01-01 01:00:00.000000000 +0100
+++ gcc-3.3.6/gcc/config/larith.asm 2010-11-09 20:47:16.000000000 +0000
@@ -0,0 +1,1348 @@
+/* libgcc routines for M68HC11 & M68HC12.
+ Copyright (C) 1999, 2000, 2001, 2002, 2003 Free Software Foundation, Inc.
+
+This file is part of GNU CC.
+
+GNU CC is free software; you can redistribute it and/or modify it
+under the terms of the GNU General Public License as published by the
+Free Software Foundation; either version 2, or (at your option) any
+later version.
+
+In addition to the permissions in the GNU General Public License, the
+Free Software Foundation gives you unlimited permission to link the
+compiled version of this file with other programs, and to distribute
+those programs without any restriction coming from the use of this
+file. (The General Public License restrictions do apply in other
+respects; for example, they cover modification of the file, and
+distribution when not linked into another program.)
+
+This file is distributed in the hope that it will be useful, but
+WITHOUT ANY WARRANTY; without even the implied warranty of
+MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
+General Public License for more details.
+
+You should have received a copy of the GNU General Public License
+along with this program; see the file COPYING. If not, write to
+the Free Software Foundation, 59 Temple Place - Suite 330,
+Boston, MA 02111-1307, USA. */
+
+/* As a special exception, if you link this library with other files,
+ some of which are compiled with GCC, to produce an executable,
+ this library does not by itself cause the resulting executable
+ to be covered by the GNU General Public License.
+ This exception does not however invalidate any other reasons why
+ the executable file might be covered by the GNU General Public License. */
+
+ .file "larith.asm"
+
+#ifdef __HAVE_SHORT_INT__
+ .mode mshort
+#else
+ .mode mlong
+#endif
+
+ .macro declare_near name
+ .globl \name
+ .type \name,@function
+ .size \name,.Lend-\name
+\name:
+ .endm
+
+#if defined(__USE_RTC__)
+# define ARG(N) N+1
+
+ .macro ret
+#if defined(mc68hc12)
+ rtc
+#else
+ jmp __return_32
+#endif
+ .endm
+
+ .macro declare name
+ .globl \name
+ .type \name,@function
+ .size \name,.Lend-\name
+ .far \name
+\name:
+ .endm
+
+ .macro farsym name
+ .far NAME
+ .endm
+
+#else
+# define ARG(N) N
+
+ .macro ret
+ rts
+ .endm
+
+ .macro farsym name
+ .endm
+
+ .macro declare name
+ .globl \name
+ .type \name,@function
+ .size \name,.Lend-\name
+\name:
+ .endm
+
+#endif
+
+ .sect .text
+
+
+#define REG(NAME) \
+NAME: .dc.w 1; \
+ .type NAME,@object ; \
+ .size NAME,2
+
+#ifdef L_regs_min
+/* Pseudo hard registers used by gcc.
+ They should be located in page0. */
+
+ .sect .softregs
+ .globl _.tmp
+ .globl _.z,_.xy
+REG(_.tmp)
+REG(_.z)
+REG(_.xy)
+
+#endif
+
+#ifdef L_regs_frame
+ .sect .softregs
+ .globl _.frame
+REG(_.frame)
+#endif
+
+#ifdef L_regs_d1_2
+ .sect .softregs
+ .globl _.d1,_.d2
+REG(_.d1)
+REG(_.d2)
+#endif
+
+#ifdef L_regs_d3_4
+ .sect .softregs
+ .globl _.d3,_.d4
+REG(_.d3)
+REG(_.d4)
+#endif
+
+#ifdef L_regs_d5_6
+ .sect .softregs
+ .globl _.d5,_.d6
+REG(_.d5)
+REG(_.d6)
+#endif
+
+#ifdef L_regs_d7_8
+ .sect .softregs
+ .globl _.d7,_.d8
+REG(_.d7)
+REG(_.d8)
+#endif
+
+#ifdef L_regs_d9_16
+/* Pseudo hard registers used by gcc.
+ They should be located in page0. */
+ .sect .softregs
+ .globl _.d9,_.d10,_.d11,_.d12,_.d13,_.d14
+ .globl _.d15,_.d16
+REG(_.d9)
+REG(_.d10)
+REG(_.d11)
+REG(_.d12)
+REG(_.d13)
+REG(_.d14)
+REG(_.d15)
+REG(_.d16)
+
+#endif
+
+#ifdef L_regs_d17_32
+/* Pseudo hard registers used by gcc.
+ They should be located in page0. */
+ .sect .softregs
+ .globl _.d17,_.d18,_.d19,_.d20,_.d21,_.d22
+ .globl _.d23,_.d24,_.d25,_.d26,_.d27,_.d28
+ .globl _.d29,_.d30,_.d31,_.d32
+REG(_.d17)
+REG(_.d18)
+REG(_.d19)
+REG(_.d20)
+REG(_.d21)
+REG(_.d22)
+REG(_.d23)
+REG(_.d24)
+REG(_.d25)
+REG(_.d26)
+REG(_.d27)
+REG(_.d28)
+REG(_.d29)
+REG(_.d30)
+REG(_.d31)
+REG(_.d32)
+#endif
+
+#ifdef L_premain
+;;
+;; Specific initialization for 68hc11 before the main.
+;; Nothing special for a generic routine; Just enable interrupts.
+;;
+ declare_near __premain
+ clra
+ tap ; Clear both I and X.
+ rts
+#endif
+
+#ifdef L__exit
+;;
+;; Exit operation. Just loop forever and wait for interrupts.
+;; (no other place to go)
+;; This operation is split in several pieces collected together by
+;; the linker script. This allows to support destructors at the
+;; exit stage while not impacting program sizes when there is no
+;; destructors.
+;;
+;; _exit:
+;; *(.fini0) /* Beginning of finish code (_exit symbol). */
+;; *(.fini1) /* Place holder for applications. */
+;; *(.fini2) /* C++ destructors. */
+;; *(.fini3) /* Place holder for applications. */
+;; *(.fini4) /* Runtime exit. */
+;;
+ .sect .fini0,"ax",@progbits
+ .globl _exit
+ .globl exit
+ .weak exit
+ farsym exit
+ farsym _exit
+exit:
+_exit:
+
+ .sect .fini4,"ax",@progbits
+fatal:
+ cli
+ wai
+ bra fatal
+#endif
+
+#ifdef L_abort
+;;
+;; Abort operation. This is defined for the GCC testsuite.
+;;
+ declare abort
+
+ ldd #255 ;
+#ifdef mc68hc12
+ trap #0x30
+#else
+ .byte 0xCD ; Generate an illegal instruction trap
+ .byte 0x03 ; The simulator catches this and stops.
+#endif
+ jmp _exit
+#endif
+
+#ifdef L_cleanup
+;;
+;; Cleanup operation used by exit().
+;;
+ declare _cleanup
+
+ ret
+#endif
+
+;-----------------------------------------
+; required gcclib code
+;-----------------------------------------
+#ifdef L_memcpy
+ declare memcpy
+ declare __memcpy
+
+ .weak memcpy
+;;;
+;;; void* memcpy(void*, const void*, size_t)
+;;;
+;;; D = dst Pmode
+;;; 2,sp = src Pmode
+;;; 4,sp = size HImode (size_t)
+;;;
+#ifdef mc68hc12
+ ldx ARG(2),sp
+ ldy ARG(4),sp
+ pshd
+ xgdy
+ lsrd
+ bcc Start
+ movb 1,x+,1,y+
+Start:
+ beq Done
+Loop:
+ movw 2,x+,2,y+
+ dbne d,Loop
+Done:
+ puld
+ ret
+#else
+ xgdy
+ tsx
+ ldd ARG(4),x
+ ldx ARG(2),x ; SRC = X, DST = Y
+ cpd #0
+ beq End
+ pshy
+ inca ; Correction for the deca below
+L0:
+ psha ; Save high-counter part
+L1:
+ ldaa 0,x ; Copy up to 256 bytes
+ staa 0,y
+ inx
+ iny
+ decb
+ bne L1
+ pula
+ deca
+ bne L0
+ puly ; Restore Y to return the DST
+End:
+ xgdy
+ ret
+#endif
+#endif
+
+#ifdef L_memset
+ declare memset
+ declare __memset
+;;;
+;;; void* memset(void*, int value, size_t)
+;;;
+#ifndef __HAVE_SHORT_INT__
+;;; D = dst Pmode
+;;; 2,sp = src SImode
+;;; 6,sp = size HImode (size_t)
+ val = ARG(5)
+ size = ARG(6)
+#else
+;;; D = dst Pmode
+;;; 2,sp = src SImode
+;;; 6,sp = size HImode (size_t)
+ val = ARG(3)
+ size = ARG(4)
+#endif
+#ifdef mc68hc12
+ xgdx
+ ldab val,sp
+ ldy size,sp
+ pshx
+ beq End
+Loop:
+ stab 1,x+
+ dbne y,Loop
+End:
+ puld
+ ret
+#else
+ xgdx
+ tsy
+ ldab val,y
+ ldy size,y ; DST = X, CNT = Y
+ beq End
+ pshx
+L0:
+ stab 0,x ; Fill up to 256 bytes
+ inx
+ dey
+ bne L0
+ pulx ; Restore X to return the DST
+End:
+ xgdx
+ ret
+#endif
+#endif
+
+#ifdef L_adddi3
+ declare ___adddi3
+
+ tsx
+ xgdy
+ ldd ARG(8),x ; Add LSB
+ addd ARG(16),x
+ std 6,y ; Save (carry preserved)
+
+ ldd ARG(6),x
+ adcb ARG(15),x
+ adca ARG(14),x
+ std 4,y
+
+ ldd ARG(4),x
+ adcb ARG(13),x
+ adca ARG(12),x
+ std 2,y
+
+ ldd ARG(2),x
+ adcb ARG(11),x ; Add MSB
+ adca ARG(10),x
+ std 0,y
+
+ xgdy
+ ret
+#endif
+
+#ifdef L_subdi3
+ declare ___subdi3
+
+ tsx
+ xgdy
+ ldd ARG(8),x ; Subtract LSB
+ subd ARG(16),x
+ std 6,y ; Save, borrow preserved
+
+ ldd ARG(6),x
+ sbcb ARG(15),x
+ sbca ARG(14),x
+ std 4,y
+
+ ldd ARG(4),x
+ sbcb ARG(13),x
+ sbca ARG(12),x
+ std 2,y
+
+ ldd ARG(2),x ; Subtract MSB
+ sbcb ARG(11),x
+ sbca ARG(10),x
+ std 0,y
+
+ xgdy ;
+ ret
+#endif
+
+#ifdef L_notdi2
+ declare ___notdi2
+
+ tsy
+ xgdx
+ ldd ARG(8),y
+ coma
+ comb
+ std 6,x
+
+ ldd ARG(6),y
+ coma
+ comb
+ std 4,x
+
+ ldd ARG(4),y
+ coma
+ comb
+ std 2,x
+
+ ldd ARG(2),y
+ coma
+ comb
+ std 0,x
+ xgdx
+ ret
+#endif
+
+#ifdef L_negsi2
+ declare_near ___negsi2
+
+ comb
+ coma
+ xgdx
+ comb
+ coma
+ inx
+ xgdx
+ bne done
+ inx
+done:
+ rts
+#endif
+
+#ifdef L_one_cmplsi2
+ declare_near ___one_cmplsi2
+
+ comb
+ coma
+ xgdx
+ comb
+ coma
+ xgdx
+ rts
+#endif
+
+#ifdef L_ashlsi3
+ declare_near ___ashlsi3
+
+ xgdy
+ clra
+ andb #0x1f
+ xgdy
+ beq Return
+Loop:
+ lsld
+ xgdx
+ rolb
+ rola
+ xgdx
+ dey
+ bne Loop
+Return:
+ rts
+#endif
+
+#ifdef L_ashrsi3
+ declare_near ___ashrsi3
+
+ xgdy
+ clra
+ andb #0x1f
+ xgdy
+ beq Return
+Loop:
+ xgdx
+ asra
+ rorb
+ xgdx
+ rora
+ rorb
+ dey
+ bne Loop
+Return:
+ rts
+#endif
+
+#ifdef L_lshrsi3
+ declare_near ___lshrsi3
+
+ xgdy
+ clra
+ andb #0x1f
+ xgdy
+ beq Return
+Loop:
+ xgdx
+ lsrd
+ xgdx
+ rora
+ rorb
+ dey
+ bne Loop
+Return:
+ rts
+#endif
+
+#ifdef L_lshrhi3
+ declare_near ___lshrhi3
+
+ cpx #16
+ bge Return_zero
+ cpx #0
+ beq Return
+Loop:
+ lsrd
+ dex
+ bne Loop
+Return:
+ rts
+Return_zero:
+ clra
+ clrb
+ rts
+#endif
+
+#ifdef L_lshlhi3
+ declare_near ___lshlhi3
+
+ cpx #16
+ bge Return_zero
+ cpx #0
+ beq Return
+Loop:
+ lsld
+ dex
+ bne Loop
+Return:
+ rts
+Return_zero:
+ clra
+ clrb
+ rts
+#endif
+
+#ifdef L_rotrhi3
+ declare_near ___rotrhi3
+
+___rotrhi3:
+ xgdx
+ clra
+ andb #0x0f
+ xgdx
+ beq Return
+Loop:
+ tap
+ rorb
+ rora
+ dex
+ bne Loop
+Return:
+ rts
+#endif
+
+#ifdef L_rotlhi3
+ declare_near ___rotlhi3
+
+___rotlhi3:
+ xgdx
+ clra
+ andb #0x0f
+ xgdx
+ beq Return
+Loop:
+ asrb
+ rolb
+ rola
+ rolb
+ dex
+ bne Loop
+Return:
+ rts
+#endif
+
+#ifdef L_ashrhi3
+ declare_near ___ashrhi3
+
+ cpx #16
+ bge Return_minus_1_or_zero
+ cpx #0
+ beq Return
+Loop:
+ asra
+ rorb
+ dex
+ bne Loop
+Return:
+ rts
+Return_minus_1_or_zero:
+ clrb
+ tsta
+ bpl Return_zero
+ comb
+Return_zero:
+ tba
+ rts
+#endif
+
+#ifdef L_ashrqi3
+ declare_near ___ashrqi3
+
+ cmpa #8
+ bge Return_minus_1_or_zero
+ tsta
+ beq Return
+Loop:
+ asrb
+ deca
+ bne Loop
+Return:
+ rts
+Return_minus_1_or_zero:
+ clrb
+ tstb
+ bpl Return_zero
+ coma
+Return_zero:
+ tab
+ rts
+#endif
+
+#ifdef L_lshlqi3
+ declare_near ___lshlqi3
+
+ cmpa #8
+ bge Return_zero
+ tsta
+ beq Return
+Loop:
+ lslb
+ deca
+ bne Loop
+Return:
+ rts
+Return_zero:
+ clrb
+ rts
+#endif
+
+#ifdef L_divmodhi4
+#ifndef mc68hc12
+/* 68HC12 signed divisions are generated inline (idivs). */
+
+ declare_near __divmodhi4
+
+;
+;; D = numerator
+;; X = denominator
+;;
+;; Result: D = D / X
+;; X = D % X
+;;
+ tsta
+ bpl Numerator_pos
+ comb ; D = -D <=> D = (~D) + 1
+ coma
+ xgdx
+ inx
+ tsta
+ bpl Numerator_neg_denominator_pos
+Numerator_neg_denominator_neg:
+ comb ; X = -X
+ coma
+ addd #1
+ xgdx
+ idiv
+ coma
+ comb
+ xgdx ; Remainder <= 0 and result >= 0
+ inx
+ rts
+
+Numerator_pos_denominator_pos:
+ xgdx
+ idiv
+ xgdx ; Both values are >= 0
+ rts
+
+Numerator_pos:
+ xgdx
+ tsta
+ bpl Numerator_pos_denominator_pos
+Numerator_pos_denominator_neg:
+ coma ; X = -X
+ comb
+ xgdx
+ inx
+ idiv
+ xgdx ; Remainder >= 0 but result <= 0
+ coma
+ comb
+ addd #1
+ rts
+
+Numerator_neg_denominator_pos:
+ xgdx
+ idiv
+ coma ; One value is > 0 and the other < 0
+ comb ; Change the sign of result and remainder
+ xgdx
+ inx
+ coma
+ comb
+ addd #1
+ rts
+#endif /* !mc68hc12 */
+#endif
+
+#ifdef L_mulqi3
+ declare_near ___mulqi3
+
+;
+; short __mulqi3(signed char a, signed char b);
+;
+; signed char a -> register A
+; signed char b -> register B
+;
+; returns the signed result of A * B in register D.
+;
+ tsta
+ bmi A_neg
+ tstb
+ bmi B_neg
+ mul
+ rts
+B_neg:
+ negb
+ bra A_or_B_neg
+A_neg:
+ nega
+ tstb
+ bmi AB_neg
+A_or_B_neg:
+ mul
+ coma
+ comb
+ addd #1
+ rts
+AB_neg:
+ negb
+ mul
+ rts
+#endif
+
+#ifdef L_mulhi3
+ declare_near ___mulhi3
+
+;
+;
+; unsigned short ___mulhi3(unsigned short a, unsigned short b)
+;
+; a = register D
+; b = register X
+;
+#ifdef mc68hc12
+ pshx ; Preserve X
+ exg x,y
+ emul
+ exg x,y
+ pulx
+ rts
+#else
+#ifdef NO_TMP
+ ;
+ ; 16 bit multiplication without temp memory location.
+ ; (smaller but slower)
+ ;
+ pshx ; (4)
+ ins ; (3)
+ pshb ; (3)
+ psha ; (3)
+ pshx ; (4)
+ pula ; (4)
+ pulx ; (5)
+ mul ; (10) B.high * A.low
+ xgdx ; (3)
+ mul ; (10) B.low * A.high
+ abx ; (3)
+ pula ; (4)
+ pulb ; (4)
+ mul ; (10) B.low * A.low
+ pshx ; (4)
+ tsx ; (3)
+ adda 1,x ; (4)
+ pulx ; (5)
+ rts ; (5) 20 bytes
+ ; ---
+ ; 91 cycles
+#else
+ stx *_.tmp ; (4)
+ pshb ; (3)
+ ldab *_.tmp+1 ; (3)
+ mul ; (10) A.high * B.low
+ ldaa *_.tmp ; (3)
+ stab *_.tmp ; (3)
+ pulb ; (4)
+ pshb ; (4)
+ mul ; (10) A.low * B.high
+ addb *_.tmp ; (4)
+ stab *_.tmp ; (3)
+ ldaa *_.tmp+1 ; (3)
+ pulb ; (4)
+ mul ; (10) A.low * B.low
+ adda *_.tmp ; (4)
+ rts ; (5) 24/32 bytes
+ ; 77/85 cycles
+#endif
+#endif
+#endif
+
+#ifdef L_mulhi32
+
+;
+;
+; unsigned long __mulhi32(unsigned short a, unsigned short b)
+;
+; a = register D
+; b = value on stack
+;
+; +---------------+
+; | B low | <- 7,x
+; +---------------+
+; | B high | <- 6,x
+; +---------------+
+; | PC low |
+; +---------------+
+; | PC high |
+; +---------------+
+; | Tmp low |
+; +---------------+
+; | Tmp high |
+; +---------------+
+; | A low |
+; +---------------+
+; | A high |
+; +---------------+ <- 0,x
+;
+;
+; <B-low> 5,x
+; <B-high> 4,x
+; <ret> 2,x
+; <A-low> 1,x
+; <A-high> 0,x
+;
+ declare_near __mulhi32
+
+#ifdef mc68hc12
+ ldy 2,sp
+ emul
+ exg x,y
+ rts
+#else
+ pshx ; Room for temp value
+ pshb
+ psha
+ tsx
+ ldab 6,x
+ mul
+ xgdy ; A.high * B.high
+ ldab 7,x
+ pula
+ mul ; A.high * B.low
+ std 2,x
+ ldaa 1,x
+ ldab 6,x
+ mul ; A.low * B.high
+ addd 2,x
+ stab 2,x
+ tab
+ aby
+ bcc N
+ ldab #0xff
+ aby
+ iny
+N:
+ ldab 7,x
+ pula
+ mul ; A.low * B.low
+ adda 2,x
+ pulx ; Drop temp location
+ pshy ; Put high part in X
+ pulx
+ bcc Ret
+ inx
+Ret:
+ rts
+#endif
+#endif
+
+#ifdef L_mulsi3
+
+;
+; <B-low> 8,y
+; <B-high> 6,y
+; <ret> 4,y
+; <tmp> 2,y
+; <A-low> 0,y
+;
+; D,X -> A
+; Stack -> B
+;
+; The result is:
+;
+; (((A.low * B.high) + (A.high * B.low)) << 16) + (A.low * B.low)
+;
+;
+;
+
+ declare __mulsi3
+
+#ifdef mc68hc12
+
+
+
+ pshd ; Save A.low
+ ldy ARG(4),sp
+ emul ; A.low * B.high
+ ldy ARG(6),sp
+ exg x,d
+ emul ; A.high * B.low
+ leax d,x
+ ldy ARG(6),sp
+ puld
+ emul ; A.low * B.low
+ exg d,y
+ leax d,x
+ exg d,y
+ ret
+#else
+B_low = ARG(8)
+B_high = ARG(6)
+A_low = 0
+A_high = 2
+ pshx
+ pshb
+ psha
+ tsy
+;
+; If B.low is 0, optimize into: (A.low * B.high) << 16
+;
+ ldd B_low,y
+ beq B_low_zero
+;
+; If A.high is 0, optimize into: (A.low * B.high) << 16 + (A.low * B.low)
+;
+ cpx #0
+ beq A_high_zero
+ bsr ___mulhi3 ; A.high * B.low
+;
+; If A.low is 0, optimize into: (A.high * B.low) << 16
+;
+ ldx A_low,y
+ beq A_low_zero ; X = 0, D = A.high * B.low
+ std 2,y
+;
+; If B.high is 0, we can avoid the (A.low * B.high) << 16 term.
+;
+ ldd B_high,y
+ beq B_high_zero
+ bsr ___mulhi3 ; A.low * B.high
+ addd 2,y
+ std 2,y
+;
+; Here, we know that A.low and B.low are not 0.
+;
+B_high_zero:
+ ldd B_low,y ; A.low is on the stack
+ bsr __mulhi32 ; A.low * B.low
+ xgdx
+ tsy ; Y was clobbered, get it back
+ addd 2,y
+A_low_zero: ; See A_low_zero_non_optimized below
+ xgdx
+Return:
+ ins
+ ins
+ ins
+ ins
+ ret
+;
+;
+; A_low_zero_non_optimized:
+;
+; At this step, X = 0 and D = (A.high * B.low)
+; Optimize into: (A.high * B.low) << 16
+;
+; xgdx
+; clra ; Since X was 0, clearing D is superfuous.
+; clrb
+; bra Return
+; ----------------
+; B.low == 0, the result is: (A.low * B.high) << 16
+;
+; At this step:
+; D = B.low = 0
+; X = A.high ?
+; A.low is at A_low,y ?
+; B.low is at B_low,y ?
+;
+B_low_zero:
+ ldd A_low,y
+ beq Zero1
+ ldx B_high,y
+ beq Zero2
+ bsr ___mulhi3
+Zero1:
+ xgdx
+Zero2:
+ clra
+ clrb
+ bra Return
+; ----------------
+; A.high is 0, optimize into: (A.low * B.high) << 16 + (A.low * B.low)
+;
+; At this step:
+; D = B.low != 0
+; X = A.high = 0
+; A.low is at A_low,y ?
+; B.low is at B_low,y ?
+;
+A_high_zero:
+ ldd A_low,y ; A.low
+ beq Zero1
+ ldx B_high,y ; B.high
+ beq A_low_B_low
+ bsr ___mulhi3
+ std 2,y
+ bra B_high_zero ; Do the (A.low * B.low) and the add.
+
+; ----------------
+; A.high and B.high are 0 optimize into: (A.low * B.low)
+;
+; At this step:
+; D = B.high = 0
+; X = A.low != 0
+; A.low is at A_low,y != 0
+; B.high is at B_high,y = 0
+;
+A_low_B_low:
+ ldd B_low,y ; A.low is on the stack
+ bsr __mulhi32
+ bra Return
+#endif
+#endif
+
+#ifdef L_map_data
+
+ .sect .install2,"ax",@progbits
+ .globl __map_data_section
+ .globl __data_image
+#ifdef mc68hc12
+ .globl __data_section_size
+#endif
+__map_data_section:
+#ifdef mc68hc12
+ ldx #__data_image
+ ldy #__data_section_start
+ ldd #__data_section_size
+ beq Done
+Loop:
+ movb 1,x+,1,y+
+ dbne d,Loop
+#else
+ ldx #__data_image
+ ldy #__data_section_start
+ bra Start_map
+Loop:
+ ldaa 0,x
+ staa 0,y
+ inx
+ iny
+Start_map:
+ cpx #__data_image_end
+ blo Loop
+#endif
+Done:
+
+#endif
+
+#ifdef L_init_bss
+
+ .sect .install2,"ax",@progbits
+ .globl __init_bss_section
+
+__init_bss_section:
+ ldd #__bss_size
+ beq Done
+ ldx #__bss_start
+Loop:
+#ifdef mc68hc12
+ clr 1,x+
+ dbne d,Loop
+#else
+ clr 0,x
+ inx
+ subd #1
+ bne Loop
+#endif
+Done:
+
+#endif
+
+#ifdef L_ctor
+
+; End of constructor table
+ .sect .install3,"ax",@progbits
+ .globl __do_global_ctors
+
+__do_global_ctors:
+ ; Start from the end - sizeof(void*)
+ ldx #__CTOR_END__-2
+ctors_loop:
+ cpx #__CTOR_LIST__
+ blo ctors_done
+ pshx
+ ldx 0,x
+ jsr 0,x
+ pulx
+ dex
+ dex
+ bra ctors_loop
+ctors_done:
+
+#endif
+
+#ifdef L_dtor
+
+ .sect .fini3,"ax",@progbits
+ .globl __do_global_dtors
+
+;;
+;; This piece of code is inserted in the _exit() code by the linker.
+;;
+__do_global_dtors:
+ pshb ; Save exit code
+ psha
+ ldx #__DTOR_LIST__
+dtors_loop:
+ cpx #__DTOR_END__
+ bhs dtors_done
+ pshx
+ ldx 0,x
+ jsr 0,x
+ pulx
+ inx
+ inx
+ bra dtors_loop
+dtors_done:
+ pula ; Restore exit code
+ pulb
+
+#endif
+
+#ifdef L_far_tramp
+#ifdef mc68hc12
+ .sect .tramp,"ax",@progbits
+ .globl __far_trampoline
+
+;; This is a trampoline used by the linker to invoke a function
+;; using rtc to return and being called with jsr/bsr.
+;; The trampoline generated is:
+;;
+;; foo_tramp:
+;; ldy #foo
+;; call __far_trampoline,page(foo)
+;;
+;; The linker transforms:
+;;
+;; jsr foo
+;;
+;; into
+;; jsr foo_tramp
+;;
+;; The linker generated trampoline and _far_trampoline must be in
+;; non-banked memory.
+;;
+__far_trampoline:
+ movb 0,sp, 2,sp ; Copy page register below the caller's return
+ leas 2,sp ; address.
+ jmp 0,y ; We have a 'call/rtc' stack layout now
+ ; and can jump to the far handler
+ ; (whose memory bank is mapped due to the
+ ; call to the trampoline).
+#endif
+
+#ifdef mc68hc11
+ .sect .tramp,"ax",@progbits
+ .globl __far_trampoline
+
+;; Trampoline generated by gcc for 68HC11:
+;;
+;; pshb
+;; ldab #%page(func)
+;; ldy #%addr(func)
+;; jmp __far_trampoline
+;;
+__far_trampoline:
+ psha ; (2) Save function parameter (high)
+ ;; <Read current page in A>
+ psha ; (2)
+ ;; <Set currenge page from B>
+ pshx ; (4)
+ tsx ; (3)
+ ldab 4,x ; (4) Restore function parameter (low)
+ ldaa 2,x ; (4) Get saved page number
+ staa 4,x ; (4) Save it below return PC
+ pulx ; (5)
+ pula ; (3)
+ pula ; (3) Restore function parameter (high)
+ jmp 0,y ; (4)
+#endif
+#endif
+
+#ifdef L_call_far
+#ifdef mc68hc11
+ .sect .tramp,"ax",@progbits
+ .globl __call_a16
+ .globl __call_a32
+;;
+;; The call methods are used for 68HC11 to support memory bank switching.
+;; Every far call is redirected to these call methods. Its purpose is to:
+;;
+;; 1/ Save the current page on the stack (1 byte to follow 68HC12 call frame)
+;; 2/ Install the new page
+;; 3/ Jump to the real function
+;;
+;; The page switching (get/save) is board dependent. The default provided
+;; here does nothing (just create the appropriate call frame).
+;;
+;; Call sequence (10 bytes, 13 cycles):
+;;
+;; ldx #page ; (3)
+;; ldy #func ; (4)
+;; jsr __call_a16 ; (6)
+;;
+;; Call trampoline (11 bytes, 19 cycles):
+;;
+__call_a16:
+ ;; xgdx ; (3)
+ ;; <Read current page in A> ; (3) ldaa _current_page
+ psha ; (2)
+ ;; <Set current page from B> ; (4) staa _current_page
+ ;; xgdx ; (3)
+ jmp 0,y ; (4)
+
+;;
+;; Call sequence (10 bytes, 14 cycles):
+;;
+;; pshb ; (2)
+;; ldab #page ; (2)
+;; ldy #func ; (4)
+;; jsr __call_a32 ; (6)
+;;
+;; Call trampoline (87 bytes, 57 cycles):
+;;
+__call_a32:
+ pshx ; (4)
+ psha ; (2)
+ ;; <Read current page in A> ; (3) ldaa _current_page
+ psha ; (2)
+ ;; <Set current page from B> ; (4) staa _current_page
+ tsx ; (3)
+ ldab 6,x ; (4) Restore function parameter
+ ldaa 5,x ; (4) Move PC return at good place
+ staa 6,x ; (4)
+ ldaa 4,x ; (4)
+ staa 5,x ; (4)
+ pula ; (3)
+ staa 4,x ; (4)
+ pula ; (3)
+ pulx ; (5)
+ jmp 0,y ; (4)
+#endif
+#endif
+
+#ifdef L_return_far
+#ifdef mc68hc11
+ .sect .tramp,"ax",@progbits
+ .globl __return_void
+ .globl __return_16
+ .globl __return_32
+
+__return_void:
+ ;; pulb
+ ;; <Set current page from B> (Board specific)
+ ;; rts
+__return_16:
+ ;; xgdx
+ ;; pulb
+ ;; <Set current page from B> (Board specific)
+ ;; xgdx
+ ;; rts
+__return_32:
+ ;; xgdy
+ ;; pulb
+ ;; <Set current page from B> (Board specific)
+ ;; xgdy
+ ;; rts
+ ins
+ rts
+#endif
+#endif
+.Lend:
+;-----------------------------------------
+; end required gcclib code
+;-----------------------------------------
diff -u -r -N gcc-3.3.6-core-orig/gcc/config/m68hc11/larith.asm gcc-3.3.6/gcc/config/m68hc11/larith.asm
--- gcc-3.3.6-core-orig/gcc/config/m68hc11/larith.asm 2003-04-12 15:53:47.000000000 +0100
+++ gcc-3.3.6/gcc/config/m68hc11/larith.asm 2010-11-09 20:47:16.000000000 +0000
@@ -35,6 +35,20 @@
.file "larith.asm"
+/* cover the root directory case */
+#if !defined(mc68hc11) && !defined(mc68hc12) && !defined(m9s12x)
+#if defined(target11)
+#define mc68hc11
+#endif
+#if defined(target12)
+#define mc68hc12
+#endif
+#if defined(targets12x)
+#define m9s12x
+#define mc68hc12
+#endif
+#endif
+
#ifdef __HAVE_SHORT_INT__
.mode mshort
#else
@@ -402,18 +416,30 @@
std 6,y ; Save, borrow preserved
ldd ARG(6),x
+#if defined(m9s12x)
+ sbed ARG(14),x
+#else
sbcb ARG(15),x
sbca ARG(14),x
+#endif
std 4,y
ldd ARG(4),x
+#if defined(m9s12x)
+ sbed ARG(12),x
+#else
sbcb ARG(13),x
sbca ARG(12),x
+#endif
std 2,y
ldd ARG(2),x ; Subtract MSB
+#if defined(m9s12x)
+ sbed ARG(10),x
+#else
sbcb ARG(11),x
sbca ARG(10),x
+#endif
std 0,y
xgdy ;
@@ -469,10 +495,14 @@
comb
coma
+#if defined(m9s12x)
+ comx
+#else
xgdx
comb
coma
xgdx
+#endif
rts
#endif
@@ -486,10 +516,14 @@
beq Return
Loop:
lsld
+#if defined(m9s12x)
+ rolx
+#else
xgdx
rolb
rola
xgdx
+#endif
dey
bne Loop
Return:
@@ -505,10 +539,14 @@
xgdy
beq Return
Loop:
+#if defined(m9s12x)
+ asrx
+#else
xgdx
asra
rorb
xgdx
+#endif
rora
rorb
dey
@@ -526,9 +564,13 @@
xgdy
beq Return
Loop:
+#if defined(m9s12x)
+ lsrx
+#else
xgdx
lsrd
xgdx
+#endif
rora
rorb
dey
@@ -579,10 +621,14 @@
declare_near ___rotrhi3
___rotrhi3:
+#if defined(m9s12x)
+ andx #0x000f
+#else
xgdx
clra
andb #0x0f
xgdx
+#endif
beq Return
Loop:
tap
@@ -598,10 +644,14 @@
declare_near ___rotlhi3
___rotlhi3:
+#if defined(m9s12x)
+ andx #0x000f
+#else
xgdx
clra
andb #0x0f
xgdx
+#endif
beq Return
Loop:
asrb
@@ -951,6 +1001,9 @@
declare __mulsi3
#ifdef mc68hc12
+
+
+
pshd ; Save A.low
ldy ARG(4),sp
emul ; A.low * B.high
diff -u -r -N gcc-3.3.6-core-orig/gcc/config/m68hc11/ldivmod.asm gcc-3.3.6/gcc/config/m68hc11/ldivmod.asm
--- gcc-3.3.6-core-orig/gcc/config/m68hc11/ldivmod.asm 1970-01-01 01:00:00.000000000 +0100
+++ gcc-3.3.6/gcc/config/m68hc11/ldivmod.asm 2010-11-09 20:47:16.000000000 +0000
@@ -0,0 +1,598 @@
+;;;-----------------------------------------
+
+;;; Hand coded div and mod functions.
+;;; AES 2009
+;;; for S12X platform
+;;;-----------------------------------------
+
+; Re-coded for m68hc12 as well - James Murray October 2010
+
+ .file "ldivmod.asm"
+
+
+/* cover the root directory case */
+#if !defined(mc68hc11) && !defined(mc68hc12) && !defined(m9s12x)
+#if defined(target11)
+#define mc68hc11
+#endif
+#if defined(target12)
+#define mc68hc12
+#endif
+#if defined(targets12x)
+#define m9s12x
+#define mc68hc12
+#endif
+#endif
+
+#if !defined(mc68hc11)
+; not for 68hc11
+
+#ifdef __HAVE_SHORT_INT__
+ .mode mshort
+#else
+ .mode mlong
+#endif
+
+ .macro declare_near name
+ .globl \name
+ .type \name,@function
+ .size \name,.Lend-\name
+\name:
+ .endm
+
+#if defined(__USE_RTC__)
+# define ARG(N) N+1
+
+ .macro ret
+#if defined(mc68hc12)
+ rtc
+#else
+ jmp __return_32
+#endif
+ .endm
+
+ .macro declare name
+ .globl \name
+ .type \name,@function
+ .size \name,.Lend-\name
+ .far \name
+\name:
+ .endm
+
+ .macro farsym name
+ .far NAME
+ .endm
+
+#else
+# define ARG(N) N
+
+ .macro ret
+ rts
+ .endm
+
+ .macro farsym name
+ .endm
+
+ .macro declare name
+ .globl \name
+ .type \name,@function
+ .size \name,.Lend-\name
+\name:
+ .endm
+
+#endif
+
+ .sect .text
+
+
+#define REG(NAME) \
+NAME: .dc.w 1; \
+ .type NAME,@object ; \
+ .size NAME,2
+
+#ifdef L_regs_min
+/* Pseudo hard registers used by gcc.
+ They should be located in page0. */
+
+ .sect .softregs
+ .globl _.tmp
+
+REG(_.tmp)
+#endif
+
+
+
+/* ok, guessing that we get called with a in D and X and B on stack */
+
+;;;
+;;; long __divsi3 ( long num, long den )
+;;;
+
+;;; d == num_low
+;;; x == num_high
+
+;;; sp, ARG(4) == den_high
+;;; sp, ARG(6) == den_low
+;;; return result in XD
+
+;;; calling here we have also pushed 4 extra bytes on stack
+;;; and we dont use a frame pointer
+
+
+udivmodsi:
+ pshy ; preserve y
+ pshd ; save numerator in case ediv fails
+ pshx
+#ifndef m9s12x
+ tst ARG(10), sp ; does denominator fit in uint16 ?
+ bne go_soft_udivmodsi
+ tst ARG(11), sp ; does denominator fit in uint16 ?
+ bne go_soft_udivmodsi
+#else
+ tstw ARG(10), sp ; does denominator fit in uint16 ?
+ bne go_soft_udivmodsi
+#endif
+ tfr x,y ; load num_high into y
+ ldx ARG(12), sp ; load denominator into x
+ ediv
+ bvs go_soft_udivmodsi ; overflow ??
+
+ ;; overwrite denominator on stack with modulus
+ ;; this is ok since c copies args onto stack (???CHECKME)
+
+ std ARG(12), sp
+#ifndef m9s12x
+ clr ARG(10), sp
+ clr ARG(11), sp
+#else
+ clrw ARG(10), sp
+#endif
+
+ ;; return division results in X:D
+#ifndef m9s12x
+ ldx #0
+#else
+ clrx
+#endif
+ tfr y,d
+
+ leas 4, sp ; deallocate stack for numerator save
+ puly ; retrieve y
+ rts
+
+go_soft_udivmodsi:
+#ifndef m9s12x
+ ldy #0
+#else
+ clry
+#endif
+ bra soft_udivmodsi
+
+
+divmodsi:
+
+ pshy ; preserve y
+ pshd ; save numerator in case edivs fails
+ pshx
+ ldy ARG(10),sp ; denominator fits in signed int16 ??
+ beq test_pos
+#ifndef m9s12x
+ xgdy
+ coma
+ comb
+ xgdy
+#else
+ comy
+#endif
+ beq test_neg
+ bra soft_divmodsi
+test_pos:
+ ldy ARG(12),sp
+ bpl hard_divmodsi
+ bra soft_divmodsi
+
+test_neg:
+ ldy ARG(12),sp
+ bpl soft_divmodsi
+
+hard_divmodsi:
+
+ exg x,y
+ edivs ; attempt a divide by hardware
+ bvs soft_divmodsi ; an overflow happened ... do soft divide
+
+#ifndef m9s12x
+ clr ARG(10),sp
+ clr ARG(11),sp
+#else
+ clrw ARG(10),sp
+#endif
+ std ARG(12), sp
+ bpl skip_hdsx_mod ; sign extend modulus
+ movw #0xFFFF, ARG(10), sp
+skip_hdsx_mod:
+
+
+ ;; returned division results in X:D
+#ifndef m9s12x
+ ldx #0
+ xgdy
+ tsta
+ xgdy
+#else
+ clrx
+ tsty
+#endif
+ bpl skip_hdsx_div ; sign extend result
+ ldx #0xFFFF
+
+skip_hdsx_div:
+ tfr y,d
+ leas 4,sp ; deallocate stack
+ puly ; retrieve y
+ rts
+
+soft_divmodsi:
+ ;; numerator in sp and sp+1 ; den in ARG(10) and ARG(12)
+#ifndef m9s12x
+ ldy #0
+#else
+ clry ; use y to evaluate sign of result
+#endif
+ tst 0, sp ; was tstw
+ bpl sd_skip_neg_num
+
+#ifndef m9s12x
+ xgdy
+ orab #3
+ xgdy
+ com 3, sp
+ com 2, sp
+ com 1, sp
+ com 0, sp
+ inc 3, sp
+ bne sd_skip_neg_num
+ inc 2, sp
+ bne sd_skip_neg_num
+ inc 1, sp
+ bne sd_skip_neg_num
+ inc 0, sp
+#else
+ ory #3
+ comw 2, sp
+ comw 0, sp
+ incw 2, sp
+ bne sd_skip_neg_num
+ incw 0, sp
+#endif
+
+sd_skip_neg_num:
+
+ tst ARG(10), sp
+ bpl sd_skip_neg_den ; was tstw
+
+#ifndef m9s12x
+ xgdy
+ eorb #1
+ xgdy
+ com ARG(13), sp
+ com ARG(12), sp
+ com ARG(11), sp
+ com ARG(10), sp
+ inc ARG(13), sp
+ bne sd_skip_neg_den
+ inc ARG(12), sp
+ bne sd_skip_neg_den
+ inc ARG(11), sp
+ bne sd_skip_neg_den
+ inc ARG(10), sp
+#else
+ eory #1
+ comw ARG(12), sp
+ comw ARG(10), sp
+ incw ARG(12), sp
+ bne sd_skip_neg_den
+ incw ARG(10), sp
+#endif
+
+sd_skip_neg_den:
+soft_udivmodsi: ; if called from udivmodsi
+ ; make sure y=0
+ leas -8,sp ; allocate for 'bit' and 'res'
+
+ ;; stack should look like this on entry if ARG(N)=N:
+
+ ;;
+ ;;
+ ;;
+ ;; denominator (SI) --- sp+18
+ ;;
+ ;; return address for calling function (HI) sp+16
+ ;;
+ ;; return address for frontend function (HI) sp+14
+ ;;
+ ;; preserve y ---- sp+12
+ ;;
+ ;;
+ ;;
+ ;; numerator (SI) ---- sp+8
+ ;;
+ ;;
+ ;;
+ ;; bit (SI) ---- sp+4
+ ;;
+ ;;
+ ;;
+ ;; res (SI) ---- sp
+
+#ifndef m9s12x
+ clr 0, sp ; res = 0
+ clr 1, sp
+ clr 2, sp
+ clr 3, sp
+ tst ARG(18),sp
+ bne checked_den
+ tst ARG(19),sp
+ bne checked_den
+ tst ARG(20),sp
+ bne checked_den
+ tst ARG(21),sp
+ beq while_end
+#else
+ clrw 0, sp ; res = 0
+ clrw 2, sp
+ tstw ARG(18),sp
+ bne checked_den
+ tstw ARG(20),sp
+ beq while_end
+#endif
+
+checked_den:
+
+ movw #1, 6, sp
+#ifndef m9s12x
+ clr 4,sp ; bit = 1
+ clr 5,sp ; bit = 1
+#else
+ clrw 4,sp ; bit = 1
+#endif
+
+while_den: ; while ((den < num) && !(den.bit31))
+ tst ARG(18), sp ; was tstw
+ bmi while_bit
+ ldd 10,sp
+ ldx 8,sp
+
+ subd ARG(20), sp
+#ifndef m9s12x
+ xgdx
+ sbcb ARG(19), sp
+ sbca ARG(18), sp
+ xgdx
+#else
+ sbex ARG(18), sp
+#endif
+ bcs while_bit
+
+#ifndef m9s12x
+ asl ARG(21), sp ; den <<= 1
+ rol ARG(20), sp
+ rol ARG(19), sp
+ rol ARG(18), sp
+
+ asl 7,sp ; bit <<= 1
+ rol 6,sp
+ rol 5,sp
+ rol 4,sp
+#else
+ aslw ARG(20), sp ; den <<= 1
+ rolw ARG(18), sp
+
+ aslw 6,sp ; bit <<= 1
+ rolw 4,sp
+#endif
+
+ bra while_den
+
+
+while_bit: ; while (bit!=0)
+#ifndef m9s12x
+ tst 4, sp
+ bne while_bit_ok
+ tst 5, sp
+ bne while_bit_ok
+ tst 6, sp
+ bne while_bit_ok
+ tst 7,sp
+ beq while_end
+#else
+ tstw 4, sp
+ bne while_bit_ok
+ tstw 6,sp
+ beq while_end
+#endif
+
+while_bit_ok:
+
+ ldd 10, sp ; if (num >= den)
+ ldx 8, sp
+ subd ARG(20),sp
+#ifndef m9s12x
+ xgdx
+ sbcb ARG(19),sp
+ sbca ARG(18),sp
+ xgdx
+#else
+ sbex ARG(18),sp
+#endif
+ bcs skip_restore ; here was bmi
+
+ std 10,sp ; num-=den
+ stx 8,sp
+
+#ifndef m9s12x
+ ldd 0,sp ; res|= bit
+ oraa 4,sp
+ orab 5,sp
+ std 0,sp
+ ldd 2,sp
+ oraa 6,sp
+ orab 7,sp
+ std 2,sp
+#else
+ ldx 0,sp ; res|= bit
+ orx 4,sp
+ stx 0,sp
+ ldx 2,sp
+ orx 6,sp
+ stx 2,sp
+#endif
+
+skip_restore:
+
+#ifndef m9s12x
+ lsr 4,sp ; bit >>=1
+ ror 5,sp
+ ror 6,sp
+ ror 7,sp
+
+ lsr ARG(18),sp ; den >>=1
+ ror ARG(19),sp
+ ror ARG(20),sp
+ ror ARG(21),sp
+#else
+ lsrw 4,sp ; bit >>=1
+ rorw 6,sp
+
+ lsrw ARG(18),sp ; den >>=1
+ rorw ARG(20),sp
+#endif
+
+ bra while_bit
+
+while_end:
+ ;; numerator contains mod
+ ;; overwrite denominator with it on stack for return
+// movw 8,sp,ARG(18), sp
+// movw 10,sp, ARG(20), sp
+ leax ARG(18), sp
+ movw 8,sp, 0,x
+ movw 10,sp, 2,x
+
+ ldx 0,sp
+ ldd 2,sp
+
+ leas 12,sp ; deallocate locals
+#ifndef m9s12x
+ xgdy ; do we need to negate result ?
+ tsta
+ bne no_end
+ tstb
+ bne no_end
+ xgdy
+ bra end_division
+no_end:
+ xgdy
+#else
+ tsty ; do we need to negate result ?
+ beq end_division
+#endif
+
+ ;; if y&1 then negate result
+ ;; if y&2 then negate modulus
+
+ pshy
+#ifndef m9s12x
+ xgdy
+ andb #1
+ xgdy
+#else
+ andy #1
+#endif
+ puly
+ beq skip_end_res_neg
+
+ coma
+ comb
+#ifndef m9s12x
+ xgdx
+ coma
+ comb
+ xgdx
+#else
+ comx
+#endif
+ incb
+ bne end_division
+ inca
+ bne end_division
+ inx
+
+skip_end_res_neg:
+#ifndef m9s12x
+ xgdy
+ andb #2
+ xgdy
+#else
+ andy #2
+#endif
+ beq end_division
+
+#ifndef m9s12x
+ com ARG(6), sp
+ com ARG(7), sp
+ com ARG(8), sp
+ com ARG(9), sp
+ inc ARG(9), sp
+ bne end_division
+ inc ARG(8), sp
+ bne end_division
+ inc ARG(7), sp
+ bne end_division
+ inc ARG(6), sp
+#else
+ comw ARG(6), sp
+ comw ARG(8), sp
+ incw ARG(8), sp
+ bne end_division
+ incw ARG(6), sp
+#endif
+
+end_division:
+ puly
+ rts
+
+
+
+;;; si3 frontends for divmodsi3
+
+ declare __divsi3
+ bsr divmodsi
+ ret
+
+ declare __modsi3
+
+ bsr divmodsi
+ ldx ARG(2), sp ; stack has two less on it now
+ ldd ARG(4), sp
+ ret
+
+ declare __umodsi3
+ bsr udivmodsi
+ ldx ARG(2), sp
+ ldd ARG(4), sp
+ ret
+
+
+ declare __udivsi3
+ bsr udivmodsi
+ ret
+
+#endif
+ ; defined(m68hc12) || defined(m9s12x)
+
+
+.Lend:
+;-----------------------------------------
+; end required gcclib code
+;-----------------------------------------
diff -u -r -N gcc-3.3.6-core-orig/gcc/config/m68hc11/ldivmod.asm-s12x_only gcc-3.3.6/gcc/config/m68hc11/ldivmod.asm-s12x_only
--- gcc-3.3.6-core-orig/gcc/config/m68hc11/ldivmod.asm-s12x_only 1970-01-01 01:00:00.000000000 +0100
+++ gcc-3.3.6/gcc/config/m68hc11/ldivmod.asm-s12x_only 2010-11-09 20:47:16.000000000 +0000
@@ -0,0 +1,380 @@
+;;;-----------------------------------------
+
+;;; Hand coded div and mod functions.
+;;; AES 2009
+
+;;;-----------------------------------------
+
+
+
+
+ .file "ldivmod.asm"
+
+#ifdef __HAVE_SHORT_INT__
+ .mode mshort
+#else
+ .mode mlong
+#endif
+
+ .macro declare_near name
+ .globl \name
+ .type \name,@function
+ .size \name,.Lend-\name
+\name:
+ .endm
+
+#if defined(__USE_RTC__)
+# define ARG(N) N+1
+
+ .macro ret
+#if defined(mc68hc12)
+ rtc
+#else
+ jmp __return_32
+#endif
+ .endm
+
+ .macro declare name
+ .globl \name
+ .type \name,@function
+ .size \name,.Lend-\name
+ .far \name
+\name:
+ .endm
+
+ .macro farsym name
+ .far NAME
+ .endm
+
+#else
+# define ARG(N) N
+
+ .macro ret
+ rts
+ .endm
+
+ .macro farsym name
+ .endm
+
+ .macro declare name
+ .globl \name
+ .type \name,@function
+ .size \name,.Lend-\name
+\name:
+ .endm
+
+#endif
+
+ .sect .text
+
+
+#define REG(NAME) \
+NAME: .dc.w 1; \
+ .type NAME,@object ; \
+ .size NAME,2
+
+#ifdef L_regs_min
+/* Pseudo hard registers used by gcc.
+ They should be located in page0. */
+
+ .sect .softregs
+ .globl _.tmp
+
+REG(_.tmp)
+#endif
+
+
+
+/* ok, guessing that we get called with a in D and X and B on stack */
+
+;;;
+;;; long __divsi3 ( long num, long den )
+;;;
+
+;;; d == num_low
+;;; x == num_high
+
+;;; sp, ARG(4) == den_high
+;;; sp, ARG(6) == den_low
+;;; return result in XD
+
+;;; calling here we have also pushed 4 extra bytes on stack
+;;; and we dont use a frame pointer
+
+
+udivmodsi:
+ pshy ; preserve y
+ pshd ; save numerator in case ediv fails
+ pshx
+ tstw ARG(10), sp ; does denominator fit in uint16 ?
+ bne go_soft_udivmodsi
+ tfr x,y ; load num_high into y
+ ldx ARG(12), sp ; load denominator into x
+ ediv
+ bvs go_soft_udivmodsi ; overflow ??
+
+ ;; overwrite denominator on stack with modulus
+ ;; this is ok since c copies args onto stack (???CHECKME)
+
+ std ARG(12), sp
+ clrw ARG(10), sp
+
+ ;; return division results in X:D
+ clrx
+ tfr y,d
+
+ leas 4, sp ; deallocate stack for numerator save
+ puly ; retrieve y
+ rts
+
+go_soft_udivmodsi:
+ clry
+ bra soft_udivmodsi
+
+
+divmodsi:
+
+ pshy ; preserve y
+ pshd ; save numerator in case edivs fails
+ pshx
+ ldy ARG(10),sp ; denominator fits in signed int16 ??
+ beq test_pos
+ comy
+ beq test_neg
+ bra soft_divmodsi
+test_pos:
+ ldy ARG(12),sp
+ bpl hard_divmodsi
+ bra soft_divmodsi
+
+test_neg:
+ ldy ARG(12),sp
+ bpl soft_divmodsi
+
+hard_divmodsi:
+
+ exg x,y
+ edivs ; attempt a divide by hardware
+ bvs soft_divmodsi ; an overflow happened ... do soft divide
+
+ clrw ARG(10),sp
+ std ARG(12), sp
+ bpl skip_hdsx_mod ; sign extend modulus
+ movw #0xFFFF, ARG(10), sp
+skip_hdsx_mod:
+
+
+ ;; returned division results in X:D
+ clrx
+ tsty
+ bpl skip_hdsx_div ; sign extend result
+ ldx #0xFFFF
+
+skip_hdsx_div:
+ tfr y,d
+ leas 4,sp ; deallocate stack
+ puly ; retrieve y
+ rts
+
+soft_divmodsi:
+ ;; numerator in sp and sp+1 ; den in ARG(10) and ARG(12)
+ clry ; use y to evaluate sign of result
+ tstw 0, sp
+ bpl sd_skip_neg_num
+
+ ory #3
+ comw 2, sp
+ comw 0, sp
+ incw 2, sp
+ bne sd_skip_neg_num
+ incw 0, sp
+
+
+sd_skip_neg_num:
+
+ tstw ARG(10), sp
+ bpl sd_skip_neg_den
+
+ eory #1
+ comw ARG(12), sp
+ comw ARG(10), sp
+ incw ARG(12), sp
+ bne sd_skip_neg_den
+ incw ARG(10), sp
+
+
+sd_skip_neg_den:
+soft_udivmodsi: ; if called from udivmodsi
+ ; make sure y=0
+ leas -8,sp ; allocate for 'bit' and 'res'
+
+ ;; stack should look like this on entry if ARG(N)=N:
+
+ ;;
+ ;;
+ ;;
+ ;; denominator (SI) --- sp+18
+ ;;
+ ;; return address for calling function (HI) sp+16
+ ;;
+ ;; return address for frontend function (HI) sp+14
+ ;;
+ ;; preserve y ---- sp+12
+ ;;
+ ;;
+ ;;
+ ;; numerator (SI) ---- sp+8
+ ;;
+ ;;
+ ;;
+ ;; bit (SI) ---- sp+4
+ ;;
+ ;;
+ ;;
+ ;; res (SI) ---- sp
+
+ clrw 0, sp ; res = 0
+ clrw 2, sp
+
+ tstw ARG(18),sp
+ bne checked_den
+ tstw ARG(20),sp
+ beq while_end
+
+checked_den:
+
+ movw #1, 6, sp
+ clrw 4,sp ; bit = 1
+
+while_den: ; while ((den < num) && !(den.bit31))
+ tstw ARG(18), sp
+ bmi while_bit
+ ldd 10,sp
+ ldx 8,sp
+
+ subd ARG(20), sp
+ sbex ARG(18), sp
+ bcs while_bit
+
+ aslw ARG(20), sp ; den <<= 1
+ rolw ARG(18), sp
+
+ aslw 6,sp ; bit <<= 1
+ rolw 4,sp
+
+ bra while_den
+
+
+while_bit: ; while (bit!=0)
+ tstw 4, sp
+ bne while_bit_ok
+ tstw 6,sp
+ beq while_end
+
+while_bit_ok:
+
+ ldd 10, sp ; if (num >= den)
+ ldx 8, sp
+ subd ARG(20),sp
+ sbex ARG(18),sp
+ bcs skip_restore ; here was bmi
+
+ std 10,sp ; num-=den
+ stx 8,sp
+
+ ldx 0,sp ; res|= bit
+ orx 4,sp
+ stx 0,sp
+ ldx 2,sp
+ orx 6,sp
+ stx 2,sp
+
+skip_restore:
+
+ lsrw 4,sp ; bit >>=1
+ rorw 6,sp
+
+ lsrw ARG(18),sp ; den >>=1
+ rorw ARG(20),sp
+
+ bra while_bit
+
+while_end:
+ ;; numerator contains mod
+ ;; overwrite denominator with it on stack for return
+// movw 8,sp,ARG(18), sp
+// movw 10,sp, ARG(20), sp
+ leax ARG(18), sp
+ movw 8,sp, 0,x
+ movw 10,sp, 2,x
+
+ ldx 0,sp
+ ldd 2,sp
+
+ leas 12,sp ; deallocate locals
+ tsty ; do we need to negate result ?
+ beq end_division
+
+ ;; if y&1 then negate result
+ ;; if y&2 then negate modulus
+
+ pshy
+ andy #1
+ puly
+ beq skip_end_res_neg
+
+ coma
+ comb
+ comx
+ incb
+ bne end_division
+ inca
+ bne end_division
+ incx
+
+skip_end_res_neg:
+ andy #2
+ beq end_division
+
+ comw ARG(6), sp
+ comw ARG(8), sp
+ incw ARG(8), sp
+ bne end_division
+ incw ARG(6), sp
+
+
+end_division:
+ puly
+ rts
+
+
+
+;;; si3 frontends for divmodsi3
+
+ declare __divsi3
+ bsr divmodsi
+ ret
+
+ declare __modsi3
+
+ bsr divmodsi
+ ldx ARG(2), sp ; stack has two less on it now
+ ldd ARG(4), sp
+ ret
+
+ declare __umodsi3
+ bsr udivmodsi
+ ldx ARG(2), sp
+ ldd ARG(4), sp
+ ret
+
+
+ declare __udivsi3
+ bsr udivmodsi
+ ret
+
+
+.Lend:
+;-----------------------------------------
+; end required gcclib code
+;-----------------------------------------
diff -u -r -N gcc-3.3.6-core-orig/gcc/config/m68hc11/m68hc11.c gcc-3.3.6/gcc/config/m68hc11/m68hc11.c
--- gcc-3.3.6-core-orig/gcc/config/m68hc11/m68hc11.c 2003-04-12 22:53:41.000000000 +0100
+++ gcc-3.3.6/gcc/config/m68hc11/m68hc11.c 2010-11-09 20:47:16.000000000 +0000
@@ -1,21 +1,22 @@
/* Subroutines for code generation on Motorola 68HC11 and 68HC12.
- Copyright (C) 1999, 2000, 2001, 2002, 2003 Free Software Foundation, Inc.
+ Copyright (C) 1999, 2000, 2001, 2002, 2003, 2004, 2005, 2006
+ Free Software Foundation, Inc.
Contributed by Stephane Carrez (stcarrez@nerim.fr)
-This file is part of GNU CC.
+This file is part of GCC.
-GNU CC is free software; you can redistribute it and/or modify
+GCC is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 2, or (at your option)
any later version.
-GNU CC is distributed in the hope that it will be useful,
+GCC is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
-along with GNU CC; see the file COPYING. If not, write to
+along with GCC; see the file COPYING. If not, write to
the Free Software Foundation, 59 Temple Place - Suite 330,
Boston, MA 02111-1307, USA.
@@ -70,6 +71,7 @@
static int m68hc11_make_autoinc_notes PARAMS ((rtx*, void*));
static int m68hc11_auto_inc_p PARAMS ((rtx));
static tree m68hc11_handle_fntype_attribute PARAMS ((tree *, tree, tree, int, bool *));
+static tree m68hc11_handle_page0_attribute PARAMS ((tree *, tree, tree, int, bool *));
const struct attribute_spec m68hc11_attribute_table[];
void create_regs_rtx PARAMS ((void));
@@ -79,6 +81,7 @@
static void m68hc11_asm_out_constructor PARAMS ((rtx, int));
static void m68hc11_asm_out_destructor PARAMS ((rtx, int));
static void m68hc11_encode_section_info PARAMS((tree, int));
+static const char *m68hc11_strip_name_encoding (const char* str);
/* Must be set to 1 to produce debug messages. */
int debug_m6811 = 0;
@@ -129,6 +132,16 @@
This is 1 for 68HC11 and 0 for 68HC12. */
int m68hc11_sp_correction;
+#define ADDR_STRICT 0x01 /* Accept only registers in class A_REGS */
+#define ADDR_INCDEC 0x02 /* Post/Pre inc/dec */
+#define ADDR_INDEXED 0x04 /* D-reg index */
+#define ADDR_OFFSET 0x08
+#define ADDR_INDIRECT 0x10 /* Accept (mem (mem ...)) for [n,X] */
+#define ADDR_CONST 0x20 /* Accept const and symbol_ref */
+
+int m68hc11_addr_mode;
+int m68hc11_mov_addr_mode;
+
/* Comparison operands saved by the "tstxx" and "cmpxx" expand patterns. */
rtx m68hc11_compare_op0;
rtx m68hc11_compare_op1;
@@ -227,6 +240,9 @@
#undef TARGET_ENCODE_SECTION_INFO
#define TARGET_ENCODE_SECTION_INFO m68hc11_encode_section_info
+#undef TARGET_STRIP_NAME_ENCODING
+#define TARGET_STRIP_NAME_ENCODING m68hc11_strip_name_encoding
+
struct gcc_target targetm = TARGET_INITIALIZER;
int
@@ -264,6 +280,8 @@
m68hc11_reg_valid_for_base[HARD_Z_REGNUM] = 1;
m68hc11_sp_correction = 1;
m68hc11_tmp_regs_class = D_REGS;
+ m68hc11_addr_mode = ADDR_OFFSET;
+ m68hc11_mov_addr_mode = 0;
if (m68hc11_soft_reg_count == 0 && !TARGET_M6812)
m68hc11_soft_reg_count = "4";
}
@@ -283,6 +301,10 @@
m68hc11_reg_valid_for_index[HARD_D_REGNUM] = 1;
m68hc11_sp_correction = 0;
m68hc11_tmp_regs_class = TMP_REGS;
+ m68hc11_addr_mode = ADDR_INDIRECT | ADDR_OFFSET | ADDR_CONST
+ | (TARGET_AUTO_INC_DEC ? ADDR_INCDEC : 0);
+ m68hc11_mov_addr_mode = ADDR_OFFSET | ADDR_CONST
+ | (TARGET_AUTO_INC_DEC ? ADDR_INCDEC : 0);
target_flags &= ~MASK_M6811;
target_flags |= MASK_NO_DIRECT_MODE;
if (m68hc11_soft_reg_count == 0)
@@ -316,7 +338,7 @@
/* For 68HC12, the Z register emulation is not necessary when the
frame pointer is not used. The frame pointer is eliminated and
replaced by the stack register (which is a BASE_REG_CLASS). */
- if (TARGET_M6812 && flag_omit_frame_pointer && optimize)
+ if (TARGET_M6812 && flag_omit_frame_pointer && optimize && 0)
{
fixed_regs[HARD_Z_REGNUM] = 1;
}
@@ -385,8 +407,9 @@
}
int
-m68hc11_hard_regno_rename_ok (reg1, reg2)
+m68hc11_hard_regno_rename_ok (reg1, reg2, mode)
int reg1, reg2;
+ int mode;
{
/* Don't accept renaming to Z register. We will replace it to
X,Y or D during machine reorg pass. */
@@ -398,6 +421,11 @@
&& (D_REGNO_P (reg1) || X_REGNO_P (reg1)))
return 0;
+ /* Don't rename D as if it holds a 8-bit value, the code will be
+ bigger. */
+ if (mode == QImode && D_REGNO_P (reg1))
+ return 0;
+
return 1;
}
@@ -522,21 +550,25 @@
For 68hc11: n,r with n in [0..255] and r in A_REGS class
For 68hc12: n,r no constraint on the constant, r in A_REGS class. */
static int
-register_indirect_p (operand, mode, strict)
- rtx operand;
- enum machine_mode mode;
- int strict;
+register_indirect_p (rtx operand, enum machine_mode mode, int addr_mode)
{
rtx base, offset;
switch (GET_CODE (operand))
{
+ case MEM:
+ if ((addr_mode & ADDR_INDIRECT) && GET_MODE_SIZE (mode) <= 2)
+ return register_indirect_p (XEXP (operand, 0), mode,
+ addr_mode & (ADDR_STRICT | ADDR_OFFSET));
+ return 0;
+
case POST_INC:
case PRE_INC:
case POST_DEC:
case PRE_DEC:
- if (TARGET_M6812 && TARGET_AUTO_INC_DEC)
- return register_indirect_p (XEXP (operand, 0), mode, strict);
+ if (addr_mode & ADDR_INCDEC)
+ return register_indirect_p (XEXP (operand, 0), mode,
+ addr_mode & ADDR_STRICT);
return 0;
case PLUS:
@@ -548,36 +580,57 @@
if (GET_CODE (offset) == MEM)
return 0;
+ /* Indexed addressing mode with 2 registers. */
+ if (GET_CODE (base) == REG && GET_CODE (offset) == REG)
+ {
+ if (!(addr_mode & ADDR_INDEXED))
+ return 0;
+
+ addr_mode &= ADDR_STRICT;
+ if (REGNO_OK_FOR_BASE_P2 (REGNO (base), addr_mode)
+ && REGNO_OK_FOR_INDEX_P2 (REGNO (offset), addr_mode))
+ return 1;
+
+ if (REGNO_OK_FOR_BASE_P2 (REGNO (offset), addr_mode)
+ && REGNO_OK_FOR_INDEX_P2 (REGNO (base), addr_mode))
+ return 1;
+
+ return 0;
+ }
+
+ if (!(addr_mode & ADDR_OFFSET))
+ return 0;
+
if (GET_CODE (base) == REG)
{
- if (!VALID_CONSTANT_OFFSET_P (offset, mode))
+ if (!VALID_CONSTANT_OFFSET_P (offset, mode))
return 0;
- if (strict == 0)
+ if (!(addr_mode & ADDR_STRICT))
return 1;
- return REGNO_OK_FOR_BASE_P2 (REGNO (base), strict);
+ return REGNO_OK_FOR_BASE_P2 (REGNO (base), 1);
}
+
if (GET_CODE (offset) == REG)
{
if (!VALID_CONSTANT_OFFSET_P (base, mode))
return 0;
- if (strict == 0)
+ if (!(addr_mode & ADDR_STRICT))
return 1;
- return REGNO_OK_FOR_BASE_P2 (REGNO (offset), strict);
+ return REGNO_OK_FOR_BASE_P2 (REGNO (offset), 1);
}
return 0;
case REG:
- return REGNO_OK_FOR_BASE_P2 (REGNO (operand), strict);
+ return REGNO_OK_FOR_BASE_P2 (REGNO (operand), addr_mode & ADDR_STRICT);
case CONST_INT:
- if (TARGET_M6811)
- return 0;
-
- return VALID_CONSTANT_OFFSET_P (operand, mode);
+ if (addr_mode & ADDR_CONST)
+ return VALID_CONSTANT_OFFSET_P (operand, mode);
+ return 0;
default:
return 0;
@@ -592,6 +645,7 @@
enum machine_mode mode;
{
rtx base, offset;
+ int addr_mode;
if (GET_CODE (operand) == REG && reload_in_progress
&& REGNO (operand) >= FIRST_PSEUDO_REGISTER
@@ -611,7 +665,8 @@
if (PUSH_POP_ADDRESS_P (operand))
return 1;
- if (!register_indirect_p (operand, mode, reload_completed))
+ addr_mode = m68hc11_mov_addr_mode | (reload_completed ? ADDR_STRICT : 0);
+ if (!register_indirect_p (operand, mode, addr_mode))
return 0;
if (TARGET_M6812 && GET_CODE (operand) == PLUS
@@ -654,12 +709,21 @@
rtx operand;
enum machine_mode mode;
{
+ int addr_mode;
+
+ if (GET_CODE (operand) == REG && reload_in_progress
+ && REGNO (operand) >= FIRST_PSEUDO_REGISTER
+ && reg_equiv_memory_loc[REGNO (operand)])
+ {
+ operand = reg_equiv_memory_loc[REGNO (operand)];
+ operand = eliminate_regs (operand, 0, NULL_RTX);
+ }
if (GET_CODE (operand) != MEM)
return 0;
operand = XEXP (operand, 0);
- return register_indirect_p (operand, mode,
- (reload_completed | reload_in_progress));
+ addr_mode = m68hc11_addr_mode | (reload_completed ? ADDR_STRICT : 0);
+ return register_indirect_p (operand, mode, addr_mode);
}
static int
@@ -668,6 +732,8 @@
enum machine_mode mode;
int strict;
{
+ int addr_mode;
+
if (CONSTANT_ADDRESS_P (operand) && TARGET_M6812)
{
/* Reject the global variables if they are too wide. This forces
@@ -677,7 +743,8 @@
return 1;
}
- if (register_indirect_p (operand, mode, strict))
+ addr_mode = m68hc11_addr_mode | (strict ? ADDR_STRICT : 0);
+ if (register_indirect_p (operand, mode, addr_mode))
{
return 1;
}
@@ -930,6 +997,27 @@
return general_operand (operand, mode);
}
+/* Predicate for nonimmediate operands but which rejects the
+ auto-increment/decrement modes. We must use this predicate
+ for operand 0 (and sometimes operand 1) when an insn can have
+ an operand that would create a RELOAD_OTHER in which a reload
+ part (RELOAD_FOR_OUTPUT_ADDRESS) could be created. When this
+ happens, the RELOAD_FOR_OUTPUT_ADDRESS is emitted after the RELOAD_OTHER
+ and this will not be valid. */
+int
+nonimmediate_noinc_operand (operand, mode)
+ rtx operand;
+ enum machine_mode mode;
+{
+ if (GET_CODE (operand) == MEM)
+ {
+ rtx addr = XEXP (operand, 0);
+ if (m68hc11_auto_inc_p (addr))
+ return 0;
+ }
+ return nonimmediate_operand (operand, mode);
+}
+
int
non_push_operand (operand, mode)
rtx operand;
@@ -944,6 +1032,43 @@
}
int
+splitable_operand (operand, mode)
+ rtx operand;
+ enum machine_mode mode;
+{
+ if (general_operand (operand, mode) == 0)
+ return 0;
+
+ if (push_operand (operand, mode) == 1)
+ return 0;
+
+ /* Reject a (MEM (MEM X)) because the patterns that use non_push_operand
+ need to split such addresses to access the low and high part but it
+ is not possible to express a valid address for the low part. */
+ if (mode != QImode && GET_CODE (operand) == MEM
+ && GET_CODE (XEXP (operand, 0)) == MEM)
+ return 0;
+ return 1;
+}
+
+int
+push_or_splitable_operand (operand, mode)
+ rtx operand;
+ enum machine_mode mode;
+{
+ if (general_operand (operand, mode) == 0)
+ return 0;
+
+ /* Reject a (MEM (MEM X)) because the patterns that use non_push_operand
+ need to split such addresses to access the low and high part but it
+ is not possible to express a valid address for the low part. */
+ if (mode != QImode && GET_CODE (operand) == MEM
+ && GET_CODE (XEXP (operand, 0)) == MEM)
+ return 0;
+ return 1;
+}
+
+int
reg_or_some_mem_operand (operand, mode)
rtx operand;
enum machine_mode mode;
@@ -951,6 +1076,7 @@
if (GET_CODE (operand) == MEM)
{
rtx op = XEXP (operand, 0);
+ int addr_mode;
if (symbolic_memory_operand (op, mode))
return 1;
@@ -958,10 +1084,20 @@
if (IS_STACK_PUSH (operand))
return 1;
- if (m68hc11_register_indirect_p (operand, mode))
- return 1;
+ if (GET_CODE (operand) == REG && reload_in_progress
+ && REGNO (operand) >= FIRST_PSEUDO_REGISTER
+ && reg_equiv_memory_loc[REGNO (operand)])
+ {
+ operand = reg_equiv_memory_loc[REGNO (operand)];
+ operand = eliminate_regs (operand, 0, NULL_RTX);
+ }
+ if (GET_CODE (operand) != MEM)
+ return 0;
- return 0;
+ operand = XEXP (operand, 0);
+ addr_mode = m68hc11_addr_mode | (reload_completed ? ADDR_STRICT : 0);
+ addr_mode &= ~ADDR_INDIRECT;
+ return register_indirect_p (operand, mode, addr_mode);
}
return register_operand (operand, mode);
@@ -987,18 +1123,23 @@
rtx operand;
enum machine_mode mode;
{
- if (GET_CODE (operand) == MEM)
+ if (GET_CODE (operand) == MEM && GET_MODE (operand) == mode)
{
rtx op = XEXP (operand, 0);
+ int addr_mode;
+
+ if (m68hc11_page0_symbol_p (op))
+ return 1;
if (symbolic_memory_operand (op, mode))
- return 0;
+ return TARGET_M6812;
if (reload_in_progress)
return 1;
operand = XEXP (operand, 0);
- return register_indirect_p (operand, mode, reload_completed);
+ addr_mode = m68hc11_addr_mode | (reload_completed ? ADDR_STRICT : 0);
+ return register_indirect_p (operand, mode, addr_mode);
}
return 0;
}
@@ -1234,6 +1375,31 @@
/* Declaration of types. */
+/* Handle an "tiny_data" attribute; arguments as in
+ struct attribute_spec.handler. */
+static tree
+m68hc11_handle_page0_attribute (node, name, args, flags, no_add_attrs)
+ tree *node;
+ tree name;
+ tree args ATTRIBUTE_UNUSED;
+ int flags ATTRIBUTE_UNUSED;
+ bool *no_add_attrs;
+{
+ tree decl = *node;
+
+ if (TREE_STATIC (decl) || DECL_EXTERNAL (decl))
+ {
+ DECL_SECTION_NAME (decl) = build_string (6, ".page0");
+ }
+ else
+ {
+ warning ("`%s' attribute ignored", IDENTIFIER_POINTER (name));
+ *no_add_attrs = true;
+ }
+
+ return NULL_TREE;
+}
+
const struct attribute_spec m68hc11_attribute_table[] =
{
/* { name, min_len, max_len, decl_req, type_req, fn_type_req, handler } */
@@ -1241,6 +1407,7 @@
{ "trap", 0, 0, false, true, true, m68hc11_handle_fntype_attribute },
{ "far", 0, 0, false, true, true, m68hc11_handle_fntype_attribute },
{ "near", 0, 0, false, true, true, m68hc11_handle_fntype_attribute },
+ { "page0", 0, 0, false, false, false, m68hc11_handle_page0_attribute },
{ NULL, 0, 0, false, false, false, NULL }
};
@@ -1271,6 +1438,52 @@
return NULL_TREE;
}
+/* Undo the effects of the above. */
+
+static const char *
+m68hc11_strip_name_encoding (str)
+ const char *str;
+{
+ return str + (*str == '*' || *str == '@' || *str == '&');
+}
+
+static void
+m68hc11_encode_label (tree decl)
+{
+ const char *str = XSTR (XEXP (DECL_RTL (decl), 0), 0);
+ int len = strlen (str);
+ char *newstr = alloca (len + 2);
+
+ newstr[0] = '@';
+ strcpy (&newstr[1], str);
+
+ XSTR (XEXP (DECL_RTL (decl), 0), 0) = ggc_alloc_string (newstr, len + 1);
+}
+
+/* Return 1 if this is a symbol in page0 */
+int
+m68hc11_page0_symbol_p (rtx x)
+{
+ switch (GET_CODE (x))
+ {
+ case SYMBOL_REF:
+ return XSTR (x, 0) != 0 && XSTR (x, 0)[0] == '@';
+
+ case CONST:
+ return m68hc11_page0_symbol_p (XEXP (x, 0));
+
+ case PLUS:
+ if (!m68hc11_page0_symbol_p (XEXP (x, 0)))
+ return 0;
+
+ return GET_CODE (XEXP (x, 1)) == CONST_INT
+ && INTVAL (XEXP (x, 1)) < 256
+ && INTVAL (XEXP (x, 1)) >= 0;
+
+ default:
+ return 0;
+ }
+}
/* We want to recognize trap handlers so that we handle calls to traps
in a special manner (by issuing the trap). This information is stored
@@ -1286,6 +1499,13 @@
int is_far = 0;
rtx rtl;
+ if (TREE_CODE (decl) == VAR_DECL)
+ {
+ if (lookup_attribute ("page0", DECL_ATTRIBUTES (decl)) != 0)
+ m68hc11_encode_label (decl);
+ return;
+ }
+
if (TREE_CODE (decl) != FUNCTION_DECL)
return;
@@ -1372,15 +1592,19 @@
/* For a trap handler, we must take into account the registers which
are pushed on the stack during the trap (except the PC). */
func_attr = TYPE_ATTRIBUTES (TREE_TYPE (current_function_decl));
+ current_function_interrupt = lookup_attribute ("interrupt",
+ func_attr) != NULL_TREE;
+ trap_handler = lookup_attribute ("trap", func_attr) != NULL_TREE;
if (lookup_attribute ("far", func_attr) != 0)
current_function_far = 1;
else if (lookup_attribute ("near", func_attr) != 0)
current_function_far = 0;
else
- current_function_far = TARGET_LONG_CALLS != 0;
+ current_function_far = (TARGET_LONG_CALLS != 0
+ && !current_function_interrupt
+ && !trap_handler);
- trap_handler = lookup_attribute ("trap", func_attr) != NULL_TREE;
if (trap_handler && from == ARG_POINTER_REGNUM)
size = 7;
@@ -1679,7 +1903,9 @@
else if (lookup_attribute ("near", func_attr) != NULL_TREE)
current_function_far = 0;
else
- current_function_far = TARGET_LONG_CALLS != 0;
+ current_function_far = (TARGET_LONG_CALLS != 0
+ && !current_function_interrupt
+ && !current_function_trap);
/* Get the scratch register to build the frame and push registers.
If the first argument is a 32-bit quantity, the D+X registers
@@ -2014,6 +2240,14 @@
{
return gen_int_mode (val >> 16, HImode);
}
+ else if (mode == SImode)
+ {
+#if HOST_BITS_PER_WIDE_INT > 32
+ return gen_int_mode (val >> 32, SImode);
+#else
+ return (val >= 0) ? const0_rtx : constm1_rtx;
+#endif
+ }
}
if (mode == QImode && D_REG_P (x))
return gen_rtx (REG, mode, HARD_A_REGNUM);
@@ -2307,7 +2541,21 @@
abort ();
break;
+ case MEM:
+ if (TARGET_M6812)
+ {
+ fprintf (file, "[");
+ print_operand_address (file, XEXP (base, 0));
+ fprintf (file, "]");
+ }
+ else
+ abort ();
+ break;
+
default:
+ if (m68hc11_page0_symbol_p (base))
+ fprintf (file, "*");
+
output_address (base);
break;
}
@@ -2349,7 +2597,7 @@
}
/* Returns true if the operand 'op' must be printed with parenthesis
- arround it. This must be done only if there is a symbol whose name
+ around it. This must be done only if there is a symbol whose name
is a processor register. */
static int
must_parenthesize (op)
@@ -2903,15 +3151,7 @@
high_to = m68hc11_gen_highpart (mode, to);
low_from = m68hc11_gen_lowpart (mode, from);
- if (mode == SImode && GET_CODE (from) == CONST_INT)
- {
- if (INTVAL (from) >= 0)
- high_from = const0_rtx;
- else
- high_from = constm1_rtx;
- }
- else
- high_from = m68hc11_gen_highpart (mode, from);
+ high_from = m68hc11_gen_highpart (mode, from);
if (offset)
{
@@ -3104,26 +3344,8 @@
low[2] = m68hc11_gen_lowpart (mode, operands[2]);
high[0] = m68hc11_gen_highpart (mode, operands[0]);
-
- if (mode == SImode && GET_CODE (operands[1]) == CONST_INT)
- {
- if (INTVAL (operands[1]) >= 0)
- high[1] = const0_rtx;
- else
- high[1] = constm1_rtx;
- }
- else
- high[1] = m68hc11_gen_highpart (mode, operands[1]);
-
- if (mode == SImode && GET_CODE (operands[2]) == CONST_INT)
- {
- if (INTVAL (operands[2]) >= 0)
- high[2] = const0_rtx;
- else
- high[2] = constm1_rtx;
- }
- else
- high[2] = m68hc11_gen_highpart (mode, operands[2]);
+ high[1] = m68hc11_gen_highpart (mode, operands[1]);
+ high[2] = m68hc11_gen_highpart (mode, operands[2]);
low[3] = operands[3];
high[3] = operands[3];
@@ -3236,10 +3458,13 @@
if (TARGET_M6812)
{
- if (IS_STACK_PUSH (operands[0]) && H_REG_P (operands[1]))
+ rtx from = operands[1];
+ rtx to = operands[0];
+
+ if (IS_STACK_PUSH (to) && H_REG_P (from))
{
cc_status = cc_prev_status;
- switch (REGNO (operands[1]))
+ switch (REGNO (from))
{
case HARD_X_REGNUM:
case HARD_Y_REGNUM:
@@ -3247,17 +3472,17 @@
output_asm_insn ("psh%1", operands);
break;
case HARD_SP_REGNUM:
- output_asm_insn ("sts\t-2,sp", operands);
+ output_asm_insn ("sts\t2,-sp", operands);
break;
default:
abort ();
}
return;
}
- if (IS_STACK_POP (operands[1]) && H_REG_P (operands[0]))
+ if (IS_STACK_POP (from) && H_REG_P (to))
{
cc_status = cc_prev_status;
- switch (REGNO (operands[0]))
+ switch (REGNO (to))
{
case HARD_X_REGNUM:
case HARD_Y_REGNUM:
@@ -3278,17 +3503,6 @@
{
if (SP_REG_P (operands[0]))
output_asm_insn ("lds\t%1", operands);
- else if (0 /* REG_WAS_0 note is boggus; don't rely on it. */
- && !D_REG_P (operands[0])
- && GET_CODE (operands[1]) == CONST_INT
- && (INTVAL (operands[1]) == 1 || INTVAL (operands[1]) == -1)
- && find_reg_note (insn, REG_WAS_0, 0))
- {
- if (INTVAL (operands[1]) == 1)
- output_asm_insn ("in%0", operands);
- else
- output_asm_insn ("de%0", operands);
- }
else
output_asm_insn ("ld%0\t%1", operands);
}
@@ -3299,11 +3513,52 @@
else
output_asm_insn ("st%1\t%0", operands);
}
+
+ /* The 68hc12 does not support (MEM:HI (MEM:HI)) with the movw
+ instruction. We have to use a scratch register as temporary location.
+ Trying to use a specific pattern or constrain failed. */
+ else if (GET_CODE (to) == MEM && GET_CODE (XEXP (to, 0)) == MEM)
+ {
+ rtx ops[4];
+
+ ops[0] = to;
+ ops[2] = from;
+ ops[3] = 0;
+ if (dead_register_here (insn, d_reg))
+ ops[1] = d_reg;
+ else if (dead_register_here (insn, ix_reg))
+ ops[1] = ix_reg;
+ else if (dead_register_here (insn, iy_reg))
+ ops[1] = iy_reg;
+ else
+ {
+ ops[1] = d_reg;
+ ops[3] = d_reg;
+ output_asm_insn ("psh%3", ops);
+ }
+
+ ops[0] = to;
+ ops[2] = from;
+ output_asm_insn ("ld%1\t%2", ops);
+ output_asm_insn ("st%1\t%0", ops);
+ if (ops[3])
+ output_asm_insn ("pul%3", ops);
+ }
+
+ /* Use movw for non-null constants or when we are clearing
+ a volatile memory reference. However, this is possible
+ only if the memory reference has a small offset or is an
+ absolute address. */
+ else if (GET_CODE (from) == CONST_INT
+ && INTVAL (from) == 0
+ && (MEM_VOLATILE_P (to) == 0
+ || m68hc11_small_indexed_indirect_p (to, HImode) == 0))
+ {
+ output_asm_insn ("clr\t%h0", operands);
+ output_asm_insn ("clr\t%b0", operands);
+ }
else
{
- rtx from = operands[1];
- rtx to = operands[0];
-
if ((m68hc11_register_indirect_p (from, GET_MODE (from))
&& !m68hc11_small_indexed_indirect_p (from, GET_MODE (from)))
|| (m68hc11_register_indirect_p (to, GET_MODE (to))
@@ -3320,6 +3575,7 @@
ops[0] = to;
ops[1] = operands[2];
m68hc11_gen_movhi (insn, ops);
+ return;
}
else
{
@@ -3327,19 +3583,11 @@
fatal_insn ("move insn not handled", insn);
}
}
- else
- {
- if (GET_CODE (from) == CONST_INT && INTVAL (from) == 0)
- {
- output_asm_insn ("clr\t%h0", operands);
- output_asm_insn ("clr\t%b0", operands);
- }
- else
- {
- m68hc11_notice_keep_cc (operands[0]);
- output_asm_insn ("movw\t%1,%0", operands);
- }
- }
+ else
+ {
+ m68hc11_notice_keep_cc (operands[0]);
+ output_asm_insn ("movw\t%1,%0", operands);
+ }
}
return;
}
@@ -3472,16 +3720,6 @@
cc_status = cc_prev_status;
output_asm_insn ("tsx", operands);
}
- else if (0 /* REG_WAS_0 note is boggus; don't rely on it. */
- && GET_CODE (operands[1]) == CONST_INT
- && (INTVAL (operands[1]) == 1 || INTVAL (operands[1]) == -1)
- && find_reg_note (insn, REG_WAS_0, 0))
- {
- if (INTVAL (operands[1]) == 1)
- output_asm_insn ("in%0", operands);
- else
- output_asm_insn ("de%0", operands);
- }
else
{
output_asm_insn ("ldx\t%1", operands);
@@ -3530,16 +3768,6 @@
cc_status = cc_prev_status;
output_asm_insn ("tsy", operands);
}
- else if (0 /* REG_WAS_0 note is boggus; don't rely on it. */
- && GET_CODE (operands[1]) == CONST_INT
- && (INTVAL (operands[1]) == 1 || INTVAL (operands[1]) == -1)
- && find_reg_note (insn, REG_WAS_0, 0))
- {
- if (INTVAL (operands[1]) == 1)
- output_asm_insn ("in%0", operands);
- else
- output_asm_insn ("de%0", operands);
- }
else
{
output_asm_insn ("ldy\t%1", operands);
@@ -3689,8 +3917,10 @@
}
else if (H_REG_P (operands[0]))
{
- if (Q_REG_P (operands[0]))
- output_asm_insn ("lda%0\t%b1", operands);
+ if (IS_STACK_POP (operands[1]))
+ output_asm_insn ("pul%b0", operands);
+ else if (Q_REG_P (operands[0]))
+ output_asm_insn ("lda%0\t%b1", operands);
else if (D_REG_P (operands[0]))
output_asm_insn ("ldab\t%b1", operands);
else
@@ -3780,16 +4010,6 @@
output_asm_insn ("ldab\t%T0", operands);
}
}
- else if (0 /* REG_WAS_0 note is boggus; don't rely on it. */
- && GET_CODE (operands[1]) == CONST_INT
- && (INTVAL (operands[1]) == 1 || INTVAL (operands[1]) == -1)
- && find_reg_note (insn, REG_WAS_0, 0))
- {
- if (INTVAL (operands[1]) == 1)
- output_asm_insn ("inc%b0", operands);
- else
- output_asm_insn ("dec%b0", operands);
- }
else if (!DB_REG_P (operands[1]) && !D_REG_P (operands[1])
&& !DA_REG_P (operands[1]))
{
@@ -3935,11 +4155,34 @@
break;
case HARD_X_REGNUM:
- output_asm_insn ("xgdx\n\tstab\t%b0\n\txgdx", operands);
- break;
-
- case HARD_Y_REGNUM:
- output_asm_insn ("xgdy\n\tstab\t%b0\n\txgdy", operands);
+ case HARD_Y_REGNUM:
+ if (!reg_mentioned_p (operands[1], operands[0]))
+ {
+ output_asm_insn ("xgd%1\n\tstab\t%b0\n\txgd%1", operands);
+ }
+ else if (TARGET_M6811)
+ {
+ int dead = dead_register_here (insn, d_reg);
+ output_asm_insn ("st%1\t%t1", operands);
+ if (!dead)
+ output_asm_insn ("psha", operands);
+ output_asm_insn ("ldaa\t%T1", operands);
+ output_asm_insn ("staa\t%0", operands);
+ if (!dead)
+ output_asm_insn ("pula", operands);
+ CC_STATUS_INIT;
+ }
+ else
+ {
+ int dead = dead_register_here (insn, d_reg);
+ if (!dead)
+ output_asm_insn ("psha", operands);
+ output_asm_insn ("tfr\t%1,a", operands);
+ output_asm_insn ("staa\t%0", operands);
+ if (!dead)
+ output_asm_insn ("pulb", operands);
+ CC_STATUS_INIT;
+ }
break;
default:
@@ -4136,6 +4379,12 @@
&& cc_status.value2
&& reg_overlap_mentioned_p (cc_status.value1, cc_status.value2))
cc_status.value2 = 0;
+
+ else if (cc_status.value1 && side_effects_p (cc_status.value1))
+ cc_status.value1 = 0;
+
+ else if (cc_status.value2 && side_effects_p (cc_status.value2))
+ cc_status.value2 = 0;
}
/* The current instruction does not affect the flags but changes
@@ -4306,8 +4555,10 @@
{
if ((GET_CODE (src) == REG && REGNO (src) == HARD_Z_REGNUM)
|| (GET_CODE (src) == COMPARE &&
- (rtx_equal_p (XEXP (src, 0), z_reg)
- || rtx_equal_p (XEXP (src, 1), z_reg))))
+ ((rtx_equal_p (XEXP (src, 0), z_reg)
+ && H_REG_P (XEXP (src, 1)))
+ || (rtx_equal_p (XEXP (src, 1), z_reg)
+ && H_REG_P (XEXP (src, 0))))))
{
if (insn == info->first)
{
@@ -4905,7 +5156,7 @@
/* The insn uses the Z register. Find a replacement register for it
(either X or Y) and replace it in the insn and the next ones until
the flow changes or the replacement register is used. Instructions
- are emited before and after the Z-block to preserve the value of
+ are emitted before and after the Z-block to preserve the value of
Z and of the replacement register. */
static void
@@ -5067,9 +5318,11 @@
if (info.save_before_last)
save_pos_insn = PREV_INSN (save_pos_insn);
- emit_insn_before (gen_movhi (gen_rtx (REG, HImode, SOFT_Z_REGNUM),
- gen_rtx (REG, HImode, info.regno)),
- save_pos_insn);
+ /* Use emit_insn_after () to ensure the new insn is part of
+ the good basic block. */
+ emit_insn_after (gen_movhi (gen_rtx (REG, HImode, SOFT_Z_REGNUM),
+ gen_rtx (REG, HImode, info.regno)),
+ PREV_INSN (save_pos_insn));
}
if (info.must_push_reg && info.last)
@@ -5108,8 +5361,8 @@
else
dst = gen_rtx (REG, HImode, SOFT_SAVED_XY_REGNUM);
- emit_insn_before (gen_movhi (gen_rtx (REG, HImode, info.regno),
- dst), insn);
+ emit_insn_after (gen_movhi (gen_rtx (REG, HImode, info.regno),
+ dst), PREV_INSN (insn));
}
}
@@ -5176,6 +5429,13 @@
}
+/* Machine-dependent reorg pass.
+ Specific optimizations are defined here:
+ - this pass changes the Z register into either X or Y
+ (it preserves X/Y previous values in a memory slot in page0).
+
+ When this pass is finished, the global variable
+ 'z_replacement_completed' is set to 2. */
void
m68hc11_reorg (first)
rtx first;
@@ -5204,7 +5464,7 @@
z_replacement_completed = 1;
m68hc11_reassign_regs (first);
- /* After some splitting, there are some oportunities for CSE pass.
+ /* After some splitting, there are some opportunities for CSE pass.
This happens quite often when 32-bit or above patterns are split. */
if (optimize > 0 && split_done)
{
@@ -5355,7 +5615,7 @@
break;
case SYMBOL_REF:
- cost = 8;
+ cost = m68hc11_page0_symbol_p (addr) ? 0 : 8;
break;
case LABEL_REF:
@@ -5388,7 +5648,7 @@
break;
case SYMBOL_REF:
- cost = 8;
+ cost = m68hc11_page0_symbol_p (addr) ? 0 : 8;
break;
case CONST:
diff -u -r -N gcc-3.3.6-core-orig/gcc/config/m68hc11/m68hc11-crt0.S gcc-3.3.6/gcc/config/m68hc11/m68hc11-crt0.S
--- gcc-3.3.6-core-orig/gcc/config/m68hc11/m68hc11-crt0.S 2002-08-14 08:32:52.000000000 +0100
+++ gcc-3.3.6/gcc/config/m68hc11/m68hc11-crt0.S 2010-11-09 20:47:16.000000000 +0000
@@ -79,7 +79,7 @@
;;
;; int __premain(void);
;;
- jsr __premain
+ bsr __premain
;;
;;
diff -u -r -N gcc-3.3.6-core-orig/gcc/config/m68hc11/m68hc11.h gcc-3.3.6/gcc/config/m68hc11/m68hc11.h
--- gcc-3.3.6-core-orig/gcc/config/m68hc11/m68hc11.h 2003-07-08 22:07:33.000000000 +0100
+++ gcc-3.3.6/gcc/config/m68hc11/m68hc11.h 2010-11-09 20:47:16.000000000 +0000
@@ -1,22 +1,23 @@
/* Definitions of target machine for GNU compiler.
Motorola 68HC11 and 68HC12.
- Copyright (C) 1999, 2000, 2001, 2002, 2003 Free Software Foundation, Inc.
+ Copyright (C) 1999, 2000, 2001, 2002, 2003, 2004,
+ 2005, 2006 Free Software Foundation, Inc.
Contributed by Stephane Carrez (stcarrez@nerim.fr)
-This file is part of GNU CC.
+This file is part of GCC.
-GNU CC is free software; you can redistribute it and/or modify
+GCC is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 2, or (at your option)
any later version.
-GNU CC is distributed in the hope that it will be useful,
+GCC is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
-along with GNU CC; see the file COPYING. If not, write to
+along with GCC; see the file COPYING. If not, write to
the Free Software Foundation, 59 Temple Place - Suite 330,
Boston, MA 02111-1307, USA.
@@ -41,24 +42,28 @@
#undef ENDFILE_SPEC
-/* Compile and assemble for a 68hc11 unless there is a -m68hc12 option. */
+/* Default to compile and assemble for a 68hc11 */
+/* convert parameter style from 'cc1' to 'as' */
#ifndef ASM_SPEC
#define ASM_SPEC \
"%{m68hc12:-m68hc12}" \
"%{m68hcs12:-m68hcs12}" \
-"%{!m68hc12:%{!m68hcs12:-m68hc11}} " \
+"%{m9s12x:-mm9s12x}" \
+"%{!m68hc12:%{!m68hcs12:%{!m9s12x:-m68hc11}}} " \
"%{mshort:-mshort}%{!mshort:-mlong} " \
"%{fshort-double:-mshort-double}%{!fshort-double:-mlong-double}"
#endif
/* We need to tell the linker the target elf format. Just pass an
- emulation option. This can be overriden by -Wl option of gcc. */
+ emulation option. This can be overridden by -Wl option of gcc. */
#ifndef LINK_SPEC
#define LINK_SPEC \
"%{m68hc12:-m m68hc12elf}" \
"%{m68hcs12:-m m68hc12elf}" \
-"%{!m68hc12:%{!m68hcs12:-m m68hc11elf}} " \
-"%{!mnorelax:%{!m68hc12:%{!m68hcs12:-relax}}}"
+"%{m9s12x:-m m9s12x}" \
+"%{!m68hc12:%{!m68hcs12:%{!m9s12x:-m m68hc11elf}}} " \
+"%{!mnorelax:%{!m68hc12:%{!m68hcs12:%{!m9s12x:-relax}}}}"
+
#endif
#ifndef LIB_SPEC
@@ -75,7 +80,8 @@
%{!mshort:-D__INT__=32}\
%{m68hc12:-Dmc6812 -DMC6812 -Dmc68hc12}\
%{m68hcs12:-Dmc6812 -DMC6812 -Dmc68hcs12}\
- %{!m68hc12:%{!m68hcs12:-Dmc6811 -DMC6811 -Dmc68hc11}}\
+ %{m9s12x:-Dmc6812 -DMC6812 -Dmc68hcs12}\
+ %{!m68hc12:%{!m68hcs12:%{!m9s12x:-Dmc6811 -DMC6811 -Dmc68hc11}}}\
%{fshort-double:-D__HAVE_SHORT_DOUBLE__}\
%{mlong-calls:-D__USE_RTC__}"
#endif
@@ -84,7 +90,9 @@
#define STARTFILE_SPEC "crt1%O%s"
/* Names to predefine in the preprocessor for this target machine. */
-#define CPP_PREDEFINES "-Dmc68hc1x"
+#ifndef CPP_PREDEFINES
+#define CPP_PREDEFINES "-Dmc68hc1x -Dtarget11"
+#endif
/* As an embedded target, we have no libc. */
#define inhibit_libc
@@ -125,20 +133,22 @@
* with -mauto-incdec.
*/
-#define MASK_SHORT 0002 /* Compile with 16-bit `int' */
-#define MASK_AUTO_INC_DEC 0004
-#define MASK_M6811 0010
-#define MASK_M6812 0020
-#define MASK_M68S12 0040
-#define MASK_NO_DIRECT_MODE 0100
-#define MASK_MIN_MAX 0200
-#define MASK_LONG_CALLS 0400
+#define MASK_SHORT 0x0002 /* Compile with 16-bit `int' */
+#define MASK_AUTO_INC_DEC 0x0004 /* FIXME - tidy M68XX flags order */
+#define MASK_M6811 0x0010
+#define MASK_M6812 0x0020
+#define MASK_M68S12 0x0040
+#define MASK_NO_DIRECT_MODE 0x0100
+#define MASK_MIN_MAX 0x0200
+#define MASK_LONG_CALLS 0x0400
+#define MASK_M68S12X 0x0800
#define TARGET_OP_TIME (optimize && optimize_size == 0)
#define TARGET_SHORT (target_flags & MASK_SHORT)
#define TARGET_M6811 (target_flags & MASK_M6811)
#define TARGET_M6812 (target_flags & MASK_M6812)
#define TARGET_M68S12 (target_flags & MASK_M68S12)
+#define TARGET_M68S12X (!(target_flags & MASK_M6811) && (target_flags & MASK_M68S12X))
#define TARGET_AUTO_INC_DEC (target_flags & MASK_AUTO_INC_DEC)
#define TARGET_MIN_MAX (target_flags & MASK_MIN_MAX)
#define TARGET_NO_DIRECT_MODE (target_flags & MASK_NO_DIRECT_MODE)
@@ -161,6 +171,7 @@
# define MULTILIB_DEFAULTS { "m68hc12" }
# endif
#endif
+/* 9s12x in own .h */
/* Macro to define tables used to set the flags. This is a list in braces of
pairs in braces, each pair being { "NAME", VALUE } where VALUE is the bits
@@ -200,6 +211,10 @@
N_("Compile for a 68HC12")}, \
{ "68S12", MASK_M6812 | MASK_M68S12, \
N_("Compile for a 68HCS12")}, \
+ { "9s12x", MASK_M6812 | MASK_M68S12 | MASK_M68S12X, \
+ N_("Compile for CPU12X")}, \
+ { "m9s12x", MASK_M6812 | MASK_M68S12 | MASK_M68S12X, \
+ N_("Compile for CPU12X")}, \
{ "", TARGET_DEFAULT, 0 }}
/* This macro is similar to `TARGET_SWITCHES' but defines names of
@@ -232,7 +247,7 @@
#endif
/* Print subsidiary information on the compiler version in use. */
-#define TARGET_VERSION fprintf (stderr, " (MC68HC11/MC68HC12/MC68HCS12)")
+#define TARGET_VERSION fprintf (stderr, " (MC68HC11/MC68HC12/MC68HCS12/M9S12X)")
/* Sometimes certain combinations of command options do not make
sense on a particular target machine. You can define a macro
@@ -277,6 +292,10 @@
/* Define this if most significant word of a multiword number is numbered. */
#define WORDS_BIG_ENDIAN 1
+/* Use a MAX_BITS_PER_WORD equivalent to SImode so that
+ several SI patterns can be used (mostly shift & add). */
+/* #define MAX_BITS_PER_WORD 32 */
+
/* Width of a word, in units (bytes). */
#define UNITS_PER_WORD 2
@@ -804,8 +823,8 @@
/* A C expression that is nonzero if hard register number REGNO2 can be
considered for use as a rename register for REGNO1 */
-#define HARD_REGNO_RENAME_OK(REGNO1,REGNO2) \
- m68hc11_hard_regno_rename_ok ((REGNO1), (REGNO2))
+#define HARD_REGNO_RENAME_OK(REGNO1,REGNO2,MODE) \
+ m68hc11_hard_regno_rename_ok ((REGNO1), (REGNO2), (MODE))
/* A C expression whose value is nonzero if pseudos that have been
assigned to registers of class CLASS would likely be spilled
@@ -874,7 +893,9 @@
&& VALUE == CONST0_RTX (GET_MODE (VALUE))) : 0)
/* 'U' represents certain kind of memory indexed operand for 68HC12.
- and any memory operand for 68HC11. */
+ and any memory operand for 68HC11.
+ 'R' represents indexed addressing mode or access to page0 for 68HC11.
+ For 68HC12, it represents any memory operand. */
#define EXTRA_CONSTRAINT(OP, C) \
((C) == 'U' ? m68hc11_small_indexed_indirect_p (OP, GET_MODE (OP)) \
: (C) == 'Q' ? m68hc11_symbolic_p (OP, GET_MODE (OP)) \
@@ -963,7 +984,7 @@
followed by "to". Eliminations of the same "from" register are listed
in order of preference.
- We have two registers that are eliminated on the 6811. The psuedo arg
+ We have two registers that are eliminated on the 6811. The pseudo arg
pointer and pseudo frame pointer registers can always be eliminated;
they are replaced with either the stack or the real frame pointer. */
@@ -1215,7 +1236,7 @@
/* Internal macro, return 1 if REGNO is a valid base register. */
-#define REG_VALID_P(REGNO) (1) /* ? */
+#define REG_VALID_P(REGNO) ((REGNO) >= 0)
extern unsigned char m68hc11_reg_valid_for_base[FIRST_PSEUDO_REGISTER];
#define REG_VALID_FOR_BASE_P(REGNO) \
@@ -1489,7 +1510,7 @@
macro is used in only one place: `find_reloads_address' in reload.c.
For M68HC11, we handle large displacements of a base register
- by splitting the addend accors an addhi3 insn.
+ by splitting the addend across an addhi3 insn.
For M68HC12, the 64K offset range is available.
*/
@@ -1690,7 +1711,7 @@
/* Assembler Commands for Exception Regions. */
-/* Default values provided by GCC should be ok. Assumming that DWARF-2
+/* Default values provided by GCC should be ok. Assuming that DWARF-2
frame unwind info is ok for this platform. */
#undef PREFERRED_DEBUGGING_TYPE
@@ -1719,6 +1740,12 @@
#define IMMEDIATE_PREFIX "#"
#define GLOBAL_ASM_OP "\t.globl\t"
+/* This is how to output a reference to a user-level label named NAME.
+ `assemble_name' uses this. */
+#undef ASM_OUTPUT_LABELREF
+#define ASM_OUTPUT_LABELREF(FILE, NAME) \
+ asm_fprintf (FILE, "%U%s", (*targetm.strip_name_encoding) (NAME))
+
/* Miscellaneous Parameters. */
@@ -1737,8 +1764,10 @@
{"m68hc11_shift_operator", {ASHIFT, ASHIFTRT, LSHIFTRT, ROTATE, ROTATERT}},\
{"m68hc11_eq_compare_operator", {EQ, NE}}, \
{"non_push_operand", {SUBREG, REG, MEM}}, \
+{"splitable_operand", {SUBREG, REG, MEM}}, \
{"reg_or_some_mem_operand", {SUBREG, REG, MEM}}, \
{"tst_operand", {SUBREG, REG, MEM}}, \
+{"nonimmediate_noinc_operand", {SUBREG, REG, MEM}}, \
{"cmp_operand", {SUBREG, REG, MEM, SYMBOL_REF, LABEL_REF, \
CONST_INT, CONST_DOUBLE}},
diff -u -r -N gcc-3.3.6-core-orig/gcc/config/m68hc11/m68hc11.md gcc-3.3.6/gcc/config/m68hc11/m68hc11.md
--- gcc-3.3.6-core-orig/gcc/config/m68hc11/m68hc11.md 2003-04-12 22:25:37.000000000 +0100
+++ gcc-3.3.6/gcc/config/m68hc11/m68hc11.md 2010-11-09 20:47:16.000000000 +0000
@@ -1,21 +1,22 @@
;;- Machine description file for Motorola 68HC11 and 68HC12.
-;;- Copyright (C) 1999, 2000, 2001, 2002, 2003 Free Software Foundation, Inc.
+;;- Copyright (C) 1999, 2000, 2001, 2002, 2003, 2004, 2005
+;;- Free Software Foundation, Inc.
;;- Contributed by Stephane Carrez (stcarrez@nerim.fr)
-;; This file is part of GNU CC.
+;; This file is part of GCC.
-;; GNU CC is free software; you can redistribute it and/or modify
+;; GCC is free software; you can redistribute it and/or modify
;; it under the terms of the GNU General Public License as published by
;; the Free Software Foundation; either version 2, or (at your option)
;; any later version.
-;; GNU CC is distributed in the hope that it will be useful,
+;; GCC is distributed in the hope that it will be useful,
;; but WITHOUT ANY WARRANTY; without even the implied warranty of
;; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
;; GNU General Public License for more details.
;; You should have received a copy of the GNU General Public License
-;; along with GNU CC; see the file COPYING. If not, write to
+;; along with GCC; see the file COPYING. If not, write to
;; the Free Software Foundation, 59 Temple Place - Suite 330,
;; Boston, MA 02111-1307, USA.
@@ -93,7 +94,7 @@
;; Operands modifiers:
;;
;; %b Get the low part of the operand (to obtain a QImode)
-;; This modified must always be used for QImode operations
+;; This modifier must always be used for QImode operations
;; because a correction must be applied when the operand
;; is a soft register (ex: *ZD1). Otherwise, we generate
;; *ZD1 and this is the high part of the register. For other
@@ -143,7 +144,9 @@
(A_REGNUM 5) ; A (high part of D)
(B_REGNUM 6) ; B (low part of D)
(CC_REGNUM 7) ; Condition code register
- (SOFT_Z_REGNUM 11) ; Z soft register
+ (SOFT_TMP_REGNUM 10) ; TMP soft register
+ (SOFT_Z_REGNUM 11) ; Z soft register
+ (SOFT_XY_REGNUM 12) ; XY soft register
])
;;--------------------------------------------------------------------
@@ -247,19 +250,13 @@
;; avoid problems with the flow+cse register pass which are made
;; after Z register replacement.
;;
-(define_insn "tstqi_z_used"
+(define_insn_and_split "tstqi_z_used"
[(set (cc0)
(match_operand:QI 0 "tst_operand" "m"))
(use (match_operand:HI 1 "hard_reg_operand" "dxy"))
- (use (reg:HI 11))]
- ""
- "#")
-
-(define_split /* "tstqi_z_used" */
- [(set (cc0)
- (match_operand:QI 0 "tst_operand" ""))
- (use (match_operand:HI 1 "hard_reg_operand" ""))
(use (reg:HI SOFT_Z_REGNUM))]
+ ""
+ "#"
"z_replacement_completed == 2"
[(set (mem:HI (pre_dec:HI (reg:HI SP_REGNUM))) (match_dup 1))
(set (match_dup 1) (match_dup 2))
@@ -300,12 +297,24 @@
[(set (cc0)
(compare (match_operand:HI 0 "hard_reg_operand" "")
(match_operand:HI 1 "hard_reg_operand" "")))]
- "reload_completed"
+ "TARGET_M6811
+ && reload_completed && !(Z_REG_P (operands[0]) || Z_REG_P (operands[1]))"
[(set (match_dup 2) (match_dup 1))
(set (cc0)
(compare (match_dup 0) (match_dup 2)))]
"operands[2] = gen_rtx (REG, HImode, SOFT_TMP_REGNUM);")
+(define_split
+ [(set (cc0)
+ (compare (match_operand:HI 0 "hard_reg_operand" "")
+ (match_operand:HI 1 "hard_reg_operand" "")))]
+ "0 && TARGET_M6812
+ && reload_completed && !(Z_REG_P (operands[0]) || Z_REG_P (operands[1]))"
+ [(set (mem:HI (pre_dec:HI (reg:HI SP_REGNUM))) (match_dup 1))
+ (set (cc0)
+ (compare (match_dup 0) (mem:HI (post_inc:HI (reg:HI SP_REGNUM)))))]
+ "")
+
(define_expand "cmphi"
[(set (cc0)
(compare (match_operand:HI 0 "tst_operand" "")
@@ -325,7 +334,7 @@
[(set (cc0)
(compare (match_operand:HI 0 "tst_operand"
"d,?xy,xyd,?xy,d,m,!u,dxy,dxy")
- (match_operand:HI 1 "cmp_operand"
+ (match_operand:HI 1 "general_operand"
"i,i,!u,m,m,dxy,dxy,?*d*A,!*w")))]
"TARGET_M6812"
"*
@@ -335,8 +344,10 @@
cc_status.flags |= CC_REVERSED;
return \"cp%1\\t%0\";
}
+ else if (SP_REG_P (operands[1]))
+ return \"sts\\t2,-sp\n\\tcp%0\\t2,sp+\";
else if (H_REG_P (operands[1]))
- return \"#\";
+ return \"psh%1\n\\tcp%0\\t2,sp+\";
else
return \"cp%0\\t%1\";
}")
@@ -344,9 +355,9 @@
(define_insn "cmphi_1_hc11"
[(set (cc0)
(compare (match_operand:HI 0 "tst_operand"
- "dx,y,xyd,?xy,d,m,!u,dxy,dxy")
+ "dx,y,xyd,?xy,d,m,m,dxy,dxy,?u*z,dxy,*z")
(match_operand:HI 1 "cmp_operand"
- "i,i,!u,m,m,dxy,dxy,?*d*A,!*w")))]
+ "i,i,!u,m,m,?xy,d,?*d*A,?u,dxy,!*w,i")))]
"TARGET_M6811"
"*
{
@@ -361,21 +372,14 @@
return \"cp%0\\t%1\";
}")
-(define_insn "cmphi_z_used"
+(define_insn_and_split "cmphi_z_used"
[(set (cc0)
(compare (match_operand:HI 0 "tst_operand" "dxy,m")
- (match_operand:HI 1 "cmp_operand" "m,dxy")))
+ (match_operand:HI 1 "cmp_operand" "mi,dxy")))
(use (match_operand:HI 2 "hard_reg_operand" "dxy,dxy"))
(use (reg:HI SOFT_Z_REGNUM))]
""
- "#")
-
-(define_split /* "cmphi_z_used" */
- [(set (cc0)
- (compare (match_operand:HI 0 "tst_operand" "")
- (match_operand:HI 1 "cmp_operand" "")))
- (use (match_operand:HI 2 "hard_reg_operand" ""))
- (use (reg:HI SOFT_Z_REGNUM))]
+ "#"
"z_replacement_completed == 2"
[(set (mem:HI (pre_dec:HI (reg:HI SP_REGNUM))) (match_dup 2))
(set (match_dup 2) (match_dup 3))
@@ -452,21 +456,14 @@
operands[3] = gen_rtx (REG, HImode, SOFT_TMP_REGNUM);
operands[4] = gen_rtx (REG, QImode, SOFT_TMP_REGNUM);")
-(define_insn "bitcmpqi_z_used"
+(define_insn_and_split "bitcmpqi_z_used"
[(set (cc0)
(and:QI (match_operand:QI 0 "tst_operand" "d,m")
(match_operand:QI 1 "cmp_operand" "m,d")))
(use (match_operand:HI 2 "hard_reg_operand" "xy,xy"))
(use (reg:HI SOFT_Z_REGNUM))]
""
- "#")
-
-(define_split /* "bitcmpqi_z_used" */
- [(set (cc0)
- (and:QI (match_operand:QI 0 "tst_operand" "")
- (match_operand:QI 1 "cmp_operand" "")))
- (use (match_operand:HI 2 "hard_reg_operand" ""))
- (use (reg:HI SOFT_Z_REGNUM))]
+ "#"
"z_replacement_completed == 2"
[(set (mem:HI (pre_dec:HI (reg:HI SP_REGNUM))) (match_dup 2))
(set (match_dup 2) (match_dup 3))
@@ -542,21 +539,14 @@
return \"cmpb\\t%b0\";
}")
-(define_insn "cmpqi_z_used"
+(define_insn_and_split "cmpqi_z_used"
[(set (cc0)
(compare (match_operand:QI 0 "tst_operand" "dxy,m")
(match_operand:QI 1 "cmp_operand" "m,dxy")))
(use (match_operand:HI 2 "hard_reg_operand" "dxy,dxy"))
(use (reg:HI SOFT_Z_REGNUM))]
""
- "#")
-
-(define_split /* cmpqi_z_used */
- [(set (cc0)
- (compare (match_operand:QI 0 "tst_operand" "")
- (match_operand:QI 1 "cmp_operand" "")))
- (use (match_operand:HI 2 "hard_reg_operand" ""))
- (use (reg:HI SOFT_Z_REGNUM))]
+ "#"
"z_replacement_completed == 2"
[(set (mem:HI (pre_dec:HI (reg:HI SP_REGNUM))) (match_dup 2))
(set (match_dup 2) (match_dup 3))
@@ -573,41 +563,29 @@
;; (strict_low_part ...) information. This is correct for our machine
;; description but not for GCC optimization passes.
;;
-(define_insn "movstrictsi"
+(define_insn_and_split "movstrictsi"
[(set (strict_low_part (match_operand:SI 0 "non_push_operand" "+um,D,D"))
(match_operand:SI 1 "general_operand" "D,Dim,uD"))]
""
- "#")
-
-(define_split
- [(set (strict_low_part (match_operand:SI 0 "non_push_operand" ""))
- (match_operand:SI 1 "general_operand" ""))]
+ "#"
"z_replacement_completed == 2"
[(set (match_dup 0) (match_dup 1))]
"")
-(define_insn "movstricthi"
+(define_insn_and_split "movstricthi"
[(set (strict_low_part (match_operand:HI 0 "non_push_operand" "+um,dA,dA"))
(match_operand:HI 1 "general_operand" "dA,dAim,u"))]
""
- "#")
-
-(define_split
- [(set (strict_low_part (match_operand:HI 0 "non_push_operand" ""))
- (match_operand:HI 1 "general_operand" ""))]
+ "#"
"z_replacement_completed == 2"
[(set (match_dup 0) (match_dup 1))]
"")
-(define_insn "movstrictqi"
+(define_insn_and_split "movstrictqi"
[(set (strict_low_part (match_operand:QI 0 "non_push_operand" "+mu,!dA"))
(match_operand:QI 1 "general_operand" "d,imudA"))]
""
- "#")
-
-(define_split
- [(set (strict_low_part (match_operand:QI 0 "non_push_operand" ""))
- (match_operand:QI 1 "general_operand" ""))]
+ "#"
"z_replacement_completed == 2"
[(set (match_dup 0) (match_dup 1))]
"")
@@ -651,17 +629,26 @@
}
")
-(define_insn "movdi_internal"
- [(set (match_operand:DI 0 "nonimmediate_operand" "=ou,U,!u,U,m,m,!u")
+;; Separate push from normal moves to avoid reloading problems
+;; The 'clr' is not able to push on 68HC11 so we really need a scratch.
+;; We can also accept more scratch registers.
+(define_insn_and_split "*pushdi_internal"
+ [(set (match_operand:DI 0 "push_operand" "=<,<,<,<")
+ (match_operand:DI 1 "general_operand" "i,U,m,!u"))
+ (clobber (match_scratch:HI 2 "=&dA,&d,&d,&dA"))]
+ ""
+ "#"
+ "reload_completed"
+ [(const_int 0)]
+ "m68hc11_split_move (operands[0], operands[1], operands[2]);
+ DONE;")
+
+(define_insn_and_split "movdi_internal"
+ [(set (match_operand:DI 0 "non_push_operand" "=m!u,U,!u,U,m,m,!u")
(match_operand:DI 1 "general_operand" "K,iU,iU,!u,mi,!u,!mu"))
(clobber (match_scratch:HI 2 "=X,&d,&d,&d,&d,&d,&d"))]
""
- "#")
-
-(define_split
- [(set (match_operand:DI 0 "nonimmediate_operand" "")
- (match_operand:DI 1 "general_operand" ""))
- (clobber (match_scratch:HI 2 ""))]
+ "#"
"reload_completed"
[(const_int 0)]
"m68hc11_split_move (operands[0], operands[1], operands[2]);
@@ -687,17 +674,24 @@
}
")
-(define_insn "movdf_internal"
- [(set (match_operand:DF 0 "nonimmediate_operand" "=ou,U,!u,U,m,m,!u")
+;; See pushdi_internal
+(define_insn_and_split "*pushdf_internal"
+ [(set (match_operand:DF 0 "push_operand" "=<,<,<,<")
+ (match_operand:DF 1 "general_operand" "i,U,m,!u"))
+ (clobber (match_scratch:HI 2 "=&dA,&d,&d,&dA"))]
+ ""
+ "#"
+ "reload_completed"
+ [(const_int 0)]
+ "m68hc11_split_move (operands[0], operands[1], operands[2]);
+ DONE;")
+
+(define_insn_and_split "movdf_internal"
+ [(set (match_operand:DF 0 "non_push_operand" "=mu,U,!u,U,m,m,!u")
(match_operand:DF 1 "general_operand" "G,iU,iU,!u,mi,!u,!mu"))
(clobber (match_scratch:HI 2 "=X,&d,&d,&d,&d,&d,&d"))]
""
- "#")
-
-(define_split
- [(set (match_operand:DF 0 "nonimmediate_operand" "")
- (match_operand:DF 1 "general_operand" ""))
- (clobber (match_scratch:HI 2 ""))]
+ "#"
"reload_completed"
[(const_int 0)]
"m68hc11_split_move (operands[0], operands[1], operands[2]);
@@ -732,17 +726,23 @@
}
")
-(define_insn "movsi_internal"
- [(set (match_operand:SI 0 "nonimmediate_operand" "=ou,mu,?D,m,?D,?u,?u,!u,D")
- (match_operand:SI 1 "general_operand" "K,imu,im,?D,!u,?D,mi,!u,!D"))
- (clobber (match_scratch:HI 2 "=X,&d,X,X,X,X,&d,&d,X"))]
+(define_insn_and_split "*pushsi_internal"
+ [(set (match_operand:SI 0 "push_operand" "=<,<,<,<,<")
+ (match_operand:SI 1 "general_operand" "!D,i,U,m,!u"))
+ (clobber (match_scratch:HI 2 "=X,&dA,&d,&d,&dA"))]
""
- "#")
+ "#"
+ "reload_completed"
+ [(const_int 0)]
+ "m68hc11_split_move (operands[0], operands[1], operands[2]);
+ DONE;")
-(define_split
- [(set (match_operand:SI 0 "nonimmediate_operand" "")
- (match_operand:SI 1 "general_operand" ""))
- (clobber (match_scratch:HI 2 ""))]
+(define_insn_and_split "movsi_internal"
+ [(set (match_operand:SI 0 "nonimmediate_operand" "=mu,mu,?D,m,?D,?u,?u,!u,D")
+ (match_operand:SI 1 "general_operand" "K,imu,im,?D,!u,?D,mi,!u,!D"))
+ (clobber (match_scratch:HI 2 "=X,&d,X,X,X,X,&d,&d,X"))]
+ ""
+ "#"
"reload_completed"
[(const_int 0)]
"m68hc11_split_move (operands[0], operands[1], operands[2]);
@@ -768,17 +768,23 @@
}
")
-(define_insn "movsf_internal"
- [(set (match_operand:SF 0 "nonimmediate_operand" "=o!u,m,D,m,D,!u,!u,!u,D")
+(define_insn_and_split "*pushsf_internal"
+ [(set (match_operand:SF 0 "push_operand" "=<,<,<,<,<")
+ (match_operand:SF 1 "general_operand" "!D,i,U,m,!u"))
+ (clobber (match_scratch:HI 2 "=X,&dA,&d,&d,&dA"))]
+ ""
+ "#"
+ "reload_completed"
+ [(const_int 0)]
+ "m68hc11_split_move (operands[0], operands[1], operands[2]);
+ DONE;")
+
+(define_insn_and_split "movsf_internal"
+ [(set (match_operand:SF 0 "nonimmediate_operand" "=m!u,m,D,m,D,!u,!u,!u,D")
(match_operand:SF 1 "general_operand" "G,im,im,D,!u,D,mi,!u,!D"))
(clobber (match_scratch:HI 2 "=X,&d,X,X,X,X,&d,&d,X"))]
""
- "#")
-
-(define_split
- [(set (match_operand:SF 0 "nonimmediate_operand" "")
- (match_operand:SF 1 "general_operand" ""))
- (clobber (match_scratch:HI 2 ""))]
+ "#"
"reload_completed"
[(const_int 0)]
"m68hc11_split_move (operands[0], operands[1], operands[2]);
@@ -849,6 +855,18 @@
DONE;
}
}
+
+ /* The doloop optimization can emit a move with a constant > 32767.
+ This will fail later on because the move instruction is not recognized
+ eg: (set (reg:HI 53) (const_int 0x8000))
+ because for some reason gcc expects the constant to be sign extended
+ ie, it only recognize: (set (reg:HI 53) (const_int 0xffff8000))
+ Do the sign extension here. */
+ if (GET_CODE (operands[1]) == CONST_INT
+ && INTVAL (operands[1]) > 0x7fffL && INTVAL (operands[1]) <= 0x0ffffL)
+ {
+ operands[1] = GEN_INT ((INTVAL (operands[1])) | (-1L << 16));
+ }
if (TARGET_M6811 && (reload_in_progress | reload_completed) == 0)
{
if (GET_CODE (operands[0]) == MEM &&
@@ -878,18 +896,9 @@
}
}")
-(define_insn "movhi_const0"
- [(set (match_operand:HI 0 "non_push_operand" "=d,A,um")
- (const_int 0))]
- ""
- "@
- clra\\n\\tclrb
- ld%0\\t#0
- clr\\t%b0\\n\\tclr\\t%h0")
-
(define_insn "*movhi_68hc12"
- [(set (match_operand:HI 0 "nonimmediate_operand" "=U,dAw,U,U,m,!u")
- (match_operand:HI 1 "general_operand" "U,rim,dAwi,!u,dAw,riU"))]
+ [(set (match_operand:HI 0 "nonimmediate_operand" "=U,dAw,dAw,m,U,U,m,!u")
+ (match_operand:HI 1 "general_operand" "U,dAwim,!u,K,dAwi,!u,dAw,riU"))]
"TARGET_M6812"
"*
{
@@ -897,6 +906,15 @@
return \"\";
}")
+(define_insn "movhi_const0"
+ [(set (match_operand:HI 0 "nonimmediate_operand" "=d,A,um")
+ (const_int 0))]
+ "TARGET_M6811"
+ "@
+ clra\\n\\tclrb
+ ld%0\\t#0
+ clr\\t%b0\\n\\tclr\\t%h0")
+
(define_insn "*movhi_m68hc11"
[(set (match_operand:HI 0 "nonimmediate_operand" "=dAw,!u,m,m,dAw,!*u")
(match_operand:HI 1 "general_operand" "dAwim,dAw,dA,?Aw,!*u,dAw"))]
@@ -936,9 +954,9 @@
(define_split
[(set (match_operand:QI 0 "hard_addr_reg_operand" "")
(match_operand:QI 1 "general_operand" ""))]
- "z_replacement_completed == 2 && GET_MODE (operands[0]) == QImode
+ "z_replacement_completed == 2
&& !reg_mentioned_p (operands[0], operands[1])
- && !D_REG_P (operands[1])"
+ && !(D_REG_P (operands[1]) || Q_REG_P (operands[1]))"
[(parallel [(set (reg:HI D_REGNUM) (match_dup 2))
(set (match_dup 2) (reg:HI D_REGNUM))])
(set (reg:QI D_REGNUM) (match_dup 1))
@@ -952,9 +970,9 @@
(define_split
[(set (match_operand:QI 0 "nonimmediate_operand" "")
(match_operand:QI 1 "hard_addr_reg_operand" ""))]
- "z_replacement_completed == 2 && GET_MODE (operands[1]) == QImode
+ "z_replacement_completed == 2
&& !reg_mentioned_p (operands[1], operands[0])
- && !D_REG_P (operands[0])"
+ && !(D_REG_P (operands[0]) || Q_REG_P (operands[0]))"
[(parallel [(set (reg:HI D_REGNUM) (match_dup 2))
(set (match_dup 2) (reg:HI D_REGNUM))])
(set (match_dup 0) (reg:QI D_REGNUM))
@@ -1664,8 +1682,8 @@
;;- Min and Max instructions (68HC12).
;;--------------------------------------------------------------------
(define_insn "uminqi3"
- [(set (match_operand:QI 0 "nonimmediate_operand" "=d,m")
- (umin:QI (match_operand:QI 1 "nonimmediate_operand" "%0,0")
+ [(set (match_operand:QI 0 "nonimmediate_noinc_operand" "=d,m")
+ (umin:QI (match_operand:QI 1 "nonimmediate_noinc_operand" "%0,0")
(match_operand:QI 2 "general_operand" "m,d")))]
"TARGET_M6812 && TARGET_MIN_MAX"
"*
@@ -1686,8 +1704,8 @@
}")
(define_insn "umaxqi3"
- [(set (match_operand:QI 0 "nonimmediate_operand" "=d,m")
- (umax:QI (match_operand:QI 1 "nonimmediate_operand" "%0,0")
+ [(set (match_operand:QI 0 "nonimmediate_noinc_operand" "=d,m")
+ (umax:QI (match_operand:QI 1 "nonimmediate_noinc_operand" "%0,0")
(match_operand:QI 2 "general_operand" "m,d")))]
"TARGET_M6812 && TARGET_MIN_MAX"
"*
@@ -1708,8 +1726,8 @@
}")
(define_insn "uminhi3"
- [(set (match_operand:HI 0 "nonimmediate_operand" "=d,m")
- (umin:HI (match_operand:HI 1 "nonimmediate_operand" "%0,0")
+ [(set (match_operand:HI 0 "nonimmediate_noinc_operand" "=d,m")
+ (umin:HI (match_operand:HI 1 "nonimmediate_noinc_operand" "%0,0")
(match_operand:HI 2 "general_operand" "m,d")))]
"TARGET_M6812 && TARGET_MIN_MAX"
"*
@@ -1727,8 +1745,8 @@
}")
(define_insn "umaxhi3"
- [(set (match_operand:HI 0 "nonimmediate_operand" "=d,m")
- (umax:HI (match_operand:HI 1 "nonimmediate_operand" "%0,0")
+ [(set (match_operand:HI 0 "nonimmediate_noinc_operand" "=d,m")
+ (umax:HI (match_operand:HI 1 "nonimmediate_noinc_operand" "%0,0")
(match_operand:HI 2 "general_operand" "m,d")))]
"TARGET_M6812 && TARGET_MIN_MAX"
"*
@@ -2090,8 +2108,8 @@
}")
(define_insn "*addhi3_68hc12"
- [(set (match_operand:HI 0 "register_operand" "=xyd,d,xy*z*w,xy*z*w,xy*z")
- (plus:HI (match_operand:HI 1 "register_operand" "%0,0,0,xy*zw,0")
+ [(set (match_operand:HI 0 "register_operand" "=d*A,d,xy*A*w,xy*A*w,xy*A")
+ (plus:HI (match_operand:HI 1 "register_operand" "%0,0,0,xy*Aw,0")
(match_operand:HI 2 "general_operand" "i,m*A*wu,id,id,!mu*A")))]
"TARGET_M6812"
"*
@@ -2279,9 +2297,9 @@
}")
(define_insn "*addhi3"
- [(set (match_operand:HI 0 "hard_reg_operand" "=A,dA,d,!A,d*A,!d*A")
- (plus:HI (match_operand:HI 1 "general_operand" "%0,0,0,0,0,0")
- (match_operand:HI 2 "general_operand" "N,I,i,I,mi*A*d,!u*d*w")))]
+ [(set (match_operand:HI 0 "hard_reg_operand" "=A,dA,d,!A,d*A,d,!d*A")
+ (plus:HI (match_operand:HI 1 "general_operand" "%0,0,0,0,0,0,0")
+ (match_operand:HI 2 "general_operand" "N,I,i,I,mi*A*d,*u,!u*d*w")))]
"TARGET_M6811"
"*
{
@@ -2374,7 +2392,7 @@
[(set (match_operand:HI 0 "hard_reg_operand" "=A,d")
(plus:HI (zero_extend:HI
(match_operand:QI 1 "nonimmediate_operand" "d,um*A"))
- (match_operand:HI 2 "hard_reg_operand" "0,0")))]
+ (match_operand:HI 2 "general_operand" "0,0")))]
""
"*
{
@@ -2401,8 +2419,8 @@
"")
(define_insn "addqi3"
- [(set (match_operand:QI 0 "nonimmediate_operand" "=!d*rm,dq,!*A")
- (plus:QI (match_operand:QI 1 "nonimmediate_operand" "%0,0,0")
+ [(set (match_operand:QI 0 "nonimmediate_noinc_operand" "=!d*rm,dq,!*A")
+ (plus:QI (match_operand:QI 1 "nonimmediate_noinc_operand" "%0,0,0")
(match_operand:QI 2 "general_operand" "N,ium*A*d,ium*A*d")))]
""
"*
@@ -2707,9 +2725,9 @@
(define_insn "*subhi3"
- [(set (match_operand:HI 0 "register_operand" "=d,*A,d*A")
- (minus:HI (match_operand:HI 1 "register_operand" "0,0,0")
- (match_operand:HI 2 "general_operand" "im*A*d,im*d*A,!u")))]
+ [(set (match_operand:HI 0 "register_operand" "=d,*A,d,*A")
+ (minus:HI (match_operand:HI 1 "general_operand" "0,0,0,0")
+ (match_operand:HI 2 "general_operand" "im*A*d,im*d*A,u,!u")))]
""
"*
{
@@ -2723,7 +2741,7 @@
(define_insn "*subhi3_zext"
[(set (match_operand:HI 0 "hard_reg_operand" "=d,d")
- (minus:HI (match_operand:HI 1 "hard_reg_operand" "0,0")
+ (minus:HI (match_operand:HI 1 "general_operand" "0,0")
(zero_extend:HI (match_operand:QI 2 "general_operand" "mi*A,!u"))))]
""
"*
@@ -2743,7 +2761,7 @@
(define_insn "subqi3"
[(set (match_operand:QI 0 "hard_reg_operand" "=dq,!*x*y")
- (minus:QI (match_operand:QI 1 "hard_reg_operand" "0,0")
+ (minus:QI (match_operand:QI 1 "general_operand" "0,0")
(match_operand:QI 2 "general_operand" "uim*A*d,uim*A*d")))]
""
"*
@@ -2837,6 +2855,32 @@
return \"emul\\n\\texg\\tx,y\";
}")
+(define_insn "umulhisi3_hc11"
+ [(set (match_operand:SI 0 "register_operand" "=D,D")
+ (mult:SI (zero_extend:SI
+ (match_operand:HI 1 "register_operand" "%d,Amu"))
+ (zero_extend:SI
+ (match_operand:HI 2 "register_operand" "Amu,d"))))
+ (clobber (match_scratch:HI 3 "=y,y"))]
+ "TARGET_M6811"
+ "*
+{
+ CC_STATUS_INIT;
+ if (!H_REG_P (operands[1]))
+ output_asm_insn (\"ldx\\t%1\", operands);
+ if (!H_REG_P (operands[2]))
+ output_asm_insn (\"ldx\\t%2\", operands);
+
+ if (Y_REG_P (operands[1]) || Y_REG_P (operands[2]))
+ output_asm_insn (\"pshy\", operands);
+ else if (X_REG_P (operands[1]) || X_REG_P (operands[2])
+ || !H_REG_P (operands[1]) || !H_REG_P (operands[2]))
+ output_asm_insn (\"pshx\", operands);
+
+ output_asm_insn (\"bsr\\t__mulhi32\", operands);
+ return \"ins\\n\\tins\";
+}")
+
(define_insn "mulhisi3"
[(set (match_operand:SI 0 "register_operand" "=D,D")
(mult:SI (sign_extend:SI
@@ -2896,8 +2940,8 @@
(define_insn "mulqi3"
[(set (match_operand:QI 0 "register_operand" "=d,*x,*y")
- (mult:QI (match_operand:QI 1 "nonimmediate_operand" "%dum,0,0")
- (match_operand:QI 2 "general_operand" "dium,*xium,*yium")))]
+ (mult:QI (match_operand:QI 1 "general_operand" "%di*um,0,0")
+ (match_operand:QI 2 "general_operand" "di*um,*xium,*yium")))]
""
"*
{
@@ -2952,11 +2996,11 @@
")
(define_insn "mulqihi3"
- [(set (match_operand:HI 0 "register_operand" "=d,d")
+ [(set (match_operand:HI 0 "register_operand" "=d,d,d")
(mult:HI (sign_extend:HI
- (match_operand:QI 1 "register_operand" "%0,0"))
+ (match_operand:QI 1 "register_operand" "%0,0,0"))
(sign_extend:HI
- (match_operand:QI 2 "nonimmediate_operand" "dm,*A"))))]
+ (match_operand:QI 2 "general_operand" "mi*u,*A,0"))))]
""
"*
{
@@ -3054,21 +3098,29 @@
;;- and instructions.
;;--------------------------------------------------------------------
-(define_insn "anddi3"
+(define_insn_and_split "anddi3"
[(set (match_operand:DI 0 "reg_or_some_mem_operand" "=m,u")
(and:DI (match_operand:DI 1 "reg_or_some_mem_operand" "%imu,imu")
(match_operand:DI 2 "general_operand" "imu,imu")))
(clobber (match_scratch:HI 3 "=d,d"))]
""
- "#")
+ "#"
+ "reload_completed"
+ [(const_int 0)]
+ "m68hc11_split_logical (SImode, AND, operands);
+ DONE;")
-(define_insn "andsi3"
+(define_insn_and_split "andsi3"
[(set (match_operand:SI 0 "register_operand" "=D,!u")
(and:SI (match_operand:SI 1 "register_operand" "%0,0")
(match_operand:SI 2 "general_operand" "Dimu,imu")))
(clobber (match_scratch:HI 3 "=X,d"))]
""
- "#")
+ "#"
+ "reload_completed"
+ [(const_int 0)]
+ "m68hc11_split_logical (HImode, AND, operands);
+ DONE;")
(define_expand "andhi3"
[(set (match_operand:HI 0 "register_operand" "")
@@ -3078,10 +3130,10 @@
"")
(define_insn "*andhi3_mem"
- [(set (match_operand:HI 0 "memory_operand" "=Q,R")
+ [(set (match_operand:HI 0 "memory_operand" "=R,Q")
(and:HI (match_dup 0)
(match_operand:HI 1 "immediate_operand" "i,i")))
- (clobber (match_scratch:HI 2 "=xy,X"))]
+ (clobber (match_scratch:HI 2 "=X,xy"))]
"TARGET_RELAX && !TARGET_M6812"
"*
{
@@ -3101,7 +3153,7 @@
/* When destination is a global variable, generate a .relax instruction
and load the address in the clobber register. That load can be
eliminated by the linker if the address is in page0. */
- if (which_alternative == 0)
+ if (which_alternative == 1)
{
rtx ops[3];
@@ -3216,8 +3268,8 @@
(define_insn "*andhi3_gen"
[(set (match_operand:HI 0 "register_operand" "=d,d,!*A")
- (and:HI (match_operand:HI 1 "register_operand" "%0,0,0")
- (match_operand:HI 2 "general_operand" "mi,!u*A,!um*A")))]
+ (and:HI (match_operand:HI 1 "splitable_operand" "%0,0,0")
+ (match_operand:HI 2 "splitable_operand" "mi,!u*A,!um*Ai")))]
""
"*
{
@@ -3236,10 +3288,10 @@
"")
(define_insn "*andqi3_mem"
- [(set (match_operand:QI 0 "memory_operand" "=Q,R")
+ [(set (match_operand:QI 0 "memory_operand" "=R,Q")
(and:QI (match_dup 0)
(match_operand:QI 1 "const_int_operand" "i,i")))
- (clobber (match_scratch:HI 2 "=xy,X"))]
+ (clobber (match_scratch:HI 2 "=X,xy"))]
"TARGET_RELAX && !TARGET_M6812"
"*
{
@@ -3257,7 +3309,7 @@
/* When destination is a global variable, generate a .relax instruction
and load the address in the clobber register. That load can be
eliminated by the linker if the address is in page0. */
- if (which_alternative == 0)
+ if (which_alternative == 1)
{
rtx ops[3];
@@ -3310,8 +3362,8 @@
(define_insn "*andqi3_gen"
[(set (match_operand:QI 0 "register_operand" "=d,d,d,?*A,?*A,!*q")
- (and:QI (match_operand:QI 1 "register_operand" "%0,0,0,0,0,0")
- (match_operand:QI 2 "general_operand" "mi,!u,?*A,!um,?*A*d,!um*A")))]
+ (and:QI (match_operand:QI 1 "general_operand" "%0,0,0,0,0,0")
+ (match_operand:QI 2 "general_operand" "mi,!*u,?*A,!*um,?*A*d,!*um*A")))]
""
"*
{
@@ -3330,34 +3382,42 @@
;;- Bit set or instructions.
;;--------------------------------------------------------------------
-(define_insn "iordi3"
+(define_insn_and_split "iordi3"
[(set (match_operand:DI 0 "reg_or_some_mem_operand" "=m,u")
(ior:DI (match_operand:DI 1 "reg_or_some_mem_operand" "%imu,imu")
(match_operand:DI 2 "general_operand" "imu,imu")))
(clobber (match_scratch:HI 3 "=d,d"))]
""
- "#")
+ "#"
+ "reload_completed"
+ [(const_int 0)]
+ "m68hc11_split_logical (SImode, IOR, operands);
+ DONE;")
-(define_insn "iorsi3"
+(define_insn_and_split "iorsi3"
[(set (match_operand:SI 0 "register_operand" "=D,!u")
(ior:SI (match_operand:SI 1 "register_operand" "%0,0")
(match_operand:SI 2 "general_operand" "Dimu,imu")))
(clobber (match_scratch:HI 3 "=X,d"))]
""
- "#")
+ "#"
+ "reload_completed"
+ [(const_int 0)]
+ "m68hc11_split_logical (HImode, IOR, operands);
+ DONE;")
(define_expand "iorhi3"
[(set (match_operand:HI 0 "register_operand" "")
(ior:HI (match_operand:HI 1 "register_operand" "")
- (match_operand:HI 2 "general_operand" "")))]
+ (match_operand:HI 2 "splitable_operand" "")))]
""
"")
(define_insn "*iorhi3_mem"
- [(set (match_operand:HI 0 "memory_operand" "=Q,R")
+ [(set (match_operand:HI 0 "memory_operand" "=R,Q")
(ior:HI (match_dup 0)
(match_operand:HI 1 "const_int_operand" "")))
- (clobber (match_scratch:HI 2 "=xy,X"))]
+ (clobber (match_scratch:HI 2 "=X,xy"))]
"TARGET_RELAX && !TARGET_M6812"
"*
{
@@ -3369,7 +3429,7 @@
return \"\";
}
CC_STATUS_INIT;
- if (which_alternative == 0)
+ if (which_alternative == 1)
{
rtx ops[3];
@@ -3437,8 +3497,8 @@
(define_insn "*iorhi3_gen"
[(set (match_operand:HI 0 "register_operand" "=d,d,!*A")
- (ior:HI (match_operand:HI 1 "register_operand" "%0,0,0")
- (match_operand:HI 2 "general_operand" "mi,!u*A,!um*A")))]
+ (ior:HI (match_operand:HI 1 "splitable_operand" "%0,0,0")
+ (match_operand:HI 2 "splitable_operand" "mi,!u*A,!um*Ai")))]
""
"*
{
@@ -3457,10 +3517,10 @@
"")
(define_insn "*iorqi3_mem"
- [(set (match_operand:QI 0 "memory_operand" "=Q,R")
+ [(set (match_operand:QI 0 "memory_operand" "=R,Q")
(ior:QI (match_dup 0)
(match_operand:QI 1 "const_int_operand" "")))
- (clobber (match_scratch:HI 2 "=xy,X"))]
+ (clobber (match_scratch:HI 2 "=X,xy"))]
"TARGET_RELAX && !TARGET_M6812"
"*
{
@@ -3471,7 +3531,7 @@
cc_status = cc_prev_status;
return \"\";
}
- if (which_alternative == 0)
+ if (which_alternative == 1)
{
rtx ops[3];
@@ -3520,8 +3580,8 @@
(define_insn "*iorqi3_gen"
[(set (match_operand:QI 0 "register_operand" "=d,d,d,?*A,?*A,!*q")
- (ior:QI (match_operand:QI 1 "register_operand" "%0,0,0,0,0,0")
- (match_operand:QI 2 "general_operand" "mi,!u,!*A,!um,?*A*d,!um*A")))]
+ (ior:QI (match_operand:QI 1 "general_operand" "%0,0,0,0,0,0")
+ (match_operand:QI 2 "general_operand" "mi,!*u,!*A,!*um,?*A*d,!*um*A")))]
""
"*
{
@@ -3541,26 +3601,34 @@
;;- xor instructions.
;;--------------------------------------------------------------------
-(define_insn "xordi3"
+(define_insn_and_split "xordi3"
[(set (match_operand:DI 0 "reg_or_some_mem_operand" "=m,u")
(xor:DI (match_operand:DI 1 "reg_or_some_mem_operand" "%imu,imu")
(match_operand:DI 2 "general_operand" "imu,imu")))
(clobber (match_scratch:HI 3 "=d,d"))]
""
- "#")
+ "#"
+ "reload_completed"
+ [(const_int 0)]
+ "m68hc11_split_logical (SImode, XOR, operands);
+ DONE;")
-(define_insn "xorsi3"
+(define_insn_and_split "xorsi3"
[(set (match_operand:SI 0 "register_operand" "=D,!u")
(xor:SI (match_operand:SI 1 "register_operand" "%0,0")
(match_operand:SI 2 "general_operand" "Dimu,imu")))
(clobber (match_scratch:HI 3 "=X,d"))]
""
- "#")
+ "#"
+ "reload_completed"
+ [(const_int 0)]
+ "m68hc11_split_logical (HImode, XOR, operands);
+ DONE;")
(define_insn "xorhi3"
[(set (match_operand:HI 0 "register_operand" "=d,d,!*A")
- (xor:HI (match_operand:HI 1 "register_operand" "%0,0,0")
- (match_operand:HI 2 "general_operand" "im,!u*A,!ium*A")))]
+ (xor:HI (match_operand:HI 1 "splitable_operand" "%0,0,0")
+ (match_operand:HI 2 "splitable_operand" "im,!u*A,!ium*A")))]
""
"*
{
@@ -3604,8 +3672,8 @@
(define_insn "xorqi3"
[(set (match_operand:QI 0 "register_operand" "=d,d,d,?*A,?*A,!*q")
- (xor:QI (match_operand:QI 1 "register_operand" "%0,0,0,0,0,0")
- (match_operand:QI 2 "general_operand" "im,!u,!*A,!ium,?*A*d,!ium*A")))]
+ (xor:QI (match_operand:QI 1 "general_operand" "%0,0,0,0,0,0")
+ (match_operand:QI 2 "general_operand" "im,!*u,!*A,!i*um,?*A*d,!i*um*A")))]
""
"*
{
@@ -3641,30 +3709,47 @@
;;- Bit set or instructions.
;;--------------------------------------------------------------------
-(define_insn "*logicalsi3_zexthi"
+(define_insn_and_split "*logicalsi3_zexthi"
[(set (match_operand:SI 0 "register_operand" "=D")
(match_operator:SI 3 "m68hc11_logical_operator"
[(zero_extend:SI
(match_operand:HI 1 "general_operand" "imudA"))
(match_operand:SI 2 "general_operand" "Dimu")]))]
""
- "#")
+ "#"
+ "reload_completed"
+ [(set (reg:HI D_REGNUM) (match_dup 4))
+ (set (reg:HI D_REGNUM) (match_op_dup 3 [(reg:HI D_REGNUM) (match_dup 5)]))
+ (set (reg:HI X_REGNUM) (match_dup 6))]
+ "PUT_MODE (operands[3], HImode);
+ if (X_REG_P (operands[2]))
+ {
+ operands[5] = operands[1];
+ /* Make all the (set (REG:x) (REG:y)) a nop set. */
+ operands[4] = gen_rtx (REG, HImode, HARD_D_REGNUM);
+ operands[6] = gen_rtx (REG, HImode, HARD_X_REGNUM);
+ }
+ else
+ {
+ operands[4] = operands[1];
+ operands[5] = m68hc11_gen_lowpart (HImode, operands[2]);
+ operands[6] = m68hc11_gen_highpart (HImode, operands[2]);
+ }
+ /* For an AND, make sure the high 16-bit part is cleared. */
+ if (GET_CODE (operands[3]) == AND)
+ {
+ operands[6] = const0_rtx;
+ }
+ ")
-(define_insn "*logicalsi3_zextqi"
+(define_insn_and_split "*logicalsi3_zextqi"
[(set (match_operand:SI 0 "register_operand" "=D,D,D")
(match_operator:SI 3 "m68hc11_logical_operator"
[(zero_extend:SI
(match_operand:QI 1 "general_operand" "d,*A,imu"))
(match_operand:SI 2 "general_operand" "imu,imu,0")]))]
""
- "#")
-
-(define_split /* logicalsi3_zextqi */
- [(set (match_operand:SI 0 "register_operand" "")
- (match_operator:SI 3 "m68hc11_logical_operator"
- [(zero_extend:SI
- (match_operand:QI 1 "general_operand" ""))
- (match_operand:SI 2 "general_operand" "")]))]
+ "#"
"z_replacement_completed == 2"
[(set (reg:QI A_REGNUM) (match_dup 4))
(set (reg:QI D_REGNUM) (match_dup 7))
@@ -3695,63 +3780,47 @@
}
")
-(define_split /* logicalsi3_zexthi */
- [(set (match_operand:SI 0 "register_operand" "")
- (match_operator:SI 3 "m68hc11_logical_operator"
- [(zero_extend:SI
- (match_operand:HI 1 "general_operand" ""))
- (match_operand:SI 2 "general_operand" "")]))]
- "reload_completed"
- [(set (reg:HI D_REGNUM) (match_dup 4))
- (set (reg:HI D_REGNUM) (match_op_dup 3 [(reg:HI D_REGNUM) (match_dup 5)]))
- (set (reg:HI X_REGNUM) (match_dup 6))]
- "PUT_MODE (operands[3], HImode);
- if (X_REG_P (operands[2]))
- {
- operands[5] = operands[1];
- /* Make all the (set (REG:x) (REG:y)) a nop set. */
- operands[4] = gen_rtx (REG, HImode, HARD_D_REGNUM);
- operands[6] = gen_rtx (REG, HImode, HARD_X_REGNUM);
- }
- else
- {
- operands[4] = operands[1];
- operands[5] = m68hc11_gen_lowpart (HImode, operands[2]);
- operands[6] = m68hc11_gen_highpart (HImode, operands[2]);
- }
- /* For an AND, make sure the high 16-bit part is cleared. */
- if (GET_CODE (operands[3]) == AND)
- {
- operands[6] = const0_rtx;
- }
- ")
-
-(define_insn "*logicalhi3_zexthi_ashift8"
+(define_insn_and_split "*logicalhi3_zexthi_ashift8"
[(set (match_operand:HI 0 "register_operand" "=d")
(match_operator:HI 3 "m68hc11_logical_operator"
[(zero_extend:HI
- (match_operand:QI 1 "general_operand" "imud"))
+ (match_operand:QI 1 "general_operand" "imud*A"))
(ashift:HI
- (match_operand:HI 2 "general_operand" "dimu")
+ (match_operand:HI 2 "general_operand" "imud*A")
(const_int 8))]))]
""
- "#")
+ "#"
+ "z_replacement_completed == 2"
+ [(set (reg:QI A_REGNUM) (match_dup 4))
+ (set (reg:QI B_REGNUM) (match_dup 5))]
+ "
+ if (GET_CODE (operands[3]) == AND)
+ {
+ emit_insn (gen_movhi (operands[0], const0_rtx));
+ DONE;
+ }
+ else
+ {
+ operands[5] = operands[1];
+ if (D_REG_P (operands[2]))
+ {
+ operands[4] = gen_rtx (REG, QImode, HARD_B_REGNUM);
+ }
+ else
+ {
+ operands[4] = m68hc11_gen_lowpart (QImode, operands[2]);
+ }
+ }
+ ")
-(define_insn "*logicalhi3_zexthi"
+(define_insn_and_split "*logicalhi3_zexthi"
[(set (match_operand:HI 0 "register_operand" "=d,d")
(match_operator:HI 3 "m68hc11_logical_operator"
[(zero_extend:HI
(match_operand:QI 1 "general_operand" "imd*A,?u"))
(match_operand:HI 2 "general_operand" "dim,?dimu")]))]
""
- "#")
-
-(define_split /* logicalhi3_zexthi */
- [(set (match_operand:HI 0 "register_operand" "")
- (match_operator:HI 3 "m68hc11_logical_operator"
- [(zero_extend:HI
- (match_operand:QI 1 "general_operand" ""))
- (match_operand:HI 2 "general_operand" "")]))]
+ "#"
"z_replacement_completed == 2"
[(set (reg:QI B_REGNUM) (match_dup 6))
(set (reg:QI A_REGNUM) (match_dup 4))
@@ -3780,63 +3849,25 @@
}
")
-(define_split /* logicalhi3_zexthi_ashift8 */
- [(set (match_operand:HI 0 "register_operand" "")
- (match_operator:HI 3 "m68hc11_logical_operator"
- [(zero_extend:HI
- (match_operand:QI 1 "general_operand" ""))
- (ashift:HI
- (match_operand:HI 2 "general_operand" "")
- (const_int 8))]))]
- "z_replacement_completed == 2"
- [(set (reg:QI A_REGNUM) (match_dup 4))
- (set (reg:QI B_REGNUM) (match_dup 5))]
- "
- if (GET_CODE (operands[3]) == AND)
+
+(define_insn_and_split "*logicalsi3_silshr16"
+ [(set (match_operand:SI 0 "register_operand" "=D,D,D,?D")
+ (match_operator:SI 3 "m68hc11_logical_operator"
+ [(lshiftrt:SI
+ (match_operand:SI 1 "general_operand" "uim,uim,0,0")
+ (const_int 16))
+ (match_operand:SI 2 "general_operand" "uim,0,uim,0")]))]
+ ""
+ "#"
+ "reload_completed"
+ [(set (reg:HI D_REGNUM) (match_dup 4))
+ (set (reg:HI D_REGNUM) (match_op_dup 3 [(reg:HI D_REGNUM) (match_dup 5)]))
+ (set (reg:HI X_REGNUM) (match_dup 6))]
+ "operands[5] = m68hc11_gen_highpart (HImode, operands[1]);
+ if (X_REG_P (operands[2]))
{
- emit_insn (gen_movhi (operands[0], const0_rtx));
- DONE;
- }
- else
- {
- operands[5] = operands[1];
- if (D_REG_P (operands[2]))
- {
- operands[4] = gen_rtx (REG, QImode, HARD_B_REGNUM);
- }
- else
- {
- operands[4] = m68hc11_gen_lowpart (QImode, operands[2]);
- }
- }
- ")
-
-(define_insn "*logicalsi3_silshr16"
- [(set (match_operand:SI 0 "register_operand" "=D,D,D")
- (match_operator:SI 3 "m68hc11_logical_operator"
- [(lshiftrt:SI
- (match_operand:SI 1 "general_operand" "uim,uim,?D")
- (const_int 16))
- (match_operand:SI 2 "general_operand" "uim,0,0")]))]
- ""
- "#")
-
-(define_split /* logicalsi3_silshr16 */
- [(set (match_operand:SI 0 "register_operand" "")
- (match_operator:SI 3 "m68hc11_logical_operator"
- [(lshiftrt:SI
- (match_operand:SI 1 "general_operand" "")
- (const_int 16))
- (match_operand:SI 2 "general_operand" "")]))]
- "reload_completed"
- [(set (reg:HI D_REGNUM) (match_dup 4))
- (set (reg:HI D_REGNUM) (match_op_dup 3 [(reg:HI D_REGNUM) (match_dup 5)]))
- (set (reg:HI X_REGNUM) (match_dup 6))]
- "operands[5] = m68hc11_gen_highpart (HImode, operands[1]);
- if (X_REG_P (operands[2]))
- {
- operands[4] = gen_rtx (REG, HImode, HARD_D_REGNUM);
- operands[6] = gen_rtx (REG, HImode, HARD_X_REGNUM);
+ operands[4] = gen_rtx (REG, HImode, HARD_D_REGNUM);
+ operands[6] = gen_rtx (REG, HImode, HARD_X_REGNUM);
}
else
{
@@ -3852,7 +3883,7 @@
}
")
-(define_insn "*logicalsi3_silshl16"
+(define_insn_and_split "*logicalsi3_silshl16"
[(set (match_operand:SI 0 "register_operand" "=D,D")
(match_operator:SI 3 "m68hc11_logical_operator"
[(ashift:SI
@@ -3860,15 +3891,7 @@
(const_int 16))
(match_operand:SI 2 "general_operand" "0,0")]))]
""
- "#")
-
-(define_split /* logicalsi3_silshl16 */
- [(set (match_operand:SI 0 "register_operand" "")
- (match_operator:SI 3 "m68hc11_logical_operator"
- [(ashift:SI
- (match_operand:SI 1 "general_operand" "")
- (const_int 16))
- (match_operand:SI 2 "general_operand" "")]))]
+ "#"
"z_replacement_completed == 2"
[(set (reg:HI X_REGNUM) (match_op_dup 3 [(reg:HI X_REGNUM) (match_dup 4)]))
(set (reg:HI D_REGNUM) (match_dup 5))]
@@ -3881,48 +3904,45 @@
operands[5] = gen_rtx (REG, HImode, HARD_D_REGNUM);
")
-
-;;--------------------------------------------------------------------
-;;- 64/32-bit Logical Operations. Patterns are defined so that GCC
-;; can optimize correctly. These insns are split by the `final'
-;; pass (# pattern). They are split to fall in the corresponding
-;; 16-bit logical patterns.
-;;--------------------------------------------------------------------
-
-;; Split 64-bit logical operations: anddi3, iordi3, xordi3
-(define_split
- [(set (match_operand:DI 0 "reg_or_some_mem_operand" "")
- (match_operator:DI 4 "m68hc11_logical_operator"
- [(match_operand:DI 1 "reg_or_some_mem_operand" "")
- (match_operand:DI 2 "general_operand" "")]))
- (clobber (match_scratch:HI 3 ""))]
+(define_insn_and_split "*logicalsi3_silshl16_zext"
+ [(set (match_operand:SI 0 "register_operand" "=D,D,D")
+ (match_operator:SI 3 "m68hc11_logical_operator"
+ [(ashift:SI
+ (zero_extend:SI
+ (match_operand:HI 1 "general_operand" "uim,udA,!dA"))
+ (const_int 16))
+ (zero_extend:SI (match_operand:HI 2 "general_operand" "uidA,um,!dA"))]))]
+ ""
+ "#"
+ ;; Must split before z register replacement
"reload_completed"
- [(const_int 0)]
- "m68hc11_split_logical (SImode, GET_CODE (operands[4]), operands);
- DONE;")
-
-;; Split 32-bit logical operations: andsi3, iorsi3, xorsi3
-(define_split
- [(set (match_operand:SI 0 "register_operand" "")
- (match_operator:SI 3 "m68hc11_logical_operator"
- [(match_operand:SI 1 "register_operand" "")
- (match_operand:SI 2 "general_operand" "")]))]
- "0 && reload_completed"
- [(const_int 0)]
- "m68hc11_split_logical (HImode, GET_CODE (operands[3]), operands);
- DONE;")
+ [(set (match_dup 4) (match_dup 5))
+ (set (match_dup 6) (match_dup 7))]
+ "
+ /* set (X_REGNUM) (d), set (D_REGNUM) (1) */
+ if (GET_CODE (operands[1]) == HARD_D_REGNUM
+ && GET_CODE (operands[3]) != AND)
+ {
+ /* This particular case is too early to be split before
+ Z register replacement because the cse-reg pass we do
+ does not recognize the 'swap_areg'. It is ok to handle
+ this case after. */
+ if (z_replacement_completed != 2)
+ {
+ FAIL;
+ }
+ emit_move_insn (gen_rtx (REG, HImode, HARD_X_REGNUM), operands[2]);
+ emit_insn (gen_swap_areg (gen_rtx (REG, HImode, HARD_D_REGNUM),
+ gen_rtx (REG, HImode, HARD_X_REGNUM)));
+ }
+ operands[4] = gen_rtx (REG, HImode, HARD_D_REGNUM);
+ operands[6] = gen_rtx (REG, HImode, HARD_X_REGNUM);
+ operands[5] = operands[2];
+ operands[7] = operands[1];
-;; Split 32-bit logical operations: andsi3, iorsi3, xorsi3
-(define_split
- [(set (match_operand:SI 0 "reg_or_some_mem_operand" "")
- (match_operator:SI 4 "m68hc11_logical_operator"
- [(match_operand:SI 1 "reg_or_some_mem_operand" "")
- (match_operand:SI 2 "general_operand" "")]))
- (clobber (match_scratch:HI 3 ""))]
- "reload_completed"
- [(const_int 0)]
- "m68hc11_split_logical (HImode, GET_CODE (operands[4]), operands);
- DONE;")
+ if (GET_CODE (operands[3]) == AND)
+ operands[5] = operands[7] = const0_rtx;
+ ")
;;--------------------------------------------------------------------
;; 16-bit Arithmetic and logical operations on X and Y:
@@ -4323,8 +4343,8 @@
xgd%0\\n\\tcoma\\n\\tcomb\\n\\txgd%0\\n\\tin%0")
(define_insn "negqi2"
- [(set (match_operand:QI 0 "nonimmediate_operand" "=d,m,!u,!*A")
- (neg:QI (match_operand:QI 1 "nonimmediate_operand" "0,0,0,0")))]
+ [(set (match_operand:QI 0 "nonimmediate_noinc_operand" "=d,m,!u,!*A")
+ (neg:QI (match_operand:QI 1 "nonimmediate_noinc_operand" "0,0,0,0")))]
""
"@
negb
@@ -4421,19 +4441,13 @@
}
}")
-(define_insn "*ashldi3_const32"
+(define_insn_and_split "*ashldi3_const32"
[(set (match_operand:DI 0 "nonimmediate_operand" "=<,m,u")
(ashift:DI (match_operand:DI 1 "general_operand" "umi,umi,umi")
(const_int 32)))
(clobber (match_scratch:HI 2 "=&A,d,d"))]
""
- "#")
-
-(define_split
- [(set (match_operand:DI 0 "nonimmediate_operand" "")
- (ashift:DI (match_operand:DI 1 "general_operand" "")
- (const_int 32)))
- (clobber (match_scratch:HI 2 ""))]
+ "#"
"reload_completed"
[(const_int 0)]
"/* Move the lowpart in the highpart first in case the shift
@@ -4442,6 +4456,13 @@
{
m68hc11_split_move (m68hc11_gen_lowpart (SImode, operands[0]),
const0_rtx, operands[2]);
+
+ /* Adjust first operand if it uses SP so that we take into
+ account the above push. Can occur only for 68HC12. */
+ if (reg_mentioned_p (gen_rtx (REG, HImode, HARD_SP_REGNUM),
+ operands[1]))
+ operands[1] = adjust_address (operands[1],
+ GET_MODE (operands[0]), 4);
}
m68hc11_split_move (m68hc11_gen_highpart (SImode, operands[0]),
m68hc11_gen_lowpart (SImode, operands[1]),
@@ -4453,19 +4474,13 @@
}
DONE;")
-(define_insn "*ashldi3_const1"
+(define_insn_and_split "*ashldi3_const1"
[(set (match_operand:DI 0 "non_push_operand" "=m,m,u")
(ashift:DI (match_operand:DI 1 "general_operand" "mi,u,umi")
(const_int 1)))
(clobber (match_scratch:HI 2 "=d,d,d"))]
""
- "#")
-
-(define_split
- [(set (match_operand:DI 0 "non_push_operand" "")
- (ashift:DI (match_operand:DI 1 "general_operand" "")
- (const_int 1)))
- (clobber (match_scratch:HI 2 ""))]
+ "#"
"z_replacement_completed == 2"
[(set (match_dup 2) (match_dup 3))
(set (match_dup 2) (ashift:HI (match_dup 2) (const_int 1)))
@@ -4505,10 +4520,10 @@
operands[8] = m68hc11_gen_lowpart (HImode, operands[8]);")
(define_insn "addsi_silshr16"
- [(set (match_operand:SI 0 "register_operand" "=D,D")
- (plus:SI (lshiftrt:SI (match_operand:SI 1 "general_operand" "!*uim,0")
+ [(set (match_operand:SI 0 "register_operand" "=D,D,!D")
+ (plus:SI (lshiftrt:SI (match_operand:SI 1 "general_operand" "!*uim,0,0")
(const_int 16))
- (match_operand:SI 2 "general_operand" "0,m!*u")))]
+ (match_operand:SI 2 "general_operand" "0,m!*u,0")))]
""
"#")
@@ -4530,14 +4545,24 @@
(const_int 16))
(match_operand:SI 2 "general_operand" "")))]
"z_replacement_completed == 2 && X_REG_P (operands[1])"
- [(set (reg:HI D_REGNUM) (reg:HI X_REGNUM))
+ [(set (reg:HI D_REGNUM) (match_dup 5))
(set (reg:HI X_REGNUM) (match_dup 3))
(set (reg:HI D_REGNUM) (plus:HI (reg:HI D_REGNUM) (match_dup 4)))
(set (reg:HI X_REGNUM) (plus:HI (plus:HI (reg:HI X_REGNUM)
(const_int 0))
(reg:HI CC_REGNUM)))]
"operands[3] = m68hc11_gen_highpart (HImode, operands[2]);
- operands[4] = m68hc11_gen_lowpart (HImode, operands[2]);")
+ if (X_REG_P (operands[2]))
+ {
+ operands[4] = gen_rtx (REG, HImode, HARD_X_REGNUM);
+ operands[5] = gen_rtx (REG, HImode, HARD_D_REGNUM);
+ }
+ else
+ {
+ operands[4] = m68hc11_gen_lowpart (HImode, operands[2]);
+ operands[5] = gen_rtx (REG, HImode, HARD_X_REGNUM);
+ }
+")
(define_insn "addsi_ashift16"
[(set (match_operand:SI 0 "register_operand" "=D")
@@ -4563,24 +4588,27 @@
operands[4] = m68hc11_gen_lowpart (HImode, operands[2]);
}")
-(define_insn "addsi_andshr16"
+(define_insn_and_split "addsi_andshr16"
[(set (match_operand:SI 0 "register_operand" "=D")
(plus:SI (and:SI (match_operand:SI 1 "general_operand" "%uim")
(const_int 65535))
(match_operand:SI 2 "general_operand" "0")))]
""
- "#")
-
-(define_split
- [(set (match_operand:SI 0 "register_operand" "")
- (plus:SI (and:SI (match_operand:SI 1 "general_operand" "")
- (const_int 65535))
- (match_operand:SI 2 "general_operand" "")))]
+ "#"
"z_replacement_completed == 2"
[(set (reg:HI D_REGNUM) (plus:HI (reg:HI D_REGNUM) (match_dup 3)))
(set (reg:HI X_REGNUM) (plus:HI (plus:HI (reg:HI X_REGNUM) (const_int 0)) (reg:HI CC_REGNUM)))]
"operands[3] = m68hc11_gen_lowpart (HImode, operands[1]);")
+(define_insn "subhi_ashlhi8"
+ [(set (match_operand:HI 0 "register_operand" "=d")
+ (minus:HI (match_operand:HI 1 "register_operand" "0")
+ (mult:HI (match_operand:HI 2 "register_operand" "0")
+ (const_int 256))))]
+ "0"
+ "@
+ sba")
+
;;
;; 32-bit shifts are made by a small library routine that uses
;; a specific passing convention for parameters (for efficiency reasons).
@@ -4622,31 +4650,24 @@
""
"#")
-(define_insn "*ashlsi3_const16_zexthi"
+(define_insn_and_split "*ashlsi3_const16_zexthi"
[(set (match_operand:SI 0 "nonimmediate_operand" "=D")
(ashift:SI (zero_extend:HI
(match_operand:HI 1 "general_operand" "duim*A"))
(const_int 16)))
(clobber (match_scratch:HI 2 "=X"))]
""
- "#")
-
-(define_split /* "*ashlsi3_const16_zexthi"*/
- [(set (match_operand:SI 0 "nonimmediate_operand" "")
- (ashift:SI (zero_extend:HI
- (match_operand:HI 1 "general_operand" ""))
- (const_int 16)))
- (clobber (match_scratch:HI 2 "=X"))]
+ "#"
"reload_completed"
[(set (reg:HI X_REGNUM) (match_dup 1))
(set (reg:HI D_REGNUM) (const_int 0))]
"")
(define_insn "*ashlsi3_const1"
- [(set (match_operand:SI 0 "non_push_operand" "=D,D,m,!*u,?*um")
- (ashift:SI (match_operand:SI 1 "nonimmediate_operand" "0,*um,0,0,*um")
+ [(set (match_operand:SI 0 "non_push_operand" "=D,D,D,m,*u,*u")
+ (ashift:SI (match_operand:SI 1 "nonimmediate_operand" "0,m,*u,m,*u,m")
(const_int 1)))
- (clobber (match_scratch:HI 2 "=X,X,&d,&d,&d"))]
+ (clobber (match_scratch:HI 2 "=X,X,X,&d,&d,&d"))]
""
"*
{
@@ -4702,7 +4723,7 @@
(ashift:SI (match_dup 0)
(match_operand:HI 1 "const_int_operand" "")))
(clobber (match_scratch:HI 2 "=y"))]
- ""
+ "TARGET_M6811 /* See *ashlsi3 note. */"
"*
{
CC_STATUS_INIT;
@@ -4712,7 +4733,7 @@
(define_insn "*ashlsi3"
[(set (match_operand:SI 0 "register_operand" "+D,D")
(ashift:SI (match_dup 0)
- (match_operand:HI 1 "general_operand" "y,m")))
+ (match_operand:HI 1 "general_operand" "y,mi")))
(clobber (match_scratch:HI 2 "=1,X"))]
""
"*
@@ -4725,7 +4746,12 @@
is not enough register in class A_REGS.
Assuming that 'operands[1]' does not refer to the stack (which
- is true for 68hc11 only, we save temporary the value of Y. */
+ is true for 68hc11 only, we save temporary the value of Y.
+
+ For 68HC12 we must also accept a constant because Z register is
+ disabled when compiling with -fomit-frame-pointer. We can come up
+ with a reload problem and the *lshrsi3_const pattern was disabled
+ for that reason. */
if (!Y_REG_P (operands[2]))
{
rtx ops[1];
@@ -4861,8 +4887,8 @@
"")
(define_insn "*ashlqi3_const1"
- [(set (match_operand:QI 0 "nonimmediate_operand" "=d,m,!u,!*q,!*A")
- (ashift:QI (match_operand:QI 1 "nonimmediate_operand" "0,0,0,0,0")
+ [(set (match_operand:QI 0 "nonimmediate_noinc_operand" "=d,m,!u,!*q,!*A")
+ (ashift:QI (match_operand:QI 1 "nonimmediate_noinc_operand" "0,0,0,0,0")
(const_int 1)))]
""
"@
@@ -5112,7 +5138,7 @@
(ashiftrt:SI (match_dup 0)
(match_operand:HI 1 "const_int_operand" "")))
(clobber (match_scratch:HI 2 "=y"))]
- ""
+ "TARGET_M6811 /* See *ashrsi3 note. */"
"*
{
CC_STATUS_INIT;
@@ -5122,7 +5148,7 @@
(define_insn "*ashrsi3"
[(set (match_operand:SI 0 "register_operand" "+D,D")
(ashiftrt:SI (match_dup 0)
- (match_operand:HI 1 "general_operand" "y,m")))
+ (match_operand:HI 1 "general_operand" "y,mi")))
(clobber (match_scratch:HI 2 "=1,X"))]
""
"*
@@ -5134,7 +5160,12 @@
is not enough register in class A_REGS.
Assuming that 'operands[1]' does not refer to the stack (which
- is true for 68hc11 only, we save temporary the value of Y. */
+ is true for 68hc11 only, we save temporary the value of Y.
+
+ For 68HC12 we must also accept a constant because Z register is
+ disabled when compiling with -fomit-frame-pointer. We can come up
+ with a reload problem and the *lshrsi3_const pattern was disabled
+ for that reason. */
if (!Y_REG_P (operands[2]))
{
rtx ops[1];
@@ -5162,8 +5193,8 @@
"")
(define_insn "*ashrqi3_const1"
- [(set (match_operand:QI 0 "nonimmediate_operand" "=d,m,!u,!*q,!*A")
- (ashiftrt:QI (match_operand:QI 1 "nonimmediate_operand" "0,0,0,0,0")
+ [(set (match_operand:QI 0 "nonimmediate_noinc_operand" "=d,m,!u,!*q,!*A")
+ (ashiftrt:QI (match_operand:QI 1 "nonimmediate_noinc_operand" "0,0,0,0,0")
(const_int 1)))]
""
"@
@@ -5240,19 +5271,13 @@
}
}")
-(define_insn "*lshrdi3_const32"
+(define_insn_and_split "*lshrdi3_const32"
[(set (match_operand:DI 0 "nonimmediate_operand" "=<,m,u")
(lshiftrt:DI (match_operand:DI 1 "general_operand" "umi,umi,umi")
(const_int 32)))
(clobber (match_scratch:HI 2 "=&A,d,d"))]
""
- "#")
-
-(define_split
- [(set (match_operand:DI 0 "nonimmediate_operand" "")
- (lshiftrt:DI (match_operand:DI 1 "general_operand" "")
- (const_int 32)))
- (clobber (match_scratch:HI 2 "=&A,d"))]
+ "#"
"reload_completed"
[(const_int 0)]
"m68hc11_split_move (m68hc11_gen_lowpart (SImode, operands[0]),
@@ -5322,19 +5347,13 @@
operands[7] = m68hc11_gen_highpart (HImode, operands[6]);
operands[6] = m68hc11_gen_lowpart (HImode, operands[6]);")
-(define_insn "*lshrdi_const1"
+(define_insn_and_split "*lshrdi_const1"
[(set (match_operand:DI 0 "non_push_operand" "=m,u")
(lshiftrt:DI (match_operand:DI 1 "general_operand" "umi,umi")
(const_int 1)))
(clobber (match_scratch:HI 2 "=d,d"))]
""
- "#")
-
-(define_split
- [(set (match_operand:DI 0 "non_push_operand" "")
- (lshiftrt:DI (match_operand:DI 1 "general_operand" "")
- (const_int 1)))
- (clobber (match_scratch:HI 2 ""))]
+ "#"
"z_replacement_completed == 2"
[(set (match_dup 2) (match_dup 3))
(set (match_dup 2) (lshiftrt:HI (match_dup 2) (const_int 1)))
@@ -5407,10 +5426,10 @@
#")
(define_insn "*lshrsi3_const1"
- [(set (match_operand:SI 0 "non_push_operand" "=D,m,*u")
- (lshiftrt:SI (match_operand:SI 1 "nonimmediate_operand" "D*um,*um,*um")
+ [(set (match_operand:SI 0 "non_push_operand" "=D,D,D,m,*u,*u")
+ (lshiftrt:SI (match_operand:SI 1 "nonimmediate_operand" "0,m,*u,m,*u,m")
(const_int 1)))
- (clobber (match_scratch:HI 2 "=X,&d,&d"))]
+ (clobber (match_scratch:HI 2 "=X,X,X,&d,&d,&d"))]
""
"*
{
@@ -5461,7 +5480,7 @@
(lshiftrt:SI (match_dup 0)
(match_operand:HI 1 "const_int_operand" "")))
(clobber (match_scratch:HI 2 "=y"))]
- ""
+ "TARGET_M6811 /* See *lshrsi3 note. */"
"*
{
CC_STATUS_INIT;
@@ -5471,7 +5490,7 @@
(define_insn "*lshrsi3"
[(set (match_operand:SI 0 "register_operand" "+D,D")
(lshiftrt:SI (match_dup 0)
- (match_operand:HI 1 "general_operand" "y,m")))
+ (match_operand:HI 1 "general_operand" "y,mi")))
(clobber (match_scratch:HI 2 "=1,X"))]
""
"*
@@ -5483,7 +5502,12 @@
is not enough register in class A_REGS.
Assuming that 'operands[1]' does not refer to the stack (which
- is true for 68hc11 only, we save temporary the value of Y. */
+ is true for 68hc11 only, we save temporary the value of Y.
+
+ For 68HC12 we must also accept a constant because Z register is
+ disabled when compiling with -fomit-frame-pointer. We can come up
+ with a reload problem and the *lshrsi3_const pattern was disabled
+ for that reason. */
if (!Y_REG_P (operands[2]))
{
rtx ops[1];
@@ -5544,8 +5568,8 @@
}")
(define_insn "lshrhi3_const"
- [(set (match_operand:HI 0 "nonimmediate_operand" "=d,d,!*A,!*A")
- (lshiftrt:HI (match_operand:HI 1 "general_operand" "dm*A,!u,dm,!u")
+ [(set (match_operand:HI 0 "nonimmediate_noinc_operand" "=d,d,!*A,!*A")
+ (lshiftrt:HI (match_operand:HI 1 "nonimmediate_noinc_operand" "dm*A,!u,dm,!u")
(match_operand:HI 2 "const_int_operand" "i,i,i,i")))]
""
"*
@@ -5649,8 +5673,8 @@
"")
(define_insn "*lshrqi3_const1"
- [(set (match_operand:QI 0 "nonimmediate_operand" "=m,d,!u,!*q,!*A")
- (lshiftrt:QI (match_operand:QI 1 "nonimmediate_operand" "0,0,0,0,0")
+ [(set (match_operand:QI 0 "nonimmediate_noinc_operand" "=m,d,!u,!*q,!*A")
+ (lshiftrt:QI (match_operand:QI 1 "nonimmediate_noinc_operand" "0,0,0,0,0")
(const_int 1)))]
""
"@
@@ -5937,6 +5961,98 @@
"")
;;--------------------------------------------------------------------
+;;- Bit test and branch
+;;--------------------------------------------------------------------
+;; Logical and, test if zero and branch to use "brset/brclr" instruction
+;;
+(define_insn "brclr"
+ [(set (pc)
+ (if_then_else
+ (eq (and:QI (match_operand:QI 0 "memory_operand" "R,Q")
+ (match_operand:QI 1 "const_int_operand" ""))
+ (const_int 0))
+ (label_ref (match_operand 2 "" ""))
+ (pc)))
+ (clobber (match_scratch:HI 3 "=X,xy"))]
+ "0"
+ "*
+{
+ cc_status = cc_prev_status;
+ if (which_alternative == 0 || TARGET_M6812)
+ {
+ return \"brclr\\t%0,%1,%l2\";
+ }
+ else
+ {
+ rtx ops[3];
+
+ ops[0] = operands[3];
+ ops[1] = XEXP (operands[0], 0);
+ ops[2] = gen_label_rtx ();
+ output_asm_insn (\".relax\\t%l2\", ops);
+ m68hc11_gen_movhi (insn, ops);
+ output_asm_insn (\"brclr\\t0,%3,%1,%l2\", operands);
+ ASM_OUTPUT_INTERNAL_LABEL (asm_out_file, \"L\",
+ CODE_LABEL_NUMBER (ops[2]));
+ return \"\";
+ }
+}")
+
+(define_insn "brset"
+ [(set (pc)
+ (if_then_else
+ (eq (and:QI (not:QI (match_operand:QI 0 "memory_operand" "R,Q"))
+ (match_operand:QI 1 "const_int_operand" ""))
+ (const_int 0))
+ (label_ref (match_operand 2 "" ""))
+ (pc)))
+ (clobber (match_scratch:HI 3 "=X,xy"))]
+ "0"
+ "*
+{
+ cc_status = cc_prev_status;
+ if (which_alternative == 0 || TARGET_M6812)
+ {
+ return \"brset\\t%0,%1,%l2\";
+ }
+ else
+ {
+ rtx ops[3];
+
+ ops[0] = operands[3];
+ ops[1] = XEXP (operands[0], 0);
+ ops[2] = gen_label_rtx ();
+ output_asm_insn (\".relax\\t%l2\", ops);
+ m68hc11_gen_movhi (insn, ops);
+ output_asm_insn (\"brset\\t0,%3,%1,%l2\", operands);
+ ASM_OUTPUT_INTERNAL_LABEL (asm_out_file, \"L\",
+ CODE_LABEL_NUMBER (ops[2]));
+ return \"\";
+ }
+}")
+
+(define_peephole2
+ [(set (match_operand:QI 0 "hard_reg_operand" "")
+ (match_operand:QI 1 "memory_operand" "m"))
+ (set (cc0) (and:HI (match_operand:HI 2 "hard_reg_operand" "")
+ (match_operand:HI 3 "const_int_operand" "")))
+ (set (pc)
+ (if_then_else (eq (cc0) (const_int 0))
+ (label_ref (match_operand 4 "" ""))
+ (pc)))]
+ "0 && REGNO (operands[0]) == REGNO (operands[2])
+ && peep2_reg_dead_p (2, operands[0])"
+ [(parallel [
+ (set (pc)
+ (if_then_else
+ (eq (and:QI (match_dup 1) (match_dup 3))
+ (const_int 0))
+ (label_ref (match_dup 4))
+ (pc)))
+ (clobber (match_dup 5))])]
+ "operands[5] = gen_rtx_SCRATCH (HImode);")
+
+;;--------------------------------------------------------------------
;;- 68HC12 Decrement/Increment and branch
;;--------------------------------------------------------------------
;; These patterns are used by loop optimization as well as peephole2
@@ -5976,17 +6092,24 @@
{
FAIL;
}
+
+ /* Note that for xxx_dbcc_dec_yy the gen_rtx_NE is only used to pass
+ the operator and its operands are not relevant. */
if (GET_MODE (operands[0]) == HImode)
{
emit_jump_insn (gen_m68hc12_dbcc_dec_hi (operands[0],
- gen_rtx (NE, HImode),
+ gen_rtx (NE, HImode,
+ operands[0],
+ operands[1]),
operands[4]));
DONE;
}
if (GET_MODE (operands[0]) == QImode)
{
emit_jump_insn (gen_m68hc12_dbcc_dec_qi (operands[0],
- gen_rtx (NE, QImode),
+ gen_rtx (NE, QImode,
+ operands[0],
+ operands[1]),
operands[4]));
DONE;
}
@@ -6928,18 +7051,81 @@
;;
;; Replace "leas 2,sp" with a "pulx" or a "puly".
;; On 68HC12, this is one cycle slower but one byte smaller.
-;; pr target/6899: This peephole is not valid because a register CSE
-;; pass removes the pulx/puly.
+;; pr target/6899: This peephole was not valid because a register CSE
+;; pass removes the pulx/puly. The 'use' clause ensure that the pulx is
+;; not removed.
;;
(define_peephole2
[(set (reg:HI SP_REGNUM) (plus:HI (reg:HI SP_REGNUM) (const_int 2)))
(match_scratch:HI 0 "xy")]
- "0 && TARGET_M6812 && optimize_size"
- [(set (match_dup 0) (match_dup 1))]
+ "TARGET_M6812 && optimize_size"
+ [(set (match_dup 0) (match_dup 1))
+ (use (match_dup 0))]
"operands[1] = gen_rtx (MEM, HImode,
gen_rtx (POST_INC, HImode,
gen_rtx_REG (HImode, HARD_SP_REGNUM)));")
+;; Replace: "pshx; tfr d,x; stx 0,sp" into "pshd; tfr d,x"
+;;
+;; PR 14542: emit a use to pretend we need the value of initial register.
+;; Otherwise verify_local_live_at_start will abort due to a live change
+;; of that register.
+;;
+(define_peephole2
+ [(set (mem:HI (pre_dec:HI (reg:HI SP_REGNUM)))
+ (match_operand:HI 0 "hard_reg_operand" ""))
+ (set (match_dup 0)
+ (match_operand:HI 1 "hard_reg_operand" ""))
+ (set (mem:HI (reg:HI SP_REGNUM))
+ (match_dup 0))]
+ "TARGET_M6812"
+ [(use (match_dup 0))
+ (set (mem:HI (pre_dec:HI (reg:HI SP_REGNUM)))
+ (match_dup 1))
+ (set (match_dup 0) (match_dup 1))]
+ "")
+
+;;
+;; Change: "ldd 0,sp; pulx" into "puld"
+;; This sequence usually appears at end a functions.
+(define_peephole2
+ [(set (match_operand:HI 0 "hard_reg_operand" "")
+ (mem:HI (reg:HI SP_REGNUM)))
+ (use (match_dup 0))
+ (set (match_operand:HI 1 "hard_reg_operand" "")
+ (mem:HI (post_inc:HI (reg:HI SP_REGNUM))))]
+ "peep2_reg_dead_p (2, operands[1])"
+ [(set (match_dup 0) (mem:HI (post_inc:HI (reg:HI SP_REGNUM))))
+ (use (match_dup 0))]
+ "")
+
+;; Replace: "pshx; clr 0,sp; clr 1,sp" by "clr 1,-sp; clr 1,-sp"
+;; Appears to allocate local variables.
+(define_peephole2
+ [(set (mem:HI (pre_dec:HI (reg:HI SP_REGNUM)))
+ (match_operand:HI 0 "hard_reg_operand" ""))
+ (set (mem:QI (plus:HI (reg:HI SP_REGNUM) (const_int 1)))
+ (const_int 0))
+ (set (mem:QI (reg:HI SP_REGNUM))
+ (const_int 0))]
+ "TARGET_M6812"
+ [(set (mem:HI (pre_dec:HI (reg:HI SP_REGNUM)))
+ (const_int 0))]
+ "")
+
+;; Likewise for HI mode
+(define_peephole2
+ [(set (mem:HI (pre_dec:HI (reg:HI SP_REGNUM)))
+ (match_operand:HI 0 "hard_reg_operand" ""))
+ (set (mem:HI (reg:HI SP_REGNUM))
+ (const_int 0))]
+ "TARGET_M6812"
+ [(set (mem:HI (pre_dec:HI (reg:HI SP_REGNUM)))
+ (const_int 0))]
+ "")
+;;--------------------------------------------------------------------
+;;-
+;;--------------------------------------------------------------------
;;
;; Optimize memory<->memory moves when the value is also loaded in
;; a register.
@@ -6989,6 +7175,32 @@
(set (match_dup 0) (match_dup 2))]
"")
+;;--------------------------------------------------------------------
+;;-
+;;--------------------------------------------------------------------
+;; SCz 2005-05-08: this peephole2 is not finished. I'm not sure it is
+;; valid in all cases. Disabled but kept for documentation and futur fix.
+;; (optimize 8-bit move to/from the X or Y registers; the issue with
+;; the first (set) is that since operand 0 is either X or Y, we have to
+;; use the scratch _.tmp memory location; the peephole uses a stack location
+;; instead to save D and use D for the load)
+;;
+(define_peephole2
+ [(set (match_operand:QI 0 "hard_reg_operand" "")
+ (match_operand:QI 1 "memory_operand" ""))
+ (set (match_operand:QI 2 "memory_operand" "")
+ (match_dup 0))]
+ "0 && A_REG_P (operands[0]) && peep2_reg_dead_p (2, operands[0])
+ && !reg_mentioned_p (gen_rtx (REG, HImode, HARD_D_REGNUM), operands[1])
+ && !reg_mentioned_p (gen_rtx (REG, HImode, HARD_D_REGNUM), operands[1])
+ && !reg_mentioned_p (gen_rtx (REG, HImode, REGNO (operands[0])), operands[2])"
+ [(set (mem:QI (pre_dec:HI (reg:HI SP_REGNUM))) (reg:QI D_REGNUM))
+ (set (reg:QI D_REGNUM) (match_dup 1))
+ (set (match_dup 2) (reg:QI D_REGNUM))
+ (set (reg:QI D_REGNUM) (mem:QI (post_inc:HI (reg:HI SP_REGNUM))))
+ (use (reg:HI SP_REGNUM))]
+ "")
+
;;
;; Reorganize to optimize address computations.
;;
@@ -7004,6 +7216,36 @@
"")
;;
+;; Replace: "ldx #N; xgdx; addd <var>; xgdx" by "ldab #N; ldx <var>; abx"
+;;
+(define_peephole2
+ [(set (match_operand:HI 0 "hard_reg_operand" "")
+ (match_operand:HI 1 "const_int_operand" ""))
+ (set (match_dup 0)
+ (plus:HI (match_dup 0)
+ (match_operand:HI 2 "general_operand" "")))
+ (match_scratch:QI 3 "d")]
+ "TARGET_M6811 && (INTVAL (operands[1]) >= 0 && INTVAL (operands[1]) <= 0x0ff)"
+ [(set (match_dup 3) (match_dup 4))
+ (set (match_dup 0) (match_dup 2))
+ (set (match_dup 0) (plus:HI (zero_extend:HI (match_dup 3)) (match_dup 0)))]
+ "operands[4] = m68hc11_gen_lowpart (QImode, operands[1]);")
+
+;;
+;; Replace: "ldx #N; xgdx; addd <var>; xgdx" by "ldab #N; ldx <var>; abx"
+;;
+(define_peephole2
+ [(set (match_operand:HI 0 "hard_reg_operand" "")
+ (match_operand:HI 1 "const_int_operand" ""))
+ (set (match_dup 0)
+ (plus:HI (match_dup 0)
+ (match_operand:HI 2 "general_operand" "")))]
+ "TARGET_M6812"
+ [(set (match_dup 0) (match_dup 2))
+ (set (match_dup 0) (plus:HI (match_dup 0) (match_dup 1)))]
+ "")
+
+;;
;; Optimize an address register increment and a compare to use
;; a PRE_INC or PRE_DEC addressing mode (disabled on the tst insn
;; before reload, but can be enabled after).
@@ -7095,6 +7337,31 @@
"")
;;
+;;
+;;
+(define_peephole2
+ [(parallel
+ [(set (match_operand:SI 0 "hard_reg_operand" "")
+ (ashift:SI (match_operand:SI 1 "general_operand" "")
+ (const_int 1)))
+ (clobber (match_scratch:HI 2 ""))])
+ (set (match_operand:HI 3 "nonimmediate_operand" "") (reg:HI D_REGNUM))
+ (set (match_operand:HI 4 "nonimmediate_operand" "") (reg:HI X_REGNUM))]
+ "!X_REG_P (operands[1])
+ && peep2_reg_dead_p (2, gen_rtx (REG, HImode, D_REGNUM))
+ && peep2_reg_dead_p (3, gen_rtx (REG, HImode, X_REGNUM))"
+ [(set (reg:HI D_REGNUM) (match_dup 5))
+ (set (reg:HI D_REGNUM) (ashift:HI (reg:HI D_REGNUM) (const_int 1)))
+ (set (match_dup 3) (reg:HI D_REGNUM))
+ (set (reg:HI D_REGNUM) (match_dup 6))
+ (parallel [(set (reg:HI D_REGNUM)
+ (rotate:HI (reg:HI D_REGNUM) (const_int 1)))
+ (clobber (reg:HI CC_REGNUM))])
+ (set (match_dup 4) (reg:HI D_REGNUM))]
+ "operands[5] = m68hc11_gen_lowpart (HImode, operands[1]);
+ operands[6] = m68hc11_gen_highpart (HImode, operands[1]);")
+
+;;
;; Replace a "ldd <mem>; psha; pshb" with a "ldx <mem>; pshx".
;;
(define_peephole2
@@ -7109,6 +7376,25 @@
"")
;;
+;; Remove one load when copying a value to/from memory and also
+;; to a register. Take care not cloberring a possible register used
+;; by operand 2.
+;; Replace: "ldd 0,y; std 2,y; ldx 0,y" into "ldx 0,y; stx 2,y"
+;;
+(define_peephole2
+ [(set (match_operand:HI 0 "hard_reg_operand" "")
+ (match_operand:HI 1 "general_operand" ""))
+ (set (match_operand:HI 2 "nonimmediate_operand" "") (match_dup 0))
+ (set (match_operand:HI 3 "hard_reg_operand" "") (match_dup 1))]
+ "peep2_reg_dead_p (2, operands[0])
+ && !side_effects_p (operands[1])
+ && !side_effects_p (operands[2])
+ && !reg_mentioned_p (operands[3], operands[2])"
+ [(set (match_dup 3) (match_dup 1))
+ (set (match_dup 2) (match_dup 3))]
+ "")
+
+;;
;; Replace a "ldd <mem>; addd #N; std <mem>" into a
;; "ldx <mem>; leax; stx <mem>" if we have a free X/Y register
;; and the constant is small.
@@ -7131,6 +7417,174 @@
"if (reg_mentioned_p (operands[4], operands[1])) FAIL;
if (reg_mentioned_p (operands[4], operands[3])) FAIL;")
+;;--------------------------------------------------------------------
+;;- Bset peephole2
+;;--------------------------------------------------------------------
+;; These peepholes try to replace some logical sequences by 'bset' and 'bclr'.
+;;
+;; Replace 'ldab <mem>; orab #N; stab <mem>' by 'bset <mem> #N'.
+;; Register D must be dead and there must be no register side effects for mem.
+;; The <mem> *can* be volatile this is why we must not use 'side_effects_p'.
+;; The good side effect is that it makes the sequence atomic.
+;;
+(define_peephole2
+ [(set (match_operand:QI 0 "hard_reg_operand" "")
+ (match_operand:QI 1 "nonimmediate_operand" ""))
+ (set (match_dup 0) (ior:QI (match_dup 0)
+ (match_operand:QI 2 "const_int_operand" "")))
+ (set (match_dup 1) (match_dup 0))]
+ "(TARGET_M6812 || m68hc11_indirect_p (operands[1], QImode))
+ && (GET_CODE (operands[1]) != MEM || !auto_inc_p (XEXP (operands[1], 0)))
+ && peep2_reg_dead_p (3, operands[0])"
+ [(set (match_dup 1) (ior:QI (match_dup 1) (match_dup 2)))]
+ "")
+
+(define_peephole2
+ [(set (match_operand:HI 0 "hard_reg_operand" "")
+ (match_operand:HI 1 "nonimmediate_operand" ""))
+ (set (match_dup 0) (ior:HI (match_dup 0)
+ (match_operand:HI 2 "const_int_operand" "")))
+ (set (match_dup 1) (match_dup 0))]
+ "(TARGET_M6812 || m68hc11_indirect_p (operands[1], HImode))
+ && (GET_CODE (operands[1]) != MEM || !auto_inc_p (XEXP (operands[1], 0)))
+ && peep2_reg_dead_p (3, operands[0])"
+ [(set (match_dup 1) (ior:HI (match_dup 1) (match_dup 2)))]
+ "")
+
+;;--------------------------------------------------------------------
+;;- Bclr peephole2
+;;--------------------------------------------------------------------
+;; Replace 'ldab <mem>; andab #N; stab <mem>' by 'bclr <mem> #N'.
+;; See Bset peephole2.
+;;
+(define_peephole2
+ [(set (match_operand:QI 0 "hard_reg_operand" "")
+ (match_operand:QI 1 "nonimmediate_operand" ""))
+ (set (match_dup 0) (and:QI (match_dup 0)
+ (match_operand:QI 2 "const_int_operand" "")))
+ (set (match_dup 1) (match_dup 0))]
+ "(TARGET_M6812 || m68hc11_indirect_p (operands[1], QImode))
+ && (GET_CODE (operands[1]) != MEM || !auto_inc_p (XEXP (operands[1], 0)))
+ && peep2_reg_dead_p (3, operands[0])"
+ [(set (match_dup 1) (and:QI (match_dup 1) (match_dup 2)))]
+ "")
+
+(define_peephole2
+ [(set (match_operand:HI 0 "hard_reg_operand" "")
+ (match_operand:HI 1 "nonimmediate_operand" ""))
+ (set (match_dup 0) (and:HI (match_dup 0)
+ (match_operand:HI 2 "const_int_operand" "")))
+ (set (match_dup 1) (match_dup 0))]
+ "(TARGET_M6812 || m68hc11_indirect_p (operands[1], HImode))
+ && (GET_CODE (operands[1]) != MEM || !auto_inc_p (XEXP (operands[1], 0)))
+ && peep2_reg_dead_p (3, operands[0])"
+ [(set (match_dup 1) (and:HI (match_dup 1) (match_dup 2)))]
+ "")
+
+
+;;--------------------------------------------------------------------
+;;- Compare peephole2
+;;--------------------------------------------------------------------
+(define_peephole2
+ [(set (match_operand:HI 0 "hard_reg_operand" "")
+ (match_operand:HI 1 "hard_reg_operand" ""))
+ (set (match_dup 1) (plus:HI (match_dup 1)
+ (match_operand:HI 2 "const_int_operand" "")))
+ (set (cc0) (match_dup 0))]
+ "peep2_reg_dead_p (3, operands[0]) && !Z_REG_P (operands[1])"
+ [(set (match_dup 1) (plus:HI (match_dup 1) (match_dup 2)))
+ (set (cc0) (compare (match_dup 1) (match_dup 2)))]
+ "")
+
+(define_peephole2
+ [(set (match_operand:HI 0 "hard_reg_operand" "")
+ (match_operand:HI 1 "hard_reg_operand" ""))
+ (set (match_operand:HI 2 "hard_reg_operand" "")
+ (plus:HI (match_dup 2)
+ (match_operand:HI 3 "const_int_operand" "")))
+ (set (match_operand:HI 4 "memory_operand" "") (match_dup 2))
+ (set (cc0) (match_operand:HI 5 "hard_reg_operand" ""))]
+ "peep2_reg_dead_p (4, operands[5]) && !Z_REG_P (operands[2])
+ && !reg_mentioned_p (operands[2], operands[4])
+
+ && ((rtx_equal_p (operands[5], operands[0])
+ && rtx_equal_p (operands[2], operands[1]))
+
+ || (rtx_equal_p (operands[5], operands[1])
+ && rtx_equal_p (operands[2], operands[0])))"
+ [(set (match_dup 2) (match_dup 1))
+ (set (match_dup 2) (plus:HI (match_dup 2) (match_dup 3)))
+ (set (match_dup 4) (match_dup 2))
+ (set (cc0) (compare (match_dup 2) (match_dup 3)))]
+ "")
+
+
+;;--------------------------------------------------------------------
+;;- Load peephole2
+;;--------------------------------------------------------------------
+;;
+;; Optimize initialization of 2 hard regs from the same memory location
+;; Since we can't copy easily X, Y and D to each other, load the 2 registers
+;; from the same memory location.
+;;
+(define_peephole2
+ [(set (match_operand:HI 0 "hard_reg_operand" "")
+ (match_operand:HI 1 "memory_operand" ""))
+ (set (match_operand:HI 2 "hard_reg_operand" "") (match_dup 0))]
+ "TARGET_M6811
+ && !side_effects_p (operands[1])
+ && !reg_mentioned_p (operands[0], operands[1])"
+ [(set (match_dup 0) (match_dup 1))
+ (set (match_dup 2) (match_dup 1))]
+ "")
+
+;; Replace "ldd #N; addd <op>" with "ldd <op>; addd #N".
+;;
+(define_peephole2
+ [(set (match_operand:HI 0 "nonimmediate_operand" "") (const_int 0))
+ (set (match_operand:HI 1 "nonimmediate_operand" "") (const_int 0))
+ (set (match_operand:HI 2 "nonimmediate_operand" "") (const_int 0))
+ (set (match_operand:HI 3 "nonimmediate_operand" "") (const_int 0))
+ (match_scratch:HI 4 "d")]
+ ""
+ [(set (match_dup 4) (const_int 0))
+ (set (match_dup 0) (match_dup 4))
+ (set (match_dup 1) (match_dup 4))
+ (set (match_dup 2) (match_dup 4))
+ (set (match_dup 3) (match_dup 4))]
+ "")
+
+;;
+;; Replace "ldd #N; addd <op>" with "ldd <op>; addd #N".
+;;
+(define_peephole2
+ [(set (match_operand:HI 0 "nonimmediate_operand" "") (const_int 0))
+ (set (match_operand:HI 1 "nonimmediate_operand" "") (const_int 0))
+ (set (match_operand:HI 2 "nonimmediate_operand" "") (const_int 0))
+ (match_scratch:HI 3 "d")]
+ ""
+ [(set (match_dup 3) (const_int 0))
+ (set (match_dup 0) (match_dup 3))
+ (set (match_dup 1) (match_dup 3))
+ (set (match_dup 2) (match_dup 3))]
+ "")
+
+;;
+;; Replace "ldd #N; addd <op>" with "ldd <op>; addd #N".
+;;
+(define_peephole2
+ [(set (match_operand:HI 0 "hard_reg_operand" "") (const_int 0))
+ (set (match_operand:HI 1 "push_operand" "") (match_dup 0))
+ (set (match_operand:HI 2 "push_operand" "") (match_dup 0))
+ (set (match_operand:HI 3 "push_operand" "") (match_dup 0))
+ (match_scratch:HI 4 "x")]
+ "TARGET_M6811 && D_REG_P (operands[0]) && peep2_reg_dead_p (4, operands[0])"
+ [(set (match_dup 4) (const_int 0))
+ (set (match_dup 1) (match_dup 4))
+ (set (match_dup 2) (match_dup 4))
+ (set (match_dup 3) (match_dup 4))]
+ "")
+
;;
;; This peephole catches the address computations generated by the reload
;; pass.
@@ -7189,6 +7643,8 @@
}
")
+;; SCz 2005-04-03: this peephole is not valid anymore because it appears
+;; we can't rely on the REG_DEAD note
(define_peephole
[(set (match_operand:HI 0 "hard_reg_operand" "h")
(match_operand:HI 1 "non_push_operand" "g"))
@@ -7279,7 +7735,7 @@
;;;
;;; Catch an xgdx/xgdy followed by a (set D X/Y). If X/Y is dead, we don't
-;;; need to emit anything. Otherwise, we just need an copy of D to X/Y.
+;;; need to emit anything. Otherwise, we just need a copy of D to X/Y.
;;;
(define_peephole
[(parallel [(set (reg:HI D_REGNUM) (match_operand:HI 0 "hard_reg_operand" "A"))
@@ -7295,7 +7751,7 @@
;;;
;;; Catch an xgdx/xgdy followed by a (set D X/Y). If X/Y is dead, we don't
-;;; need to emit anything. Otherwise, we just need an copy of D to X/Y.
+;;; need to emit anything. Otherwise, we just need a copy of D to X/Y.
;;;
(define_peephole
[(parallel [(set (reg:HI D_REGNUM) (match_operand:HI 0 "hard_reg_operand" "A"))
@@ -7400,3 +7856,41 @@
return \"sts\\t%t0\\n\\tld%0\\t%t0\";
}
")
+
+(define_peephole
+ [(set (match_operand:HI 0 "hard_reg_operand" "")
+ (match_operand:HI 1 "memory_operand" ""))
+ (set (match_operand:HI 2 "hard_reg_operand" "") (match_dup 0))]
+ "TARGET_M6811
+ && !side_effects_p (operands[1])
+ && !reg_mentioned_p (operands[0], operands[1])"
+ "*
+{
+ rtx ops[2];
+
+ ops[0] = operands[0];
+ ops[1] = operands[1];
+ m68hc11_gen_movhi (insn, ops);
+ ops[0] = operands[2];
+ m68hc11_gen_movhi (insn, ops);
+ return \"\";
+}")
+
+;; Peephole for Z register replacement.
+;; Avoid to use _.tmp register when comparing D and X if we can compare
+;; with soft register
+(define_peephole
+ [(set (match_operand:HI 0 "hard_reg_operand" "") (reg:HI SOFT_XY_REGNUM))
+ (set (reg:HI SOFT_TMP_REGNUM) (match_dup 0))
+ (set (cc0) (compare (match_operand:HI 2 "hard_reg_operand" "")
+ (reg:HI SOFT_TMP_REGNUM)))]
+ "X_REG_P (operands[0]) || Y_REG_P (operands[0])"
+ "*
+{
+ rtx ops[2];
+
+ ops[0] = operands[0];
+ ops[1] = operands[1];
+ m68hc11_gen_movhi (insn, ops);
+ return \"cp%2\\t%1\";
+}")
diff -u -r -N gcc-3.3.6-core-orig/gcc/config/m68hc11/m68hc11-protos.h gcc-3.3.6/gcc/config/m68hc11/m68hc11-protos.h
--- gcc-3.3.6-core-orig/gcc/config/m68hc11/m68hc11-protos.h 2003-04-12 22:53:41.000000000 +0100
+++ gcc-3.3.6/gcc/config/m68hc11/m68hc11-protos.h 2010-11-09 20:47:16.000000000 +0000
@@ -1,5 +1,6 @@
/* Prototypes for exported functions defined in m68hc11.c
- Copyright (C) 1999, 2000, 2001, 2002, 2003 Free Software Foundation, Inc.
+ Copyright (C) 1999, 2000, 2001, 2002, 2003,
+ 2005, 2006 Free Software Foundation, Inc.
Contributed by Stephane Carrez (stcarrez@nerim.fr)
This file is part of GNU CC.
@@ -24,7 +25,7 @@
extern int m68hc11_optimization_options PARAMS((int,int));
extern void m68hc11_conditional_register_usage PARAMS((void));
extern int hard_regno_mode_ok PARAMS((int, enum machine_mode));
-extern int m68hc11_hard_regno_rename_ok PARAMS((int, int));
+extern int m68hc11_hard_regno_rename_ok PARAMS((int, int, int));
extern int m68hc11_total_frame_size PARAMS((void));
extern int m68hc11_initial_frame_pointer_offset PARAMS((void));
@@ -105,6 +106,7 @@
extern int reg_or_indexed_operand PARAMS((rtx,enum machine_mode));
extern int tst_operand PARAMS((rtx,enum machine_mode));
extern int cmp_operand PARAMS((rtx,enum machine_mode));
+extern int nonimmediate_noinc_operand PARAMS((rtx,enum machine_mode));
extern int memory_indexed_operand PARAMS((rtx, enum machine_mode));
extern void m68hc11_split_logical PARAMS((enum machine_mode, int, rtx*));
@@ -147,6 +149,7 @@
extern int m68hc11_is_far_symbol PARAMS((rtx));
extern int m68hc11_is_trap_symbol PARAMS((rtx));
+extern int m68hc11_page0_symbol_p (rtx x);
#endif /* TREE_CODE */
diff -u -r -N gcc-3.3.6-core-orig/gcc/config/m68hc11/m68hc12.h gcc-3.3.6/gcc/config/m68hc11/m68hc12.h
--- gcc-3.3.6-core-orig/gcc/config/m68hc11/m68hc12.h 2003-01-15 23:00:12.000000000 +0000
+++ gcc-3.3.6/gcc/config/m68hc11/m68hc12.h 2010-11-09 20:47:16.000000000 +0000
@@ -19,11 +19,13 @@
the Free Software Foundation, 59 Temple Place - Suite 330,
Boston, MA 02111-1307, USA. */
-/* Compile and assemble for a 68hc12 unless there is a -m68hc11 option. */
+/* Default to compile and assemble for a 68hc12 */
#define ASM_SPEC \
"%{m68hc11:-m68hc11}" \
+"%{m6812:-m68hc12}" \
"%{m68hcs12:-m68hcs12}" \
-"%{!m68hc11:%{!m68hcs12:-m68hc12}}"
+"%{m9s12x:-mm9s12x}" \
+"%{!m68hc11:%{!m68hcs12:%{!m9s12x:-m68hc12}}}"
#define LIB_SPEC ""
#define CC1_SPEC ""
@@ -31,19 +33,23 @@
emulation option. This can be overriden by -Wl option of gcc. */
#define LINK_SPEC \
"%{m68hc11:-m m68hc11elf}" \
+"%{m9s12x:-m m9s12xelf}" \
"%{m68hcs12:-m m68hc12elf}" \
-"%{!m68hc11:%{!m68hcs12:-m m68hc11elf}} %{mrelax:-relax}"
+"%{!m68hc11:%{!m68hcs12:%{!m9s12x:-m m68hc11elf}} %{mrelax:-relax}"
#define CPP_SPEC \
"%{mshort:-D__HAVE_SHORT_INT__ -D__INT__=16}\
%{!mshort:-D__INT__=32}\
%{m68hc11:-Dmc6811 -DMC6811 -Dmc68hc11}\
- %{!m68hc11:%{!m68hc12:-Dmc6812 -DMC6812 -Dmc68hc12}}\
+ %{m68hc12:-Dmc6812 -DMC6812 -Dmc68hc12}\
+ %{m9s12x:-Dmc6812 -DMC6812 -Dmc68hcs12 -Dm9s12x}\
%{m68hcs12:-Dmc6812 -DMC6812 -Dmc68hcs12}\
- %{!m68hc11:-Dmc6812 -DMC6812 -Dmc68hc12}\
+ %{!m68hc11:%{!m68hc12:%{!m9s12x:-Dmc6812 -DMC6812 -Dmc68hc12 -m68hc12}}}\
%{fshort-double:-D__HAVE_SHORT_DOUBLE__}"
/* Default target_flags if no switches specified. */
#define TARGET_DEFAULT (MASK_M6812)
#define TARGET_M68HC12
+
+#define CPP_PREDEFINES "-Dmc68hc1x -Dtarget12"
diff -u -r -N gcc-3.3.6-core-orig/gcc/config/m68hc11/m9s12x.h gcc-3.3.6/gcc/config/m68hc11/m9s12x.h
--- gcc-3.3.6-core-orig/gcc/config/m68hc11/m9s12x.h 1970-01-01 01:00:00.000000000 +0100
+++ gcc-3.3.6/gcc/config/m68hc11/m9s12x.h 2010-11-09 20:47:16.000000000 +0000
@@ -0,0 +1,59 @@
+/* Definitions of target machine for GNU compiler, for m68hc12.
+ Copyright (C) 1999, 2000, 2001, 2003 Free Software Foundation, Inc.
+ Contributed by Stephane Carrez (stcarrez@nerim.fr).
+
+This file is part of GNU CC.
+
+GNU CC is free software; you can redistribute it and/or modify
+it under the terms of the GNU General Public License as published by
+the Free Software Foundation; either version 2, or (at your option)
+any later version.
+
+GNU CC is distributed in the hope that it will be useful,
+but WITHOUT ANY WARRANTY; without even the implied warranty of
+MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
+GNU General Public License for more details.
+
+You should have received a copy of the GNU General Public License
+along with GNU CC; see the file COPYING. If not, write to
+the Free Software Foundation, 59 Temple Place - Suite 330,
+Boston, MA 02111-1307, USA. */
+
+/* Default to compile and assemble for a m9s12x */
+#define ASM_SPEC \
+"%{m68hc11:-m68hc11}" \
+"%{m6812:-m68hc12}" \
+"%{m9s12x:-mm9s12x}" \
+"%{m68hcs12:-m68hcs12}" \
+"%{!m68hc11:%{!m68hcs12:%{!m68hc12: -mm9s12x}}}"
+/* last line was "%{!m68hc11:%{!m68hcs12:%{!m68hc12:%{!m9s12x:-mm9s12x}}}}" */
+#define LIB_SPEC ""
+#define CC1_SPEC ""
+
+/* We need to tell the linker the target elf format. Just pass an
+ emulation option. This can be overriden by -Wl option of gcc. */
+#define LINK_SPEC \
+"%{m68hc11:-m m68hc11elf}" \
+"%{m9s12x:-m m68hc12elf}" \
+"%{m68hcs12:-m m68hc12elf}" \
+"%{!m68hc11:%{!m68hcs12:%{!m9s12x:-m m68hc11elf}}} %{mrelax:-relax}"
+
+#define CPP_SPEC \
+"%{mshort:-D__HAVE_SHORT_INT__ -D__INT__=16}\
+ %{!mshort:-D__INT__=32}\
+ %{m68hc11:-Dmc6811 -DMC6811 -Dmc68hc11}\
+ %{m68hc12:-Dmc6812 -DMC6812 -Dmc68hc12}\
+ %{m9s12x:-Dmc6812 -DMC6812 -Dmc68hc12 -Dmc68hcs12 -Dm9s12x -m9s12x}\
+ %{m68hcs12:-Dmc6812 -DMC6812 -Dmc68hc12 -Dmc68hcs12}\
+ %{!m68hc11:%{!m68hc12:%{!m68hcs12: -Dmc6812 -DMC6812 -Dmc68hc12 -Dmc68hcs12 -Dm9s12x -m9s12x}}}\
+ %{fshort-double:-D__HAVE_SHORT_DOUBLE__}"
+/* penultimate was %{!m68hc11:%{!m68hc12:%{!m68hcs12:%{!m9s12x:-Dmc6812 -DMC6812 -Dmc68hc12 -Dmc68hcs12 -Dm9s12x -m9s12x}}}} */
+
+/* Default target_flags if no switches specified. */
+#define TARGET_DEFAULT (MASK_M68S12X)
+
+#define TARGET_M68HC12
+
+#define MULTILIB_DEFAULTS { "m9s12x" }
+
+#define CPP_PREDEFINES "-Dmc68hc1x -Dtargets12x"
diff -u -r -N gcc-3.3.6-core-orig/gcc/config/m68hc11/t-m68hc11-gas gcc-3.3.6/gcc/config/m68hc11/t-m68hc11-gas
--- gcc-3.3.6-core-orig/gcc/config/m68hc11/t-m68hc11-gas 2005-01-28 22:21:39.000000000 +0000
+++ gcc-3.3.6/gcc/config/m68hc11/t-m68hc11-gas 2010-11-09 20:47:16.000000000 +0000
@@ -31,13 +31,14 @@
# C implementation of 32-bit div/mod.
LIB2FUNCS_EXTRA = $(srcdir)/config/udivmodsi4.c \
- $(srcdir)/config/divmod.c $(srcdir)/config/udivmod.c
+ $(srcdir)/config/divmod.c $(srcdir)/config/udivmod.c \
+ $(srcdir)/config/m68hc11/ldivmod.asm
# Don't compile with -g1 this reduces the size of some sections (.eh_frame).
LIBGCC2_DEBUG_CFLAGS =-g
-LIBGCC2_CFLAGS = -Os -mrelax $(LIBGCC2_INCLUDES) $(TARGET_LIBGCC2_CFLAGS) $(LIBGCC2_DEBUG_CFLAGS) $(GTHREAD_FLAGS) -DIN_LIBGCC2
-
-MULTILIB_OPTIONS = m68hc11/m68hc12 mshort fshort-double
+LIBGCC2_CFLAGS = -O -mrelax $(LIBGCC2_INCLUDES) $(TARGET_LIBGCC2_CFLAGS) $(LIBGCC2_DEBUG_CFLAGS) $(GTHREAD_FLAGS) -DIN_LIBGCC2
+# -m9s12x
+MULTILIB_OPTIONS = m68hc11/m68hc12/m9s12x mshort fshort-double mlong-calls
MULTILIB_DIRNAMES =
MULTILIB_MATCHES = m68hc11=m6811 m68hc12=m6812 m68hc12=m68hcs12
MULTILIB_EXCEPTIONS = -mnoshort -mno68hc11
diff -u -r -N gcc-3.3.6-core-orig/gcc/config/udivmod.c gcc-3.3.6/gcc/config/udivmod.c
--- gcc-3.3.6-core-orig/gcc/config/udivmod.c 2000-11-30 08:25:58.000000000 +0000
+++ gcc-3.3.6/gcc/config/udivmod.c 2010-11-09 20:47:16.000000000 +0000
@@ -1,14 +1,36 @@
-long udivmodsi4 ();
+/* cover the root directory case */
+#if !defined(mc68hc11) && !defined(mc68hc12) && !defined(m9s12x)
+#if defined(target11)
+#define mc68hc11
+#endif
+#if defined(target12)
+#define mc68hc12
+#endif
+#if defined(targets12x)
+#define m9s12x
+#define mc68hc12
+#endif
+#endif
-long
-__udivsi3 (long a, long b)
+#ifndef mc68hc12
+extern unsigned long __udivmodsi4 (unsigned long num, unsigned long den,
+ unsigned long *mod);
+
+unsigned long
+__inline __udivsi3 (unsigned long a, unsigned long b)
{
- return udivmodsi4 (a, b, 0);
+ return __udivmodsi4 (a, b, 0);
}
-long
-__umodsi3 (long a, long b)
+unsigned long
+__inline __umodsi3 (unsigned long a, unsigned long b)
{
- return udivmodsi4 (a, b, 1);
+ unsigned long mod;
+
+ __udivmodsi4 (a, b, &mod);
+ return mod;
}
+
+
+#endif /* !mc68hc12 */
diff -u -r -N gcc-3.3.6-core-orig/gcc/config/udivmodsi4.c gcc-3.3.6/gcc/config/udivmodsi4.c
--- gcc-3.3.6-core-orig/gcc/config/udivmodsi4.c 2000-11-30 08:25:58.000000000 +0000
+++ gcc-3.3.6/gcc/config/udivmodsi4.c 2010-11-09 20:47:16.000000000 +0000
@@ -1,10 +1,72 @@
+/* cover the root directory case */
+#if !defined(mc68hc11) && !defined(mc68hc12) && !defined(m9s12x)
+#if defined(target11)
+#define mc68hc11
+#endif
+#if defined(target12)
+#define mc68hc12
+#endif
+#if defined(targets12x)
+#define m9s12x
+#define mc68hc12
+#endif
+#endif
+
+//#ifndef mc68hc12
unsigned long
-udivmodsi4(unsigned long num, unsigned long den, int modwanted)
+__udivmodsi4 (unsigned long num, unsigned long den, unsigned long* mod)
{
- unsigned long bit = 1;
- unsigned long res = 0;
+ unsigned long bit;
+ unsigned long res;
+
+ if ((unsigned short) (den >> 16) == 0)
+ {
+#ifdef mc68hc11
+ if ((unsigned short) (num >> 16) == 0)
+ {
+ /* Both numbers are 16-bit quantities, use 16-bit div/mod. */
+ unsigned short sden = (unsigned short) den;
+ unsigned short snum = (unsigned short) num;
+ unsigned short sres = snum / sden;
+ unsigned short smod = snum % sden;;
- while (den < num && bit && !(den & (1L<<31)))
+ if (mod)
+ *mod = (unsigned long) smod;
+ return (unsigned long) sres;
+ }
+#endif
+#ifdef mc68hc12
+ {
+ /* To avoid to stress the gcc reload, use + operand modifier
+ and pass the input values in the same variables as the
+ outputs. */
+ unsigned short status = (unsigned short) den;
+ unsigned short smod = (unsigned short) (num & 0x0ffff);
+ unsigned short sres = (unsigned short) (num >> 16);
+
+ __asm__ __volatile__ ("ediv\n"
+ "tfr ccr,x"
+ : "+x" (status), "+y" (sres),
+ "+d" (smod));
+ /* check for overflow */
+ if (!(status & 0x03))
+ {
+ if (mod)
+ *mod = (unsigned long) smod;
+ return (unsigned long) sres;
+ }
+ }
+#endif
+ if ((unsigned short) den == 0)
+ {
+ if (mod)
+ *mod = 0;
+ return 0;
+ }
+ }
+ bit = 1;
+ res = 0;
+ while (den < num && !((unsigned short) (den >> 16) & (1L<<15)))
{
den <<=1;
bit <<=1;
@@ -19,6 +81,28 @@
bit >>=1;
den >>=1;
}
- if (modwanted) return num;
+ if (mod)
+ *mod = num;
return res;
}
+
+#ifdef L_udivmodsi4
+unsigned long
+udivmodsi4 (unsigned long num, unsigned long den, int modwanted)
+{
+ unsigned long mod;
+
+ if (modwanted)
+ {
+ __udivmodsi4 (num, den, &mod);
+ return mod;
+ }
+ else
+ {
+ return __udivmodsi4 (num, den, 0);
+ }
+}
+#endif
+
+//#endif /*!mc68hc12 */
+
diff -u -r -N gcc-3.3.6-core-orig/gcc/config.gcc gcc-3.3.6/gcc/config.gcc
--- gcc-3.3.6-core-orig/gcc/config.gcc 2004-04-29 05:42:47.000000000 +0100
+++ gcc-3.3.6/gcc/config.gcc 2010-11-09 20:47:16.000000000 +0000
@@ -1516,6 +1516,13 @@
out_file="m68hc11/m68hc11.c"
tmake_file="m68hc11/t-m68hc11-gas"
;;
+m9s12x-*-*)
+ tm_file="m68hc11/m9s12x.h dbxelf.h elfos.h m68hc11/m68hc11.h"
+ tm_p_file="m68hc11/m68hc11-protos.h"
+ md_file="m68hc11/m68hc11.md"
+ out_file="m68hc11/m68hc11.c"
+ tmake_file="m68hc11/t-m68hc11-gas"
+ ;;
m68000-hp-bsd*) # HP 9000/200 running BSD
tm_file=m68k/hp2bsd.h
use_collect2=yes
diff -u -r -N gcc-3.3.6-core-orig/gcc/cppdefault.c gcc-3.3.6/gcc/cppdefault.c
--- gcc-3.3.6-core-orig/gcc/cppdefault.c 2003-11-06 23:13:31.000000000 +0000
+++ gcc-3.3.6/gcc/cppdefault.c 2010-11-09 20:47:16.000000000 +0000
@@ -76,11 +76,15 @@
#ifdef GCC_INCLUDE_DIR
const char cpp_GCC_INCLUDE_DIR[] = GCC_INCLUDE_DIR;
+#if GNU_HC1X_DONT_PATCH
const size_t cpp_GCC_INCLUDE_DIR_len = sizeof GCC_INCLUDE_DIR - 8;
+#endif
#else
const char cpp_GCC_INCLUDE_DIR[] = "";
+#if GNU_HC1X_DONT_PATCH
const size_t cpp_GCC_INCLUDE_DIR_len = 0;
#endif
+#endif
#ifdef TARGET_SYSTEM_ROOT
const char *cpp_SYSROOT = TARGET_SYSTEM_ROOT;
diff -u -r -N gcc-3.3.6-core-orig/gcc/cppdefault.h gcc-3.3.6/gcc/cppdefault.h
--- gcc-3.3.6-core-orig/gcc/cppdefault.h 2003-11-06 23:13:31.000000000 +0000
+++ gcc-3.3.6/gcc/cppdefault.h 2010-11-09 20:47:16.000000000 +0000
@@ -67,7 +67,17 @@
extern const struct default_include cpp_include_defaults[];
extern const char cpp_GCC_INCLUDE_DIR[];
+
+/* Don't use sizeof GCC_INCLUDE_DIR because for Mingw32 we patch the
+ executable to replace this path with the good path. We must then
+ use strlen() to find the correct length. */
+#undef GNU_HC1X_DONT_PATCH
+#if GNU_HC1X_DONT_PATCH
extern const size_t cpp_GCC_INCLUDE_DIR_len;
+#else
+#define cpp_GCC_INCLUDE_DIR_len \
+(strlen (cpp_GCC_INCLUDE_DIR) > 7 ? strlen (cpp_GCC_INCLUDE_DIR) - 7 : 0)
+#endif
extern const char *cpp_SYSROOT;
diff -u -r -N gcc-3.3.6-core-orig/gcc/doc/extend.texi gcc-3.3.6/gcc/doc/extend.texi
--- gcc-3.3.6-core-orig/gcc/doc/extend.texi 2004-03-17 20:13:19.000000000 +0000
+++ gcc-3.3.6/gcc/doc/extend.texi 2010-11-09 20:47:16.000000000 +0000
@@ -2528,11 +2528,14 @@
On 68HC11 the compiler will generate a sequence of instructions
to invoke a board-specific routine to switch the memory bank and call the
-real function. The board-specific routine simulates a @code{call}.
+real function. The board-specific routine simulates a @code{call}.
At the end of a function, it will jump to a board-specific routine
-instead of using @code{rts}. The board-specific return routine simulates
+instead of using @code{rts}. The board-specific return routine simulates
the @code{rtc}.
+The @code{far} attribute must not be used when the @code{interrupt} or
+@code{trap} attributes are used.
+
@item near
@cindex functions which do not handle memory bank switching on 68HC11/68HC12
On 68HC11 and 68HC12 the @code{near} attribute causes the compiler to
@@ -2540,6 +2543,21 @@
This attribute can be used to cancel the effect of the @option{-mlong-calls}
option.
+@item page0
+@cindex variables in page0 section for which direct addressing mode can be used
+On 68HC11 and 68HC12, the @code{page0} attribute indicates that a global
+or static variable is put in the @code{page0} section and the compiler can
+use the direct addressing mode. On 68HC11 the compiler will be able to
+use @code{bset} and @code{bclr} on these variables. Note that the @code{page0}
+is limited to the absolute address range @code{0}..@code{0x0ff}.
+
+@item trap
+@cindex functions which are used as trap handlers (@code{swi} or @code{trap})
+On 68HC11 and 68HC12, the @code{trap} attribute marks the function as being
+a trap handler. It will use @code{rti} instead of @code{rts} to return
+from the function. Offset of function parameters are also adjusted to take
+into account the trap frame.
+
@item dllimport
@cindex @code{__declspec(dllimport)}
On Windows targets, the @code{dllimport} attribute causes the compiler
diff -u -r -N gcc-3.3.6-core-orig/gcc/doc/gcc.1 gcc-3.3.6/gcc/doc/gcc.1
--- gcc-3.3.6-core-orig/gcc/doc/gcc.1 2005-05-03 13:41:29.000000000 +0100
+++ gcc-3.3.6/gcc/doc/gcc.1 2010-11-09 20:47:16.000000000 +0000
@@ -1,10282 +1 @@
-.\" Automatically generated by Pod::Man v1.37, Pod::Parser v1.14
-.\"
-.\" Standard preamble:
-.\" ========================================================================
-.de Sh \" Subsection heading
-.br
-.if t .Sp
-.ne 5
-.PP
-\fB\\$1\fR
-.PP
-..
-.de Sp \" Vertical space (when we can't use .PP)
-.if t .sp .5v
-.if n .sp
-..
-.de Vb \" Begin verbatim text
-.ft CW
-.nf
-.ne \\$1
-..
-.de Ve \" End verbatim text
-.ft R
-.fi
-..
-.\" Set up some character translations and predefined strings. \*(-- will
-.\" give an unbreakable dash, \*(PI will give pi, \*(L" will give a left
-.\" double quote, and \*(R" will give a right double quote. | will give a
-.\" real vertical bar. \*(C+ will give a nicer C++. Capital omega is used to
-.\" do unbreakable dashes and therefore won't be available. \*(C` and \*(C'
-.\" expand to `' in nroff, nothing in troff, for use with C<>.
-.tr \(*W-|\(bv\*(Tr
-.ds C+ C\v'-.1v'\h'-1p'\s-2+\h'-1p'+\s0\v'.1v'\h'-1p'
-.ie n \{\
-. ds -- \(*W-
-. ds PI pi
-. if (\n(.H=4u)&(1m=24u) .ds -- \(*W\h'-12u'\(*W\h'-12u'-\" diablo 10 pitch
-. if (\n(.H=4u)&(1m=20u) .ds -- \(*W\h'-12u'\(*W\h'-8u'-\" diablo 12 pitch
-. ds L" ""
-. ds R" ""
-. ds C` ""
-. ds C' ""
-'br\}
-.el\{\
-. ds -- \|\(em\|
-. ds PI \(*p
-. ds L" ``
-. ds R" ''
-'br\}
-.\"
-.\" If the F register is turned on, we'll generate index entries on stderr for
-.\" titles (.TH), headers (.SH), subsections (.Sh), items (.Ip), and index
-.\" entries marked with X<> in POD. Of course, you'll have to process the
-.\" output yourself in some meaningful fashion.
-.if \nF \{\
-. de IX
-. tm Index:\\$1\t\\n%\t"\\$2"
-..
-. nr % 0
-. rr F
-.\}
-.\"
-.\" For nroff, turn off justification. Always turn off hyphenation; it makes
-.\" way too many mistakes in technical documents.
-.hy 0
-.if n .na
-.\"
-.\" Accent mark definitions (@(#)ms.acc 1.5 88/02/08 SMI; from UCB 4.2).
-.\" Fear. Run. Save yourself. No user-serviceable parts.
-. \" fudge factors for nroff and troff
-.if n \{\
-. ds #H 0
-. ds #V .8m
-. ds #F .3m
-. ds #[ \f1
-. ds #] \fP
-.\}
-.if t \{\
-. ds #H ((1u-(\\\\n(.fu%2u))*.13m)
-. ds #V .6m
-. ds #F 0
-. ds #[ \&
-. ds #] \&
-.\}
-. \" simple accents for nroff and troff
-.if n \{\
-. ds ' \&
-. ds ` \&
-. ds ^ \&
-. ds , \&
-. ds ~ ~
-. ds /
-.\}
-.if t \{\
-. ds ' \\k:\h'-(\\n(.wu*8/10-\*(#H)'\'\h"|\\n:u"
-. ds ` \\k:\h'-(\\n(.wu*8/10-\*(#H)'\`\h'|\\n:u'
-. ds ^ \\k:\h'-(\\n(.wu*10/11-\*(#H)'^\h'|\\n:u'
-. ds , \\k:\h'-(\\n(.wu*8/10)',\h'|\\n:u'
-. ds ~ \\k:\h'-(\\n(.wu-\*(#H-.1m)'~\h'|\\n:u'
-. ds / \\k:\h'-(\\n(.wu*8/10-\*(#H)'\z\(sl\h'|\\n:u'
-.\}
-. \" troff and (daisy-wheel) nroff accents
-.ds : \\k:\h'-(\\n(.wu*8/10-\*(#H+.1m+\*(#F)'\v'-\*(#V'\z.\h'.2m+\*(#F'.\h'|\\n:u'\v'\*(#V'
-.ds 8 \h'\*(#H'\(*b\h'-\*(#H'
-.ds o \\k:\h'-(\\n(.wu+\w'\(de'u-\*(#H)/2u'\v'-.3n'\*(#[\z\(de\v'.3n'\h'|\\n:u'\*(#]
-.ds d- \h'\*(#H'\(pd\h'-\w'~'u'\v'-.25m'\f2\(hy\fP\v'.25m'\h'-\*(#H'
-.ds D- D\\k:\h'-\w'D'u'\v'-.11m'\z\(hy\v'.11m'\h'|\\n:u'
-.ds th \*(#[\v'.3m'\s+1I\s-1\v'-.3m'\h'-(\w'I'u*2/3)'\s-1o\s+1\*(#]
-.ds Th \*(#[\s+2I\s-2\h'-\w'I'u*3/5'\v'-.3m'o\v'.3m'\*(#]
-.ds ae a\h'-(\w'a'u*4/10)'e
-.ds Ae A\h'-(\w'A'u*4/10)'E
-. \" corrections for vroff
-.if v .ds ~ \\k:\h'-(\\n(.wu*9/10-\*(#H)'\s-2\u~\d\s+2\h'|\\n:u'
-.if v .ds ^ \\k:\h'-(\\n(.wu*10/11-\*(#H)'\v'-.4m'^\v'.4m'\h'|\\n:u'
-. \" for low resolution devices (crt and lpr)
-.if \n(.H>23 .if \n(.V>19 \
-\{\
-. ds : e
-. ds 8 ss
-. ds o a
-. ds d- d\h'-1'\(ga
-. ds D- D\h'-1'\(hy
-. ds th \o'bp'
-. ds Th \o'LP'
-. ds ae ae
-. ds Ae AE
-.\}
-.rm #[ #] #H #V #F C
-.\" ========================================================================
-.\"
-.IX Title "GCC 1"
-.TH GCC 1 "2005-05-03" "gcc-3.3.6" "GNU"
-.SH "NAME"
-gcc \- GNU project C and C++ compiler
-.SH "SYNOPSIS"
-.IX Header "SYNOPSIS"
-gcc [\fB\-c\fR|\fB\-S\fR|\fB\-E\fR] [\fB\-std=\fR\fIstandard\fR]
- [\fB\-g\fR] [\fB\-pg\fR] [\fB\-O\fR\fIlevel\fR]
- [\fB\-W\fR\fIwarn\fR...] [\fB\-pedantic\fR]
- [\fB\-I\fR\fIdir\fR...] [\fB\-L\fR\fIdir\fR...]
- [\fB\-D\fR\fImacro\fR[=\fIdefn\fR]...] [\fB\-U\fR\fImacro\fR]
- [\fB\-f\fR\fIoption\fR...] [\fB\-m\fR\fImachine-option\fR...]
- [\fB\-o\fR \fIoutfile\fR] \fIinfile\fR...
-.PP
-Only the most useful options are listed here; see below for the
-remainder. \fBg++\fR accepts mostly the same options as \fBgcc\fR.
-.SH "DESCRIPTION"
-.IX Header "DESCRIPTION"
-When you invoke \s-1GCC\s0, it normally does preprocessing, compilation,
-assembly and linking. The ``overall options'' allow you to stop this
-process at an intermediate stage. For example, the \fB\-c\fR option
-says not to run the linker. Then the output consists of object files
-output by the assembler.
-.PP
-Other options are passed on to one stage of processing. Some options
-control the preprocessor and others the compiler itself. Yet other
-options control the assembler and linker; most of these are not
-documented here, since you rarely need to use any of them.
-.PP
-Most of the command line options that you can use with \s-1GCC\s0 are useful
-for C programs; when an option is only useful with another language
-(usually \*(C+), the explanation says so explicitly. If the description
-for a particular option does not mention a source language, you can use
-that option with all supported languages.
-.PP
-The \fBgcc\fR program accepts options and file names as operands. Many
-options have multi-letter names; therefore multiple single-letter options
-may \fInot\fR be grouped: \fB\-dr\fR is very different from \fB\-d\ \-r\fR.
-.PP
-You can mix options and other arguments. For the most part, the order
-you use doesn't matter. Order does matter when you use several options
-of the same kind; for example, if you specify \fB\-L\fR more than once,
-the directories are searched in the order specified.
-.PP
-Many options have long names starting with \fB\-f\fR or with
-\&\fB\-W\fR\-\-\-for example, \fB\-fforce\-mem\fR,
-\&\fB\-fstrength\-reduce\fR, \fB\-Wformat\fR and so on. Most of
-these have both positive and negative forms; the negative form of
-\&\fB\-ffoo\fR would be \fB\-fno\-foo\fR. This manual documents
-only one of these two forms, whichever one is not the default.
-.SH "OPTIONS"
-.IX Header "OPTIONS"
-.Sh "Option Summary"
-.IX Subsection "Option Summary"
-Here is a summary of all the options, grouped by type. Explanations are
-in the following sections.
-.IP "\fIOverall Options\fR" 4
-.IX Item "Overall Options"
-\&\fB\-c \-S \-E \-o\fR \fIfile\fR \fB\-pipe \-pass\-exit\-codes
-\&\-x\fR \fIlanguage\fR \fB\-v \-### \-\-help \-\-target\-help \-\-version\fR
-.IP "\fIC Language Options\fR" 4
-.IX Item "C Language Options"
-\&\fB\-ansi \-std=\fR\fIstandard\fR \fB\-aux\-info\fR \fIfilename\fR
-\&\fB\-fno\-asm \-fno\-builtin \-fno\-builtin\-\fR\fIfunction\fR
-\&\fB\-fhosted \-ffreestanding \-fms\-extensions
-\&\-trigraphs \-no\-integrated\-cpp \-traditional \-traditional\-cpp
-\&\-fallow\-single\-precision \-fcond\-mismatch
-\&\-fsigned\-bitfields \-fsigned\-char
-\&\-funsigned\-bitfields \-funsigned\-char
-\&\-fwritable\-strings\fR
-.IP "\fI\*(C+ Language Options\fR" 4
-.IX Item " Language Options"
-\&\fB\-fabi\-version=\fR\fIn\fR \fB\-fno\-access\-control \-fcheck\-new
-\&\-fconserve\-space \-fno\-const\-strings \-fdollars\-in\-identifiers
-\&\-fno\-elide\-constructors
-\&\-fno\-enforce\-eh\-specs \-fexternal\-templates
-\&\-falt\-external\-templates
-\&\-ffor\-scope \-fno\-for\-scope \-fno\-gnu\-keywords
-\&\-fno\-implicit\-templates
-\&\-fno\-implicit\-inline\-templates
-\&\-fno\-implement\-inlines \-fms\-extensions
-\&\-fno\-nonansi\-builtins \-fno\-operator\-names
-\&\-fno\-optional\-diags \-fpermissive
-\&\-frepo \-fno\-rtti \-fstats \-ftemplate\-depth\-\fR\fIn\fR
-\&\fB\-fuse\-cxa\-atexit \-fvtable\-gc \-fno\-weak \-nostdinc++
-\&\-fno\-default\-inline \-Wabi \-Wctor\-dtor\-privacy
-\&\-Wnon\-virtual\-dtor \-Wreorder
-\&\-Weffc++ \-Wno\-deprecated
-\&\-Wno\-non\-template\-friend \-Wold\-style\-cast
-\&\-Woverloaded\-virtual \-Wno\-pmf\-conversions
-\&\-Wsign\-promo\fR
-.IP "\fIObjective-C Language Options\fR" 4
-.IX Item "Objective-C Language Options"
-\&\fB\-fconstant\-string\-class=\fR\fIclass-name\fR
-\&\fB\-fgnu\-runtime \-fnext\-runtime \-gen\-decls
-\&\-Wno\-protocol \-Wselector \-Wundeclared\-selector\fR
-.IP "\fILanguage Independent Options\fR" 4
-.IX Item "Language Independent Options"
-\&\fB\-fmessage\-length=\fR\fIn\fR
-\&\fB\-fdiagnostics\-show\-location=\fR[\fBonce\fR|\fBevery-line\fR]
-.IP "\fIWarning Options\fR" 4
-.IX Item "Warning Options"
-\&\fB\-fsyntax\-only \-pedantic \-pedantic\-errors
-\&\-w \-W \-Wall \-Waggregate\-return
-\&\-Wcast\-align \-Wcast\-qual \-Wchar\-subscripts \-Wcomment
-\&\-Wconversion \-Wno\-deprecated\-declarations
-\&\-Wdisabled\-optimization \-Wno\-div\-by\-zero \-Werror
-\&\-Wfloat\-equal \-Wformat \-Wformat=2
-\&\-Wformat\-nonliteral \-Wformat\-security
-\&\-Wimplicit \-Wimplicit\-int
-\&\-Wimplicit\-function\-declaration
-\&\-Werror\-implicit\-function\-declaration
-\&\-Wimport \-Winline \-Wno\-endif\-labels
-\&\-Wlarger\-than\-\fR\fIlen\fR \fB\-Wlong\-long
-\&\-Wmain \-Wmissing\-braces
-\&\-Wmissing\-format\-attribute \-Wmissing\-noreturn
-\&\-Wno\-multichar \-Wno\-format\-extra\-args \-Wno\-format\-y2k
-\&\-Wno\-import \-Wnonnull \-Wpacked \-Wpadded
-\&\-Wparentheses \-Wpointer\-arith \-Wredundant\-decls
-\&\-Wreturn\-type \-Wsequence\-point \-Wshadow
-\&\-Wsign\-compare \-Wstrict\-aliasing
-\&\-Wswitch \-Wswitch\-default \-Wswitch\-enum
-\&\-Wsystem\-headers \-Wtrigraphs \-Wundef \-Wuninitialized
-\&\-Wunknown\-pragmas \-Wunreachable\-code
-\&\-Wunused \-Wunused\-function \-Wunused\-label \-Wunused\-parameter
-\&\-Wunused\-value \-Wunused\-variable \-Wwrite\-strings\fR
-.IP "\fIC\-only Warning Options\fR" 4
-.IX Item "C-only Warning Options"
-\&\fB\-Wbad\-function\-cast \-Wmissing\-declarations
-\&\-Wmissing\-prototypes \-Wnested\-externs
-\&\-Wstrict\-prototypes \-Wtraditional\fR
-.IP "\fIDebugging Options\fR" 4
-.IX Item "Debugging Options"
-\&\fB\-d\fR\fIletters\fR \fB\-dumpspecs \-dumpmachine \-dumpversion
-\&\-fdump\-unnumbered \-fdump\-translation\-unit\fR[\fB\-\fR\fIn\fR]
-\&\fB\-fdump\-class\-hierarchy\fR[\fB\-\fR\fIn\fR]
-\&\fB\-fdump\-tree\-original\fR[\fB\-\fR\fIn\fR]
-\&\fB\-fdump\-tree\-optimized\fR[\fB\-\fR\fIn\fR]
-\&\fB\-fdump\-tree\-inlined\fR[\fB\-\fR\fIn\fR]
-\&\fB\-feliminate\-dwarf2\-dups \-fmem\-report
-\&\-fprofile\-arcs \-frandom\-seed=\fR\fIn\fR
-\&\fB\-fsched\-verbose=\fR\fIn\fR \fB\-ftest\-coverage \-ftime\-report
-\&\-g \-g\fR\fIlevel\fR \fB\-gcoff \-gdwarf \-gdwarf\-1 \-gdwarf\-1+ \-gdwarf\-2
-\&\-ggdb \-gstabs \-gstabs+ \-gvms \-gxcoff \-gxcoff+
-\&\-p \-pg \-print\-file\-name=\fR\fIlibrary\fR \fB\-print\-libgcc\-file\-name
-\&\-print\-multi\-directory \-print\-multi\-lib
-\&\-print\-prog\-name=\fR\fIprogram\fR \fB\-print\-search\-dirs \-Q
-\&\-save\-temps \-time\fR
-.IP "\fIOptimization Options\fR" 4
-.IX Item "Optimization Options"
-\&\fB\-falign\-functions=\fR\fIn\fR \fB\-falign\-jumps=\fR\fIn\fR
-\&\fB\-falign\-labels=\fR\fIn\fR \fB\-falign\-loops=\fR\fIn\fR
-\&\fB\-fbranch\-probabilities \-fcaller\-saves \-fcprop\-registers
-\&\-fcse\-follow\-jumps \-fcse\-skip\-blocks \-fdata\-sections
-\&\-fdelayed\-branch \-fdelete\-null\-pointer\-checks
-\&\-fexpensive\-optimizations \-ffast\-math \-ffloat\-store
-\&\-fforce\-addr \-fforce\-mem \-ffunction\-sections
-\&\-fgcse \-fgcse\-lm \-fgcse\-sm \-floop\-optimize \-fcrossjumping
-\&\-fif\-conversion \-fif\-conversion2
-\&\-finline\-functions \-finline\-limit=\fR\fIn\fR \fB\-fkeep\-inline\-functions
-\&\-fkeep\-static\-consts \-fmerge\-constants \-fmerge\-all\-constants
-\&\-fmove\-all\-movables \-fnew\-ra \-fno\-branch\-count\-reg
-\&\-fno\-default\-inline \-fno\-defer\-pop
-\&\-fno\-function\-cse \-fno\-guess\-branch\-probability
-\&\-fno\-inline \-fno\-math\-errno \-fno\-peephole \-fno\-peephole2
-\&\-funsafe\-math\-optimizations \-ffinite\-math\-only
-\&\-fno\-trapping\-math \-fno\-zero\-initialized\-in\-bss
-\&\-fomit\-frame\-pointer \-foptimize\-register\-move
-\&\-foptimize\-sibling\-calls \-fprefetch\-loop\-arrays
-\&\-freduce\-all\-givs \-fregmove \-frename\-registers
-\&\-freorder\-blocks \-freorder\-functions
-\&\-frerun\-cse\-after\-loop \-frerun\-loop\-opt
-\&\-fschedule\-insns \-fschedule\-insns2
-\&\-fno\-sched\-interblock \-fno\-sched\-spec \-fsched\-spec\-load
-\&\-fsched\-spec\-load\-dangerous \-fsignaling\-nans
-\&\-fsingle\-precision\-constant \-fssa \-fssa\-ccp \-fssa\-dce
-\&\-fstrength\-reduce \-fstrict\-aliasing \-ftracer \-fthread\-jumps
-\&\-funroll\-all\-loops \-funroll\-loops
-\&\-\-param\fR \fIname\fR\fB=\fR\fIvalue\fR
-\&\fB\-O \-O0 \-O1 \-O2 \-O3 \-Os\fR
-.IP "\fIPreprocessor Options\fR" 4
-.IX Item "Preprocessor Options"
-\&\fB\-$ \-A\fR\fIquestion\fR\fB=\fR\fIanswer\fR
-\&\fB\-A\-\fR\fIquestion\fR[\fB=\fR\fIanswer\fR]
-\&\fB\-C \-dD \-dI \-dM \-dN
-\&\-D\fR\fImacro\fR[\fB=\fR\fIdefn\fR] \fB\-E \-H
-\&\-idirafter\fR \fIdir\fR
-\&\fB\-include\fR \fIfile\fR \fB\-imacros\fR \fIfile\fR
-\&\fB\-iprefix\fR \fIfile\fR \fB\-iwithprefix\fR \fIdir\fR
-\&\fB\-iwithprefixbefore\fR \fIdir\fR \fB\-isystem\fR \fIdir\fR
-\&\fB\-M \-MM \-MF \-MG \-MP \-MQ \-MT \-nostdinc \-P \-remap
-\&\-trigraphs \-undef \-U\fR\fImacro\fR \fB\-Wp,\fR\fIoption\fR
-.IP "\fIAssembler Option\fR" 4
-.IX Item "Assembler Option"
-\&\fB\-Wa,\fR\fIoption\fR
-.IP "\fILinker Options\fR" 4
-.IX Item "Linker Options"
-\&\fIobject-file-name\fR \fB\-l\fR\fIlibrary\fR
-\&\fB\-nostartfiles \-nodefaultlibs \-nostdlib
-\&\-s \-static \-static\-libgcc \-shared \-shared\-libgcc \-symbolic
-\&\-Wl,\fR\fIoption\fR \fB\-Xlinker\fR \fIoption\fR
-\&\fB\-u\fR \fIsymbol\fR
-.IP "\fIDirectory Options\fR" 4
-.IX Item "Directory Options"
-\&\fB\-B\fR\fIprefix\fR \fB\-I\fR\fIdir\fR \fB\-I\- \-L\fR\fIdir\fR \fB\-specs=\fR\fIfile\fR
-.IP "\fITarget Options\fR" 4
-.IX Item "Target Options"
-\&\fB\-V\fR \fIversion\fR \fB\-b\fR \fImachine\fR
-.IP "\fIMachine Dependent Options\fR" 4
-.IX Item "Machine Dependent Options"
-\&\fIM680x0 Options\fR
-\&\fB\-m68000 \-m68020 \-m68020\-40 \-m68020\-60 \-m68030 \-m68040
-\&\-m68060 \-mcpu32 \-m5200 \-m68881 \-mbitfield \-mc68000 \-mc68020
-\&\-mfpa \-mnobitfield \-mrtd \-mshort \-msoft\-float \-mpcrel
-\&\-malign\-int \-mstrict\-align\fR
-.Sp
-\&\fIM68hc1x Options\fR
-\&\fB\-m6811 \-m6812 \-m68hc11 \-m68hc12 \-m68hcs12
-\&\-mauto\-incdec \-minmax \-mlong\-calls \-mshort
-\&\-msoft\-reg\-count=\fR\fIcount\fR
-.Sp
-\&\fI\s-1VAX\s0 Options\fR
-\&\fB\-mg \-mgnu \-munix\fR
-.Sp
-\&\fI\s-1SPARC\s0 Options\fR
-\&\fB\-mcpu=\fR\fIcpu-type\fR
-\&\fB\-mtune=\fR\fIcpu-type\fR
-\&\fB\-mcmodel=\fR\fIcode-model\fR
-\&\fB\-m32 \-m64
-\&\-mapp\-regs \-mbroken\-saverestore \-mcypress
-\&\-mfaster\-structs \-mflat
-\&\-mfpu \-mhard\-float \-mhard\-quad\-float
-\&\-mimpure\-text \-mlittle\-endian \-mlive\-g0 \-mno\-app\-regs
-\&\-mno\-faster\-structs \-mno\-flat \-mno\-fpu
-\&\-mno\-impure\-text \-mno\-stack\-bias \-mno\-unaligned\-doubles
-\&\-msoft\-float \-msoft\-quad\-float \-msparclite \-mstack\-bias
-\&\-msupersparc \-munaligned\-doubles \-mv8
-\&\-threads \-pthreads\fR
-.Sp
-\&\fI\s-1ARM\s0 Options\fR
-\&\fB\-mapcs\-frame \-mno\-apcs\-frame
-\&\-mapcs\-26 \-mapcs\-32
-\&\-mapcs\-stack\-check \-mno\-apcs\-stack\-check
-\&\-mapcs\-float \-mno\-apcs\-float
-\&\-mapcs\-reentrant \-mno\-apcs\-reentrant
-\&\-msched\-prolog \-mno\-sched\-prolog
-\&\-mlittle\-endian \-mbig\-endian \-mwords\-little\-endian
-\&\-malignment\-traps \-mno\-alignment\-traps
-\&\-msoft\-float \-mhard\-float \-mfpe
-\&\-mthumb\-interwork \-mno\-thumb\-interwork
-\&\-mcpu=\fR\fIname\fR \fB\-march=\fR\fIname\fR \fB\-mfpe=\fR\fIname\fR
-\&\fB\-mstructure\-size\-boundary=\fR\fIn\fR
-\&\fB\-mabort\-on\-noreturn
-\&\-mlong\-calls \-mno\-long\-calls
-\&\-msingle\-pic\-base \-mno\-single\-pic\-base
-\&\-mpic\-register=\fR\fIreg\fR
-\&\fB\-mnop\-fun\-dllimport
-\&\-mpoke\-function\-name
-\&\-mthumb \-marm
-\&\-mtpcs\-frame \-mtpcs\-leaf\-frame
-\&\-mcaller\-super\-interworking \-mcallee\-super\-interworking\fR
-.Sp
-\&\fI\s-1MN10200\s0 Options\fR
-\&\fB\-mrelax\fR
-.Sp
-\&\fI\s-1MN10300\s0 Options\fR
-\&\fB\-mmult\-bug \-mno\-mult\-bug
-\&\-mam33 \-mno\-am33
-\&\-mno\-crt0 \-mrelax\fR
-.Sp
-\&\fIM32R/D Options\fR
-\&\fB\-m32rx \-m32r \-mcode\-model=\fR\fImodel-type\fR
-\&\fB\-msdata=\fR\fIsdata-type\fR \fB\-G\fR \fInum\fR
-.Sp
-\&\fIM88K Options\fR
-\&\fB\-m88000 \-m88100 \-m88110 \-mbig\-pic
-\&\-mcheck\-zero\-division \-mhandle\-large\-shift
-\&\-midentify\-revision \-mno\-check\-zero\-division
-\&\-mno\-ocs\-debug\-info \-mno\-ocs\-frame\-position
-\&\-mno\-optimize\-arg\-area \-mno\-serialize\-volatile
-\&\-mno\-underscores \-mocs\-debug\-info
-\&\-mocs\-frame\-position \-moptimize\-arg\-area
-\&\-mserialize\-volatile \-mshort\-data\-\fR\fInum\fR \fB\-msvr3
-\&\-msvr4 \-mtrap\-large\-shift \-muse\-div\-instruction
-\&\-mversion\-03.00 \-mwarn\-passed\-structs\fR
-.Sp
-\&\fI\s-1RS/6000\s0 and PowerPC Options\fR
-\&\fB\-mcpu=\fR\fIcpu-type\fR
-\&\fB\-mtune=\fR\fIcpu-type\fR
-\&\fB\-mpower \-mno\-power \-mpower2 \-mno\-power2
-\&\-mpowerpc \-mpowerpc64 \-mno\-powerpc
-\&\-maltivec \-mno\-altivec
-\&\-mpowerpc\-gpopt \-mno\-powerpc\-gpopt
-\&\-mpowerpc\-gfxopt \-mno\-powerpc\-gfxopt
-\&\-mnew\-mnemonics \-mold\-mnemonics
-\&\-mfull\-toc \-mminimal\-toc \-mno\-fp\-in\-toc \-mno\-sum\-in\-toc
-\&\-m64 \-m32 \-mxl\-call \-mno\-xl\-call \-mpe
-\&\-msoft\-float \-mhard\-float \-mmultiple \-mno\-multiple
-\&\-mstring \-mno\-string \-mupdate \-mno\-update
-\&\-mfused\-madd \-mno\-fused\-madd \-mbit\-align \-mno\-bit\-align
-\&\-mstrict\-align \-mno\-strict\-align \-mrelocatable
-\&\-mno\-relocatable \-mrelocatable\-lib \-mno\-relocatable\-lib
-\&\-mtoc \-mno\-toc \-mlittle \-mlittle\-endian \-mbig \-mbig\-endian
-\&\-mcall\-aix \-mcall\-sysv \-mcall\-netbsd
-\&\-maix\-struct\-return \-msvr4\-struct\-return
-\&\-mabi=altivec \-mabi=no\-altivec
-\&\-mabi=spe \-mabi=no\-spe
-\&\-misel=yes \-misel=no
-\&\-mprototype \-mno\-prototype
-\&\-msim \-mmvme \-mads \-myellowknife \-memb \-msdata
-\&\-msdata=\fR\fIopt\fR \fB\-mvxworks \-mwindiss \-G\fR \fInum\fR \fB\-pthread\fR
-.Sp
-\&\fIDarwin Options\fR
-.Sp
-\&\fB\-all_load \-allowable_client \-arch \-arch_errors_fatal
-\&\-arch_only \-bind_at_load \-bundle \-bundle_loader
-\&\-client_name \-compatibility_version \-current_version
-\&\-dependency\-file \-dylib_file \-dylinker_install_name
-\&\-dynamic \-dynamiclib \-exported_symbols_list
-\&\-filelist \-flat_namespace \-force_cpusubtype_ALL
-\&\-force_flat_namespace \-headerpad_max_install_names
-\&\-image_base \-init \-install_name \-keep_private_externs
-\&\-multi_module \-multiply_defined \-multiply_defined_unused
-\&\-noall_load \-nomultidefs \-noprebind \-noseglinkedit
-\&\-pagezero_size \-prebind \-prebind_all_twolevel_modules
-\&\-private_bundle \-read_only_relocs \-sectalign
-\&\-sectobjectsymbols \-whyload \-seg1addr
-\&\-sectcreate \-sectobjectsymbols \-sectorder
-\&\-seg_addr_table \-seg_addr_table_filename \-seglinkedit
-\&\-segprot \-segs_read_only_addr \-segs_read_write_addr
-\&\-single_module \-static \-sub_library \-sub_umbrella
-\&\-twolevel_namespace \-umbrella \-undefined
-\&\-unexported_symbols_list \-weak_reference_mismatches \-whatsloaded\fR
-.Sp
-\&\fI\s-1RT\s0 Options\fR
-\&\fB\-mcall\-lib\-mul \-mfp\-arg\-in\-fpregs \-mfp\-arg\-in\-gregs
-\&\-mfull\-fp\-blocks \-mhc\-struct\-return \-min\-line\-mul
-\&\-mminimum\-fp\-blocks \-mnohc\-struct\-return\fR
-.Sp
-\&\fI\s-1MIPS\s0 Options\fR
-\&\fB\-mabicalls \-march=\fR\fIcpu-type\fR \fB\-mtune=\fR\fIcpu=type\fR
-\&\fB\-mcpu=\fR\fIcpu-type\fR \fB\-membedded\-data \-muninit\-const\-in\-rodata
-\&\-membedded\-pic \-mfp32 \-mfp64 \-mfused\-madd \-mno\-fused\-madd
-\&\-mgas \-mgp32 \-mgp64
-\&\-mgpopt \-mhalf\-pic \-mhard\-float \-mint64 \-mips1
-\&\-mips2 \-mips3 \-mips4 \-mlong64 \-mlong32 \-mlong\-calls \-mmemcpy
-\&\-mmips\-as \-mmips\-tfile \-mno\-abicalls
-\&\-mno\-embedded\-data \-mno\-uninit\-const\-in\-rodata
-\&\-mno\-embedded\-pic \-mno\-gpopt \-mno\-long\-calls
-\&\-mno\-memcpy \-mno\-mips\-tfile \-mno\-rnames \-mno\-stats
-\&\-mrnames \-msoft\-float
-\&\-m4650 \-msingle\-float \-mmad
-\&\-mstats \-EL \-EB \-G\fR \fInum\fR \fB\-nocpp
-\&\-mabi=32 \-mabi=n32 \-mabi=64 \-mabi=eabi
-\&\-mfix7000 \-mno\-crt0 \-mflush\-func=\fR\fIfunc\fR \fB\-mno\-flush\-func
-\&\-mbranch\-likely \-mno\-branch\-likely\fR
-.Sp
-\&\fIi386 and x86\-64 Options\fR
-\&\fB\-mcpu=\fR\fIcpu-type\fR \fB\-march=\fR\fIcpu-type\fR
-\&\fB\-mfpmath=\fR\fIunit\fR \fB\-masm=\fR\fIdialect\fR \fB\-mno\-fancy\-math\-387
-\&\-mno\-fp\-ret\-in\-387 \-msoft\-float \-msvr3\-shlib
-\&\-mno\-wide\-multiply \-mrtd \-malign\-double
-\&\-mpreferred\-stack\-boundary=\fR\fInum\fR
-\&\fB\-mmmx \-msse \-msse2 \-msse3 \-m3dnow
-\&\-mthreads \-mno\-align\-stringops \-minline\-all\-stringops
-\&\-mpush\-args \-maccumulate\-outgoing\-args \-m128bit\-long\-double
-\&\-m96bit\-long\-double \-mregparm=\fR\fInum\fR \fB\-momit\-leaf\-frame\-pointer
-\&\-mno\-red\-zone
-\&\-mcmodel=\fR\fIcode-model\fR
-\&\fB\-m32 \-m64\fR
-.Sp
-\&\fI\s-1HPPA\s0 Options\fR
-\&\fB\-march=\fR\fIarchitecture-type\fR
-\&\fB\-mbig\-switch \-mdisable\-fpregs \-mdisable\-indexing
-\&\-mfast\-indirect\-calls \-mgas \-mgnu\-ld \-mhp\-ld
-\&\-mjump\-in\-delay \-mlinker\-opt \-mlong\-calls
-\&\-mlong\-load\-store \-mno\-big\-switch \-mno\-disable\-fpregs
-\&\-mno\-disable\-indexing \-mno\-fast\-indirect\-calls \-mno\-gas
-\&\-mno\-jump\-in\-delay \-mno\-long\-load\-store
-\&\-mno\-portable\-runtime \-mno\-soft\-float
-\&\-mno\-space\-regs \-msoft\-float \-mpa\-risc\-1\-0
-\&\-mpa\-risc\-1\-1 \-mpa\-risc\-2\-0 \-mportable\-runtime
-\&\-mschedule=\fR\fIcpu-type\fR \fB\-mspace\-regs \-msio \-mwsio
-\&\-nolibdld \-static \-threads\fR
-.Sp
-\&\fIIntel 960 Options\fR
-\&\fB\-m\fR\fIcpu-type\fR \fB\-masm\-compat \-mclean\-linkage
-\&\-mcode\-align \-mcomplex\-addr \-mleaf\-procedures
-\&\-mic\-compat \-mic2.0\-compat \-mic3.0\-compat
-\&\-mintel\-asm \-mno\-clean\-linkage \-mno\-code\-align
-\&\-mno\-complex\-addr \-mno\-leaf\-procedures
-\&\-mno\-old\-align \-mno\-strict\-align \-mno\-tail\-call
-\&\-mnumerics \-mold\-align \-msoft\-float \-mstrict\-align
-\&\-mtail\-call\fR
-.Sp
-\&\fI\s-1DEC\s0 Alpha Options\fR
-\&\fB\-mno\-fp\-regs \-msoft\-float \-malpha\-as \-mgas
-\&\-mieee \-mieee\-with\-inexact \-mieee\-conformant
-\&\-mfp\-trap\-mode=\fR\fImode\fR \fB\-mfp\-rounding\-mode=\fR\fImode\fR
-\&\fB\-mtrap\-precision=\fR\fImode\fR \fB\-mbuild\-constants
-\&\-mcpu=\fR\fIcpu-type\fR \fB\-mtune=\fR\fIcpu-type\fR
-\&\fB\-mbwx \-mmax \-mfix \-mcix
-\&\-mfloat\-vax \-mfloat\-ieee
-\&\-mexplicit\-relocs \-msmall\-data \-mlarge\-data
-\&\-mmemory\-latency=\fR\fItime\fR
-.Sp
-\&\fI\s-1DEC\s0 Alpha/VMS Options\fR
-\&\fB\-mvms\-return\-codes\fR
-.Sp
-\&\fIH8/300 Options\fR
-\&\fB\-mrelax \-mh \-ms \-mn \-mint32 \-malign\-300\fR
-.Sp
-\&\fI\s-1SH\s0 Options\fR
-\&\fB\-m1 \-m2 \-m3 \-m3e
-\&\-m4\-nofpu \-m4\-single\-only \-m4\-single \-m4
-\&\-m5\-64media \-m5\-64media\-nofpu
-\&\-m5\-32media \-m5\-32media\-nofpu
-\&\-m5\-compact \-m5\-compact\-nofpu
-\&\-mb \-ml \-mdalign \-mrelax
-\&\-mbigtable \-mfmovd \-mhitachi \-mnomacsave
-\&\-mieee \-misize \-mpadstruct \-mspace
-\&\-mprefergot \-musermode\fR
-.Sp
-\&\fISystem V Options\fR
-\&\fB\-Qy \-Qn \-YP,\fR\fIpaths\fR \fB\-Ym,\fR\fIdir\fR
-.Sp
-\&\fI\s-1ARC\s0 Options\fR
-\&\fB\-EB \-EL
-\&\-mmangle\-cpu \-mcpu=\fR\fIcpu\fR \fB\-mtext=\fR\fItext-section\fR
-\&\fB\-mdata=\fR\fIdata-section\fR \fB\-mrodata=\fR\fIreadonly-data-section\fR
-.Sp
-\&\fITMS320C3x/C4x Options\fR
-\&\fB\-mcpu=\fR\fIcpu\fR \fB\-mbig \-msmall \-mregparm \-mmemparm
-\&\-mfast\-fix \-mmpyi \-mbk \-mti \-mdp\-isr\-reload
-\&\-mrpts=\fR\fIcount\fR \fB\-mrptb \-mdb \-mloop\-unsigned
-\&\-mparallel\-insns \-mparallel\-mpy \-mpreserve\-float\fR
-.Sp
-\&\fIV850 Options\fR
-\&\fB\-mlong\-calls \-mno\-long\-calls \-mep \-mno\-ep
-\&\-mprolog\-function \-mno\-prolog\-function \-mspace
-\&\-mtda=\fR\fIn\fR \fB\-msda=\fR\fIn\fR \fB\-mzda=\fR\fIn\fR
-\&\fB\-mapp\-regs \-mno\-app\-regs
-\&\-mdisable\-callt \-mno\-disable\-callt
-\&\-mv850e
-\&\-mv850 \-mbig\-switch\fR
-.Sp
-\&\fI\s-1NS32K\s0 Options\fR
-\&\fB\-m32032 \-m32332 \-m32532 \-m32081 \-m32381
-\&\-mmult\-add \-mnomult\-add \-msoft\-float \-mrtd \-mnortd
-\&\-mregparam \-mnoregparam \-msb \-mnosb
-\&\-mbitfield \-mnobitfield \-mhimem \-mnohimem\fR
-.Sp
-\&\fI\s-1AVR\s0 Options\fR
-\&\fB\-mmcu=\fR\fImcu\fR \fB\-msize \-minit\-stack=\fR\fIn\fR \fB\-mno\-interrupts
-\&\-mcall\-prologues \-mno\-tablejump \-mtiny\-stack\fR
-.Sp
-\&\fIMCore Options\fR
-\&\fB\-mhardlit \-mno\-hardlit \-mdiv \-mno\-div \-mrelax\-immediates
-\&\-mno\-relax\-immediates \-mwide\-bitfields \-mno\-wide\-bitfields
-\&\-m4byte\-functions \-mno\-4byte\-functions \-mcallgraph\-data
-\&\-mno\-callgraph\-data \-mslow\-bytes \-mno\-slow\-bytes \-mno\-lsim
-\&\-mlittle\-endian \-mbig\-endian \-m210 \-m340 \-mstack\-increment\fR
-.Sp
-\&\fI\s-1MMIX\s0 Options\fR
-\&\fB\-mlibfuncs \-mno\-libfuncs \-mepsilon \-mno\-epsilon \-mabi=gnu
-\&\-mabi=mmixware \-mzero\-extend \-mknuthdiv \-mtoplevel\-symbols
-\&\-melf \-mbranch\-predict \-mno\-branch\-predict \-mbase\-addresses
-\&\-mno\-base\-addresses \-msingle\-exit \-mno\-single\-exit\fR
-.Sp
-\&\fI\s-1IA\-64\s0 Options\fR
-\&\fB\-mbig\-endian \-mlittle\-endian \-mgnu\-as \-mgnu\-ld \-mno\-pic
-\&\-mvolatile\-asm\-stop \-mb\-step \-mregister\-names \-mno\-sdata
-\&\-mconstant\-gp \-mauto\-pic \-minline\-float\-divide\-min\-latency
-\&\-minline\-float\-divide\-max\-throughput
-\&\-minline\-int\-divide\-min\-latency
-\&\-minline\-int\-divide\-max\-throughput \-mno\-dwarf2\-asm
-\&\-mfixed\-range=\fR\fIregister-range\fR
-.Sp
-\&\fID30V Options\fR
-\&\fB\-mextmem \-mextmemory \-monchip \-mno\-asm\-optimize
-\&\-masm\-optimize \-mbranch\-cost=\fR\fIn\fR \fB\-mcond\-exec=\fR\fIn\fR
-.Sp
-\&\fIS/390 and zSeries Options\fR
-\&\fB\-mhard\-float \-msoft\-float \-mbackchain \-mno\-backchain
-\&\-msmall\-exec \-mno\-small\-exec \-mmvcle \-mno\-mvcle
-\&\-m64 \-m31 \-mdebug \-mno\-debug\fR
-.Sp
-\&\fI\s-1CRIS\s0 Options\fR
-\&\fB\-mcpu=\fR\fIcpu\fR \fB\-march=\fR\fIcpu\fR \fB\-mtune=\fR\fIcpu\fR
-\&\fB\-mmax\-stack\-frame=\fR\fIn\fR \fB\-melinux\-stacksize=\fR\fIn\fR
-\&\fB\-metrax4 \-metrax100 \-mpdebug \-mcc\-init \-mno\-side\-effects
-\&\-mstack\-align \-mdata\-align \-mconst\-align
-\&\-m32\-bit \-m16\-bit \-m8\-bit \-mno\-prologue\-epilogue \-mno\-gotplt
-\&\-melf \-maout \-melinux \-mlinux \-sim \-sim2
-\&\-mmul\-bug\-workaround \-mno\-mul\-bug\-workaround\fR
-.Sp
-\&\fI\s-1PDP\-11\s0 Options\fR
-\&\fB\-mfpu \-msoft\-float \-mac0 \-mno\-ac0 \-m40 \-m45 \-m10
-\&\-mbcopy \-mbcopy\-builtin \-mint32 \-mno\-int16
-\&\-mint16 \-mno\-int32 \-mfloat32 \-mno\-float64
-\&\-mfloat64 \-mno\-float32 \-mabshi \-mno\-abshi
-\&\-mbranch\-expensive \-mbranch\-cheap
-\&\-msplit \-mno\-split \-munix\-asm \-mdec\-asm\fR
-.Sp
-\&\fIXstormy16 Options\fR
-\&\fB\-msim\fR
-.Sp
-\&\fIXtensa Options\fR
-\&\fB\-mbig\-endian \-mlittle\-endian
-\&\-mdensity \-mno\-density
-\&\-mmac16 \-mno\-mac16
-\&\-mmul16 \-mno\-mul16
-\&\-mmul32 \-mno\-mul32
-\&\-mnsa \-mno\-nsa
-\&\-mminmax \-mno\-minmax
-\&\-msext \-mno\-sext
-\&\-mbooleans \-mno\-booleans
-\&\-mhard\-float \-msoft\-float
-\&\-mfused\-madd \-mno\-fused\-madd
-\&\-mserialize\-volatile \-mno\-serialize\-volatile
-\&\-mtext\-section\-literals \-mno\-text\-section\-literals
-\&\-mtarget\-align \-mno\-target\-align
-\&\-mlongcalls \-mno\-longcalls\fR
-.Sp
-\&\fI\s-1FRV\s0 Options\fR
-\&\fB\-mgpr\-32 \-mgpr\-64 \-mfpr\-32 \-mfpr\-64
-\&\-mhard\-float \-msoft\-float \-malloc\-cc \-mfixed\-cc
-\&\-mdword \-mno\-dword \-mdouble \-mno\-double
-\&\-mmedia \-mno\-media \-mmuladd \-mno\-muladd \-mlibrary\-pic
-\&\-macc\-4 \-macc\-8 \-mpack \-mno\-pack \-mno\-eflags
-\&\-mcond\-move \-mno\-cond\-move \-mscc \-mno\-scc
-\&\-mcond\-exec \-mno\-cond\-exec \-mvliw\-branch \-mno\-vliw\-branch
-\&\-mmulti\-cond\-exec \-mno\-multi\-cond\-exec \-mnested\-cond\-exec
-\&\-mno\-nested\-cond\-exec \-mtomcat\-stats
-\&\-mcpu=\fR\fIcpu\fR
-.IP "\fICode Generation Options\fR" 4
-.IX Item "Code Generation Options"
-\&\fB\-fcall\-saved\-\fR\fIreg\fR \fB\-fcall\-used\-\fR\fIreg\fR
-\&\fB\-ffixed\-\fR\fIreg\fR \fB\-fexceptions
-\&\-fnon\-call\-exceptions \-funwind\-tables
-\&\-fasynchronous\-unwind\-tables
-\&\-finhibit\-size\-directive \-finstrument\-functions
-\&\-fno\-common \-fno\-ident \-fno\-gnu\-linker
-\&\-fpcc\-struct\-return \-fpic \-fPIC
-\&\-freg\-struct\-return \-fshared\-data \-fshort\-enums
-\&\-fshort\-double \-fshort\-wchar \-fvolatile
-\&\-fvolatile\-global \-fvolatile\-static
-\&\-fverbose\-asm \-fpack\-struct \-fstack\-check
-\&\-fstack\-limit\-register=\fR\fIreg\fR \fB\-fstack\-limit\-symbol=\fR\fIsym\fR
-\&\fB\-fargument\-alias \-fargument\-noalias
-\&\-fargument\-noalias\-global \-fleading\-underscore
-\&\-ftls\-model=\fR\fImodel\fR
-\&\fB\-ftrapv \-fbounds\-check\fR
-.Sh "Options Controlling the Kind of Output"
-.IX Subsection "Options Controlling the Kind of Output"
-Compilation can involve up to four stages: preprocessing, compilation
-proper, assembly and linking, always in that order. The first three
-stages apply to an individual source file, and end by producing an
-object file; linking combines all the object files (those newly
-compiled, and those specified as input) into an executable file.
-.PP
-For any given input file, the file name suffix determines what kind of
-compilation is done:
-.IP "\fIfile\fR\fB.c\fR" 4
-.IX Item "file.c"
-C source code which must be preprocessed.
-.IP "\fIfile\fR\fB.i\fR" 4
-.IX Item "file.i"
-C source code which should not be preprocessed.
-.IP "\fIfile\fR\fB.ii\fR" 4
-.IX Item "file.ii"
-\&\*(C+ source code which should not be preprocessed.
-.IP "\fIfile\fR\fB.m\fR" 4
-.IX Item "file.m"
-Objective-C source code. Note that you must link with the library
-\&\fIlibobjc.a\fR to make an Objective-C program work.
-.IP "\fIfile\fR\fB.mi\fR" 4
-.IX Item "file.mi"
-Objective-C source code which should not be preprocessed.
-.IP "\fIfile\fR\fB.h\fR" 4
-.IX Item "file.h"
-C header file (not to be compiled or linked).
-.IP "\fIfile\fR\fB.cc\fR" 4
-.IX Item "file.cc"
-.PD 0
-.IP "\fIfile\fR\fB.cp\fR" 4
-.IX Item "file.cp"
-.IP "\fIfile\fR\fB.cxx\fR" 4
-.IX Item "file.cxx"
-.IP "\fIfile\fR\fB.cpp\fR" 4
-.IX Item "file.cpp"
-.IP "\fIfile\fR\fB.c++\fR" 4
-.IX Item "file.c++"
-.IP "\fIfile\fR\fB.C\fR" 4
-.IX Item "file.C"
-.PD
-\&\*(C+ source code which must be preprocessed. Note that in \fB.cxx\fR,
-the last two letters must both be literally \fBx\fR. Likewise,
-\&\fB.C\fR refers to a literal capital C.
-.IP "\fIfile\fR\fB.f\fR" 4
-.IX Item "file.f"
-.PD 0
-.IP "\fIfile\fR\fB.for\fR" 4
-.IX Item "file.for"
-.IP "\fIfile\fR\fB.FOR\fR" 4
-.IX Item "file.FOR"
-.PD
-Fortran source code which should not be preprocessed.
-.IP "\fIfile\fR\fB.F\fR" 4
-.IX Item "file.F"
-.PD 0
-.IP "\fIfile\fR\fB.fpp\fR" 4
-.IX Item "file.fpp"
-.IP "\fIfile\fR\fB.FPP\fR" 4
-.IX Item "file.FPP"
-.PD
-Fortran source code which must be preprocessed (with the traditional
-preprocessor).
-.IP "\fIfile\fR\fB.r\fR" 4
-.IX Item "file.r"
-Fortran source code which must be preprocessed with a \s-1RATFOR\s0
-preprocessor (not included with \s-1GCC\s0).
-.IP "\fIfile\fR\fB.ads\fR" 4
-.IX Item "file.ads"
-Ada source code file which contains a library unit declaration (a
-declaration of a package, subprogram, or generic, or a generic
-instantiation), or a library unit renaming declaration (a package,
-generic, or subprogram renaming declaration). Such files are also
-called \fIspecs\fR.
-.IP "\fIfile\fR\fB.adb\fR" 4
-.IX Item "file.adb"
-Ada source code file containing a library unit body (a subprogram or
-package body). Such files are also called \fIbodies\fR.
-.IP "\fIfile\fR\fB.s\fR" 4
-.IX Item "file.s"
-Assembler code.
-.IP "\fIfile\fR\fB.S\fR" 4
-.IX Item "file.S"
-Assembler code which must be preprocessed.
-.IP "\fIother\fR" 4
-.IX Item "other"
-An object file to be fed straight into linking.
-Any file name with no recognized suffix is treated this way.
-.PP
-You can specify the input language explicitly with the \fB\-x\fR option:
-.IP "\fB\-x\fR \fIlanguage\fR" 4
-.IX Item "-x language"
-Specify explicitly the \fIlanguage\fR for the following input files
-(rather than letting the compiler choose a default based on the file
-name suffix). This option applies to all following input files until
-the next \fB\-x\fR option. Possible values for \fIlanguage\fR are:
-.Sp
-.Vb 8
-\& c c-header cpp-output
-\& c++ c++-cpp-output
-\& objective-c objc-cpp-output
-\& assembler assembler-with-cpp
-\& ada
-\& f77 f77-cpp-input ratfor
-\& java
-\& treelang
-.Ve
-.IP "\fB\-x none\fR" 4
-.IX Item "-x none"
-Turn off any specification of a language, so that subsequent files are
-handled according to their file name suffixes (as they are if \fB\-x\fR
-has not been used at all).
-.IP "\fB\-pass\-exit\-codes\fR" 4
-.IX Item "-pass-exit-codes"
-Normally the \fBgcc\fR program will exit with the code of 1 if any
-phase of the compiler returns a non-success return code. If you specify
-\&\fB\-pass\-exit\-codes\fR, the \fBgcc\fR program will instead return with
-numerically highest error produced by any phase that returned an error
-indication.
-.PP
-If you only want some of the stages of compilation, you can use
-\&\fB\-x\fR (or filename suffixes) to tell \fBgcc\fR where to start, and
-one of the options \fB\-c\fR, \fB\-S\fR, or \fB\-E\fR to say where
-\&\fBgcc\fR is to stop. Note that some combinations (for example,
-\&\fB\-x cpp-output \-E\fR) instruct \fBgcc\fR to do nothing at all.
-.IP "\fB\-c\fR" 4
-.IX Item "-c"
-Compile or assemble the source files, but do not link. The linking
-stage simply is not done. The ultimate output is in the form of an
-object file for each source file.
-.Sp
-By default, the object file name for a source file is made by replacing
-the suffix \fB.c\fR, \fB.i\fR, \fB.s\fR, etc., with \fB.o\fR.
-.Sp
-Unrecognized input files, not requiring compilation or assembly, are
-ignored.
-.IP "\fB\-S\fR" 4
-.IX Item "-S"
-Stop after the stage of compilation proper; do not assemble. The output
-is in the form of an assembler code file for each non-assembler input
-file specified.
-.Sp
-By default, the assembler file name for a source file is made by
-replacing the suffix \fB.c\fR, \fB.i\fR, etc., with \fB.s\fR.
-.Sp
-Input files that don't require compilation are ignored.
-.IP "\fB\-E\fR" 4
-.IX Item "-E"
-Stop after the preprocessing stage; do not run the compiler proper. The
-output is in the form of preprocessed source code, which is sent to the
-standard output.
-.Sp
-Input files which don't require preprocessing are ignored.
-.IP "\fB\-o\fR \fIfile\fR" 4
-.IX Item "-o file"
-Place output in file \fIfile\fR. This applies regardless to whatever
-sort of output is being produced, whether it be an executable file,
-an object file, an assembler file or preprocessed C code.
-.Sp
-Since only one output file can be specified, it does not make sense to
-use \fB\-o\fR when compiling more than one input file, unless you are
-producing an executable file as output.
-.Sp
-If \fB\-o\fR is not specified, the default is to put an executable file
-in \fIa.out\fR, the object file for \fI\fIsource\fI.\fIsuffix\fI\fR in
-\&\fI\fIsource\fI.o\fR, its assembler file in \fI\fIsource\fI.s\fR, and
-all preprocessed C source on standard output.
-.IP "\fB\-v\fR" 4
-.IX Item "-v"
-Print (on standard error output) the commands executed to run the stages
-of compilation. Also print the version number of the compiler driver
-program and of the preprocessor and the compiler proper.
-.IP "\fB\-###\fR" 4
-.IX Item "-###"
-Like \fB\-v\fR except the commands are not executed and all command
-arguments are quoted. This is useful for shell scripts to capture the
-driver-generated command lines.
-.IP "\fB\-pipe\fR" 4
-.IX Item "-pipe"
-Use pipes rather than temporary files for communication between the
-various stages of compilation. This fails to work on some systems where
-the assembler is unable to read from a pipe; but the \s-1GNU\s0 assembler has
-no trouble.
-.IP "\fB\-\-help\fR" 4
-.IX Item "--help"
-Print (on the standard output) a description of the command line options
-understood by \fBgcc\fR. If the \fB\-v\fR option is also specified
-then \fB\-\-help\fR will also be passed on to the various processes
-invoked by \fBgcc\fR, so that they can display the command line options
-they accept. If the \fB\-W\fR option is also specified then command
-line options which have no documentation associated with them will also
-be displayed.
-.IP "\fB\-\-target\-help\fR" 4
-.IX Item "--target-help"
-Print (on the standard output) a description of target specific command
-line options for each tool.
-.IP "\fB\-\-version\fR" 4
-.IX Item "--version"
-Display the version number and copyrights of the invoked \s-1GCC\s0.
-.Sh "Compiling \*(C+ Programs"
-.IX Subsection "Compiling Programs"
-\&\*(C+ source files conventionally use one of the suffixes \fB.C\fR,
-\&\fB.cc\fR, \fB.cpp\fR, \fB.c++\fR, \fB.cp\fR, or \fB.cxx\fR;
-preprocessed \*(C+ files use the suffix \fB.ii\fR. \s-1GCC\s0 recognizes
-files with these names and compiles them as \*(C+ programs even if you
-call the compiler the same way as for compiling C programs (usually with
-the name \fBgcc\fR).
-.PP
-However, \*(C+ programs often require class libraries as well as a
-compiler that understands the \*(C+ language\-\-\-and under some
-circumstances, you might want to compile programs from standard input,
-or otherwise without a suffix that flags them as \*(C+ programs.
-\&\fBg++\fR is a program that calls \s-1GCC\s0 with the default language
-set to \*(C+, and automatically specifies linking against the \*(C+
-library. On many systems, \fBg++\fR is also
-installed with the name \fBc++\fR.
-.PP
-When you compile \*(C+ programs, you may specify many of the same
-command-line options that you use for compiling programs in any
-language; or command-line options meaningful for C and related
-languages; or options that are meaningful only for \*(C+ programs.
-.Sh "Options Controlling C Dialect"
-.IX Subsection "Options Controlling C Dialect"
-The following options control the dialect of C (or languages derived
-from C, such as \*(C+ and Objective\-C) that the compiler accepts:
-.IP "\fB\-ansi\fR" 4
-.IX Item "-ansi"
-In C mode, support all \s-1ISO\s0 C90 programs. In \*(C+ mode,
-remove \s-1GNU\s0 extensions that conflict with \s-1ISO\s0 \*(C+.
-.Sp
-This turns off certain features of \s-1GCC\s0 that are incompatible with \s-1ISO\s0
-C90 (when compiling C code), or of standard \*(C+ (when compiling \*(C+ code),
-such as the \f(CW\*(C`asm\*(C'\fR and \f(CW\*(C`typeof\*(C'\fR keywords, and
-predefined macros such as \f(CW\*(C`unix\*(C'\fR and \f(CW\*(C`vax\*(C'\fR that identify the
-type of system you are using. It also enables the undesirable and
-rarely used \s-1ISO\s0 trigraph feature. For the C compiler,
-it disables recognition of \*(C+ style \fB//\fR comments as well as
-the \f(CW\*(C`inline\*(C'\fR keyword.
-.Sp
-The alternate keywords \f(CW\*(C`_\|_asm_\|_\*(C'\fR, \f(CW\*(C`_\|_extension_\|_\*(C'\fR,
-\&\f(CW\*(C`_\|_inline_\|_\*(C'\fR and \f(CW\*(C`_\|_typeof_\|_\*(C'\fR continue to work despite
-\&\fB\-ansi\fR. You would not want to use them in an \s-1ISO\s0 C program, of
-course, but it is useful to put them in header files that might be included
-in compilations done with \fB\-ansi\fR. Alternate predefined macros
-such as \f(CW\*(C`_\|_unix_\|_\*(C'\fR and \f(CW\*(C`_\|_vax_\|_\*(C'\fR are also available, with or
-without \fB\-ansi\fR.
-.Sp
-The \fB\-ansi\fR option does not cause non-ISO programs to be
-rejected gratuitously. For that, \fB\-pedantic\fR is required in
-addition to \fB\-ansi\fR.
-.Sp
-The macro \f(CW\*(C`_\|_STRICT_ANSI_\|_\*(C'\fR is predefined when the \fB\-ansi\fR
-option is used. Some header files may notice this macro and refrain
-from declaring certain functions or defining certain macros that the
-\&\s-1ISO\s0 standard doesn't call for; this is to avoid interfering with any
-programs that might use these names for other things.
-.Sp
-Functions which would normally be built in but do not have semantics
-defined by \s-1ISO\s0 C (such as \f(CW\*(C`alloca\*(C'\fR and \f(CW\*(C`ffs\*(C'\fR) are not built-in
-functions with \fB\-ansi\fR is used.
-.IP "\fB\-std=\fR" 4
-.IX Item "-std="
-Determine the language standard. This option is currently only
-supported when compiling C or \*(C+. A value for this option must be
-provided; possible values are
-.RS 4
-.IP "\fBc89\fR" 4
-.IX Item "c89"
-.PD 0
-.IP "\fBiso9899:1990\fR" 4
-.IX Item "iso9899:1990"
-.PD
-\&\s-1ISO\s0 C90 (same as \fB\-ansi\fR).
-.IP "\fBiso9899:199409\fR" 4
-.IX Item "iso9899:199409"
-\&\s-1ISO\s0 C90 as modified in amendment 1.
-.IP "\fBc99\fR" 4
-.IX Item "c99"
-.PD 0
-.IP "\fBc9x\fR" 4
-.IX Item "c9x"
-.IP "\fBiso9899:1999\fR" 4
-.IX Item "iso9899:1999"
-.IP "\fBiso9899:199x\fR" 4
-.IX Item "iso9899:199x"
-.PD
-\&\s-1ISO\s0 C99. Note that this standard is not yet fully supported; see
-<\fBhttp://gcc.gnu.org/gcc\-3.3/c99status.html\fR> for more information. The
-names \fBc9x\fR and \fBiso9899:199x\fR are deprecated.
-.IP "\fBgnu89\fR" 4
-.IX Item "gnu89"
-Default, \s-1ISO\s0 C90 plus \s-1GNU\s0 extensions (including some C99 features).
-.IP "\fBgnu99\fR" 4
-.IX Item "gnu99"
-.PD 0
-.IP "\fBgnu9x\fR" 4
-.IX Item "gnu9x"
-.PD
-\&\s-1ISO\s0 C99 plus \s-1GNU\s0 extensions. When \s-1ISO\s0 C99 is fully implemented in \s-1GCC\s0,
-this will become the default. The name \fBgnu9x\fR is deprecated.
-.IP "\fBc++98\fR" 4
-.IX Item "c++98"
-The 1998 \s-1ISO\s0 \*(C+ standard plus amendments.
-.IP "\fBgnu++98\fR" 4
-.IX Item "gnu++98"
-The same as \fB\-std=c++98\fR plus \s-1GNU\s0 extensions. This is the
-default for \*(C+ code.
-.RE
-.RS 4
-.Sp
-Even when this option is not specified, you can still use some of the
-features of newer standards in so far as they do not conflict with
-previous C standards. For example, you may use \f(CW\*(C`_\|_restrict_\|_\*(C'\fR even
-when \fB\-std=c99\fR is not specified.
-.Sp
-The \fB\-std\fR options specifying some version of \s-1ISO\s0 C have the same
-effects as \fB\-ansi\fR, except that features that were not in \s-1ISO\s0 C90
-but are in the specified version (for example, \fB//\fR comments and
-the \f(CW\*(C`inline\*(C'\fR keyword in \s-1ISO\s0 C99) are not disabled.
-.RE
-.IP "\fB\-aux\-info\fR \fIfilename\fR" 4
-.IX Item "-aux-info filename"
-Output to the given filename prototyped declarations for all functions
-declared and/or defined in a translation unit, including those in header
-files. This option is silently ignored in any language other than C.
-.Sp
-Besides declarations, the file indicates, in comments, the origin of
-each declaration (source file and line), whether the declaration was
-implicit, prototyped or unprototyped (\fBI\fR, \fBN\fR for new or
-\&\fBO\fR for old, respectively, in the first character after the line
-number and the colon), and whether it came from a declaration or a
-definition (\fBC\fR or \fBF\fR, respectively, in the following
-character). In the case of function definitions, a K&R\-style list of
-arguments followed by their declarations is also provided, inside
-comments, after the declaration.
-.IP "\fB\-fno\-asm\fR" 4
-.IX Item "-fno-asm"
-Do not recognize \f(CW\*(C`asm\*(C'\fR, \f(CW\*(C`inline\*(C'\fR or \f(CW\*(C`typeof\*(C'\fR as a
-keyword, so that code can use these words as identifiers. You can use
-the keywords \f(CW\*(C`_\|_asm_\|_\*(C'\fR, \f(CW\*(C`_\|_inline_\|_\*(C'\fR and \f(CW\*(C`_\|_typeof_\|_\*(C'\fR
-instead. \fB\-ansi\fR implies \fB\-fno\-asm\fR.
-.Sp
-In \*(C+, this switch only affects the \f(CW\*(C`typeof\*(C'\fR keyword, since
-\&\f(CW\*(C`asm\*(C'\fR and \f(CW\*(C`inline\*(C'\fR are standard keywords. You may want to
-use the \fB\-fno\-gnu\-keywords\fR flag instead, which has the same
-effect. In C99 mode (\fB\-std=c99\fR or \fB\-std=gnu99\fR), this
-switch only affects the \f(CW\*(C`asm\*(C'\fR and \f(CW\*(C`typeof\*(C'\fR keywords, since
-\&\f(CW\*(C`inline\*(C'\fR is a standard keyword in \s-1ISO\s0 C99.
-.IP "\fB\-fno\-builtin\fR" 4
-.IX Item "-fno-builtin"
-.PD 0
-.IP "\fB\-fno\-builtin\-\fR\fIfunction\fR" 4
-.IX Item "-fno-builtin-function"
-.PD
-Don't recognize built-in functions that do not begin with
-\&\fB_\|_builtin_\fR as prefix.
-.Sp
-\&\s-1GCC\s0 normally generates special code to handle certain built-in functions
-more efficiently; for instance, calls to \f(CW\*(C`alloca\*(C'\fR may become single
-instructions that adjust the stack directly, and calls to \f(CW\*(C`memcpy\*(C'\fR
-may become inline copy loops. The resulting code is often both smaller
-and faster, but since the function calls no longer appear as such, you
-cannot set a breakpoint on those calls, nor can you change the behavior
-of the functions by linking with a different library.
-.Sp
-With the \fB\-fno\-builtin\-\fR\fIfunction\fR option
-only the built-in function \fIfunction\fR is
-disabled. \fIfunction\fR must not begin with \fB_\|_builtin_\fR. If a
-function is named this is not built-in in this version of \s-1GCC\s0, this
-option is ignored. There is no corresponding
-\&\fB\-fbuiltin\-\fR\fIfunction\fR option; if you wish to enable
-built-in functions selectively when using \fB\-fno\-builtin\fR or
-\&\fB\-ffreestanding\fR, you may define macros such as:
-.Sp
-.Vb 2
-\& #define abs(n) __builtin_abs ((n))
-\& #define strcpy(d, s) __builtin_strcpy ((d), (s))
-.Ve
-.IP "\fB\-fhosted\fR" 4
-.IX Item "-fhosted"
-Assert that compilation takes place in a hosted environment. This implies
-\&\fB\-fbuiltin\fR. A hosted environment is one in which the
-entire standard library is available, and in which \f(CW\*(C`main\*(C'\fR has a return
-type of \f(CW\*(C`int\*(C'\fR. Examples are nearly everything except a kernel.
-This is equivalent to \fB\-fno\-freestanding\fR.
-.IP "\fB\-ffreestanding\fR" 4
-.IX Item "-ffreestanding"
-Assert that compilation takes place in a freestanding environment. This
-implies \fB\-fno\-builtin\fR. A freestanding environment
-is one in which the standard library may not exist, and program startup may
-not necessarily be at \f(CW\*(C`main\*(C'\fR. The most obvious example is an \s-1OS\s0 kernel.
-This is equivalent to \fB\-fno\-hosted\fR.
-.IP "\fB\-fms\-extensions\fR" 4
-.IX Item "-fms-extensions"
-Accept some non-standard constructs used in Microsoft header files.
-.IP "\fB\-trigraphs\fR" 4
-.IX Item "-trigraphs"
-Support \s-1ISO\s0 C trigraphs. The \fB\-ansi\fR option (and \fB\-std\fR
-options for strict \s-1ISO\s0 C conformance) implies \fB\-trigraphs\fR.
-.IP "\fB\-no\-integrated\-cpp\fR" 4
-.IX Item "-no-integrated-cpp"
-Performs a compilation in two passes: preprocessing and compiling. This
-option allows a user supplied \*(L"cc1\*(R", \*(L"cc1plus\*(R", or \*(L"cc1obj\*(R" via the
-\&\fB\-B\fR option. The user supplied compilation step can then add in
-an additional preprocessing step after normal preprocessing but before
-compiling. The default is to use the integrated cpp (internal cpp)
-.Sp
-The semantics of this option will change if \*(L"cc1\*(R", \*(L"cc1plus\*(R", and
-\&\*(L"cc1obj\*(R" are merged.
-.IP "\fB\-traditional\fR" 4
-.IX Item "-traditional"
-.PD 0
-.IP "\fB\-traditional\-cpp\fR" 4
-.IX Item "-traditional-cpp"
-.PD
-Formerly, these options caused \s-1GCC\s0 to attempt to emulate a pre-standard
-C compiler. They are now only supported with the \fB\-E\fR switch.
-The preprocessor continues to support a pre-standard mode. See the \s-1GNU\s0
-\&\s-1CPP\s0 manual for details.
-.IP "\fB\-fcond\-mismatch\fR" 4
-.IX Item "-fcond-mismatch"
-Allow conditional expressions with mismatched types in the second and
-third arguments. The value of such an expression is void. This option
-is not supported for \*(C+.
-.IP "\fB\-funsigned\-char\fR" 4
-.IX Item "-funsigned-char"
-Let the type \f(CW\*(C`char\*(C'\fR be unsigned, like \f(CW\*(C`unsigned char\*(C'\fR.
-.Sp
-Each kind of machine has a default for what \f(CW\*(C`char\*(C'\fR should
-be. It is either like \f(CW\*(C`unsigned char\*(C'\fR by default or like
-\&\f(CW\*(C`signed char\*(C'\fR by default.
-.Sp
-Ideally, a portable program should always use \f(CW\*(C`signed char\*(C'\fR or
-\&\f(CW\*(C`unsigned char\*(C'\fR when it depends on the signedness of an object.
-But many programs have been written to use plain \f(CW\*(C`char\*(C'\fR and
-expect it to be signed, or expect it to be unsigned, depending on the
-machines they were written for. This option, and its inverse, let you
-make such a program work with the opposite default.
-.Sp
-The type \f(CW\*(C`char\*(C'\fR is always a distinct type from each of
-\&\f(CW\*(C`signed char\*(C'\fR or \f(CW\*(C`unsigned char\*(C'\fR, even though its behavior
-is always just like one of those two.
-.IP "\fB\-fsigned\-char\fR" 4
-.IX Item "-fsigned-char"
-Let the type \f(CW\*(C`char\*(C'\fR be signed, like \f(CW\*(C`signed char\*(C'\fR.
-.Sp
-Note that this is equivalent to \fB\-fno\-unsigned\-char\fR, which is
-the negative form of \fB\-funsigned\-char\fR. Likewise, the option
-\&\fB\-fno\-signed\-char\fR is equivalent to \fB\-funsigned\-char\fR.
-.IP "\fB\-fsigned\-bitfields\fR" 4
-.IX Item "-fsigned-bitfields"
-.PD 0
-.IP "\fB\-funsigned\-bitfields\fR" 4
-.IX Item "-funsigned-bitfields"
-.IP "\fB\-fno\-signed\-bitfields\fR" 4
-.IX Item "-fno-signed-bitfields"
-.IP "\fB\-fno\-unsigned\-bitfields\fR" 4
-.IX Item "-fno-unsigned-bitfields"
-.PD
-These options control whether a bit-field is signed or unsigned, when the
-declaration does not use either \f(CW\*(C`signed\*(C'\fR or \f(CW\*(C`unsigned\*(C'\fR. By
-default, such a bit-field is signed, because this is consistent: the
-basic integer types such as \f(CW\*(C`int\*(C'\fR are signed types.
-.IP "\fB\-fwritable\-strings\fR" 4
-.IX Item "-fwritable-strings"
-Store string constants in the writable data segment and don't uniquize
-them. This is for compatibility with old programs which assume they can
-write into string constants.
-.Sp
-Writing into string constants is a very bad idea; ``constants'' should
-be constant.
-.Sh "Options Controlling \*(C+ Dialect"
-.IX Subsection "Options Controlling Dialect"
-This section describes the command-line options that are only meaningful
-for \*(C+ programs; but you can also use most of the \s-1GNU\s0 compiler options
-regardless of what language your program is in. For example, you
-might compile a file \f(CW\*(C`firstClass.C\*(C'\fR like this:
-.PP
-.Vb 1
-\& g++ -g -frepo -O -c firstClass.C
-.Ve
-.PP
-In this example, only \fB\-frepo\fR is an option meant
-only for \*(C+ programs; you can use the other options with any
-language supported by \s-1GCC\s0.
-.PP
-Here is a list of options that are \fIonly\fR for compiling \*(C+ programs:
-.IP "\fB\-fabi\-version=\fR\fIn\fR" 4
-.IX Item "-fabi-version=n"
-Use version \fIn\fR of the \*(C+ \s-1ABI\s0. Version 1 is the version of the \*(C+
-\&\s-1ABI\s0 that first appeared in G++ 3.2. Version 0 will always be the
-version that conforms most closely to the \*(C+ \s-1ABI\s0 specification.
-Therefore, the \s-1ABI\s0 obtained using version 0 will change as \s-1ABI\s0 bugs are
-fixed.
-.Sp
-The default is version 1.
-.IP "\fB\-fno\-access\-control\fR" 4
-.IX Item "-fno-access-control"
-Turn off all access checking. This switch is mainly useful for working
-around bugs in the access control code.
-.IP "\fB\-fcheck\-new\fR" 4
-.IX Item "-fcheck-new"
-Check that the pointer returned by \f(CW\*(C`operator new\*(C'\fR is non-null
-before attempting to modify the storage allocated. This check is
-normally unnecessary because the \*(C+ standard specifies that
-\&\f(CW\*(C`operator new\*(C'\fR will only return \f(CW0\fR if it is declared
-\&\fB\f(BIthrow()\fB\fR, in which case the compiler will always check the
-return value even without this option. In all other cases, when
-\&\f(CW\*(C`operator new\*(C'\fR has a non-empty exception specification, memory
-exhaustion is signalled by throwing \f(CW\*(C`std::bad_alloc\*(C'\fR. See also
-\&\fBnew (nothrow)\fR.
-.IP "\fB\-fconserve\-space\fR" 4
-.IX Item "-fconserve-space"
-Put uninitialized or runtime-initialized global variables into the
-common segment, as C does. This saves space in the executable at the
-cost of not diagnosing duplicate definitions. If you compile with this
-flag and your program mysteriously crashes after \f(CW\*(C`main()\*(C'\fR has
-completed, you may have an object that is being destroyed twice because
-two definitions were merged.
-.Sp
-This option is no longer useful on most targets, now that support has
-been added for putting variables into \s-1BSS\s0 without making them common.
-.IP "\fB\-fno\-const\-strings\fR" 4
-.IX Item "-fno-const-strings"
-Give string constants type \f(CW\*(C`char *\*(C'\fR instead of type \f(CW\*(C`const
-char *\*(C'\fR. By default, G++ uses type \f(CW\*(C`const char *\*(C'\fR as required by
-the standard. Even if you use \fB\-fno\-const\-strings\fR, you cannot
-actually modify the value of a string constant, unless you also use
-\&\fB\-fwritable\-strings\fR.
-.Sp
-This option might be removed in a future release of G++. For maximum
-portability, you should structure your code so that it works with
-string constants that have type \f(CW\*(C`const char *\*(C'\fR.
-.IP "\fB\-fdollars\-in\-identifiers\fR" 4
-.IX Item "-fdollars-in-identifiers"
-Accept \fB$\fR in identifiers. You can also explicitly prohibit use of
-\&\fB$\fR with the option \fB\-fno\-dollars\-in\-identifiers\fR. (\s-1GNU\s0 C allows
-\&\fB$\fR by default on most target systems, but there are a few exceptions.)
-Traditional C allowed the character \fB$\fR to form part of
-identifiers. However, \s-1ISO\s0 C and \*(C+ forbid \fB$\fR in identifiers.
-.IP "\fB\-fno\-elide\-constructors\fR" 4
-.IX Item "-fno-elide-constructors"
-The \*(C+ standard allows an implementation to omit creating a temporary
-which is only used to initialize another object of the same type.
-Specifying this option disables that optimization, and forces G++ to
-call the copy constructor in all cases.
-.IP "\fB\-fno\-enforce\-eh\-specs\fR" 4
-.IX Item "-fno-enforce-eh-specs"
-Don't check for violation of exception specifications at runtime. This
-option violates the \*(C+ standard, but may be useful for reducing code
-size in production builds, much like defining \fB\s-1NDEBUG\s0\fR. The compiler
-will still optimize based on the exception specifications.
-.IP "\fB\-fexternal\-templates\fR" 4
-.IX Item "-fexternal-templates"
-Cause \fB#pragma interface\fR and \fBimplementation\fR to apply to
-template instantiation; template instances are emitted or not according
-to the location of the template definition.
-.Sp
-This option is deprecated.
-.IP "\fB\-falt\-external\-templates\fR" 4
-.IX Item "-falt-external-templates"
-Similar to \fB\-fexternal\-templates\fR, but template instances are
-emitted or not according to the place where they are first instantiated.
-.Sp
-This option is deprecated.
-.IP "\fB\-ffor\-scope\fR" 4
-.IX Item "-ffor-scope"
-.PD 0
-.IP "\fB\-fno\-for\-scope\fR" 4
-.IX Item "-fno-for-scope"
-.PD
-If \fB\-ffor\-scope\fR is specified, the scope of variables declared in
-a \fIfor-init-statement\fR is limited to the \fBfor\fR loop itself,
-as specified by the \*(C+ standard.
-If \fB\-fno\-for\-scope\fR is specified, the scope of variables declared in
-a \fIfor-init-statement\fR extends to the end of the enclosing scope,
-as was the case in old versions of G++, and other (traditional)
-implementations of \*(C+.
-.Sp
-The default if neither flag is given to follow the standard,
-but to allow and give a warning for old-style code that would
-otherwise be invalid, or have different behavior.
-.IP "\fB\-fno\-gnu\-keywords\fR" 4
-.IX Item "-fno-gnu-keywords"
-Do not recognize \f(CW\*(C`typeof\*(C'\fR as a keyword, so that code can use this
-word as an identifier. You can use the keyword \f(CW\*(C`_\|_typeof_\|_\*(C'\fR instead.
-\&\fB\-ansi\fR implies \fB\-fno\-gnu\-keywords\fR.
-.IP "\fB\-fno\-implicit\-templates\fR" 4
-.IX Item "-fno-implicit-templates"
-Never emit code for non-inline templates which are instantiated
-implicitly (i.e. by use); only emit code for explicit instantiations.
-.IP "\fB\-fno\-implicit\-inline\-templates\fR" 4
-.IX Item "-fno-implicit-inline-templates"
-Don't emit code for implicit instantiations of inline templates, either.
-The default is to handle inlines differently so that compiles with and
-without optimization will need the same set of explicit instantiations.
-.IP "\fB\-fno\-implement\-inlines\fR" 4
-.IX Item "-fno-implement-inlines"
-To save space, do not emit out-of-line copies of inline functions
-controlled by \fB#pragma implementation\fR. This will cause linker
-errors if these functions are not inlined everywhere they are called.
-.IP "\fB\-fms\-extensions\fR" 4
-.IX Item "-fms-extensions"
-Disable pedantic warnings about constructs used in \s-1MFC\s0, such as implicit
-int and getting a pointer to member function via non-standard syntax.
-.IP "\fB\-fno\-nonansi\-builtins\fR" 4
-.IX Item "-fno-nonansi-builtins"
-Disable built-in declarations of functions that are not mandated by
-\&\s-1ANSI/ISO\s0 C. These include \f(CW\*(C`ffs\*(C'\fR, \f(CW\*(C`alloca\*(C'\fR, \f(CW\*(C`_exit\*(C'\fR,
-\&\f(CW\*(C`index\*(C'\fR, \f(CW\*(C`bzero\*(C'\fR, \f(CW\*(C`conjf\*(C'\fR, and other related functions.
-.IP "\fB\-fno\-operator\-names\fR" 4
-.IX Item "-fno-operator-names"
-Do not treat the operator name keywords \f(CW\*(C`and\*(C'\fR, \f(CW\*(C`bitand\*(C'\fR,
-\&\f(CW\*(C`bitor\*(C'\fR, \f(CW\*(C`compl\*(C'\fR, \f(CW\*(C`not\*(C'\fR, \f(CW\*(C`or\*(C'\fR and \f(CW\*(C`xor\*(C'\fR as
-synonyms as keywords.
-.IP "\fB\-fno\-optional\-diags\fR" 4
-.IX Item "-fno-optional-diags"
-Disable diagnostics that the standard says a compiler does not need to
-issue. Currently, the only such diagnostic issued by G++ is the one for
-a name having multiple meanings within a class.
-.IP "\fB\-fpermissive\fR" 4
-.IX Item "-fpermissive"
-Downgrade some diagnostics about nonconformant code from errors to
-warnings. Thus, using \fB\-fpermissive\fR will allow some
-nonconforming code to compile.
-.IP "\fB\-frepo\fR" 4
-.IX Item "-frepo"
-Enable automatic template instantiation at link time. This option also
-implies \fB\-fno\-implicit\-templates\fR.
-.IP "\fB\-fno\-rtti\fR" 4
-.IX Item "-fno-rtti"
-Disable generation of information about every class with virtual
-functions for use by the \*(C+ runtime type identification features
-(\fBdynamic_cast\fR and \fBtypeid\fR). If you don't use those parts
-of the language, you can save some space by using this flag. Note that
-exception handling uses the same information, but it will generate it as
-needed.
-.IP "\fB\-fstats\fR" 4
-.IX Item "-fstats"
-Emit statistics about front-end processing at the end of the compilation.
-This information is generally only useful to the G++ development team.
-.IP "\fB\-ftemplate\-depth\-\fR\fIn\fR" 4
-.IX Item "-ftemplate-depth-n"
-Set the maximum instantiation depth for template classes to \fIn\fR.
-A limit on the template instantiation depth is needed to detect
-endless recursions during template class instantiation. \s-1ANSI/ISO\s0 \*(C+
-conforming programs must not rely on a maximum depth greater than 17.
-.IP "\fB\-fuse\-cxa\-atexit\fR" 4
-.IX Item "-fuse-cxa-atexit"
-Register destructors for objects with static storage duration with the
-\&\f(CW\*(C`_\|_cxa_atexit\*(C'\fR function rather than the \f(CW\*(C`atexit\*(C'\fR function.
-This option is required for fully standards-compliant handling of static
-destructors, but will only work if your C library supports
-\&\f(CW\*(C`_\|_cxa_atexit\*(C'\fR.
-.IP "\fB\-fvtable\-gc\fR" 4
-.IX Item "-fvtable-gc"
-Emit special relocations for vtables and virtual function references
-so that the linker can identify unused virtual functions and zero out
-vtable slots that refer to them. This is most useful with
-\&\fB\-ffunction\-sections\fR and \fB\-Wl,\-\-gc\-sections\fR, in order to
-also discard the functions themselves.
-.Sp
-This optimization requires \s-1GNU\s0 as and \s-1GNU\s0 ld. Not all systems support
-this option. \fB\-Wl,\-\-gc\-sections\fR is ignored without \fB\-static\fR.
-.IP "\fB\-fno\-weak\fR" 4
-.IX Item "-fno-weak"
-Do not use weak symbol support, even if it is provided by the linker.
-By default, G++ will use weak symbols if they are available. This
-option exists only for testing, and should not be used by end\-users;
-it will result in inferior code and has no benefits. This option may
-be removed in a future release of G++.
-.IP "\fB\-nostdinc++\fR" 4
-.IX Item "-nostdinc++"
-Do not search for header files in the standard directories specific to
-\&\*(C+, but do still search the other standard directories. (This option
-is used when building the \*(C+ library.)
-.PP
-In addition, these optimization, warning, and code generation options
-have meanings only for \*(C+ programs:
-.IP "\fB\-fno\-default\-inline\fR" 4
-.IX Item "-fno-default-inline"
-Do not assume \fBinline\fR for functions defined inside a class scope.
- Note that these
-functions will have linkage like inline functions; they just won't be
-inlined by default.
-.IP "\fB\-Wabi\fR (\*(C+ only)" 4
-.IX Item "-Wabi ( only)"
-Warn when G++ generates code that is probably not compatible with the
-vendor-neutral \*(C+ \s-1ABI\s0. Although an effort has been made to warn about
-all such cases, there are probably some cases that are not warned about,
-even though G++ is generating incompatible code. There may also be
-cases where warnings are emitted even though the code that is generated
-will be compatible.
-.Sp
-You should rewrite your code to avoid these warnings if you are
-concerned about the fact that code generated by G++ may not be binary
-compatible with code generated by other compilers.
-.Sp
-The known incompatibilities at this point include:
-.RS 4
-.IP "*" 4
-Incorrect handling of tail-padding for bit\-fields. G++ may attempt to
-pack data into the same byte as a base class. For example:
-.Sp
-.Vb 2
-\& struct A { virtual void f(); int f1 : 1; };
-\& struct B : public A { int f2 : 1; };
-.Ve
-.Sp
-In this case, G++ will place \f(CW\*(C`B::f2\*(C'\fR into the same byte
-as\f(CW\*(C`A::f1\*(C'\fR; other compilers will not. You can avoid this problem
-by explicitly padding \f(CW\*(C`A\*(C'\fR so that its size is a multiple of the
-byte size on your platform; that will cause G++ and other compilers to
-layout \f(CW\*(C`B\*(C'\fR identically.
-.IP "*" 4
-Incorrect handling of tail-padding for virtual bases. G++ does not use
-tail padding when laying out virtual bases. For example:
-.Sp
-.Vb 3
-\& struct A { virtual void f(); char c1; };
-\& struct B { B(); char c2; };
-\& struct C : public A, public virtual B {};
-.Ve
-.Sp
-In this case, G++ will not place \f(CW\*(C`B\*(C'\fR into the tail-padding for
-\&\f(CW\*(C`A\*(C'\fR; other compilers will. You can avoid this problem by
-explicitly padding \f(CW\*(C`A\*(C'\fR so that its size is a multiple of its
-alignment (ignoring virtual base classes); that will cause G++ and other
-compilers to layout \f(CW\*(C`C\*(C'\fR identically.
-.IP "*" 4
-Incorrect handling of bit-fields with declared widths greater than that
-of their underlying types, when the bit-fields appear in a union. For
-example:
-.Sp
-.Vb 1
-\& union U { int i : 4096; };
-.Ve
-.Sp
-Assuming that an \f(CW\*(C`int\*(C'\fR does not have 4096 bits, G++ will make the
-union too small by the number of bits in an \f(CW\*(C`int\*(C'\fR.
-.IP "*" 4
-Empty classes can be placed at incorrect offsets. For example:
-.Sp
-.Vb 1
-\& struct A {};
-.Ve
-.Sp
-.Vb 4
-\& struct B {
-\& A a;
-\& virtual void f ();
-\& };
-.Ve
-.Sp
-.Vb 1
-\& struct C : public B, public A {};
-.Ve
-.Sp
-G++ will place the \f(CW\*(C`A\*(C'\fR base class of \f(CW\*(C`C\*(C'\fR at a nonzero offset;
-it should be placed at offset zero. G++ mistakenly believes that the
-\&\f(CW\*(C`A\*(C'\fR data member of \f(CW\*(C`B\*(C'\fR is already at offset zero.
-.IP "*" 4
-Names of template functions whose types involve \f(CW\*(C`typename\*(C'\fR or
-template template parameters can be mangled incorrectly.
-.Sp
-.Vb 2
-\& template <typename Q>
-\& void f(typename Q::X) {}
-.Ve
-.Sp
-.Vb 2
-\& template <template <typename> class Q>
-\& void f(typename Q<int>::X) {}
-.Ve
-.Sp
-Instantiations of these templates may be mangled incorrectly.
-.RE
-.RS 4
-.RE
-.IP "\fB\-Wctor\-dtor\-privacy\fR (\*(C+ only)" 4
-.IX Item "-Wctor-dtor-privacy ( only)"
-Warn when a class seems unusable because all the constructors or
-destructors in that class are private, and it has neither friends nor
-public static member functions. This warning is enabled by default.
-.IP "\fB\-Wnon\-virtual\-dtor\fR (\*(C+ only)" 4
-.IX Item "-Wnon-virtual-dtor ( only)"
-Warn when a class appears to be polymorphic, thereby requiring a virtual
-destructor, yet it declares a non-virtual one.
-This warning is enabled by \fB\-Wall\fR.
-.IP "\fB\-Wreorder\fR (\*(C+ only)" 4
-.IX Item "-Wreorder ( only)"
-Warn when the order of member initializers given in the code does not
-match the order in which they must be executed. For instance:
-.Sp
-.Vb 5
-\& struct A {
-\& int i;
-\& int j;
-\& A(): j (0), i (1) { }
-\& };
-.Ve
-.Sp
-The compiler will rearrange the member initializers for \fBi\fR
-and \fBj\fR to match the declaration order of the members, emitting
-a warning to that effect. This warning is enabled by \fB\-Wall\fR.
-.PP
-The following \fB\-W...\fR options are not affected by \fB\-Wall\fR.
-.IP "\fB\-Weffc++\fR (\*(C+ only)" 4
-.IX Item "-Weffc++ ( only)"
-Warn about violations of the following style guidelines from Scott Meyers'
-\&\fIEffective \*(C+\fR book:
-.RS 4
-.IP "*" 4
-Item 11: Define a copy constructor and an assignment operator for classes
-with dynamically allocated memory.
-.IP "*" 4
-Item 12: Prefer initialization to assignment in constructors.
-.IP "*" 4
-Item 14: Make destructors virtual in base classes.
-.IP "*" 4
-Item 15: Have \f(CW\*(C`operator=\*(C'\fR return a reference to \f(CW*this\fR.
-.IP "*" 4
-Item 23: Don't try to return a reference when you must return an object.
-.RE
-.RS 4
-.Sp
-Also warn about violations of the following style guidelines from
-Scott Meyers' \fIMore Effective \*(C+\fR book:
-.IP "*" 4
-Item 6: Distinguish between prefix and postfix forms of increment and
-decrement operators.
-.IP "*" 4
-Item 7: Never overload \f(CW\*(C`&&\*(C'\fR, \f(CW\*(C`||\*(C'\fR, or \f(CW\*(C`,\*(C'\fR.
-.RE
-.RS 4
-.Sp
-When selecting this option, be aware that the standard library
-headers do not obey all of these guidelines; use \fBgrep \-v\fR
-to filter out those warnings.
-.RE
-.IP "\fB\-Wno\-deprecated\fR (\*(C+ only)" 4
-.IX Item "-Wno-deprecated ( only)"
-Do not warn about usage of deprecated features.
-.IP "\fB\-Wno\-non\-template\-friend\fR (\*(C+ only)" 4
-.IX Item "-Wno-non-template-friend ( only)"
-Disable warnings when non-templatized friend functions are declared
-within a template. Since the advent of explicit template specification
-support in G++, if the name of the friend is an unqualified-id (i.e.,
-\&\fBfriend foo(int)\fR), the \*(C+ language specification demands that the
-friend declare or define an ordinary, nontemplate function. (Section
-14.5.3). Before G++ implemented explicit specification, unqualified-ids
-could be interpreted as a particular specialization of a templatized
-function. Because this non-conforming behavior is no longer the default
-behavior for G++, \fB\-Wnon\-template\-friend\fR allows the compiler to
-check existing code for potential trouble spots and is on by default.
-This new compiler behavior can be turned off with
-\&\fB\-Wno\-non\-template\-friend\fR which keeps the conformant compiler code
-but disables the helpful warning.
-.IP "\fB\-Wold\-style\-cast\fR (\*(C+ only)" 4
-.IX Item "-Wold-style-cast ( only)"
-Warn if an old-style (C\-style) cast to a non-void type is used within
-a \*(C+ program. The new-style casts (\fBstatic_cast\fR,
-\&\fBreinterpret_cast\fR, and \fBconst_cast\fR) are less vulnerable to
-unintended effects and much easier to search for.
-.IP "\fB\-Woverloaded\-virtual\fR (\*(C+ only)" 4
-.IX Item "-Woverloaded-virtual ( only)"
-Warn when a function declaration hides virtual functions from a
-base class. For example, in:
-.Sp
-.Vb 3
-\& struct A {
-\& virtual void f();
-\& };
-.Ve
-.Sp
-.Vb 3
-\& struct B: public A {
-\& void f(int);
-\& };
-.Ve
-.Sp
-the \f(CW\*(C`A\*(C'\fR class version of \f(CW\*(C`f\*(C'\fR is hidden in \f(CW\*(C`B\*(C'\fR, and code
-like:
-.Sp
-.Vb 2
-\& B* b;
-\& b->f();
-.Ve
-.Sp
-will fail to compile.
-.IP "\fB\-Wno\-pmf\-conversions\fR (\*(C+ only)" 4
-.IX Item "-Wno-pmf-conversions ( only)"
-Disable the diagnostic for converting a bound pointer to member function
-to a plain pointer.
-.IP "\fB\-Wsign\-promo\fR (\*(C+ only)" 4
-.IX Item "-Wsign-promo ( only)"
-Warn when overload resolution chooses a promotion from unsigned or
-enumeral type to a signed type, over a conversion to an unsigned type of
-the same size. Previous versions of G++ would try to preserve
-unsignedness, but the standard mandates the current behavior.
-.Sh "Options Controlling Objective-C Dialect"
-.IX Subsection "Options Controlling Objective-C Dialect"
-This section describes the command-line options that are only meaningful
-for Objective-C programs, but you can also use most of the \s-1GNU\s0 compiler
-options regardless of what language your program is in. For example,
-you might compile a file \f(CW\*(C`some_class.m\*(C'\fR like this:
-.PP
-.Vb 1
-\& gcc -g -fgnu-runtime -O -c some_class.m
-.Ve
-.PP
-In this example, \fB\-fgnu\-runtime\fR is an option meant only for
-Objective-C programs; you can use the other options with any language
-supported by \s-1GCC\s0.
-.PP
-Here is a list of options that are \fIonly\fR for compiling Objective-C
-programs:
-.IP "\fB\-fconstant\-string\-class=\fR\fIclass-name\fR" 4
-.IX Item "-fconstant-string-class=class-name"
-Use \fIclass-name\fR as the name of the class to instantiate for each
-literal string specified with the syntax \f(CW\*(C`@"..."\*(C'\fR. The default
-class name is \f(CW\*(C`NXConstantString\*(C'\fR.
-.IP "\fB\-fgnu\-runtime\fR" 4
-.IX Item "-fgnu-runtime"
-Generate object code compatible with the standard \s-1GNU\s0 Objective-C
-runtime. This is the default for most types of systems.
-.IP "\fB\-fnext\-runtime\fR" 4
-.IX Item "-fnext-runtime"
-Generate output compatible with the NeXT runtime. This is the default
-for NeXT-based systems, including Darwin and Mac \s-1OS\s0 X. The macro
-\&\f(CW\*(C`_\|_NEXT_RUNTIME_\|_\*(C'\fR is predefined if (and only if) this option is
-used.
-.IP "\fB\-gen\-decls\fR" 4
-.IX Item "-gen-decls"
-Dump interface declarations for all classes seen in the source file to a
-file named \fI\fIsourcename\fI.decl\fR.
-.IP "\fB\-Wno\-protocol\fR" 4
-.IX Item "-Wno-protocol"
-If a class is declared to implement a protocol, a warning is issued for
-every method in the protocol that is not implemented by the class. The
-default behavior is to issue a warning for every method not explicitly
-implemented in the class, even if a method implementation is inherited
-from the superclass. If you use the \f(CW\*(C`\-Wno\-protocol\*(C'\fR option, then
-methods inherited from the superclass are considered to be implemented,
-and no warning is issued for them.
-.IP "\fB\-Wselector\fR" 4
-.IX Item "-Wselector"
-Warn if multiple methods of different types for the same selector are
-found during compilation. The check is performed on the list of methods
-in the final stage of compilation. Additionally, a check is performed
-for each selector appearing in a \f(CW\*(C`@selector(...)\*(C'\fR
-expression, and a corresponding method for that selector has been found
-during compilation. Because these checks scan the method table only at
-the end of compilation, these warnings are not produced if the final
-stage of compilation is not reached, for example because an error is
-found during compilation, or because the \f(CW\*(C`\-fsyntax\-only\*(C'\fR option is
-being used.
-.IP "\fB\-Wundeclared\-selector\fR" 4
-.IX Item "-Wundeclared-selector"
-Warn if a \f(CW\*(C`@selector(...)\*(C'\fR expression referring to an
-undeclared selector is found. A selector is considered undeclared if no
-method with that name has been declared before the
-\&\f(CW\*(C`@selector(...)\*(C'\fR expression, either explicitly in an
-\&\f(CW@interface\fR or \f(CW@protocol\fR declaration, or implicitly in
-an \f(CW@implementation\fR section. This option always performs its
-checks as soon as a \f(CW\*(C`@selector(...)\*(C'\fR expression is found,
-while \f(CW\*(C`\-Wselector\*(C'\fR only performs its checks in the final stage of
-compilation. This also enforces the coding style convention
-that methods and selectors must be declared before being used.
-.Sh "Options to Control Diagnostic Messages Formatting"
-.IX Subsection "Options to Control Diagnostic Messages Formatting"
-Traditionally, diagnostic messages have been formatted irrespective of
-the output device's aspect (e.g. its width, ...). The options described
-below can be used to control the diagnostic messages formatting
-algorithm, e.g. how many characters per line, how often source location
-information should be reported. Right now, only the \*(C+ front end can
-honor these options. However it is expected, in the near future, that
-the remaining front ends would be able to digest them correctly.
-.IP "\fB\-fmessage\-length=\fR\fIn\fR" 4
-.IX Item "-fmessage-length=n"
-Try to format error messages so that they fit on lines of about \fIn\fR
-characters. The default is 72 characters for \fBg++\fR and 0 for the rest of
-the front ends supported by \s-1GCC\s0. If \fIn\fR is zero, then no
-line-wrapping will be done; each error message will appear on a single
-line.
-.IP "\fB\-fdiagnostics\-show\-location=once\fR" 4
-.IX Item "-fdiagnostics-show-location=once"
-Only meaningful in line-wrapping mode. Instructs the diagnostic messages
-reporter to emit \fIonce\fR source location information; that is, in
-case the message is too long to fit on a single physical line and has to
-be wrapped, the source location won't be emitted (as prefix) again,
-over and over, in subsequent continuation lines. This is the default
-behavior.
-.IP "\fB\-fdiagnostics\-show\-location=every\-line\fR" 4
-.IX Item "-fdiagnostics-show-location=every-line"
-Only meaningful in line-wrapping mode. Instructs the diagnostic
-messages reporter to emit the same source location information (as
-prefix) for physical lines that result from the process of breaking
-a message which is too long to fit on a single line.
-.Sh "Options to Request or Suppress Warnings"
-.IX Subsection "Options to Request or Suppress Warnings"
-Warnings are diagnostic messages that report constructions which
-are not inherently erroneous but which are risky or suggest there
-may have been an error.
-.PP
-You can request many specific warnings with options beginning \fB\-W\fR,
-for example \fB\-Wimplicit\fR to request warnings on implicit
-declarations. Each of these specific warning options also has a
-negative form beginning \fB\-Wno\-\fR to turn off warnings;
-for example, \fB\-Wno\-implicit\fR. This manual lists only one of the
-two forms, whichever is not the default.
-.PP
-The following options control the amount and kinds of warnings produced
-by \s-1GCC\s0; for further, language-specific options also refer to
-\&\fB\*(C+ Dialect Options\fR and \fBObjective-C Dialect Options\fR.
-.IP "\fB\-fsyntax\-only\fR" 4
-.IX Item "-fsyntax-only"
-Check the code for syntax errors, but don't do anything beyond that.
-.IP "\fB\-pedantic\fR" 4
-.IX Item "-pedantic"
-Issue all the warnings demanded by strict \s-1ISO\s0 C and \s-1ISO\s0 \*(C+;
-reject all programs that use forbidden extensions, and some other
-programs that do not follow \s-1ISO\s0 C and \s-1ISO\s0 \*(C+. For \s-1ISO\s0 C, follows the
-version of the \s-1ISO\s0 C standard specified by any \fB\-std\fR option used.
-.Sp
-Valid \s-1ISO\s0 C and \s-1ISO\s0 \*(C+ programs should compile properly with or without
-this option (though a rare few will require \fB\-ansi\fR or a
-\&\fB\-std\fR option specifying the required version of \s-1ISO\s0 C). However,
-without this option, certain \s-1GNU\s0 extensions and traditional C and \*(C+
-features are supported as well. With this option, they are rejected.
-.Sp
-\&\fB\-pedantic\fR does not cause warning messages for use of the
-alternate keywords whose names begin and end with \fB_\|_\fR. Pedantic
-warnings are also disabled in the expression that follows
-\&\f(CW\*(C`_\|_extension_\|_\*(C'\fR. However, only system header files should use
-these escape routes; application programs should avoid them.
-.Sp
-Some users try to use \fB\-pedantic\fR to check programs for strict \s-1ISO\s0
-C conformance. They soon find that it does not do quite what they want:
-it finds some non-ISO practices, but not all\-\-\-only those for which
-\&\s-1ISO\s0 C \fIrequires\fR a diagnostic, and some others for which
-diagnostics have been added.
-.Sp
-A feature to report any failure to conform to \s-1ISO\s0 C might be useful in
-some instances, but would require considerable additional work and would
-be quite different from \fB\-pedantic\fR. We don't have plans to
-support such a feature in the near future.
-.Sp
-Where the standard specified with \fB\-std\fR represents a \s-1GNU\s0
-extended dialect of C, such as \fBgnu89\fR or \fBgnu99\fR, there is a
-corresponding \fIbase standard\fR, the version of \s-1ISO\s0 C on which the \s-1GNU\s0
-extended dialect is based. Warnings from \fB\-pedantic\fR are given
-where they are required by the base standard. (It would not make sense
-for such warnings to be given only for features not in the specified \s-1GNU\s0
-C dialect, since by definition the \s-1GNU\s0 dialects of C include all
-features the compiler supports with the given option, and there would be
-nothing to warn about.)
-.IP "\fB\-pedantic\-errors\fR" 4
-.IX Item "-pedantic-errors"
-Like \fB\-pedantic\fR, except that errors are produced rather than
-warnings.
-.IP "\fB\-w\fR" 4
-.IX Item "-w"
-Inhibit all warning messages.
-.IP "\fB\-Wno\-import\fR" 4
-.IX Item "-Wno-import"
-Inhibit warning messages about the use of \fB#import\fR.
-.IP "\fB\-Wchar\-subscripts\fR" 4
-.IX Item "-Wchar-subscripts"
-Warn if an array subscript has type \f(CW\*(C`char\*(C'\fR. This is a common cause
-of error, as programmers often forget that this type is signed on some
-machines.
-.IP "\fB\-Wcomment\fR" 4
-.IX Item "-Wcomment"
-Warn whenever a comment-start sequence \fB/*\fR appears in a \fB/*\fR
-comment, or whenever a Backslash-Newline appears in a \fB//\fR comment.
-.IP "\fB\-Wformat\fR" 4
-.IX Item "-Wformat"
-Check calls to \f(CW\*(C`printf\*(C'\fR and \f(CW\*(C`scanf\*(C'\fR, etc., to make sure that
-the arguments supplied have types appropriate to the format string
-specified, and that the conversions specified in the format string make
-sense. This includes standard functions, and others specified by format
-attributes, in the \f(CW\*(C`printf\*(C'\fR,
-\&\f(CW\*(C`scanf\*(C'\fR, \f(CW\*(C`strftime\*(C'\fR and \f(CW\*(C`strfmon\*(C'\fR (an X/Open extension,
-not in the C standard) families.
-.Sp
-The formats are checked against the format features supported by \s-1GNU\s0
-libc version 2.2. These include all \s-1ISO\s0 C90 and C99 features, as well
-as features from the Single Unix Specification and some \s-1BSD\s0 and \s-1GNU\s0
-extensions. Other library implementations may not support all these
-features; \s-1GCC\s0 does not support warning about features that go beyond a
-particular library's limitations. However, if \fB\-pedantic\fR is used
-with \fB\-Wformat\fR, warnings will be given about format features not
-in the selected standard version (but not for \f(CW\*(C`strfmon\*(C'\fR formats,
-since those are not in any version of the C standard).
-.Sp
-Since \fB\-Wformat\fR also checks for null format arguments for
-several functions, \fB\-Wformat\fR also implies \fB\-Wnonnull\fR.
-.Sp
-\&\fB\-Wformat\fR is included in \fB\-Wall\fR. For more control over some
-aspects of format checking, the options \fB\-Wno\-format\-y2k\fR,
-\&\fB\-Wno\-format\-extra\-args\fR, \fB\-Wno\-format\-zero\-length\fR,
-\&\fB\-Wformat\-nonliteral\fR, \fB\-Wformat\-security\fR, and
-\&\fB\-Wformat=2\fR are available, but are not included in \fB\-Wall\fR.
-.IP "\fB\-Wno\-format\-y2k\fR" 4
-.IX Item "-Wno-format-y2k"
-If \fB\-Wformat\fR is specified, do not warn about \f(CW\*(C`strftime\*(C'\fR
-formats which may yield only a two-digit year.
-.IP "\fB\-Wno\-format\-extra\-args\fR" 4
-.IX Item "-Wno-format-extra-args"
-If \fB\-Wformat\fR is specified, do not warn about excess arguments to a
-\&\f(CW\*(C`printf\*(C'\fR or \f(CW\*(C`scanf\*(C'\fR format function. The C standard specifies
-that such arguments are ignored.
-.Sp
-Where the unused arguments lie between used arguments that are
-specified with \fB$\fR operand number specifications, normally
-warnings are still given, since the implementation could not know what
-type to pass to \f(CW\*(C`va_arg\*(C'\fR to skip the unused arguments. However,
-in the case of \f(CW\*(C`scanf\*(C'\fR formats, this option will suppress the
-warning if the unused arguments are all pointers, since the Single
-Unix Specification says that such unused arguments are allowed.
-.IP "\fB\-Wno\-format\-zero\-length\fR" 4
-.IX Item "-Wno-format-zero-length"
-If \fB\-Wformat\fR is specified, do not warn about zero-length formats.
-The C standard specifies that zero-length formats are allowed.
-.IP "\fB\-Wformat\-nonliteral\fR" 4
-.IX Item "-Wformat-nonliteral"
-If \fB\-Wformat\fR is specified, also warn if the format string is not a
-string literal and so cannot be checked, unless the format function
-takes its format arguments as a \f(CW\*(C`va_list\*(C'\fR.
-.IP "\fB\-Wformat\-security\fR" 4
-.IX Item "-Wformat-security"
-If \fB\-Wformat\fR is specified, also warn about uses of format
-functions that represent possible security problems. At present, this
-warns about calls to \f(CW\*(C`printf\*(C'\fR and \f(CW\*(C`scanf\*(C'\fR functions where the
-format string is not a string literal and there are no format arguments,
-as in \f(CW\*(C`printf (foo);\*(C'\fR. This may be a security hole if the format
-string came from untrusted input and contains \fB%n\fR. (This is
-currently a subset of what \fB\-Wformat\-nonliteral\fR warns about, but
-in future warnings may be added to \fB\-Wformat\-security\fR that are not
-included in \fB\-Wformat\-nonliteral\fR.)
-.IP "\fB\-Wformat=2\fR" 4
-.IX Item "-Wformat=2"
-Enable \fB\-Wformat\fR plus format checks not included in
-\&\fB\-Wformat\fR. Currently equivalent to \fB\-Wformat
-\&\-Wformat\-nonliteral \-Wformat\-security\fR.
-.IP "\fB\-Wnonnull\fR" 4
-.IX Item "-Wnonnull"
-Warn about passing a null pointer for arguments marked as
-requiring a non-null value by the \f(CW\*(C`nonnull\*(C'\fR function attribute.
-.Sp
-\&\fB\-Wnonnull\fR is included in \fB\-Wall\fR and \fB\-Wformat\fR. It
-can be disabled with the \fB\-Wno\-nonnull\fR option.
-.IP "\fB\-Wimplicit\-int\fR" 4
-.IX Item "-Wimplicit-int"
-Warn when a declaration does not specify a type.
-.IP "\fB\-Wimplicit\-function\-declaration\fR" 4
-.IX Item "-Wimplicit-function-declaration"
-.PD 0
-.IP "\fB\-Werror\-implicit\-function\-declaration\fR" 4
-.IX Item "-Werror-implicit-function-declaration"
-.PD
-Give a warning (or error) whenever a function is used before being
-declared.
-.IP "\fB\-Wimplicit\fR" 4
-.IX Item "-Wimplicit"
-Same as \fB\-Wimplicit\-int\fR and \fB\-Wimplicit\-function\-declaration\fR.
-.IP "\fB\-Wmain\fR" 4
-.IX Item "-Wmain"
-Warn if the type of \fBmain\fR is suspicious. \fBmain\fR should be a
-function with external linkage, returning int, taking either zero
-arguments, two, or three arguments of appropriate types.
-.IP "\fB\-Wmissing\-braces\fR" 4
-.IX Item "-Wmissing-braces"
-Warn if an aggregate or union initializer is not fully bracketed. In
-the following example, the initializer for \fBa\fR is not fully
-bracketed, but that for \fBb\fR is fully bracketed.
-.Sp
-.Vb 2
-\& int a[2][2] = { 0, 1, 2, 3 };
-\& int b[2][2] = { { 0, 1 }, { 2, 3 } };
-.Ve
-.IP "\fB\-Wparentheses\fR" 4
-.IX Item "-Wparentheses"
-Warn if parentheses are omitted in certain contexts, such
-as when there is an assignment in a context where a truth value
-is expected, or when operators are nested whose precedence people
-often get confused about.
-.Sp
-Also warn about constructions where there may be confusion to which
-\&\f(CW\*(C`if\*(C'\fR statement an \f(CW\*(C`else\*(C'\fR branch belongs. Here is an example of
-such a case:
-.Sp
-.Vb 7
-\& {
-\& if (a)
-\& if (b)
-\& foo ();
-\& else
-\& bar ();
-\& }
-.Ve
-.Sp
-In C, every \f(CW\*(C`else\*(C'\fR branch belongs to the innermost possible \f(CW\*(C`if\*(C'\fR
-statement, which in this example is \f(CW\*(C`if (b)\*(C'\fR. This is often not
-what the programmer expected, as illustrated in the above example by
-indentation the programmer chose. When there is the potential for this
-confusion, \s-1GCC\s0 will issue a warning when this flag is specified.
-To eliminate the warning, add explicit braces around the innermost
-\&\f(CW\*(C`if\*(C'\fR statement so there is no way the \f(CW\*(C`else\*(C'\fR could belong to
-the enclosing \f(CW\*(C`if\*(C'\fR. The resulting code would look like this:
-.Sp
-.Vb 9
-\& {
-\& if (a)
-\& {
-\& if (b)
-\& foo ();
-\& else
-\& bar ();
-\& }
-\& }
-.Ve
-.IP "\fB\-Wsequence\-point\fR" 4
-.IX Item "-Wsequence-point"
-Warn about code that may have undefined semantics because of violations
-of sequence point rules in the C standard.
-.Sp
-The C standard defines the order in which expressions in a C program are
-evaluated in terms of \fIsequence points\fR, which represent a partial
-ordering between the execution of parts of the program: those executed
-before the sequence point, and those executed after it. These occur
-after the evaluation of a full expression (one which is not part of a
-larger expression), after the evaluation of the first operand of a
-\&\f(CW\*(C`&&\*(C'\fR, \f(CW\*(C`||\*(C'\fR, \f(CW\*(C`? :\*(C'\fR or \f(CW\*(C`,\*(C'\fR (comma) operator, before a
-function is called (but after the evaluation of its arguments and the
-expression denoting the called function), and in certain other places.
-Other than as expressed by the sequence point rules, the order of
-evaluation of subexpressions of an expression is not specified. All
-these rules describe only a partial order rather than a total order,
-since, for example, if two functions are called within one expression
-with no sequence point between them, the order in which the functions
-are called is not specified. However, the standards committee have
-ruled that function calls do not overlap.
-.Sp
-It is not specified when between sequence points modifications to the
-values of objects take effect. Programs whose behavior depends on this
-have undefined behavior; the C standard specifies that ``Between the
-previous and next sequence point an object shall have its stored value
-modified at most once by the evaluation of an expression. Furthermore,
-the prior value shall be read only to determine the value to be
-stored.''. If a program breaks these rules, the results on any
-particular implementation are entirely unpredictable.
-.Sp
-Examples of code with undefined behavior are \f(CW\*(C`a = a++;\*(C'\fR, \f(CW\*(C`a[n]
-= b[n++]\*(C'\fR and \f(CW\*(C`a[i++] = i;\*(C'\fR. Some more complicated cases are not
-diagnosed by this option, and it may give an occasional false positive
-result, but in general it has been found fairly effective at detecting
-this sort of problem in programs.
-.Sp
-The present implementation of this option only works for C programs. A
-future implementation may also work for \*(C+ programs.
-.Sp
-The C standard is worded confusingly, therefore there is some debate
-over the precise meaning of the sequence point rules in subtle cases.
-Links to discussions of the problem, including proposed formal
-definitions, may be found on our readings page, at
-<\fBhttp://gcc.gnu.org/readings.html\fR>.
-.IP "\fB\-Wreturn\-type\fR" 4
-.IX Item "-Wreturn-type"
-Warn whenever a function is defined with a return-type that defaults to
-\&\f(CW\*(C`int\*(C'\fR. Also warn about any \f(CW\*(C`return\*(C'\fR statement with no
-return-value in a function whose return-type is not \f(CW\*(C`void\*(C'\fR.
-.Sp
-For \*(C+, a function without return type always produces a diagnostic
-message, even when \fB\-Wno\-return\-type\fR is specified. The only
-exceptions are \fBmain\fR and functions defined in system headers.
-.IP "\fB\-Wswitch\fR" 4
-.IX Item "-Wswitch"
-Warn whenever a \f(CW\*(C`switch\*(C'\fR statement has an index of enumeral type
-and lacks a \f(CW\*(C`case\*(C'\fR for one or more of the named codes of that
-enumeration. (The presence of a \f(CW\*(C`default\*(C'\fR label prevents this
-warning.) \f(CW\*(C`case\*(C'\fR labels outside the enumeration range also
-provoke warnings when this option is used.
-.IP "\fB\-Wswitch\-default\fR" 4
-.IX Item "-Wswitch-default"
-Warn whenever a \f(CW\*(C`switch\*(C'\fR statement does not have a \f(CW\*(C`default\*(C'\fR
-case.
-.IP "\fB\-Wswitch\-enum\fR" 4
-.IX Item "-Wswitch-enum"
-Warn whenever a \f(CW\*(C`switch\*(C'\fR statement has an index of enumeral type
-and lacks a \f(CW\*(C`case\*(C'\fR for one or more of the named codes of that
-enumeration. \f(CW\*(C`case\*(C'\fR labels outside the enumeration range also
-provoke warnings when this option is used.
-.IP "\fB\-Wtrigraphs\fR" 4
-.IX Item "-Wtrigraphs"
-Warn if any trigraphs are encountered that might change the meaning of
-the program (trigraphs within comments are not warned about).
-.IP "\fB\-Wunused\-function\fR" 4
-.IX Item "-Wunused-function"
-Warn whenever a static function is declared but not defined or a
-non\e\-inline static function is unused.
-.IP "\fB\-Wunused\-label\fR" 4
-.IX Item "-Wunused-label"
-Warn whenever a label is declared but not used.
-.Sp
-To suppress this warning use the \fBunused\fR attribute.
-.IP "\fB\-Wunused\-parameter\fR" 4
-.IX Item "-Wunused-parameter"
-Warn whenever a function parameter is unused aside from its declaration.
-.Sp
-To suppress this warning use the \fBunused\fR attribute.
-.IP "\fB\-Wunused\-variable\fR" 4
-.IX Item "-Wunused-variable"
-Warn whenever a local variable or non-constant static variable is unused
-aside from its declaration
-.Sp
-To suppress this warning use the \fBunused\fR attribute.
-.IP "\fB\-Wunused\-value\fR" 4
-.IX Item "-Wunused-value"
-Warn whenever a statement computes a result that is explicitly not used.
-.Sp
-To suppress this warning cast the expression to \fBvoid\fR.
-.IP "\fB\-Wunused\fR" 4
-.IX Item "-Wunused"
-All the above \fB\-Wunused\fR options combined.
-.Sp
-In order to get a warning about an unused function parameter, you must
-either specify \fB\-W \-Wunused\fR or separately specify
-\&\fB\-Wunused\-parameter\fR.
-.IP "\fB\-Wuninitialized\fR" 4
-.IX Item "-Wuninitialized"
-Warn if an automatic variable is used without first being initialized or
-if a variable may be clobbered by a \f(CW\*(C`setjmp\*(C'\fR call.
-.Sp
-These warnings are possible only in optimizing compilation,
-because they require data flow information that is computed only
-when optimizing. If you don't specify \fB\-O\fR, you simply won't
-get these warnings.
-.Sp
-These warnings occur only for variables that are candidates for
-register allocation. Therefore, they do not occur for a variable that
-is declared \f(CW\*(C`volatile\*(C'\fR, or whose address is taken, or whose size
-is other than 1, 2, 4 or 8 bytes. Also, they do not occur for
-structures, unions or arrays, even when they are in registers.
-.Sp
-Note that there may be no warning about a variable that is used only
-to compute a value that itself is never used, because such
-computations may be deleted by data flow analysis before the warnings
-are printed.
-.Sp
-These warnings are made optional because \s-1GCC\s0 is not smart
-enough to see all the reasons why the code might be correct
-despite appearing to have an error. Here is one example of how
-this can happen:
-.Sp
-.Vb 12
-\& {
-\& int x;
-\& switch (y)
-\& {
-\& case 1: x = 1;
-\& break;
-\& case 2: x = 4;
-\& break;
-\& case 3: x = 5;
-\& }
-\& foo (x);
-\& }
-.Ve
-.Sp
-If the value of \f(CW\*(C`y\*(C'\fR is always 1, 2 or 3, then \f(CW\*(C`x\*(C'\fR is
-always initialized, but \s-1GCC\s0 doesn't know this. Here is
-another common case:
-.Sp
-.Vb 6
-\& {
-\& int save_y;
-\& if (change_y) save_y = y, y = new_y;
-\& ...
-\& if (change_y) y = save_y;
-\& }
-.Ve
-.Sp
-This has no bug because \f(CW\*(C`save_y\*(C'\fR is used only if it is set.
-.Sp
-This option also warns when a non-volatile automatic variable might be
-changed by a call to \f(CW\*(C`longjmp\*(C'\fR. These warnings as well are possible
-only in optimizing compilation.
-.Sp
-The compiler sees only the calls to \f(CW\*(C`setjmp\*(C'\fR. It cannot know
-where \f(CW\*(C`longjmp\*(C'\fR will be called; in fact, a signal handler could
-call it at any point in the code. As a result, you may get a warning
-even when there is in fact no problem because \f(CW\*(C`longjmp\*(C'\fR cannot
-in fact be called at the place which would cause a problem.
-.Sp
-Some spurious warnings can be avoided if you declare all the functions
-you use that never return as \f(CW\*(C`noreturn\*(C'\fR.
-.IP "\fB\-Wunknown\-pragmas\fR" 4
-.IX Item "-Wunknown-pragmas"
-Warn when a #pragma directive is encountered which is not understood by
-\&\s-1GCC\s0. If this command line option is used, warnings will even be issued
-for unknown pragmas in system header files. This is not the case if
-the warnings were only enabled by the \fB\-Wall\fR command line option.
-.IP "\fB\-Wstrict\-aliasing\fR" 4
-.IX Item "-Wstrict-aliasing"
-This option is only active when \fB\-fstrict\-aliasing\fR is active.
-It warns about code which might break the strict aliasing rules that the
-compiler is using for optimization. The warning does not catch all
-cases, but does attempt to catch the more common pitfalls. It is
-included in \fB\-Wall\fR.
-.IP "\fB\-Wall\fR" 4
-.IX Item "-Wall"
-All of the above \fB\-W\fR options combined. This enables all the
-warnings about constructions that some users consider questionable, and
-that are easy to avoid (or modify to prevent the warning), even in
-conjunction with macros. This also enables some language-specific
-warnings described in \fB\*(C+ Dialect Options\fR and
-\&\fBObjective-C Dialect Options\fR.
-.PP
-The following \fB\-W...\fR options are not implied by \fB\-Wall\fR.
-Some of them warn about constructions that users generally do not
-consider questionable, but which occasionally you might wish to check
-for; others warn about constructions that are necessary or hard to avoid
-in some cases, and there is no simple way to modify the code to suppress
-the warning.
-.IP "\fB\-W\fR" 4
-.IX Item "-W"
-Print extra warning messages for these events:
-.RS 4
-.IP "*" 4
-A function can return either with or without a value. (Falling
-off the end of the function body is considered returning without
-a value.) For example, this function would evoke such a
-warning:
-.Sp
-.Vb 5
-\& foo (a)
-\& {
-\& if (a > 0)
-\& return a;
-\& }
-.Ve
-.IP "*" 4
-An expression-statement or the left-hand side of a comma expression
-contains no side effects.
-To suppress the warning, cast the unused expression to void.
-For example, an expression such as \fBx[i,j]\fR will cause a warning,
-but \fBx[(void)i,j]\fR will not.
-.IP "*" 4
-An unsigned value is compared against zero with \fB<\fR or \fB>=\fR.
-.IP "*" 4
-A comparison like \fBx<=y<=z\fR appears; this is equivalent to
-\&\fB(x<=y ? 1 : 0) <= z\fR, which is a different interpretation from
-that of ordinary mathematical notation.
-.IP "*" 4
-Storage-class specifiers like \f(CW\*(C`static\*(C'\fR are not the first things in
-a declaration. According to the C Standard, this usage is obsolescent.
-.IP "*" 4
-The return type of a function has a type qualifier such as \f(CW\*(C`const\*(C'\fR.
-Such a type qualifier has no effect, since the value returned by a
-function is not an lvalue. (But don't warn about the \s-1GNU\s0 extension of
-\&\f(CW\*(C`volatile void\*(C'\fR return types. That extension will be warned about
-if \fB\-pedantic\fR is specified.)
-.IP "*" 4
-If \fB\-Wall\fR or \fB\-Wunused\fR is also specified, warn about unused
-arguments.
-.IP "*" 4
-A comparison between signed and unsigned values could produce an
-incorrect result when the signed value is converted to unsigned.
-(But don't warn if \fB\-Wno\-sign\-compare\fR is also specified.)
-.IP "*" 4
-An aggregate has a partly bracketed initializer.
-For example, the following code would evoke such a warning,
-because braces are missing around the initializer for \f(CW\*(C`x.h\*(C'\fR:
-.Sp
-.Vb 3
-\& struct s { int f, g; };
-\& struct t { struct s h; int i; };
-\& struct t x = { 1, 2, 3 };
-.Ve
-.IP "*" 4
-An aggregate has an initializer which does not initialize all members.
-For example, the following code would cause such a warning, because
-\&\f(CW\*(C`x.h\*(C'\fR would be implicitly initialized to zero:
-.Sp
-.Vb 2
-\& struct s { int f, g, h; };
-\& struct s x = { 3, 4 };
-.Ve
-.RE
-.RS 4
-.RE
-.IP "\fB\-Wno\-div\-by\-zero\fR" 4
-.IX Item "-Wno-div-by-zero"
-Do not warn about compile-time integer division by zero. Floating point
-division by zero is not warned about, as it can be a legitimate way of
-obtaining infinities and NaNs.
-.IP "\fB\-Wsystem\-headers\fR" 4
-.IX Item "-Wsystem-headers"
-Print warning messages for constructs found in system header files.
-Warnings from system headers are normally suppressed, on the assumption
-that they usually do not indicate real problems and would only make the
-compiler output harder to read. Using this command line option tells
-\&\s-1GCC\s0 to emit warnings from system headers as if they occurred in user
-code. However, note that using \fB\-Wall\fR in conjunction with this
-option will \fInot\fR warn about unknown pragmas in system
-headers\-\-\-for that, \fB\-Wunknown\-pragmas\fR must also be used.
-.IP "\fB\-Wfloat\-equal\fR" 4
-.IX Item "-Wfloat-equal"
-Warn if floating point values are used in equality comparisons.
-.Sp
-The idea behind this is that sometimes it is convenient (for the
-programmer) to consider floating-point values as approximations to
-infinitely precise real numbers. If you are doing this, then you need
-to compute (by analyzing the code, or in some other way) the maximum or
-likely maximum error that the computation introduces, and allow for it
-when performing comparisons (and when producing output, but that's a
-different problem). In particular, instead of testing for equality, you
-would check to see whether the two values have ranges that overlap; and
-this is done with the relational operators, so equality comparisons are
-probably mistaken.
-.IP "\fB\-Wtraditional\fR (C only)" 4
-.IX Item "-Wtraditional (C only)"
-Warn about certain constructs that behave differently in traditional and
-\&\s-1ISO\s0 C. Also warn about \s-1ISO\s0 C constructs that have no traditional C
-equivalent, and/or problematic constructs which should be avoided.
-.RS 4
-.IP "*" 4
-Macro parameters that appear within string literals in the macro body.
-In traditional C macro replacement takes place within string literals,
-but does not in \s-1ISO\s0 C.
-.IP "*" 4
-In traditional C, some preprocessor directives did not exist.
-Traditional preprocessors would only consider a line to be a directive
-if the \fB#\fR appeared in column 1 on the line. Therefore
-\&\fB\-Wtraditional\fR warns about directives that traditional C
-understands but would ignore because the \fB#\fR does not appear as the
-first character on the line. It also suggests you hide directives like
-\&\fB#pragma\fR not understood by traditional C by indenting them. Some
-traditional implementations would not recognize \fB#elif\fR, so it
-suggests avoiding it altogether.
-.IP "*" 4
-A function-like macro that appears without arguments.
-.IP "*" 4
-The unary plus operator.
-.IP "*" 4
-The \fBU\fR integer constant suffix, or the \fBF\fR or \fBL\fR floating point
-constant suffixes. (Traditional C does support the \fBL\fR suffix on integer
-constants.) Note, these suffixes appear in macros defined in the system
-headers of most modern systems, e.g. the \fB_MIN\fR/\fB_MAX\fR macros in \f(CW\*(C`<limits.h>\*(C'\fR.
-Use of these macros in user code might normally lead to spurious
-warnings, however gcc's integrated preprocessor has enough context to
-avoid warning in these cases.
-.IP "*" 4
-A function declared external in one block and then used after the end of
-the block.
-.IP "*" 4
-A \f(CW\*(C`switch\*(C'\fR statement has an operand of type \f(CW\*(C`long\*(C'\fR.
-.IP "*" 4
-A non\-\f(CW\*(C`static\*(C'\fR function declaration follows a \f(CW\*(C`static\*(C'\fR one.
-This construct is not accepted by some traditional C compilers.
-.IP "*" 4
-The \s-1ISO\s0 type of an integer constant has a different width or
-signedness from its traditional type. This warning is only issued if
-the base of the constant is ten. I.e. hexadecimal or octal values, which
-typically represent bit patterns, are not warned about.
-.IP "*" 4
-Usage of \s-1ISO\s0 string concatenation is detected.
-.IP "*" 4
-Initialization of automatic aggregates.
-.IP "*" 4
-Identifier conflicts with labels. Traditional C lacks a separate
-namespace for labels.
-.IP "*" 4
-Initialization of unions. If the initializer is zero, the warning is
-omitted. This is done under the assumption that the zero initializer in
-user code appears conditioned on e.g. \f(CW\*(C`_\|_STDC_\|_\*(C'\fR to avoid missing
-initializer warnings and relies on default initialization to zero in the
-traditional C case.
-.IP "*" 4
-Conversions by prototypes between fixed/floating point values and vice
-versa. The absence of these prototypes when compiling with traditional
-C would cause serious problems. This is a subset of the possible
-conversion warnings, for the full set use \fB\-Wconversion\fR.
-.IP "*" 4
-Use of \s-1ISO\s0 C style function definitions. This warning intentionally is
-\&\fInot\fR issued for prototype declarations or variadic functions
-because these \s-1ISO\s0 C features will appear in your code when using
-libiberty's traditional C compatibility macros, \f(CW\*(C`PARAMS\*(C'\fR and
-\&\f(CW\*(C`VPARAMS\*(C'\fR. This warning is also bypassed for nested functions
-because that feature is already a gcc extension and thus not relevant to
-traditional C compatibility.
-.RE
-.RS 4
-.RE
-.IP "\fB\-Wundef\fR" 4
-.IX Item "-Wundef"
-Warn if an undefined identifier is evaluated in an \fB#if\fR directive.
-.IP "\fB\-Wendif\-labels\fR" 4
-.IX Item "-Wendif-labels"
-Warn whenever an \fB#else\fR or an \fB#endif\fR are followed by text.
-.IP "\fB\-Wshadow\fR" 4
-.IX Item "-Wshadow"
-Warn whenever a local variable shadows another local variable, parameter or
-global variable or whenever a built-in function is shadowed.
-.IP "\fB\-Wlarger\-than\-\fR\fIlen\fR" 4
-.IX Item "-Wlarger-than-len"
-Warn whenever an object of larger than \fIlen\fR bytes is defined.
-.IP "\fB\-Wpointer\-arith\fR" 4
-.IX Item "-Wpointer-arith"
-Warn about anything that depends on the ``size of'' a function type or
-of \f(CW\*(C`void\*(C'\fR. \s-1GNU\s0 C assigns these types a size of 1, for
-convenience in calculations with \f(CW\*(C`void *\*(C'\fR pointers and pointers
-to functions.
-.IP "\fB\-Wbad\-function\-cast\fR (C only)" 4
-.IX Item "-Wbad-function-cast (C only)"
-Warn whenever a function call is cast to a non-matching type.
-For example, warn if \f(CW\*(C`int malloc()\*(C'\fR is cast to \f(CW\*(C`anything *\*(C'\fR.
-.IP "\fB\-Wcast\-qual\fR" 4
-.IX Item "-Wcast-qual"
-Warn whenever a pointer is cast so as to remove a type qualifier from
-the target type. For example, warn if a \f(CW\*(C`const char *\*(C'\fR is cast
-to an ordinary \f(CW\*(C`char *\*(C'\fR.
-.IP "\fB\-Wcast\-align\fR" 4
-.IX Item "-Wcast-align"
-Warn whenever a pointer is cast such that the required alignment of the
-target is increased. For example, warn if a \f(CW\*(C`char *\*(C'\fR is cast to
-an \f(CW\*(C`int *\*(C'\fR on machines where integers can only be accessed at
-two\- or four-byte boundaries.
-.IP "\fB\-Wwrite\-strings\fR" 4
-.IX Item "-Wwrite-strings"
-When compiling C, give string constants the type \f(CW\*(C`const
-char[\f(CIlength\f(CW]\*(C'\fR so that
-copying the address of one into a non\-\f(CW\*(C`const\*(C'\fR \f(CW\*(C`char *\*(C'\fR
-pointer will get a warning; when compiling \*(C+, warn about the
-deprecated conversion from string constants to \f(CW\*(C`char *\*(C'\fR.
-These warnings will help you find at
-compile time code that can try to write into a string constant, but
-only if you have been very careful about using \f(CW\*(C`const\*(C'\fR in
-declarations and prototypes. Otherwise, it will just be a nuisance;
-this is why we did not make \fB\-Wall\fR request these warnings.
-.IP "\fB\-Wconversion\fR" 4
-.IX Item "-Wconversion"
-Warn if a prototype causes a type conversion that is different from what
-would happen to the same argument in the absence of a prototype. This
-includes conversions of fixed point to floating and vice versa, and
-conversions changing the width or signedness of a fixed point argument
-except when the same as the default promotion.
-.Sp
-Also, warn if a negative integer constant expression is implicitly
-converted to an unsigned type. For example, warn about the assignment
-\&\f(CW\*(C`x = \-1\*(C'\fR if \f(CW\*(C`x\*(C'\fR is unsigned. But do not warn about explicit
-casts like \f(CW\*(C`(unsigned) \-1\*(C'\fR.
-.IP "\fB\-Wsign\-compare\fR" 4
-.IX Item "-Wsign-compare"
-Warn when a comparison between signed and unsigned values could produce
-an incorrect result when the signed value is converted to unsigned.
-This warning is enabled by \fB\-W\fR, and by \fB\-Wall\fR
-in \*(C+ only.
-.IP "\fB\-Waggregate\-return\fR" 4
-.IX Item "-Waggregate-return"
-Warn if any functions that return structures or unions are defined or
-called. (In languages where you can return an array, this also elicits
-a warning.)
-.IP "\fB\-Wstrict\-prototypes\fR (C only)" 4
-.IX Item "-Wstrict-prototypes (C only)"
-Warn if a function is declared or defined without specifying the
-argument types. (An old-style function definition is permitted without
-a warning if preceded by a declaration which specifies the argument
-types.)
-.IP "\fB\-Wmissing\-prototypes\fR (C only)" 4
-.IX Item "-Wmissing-prototypes (C only)"
-Warn if a global function is defined without a previous prototype
-declaration. This warning is issued even if the definition itself
-provides a prototype. The aim is to detect global functions that fail
-to be declared in header files.
-.IP "\fB\-Wmissing\-declarations\fR (C only)" 4
-.IX Item "-Wmissing-declarations (C only)"
-Warn if a global function is defined without a previous declaration.
-Do so even if the definition itself provides a prototype.
-Use this option to detect global functions that are not declared in
-header files.
-.IP "\fB\-Wmissing\-noreturn\fR" 4
-.IX Item "-Wmissing-noreturn"
-Warn about functions which might be candidates for attribute \f(CW\*(C`noreturn\*(C'\fR.
-Note these are only possible candidates, not absolute ones. Care should
-be taken to manually verify functions actually do not ever return before
-adding the \f(CW\*(C`noreturn\*(C'\fR attribute, otherwise subtle code generation
-bugs could be introduced. You will not get a warning for \f(CW\*(C`main\*(C'\fR in
-hosted C environments.
-.IP "\fB\-Wmissing\-format\-attribute\fR" 4
-.IX Item "-Wmissing-format-attribute"
-If \fB\-Wformat\fR is enabled, also warn about functions which might be
-candidates for \f(CW\*(C`format\*(C'\fR attributes. Note these are only possible
-candidates, not absolute ones. \s-1GCC\s0 will guess that \f(CW\*(C`format\*(C'\fR
-attributes might be appropriate for any function that calls a function
-like \f(CW\*(C`vprintf\*(C'\fR or \f(CW\*(C`vscanf\*(C'\fR, but this might not always be the
-case, and some functions for which \f(CW\*(C`format\*(C'\fR attributes are
-appropriate may not be detected. This option has no effect unless
-\&\fB\-Wformat\fR is enabled (possibly by \fB\-Wall\fR).
-.IP "\fB\-Wno\-multichar\fR" 4
-.IX Item "-Wno-multichar"
-Do not warn if a multicharacter constant (\fB'\s-1FOOF\s0'\fR) is used.
-Usually they indicate a typo in the user's code, as they have
-implementation-defined values, and should not be used in portable code.
-.IP "\fB\-Wno\-deprecated\-declarations\fR" 4
-.IX Item "-Wno-deprecated-declarations"
-Do not warn about uses of functions, variables, and types marked as
-deprecated by using the \f(CW\*(C`deprecated\*(C'\fR attribute.
-(@pxref{Function Attributes}, \f(CW@pxref\fR{Variable Attributes},
-\&\f(CW@pxref\fR{Type Attributes}.)
-.IP "\fB\-Wpacked\fR" 4
-.IX Item "-Wpacked"
-Warn if a structure is given the packed attribute, but the packed
-attribute has no effect on the layout or size of the structure.
-Such structures may be mis-aligned for little benefit. For
-instance, in this code, the variable \f(CW\*(C`f.x\*(C'\fR in \f(CW\*(C`struct bar\*(C'\fR
-will be misaligned even though \f(CW\*(C`struct bar\*(C'\fR does not itself
-have the packed attribute:
-.Sp
-.Vb 8
-\& struct foo {
-\& int x;
-\& char a, b, c, d;
-\& } __attribute__((packed));
-\& struct bar {
-\& char z;
-\& struct foo f;
-\& };
-.Ve
-.IP "\fB\-Wpadded\fR" 4
-.IX Item "-Wpadded"
-Warn if padding is included in a structure, either to align an element
-of the structure or to align the whole structure. Sometimes when this
-happens it is possible to rearrange the fields of the structure to
-reduce the padding and so make the structure smaller.
-.IP "\fB\-Wredundant\-decls\fR" 4
-.IX Item "-Wredundant-decls"
-Warn if anything is declared more than once in the same scope, even in
-cases where multiple declaration is valid and changes nothing.
-.IP "\fB\-Wnested\-externs\fR (C only)" 4
-.IX Item "-Wnested-externs (C only)"
-Warn if an \f(CW\*(C`extern\*(C'\fR declaration is encountered within a function.
-.IP "\fB\-Wunreachable\-code\fR" 4
-.IX Item "-Wunreachable-code"
-Warn if the compiler detects that code will never be executed.
-.Sp
-This option is intended to warn when the compiler detects that at
-least a whole line of source code will never be executed, because
-some condition is never satisfied or because it is after a
-procedure that never returns.
-.Sp
-It is possible for this option to produce a warning even though there
-are circumstances under which part of the affected line can be executed,
-so care should be taken when removing apparently-unreachable code.
-.Sp
-For instance, when a function is inlined, a warning may mean that the
-line is unreachable in only one inlined copy of the function.
-.Sp
-This option is not made part of \fB\-Wall\fR because in a debugging
-version of a program there is often substantial code which checks
-correct functioning of the program and is, hopefully, unreachable
-because the program does work. Another common use of unreachable
-code is to provide behavior which is selectable at compile\-time.
-.IP "\fB\-Winline\fR" 4
-.IX Item "-Winline"
-Warn if a function can not be inlined and it was declared as inline.
-Even with this option, the compiler will not warn about failures to
-inline functions declared in system headers.
-.Sp
-The compiler uses a variety of heuristics to determine whether or not
-to inline a function. For example, the compiler takes into account
-the size of the function being inlined and the the amount of inlining
-that has already been done in the current function. Therefore,
-seemingly insignificant changes in the source program can cause the
-warnings produced by \fB\-Winline\fR to appear or disappear.
-.IP "\fB\-Wlong\-long\fR" 4
-.IX Item "-Wlong-long"
-Warn if \fBlong long\fR type is used. This is default. To inhibit
-the warning messages, use \fB\-Wno\-long\-long\fR. Flags
-\&\fB\-Wlong\-long\fR and \fB\-Wno\-long\-long\fR are taken into account
-only when \fB\-pedantic\fR flag is used.
-.IP "\fB\-Wdisabled\-optimization\fR" 4
-.IX Item "-Wdisabled-optimization"
-Warn if a requested optimization pass is disabled. This warning does
-not generally indicate that there is anything wrong with your code; it
-merely indicates that \s-1GCC\s0's optimizers were unable to handle the code
-effectively. Often, the problem is that your code is too big or too
-complex; \s-1GCC\s0 will refuse to optimize programs when the optimization
-itself is likely to take inordinate amounts of time.
-.IP "\fB\-Werror\fR" 4
-.IX Item "-Werror"
-Make all warnings into errors.
-.Sh "Options for Debugging Your Program or \s-1GCC\s0"
-.IX Subsection "Options for Debugging Your Program or GCC"
-\&\s-1GCC\s0 has various special options that are used for debugging
-either your program or \s-1GCC:\s0
-.IP "\fB\-g\fR" 4
-.IX Item "-g"
-Produce debugging information in the operating system's native format
-(stabs, \s-1COFF\s0, \s-1XCOFF\s0, or \s-1DWARF\s0). \s-1GDB\s0 can work with this debugging
-information.
-.Sp
-On most systems that use stabs format, \fB\-g\fR enables use of extra
-debugging information that only \s-1GDB\s0 can use; this extra information
-makes debugging work better in \s-1GDB\s0 but will probably make other debuggers
-crash or
-refuse to read the program. If you want to control for certain whether
-to generate the extra information, use \fB\-gstabs+\fR, \fB\-gstabs\fR,
-\&\fB\-gxcoff+\fR, \fB\-gxcoff\fR, \fB\-gdwarf\-1+\fR, \fB\-gdwarf\-1\fR,
-or \fB\-gvms\fR (see below).
-.Sp
-Unlike most other C compilers, \s-1GCC\s0 allows you to use \fB\-g\fR with
-\&\fB\-O\fR. The shortcuts taken by optimized code may occasionally
-produce surprising results: some variables you declared may not exist
-at all; flow of control may briefly move where you did not expect it;
-some statements may not be executed because they compute constant
-results or their values were already at hand; some statements may
-execute in different places because they were moved out of loops.
-.Sp
-Nevertheless it proves possible to debug optimized output. This makes
-it reasonable to use the optimizer for programs that might have bugs.
-.Sp
-The following options are useful when \s-1GCC\s0 is generated with the
-capability for more than one debugging format.
-.IP "\fB\-ggdb\fR" 4
-.IX Item "-ggdb"
-Produce debugging information for use by \s-1GDB\s0. This means to use the
-most expressive format available (\s-1DWARF\s0 2, stabs, or the native format
-if neither of those are supported), including \s-1GDB\s0 extensions if at all
-possible.
-.IP "\fB\-gstabs\fR" 4
-.IX Item "-gstabs"
-Produce debugging information in stabs format (if that is supported),
-without \s-1GDB\s0 extensions. This is the format used by \s-1DBX\s0 on most \s-1BSD\s0
-systems. On \s-1MIPS\s0, Alpha and System V Release 4 systems this option
-produces stabs debugging output which is not understood by \s-1DBX\s0 or \s-1SDB\s0.
-On System V Release 4 systems this option requires the \s-1GNU\s0 assembler.
-.IP "\fB\-gstabs+\fR" 4
-.IX Item "-gstabs+"
-Produce debugging information in stabs format (if that is supported),
-using \s-1GNU\s0 extensions understood only by the \s-1GNU\s0 debugger (\s-1GDB\s0). The
-use of these extensions is likely to make other debuggers crash or
-refuse to read the program.
-.IP "\fB\-gcoff\fR" 4
-.IX Item "-gcoff"
-Produce debugging information in \s-1COFF\s0 format (if that is supported).
-This is the format used by \s-1SDB\s0 on most System V systems prior to
-System V Release 4.
-.IP "\fB\-gxcoff\fR" 4
-.IX Item "-gxcoff"
-Produce debugging information in \s-1XCOFF\s0 format (if that is supported).
-This is the format used by the \s-1DBX\s0 debugger on \s-1IBM\s0 \s-1RS/6000\s0 systems.
-.IP "\fB\-gxcoff+\fR" 4
-.IX Item "-gxcoff+"
-Produce debugging information in \s-1XCOFF\s0 format (if that is supported),
-using \s-1GNU\s0 extensions understood only by the \s-1GNU\s0 debugger (\s-1GDB\s0). The
-use of these extensions is likely to make other debuggers crash or
-refuse to read the program, and may cause assemblers other than the \s-1GNU\s0
-assembler (\s-1GAS\s0) to fail with an error.
-.IP "\fB\-gdwarf\fR" 4
-.IX Item "-gdwarf"
-Produce debugging information in \s-1DWARF\s0 version 1 format (if that is
-supported). This is the format used by \s-1SDB\s0 on most System V Release 4
-systems.
-.Sp
-This option is deprecated.
-.IP "\fB\-gdwarf+\fR" 4
-.IX Item "-gdwarf+"
-Produce debugging information in \s-1DWARF\s0 version 1 format (if that is
-supported), using \s-1GNU\s0 extensions understood only by the \s-1GNU\s0 debugger
-(\s-1GDB\s0). The use of these extensions is likely to make other debuggers
-crash or refuse to read the program.
-.Sp
-This option is deprecated.
-.IP "\fB\-gdwarf\-2\fR" 4
-.IX Item "-gdwarf-2"
-Produce debugging information in \s-1DWARF\s0 version 2 format (if that is
-supported). This is the format used by \s-1DBX\s0 on \s-1IRIX\s0 6.
-.IP "\fB\-gvms\fR" 4
-.IX Item "-gvms"
-Produce debugging information in \s-1VMS\s0 debug format (if that is
-supported). This is the format used by \s-1DEBUG\s0 on \s-1VMS\s0 systems.
-.IP "\fB\-g\fR\fIlevel\fR" 4
-.IX Item "-glevel"
-.PD 0
-.IP "\fB\-ggdb\fR\fIlevel\fR" 4
-.IX Item "-ggdblevel"
-.IP "\fB\-gstabs\fR\fIlevel\fR" 4
-.IX Item "-gstabslevel"
-.IP "\fB\-gcoff\fR\fIlevel\fR" 4
-.IX Item "-gcofflevel"
-.IP "\fB\-gxcoff\fR\fIlevel\fR" 4
-.IX Item "-gxcofflevel"
-.IP "\fB\-gvms\fR\fIlevel\fR" 4
-.IX Item "-gvmslevel"
-.PD
-Request debugging information and also use \fIlevel\fR to specify how
-much information. The default level is 2.
-.Sp
-Level 1 produces minimal information, enough for making backtraces in
-parts of the program that you don't plan to debug. This includes
-descriptions of functions and external variables, but no information
-about local variables and no line numbers.
-.Sp
-Level 3 includes extra information, such as all the macro definitions
-present in the program. Some debuggers support macro expansion when
-you use \fB\-g3\fR.
-.Sp
-Note that in order to avoid confusion between \s-1DWARF1\s0 debug level 2,
-and \s-1DWARF2\s0, neither \fB\-gdwarf\fR nor \fB\-gdwarf\-2\fR accept
-a concatenated debug level. Instead use an additional \fB\-g\fR\fIlevel\fR
-option to change the debug level for \s-1DWARF1\s0 or \s-1DWARF2\s0.
-.IP "\fB\-feliminate\-dwarf2\-dups\fR" 4
-.IX Item "-feliminate-dwarf2-dups"
-Compress \s-1DWARF2\s0 debugging information by eliminating duplicated
-information about each symbol. This option only makes sense when
-generating \s-1DWARF2\s0 debugging information with \fB\-gdwarf\-2\fR.
-.IP "\fB\-p\fR" 4
-.IX Item "-p"
-Generate extra code to write profile information suitable for the
-analysis program \fBprof\fR. You must use this option when compiling
-the source files you want data about, and you must also use it when
-linking.
-.IP "\fB\-pg\fR" 4
-.IX Item "-pg"
-Generate extra code to write profile information suitable for the
-analysis program \fBgprof\fR. You must use this option when compiling
-the source files you want data about, and you must also use it when
-linking.
-.IP "\fB\-Q\fR" 4
-.IX Item "-Q"
-Makes the compiler print out each function name as it is compiled, and
-print some statistics about each pass when it finishes.
-.IP "\fB\-ftime\-report\fR" 4
-.IX Item "-ftime-report"
-Makes the compiler print some statistics about the time consumed by each
-pass when it finishes.
-.IP "\fB\-fmem\-report\fR" 4
-.IX Item "-fmem-report"
-Makes the compiler print some statistics about permanent memory
-allocation when it finishes.
-.IP "\fB\-fprofile\-arcs\fR" 4
-.IX Item "-fprofile-arcs"
-Instrument \fIarcs\fR during compilation to generate coverage data or
-for profile-directed block ordering. During execution the program
-records how many times each branch is executed and how many times it is
-taken. When the compiled program exits it saves this data to a file
-called \fI\fIauxname\fI.da\fR for each source file. \fIauxname\fR is
-generated from the name of the output file, if explicitly specified and
-it is not the final executable, otherwise it is the basename of the
-source file. In both cases any suffix is removed (e.g. \fIfoo.da\fR
-for input file \fIdir/foo.c\fR, or \fIdir/foo.da\fR for output file
-specified as \fB\-o dir/foo.o\fR).
-.Sp
-For profile-directed block ordering, compile the program with
-\&\fB\-fprofile\-arcs\fR plus optimization and code generation options,
-generate the arc profile information by running the program on a
-selected workload, and then compile the program again with the same
-optimization and code generation options plus
-\&\fB\-fbranch\-probabilities\fR.
-.Sp
-The other use of \fB\-fprofile\-arcs\fR is for use with \fBgcov\fR,
-when it is used with the \fB\-ftest\-coverage\fR option.
-.Sp
-With \fB\-fprofile\-arcs\fR, for each function of your program \s-1GCC\s0
-creates a program flow graph, then finds a spanning tree for the graph.
-Only arcs that are not on the spanning tree have to be instrumented: the
-compiler adds code to count the number of times that these arcs are
-executed. When an arc is the only exit or only entrance to a block, the
-instrumentation code can be added to the block; otherwise, a new basic
-block must be created to hold the instrumentation code.
-.IP "\fB\-ftest\-coverage\fR" 4
-.IX Item "-ftest-coverage"
-Create data files for the \fBgcov\fR code-coverage utility. See
-\&\fB\-fprofile\-arcs\fR option above for a description of \fIauxname\fR.
-.RS 4
-.IP "\fIauxname\fR\fB.bb\fR" 4
-.IX Item "auxname.bb"
-A mapping from basic blocks to line numbers, which \fBgcov\fR uses to
-associate basic block execution counts with line numbers.
-.IP "\fIauxname\fR\fB.bbg\fR" 4
-.IX Item "auxname.bbg"
-A list of all arcs in the program flow graph. This allows \fBgcov\fR
-to reconstruct the program flow graph, so that it can compute all basic
-block and arc execution counts from the information in the
-\&\fI\fIauxname\fI.da\fR file.
-.RE
-.RS 4
-.Sp
-Use \fB\-ftest\-coverage\fR with \fB\-fprofile\-arcs\fR; the latter
-option adds instrumentation to the program, which then writes
-execution counts to another data file:
-.IP "\fIauxname\fR\fB.da\fR" 4
-.IX Item "auxname.da"
-Runtime arc execution counts, used in conjunction with the arc
-information in the file \fI\fIauxname\fI.bbg\fR.
-.RE
-.RS 4
-.Sp
-Coverage data will map better to the source files if
-\&\fB\-ftest\-coverage\fR is used without optimization.
-.RE
-.IP "\fB\-d\fR\fIletters\fR" 4
-.IX Item "-dletters"
-Says to make debugging dumps during compilation at times specified by
-\&\fIletters\fR. This is used for debugging the compiler. The file names
-for most of the dumps are made by appending a pass number and a word to
-the \fIdumpname\fR. \fIdumpname\fR is generated from the name of the
-output file, if explicitly specified and it is not an executable,
-otherwise it is the basename of the source file. In both cases any
-suffix is removed (e.g. \fIfoo.00.rtl\fR or \fIfoo.01.sibling\fR).
-Here are the possible letters for use in \fIletters\fR, and their
-meanings:
-.RS 4
-.IP "\fBA\fR" 4
-.IX Item "A"
-Annotate the assembler output with miscellaneous debugging information.
-.IP "\fBb\fR" 4
-.IX Item "b"
-Dump after computing branch probabilities, to \fI\fIfile\fI.14.bp\fR.
-.IP "\fBB\fR" 4
-.IX Item "B"
-Dump after block reordering, to \fI\fIfile\fI.32.bbro\fR.
-.IP "\fBc\fR" 4
-.IX Item "c"
-Dump after instruction combination, to the file \fI\fIfile\fI.19.combine\fR.
-.IP "\fBC\fR" 4
-.IX Item "C"
-Dump after the first if conversion, to the file \fI\fIfile\fI.15.ce1\fR.
-.IP "\fBd\fR" 4
-.IX Item "d"
-Dump after delayed branch scheduling, to \fI\fIfile\fI.34.dbr\fR.
-.IP "\fBD\fR" 4
-.IX Item "D"
-Dump all macro definitions, at the end of preprocessing, in addition to
-normal output.
-.IP "\fBe\fR" 4
-.IX Item "e"
-Dump after \s-1SSA\s0 optimizations, to \fI\fIfile\fI.04.ssa\fR and
-\&\fI\fIfile\fI.07.ussa\fR.
-.IP "\fBE\fR" 4
-.IX Item "E"
-Dump after the second if conversion, to \fI\fIfile\fI.29.ce3\fR.
-.IP "\fBf\fR" 4
-.IX Item "f"
-Dump after control and data flow analysis, to \fI\fIfile\fI.14.cfg\fR.
-Also dump after life analysis, to \fI\fIfile\fI.18.life\fR.
-.IP "\fBF\fR" 4
-.IX Item "F"
-Dump after purging \f(CW\*(C`ADDRESSOF\*(C'\fR codes, to \fI\fIfile\fI.10.addressof\fR.
-.IP "\fBg\fR" 4
-.IX Item "g"
-Dump after global register allocation, to \fI\fIfile\fI.24.greg\fR.
-.IP "\fBG\fR" 4
-.IX Item "G"
-Dump after \s-1GCSE\s0, to \fI\fIfile\fI.11.gcse\fR.
-.IP "\fBh\fR" 4
-.IX Item "h"
-Dump after finalization of \s-1EH\s0 handling code, to \fI\fIfile\fI.02.eh\fR.
-.IP "\fBi\fR" 4
-.IX Item "i"
-Dump after sibling call optimizations, to \fI\fIfile\fI.01.sibling\fR.
-.IP "\fBj\fR" 4
-.IX Item "j"
-Dump after the first jump optimization, to \fI\fIfile\fI.03.jump\fR.
-.IP "\fBk\fR" 4
-.IX Item "k"
-Dump after conversion from registers to stack, to \fI\fIfile\fI.31.stack\fR.
-.IP "\fBl\fR" 4
-.IX Item "l"
-Dump after local register allocation, to \fI\fIfile\fI.23.lreg\fR.
-.IP "\fBL\fR" 4
-.IX Item "L"
-Dump after loop optimization, to \fI\fIfile\fI.12.loop\fR.
-.IP "\fBM\fR" 4
-.IX Item "M"
-Dump after performing the machine dependent reorganization pass, to
-\&\fI\fIfile\fI.33.mach\fR.
-.IP "\fBn\fR" 4
-.IX Item "n"
-Dump after register renumbering, to \fI\fIfile\fI.28.rnreg\fR.
-.IP "\fBN\fR" 4
-.IX Item "N"
-Dump after the register move pass, to \fI\fIfile\fI.21.regmove\fR.
-.IP "\fBo\fR" 4
-.IX Item "o"
-Dump after post-reload optimizations, to \fI\fIfile\fI.25.postreload\fR.
-.IP "\fBr\fR" 4
-.IX Item "r"
-Dump after \s-1RTL\s0 generation, to \fI\fIfile\fI.00.rtl\fR.
-.IP "\fBR\fR" 4
-.IX Item "R"
-Dump after the second scheduling pass, to \fI\fIfile\fI.30.sched2\fR.
-.IP "\fBs\fR" 4
-.IX Item "s"
-Dump after \s-1CSE\s0 (including the jump optimization that sometimes follows
-\&\s-1CSE\s0), to \fI\fIfile\fI.09.cse\fR.
-.IP "\fBS\fR" 4
-.IX Item "S"
-Dump after the first scheduling pass, to \fI\fIfile\fI.22.sched\fR.
-.IP "\fBt\fR" 4
-.IX Item "t"
-Dump after the second \s-1CSE\s0 pass (including the jump optimization that
-sometimes follows \s-1CSE\s0), to \fI\fIfile\fI.17.cse2\fR.
-.IP "\fBT\fR" 4
-.IX Item "T"
-Dump after running tracer, to \fI\fIfile\fI.16.tracer\fR.
-.IP "\fBu\fR" 4
-.IX Item "u"
-Dump after null pointer elimination pass to \fI\fIfile\fI.08.null\fR.
-.IP "\fBw\fR" 4
-.IX Item "w"
-Dump after the second flow pass, to \fI\fIfile\fI.26.flow2\fR.
-.IP "\fBW\fR" 4
-.IX Item "W"
-Dump after \s-1SSA\s0 conditional constant propagation, to
-\&\fI\fIfile\fI.05.ssaccp\fR.
-.IP "\fBX\fR" 4
-.IX Item "X"
-Dump after \s-1SSA\s0 dead code elimination, to \fI\fIfile\fI.06.ssadce\fR.
-.IP "\fBz\fR" 4
-.IX Item "z"
-Dump after the peephole pass, to \fI\fIfile\fI.27.peephole2\fR.
-.IP "\fBa\fR" 4
-.IX Item "a"
-Produce all the dumps listed above.
-.IP "\fBm\fR" 4
-.IX Item "m"
-Print statistics on memory usage, at the end of the run, to
-standard error.
-.IP "\fBp\fR" 4
-.IX Item "p"
-Annotate the assembler output with a comment indicating which
-pattern and alternative was used. The length of each instruction is
-also printed.
-.IP "\fBP\fR" 4
-.IX Item "P"
-Dump the \s-1RTL\s0 in the assembler output as a comment before each instruction.
-Also turns on \fB\-dp\fR annotation.
-.IP "\fBv\fR" 4
-.IX Item "v"
-For each of the other indicated dump files (except for
-\&\fI\fIfile\fI.00.rtl\fR), dump a representation of the control flow graph
-suitable for viewing with \s-1VCG\s0 to \fI\fIfile\fI.\fIpass\fI.vcg\fR.
-.IP "\fBx\fR" 4
-.IX Item "x"
-Just generate \s-1RTL\s0 for a function instead of compiling it. Usually used
-with \fBr\fR.
-.IP "\fBy\fR" 4
-.IX Item "y"
-Dump debugging information during parsing, to standard error.
-.RE
-.RS 4
-.RE
-.IP "\fB\-fdump\-unnumbered\fR" 4
-.IX Item "-fdump-unnumbered"
-When doing debugging dumps (see \fB\-d\fR option above), suppress instruction
-numbers and line number note output. This makes it more feasible to
-use diff on debugging dumps for compiler invocations with different
-options, in particular with and without \fB\-g\fR.
-.IP "\fB\-fdump\-translation\-unit\fR (C and \*(C+ only)" 4
-.IX Item "-fdump-translation-unit (C and only)"
-.PD 0
-.IP "\fB\-fdump\-translation\-unit\-\fR\fIoptions\fR\fB \fR(C and \*(C+ only)" 4
-.IX Item "-fdump-translation-unit-options (C and only)"
-.PD
-Dump a representation of the tree structure for the entire translation
-unit to a file. The file name is made by appending \fI.tu\fR to the
-source file name. If the \fB\-\fR\fIoptions\fR form is used, \fIoptions\fR
-controls the details of the dump as described for the
-\&\fB\-fdump\-tree\fR options.
-.IP "\fB\-fdump\-class\-hierarchy\fR (\*(C+ only)" 4
-.IX Item "-fdump-class-hierarchy ( only)"
-.PD 0
-.IP "\fB\-fdump\-class\-hierarchy\-\fR\fIoptions\fR\fB \fR(\*(C+ only)" 4
-.IX Item "-fdump-class-hierarchy-options ( only)"
-.PD
-Dump a representation of each class's hierarchy and virtual function
-table layout to a file. The file name is made by appending \fI.class\fR
-to the source file name. If the \fB\-\fR\fIoptions\fR form is used,
-\&\fIoptions\fR controls the details of the dump as described for the
-\&\fB\-fdump\-tree\fR options.
-.IP "\fB\-fdump\-tree\-\fR\fIswitch\fR\fB \fR(\*(C+ only)" 4
-.IX Item "-fdump-tree-switch ( only)"
-.PD 0
-.IP "\fB\-fdump\-tree\-\fR\fIswitch\fR\fB\-\fR\fIoptions\fR\fB \fR(\*(C+ only)" 4
-.IX Item "-fdump-tree-switch-options ( only)"
-.PD
-Control the dumping at various stages of processing the intermediate
-language tree to a file. The file name is generated by appending a switch
-specific suffix to the source file name. If the \fB\-\fR\fIoptions\fR
-form is used, \fIoptions\fR is a list of \fB\-\fR separated options that
-control the details of the dump. Not all options are applicable to all
-dumps, those which are not meaningful will be ignored. The following
-options are available
-.RS 4
-.IP "\fBaddress\fR" 4
-.IX Item "address"
-Print the address of each node. Usually this is not meaningful as it
-changes according to the environment and source file. Its primary use
-is for tying up a dump file with a debug environment.
-.IP "\fBslim\fR" 4
-.IX Item "slim"
-Inhibit dumping of members of a scope or body of a function merely
-because that scope has been reached. Only dump such items when they
-are directly reachable by some other path.
-.IP "\fBall\fR" 4
-.IX Item "all"
-Turn on all options.
-.RE
-.RS 4
-.Sp
-The following tree dumps are possible:
-.IP "\fBoriginal\fR" 4
-.IX Item "original"
-Dump before any tree based optimization, to \fI\fIfile\fI.original\fR.
-.IP "\fBoptimized\fR" 4
-.IX Item "optimized"
-Dump after all tree based optimization, to \fI\fIfile\fI.optimized\fR.
-.IP "\fBinlined\fR" 4
-.IX Item "inlined"
-Dump after function inlining, to \fI\fIfile\fI.inlined\fR.
-.RE
-.RS 4
-.RE
-.IP "\fB\-frandom\-seed=\fR\fIstring\fR" 4
-.IX Item "-frandom-seed=string"
-This option provides a seed that \s-1GCC\s0 uses when it would otherwise use
-random numbers. At present, this is used to generate certain symbol names
-that have to be different in every compiled file.
-.Sp
-The \fIstring\fR should be different for every file you compile.
-.IP "\fB\-fsched\-verbose=\fR\fIn\fR" 4
-.IX Item "-fsched-verbose=n"
-On targets that use instruction scheduling, this option controls the
-amount of debugging output the scheduler prints. This information is
-written to standard error, unless \fB\-dS\fR or \fB\-dR\fR is
-specified, in which case it is output to the usual dump
-listing file, \fI.sched\fR or \fI.sched2\fR respectively. However
-for \fIn\fR greater than nine, the output is always printed to standard
-error.
-.Sp
-For \fIn\fR greater than zero, \fB\-fsched\-verbose\fR outputs the
-same information as \fB\-dRS\fR. For \fIn\fR greater than one, it
-also output basic block probabilities, detailed ready list information
-and unit/insn info. For \fIn\fR greater than two, it includes \s-1RTL\s0
-at abort point, control-flow and regions info. And for \fIn\fR over
-four, \fB\-fsched\-verbose\fR also includes dependence info.
-.IP "\fB\-save\-temps\fR" 4
-.IX Item "-save-temps"
-Store the usual ``temporary'' intermediate files permanently; place them
-in the current directory and name them based on the source file. Thus,
-compiling \fIfoo.c\fR with \fB\-c \-save\-temps\fR would produce files
-\&\fIfoo.i\fR and \fIfoo.s\fR, as well as \fIfoo.o\fR. This creates a
-preprocessed \fIfoo.i\fR output file even though the compiler now
-normally uses an integrated preprocessor.
-.IP "\fB\-time\fR" 4
-.IX Item "-time"
-Report the \s-1CPU\s0 time taken by each subprocess in the compilation
-sequence. For C source files, this is the compiler proper and assembler
-(plus the linker if linking is done). The output looks like this:
-.Sp
-.Vb 2
-\& # cc1 0.12 0.01
-\& # as 0.00 0.01
-.Ve
-.Sp
-The first number on each line is the ``user time,'' that is time spent
-executing the program itself. The second number is ``system time,''
-time spent executing operating system routines on behalf of the program.
-Both numbers are in seconds.
-.IP "\fB\-print\-file\-name=\fR\fIlibrary\fR" 4
-.IX Item "-print-file-name=library"
-Print the full absolute name of the library file \fIlibrary\fR that
-would be used when linking\-\-\-and don't do anything else. With this
-option, \s-1GCC\s0 does not compile or link anything; it just prints the
-file name.
-.IP "\fB\-print\-multi\-directory\fR" 4
-.IX Item "-print-multi-directory"
-Print the directory name corresponding to the multilib selected by any
-other switches present in the command line. This directory is supposed
-to exist in \fB\s-1GCC_EXEC_PREFIX\s0\fR.
-.IP "\fB\-print\-multi\-lib\fR" 4
-.IX Item "-print-multi-lib"
-Print the mapping from multilib directory names to compiler switches
-that enable them. The directory name is separated from the switches by
-\&\fB;\fR, and each switch starts with an \fB@} instead of the
-\&\f(CB@samp\fB{\-\fR, without spaces between multiple switches. This is supposed to
-ease shell\-processing.
-.IP "\fB\-print\-prog\-name=\fR\fIprogram\fR" 4
-.IX Item "-print-prog-name=program"
-Like \fB\-print\-file\-name\fR, but searches for a program such as \fBcpp\fR.
-.IP "\fB\-print\-libgcc\-file\-name\fR" 4
-.IX Item "-print-libgcc-file-name"
-Same as \fB\-print\-file\-name=libgcc.a\fR.
-.Sp
-This is useful when you use \fB\-nostdlib\fR or \fB\-nodefaultlibs\fR
-but you do want to link with \fIlibgcc.a\fR. You can do
-.Sp
-.Vb 1
-\& gcc -nostdlib <files>... `gcc -print-libgcc-file-name`
-.Ve
-.IP "\fB\-print\-search\-dirs\fR" 4
-.IX Item "-print-search-dirs"
-Print the name of the configured installation directory and a list of
-program and library directories gcc will search\-\-\-and don't do anything else.
-.Sp
-This is useful when gcc prints the error message
-\&\fBinstallation problem, cannot exec cpp0: No such file or directory\fR.
-To resolve this you either need to put \fIcpp0\fR and the other compiler
-components where gcc expects to find them, or you can set the environment
-variable \fB\s-1GCC_EXEC_PREFIX\s0\fR to the directory where you installed them.
-Don't forget the trailing '/'.
-.IP "\fB\-dumpmachine\fR" 4
-.IX Item "-dumpmachine"
-Print the compiler's target machine (for example,
-\&\fBi686\-pc\-linux\-gnu\fR)\-\-\-and don't do anything else.
-.IP "\fB\-dumpversion\fR" 4
-.IX Item "-dumpversion"
-Print the compiler version (for example, \fB3.0\fR)\-\-\-and don't do
-anything else.
-.IP "\fB\-dumpspecs\fR" 4
-.IX Item "-dumpspecs"
-Print the compiler's built-in specs\-\-\-and don't do anything else. (This
-is used when \s-1GCC\s0 itself is being built.)
-.Sh "Options That Control Optimization"
-.IX Subsection "Options That Control Optimization"
-These options control various sorts of optimizations.
-.PP
-Without any optimization option, the compiler's goal is to reduce the
-cost of compilation and to make debugging produce the expected
-results. Statements are independent: if you stop the program with a
-breakpoint between statements, you can then assign a new value to any
-variable or change the program counter to any other statement in the
-function and get exactly the results you would expect from the source
-code.
-.PP
-Turning on optimization flags makes the compiler attempt to improve
-the performance and/or code size at the expense of compilation time
-and possibly the ability to debug the program.
-.PP
-Not all optimizations are controlled directly by a flag. Only
-optimizations that have a flag are listed.
-.IP "\fB\-O\fR" 4
-.IX Item "-O"
-.PD 0
-.IP "\fB\-O1\fR" 4
-.IX Item "-O1"
-.PD
-Optimize. Optimizing compilation takes somewhat more time, and a lot
-more memory for a large function.
-.Sp
-With \fB\-O\fR, the compiler tries to reduce code size and execution
-time, without performing any optimizations that take a great deal of
-compilation time.
-.Sp
-\&\fB\-O\fR turns on the following optimization flags:
-\&\fB\-fdefer\-pop
-\&\-fmerge\-constants
-\&\-fthread\-jumps
-\&\-floop\-optimize
-\&\-fcrossjumping
-\&\-fif\-conversion
-\&\-fif\-conversion2
-\&\-fdelayed\-branch
-\&\-fguess\-branch\-probability
-\&\-fcprop\-registers\fR
-.Sp
-\&\fB\-O\fR also turns on \fB\-fomit\-frame\-pointer\fR on machines
-where doing so does not interfere with debugging.
-.IP "\fB\-O2\fR" 4
-.IX Item "-O2"
-Optimize even more. \s-1GCC\s0 performs nearly all supported optimizations
-that do not involve a space-speed tradeoff. The compiler does not
-perform loop unrolling or function inlining when you specify \fB\-O2\fR.
-As compared to \fB\-O\fR, this option increases both compilation time
-and the performance of the generated code.
-.Sp
-\&\fB\-O2\fR turns on all optimization flags specified by \fB\-O\fR. It
-also turns on the following optimization flags:
-\&\fB\-fforce\-mem
-\&\-foptimize\-sibling\-calls
-\&\-fstrength\-reduce
-\&\-fcse\-follow\-jumps \-fcse\-skip\-blocks
-\&\-frerun\-cse\-after\-loop \-frerun\-loop\-opt
-\&\-fgcse \-fgcse\-lm \-fgcse\-sm
-\&\-fdelete\-null\-pointer\-checks
-\&\-fexpensive\-optimizations
-\&\-fregmove
-\&\-fschedule\-insns \-fschedule\-insns2
-\&\-fsched\-interblock \-fsched\-spec
-\&\-fcaller\-saves
-\&\-fpeephole2
-\&\-freorder\-blocks \-freorder\-functions
-\&\-fstrict\-aliasing
-\&\-falign\-functions \-falign\-jumps
-\&\-falign\-loops \-falign\-labels\fR
-.Sp
-Please note the warning under \fB\-fgcse\fR about
-invoking \fB\-O2\fR on programs that use computed gotos.
-.IP "\fB\-O3\fR" 4
-.IX Item "-O3"
-Optimize yet more. \fB\-O3\fR turns on all optimizations specified by
-\&\fB\-O2\fR and also turns on the \fB\-finline\-functions\fR and
-\&\fB\-frename\-registers\fR options.
-.IP "\fB\-O0\fR" 4
-.IX Item "-O0"
-Do not optimize. This is the default.
-.IP "\fB\-Os\fR" 4
-.IX Item "-Os"
-Optimize for size. \fB\-Os\fR enables all \fB\-O2\fR optimizations that
-do not typically increase code size. It also performs further
-optimizations designed to reduce code size.
-.Sp
-\&\fB\-Os\fR disables the following optimization flags:
-\&\fB\-falign\-functions \-falign\-jumps \-falign\-loops
-\&\-falign\-labels \-freorder\-blocks \-fprefetch\-loop\-arrays\fR
-.Sp
-If you use multiple \fB\-O\fR options, with or without level numbers,
-the last such option is the one that is effective.
-.PP
-Options of the form \fB\-f\fR\fIflag\fR specify machine-independent
-flags. Most flags have both positive and negative forms; the negative
-form of \fB\-ffoo\fR would be \fB\-fno\-foo\fR. In the table
-below, only one of the forms is listed\-\-\-the one you typically will
-use. You can figure out the other form by either removing \fBno\-\fR
-or adding it.
-.PP
-The following options control specific optimizations. They are either
-activated by \fB\-O\fR options or are related to ones that are. You
-can use the following flags in the rare cases when ``fine\-tuning'' of
-optimizations to be performed is desired.
-.IP "\fB\-fno\-default\-inline\fR" 4
-.IX Item "-fno-default-inline"
-Do not make member functions inline by default merely because they are
-defined inside the class scope (\*(C+ only). Otherwise, when you specify
-\&\fB\-O\fR, member functions defined inside class scope are compiled
-inline by default; i.e., you don't need to add \fBinline\fR in front of
-the member function name.
-.IP "\fB\-fno\-defer\-pop\fR" 4
-.IX Item "-fno-defer-pop"
-Always pop the arguments to each function call as soon as that function
-returns. For machines which must pop arguments after a function call,
-the compiler normally lets arguments accumulate on the stack for several
-function calls and pops them all at once.
-.Sp
-Disabled at levels \fB\-O\fR, \fB\-O2\fR, \fB\-O3\fR, \fB\-Os\fR.
-.IP "\fB\-fforce\-mem\fR" 4
-.IX Item "-fforce-mem"
-Force memory operands to be copied into registers before doing
-arithmetic on them. This produces better code by making all memory
-references potential common subexpressions. When they are not common
-subexpressions, instruction combination should eliminate the separate
-register\-load.
-.Sp
-Enabled at levels \fB\-O2\fR, \fB\-O3\fR, \fB\-Os\fR.
-.IP "\fB\-fforce\-addr\fR" 4
-.IX Item "-fforce-addr"
-Force memory address constants to be copied into registers before
-doing arithmetic on them. This may produce better code just as
-\&\fB\-fforce\-mem\fR may.
-.IP "\fB\-fomit\-frame\-pointer\fR" 4
-.IX Item "-fomit-frame-pointer"
-Don't keep the frame pointer in a register for functions that
-don't need one. This avoids the instructions to save, set up and
-restore frame pointers; it also makes an extra register available
-in many functions. \fBIt also makes debugging impossible on
-some machines.\fR
-.Sp
-On some machines, such as the \s-1VAX\s0, this flag has no effect, because
-the standard calling sequence automatically handles the frame pointer
-and nothing is saved by pretending it doesn't exist. The
-machine-description macro \f(CW\*(C`FRAME_POINTER_REQUIRED\*(C'\fR controls
-whether a target machine supports this flag.
-.Sp
-Enabled at levels \fB\-O\fR, \fB\-O2\fR, \fB\-O3\fR, \fB\-Os\fR.
-.IP "\fB\-foptimize\-sibling\-calls\fR" 4
-.IX Item "-foptimize-sibling-calls"
-Optimize sibling and tail recursive calls.
-.Sp
-Enabled at levels \fB\-O2\fR, \fB\-O3\fR, \fB\-Os\fR.
-.IP "\fB\-fno\-inline\fR" 4
-.IX Item "-fno-inline"
-Don't pay attention to the \f(CW\*(C`inline\*(C'\fR keyword. Normally this option
-is used to keep the compiler from expanding any functions inline.
-Note that if you are not optimizing, no functions can be expanded inline.
-.IP "\fB\-finline\-functions\fR" 4
-.IX Item "-finline-functions"
-Integrate all simple functions into their callers. The compiler
-heuristically decides which functions are simple enough to be worth
-integrating in this way.
-.Sp
-If all calls to a given function are integrated, and the function is
-declared \f(CW\*(C`static\*(C'\fR, then the function is normally not output as
-assembler code in its own right.
-.Sp
-Enabled at level \fB\-O3\fR.
-.IP "\fB\-finline\-limit=\fR\fIn\fR" 4
-.IX Item "-finline-limit=n"
-By default, gcc limits the size of functions that can be inlined. This flag
-allows the control of this limit for functions that are explicitly marked as
-inline (i.e., marked with the inline keyword or defined within the class
-definition in c++). \fIn\fR is the size of functions that can be inlined in
-number of pseudo instructions (not counting parameter handling). The default
-value of \fIn\fR is 600.
-Increasing this value can result in more inlined code at
-the cost of compilation time and memory consumption. Decreasing usually makes
-the compilation faster and less code will be inlined (which presumably
-means slower programs). This option is particularly useful for programs that
-use inlining heavily such as those based on recursive templates with \*(C+.
-.Sp
-Inlining is actually controlled by a number of parameters, which may be
-specified individually by using \fB\-\-param\fR \fIname\fR\fB=\fR\fIvalue\fR.
-The \fB\-finline\-limit=\fR\fIn\fR option sets some of these parameters
-as follows:
-.RS 4
-.Sp
-.Vb 10
-\& @item max-inline-insns
-\& is set to I<n>.
-\& @item max-inline-insns-single
-\& is set to I<n>/2.
-\& @item max-inline-insns-auto
-\& is set to I<n>/2.
-\& @item min-inline-insns
-\& is set to 130 or I<n>/4, whichever is smaller.
-\& @item max-inline-insns-rtl
-\& is set to I<n>.
-.Ve
-.RE
-.RS 4
-.Sp
-Using \fB\-finline\-limit=600\fR thus results in the default settings
-for these parameters. See below for a documentation of the individual
-parameters controlling inlining.
-.Sp
-\&\fINote:\fR pseudo instruction represents, in this particular context, an
-abstract measurement of function's size. In no way, it represents a count
-of assembly instructions and as such its exact meaning might change from one
-release to an another.
-.RE
-.IP "\fB\-fkeep\-inline\-functions\fR" 4
-.IX Item "-fkeep-inline-functions"
-Even if all calls to a given function are integrated, and the function
-is declared \f(CW\*(C`static\*(C'\fR, nevertheless output a separate run-time
-callable version of the function. This switch does not affect
-\&\f(CW\*(C`extern inline\*(C'\fR functions.
-.IP "\fB\-fkeep\-static\-consts\fR" 4
-.IX Item "-fkeep-static-consts"
-Emit variables declared \f(CW\*(C`static const\*(C'\fR when optimization isn't turned
-on, even if the variables aren't referenced.
-.Sp
-\&\s-1GCC\s0 enables this option by default. If you want to force the compiler to
-check if the variable was referenced, regardless of whether or not
-optimization is turned on, use the \fB\-fno\-keep\-static\-consts\fR option.
-.IP "\fB\-fmerge\-constants\fR" 4
-.IX Item "-fmerge-constants"
-Attempt to merge identical constants (string constants and floating point
-constants) across compilation units.
-.Sp
-This option is the default for optimized compilation if the assembler and
-linker support it. Use \fB\-fno\-merge\-constants\fR to inhibit this
-behavior.
-.Sp
-Enabled at levels \fB\-O\fR, \fB\-O2\fR, \fB\-O3\fR, \fB\-Os\fR.
-.IP "\fB\-fmerge\-all\-constants\fR" 4
-.IX Item "-fmerge-all-constants"
-Attempt to merge identical constants and identical variables.
-.Sp
-This option implies \fB\-fmerge\-constants\fR. In addition to
-\&\fB\-fmerge\-constants\fR this considers e.g. even constant initialized
-arrays or initialized constant variables with integral or floating point
-types. Languages like C or \*(C+ require each non-automatic variable to
-have distinct location, so using this option will result in non-conforming
-behavior.
-.IP "\fB\-fno\-branch\-count\-reg\fR" 4
-.IX Item "-fno-branch-count-reg"
-Do not use ``decrement and branch'' instructions on a count register,
-but instead generate a sequence of instructions that decrement a
-register, compare it against zero, then branch based upon the result.
-This option is only meaningful on architectures that support such
-instructions, which include x86, PowerPC, \s-1IA\-64\s0 and S/390.
-.Sp
-The default is \fB\-fbranch\-count\-reg\fR, enabled when
-\&\fB\-fstrength\-reduce\fR is enabled.
-.IP "\fB\-fno\-function\-cse\fR" 4
-.IX Item "-fno-function-cse"
-Do not put function addresses in registers; make each instruction that
-calls a constant function contain the function's address explicitly.
-.Sp
-This option results in less efficient code, but some strange hacks
-that alter the assembler output may be confused by the optimizations
-performed when this option is not used.
-.Sp
-The default is \fB\-ffunction\-cse\fR
-.IP "\fB\-fno\-zero\-initialized\-in\-bss\fR" 4
-.IX Item "-fno-zero-initialized-in-bss"
-If the target supports a \s-1BSS\s0 section, \s-1GCC\s0 by default puts variables that
-are initialized to zero into \s-1BSS\s0. This can save space in the resulting
-code.
-.Sp
-This option turns off this behavior because some programs explicitly
-rely on variables going to the data section. E.g., so that the
-resulting executable can find the beginning of that section and/or make
-assumptions based on that.
-.Sp
-The default is \fB\-fzero\-initialized\-in\-bss\fR.
-.IP "\fB\-fstrength\-reduce\fR" 4
-.IX Item "-fstrength-reduce"
-Perform the optimizations of loop strength reduction and
-elimination of iteration variables.
-.Sp
-Enabled at levels \fB\-O2\fR, \fB\-O3\fR, \fB\-Os\fR.
-.IP "\fB\-fthread\-jumps\fR" 4
-.IX Item "-fthread-jumps"
-Perform optimizations where we check to see if a jump branches to a
-location where another comparison subsumed by the first is found. If
-so, the first branch is redirected to either the destination of the
-second branch or a point immediately following it, depending on whether
-the condition is known to be true or false.
-.Sp
-Enabled at levels \fB\-O\fR, \fB\-O2\fR, \fB\-O3\fR, \fB\-Os\fR.
-.IP "\fB\-fcse\-follow\-jumps\fR" 4
-.IX Item "-fcse-follow-jumps"
-In common subexpression elimination, scan through jump instructions
-when the target of the jump is not reached by any other path. For
-example, when \s-1CSE\s0 encounters an \f(CW\*(C`if\*(C'\fR statement with an
-\&\f(CW\*(C`else\*(C'\fR clause, \s-1CSE\s0 will follow the jump when the condition
-tested is false.
-.Sp
-Enabled at levels \fB\-O2\fR, \fB\-O3\fR, \fB\-Os\fR.
-.IP "\fB\-fcse\-skip\-blocks\fR" 4
-.IX Item "-fcse-skip-blocks"
-This is similar to \fB\-fcse\-follow\-jumps\fR, but causes \s-1CSE\s0 to
-follow jumps which conditionally skip over blocks. When \s-1CSE\s0
-encounters a simple \f(CW\*(C`if\*(C'\fR statement with no else clause,
-\&\fB\-fcse\-skip\-blocks\fR causes \s-1CSE\s0 to follow the jump around the
-body of the \f(CW\*(C`if\*(C'\fR.
-.Sp
-Enabled at levels \fB\-O2\fR, \fB\-O3\fR, \fB\-Os\fR.
-.IP "\fB\-frerun\-cse\-after\-loop\fR" 4
-.IX Item "-frerun-cse-after-loop"
-Re-run common subexpression elimination after loop optimizations has been
-performed.
-.Sp
-Enabled at levels \fB\-O2\fR, \fB\-O3\fR, \fB\-Os\fR.
-.IP "\fB\-frerun\-loop\-opt\fR" 4
-.IX Item "-frerun-loop-opt"
-Run the loop optimizer twice.
-.Sp
-Enabled at levels \fB\-O2\fR, \fB\-O3\fR, \fB\-Os\fR.
-.IP "\fB\-fgcse\fR" 4
-.IX Item "-fgcse"
-Perform a global common subexpression elimination pass.
-This pass also performs global constant and copy propagation.
-.Sp
-\&\fINote:\fR When compiling a program using computed gotos, a \s-1GCC\s0
-extension, you may get better runtime performance if you disable
-the global common subexpression elimination pass by adding
-\&\fB\-fno\-gcse\fR to the command line.
-.Sp
-Enabled at levels \fB\-O2\fR, \fB\-O3\fR, \fB\-Os\fR.
-.IP "\fB\-fgcse\-lm\fR" 4
-.IX Item "-fgcse-lm"
-When \fB\-fgcse\-lm\fR is enabled, global common subexpression elimination will
-attempt to move loads which are only killed by stores into themselves. This
-allows a loop containing a load/store sequence to be changed to a load outside
-the loop, and a copy/store within the loop.
-.Sp
-Enabled by default when gcse is enabled.
-.IP "\fB\-fgcse\-sm\fR" 4
-.IX Item "-fgcse-sm"
-When \fB\-fgcse\-sm\fR is enabled, A store motion pass is run after global common
-subexpression elimination. This pass will attempt to move stores out of loops.
-When used in conjunction with \fB\-fgcse\-lm\fR, loops containing a load/store sequence
-can be changed to a load before the loop and a store after the loop.
-.Sp
-Enabled by default when gcse is enabled.
-.IP "\fB\-floop\-optimize\fR" 4
-.IX Item "-floop-optimize"
-Perform loop optimizations: move constant expressions out of loops, simplify
-exit test conditions and optionally do strength-reduction and loop unrolling as
-well.
-.Sp
-Enabled at levels \fB\-O\fR, \fB\-O2\fR, \fB\-O3\fR, \fB\-Os\fR.
-.IP "\fB\-fcrossjumping\fR" 4
-.IX Item "-fcrossjumping"
-Perform cross-jumping transformation. This transformation unifies equivalent code and save code size. The
-resulting code may or may not perform better than without cross\-jumping.
-.Sp
-Enabled at levels \fB\-O\fR, \fB\-O2\fR, \fB\-O3\fR, \fB\-Os\fR.
-.IP "\fB\-fif\-conversion\fR" 4
-.IX Item "-fif-conversion"
-Attempt to transform conditional jumps into branch-less equivalents. This
-include use of conditional moves, min, max, set flags and abs instructions, and
-some tricks doable by standard arithmetics. The use of conditional execution
-on chips where it is available is controlled by \f(CW\*(C`if\-conversion2\*(C'\fR.
-.Sp
-Enabled at levels \fB\-O\fR, \fB\-O2\fR, \fB\-O3\fR, \fB\-Os\fR.
-.IP "\fB\-fif\-conversion2\fR" 4
-.IX Item "-fif-conversion2"
-Use conditional execution (where available) to transform conditional jumps into
-branch-less equivalents.
-.Sp
-Enabled at levels \fB\-O\fR, \fB\-O2\fR, \fB\-O3\fR, \fB\-Os\fR.
-.IP "\fB\-fdelete\-null\-pointer\-checks\fR" 4
-.IX Item "-fdelete-null-pointer-checks"
-Use global dataflow analysis to identify and eliminate useless checks
-for null pointers. The compiler assumes that dereferencing a null
-pointer would have halted the program. If a pointer is checked after
-it has already been dereferenced, it cannot be null.
-.Sp
-In some environments, this assumption is not true, and programs can
-safely dereference null pointers. Use
-\&\fB\-fno\-delete\-null\-pointer\-checks\fR to disable this optimization
-for programs which depend on that behavior.
-.Sp
-Enabled at levels \fB\-O2\fR, \fB\-O3\fR, \fB\-Os\fR.
-.IP "\fB\-fexpensive\-optimizations\fR" 4
-.IX Item "-fexpensive-optimizations"
-Perform a number of minor optimizations that are relatively expensive.
-.Sp
-Enabled at levels \fB\-O2\fR, \fB\-O3\fR, \fB\-Os\fR.
-.IP "\fB\-foptimize\-register\-move\fR" 4
-.IX Item "-foptimize-register-move"
-.PD 0
-.IP "\fB\-fregmove\fR" 4
-.IX Item "-fregmove"
-.PD
-Attempt to reassign register numbers in move instructions and as
-operands of other simple instructions in order to maximize the amount of
-register tying. This is especially helpful on machines with two-operand
-instructions.
-.Sp
-Note \fB\-fregmove\fR and \fB\-foptimize\-register\-move\fR are the same
-optimization.
-.Sp
-Enabled at levels \fB\-O2\fR, \fB\-O3\fR, \fB\-Os\fR.
-.IP "\fB\-fdelayed\-branch\fR" 4
-.IX Item "-fdelayed-branch"
-If supported for the target machine, attempt to reorder instructions
-to exploit instruction slots available after delayed branch
-instructions.
-.Sp
-Enabled at levels \fB\-O\fR, \fB\-O2\fR, \fB\-O3\fR, \fB\-Os\fR.
-.IP "\fB\-fschedule\-insns\fR" 4
-.IX Item "-fschedule-insns"
-If supported for the target machine, attempt to reorder instructions to
-eliminate execution stalls due to required data being unavailable. This
-helps machines that have slow floating point or memory load instructions
-by allowing other instructions to be issued until the result of the load
-or floating point instruction is required.
-.Sp
-Enabled at levels \fB\-O2\fR, \fB\-O3\fR, \fB\-Os\fR.
-.IP "\fB\-fschedule\-insns2\fR" 4
-.IX Item "-fschedule-insns2"
-Similar to \fB\-fschedule\-insns\fR, but requests an additional pass of
-instruction scheduling after register allocation has been done. This is
-especially useful on machines with a relatively small number of
-registers and where memory load instructions take more than one cycle.
-.Sp
-Enabled at levels \fB\-O2\fR, \fB\-O3\fR, \fB\-Os\fR.
-.IP "\fB\-fno\-sched\-interblock\fR" 4
-.IX Item "-fno-sched-interblock"
-Don't schedule instructions across basic blocks. This is normally
-enabled by default when scheduling before register allocation, i.e.
-with \fB\-fschedule\-insns\fR or at \fB\-O2\fR or higher.
-.IP "\fB\-fno\-sched\-spec\fR" 4
-.IX Item "-fno-sched-spec"
-Don't allow speculative motion of non-load instructions. This is normally
-enabled by default when scheduling before register allocation, i.e.
-with \fB\-fschedule\-insns\fR or at \fB\-O2\fR or higher.
-.IP "\fB\-fsched\-spec\-load\fR" 4
-.IX Item "-fsched-spec-load"
-Allow speculative motion of some load instructions. This only makes
-sense when scheduling before register allocation, i.e. with
-\&\fB\-fschedule\-insns\fR or at \fB\-O2\fR or higher.
-.IP "\fB\-fsched\-spec\-load\-dangerous\fR" 4
-.IX Item "-fsched-spec-load-dangerous"
-Allow speculative motion of more load instructions. This only makes
-sense when scheduling before register allocation, i.e. with
-\&\fB\-fschedule\-insns\fR or at \fB\-O2\fR or higher.
-.IP "\fB\-fcaller\-saves\fR" 4
-.IX Item "-fcaller-saves"
-Enable values to be allocated in registers that will be clobbered by
-function calls, by emitting extra instructions to save and restore the
-registers around such calls. Such allocation is done only when it
-seems to result in better code than would otherwise be produced.
-.Sp
-This option is always enabled by default on certain machines, usually
-those which have no call-preserved registers to use instead.
-.Sp
-Enabled at levels \fB\-O2\fR, \fB\-O3\fR, \fB\-Os\fR.
-.IP "\fB\-fmove\-all\-movables\fR" 4
-.IX Item "-fmove-all-movables"
-Forces all invariant computations in loops to be moved
-outside the loop.
-.IP "\fB\-freduce\-all\-givs\fR" 4
-.IX Item "-freduce-all-givs"
-Forces all general-induction variables in loops to be
-strength\-reduced.
-.Sp
-\&\fINote:\fR When compiling programs written in Fortran,
-\&\fB\-fmove\-all\-movables\fR and \fB\-freduce\-all\-givs\fR are enabled
-by default when you use the optimizer.
-.Sp
-These options may generate better or worse code; results are highly
-dependent on the structure of loops within the source code.
-.Sp
-These two options are intended to be removed someday, once
-they have helped determine the efficacy of various
-approaches to improving loop optimizations.
-.Sp
-Please let us (<\fBgcc@gcc.gnu.org\fR> and <\fBfortran@gnu.org\fR>)
-know how use of these options affects
-the performance of your production code.
-We're very interested in code that runs \fIslower\fR
-when these options are \fIenabled\fR.
-.IP "\fB\-fno\-peephole\fR" 4
-.IX Item "-fno-peephole"
-.PD 0
-.IP "\fB\-fno\-peephole2\fR" 4
-.IX Item "-fno-peephole2"
-.PD
-Disable any machine-specific peephole optimizations. The difference
-between \fB\-fno\-peephole\fR and \fB\-fno\-peephole2\fR is in how they
-are implemented in the compiler; some targets use one, some use the
-other, a few use both.
-.Sp
-\&\fB\-fpeephole\fR is enabled by default.
-\&\fB\-fpeephole2\fR enabled at levels \fB\-O2\fR, \fB\-O3\fR, \fB\-Os\fR.
-.IP "\fB\-fno\-guess\-branch\-probability\fR" 4
-.IX Item "-fno-guess-branch-probability"
-Do not guess branch probabilities using a randomized model.
-.Sp
-Sometimes gcc will opt to use a randomized model to guess branch
-probabilities, when none are available from either profiling feedback
-(\fB\-fprofile\-arcs\fR) or \fB_\|_builtin_expect\fR. This means that
-different runs of the compiler on the same program may produce different
-object code.
-.Sp
-In a hard real-time system, people don't want different runs of the
-compiler to produce code that has different behavior; minimizing
-non-determinism is of paramount import. This switch allows users to
-reduce non\-determinism, possibly at the expense of inferior
-optimization.
-.Sp
-The default is \fB\-fguess\-branch\-probability\fR at levels
-\&\fB\-O\fR, \fB\-O2\fR, \fB\-O3\fR, \fB\-Os\fR.
-.IP "\fB\-freorder\-blocks\fR" 4
-.IX Item "-freorder-blocks"
-Reorder basic blocks in the compiled function in order to reduce number of
-taken branches and improve code locality.
-.Sp
-Enabled at levels \fB\-O2\fR, \fB\-O3\fR.
-.IP "\fB\-freorder\-functions\fR" 4
-.IX Item "-freorder-functions"
-Reorder basic blocks in the compiled function in order to reduce number of
-taken branches and improve code locality. This is implemented by using special
-subsections \f(CW\*(C`text.hot\*(C'\fR for most frequently executed functions and
-\&\f(CW\*(C`text.unlikely\*(C'\fR for unlikely executed functions. Reordering is done by
-the linker so object file format must support named sections and linker must
-place them in a reasonable way.
-.Sp
-Also profile feedback must be available in to make this option effective. See
-\&\fB\-fprofile\-arcs\fR for details.
-.Sp
-Enabled at levels \fB\-O2\fR, \fB\-O3\fR, \fB\-Os\fR.
-.IP "\fB\-fstrict\-aliasing\fR" 4
-.IX Item "-fstrict-aliasing"
-Allows the compiler to assume the strictest aliasing rules applicable to
-the language being compiled. For C (and \*(C+), this activates
-optimizations based on the type of expressions. In particular, an
-object of one type is assumed never to reside at the same address as an
-object of a different type, unless the types are almost the same. For
-example, an \f(CW\*(C`unsigned int\*(C'\fR can alias an \f(CW\*(C`int\*(C'\fR, but not a
-\&\f(CW\*(C`void*\*(C'\fR or a \f(CW\*(C`double\*(C'\fR. A character type may alias any other
-type.
-.Sp
-Pay special attention to code like this:
-.Sp
-.Vb 4
-\& union a_union {
-\& int i;
-\& double d;
-\& };
-.Ve
-.Sp
-.Vb 5
-\& int f() {
-\& a_union t;
-\& t.d = 3.0;
-\& return t.i;
-\& }
-.Ve
-.Sp
-The practice of reading from a different union member than the one most
-recently written to (called ``type\-punning'') is common. Even with
-\&\fB\-fstrict\-aliasing\fR, type-punning is allowed, provided the memory
-is accessed through the union type. So, the code above will work as
-expected. However, this code might not:
-.Sp
-.Vb 7
-\& int f() {
-\& a_union t;
-\& int* ip;
-\& t.d = 3.0;
-\& ip = &t.i;
-\& return *ip;
-\& }
-.Ve
-.Sp
-Every language that wishes to perform language-specific alias analysis
-should define a function that computes, given an \f(CW\*(C`tree\*(C'\fR
-node, an alias set for the node. Nodes in different alias sets are not
-allowed to alias. For an example, see the C front-end function
-\&\f(CW\*(C`c_get_alias_set\*(C'\fR.
-.Sp
-Enabled at levels \fB\-O2\fR, \fB\-O3\fR, \fB\-Os\fR.
-.IP "\fB\-falign\-functions\fR" 4
-.IX Item "-falign-functions"
-.PD 0
-.IP "\fB\-falign\-functions=\fR\fIn\fR" 4
-.IX Item "-falign-functions=n"
-.PD
-Align the start of functions to the next power-of-two greater than
-\&\fIn\fR, skipping up to \fIn\fR bytes. For instance,
-\&\fB\-falign\-functions=32\fR aligns functions to the next 32\-byte
-boundary, but \fB\-falign\-functions=24\fR would align to the next
-32\-byte boundary only if this can be done by skipping 23 bytes or less.
-.Sp
-\&\fB\-fno\-align\-functions\fR and \fB\-falign\-functions=1\fR are
-equivalent and mean that functions will not be aligned.
-.Sp
-Some assemblers only support this flag when \fIn\fR is a power of two;
-in that case, it is rounded up.
-.Sp
-If \fIn\fR is not specified or is zero, use a machine-dependent default.
-.Sp
-Enabled at levels \fB\-O2\fR, \fB\-O3\fR.
-.IP "\fB\-falign\-labels\fR" 4
-.IX Item "-falign-labels"
-.PD 0
-.IP "\fB\-falign\-labels=\fR\fIn\fR" 4
-.IX Item "-falign-labels=n"
-.PD
-Align all branch targets to a power-of-two boundary, skipping up to
-\&\fIn\fR bytes like \fB\-falign\-functions\fR. This option can easily
-make code slower, because it must insert dummy operations for when the
-branch target is reached in the usual flow of the code.
-.Sp
-\&\fB\-fno\-align\-labels\fR and \fB\-falign\-labels=1\fR are
-equivalent and mean that labels will not be aligned.
-.Sp
-If \fB\-falign\-loops\fR or \fB\-falign\-jumps\fR are applicable and
-are greater than this value, then their values are used instead.
-.Sp
-If \fIn\fR is not specified or is zero, use a machine-dependent default
-which is very likely to be \fB1\fR, meaning no alignment.
-.Sp
-Enabled at levels \fB\-O2\fR, \fB\-O3\fR.
-.IP "\fB\-falign\-loops\fR" 4
-.IX Item "-falign-loops"
-.PD 0
-.IP "\fB\-falign\-loops=\fR\fIn\fR" 4
-.IX Item "-falign-loops=n"
-.PD
-Align loops to a power-of-two boundary, skipping up to \fIn\fR bytes
-like \fB\-falign\-functions\fR. The hope is that the loop will be
-executed many times, which will make up for any execution of the dummy
-operations.
-.Sp
-\&\fB\-fno\-align\-loops\fR and \fB\-falign\-loops=1\fR are
-equivalent and mean that loops will not be aligned.
-.Sp
-If \fIn\fR is not specified or is zero, use a machine-dependent default.
-.Sp
-Enabled at levels \fB\-O2\fR, \fB\-O3\fR.
-.IP "\fB\-falign\-jumps\fR" 4
-.IX Item "-falign-jumps"
-.PD 0
-.IP "\fB\-falign\-jumps=\fR\fIn\fR" 4
-.IX Item "-falign-jumps=n"
-.PD
-Align branch targets to a power-of-two boundary, for branch targets
-where the targets can only be reached by jumping, skipping up to \fIn\fR
-bytes like \fB\-falign\-functions\fR. In this case, no dummy operations
-need be executed.
-.Sp
-\&\fB\-fno\-align\-jumps\fR and \fB\-falign\-jumps=1\fR are
-equivalent and mean that loops will not be aligned.
-.Sp
-If \fIn\fR is not specified or is zero, use a machine-dependent default.
-.Sp
-Enabled at levels \fB\-O2\fR, \fB\-O3\fR.
-.IP "\fB\-frename\-registers\fR" 4
-.IX Item "-frename-registers"
-Attempt to avoid false dependencies in scheduled code by making use
-of registers left over after register allocation. This optimization
-will most benefit processors with lots of registers. It can, however,
-make debugging impossible, since variables will no longer stay in
-a ``home register''.
-.Sp
-Enabled at levels \fB\-O3\fR.
-.IP "\fB\-fno\-cprop\-registers\fR" 4
-.IX Item "-fno-cprop-registers"
-After register allocation and post-register allocation instruction splitting,
-we perform a copy-propagation pass to try to reduce scheduling dependencies
-and occasionally eliminate the copy.
-.Sp
-Disabled at levels \fB\-O\fR, \fB\-O2\fR, \fB\-O3\fR, \fB\-Os\fR.
-.PP
-The following options control compiler behavior regarding floating
-point arithmetic. These options trade off between speed and
-correctness. All must be specifically enabled.
-.IP "\fB\-ffloat\-store\fR" 4
-.IX Item "-ffloat-store"
-Do not store floating point variables in registers, and inhibit other
-options that might change whether a floating point value is taken from a
-register or memory.
-.Sp
-This option prevents undesirable excess precision on machines such as
-the 68000 where the floating registers (of the 68881) keep more
-precision than a \f(CW\*(C`double\*(C'\fR is supposed to have. Similarly for the
-x86 architecture. For most programs, the excess precision does only
-good, but a few programs rely on the precise definition of \s-1IEEE\s0 floating
-point. Use \fB\-ffloat\-store\fR for such programs, after modifying
-them to store all pertinent intermediate computations into variables.
-.IP "\fB\-ffast\-math\fR" 4
-.IX Item "-ffast-math"
-Sets \fB\-fno\-math\-errno\fR, \fB\-funsafe\-math\-optimizations\fR, \fB\-fno\-trapping\-math\fR, \fB\-ffinite\-math\-only\fR and \fB\-fno\-signaling\-nans\fR.
-.Sp
-This option causes the preprocessor macro \f(CW\*(C`_\|_FAST_MATH_\|_\*(C'\fR to be defined.
-.Sp
-This option should never be turned on by any \fB\-O\fR option since
-it can result in incorrect output for programs which depend on
-an exact implementation of \s-1IEEE\s0 or \s-1ISO\s0 rules/specifications for
-math functions.
-.IP "\fB\-fno\-math\-errno\fR" 4
-.IX Item "-fno-math-errno"
-Do not set \s-1ERRNO\s0 after calling math functions that are executed
-with a single instruction, e.g., sqrt. A program that relies on
-\&\s-1IEEE\s0 exceptions for math error handling may want to use this flag
-for speed while maintaining \s-1IEEE\s0 arithmetic compatibility.
-.Sp
-This option should never be turned on by any \fB\-O\fR option since
-it can result in incorrect output for programs which depend on
-an exact implementation of \s-1IEEE\s0 or \s-1ISO\s0 rules/specifications for
-math functions.
-.Sp
-The default is \fB\-fmath\-errno\fR.
-.IP "\fB\-funsafe\-math\-optimizations\fR" 4
-.IX Item "-funsafe-math-optimizations"
-Allow optimizations for floating-point arithmetic that (a) assume
-that arguments and results are valid and (b) may violate \s-1IEEE\s0 or
-\&\s-1ANSI\s0 standards. When used at link\-time, it may include libraries
-or startup files that change the default \s-1FPU\s0 control word or other
-similar optimizations.
-.Sp
-This option should never be turned on by any \fB\-O\fR option since
-it can result in incorrect output for programs which depend on
-an exact implementation of \s-1IEEE\s0 or \s-1ISO\s0 rules/specifications for
-math functions.
-.Sp
-The default is \fB\-fno\-unsafe\-math\-optimizations\fR.
-.IP "\fB\-ffinite\-math\-only\fR" 4
-.IX Item "-ffinite-math-only"
-Allow optimizations for floating-point arithmetic that assume
-that arguments and results are not NaNs or +\-Infs.
-.Sp
-This option should never be turned on by any \fB\-O\fR option since
-it can result in incorrect output for programs which depend on
-an exact implementation of \s-1IEEE\s0 or \s-1ISO\s0 rules/specifications.
-.Sp
-The default is \fB\-fno\-finite\-math\-only\fR.
-.IP "\fB\-fno\-trapping\-math\fR" 4
-.IX Item "-fno-trapping-math"
-Compile code assuming that floating-point operations cannot generate
-user-visible traps. These traps include division by zero, overflow,
-underflow, inexact result and invalid operation. This option implies
-\&\fB\-fno\-signaling\-nans\fR. Setting this option may allow faster
-code if one relies on ``non\-stop'' \s-1IEEE\s0 arithmetic, for example.
-.Sp
-This option should never be turned on by any \fB\-O\fR option since
-it can result in incorrect output for programs which depend on
-an exact implementation of \s-1IEEE\s0 or \s-1ISO\s0 rules/specifications for
-math functions.
-.Sp
-The default is \fB\-ftrapping\-math\fR.
-.IP "\fB\-fsignaling\-nans\fR" 4
-.IX Item "-fsignaling-nans"
-Compile code assuming that \s-1IEEE\s0 signaling NaNs may generate user-visible
-traps during floating-point operations. Setting this option disables
-optimizations that may change the number of exceptions visible with
-signaling NaNs. This option implies \fB\-ftrapping\-math\fR.
-.Sp
-This option causes the preprocessor macro \f(CW\*(C`_\|_SUPPORT_SNAN_\|_\*(C'\fR to
-be defined.
-.Sp
-The default is \fB\-fno\-signaling\-nans\fR.
-.Sp
-This option is experimental and does not currently guarantee to
-disable all \s-1GCC\s0 optimizations that affect signaling NaN behavior.
-.IP "\fB\-fsingle\-precision\-constant\fR" 4
-.IX Item "-fsingle-precision-constant"
-Treat floating point constant as single precision constant instead of
-implicitly converting it to double precision constant.
-.PP
-The following options control optimizations that may improve
-performance, but are not enabled by any \fB\-O\fR options. This
-section includes experimental options that may produce broken code.
-.IP "\fB\-fbranch\-probabilities\fR" 4
-.IX Item "-fbranch-probabilities"
-After running a program compiled with \fB\-fprofile\-arcs\fR, you can compile it a second time using
-\&\fB\-fbranch\-probabilities\fR, to improve optimizations based on
-the number of times each branch was taken. When the program
-compiled with \fB\-fprofile\-arcs\fR exits it saves arc execution
-counts to a file called \fI\fIsourcename\fI.da\fR for each source
-file The information in this data file is very dependent on the
-structure of the generated code, so you must use the same source code
-and the same optimization options for both compilations.
-.Sp
-With \fB\-fbranch\-probabilities\fR, \s-1GCC\s0 puts a
-\&\fB\s-1REG_BR_PROB\s0\fR note on each \fB\s-1JUMP_INSN\s0\fR and \fB\s-1CALL_INSN\s0\fR.
-These can be used to improve optimization. Currently, they are only
-used in one place: in \fIreorg.c\fR, instead of guessing which path a
-branch is mostly to take, the \fB\s-1REG_BR_PROB\s0\fR values are used to
-exactly determine which path is taken more often.
-.IP "\fB\-fnew\-ra\fR" 4
-.IX Item "-fnew-ra"
-Use a graph coloring register allocator. Currently this option is meant
-only for testing. Users should not specify this option, since it is not
-yet ready for production use.
-.IP "\fB\-ftracer\fR" 4
-.IX Item "-ftracer"
-Perform tail duplication to enlarge superblock size. This transformation
-simplifies the control flow of the function allowing other optimizations to do
-better job.
-.IP "\fB\-funroll\-loops\fR" 4
-.IX Item "-funroll-loops"
-Unroll loops whose number of iterations can be determined at compile
-time or upon entry to the loop. \fB\-funroll\-loops\fR implies both
-\&\fB\-fstrength\-reduce\fR and \fB\-frerun\-cse\-after\-loop\fR. This
-option makes code larger, and may or may not make it run faster.
-.IP "\fB\-funroll\-all\-loops\fR" 4
-.IX Item "-funroll-all-loops"
-Unroll all loops, even if their number of iterations is uncertain when
-the loop is entered. This usually makes programs run more slowly.
-\&\fB\-funroll\-all\-loops\fR implies the same options as
-\&\fB\-funroll\-loops\fR,
-.IP "\fB\-fprefetch\-loop\-arrays\fR" 4
-.IX Item "-fprefetch-loop-arrays"
-If supported by the target machine, generate instructions to prefetch
-memory to improve the performance of loops that access large arrays.
-.Sp
-Disabled at level \fB\-Os\fR.
-.IP "\fB\-ffunction\-sections\fR" 4
-.IX Item "-ffunction-sections"
-.PD 0
-.IP "\fB\-fdata\-sections\fR" 4
-.IX Item "-fdata-sections"
-.PD
-Place each function or data item into its own section in the output
-file if the target supports arbitrary sections. The name of the
-function or the name of the data item determines the section's name
-in the output file.
-.Sp
-Use these options on systems where the linker can perform optimizations
-to improve locality of reference in the instruction space. Most systems
-using the \s-1ELF\s0 object format and \s-1SPARC\s0 processors running Solaris 2 have
-linkers with such optimizations. \s-1AIX\s0 may have these optimizations in
-the future.
-.Sp
-Only use these options when there are significant benefits from doing
-so. When you specify these options, the assembler and linker will
-create larger object and executable files and will also be slower.
-You will not be able to use \f(CW\*(C`gprof\*(C'\fR on all systems if you
-specify this option and you may have problems with debugging if
-you specify both this option and \fB\-g\fR.
-.IP "\fB\-fssa\fR" 4
-.IX Item "-fssa"
-Perform optimizations in static single assignment form. Each function's
-flow graph is translated into \s-1SSA\s0 form, optimizations are performed, and
-the flow graph is translated back from \s-1SSA\s0 form. Users should not
-specify this option, since it is not yet ready for production use.
-.IP "\fB\-fssa\-ccp\fR" 4
-.IX Item "-fssa-ccp"
-Perform Sparse Conditional Constant Propagation in \s-1SSA\s0 form. Requires
-\&\fB\-fssa\fR. Like \fB\-fssa\fR, this is an experimental feature.
-.IP "\fB\-fssa\-dce\fR" 4
-.IX Item "-fssa-dce"
-Perform aggressive dead-code elimination in \s-1SSA\s0 form. Requires \fB\-fssa\fR.
-Like \fB\-fssa\fR, this is an experimental feature.
-.IP "\fB\-\-param\fR \fIname\fR\fB=\fR\fIvalue\fR" 4
-.IX Item "--param name=value"
-In some places, \s-1GCC\s0 uses various constants to control the amount of
-optimization that is done. For example, \s-1GCC\s0 will not inline functions
-that contain more that a certain number of instructions. You can
-control some of these constants on the command-line using the
-\&\fB\-\-param\fR option.
-.Sp
-The names of specific parameters, and the meaning of the values, are
-tied to the internals of the compiler, and are subject to change
-without notice in future releases.
-.Sp
-In each case, the \fIvalue\fR is an integer. The allowable choices for
-\&\fIname\fR are given in the following table:
-.RS 4
-.IP "\fBmax-crossjump-edges\fR" 4
-.IX Item "max-crossjump-edges"
-The maximum number of incoming edges to consider for crossjumping.
-The algorithm used by \fB\-fcrossjumping\fR is O(N^2) in
-the number of edges incoming to each block. Increasing values mean
-more aggressive optimization, making the compile time increase with
-probably small improvement in executable size.
-.IP "\fBmax-delay-slot-insn-search\fR" 4
-.IX Item "max-delay-slot-insn-search"
-The maximum number of instructions to consider when looking for an
-instruction to fill a delay slot. If more than this arbitrary number of
-instructions is searched, the time savings from filling the delay slot
-will be minimal so stop searching. Increasing values mean more
-aggressive optimization, making the compile time increase with probably
-small improvement in executable run time.
-.IP "\fBmax-delay-slot-live-search\fR" 4
-.IX Item "max-delay-slot-live-search"
-When trying to fill delay slots, the maximum number of instructions to
-consider when searching for a block with valid live register
-information. Increasing this arbitrarily chosen value means more
-aggressive optimization, increasing the compile time. This parameter
-should be removed when the delay slot code is rewritten to maintain the
-control-flow graph.
-.IP "\fBmax-gcse-memory\fR" 4
-.IX Item "max-gcse-memory"
-The approximate maximum amount of memory that will be allocated in
-order to perform the global common subexpression elimination
-optimization. If more memory than specified is required, the
-optimization will not be done.
-.IP "\fBmax-gcse-passes\fR" 4
-.IX Item "max-gcse-passes"
-The maximum number of passes of \s-1GCSE\s0 to run.
-.IP "\fBmax-pending-list-length\fR" 4
-.IX Item "max-pending-list-length"
-The maximum number of pending dependencies scheduling will allow
-before flushing the current state and starting over. Large functions
-with few branches or calls can create excessively large lists which
-needlessly consume memory and resources.
-.IP "\fBmax-inline-insns-single\fR" 4
-.IX Item "max-inline-insns-single"
-Several parameters control the tree inliner used in gcc.
-This number sets the maximum number of instructions (counted in gcc's
-internal representation) in a single function that the tree inliner
-will consider for inlining. This only affects functions declared
-inline and methods implemented in a class declaration (\*(C+).
-The default value is 300.
-.IP "\fBmax-inline-insns-auto\fR" 4
-.IX Item "max-inline-insns-auto"
-When you use \fB\-finline\-functions\fR (included in \fB\-O3\fR),
-a lot of functions that would otherwise not be considered for inlining
-by the compiler will be investigated. To those functions, a different
-(more restrictive) limit compared to functions declared inline can
-be applied.
-The default value is 300.
-.IP "\fBmax-inline-insns\fR" 4
-.IX Item "max-inline-insns"
-The tree inliner does decrease the allowable size for single functions
-to be inlined after we already inlined the number of instructions
-given here by repeated inlining. This number should be a factor of
-two or more larger than the single function limit.
-Higher numbers result in better runtime performance, but incur higher
-compile-time resource (\s-1CPU\s0 time, memory) requirements and result in
-larger binaries. Very high values are not advisable, as too large
-binaries may adversely affect runtime performance.
-The default value is 600.
-.IP "\fBmax-inline-slope\fR" 4
-.IX Item "max-inline-slope"
-After exceeding the maximum number of inlined instructions by repeated
-inlining, a linear function is used to decrease the allowable size
-for single functions. The slope of that function is the negative
-reciprocal of the number specified here.
-The default value is 32.
-.IP "\fBmin-inline-insns\fR" 4
-.IX Item "min-inline-insns"
-The repeated inlining is throttled more and more by the linear function
-after exceeding the limit. To avoid too much throttling, a minimum for
-this function is specified here to allow repeated inlining for very small
-functions even when a lot of repeated inlining already has been done.
-The default value is 130.
-.IP "\fBmax-inline-insns-rtl\fR" 4
-.IX Item "max-inline-insns-rtl"
-For languages that use the \s-1RTL\s0 inliner (this happens at a later stage
-than tree inlining), you can set the maximum allowable size (counted
-in \s-1RTL\s0 instructions) for the \s-1RTL\s0 inliner with this parameter.
-The default value is 600.
-.IP "\fBmax-unrolled-insns\fR" 4
-.IX Item "max-unrolled-insns"
-The maximum number of instructions that a loop should have if that loop
-is unrolled, and if the loop is unrolled, it determines how many times
-the loop code is unrolled.
-.IP "\fBhot-bb-count-fraction\fR" 4
-.IX Item "hot-bb-count-fraction"
-Select fraction of the maximal count of repetitions of basic block in program
-given basic block needs to have to be considered hot.
-.IP "\fBhot-bb-frequency-fraction\fR" 4
-.IX Item "hot-bb-frequency-fraction"
-Select fraction of the maximal frequency of executions of basic block in
-function given basic block needs to have to be considered hot
-.IP "\fBtracer-dynamic-coverage\fR" 4
-.IX Item "tracer-dynamic-coverage"
-.PD 0
-.IP "\fBtracer-dynamic-coverage-feedback\fR" 4
-.IX Item "tracer-dynamic-coverage-feedback"
-.PD
-This value is used to limit superblock formation once the given percentage of
-executed instructions is covered. This limits unnecessary code size
-expansion.
-.Sp
-The \fBtracer-dynamic-coverage-feedback\fR is used only when profile
-feedback is available. The real profiles (as opposed to statically estimated
-ones) are much less balanced allowing the threshold to be larger value.
-.IP "\fBtracer-max-code-growth\fR" 4
-.IX Item "tracer-max-code-growth"
-Stop tail duplication once code growth has reached given percentage. This is
-rather hokey argument, as most of the duplicates will be eliminated later in
-cross jumping, so it may be set to much higher values than is the desired code
-growth.
-.IP "\fBtracer-min-branch-ratio\fR" 4
-.IX Item "tracer-min-branch-ratio"
-Stop reverse growth when the reverse probability of best edge is less than this
-threshold (in percent).
-.IP "\fBtracer-min-branch-ratio\fR" 4
-.IX Item "tracer-min-branch-ratio"
-.PD 0
-.IP "\fBtracer-min-branch-ratio-feedback\fR" 4
-.IX Item "tracer-min-branch-ratio-feedback"
-.PD
-Stop forward growth if the best edge do have probability lower than this
-threshold.
-.Sp
-Similarly to \fBtracer-dynamic-coverage\fR two values are present, one for
-compilation for profile feedback and one for compilation without. The value
-for compilation with profile feedback needs to be more conservative (higher) in
-order to make tracer effective.
-.IP "\fBggc-min-expand\fR" 4
-.IX Item "ggc-min-expand"
-\&\s-1GCC\s0 uses a garbage collector to manage its own memory allocation. This
-parameter specifies the minimum percentage by which the garbage
-collector's heap should be allowed to expand between collections.
-Tuning this may improve compilation speed; it has no effect on code
-generation.
-.Sp
-The default is 30% + 70% * (\s-1RAM/1GB\s0) with an upper bound of 100% when
-\&\s-1RAM\s0 >= 1GB. If \f(CW\*(C`getrlimit\*(C'\fR is available, the notion of \*(L"\s-1RAM\s0\*(R" is
-the smallest of actual \s-1RAM\s0, \s-1RLIMIT_RSS\s0, \s-1RLIMIT_DATA\s0 and \s-1RLIMIT_AS\s0. If
-\&\s-1GCC\s0 is not able to calculate \s-1RAM\s0 on a particular platform, the lower
-bound of 30% is used. Setting this parameter and
-\&\fBggc-min-heapsize\fR to zero causes a full collection to occur at
-every opportunity. This is extremely slow, but can be useful for
-debugging.
-.IP "\fBggc-min-heapsize\fR" 4
-.IX Item "ggc-min-heapsize"
-Minimum size of the garbage collector's heap before it begins bothering
-to collect garbage. The first collection occurs after the heap expands
-by \fBggc-min-expand\fR% beyond \fBggc-min-heapsize\fR. Again,
-tuning this may improve compilation speed, and has no effect on code
-generation.
-.Sp
-The default is \s-1RAM/8\s0, with a lower bound of 4096 (four megabytes) and an
-upper bound of 131072 (128 megabytes). If \f(CW\*(C`getrlimit\*(C'\fR is
-available, the notion of \*(L"\s-1RAM\s0\*(R" is the smallest of actual \s-1RAM\s0,
-\&\s-1RLIMIT_RSS\s0, \s-1RLIMIT_DATA\s0 and \s-1RLIMIT_AS\s0. If \s-1GCC\s0 is not able to calculate
-\&\s-1RAM\s0 on a particular platform, the lower bound is used. Setting this
-parameter very large effectively disables garbage collection. Setting
-this parameter and \fBggc-min-expand\fR to zero causes a full
-collection to occur at every opportunity.
-.RE
-.RS 4
-.RE
-.Sh "Options Controlling the Preprocessor"
-.IX Subsection "Options Controlling the Preprocessor"
-These options control the C preprocessor, which is run on each C source
-file before actual compilation.
-.PP
-If you use the \fB\-E\fR option, nothing is done except preprocessing.
-Some of these options make sense only together with \fB\-E\fR because
-they cause the preprocessor output to be unsuitable for actual
-compilation.
-.PP
-You can use \fB\-Wp,\fR\fIoption\fR to bypass the compiler driver
-and pass \fIoption\fR directly through to the preprocessor. If
-\&\fIoption\fR contains commas, it is split into multiple options at the
-commas. However, many options are modified, translated or interpreted
-by the compiler driver before being passed to the preprocessor, and
-\&\fB\-Wp\fR forcibly bypasses this phase. The preprocessor's direct
-interface is undocumented and subject to change, so whenever possible
-you should avoid using \fB\-Wp\fR and let the driver handle the
-options instead.
-.IP "\fB\-D\fR \fIname\fR" 4
-.IX Item "-D name"
-Predefine \fIname\fR as a macro, with definition \f(CW1\fR.
-.IP "\fB\-D\fR \fIname\fR\fB=\fR\fIdefinition\fR" 4
-.IX Item "-D name=definition"
-Predefine \fIname\fR as a macro, with definition \fIdefinition\fR.
-There are no restrictions on the contents of \fIdefinition\fR, but if
-you are invoking the preprocessor from a shell or shell-like program you
-may need to use the shell's quoting syntax to protect characters such as
-spaces that have a meaning in the shell syntax.
-.Sp
-If you wish to define a function-like macro on the command line, write
-its argument list with surrounding parentheses before the equals sign
-(if any). Parentheses are meaningful to most shells, so you will need
-to quote the option. With \fBsh\fR and \fBcsh\fR,
-\&\fB\-D'\fR\fIname\fR\fB(\fR\fIargs...\fR\fB)=\fR\fIdefinition\fR\fB'\fR works.
-.Sp
-\&\fB\-D\fR and \fB\-U\fR options are processed in the order they
-are given on the command line. All \fB\-imacros\fR \fIfile\fR and
-\&\fB\-include\fR \fIfile\fR options are processed after all
-\&\fB\-D\fR and \fB\-U\fR options.
-.IP "\fB\-U\fR \fIname\fR" 4
-.IX Item "-U name"
-Cancel any previous definition of \fIname\fR, either built in or
-provided with a \fB\-D\fR option.
-.IP "\fB\-undef\fR" 4
-.IX Item "-undef"
-Do not predefine any system-specific or GCC-specific macros. The
-standard predefined macros remain defined.
-.IP "\fB\-I\fR \fIdir\fR" 4
-.IX Item "-I dir"
-Add the directory \fIdir\fR to the list of directories to be searched
-for header files.
-Directories named by \fB\-I\fR are searched before the standard
-system include directories. If the directory \fIdir\fR is a standard
-system include directory, the option is ignored to ensure that the
-default search order for system directories and the special treatment
-of system headers are not defeated
-\&.
-.IP "\fB\-o\fR \fIfile\fR" 4
-.IX Item "-o file"
-Write output to \fIfile\fR. This is the same as specifying \fIfile\fR
-as the second non-option argument to \fBcpp\fR. \fBgcc\fR has a
-different interpretation of a second non-option argument, so you must
-use \fB\-o\fR to specify the output file.
-.IP "\fB\-Wall\fR" 4
-.IX Item "-Wall"
-Turns on all optional warnings which are desirable for normal code. At
-present this is \fB\-Wcomment\fR and \fB\-Wtrigraphs\fR. Note that
-many of the preprocessor's warnings are on by default and have no
-options to control them.
-.IP "\fB\-Wcomment\fR" 4
-.IX Item "-Wcomment"
-.PD 0
-.IP "\fB\-Wcomments\fR" 4
-.IX Item "-Wcomments"
-.PD
-Warn whenever a comment-start sequence \fB/*\fR appears in a \fB/*\fR
-comment, or whenever a backslash-newline appears in a \fB//\fR comment.
-(Both forms have the same effect.)
-.IP "\fB\-Wtrigraphs\fR" 4
-.IX Item "-Wtrigraphs"
-Warn if any trigraphs are encountered. This option used to take effect
-only if \fB\-trigraphs\fR was also specified, but now works
-independently. Warnings are not given for trigraphs within comments, as
-they do not affect the meaning of the program.
-.IP "\fB\-Wtraditional\fR" 4
-.IX Item "-Wtraditional"
-Warn about certain constructs that behave differently in traditional and
-\&\s-1ISO\s0 C. Also warn about \s-1ISO\s0 C constructs that have no traditional C
-equivalent, and problematic constructs which should be avoided.
-.IP "\fB\-Wimport\fR" 4
-.IX Item "-Wimport"
-Warn the first time \fB#import\fR is used.
-.IP "\fB\-Wundef\fR" 4
-.IX Item "-Wundef"
-Warn whenever an identifier which is not a macro is encountered in an
-\&\fB#if\fR directive, outside of \fBdefined\fR. Such identifiers are
-replaced with zero.
-.IP "\fB\-Wunused\-macros\fR" 4
-.IX Item "-Wunused-macros"
-Warn about macros defined in the main file that are unused. A macro
-is \fIused\fR if it is expanded or tested for existence at least once.
-The preprocessor will also warn if the macro has not been used at the
-time it is redefined or undefined.
-.Sp
-Built-in macros, macros defined on the command line, and macros
-defined in include files are not warned about.
-.Sp
-\&\fBNote:\fR If a macro is actually used, but only used in skipped
-conditional blocks, then \s-1CPP\s0 will report it as unused. To avoid the
-warning in such a case, you might improve the scope of the macro's
-definition by, for example, moving it into the first skipped block.
-Alternatively, you could provide a dummy use with something like:
-.Sp
-.Vb 2
-\& #if defined the_macro_causing_the_warning
-\& #endif
-.Ve
-.IP "\fB\-Wendif\-labels\fR" 4
-.IX Item "-Wendif-labels"
-Warn whenever an \fB#else\fR or an \fB#endif\fR are followed by text.
-This usually happens in code of the form
-.Sp
-.Vb 5
-\& #if FOO
-\& ...
-\& #else FOO
-\& ...
-\& #endif FOO
-.Ve
-.Sp
-The second and third \f(CW\*(C`FOO\*(C'\fR should be in comments, but often are not
-in older programs. This warning is on by default.
-.IP "\fB\-Werror\fR" 4
-.IX Item "-Werror"
-Make all warnings into hard errors. Source code which triggers warnings
-will be rejected.
-.IP "\fB\-Wsystem\-headers\fR" 4
-.IX Item "-Wsystem-headers"
-Issue warnings for code in system headers. These are normally unhelpful
-in finding bugs in your own code, therefore suppressed. If you are
-responsible for the system library, you may want to see them.
-.IP "\fB\-w\fR" 4
-.IX Item "-w"
-Suppress all warnings, including those which \s-1GNU\s0 \s-1CPP\s0 issues by default.
-.IP "\fB\-pedantic\fR" 4
-.IX Item "-pedantic"
-Issue all the mandatory diagnostics listed in the C standard. Some of
-them are left out by default, since they trigger frequently on harmless
-code.
-.IP "\fB\-pedantic\-errors\fR" 4
-.IX Item "-pedantic-errors"
-Issue all the mandatory diagnostics, and make all mandatory diagnostics
-into errors. This includes mandatory diagnostics that \s-1GCC\s0 issues
-without \fB\-pedantic\fR but treats as warnings.
-.IP "\fB\-M\fR" 4
-.IX Item "-M"
-Instead of outputting the result of preprocessing, output a rule
-suitable for \fBmake\fR describing the dependencies of the main
-source file. The preprocessor outputs one \fBmake\fR rule containing
-the object file name for that source file, a colon, and the names of all
-the included files, including those coming from \fB\-include\fR or
-\&\fB\-imacros\fR command line options.
-.Sp
-Unless specified explicitly (with \fB\-MT\fR or \fB\-MQ\fR), the
-object file name consists of the basename of the source file with any
-suffix replaced with object file suffix. If there are many included
-files then the rule is split into several lines using \fB\e\fR\-newline.
-The rule has no commands.
-.Sp
-This option does not suppress the preprocessor's debug output, such as
-\&\fB\-dM\fR. To avoid mixing such debug output with the dependency
-rules you should explicitly specify the dependency output file with
-\&\fB\-MF\fR, or use an environment variable like
-\&\fB\s-1DEPENDENCIES_OUTPUT\s0\fR. Debug output
-will still be sent to the regular output stream as normal.
-.Sp
-Passing \fB\-M\fR to the driver implies \fB\-E\fR, and suppresses
-warnings with an implicit \fB\-w\fR.
-.IP "\fB\-MM\fR" 4
-.IX Item "-MM"
-Like \fB\-M\fR but do not mention header files that are found in
-system header directories, nor header files that are included,
-directly or indirectly, from such a header.
-.Sp
-This implies that the choice of angle brackets or double quotes in an
-\&\fB#include\fR directive does not in itself determine whether that
-header will appear in \fB\-MM\fR dependency output. This is a
-slight change in semantics from \s-1GCC\s0 versions 3.0 and earlier.
-.IP "\fB\-MF\fR \fIfile\fR" 4
-.IX Item "-MF file"
-@anchor{\-MF}
-When used with \fB\-M\fR or \fB\-MM\fR, specifies a
-file to write the dependencies to. If no \fB\-MF\fR switch is given
-the preprocessor sends the rules to the same place it would have sent
-preprocessed output.
-.Sp
-When used with the driver options \fB\-MD\fR or \fB\-MMD\fR,
-\&\fB\-MF\fR overrides the default dependency output file.
-.IP "\fB\-MG\fR" 4
-.IX Item "-MG"
-In conjunction with an option such as \fB\-M\fR requesting
-dependency generation, \fB\-MG\fR assumes missing header files are
-generated files and adds them to the dependency list without raising
-an error. The dependency filename is taken directly from the
-\&\f(CW\*(C`#include\*(C'\fR directive without prepending any path. \fB\-MG\fR
-also suppresses preprocessed output, as a missing header file renders
-this useless.
-.Sp
-This feature is used in automatic updating of makefiles.
-.IP "\fB\-MP\fR" 4
-.IX Item "-MP"
-This option instructs \s-1CPP\s0 to add a phony target for each dependency
-other than the main file, causing each to depend on nothing. These
-dummy rules work around errors \fBmake\fR gives if you remove header
-files without updating the \fIMakefile\fR to match.
-.Sp
-This is typical output:
-.Sp
-.Vb 1
-\& test.o: test.c test.h
-.Ve
-.Sp
-.Vb 1
-\& test.h:
-.Ve
-.IP "\fB\-MT\fR \fItarget\fR" 4
-.IX Item "-MT target"
-Change the target of the rule emitted by dependency generation. By
-default \s-1CPP\s0 takes the name of the main input file, including any path,
-deletes any file suffix such as \fB.c\fR, and appends the platform's
-usual object suffix. The result is the target.
-.Sp
-An \fB\-MT\fR option will set the target to be exactly the string you
-specify. If you want multiple targets, you can specify them as a single
-argument to \fB\-MT\fR, or use multiple \fB\-MT\fR options.
-.Sp
-For example, \fB\-MT\ '$(objpfx)foo.o'\fR might give
-.Sp
-.Vb 1
-\& $(objpfx)foo.o: foo.c
-.Ve
-.IP "\fB\-MQ\fR \fItarget\fR" 4
-.IX Item "-MQ target"
-Same as \fB\-MT\fR, but it quotes any characters which are special to
-Make. \fB\-MQ\ '$(objpfx)foo.o'\fR gives
-.Sp
-.Vb 1
-\& $$(objpfx)foo.o: foo.c
-.Ve
-.Sp
-The default target is automatically quoted, as if it were given with
-\&\fB\-MQ\fR.
-.IP "\fB\-MD\fR" 4
-.IX Item "-MD"
-\&\fB\-MD\fR is equivalent to \fB\-M \-MF\fR \fIfile\fR, except that
-\&\fB\-E\fR is not implied. The driver determines \fIfile\fR based on
-whether an \fB\-o\fR option is given. If it is, the driver uses its
-argument but with a suffix of \fI.d\fR, otherwise it take the
-basename of the input file and applies a \fI.d\fR suffix.
-.Sp
-If \fB\-MD\fR is used in conjunction with \fB\-E\fR, any
-\&\fB\-o\fR switch is understood to specify the dependency output file
-(but \f(CW@pxref\fR{\-MF}), but if used without \fB\-E\fR, each \fB\-o\fR
-is understood to specify a target object file.
-.Sp
-Since \fB\-E\fR is not implied, \fB\-MD\fR can be used to generate
-a dependency output file as a side-effect of the compilation process.
-.IP "\fB\-MMD\fR" 4
-.IX Item "-MMD"
-Like \fB\-MD\fR except mention only user header files, not system
-\&\-header files.
-.IP "\fB\-x c\fR" 4
-.IX Item "-x c"
-.PD 0
-.IP "\fB\-x c++\fR" 4
-.IX Item "-x c++"
-.IP "\fB\-x objective-c\fR" 4
-.IX Item "-x objective-c"
-.IP "\fB\-x assembler-with-cpp\fR" 4
-.IX Item "-x assembler-with-cpp"
-.PD
-Specify the source language: C, \*(C+, Objective\-C, or assembly. This has
-nothing to do with standards conformance or extensions; it merely
-selects which base syntax to expect. If you give none of these options,
-cpp will deduce the language from the extension of the source file:
-\&\fB.c\fR, \fB.cc\fR, \fB.m\fR, or \fB.S\fR. Some other common
-extensions for \*(C+ and assembly are also recognized. If cpp does not
-recognize the extension, it will treat the file as C; this is the most
-generic mode.
-.Sp
-\&\fBNote:\fR Previous versions of cpp accepted a \fB\-lang\fR option
-which selected both the language and the standards conformance level.
-This option has been removed, because it conflicts with the \fB\-l\fR
-option.
-.IP "\fB\-std=\fR\fIstandard\fR" 4
-.IX Item "-std=standard"
-.PD 0
-.IP "\fB\-ansi\fR" 4
-.IX Item "-ansi"
-.PD
-Specify the standard to which the code should conform. Currently \s-1CPP\s0
-knows about C and \*(C+ standards; others may be added in the future.
-.Sp
-\&\fIstandard\fR
-may be one of:
-.RS 4
-.ie n .IP """iso9899:1990""" 4
-.el .IP "\f(CWiso9899:1990\fR" 4
-.IX Item "iso9899:1990"
-.PD 0
-.ie n .IP """c89""" 4
-.el .IP "\f(CWc89\fR" 4
-.IX Item "c89"
-.PD
-The \s-1ISO\s0 C standard from 1990. \fBc89\fR is the customary shorthand for
-this version of the standard.
-.Sp
-The \fB\-ansi\fR option is equivalent to \fB\-std=c89\fR.
-.ie n .IP """iso9899:199409""" 4
-.el .IP "\f(CWiso9899:199409\fR" 4
-.IX Item "iso9899:199409"
-The 1990 C standard, as amended in 1994.
-.ie n .IP """iso9899:1999""" 4
-.el .IP "\f(CWiso9899:1999\fR" 4
-.IX Item "iso9899:1999"
-.PD 0
-.ie n .IP """c99""" 4
-.el .IP "\f(CWc99\fR" 4
-.IX Item "c99"
-.ie n .IP """iso9899:199x""" 4
-.el .IP "\f(CWiso9899:199x\fR" 4
-.IX Item "iso9899:199x"
-.ie n .IP """c9x""" 4
-.el .IP "\f(CWc9x\fR" 4
-.IX Item "c9x"
-.PD
-The revised \s-1ISO\s0 C standard, published in December 1999. Before
-publication, this was known as C9X.
-.ie n .IP """gnu89""" 4
-.el .IP "\f(CWgnu89\fR" 4
-.IX Item "gnu89"
-The 1990 C standard plus \s-1GNU\s0 extensions. This is the default.
-.ie n .IP """gnu99""" 4
-.el .IP "\f(CWgnu99\fR" 4
-.IX Item "gnu99"
-.PD 0
-.ie n .IP """gnu9x""" 4
-.el .IP "\f(CWgnu9x\fR" 4
-.IX Item "gnu9x"
-.PD
-The 1999 C standard plus \s-1GNU\s0 extensions.
-.ie n .IP """c++98""" 4
-.el .IP "\f(CWc++98\fR" 4
-.IX Item "c++98"
-The 1998 \s-1ISO\s0 \*(C+ standard plus amendments.
-.ie n .IP """gnu++98""" 4
-.el .IP "\f(CWgnu++98\fR" 4
-.IX Item "gnu++98"
-The same as \fB\-std=c++98\fR plus \s-1GNU\s0 extensions. This is the
-default for \*(C+ code.
-.RE
-.RS 4
-.RE
-.IP "\fB\-I\-\fR" 4
-.IX Item "-I-"
-Split the include path. Any directories specified with \fB\-I\fR
-options before \fB\-I\-\fR are searched only for headers requested with
-\&\f(CW\*(C`#include\ "\f(CIfile\f(CW"\*(C'\fR; they are not searched for
-\&\f(CW\*(C`#include\ <\f(CIfile\f(CW>\*(C'\fR. If additional directories are
-specified with \fB\-I\fR options after the \fB\-I\-\fR, those
-directories are searched for all \fB#include\fR directives.
-.Sp
-In addition, \fB\-I\-\fR inhibits the use of the directory of the current
-file directory as the first search directory for \f(CW\*(C`#include\ "\f(CIfile\f(CW"\*(C'\fR.
-.IP "\fB\-nostdinc\fR" 4
-.IX Item "-nostdinc"
-Do not search the standard system directories for header files.
-Only the directories you have specified with \fB\-I\fR options
-(and the directory of the current file, if appropriate) are searched.
-.IP "\fB\-nostdinc++\fR" 4
-.IX Item "-nostdinc++"
-Do not search for header files in the \*(C+\-specific standard directories,
-but do still search the other standard directories. (This option is
-used when building the \*(C+ library.)
-.IP "\fB\-include\fR \fIfile\fR" 4
-.IX Item "-include file"
-Process \fIfile\fR as if \f(CW\*(C`#include "file"\*(C'\fR appeared as the first
-line of the primary source file. However, the first directory searched
-for \fIfile\fR is the preprocessor's working directory \fIinstead of\fR
-the directory containing the main source file. If not found there, it
-is searched for in the remainder of the \f(CW\*(C`#include "..."\*(C'\fR search
-chain as normal.
-.Sp
-If multiple \fB\-include\fR options are given, the files are included
-in the order they appear on the command line.
-.IP "\fB\-imacros\fR \fIfile\fR" 4
-.IX Item "-imacros file"
-Exactly like \fB\-include\fR, except that any output produced by
-scanning \fIfile\fR is thrown away. Macros it defines remain defined.
-This allows you to acquire all the macros from a header without also
-processing its declarations.
-.Sp
-All files specified by \fB\-imacros\fR are processed before all files
-specified by \fB\-include\fR.
-.IP "\fB\-idirafter\fR \fIdir\fR" 4
-.IX Item "-idirafter dir"
-Search \fIdir\fR for header files, but do it \fIafter\fR all
-directories specified with \fB\-I\fR and the standard system directories
-have been exhausted. \fIdir\fR is treated as a system include directory.
-.IP "\fB\-iprefix\fR \fIprefix\fR" 4
-.IX Item "-iprefix prefix"
-Specify \fIprefix\fR as the prefix for subsequent \fB\-iwithprefix\fR
-options. If the prefix represents a directory, you should include the
-final \fB/\fR.
-.IP "\fB\-iwithprefix\fR \fIdir\fR" 4
-.IX Item "-iwithprefix dir"
-.PD 0
-.IP "\fB\-iwithprefixbefore\fR \fIdir\fR" 4
-.IX Item "-iwithprefixbefore dir"
-.PD
-Append \fIdir\fR to the prefix specified previously with
-\&\fB\-iprefix\fR, and add the resulting directory to the include search
-path. \fB\-iwithprefixbefore\fR puts it in the same place \fB\-I\fR
-would; \fB\-iwithprefix\fR puts it where \fB\-idirafter\fR would.
-.Sp
-Use of these options is discouraged.
-.IP "\fB\-isystem\fR \fIdir\fR" 4
-.IX Item "-isystem dir"
-Search \fIdir\fR for header files, after all directories specified by
-\&\fB\-I\fR but before the standard system directories. Mark it
-as a system directory, so that it gets the same special treatment as
-is applied to the standard system directories.
-.IP "\fB\-fpreprocessed\fR" 4
-.IX Item "-fpreprocessed"
-Indicate to the preprocessor that the input file has already been
-preprocessed. This suppresses things like macro expansion, trigraph
-conversion, escaped newline splicing, and processing of most directives.
-The preprocessor still recognizes and removes comments, so that you can
-pass a file preprocessed with \fB\-C\fR to the compiler without
-problems. In this mode the integrated preprocessor is little more than
-a tokenizer for the front ends.
-.Sp
-\&\fB\-fpreprocessed\fR is implicit if the input file has one of the
-extensions \fB.i\fR, \fB.ii\fR or \fB.mi\fR. These are the
-extensions that \s-1GCC\s0 uses for preprocessed files created by
-\&\fB\-save\-temps\fR.
-.IP "\fB\-ftabstop=\fR\fIwidth\fR" 4
-.IX Item "-ftabstop=width"
-Set the distance between tab stops. This helps the preprocessor report
-correct column numbers in warnings or errors, even if tabs appear on the
-line. If the value is less than 1 or greater than 100, the option is
-ignored. The default is 8.
-.IP "\fB\-fno\-show\-column\fR" 4
-.IX Item "-fno-show-column"
-Do not print column numbers in diagnostics. This may be necessary if
-diagnostics are being scanned by a program that does not understand the
-column numbers, such as \fBdejagnu\fR.
-.IP "\fB\-A\fR \fIpredicate\fR\fB=\fR\fIanswer\fR" 4
-.IX Item "-A predicate=answer"
-Make an assertion with the predicate \fIpredicate\fR and answer
-\&\fIanswer\fR. This form is preferred to the older form \fB\-A\fR
-\&\fIpredicate\fR\fB(\fR\fIanswer\fR\fB)\fR, which is still supported, because
-it does not use shell special characters.
-.IP "\fB\-A \-\fR\fIpredicate\fR\fB=\fR\fIanswer\fR" 4
-.IX Item "-A -predicate=answer"
-Cancel an assertion with the predicate \fIpredicate\fR and answer
-\&\fIanswer\fR.
-.IP "\fB\-dCHARS\fR" 4
-.IX Item "-dCHARS"
-\&\fI\s-1CHARS\s0\fR is a sequence of one or more of the following characters,
-and must not be preceded by a space. Other characters are interpreted
-by the compiler proper, or reserved for future versions of \s-1GCC\s0, and so
-are silently ignored. If you specify characters whose behavior
-conflicts, the result is undefined.
-.RS 4
-.IP "\fBM\fR" 4
-.IX Item "M"
-Instead of the normal output, generate a list of \fB#define\fR
-directives for all the macros defined during the execution of the
-preprocessor, including predefined macros. This gives you a way of
-finding out what is predefined in your version of the preprocessor.
-Assuming you have no file \fIfoo.h\fR, the command
-.Sp
-.Vb 1
-\& touch foo.h; cpp -dM foo.h
-.Ve
-.Sp
-will show all the predefined macros.
-.IP "\fBD\fR" 4
-.IX Item "D"
-Like \fBM\fR except in two respects: it does \fInot\fR include the
-predefined macros, and it outputs \fIboth\fR the \fB#define\fR
-directives and the result of preprocessing. Both kinds of output go to
-the standard output file.
-.IP "\fBN\fR" 4
-.IX Item "N"
-Like \fBD\fR, but emit only the macro names, not their expansions.
-.IP "\fBI\fR" 4
-.IX Item "I"
-Output \fB#include\fR directives in addition to the result of
-preprocessing.
-.RE
-.RS 4
-.RE
-.IP "\fB\-P\fR" 4
-.IX Item "-P"
-Inhibit generation of linemarkers in the output from the preprocessor.
-This might be useful when running the preprocessor on something that is
-not C code, and will be sent to a program which might be confused by the
-linemarkers.
-.IP "\fB\-C\fR" 4
-.IX Item "-C"
-Do not discard comments. All comments are passed through to the output
-file, except for comments in processed directives, which are deleted
-along with the directive.
-.Sp
-You should be prepared for side effects when using \fB\-C\fR; it
-causes the preprocessor to treat comments as tokens in their own right.
-For example, comments appearing at the start of what would be a
-directive line have the effect of turning that line into an ordinary
-source line, since the first token on the line is no longer a \fB#\fR.
-.IP "\fB\-CC\fR" 4
-.IX Item "-CC"
-Do not discard comments, including during macro expansion. This is
-like \fB\-C\fR, except that comments contained within macros are
-also passed through to the output file where the macro is expanded.
-.Sp
-In addition to the side-effects of the \fB\-C\fR option, the
-\&\fB\-CC\fR option causes all \*(C+\-style comments inside a macro
-to be converted to C\-style comments. This is to prevent later use
-of that macro from inadvertently commenting out the remainder of
-the source line.
-.Sp
-The \fB\-CC\fR option is generally used to support lint comments.
-.IP "\fB\-traditional\-cpp\fR" 4
-.IX Item "-traditional-cpp"
-Try to imitate the behavior of old-fashioned C preprocessors, as
-opposed to \s-1ISO\s0 C preprocessors.
-.IP "\fB\-trigraphs\fR" 4
-.IX Item "-trigraphs"
-Process trigraph sequences.
-These are three-character sequences, all starting with \fB??\fR, that
-are defined by \s-1ISO\s0 C to stand for single characters. For example,
-\&\fB??/\fR stands for \fB\e\fR, so \fB'??/n'\fR is a character
-constant for a newline. By default, \s-1GCC\s0 ignores trigraphs, but in
-standard-conforming modes it converts them. See the \fB\-std\fR and
-\&\fB\-ansi\fR options.
-.Sp
-The nine trigraphs and their replacements are
-.Sp
-.Vb 2
-\& Trigraph: ??( ??) ??< ??> ??= ??/ ??' ??! ??-
-\& Replacement: [ ] { } # \e ^ | ~
-.Ve
-.IP "\fB\-remap\fR" 4
-.IX Item "-remap"
-Enable special code to work around file systems which only permit very
-short file names, such as \s-1MS\-DOS\s0.
-.IP "\fB\-\-help\fR" 4
-.IX Item "--help"
-.PD 0
-.IP "\fB\-\-target\-help\fR" 4
-.IX Item "--target-help"
-.PD
-Print text describing all the command line options instead of
-preprocessing anything.
-.IP "\fB\-v\fR" 4
-.IX Item "-v"
-Verbose mode. Print out \s-1GNU\s0 \s-1CPP\s0's version number at the beginning of
-execution, and report the final form of the include path.
-.IP "\fB\-H\fR" 4
-.IX Item "-H"
-Print the name of each header file used, in addition to other normal
-activities. Each name is indented to show how deep in the
-\&\fB#include\fR stack it is.
-.IP "\fB\-version\fR" 4
-.IX Item "-version"
-.PD 0
-.IP "\fB\-\-version\fR" 4
-.IX Item "--version"
-.PD
-Print out \s-1GNU\s0 \s-1CPP\s0's version number. With one dash, proceed to
-preprocess as normal. With two dashes, exit immediately.
-.Sh "Passing Options to the Assembler"
-.IX Subsection "Passing Options to the Assembler"
-You can pass options to the assembler.
-.IP "\fB\-Wa,\fR\fIoption\fR" 4
-.IX Item "-Wa,option"
-Pass \fIoption\fR as an option to the assembler. If \fIoption\fR
-contains commas, it is split into multiple options at the commas.
-.Sh "Options for Linking"
-.IX Subsection "Options for Linking"
-These options come into play when the compiler links object files into
-an executable output file. They are meaningless if the compiler is
-not doing a link step.
-.IP "\fIobject-file-name\fR" 4
-.IX Item "object-file-name"
-A file name that does not end in a special recognized suffix is
-considered to name an object file or library. (Object files are
-distinguished from libraries by the linker according to the file
-contents.) If linking is done, these object files are used as input
-to the linker.
-.IP "\fB\-c\fR" 4
-.IX Item "-c"
-.PD 0
-.IP "\fB\-S\fR" 4
-.IX Item "-S"
-.IP "\fB\-E\fR" 4
-.IX Item "-E"
-.PD
-If any of these options is used, then the linker is not run, and
-object file names should not be used as arguments.
-.IP "\fB\-l\fR\fIlibrary\fR" 4
-.IX Item "-llibrary"
-.PD 0
-.IP "\fB\-l\fR \fIlibrary\fR" 4
-.IX Item "-l library"
-.PD
-Search the library named \fIlibrary\fR when linking. (The second
-alternative with the library as a separate argument is only for
-\&\s-1POSIX\s0 compliance and is not recommended.)
-.Sp
-It makes a difference where in the command you write this option; the
-linker searches and processes libraries and object files in the order they
-are specified. Thus, \fBfoo.o \-lz bar.o\fR searches library \fBz\fR
-after file \fIfoo.o\fR but before \fIbar.o\fR. If \fIbar.o\fR refers
-to functions in \fBz\fR, those functions may not be loaded.
-.Sp
-The linker searches a standard list of directories for the library,
-which is actually a file named \fIlib\fIlibrary\fI.a\fR. The linker
-then uses this file as if it had been specified precisely by name.
-.Sp
-The directories searched include several standard system directories
-plus any that you specify with \fB\-L\fR.
-.Sp
-Normally the files found this way are library files\-\-\-archive files
-whose members are object files. The linker handles an archive file by
-scanning through it for members which define symbols that have so far
-been referenced but not defined. But if the file that is found is an
-ordinary object file, it is linked in the usual fashion. The only
-difference between using an \fB\-l\fR option and specifying a file name
-is that \fB\-l\fR surrounds \fIlibrary\fR with \fBlib\fR and \fB.a\fR
-and searches several directories.
-.IP "\fB\-lobjc\fR" 4
-.IX Item "-lobjc"
-You need this special case of the \fB\-l\fR option in order to
-link an Objective-C program.
-.IP "\fB\-nostartfiles\fR" 4
-.IX Item "-nostartfiles"
-Do not use the standard system startup files when linking.
-The standard system libraries are used normally, unless \fB\-nostdlib\fR
-or \fB\-nodefaultlibs\fR is used.
-.IP "\fB\-nodefaultlibs\fR" 4
-.IX Item "-nodefaultlibs"
-Do not use the standard system libraries when linking.
-Only the libraries you specify will be passed to the linker.
-The standard startup files are used normally, unless \fB\-nostartfiles\fR
-is used. The compiler may generate calls to memcmp, memset, and memcpy
-for System V (and \s-1ISO\s0 C) environments or to bcopy and bzero for
-\&\s-1BSD\s0 environments. These entries are usually resolved by entries in
-libc. These entry points should be supplied through some other
-mechanism when this option is specified.
-.IP "\fB\-nostdlib\fR" 4
-.IX Item "-nostdlib"
-Do not use the standard system startup files or libraries when linking.
-No startup files and only the libraries you specify will be passed to
-the linker. The compiler may generate calls to memcmp, memset, and memcpy
-for System V (and \s-1ISO\s0 C) environments or to bcopy and bzero for
-\&\s-1BSD\s0 environments. These entries are usually resolved by entries in
-libc. These entry points should be supplied through some other
-mechanism when this option is specified.
-.Sp
-One of the standard libraries bypassed by \fB\-nostdlib\fR and
-\&\fB\-nodefaultlibs\fR is \fIlibgcc.a\fR, a library of internal subroutines
-that \s-1GCC\s0 uses to overcome shortcomings of particular machines, or special
-needs for some languages.
-.Sp
-In most cases, you need \fIlibgcc.a\fR even when you want to avoid
-other standard libraries. In other words, when you specify \fB\-nostdlib\fR
-or \fB\-nodefaultlibs\fR you should usually specify \fB\-lgcc\fR as well.
-This ensures that you have no unresolved references to internal \s-1GCC\s0
-library subroutines. (For example, \fB_\|_main\fR, used to ensure \*(C+
-constructors will be called.)
-.IP "\fB\-s\fR" 4
-.IX Item "-s"
-Remove all symbol table and relocation information from the executable.
-.IP "\fB\-static\fR" 4
-.IX Item "-static"
-On systems that support dynamic linking, this prevents linking with the shared
-libraries. On other systems, this option has no effect.
-.IP "\fB\-shared\fR" 4
-.IX Item "-shared"
-Produce a shared object which can then be linked with other objects to
-form an executable. Not all systems support this option. For predictable
-results, you must also specify the same set of options that were used to
-generate code (\fB\-fpic\fR, \fB\-fPIC\fR, or model suboptions)
-when you specify this option.[1]
-.IP "\fB\-shared\-libgcc\fR" 4
-.IX Item "-shared-libgcc"
-.PD 0
-.IP "\fB\-static\-libgcc\fR" 4
-.IX Item "-static-libgcc"
-.PD
-On systems that provide \fIlibgcc\fR as a shared library, these options
-force the use of either the shared or static version respectively.
-If no shared version of \fIlibgcc\fR was built when the compiler was
-configured, these options have no effect.
-.Sp
-There are several situations in which an application should use the
-shared \fIlibgcc\fR instead of the static version. The most common
-of these is when the application wishes to throw and catch exceptions
-across different shared libraries. In that case, each of the libraries
-as well as the application itself should use the shared \fIlibgcc\fR.
-.Sp
-Therefore, the G++ and \s-1GCJ\s0 drivers automatically add
-\&\fB\-shared\-libgcc\fR whenever you build a shared library or a main
-executable, because \*(C+ and Java programs typically use exceptions, so
-this is the right thing to do.
-.Sp
-If, instead, you use the \s-1GCC\s0 driver to create shared libraries, you may
-find that they will not always be linked with the shared \fIlibgcc\fR.
-If \s-1GCC\s0 finds, at its configuration time, that you have a \s-1GNU\s0 linker that
-does not support option \fB\-\-eh\-frame\-hdr\fR, it will link the shared
-version of \fIlibgcc\fR into shared libraries by default. Otherwise,
-it will take advantage of the linker and optimize away the linking with
-the shared version of \fIlibgcc\fR, linking with the static version of
-libgcc by default. This allows exceptions to propagate through such
-shared libraries, without incurring relocation costs at library load
-time.
-.Sp
-However, if a library or main executable is supposed to throw or catch
-exceptions, you must link it using the G++ or \s-1GCJ\s0 driver, as appropriate
-for the languages used in the program, or using the option
-\&\fB\-shared\-libgcc\fR, such that it is linked with the shared
-\&\fIlibgcc\fR.
-.IP "\fB\-symbolic\fR" 4
-.IX Item "-symbolic"
-Bind references to global symbols when building a shared object. Warn
-about any unresolved references (unless overridden by the link editor
-option \fB\-Xlinker \-z \-Xlinker defs\fR). Only a few systems support
-this option.
-.IP "\fB\-Xlinker\fR \fIoption\fR" 4
-.IX Item "-Xlinker option"
-Pass \fIoption\fR as an option to the linker. You can use this to
-supply system-specific linker options which \s-1GCC\s0 does not know how to
-recognize.
-.Sp
-If you want to pass an option that takes an argument, you must use
-\&\fB\-Xlinker\fR twice, once for the option and once for the argument.
-For example, to pass \fB\-assert definitions\fR, you must write
-\&\fB\-Xlinker \-assert \-Xlinker definitions\fR. It does not work to write
-\&\fB\-Xlinker \*(L"\-assert definitions\*(R"\fR, because this passes the entire
-string as a single argument, which is not what the linker expects.
-.IP "\fB\-Wl,\fR\fIoption\fR" 4
-.IX Item "-Wl,option"
-Pass \fIoption\fR as an option to the linker. If \fIoption\fR contains
-commas, it is split into multiple options at the commas.
-.IP "\fB\-u\fR \fIsymbol\fR" 4
-.IX Item "-u symbol"
-Pretend the symbol \fIsymbol\fR is undefined, to force linking of
-library modules to define it. You can use \fB\-u\fR multiple times with
-different symbols to force loading of additional library modules.
-.Sh "Options for Directory Search"
-.IX Subsection "Options for Directory Search"
-These options specify directories to search for header files, for
-libraries and for parts of the compiler:
-.IP "\fB\-I\fR\fIdir\fR" 4
-.IX Item "-Idir"
-Add the directory \fIdir\fR to the head of the list of directories to be
-searched for header files. This can be used to override a system header
-file, substituting your own version, since these directories are
-searched before the system header file directories. However, you should
-not use this option to add directories that contain vendor-supplied
-system header files (use \fB\-isystem\fR for that). If you use more than
-one \fB\-I\fR option, the directories are scanned in left-to-right
-order; the standard system directories come after.
-.Sp
-If a standard system include directory, or a directory specified with
-\&\fB\-isystem\fR, is also specified with \fB\-I\fR, the \fB\-I\fR
-option will be ignored. The directory will still be searched but as a
-system directory at its normal position in the system include chain.
-This is to ensure that \s-1GCC\s0's procedure to fix buggy system headers and
-the ordering for the include_next directive are not inadvertently changed.
-If you really need to change the search order for system directories,
-use the \fB\-nostdinc\fR and/or \fB\-isystem\fR options.
-.IP "\fB\-I\-\fR" 4
-.IX Item "-I-"
-Any directories you specify with \fB\-I\fR options before the \fB\-I\-\fR
-option are searched only for the case of \fB#include "\fR\fIfile\fR\fB"\fR;
-they are not searched for \fB#include <\fR\fIfile\fR\fB>\fR.
-.Sp
-If additional directories are specified with \fB\-I\fR options after
-the \fB\-I\-\fR, these directories are searched for all \fB#include\fR
-directives. (Ordinarily \fIall\fR \fB\-I\fR directories are used
-this way.)
-.Sp
-In addition, the \fB\-I\-\fR option inhibits the use of the current
-directory (where the current input file came from) as the first search
-directory for \fB#include "\fR\fIfile\fR\fB"\fR. There is no way to
-override this effect of \fB\-I\-\fR. With \fB\-I.\fR you can specify
-searching the directory which was current when the compiler was
-invoked. That is not exactly the same as what the preprocessor does
-by default, but it is often satisfactory.
-.Sp
-\&\fB\-I\-\fR does not inhibit the use of the standard system directories
-for header files. Thus, \fB\-I\-\fR and \fB\-nostdinc\fR are
-independent.
-.IP "\fB\-L\fR\fIdir\fR" 4
-.IX Item "-Ldir"
-Add directory \fIdir\fR to the list of directories to be searched
-for \fB\-l\fR.
-.IP "\fB\-B\fR\fIprefix\fR" 4
-.IX Item "-Bprefix"
-This option specifies where to find the executables, libraries,
-include files, and data files of the compiler itself.
-.Sp
-The compiler driver program runs one or more of the subprograms
-\&\fIcpp\fR, \fIcc1\fR, \fIas\fR and \fIld\fR. It tries
-\&\fIprefix\fR as a prefix for each program it tries to run, both with and
-without \fImachine\fR\fB/\fR\fIversion\fR\fB/\fR.
-.Sp
-For each subprogram to be run, the compiler driver first tries the
-\&\fB\-B\fR prefix, if any. If that name is not found, or if \fB\-B\fR
-was not specified, the driver tries two standard prefixes, which are
-\&\fI/usr/lib/gcc/\fR and \fI/usr/local/lib/gcc\-lib/\fR. If neither of
-those results in a file name that is found, the unmodified program
-name is searched for using the directories specified in your
-\&\fB\s-1PATH\s0\fR environment variable.
-.Sp
-The compiler will check to see if the path provided by the \fB\-B\fR
-refers to a directory, and if necessary it will add a directory
-separator character at the end of the path.
-.Sp
-\&\fB\-B\fR prefixes that effectively specify directory names also apply
-to libraries in the linker, because the compiler translates these
-options into \fB\-L\fR options for the linker. They also apply to
-includes files in the preprocessor, because the compiler translates these
-options into \fB\-isystem\fR options for the preprocessor. In this case,
-the compiler appends \fBinclude\fR to the prefix.
-.Sp
-The run-time support file \fIlibgcc.a\fR can also be searched for using
-the \fB\-B\fR prefix, if needed. If it is not found there, the two
-standard prefixes above are tried, and that is all. The file is left
-out of the link if it is not found by those means.
-.Sp
-Another way to specify a prefix much like the \fB\-B\fR prefix is to use
-the environment variable \fB\s-1GCC_EXEC_PREFIX\s0\fR.
-.Sp
-As a special kludge, if the path provided by \fB\-B\fR is
-\&\fI[dir/]stage\fIN\fI/\fR, where \fIN\fR is a number in the range 0 to
-9, then it will be replaced by \fI[dir/]include\fR. This is to help
-with boot-strapping the compiler.
-.IP "\fB\-specs=\fR\fIfile\fR" 4
-.IX Item "-specs=file"
-Process \fIfile\fR after the compiler reads in the standard \fIspecs\fR
-file, in order to override the defaults that the \fIgcc\fR driver
-program uses when determining what switches to pass to \fIcc1\fR,
-\&\fIcc1plus\fR, \fIas\fR, \fIld\fR, etc. More than one
-\&\fB\-specs=\fR\fIfile\fR can be specified on the command line, and they
-are processed in order, from left to right.
-.Sh "Specifying Target Machine and Compiler Version"
-.IX Subsection "Specifying Target Machine and Compiler Version"
-The usual way to run \s-1GCC\s0 is to run the executable called \fIgcc\fR, or
-\&\fI<machine>\-gcc\fR when cross\-compiling, or
-\&\fI<machine>\-gcc\-<version>\fR to run a version other than the one that
-was installed last. Sometimes this is inconvenient, so \s-1GCC\s0 provides
-options that will switch to another cross-compiler or version.
-.IP "\fB\-b\fR \fImachine\fR" 4
-.IX Item "-b machine"
-The argument \fImachine\fR specifies the target machine for compilation.
-.Sp
-The value to use for \fImachine\fR is the same as was specified as the
-machine type when configuring \s-1GCC\s0 as a cross\-compiler. For
-example, if a cross-compiler was configured with \fBconfigure
-i386v\fR, meaning to compile for an 80386 running System V, then you
-would specify \fB\-b i386v\fR to run that cross compiler.
-.IP "\fB\-V\fR \fIversion\fR" 4
-.IX Item "-V version"
-The argument \fIversion\fR specifies which version of \s-1GCC\s0 to run.
-This is useful when multiple versions are installed. For example,
-\&\fIversion\fR might be \fB2.0\fR, meaning to run \s-1GCC\s0 version 2.0.
-.PP
-The \fB\-V\fR and \fB\-b\fR options work by running the
-\&\fI<machine>\-gcc\-<version>\fR executable, so there's no real reason to
-use them if you can just run that directly.
-.Sh "Hardware Models and Configurations"
-.IX Subsection "Hardware Models and Configurations"
-Earlier we discussed the standard option \fB\-b\fR which chooses among
-different installed compilers for completely different target
-machines, such as \s-1VAX\s0 vs. 68000 vs. 80386.
-.PP
-In addition, each of these target machine types can have its own
-special options, starting with \fB\-m\fR, to choose among various
-hardware models or configurations\-\-\-for example, 68010 vs 68020,
-floating coprocessor or none. A single installed version of the
-compiler can compile for any model or configuration, according to the
-options specified.
-.PP
-Some configurations of the compiler also support additional special
-options, usually for compatibility with other compilers on the same
-platform.
-.PP
-These options are defined by the macro \f(CW\*(C`TARGET_SWITCHES\*(C'\fR in the
-machine description. The default for the options is also defined by
-that macro, which enables you to change the defaults.
-.PP
-\fIM680x0 Options\fR
-.IX Subsection "M680x0 Options"
-.PP
-These are the \fB\-m\fR options defined for the 68000 series. The default
-values for these options depends on which style of 68000 was selected when
-the compiler was configured; the defaults for the most common choices are
-given below.
-.IP "\fB\-m68000\fR" 4
-.IX Item "-m68000"
-.PD 0
-.IP "\fB\-mc68000\fR" 4
-.IX Item "-mc68000"
-.PD
-Generate output for a 68000. This is the default
-when the compiler is configured for 68000\-based systems.
-.Sp
-Use this option for microcontrollers with a 68000 or \s-1EC000\s0 core,
-including the 68008, 68302, 68306, 68307, 68322, 68328 and 68356.
-.IP "\fB\-m68020\fR" 4
-.IX Item "-m68020"
-.PD 0
-.IP "\fB\-mc68020\fR" 4
-.IX Item "-mc68020"
-.PD
-Generate output for a 68020. This is the default
-when the compiler is configured for 68020\-based systems.
-.IP "\fB\-m68881\fR" 4
-.IX Item "-m68881"
-Generate output containing 68881 instructions for floating point.
-This is the default for most 68020 systems unless \fB\-\-nfp\fR was
-specified when the compiler was configured.
-.IP "\fB\-m68030\fR" 4
-.IX Item "-m68030"
-Generate output for a 68030. This is the default when the compiler is
-configured for 68030\-based systems.
-.IP "\fB\-m68040\fR" 4
-.IX Item "-m68040"
-Generate output for a 68040. This is the default when the compiler is
-configured for 68040\-based systems.
-.Sp
-This option inhibits the use of 68881/68882 instructions that have to be
-emulated by software on the 68040. Use this option if your 68040 does not
-have code to emulate those instructions.
-.IP "\fB\-m68060\fR" 4
-.IX Item "-m68060"
-Generate output for a 68060. This is the default when the compiler is
-configured for 68060\-based systems.
-.Sp
-This option inhibits the use of 68020 and 68881/68882 instructions that
-have to be emulated by software on the 68060. Use this option if your 68060
-does not have code to emulate those instructions.
-.IP "\fB\-mcpu32\fR" 4
-.IX Item "-mcpu32"
-Generate output for a \s-1CPU32\s0. This is the default
-when the compiler is configured for CPU32\-based systems.
-.Sp
-Use this option for microcontrollers with a
-\&\s-1CPU32\s0 or \s-1CPU32+\s0 core, including the 68330, 68331, 68332, 68333, 68334,
-68336, 68340, 68341, 68349 and 68360.
-.IP "\fB\-m5200\fR" 4
-.IX Item "-m5200"
-Generate output for a 520X ``coldfire'' family cpu. This is the default
-when the compiler is configured for 520X\-based systems.
-.Sp
-Use this option for microcontroller with a 5200 core, including
-the \s-1MCF5202\s0, \s-1MCF5203\s0, \s-1MCF5204\s0 and \s-1MCF5202\s0.
-.IP "\fB\-m68020\-40\fR" 4
-.IX Item "-m68020-40"
-Generate output for a 68040, without using any of the new instructions.
-This results in code which can run relatively efficiently on either a
-68020/68881 or a 68030 or a 68040. The generated code does use the
-68881 instructions that are emulated on the 68040.
-.IP "\fB\-m68020\-60\fR" 4
-.IX Item "-m68020-60"
-Generate output for a 68060, without using any of the new instructions.
-This results in code which can run relatively efficiently on either a
-68020/68881 or a 68030 or a 68040. The generated code does use the
-68881 instructions that are emulated on the 68060.
-.IP "\fB\-mfpa\fR" 4
-.IX Item "-mfpa"
-Generate output containing Sun \s-1FPA\s0 instructions for floating point.
-.IP "\fB\-msoft\-float\fR" 4
-.IX Item "-msoft-float"
-Generate output containing library calls for floating point.
-\&\fBWarning:\fR the requisite libraries are not available for all m68k
-targets. Normally the facilities of the machine's usual C compiler are
-used, but this can't be done directly in cross\-compilation. You must
-make your own arrangements to provide suitable library functions for
-cross\-compilation. The embedded targets \fBm68k\-*\-aout\fR and
-\&\fBm68k\-*\-coff\fR do provide software floating point support.
-.IP "\fB\-mshort\fR" 4
-.IX Item "-mshort"
-Consider type \f(CW\*(C`int\*(C'\fR to be 16 bits wide, like \f(CW\*(C`short int\*(C'\fR.
-.IP "\fB\-mnobitfield\fR" 4
-.IX Item "-mnobitfield"
-Do not use the bit-field instructions. The \fB\-m68000\fR, \fB\-mcpu32\fR
-and \fB\-m5200\fR options imply \fB\-mnobitfield\fR.
-.IP "\fB\-mbitfield\fR" 4
-.IX Item "-mbitfield"
-Do use the bit-field instructions. The \fB\-m68020\fR option implies
-\&\fB\-mbitfield\fR. This is the default if you use a configuration
-designed for a 68020.
-.IP "\fB\-mrtd\fR" 4
-.IX Item "-mrtd"
-Use a different function-calling convention, in which functions
-that take a fixed number of arguments return with the \f(CW\*(C`rtd\*(C'\fR
-instruction, which pops their arguments while returning. This
-saves one instruction in the caller since there is no need to pop
-the arguments there.
-.Sp
-This calling convention is incompatible with the one normally
-used on Unix, so you cannot use it if you need to call libraries
-compiled with the Unix compiler.
-.Sp
-Also, you must provide function prototypes for all functions that
-take variable numbers of arguments (including \f(CW\*(C`printf\*(C'\fR);
-otherwise incorrect code will be generated for calls to those
-functions.
-.Sp
-In addition, seriously incorrect code will result if you call a
-function with too many arguments. (Normally, extra arguments are
-harmlessly ignored.)
-.Sp
-The \f(CW\*(C`rtd\*(C'\fR instruction is supported by the 68010, 68020, 68030,
-68040, 68060 and \s-1CPU32\s0 processors, but not by the 68000 or 5200.
-.IP "\fB\-malign\-int\fR" 4
-.IX Item "-malign-int"
-.PD 0
-.IP "\fB\-mno\-align\-int\fR" 4
-.IX Item "-mno-align-int"
-.PD
-Control whether \s-1GCC\s0 aligns \f(CW\*(C`int\*(C'\fR, \f(CW\*(C`long\*(C'\fR, \f(CW\*(C`long long\*(C'\fR,
-\&\f(CW\*(C`float\*(C'\fR, \f(CW\*(C`double\*(C'\fR, and \f(CW\*(C`long double\*(C'\fR variables on a 32\-bit
-boundary (\fB\-malign\-int\fR) or a 16\-bit boundary (\fB\-mno\-align\-int\fR).
-Aligning variables on 32\-bit boundaries produces code that runs somewhat
-faster on processors with 32\-bit busses at the expense of more memory.
-.Sp
-\&\fBWarning:\fR if you use the \fB\-malign\-int\fR switch, \s-1GCC\s0 will
-align structures containing the above types differently than
-most published application binary interface specifications for the m68k.
-.IP "\fB\-mpcrel\fR" 4
-.IX Item "-mpcrel"
-Use the pc-relative addressing mode of the 68000 directly, instead of
-using a global offset table. At present, this option implies \fB\-fpic\fR,
-allowing at most a 16\-bit offset for pc-relative addressing. \fB\-fPIC\fR is
-not presently supported with \fB\-mpcrel\fR, though this could be supported for
-68020 and higher processors.
-.IP "\fB\-mno\-strict\-align\fR" 4
-.IX Item "-mno-strict-align"
-.PD 0
-.IP "\fB\-mstrict\-align\fR" 4
-.IX Item "-mstrict-align"
-.PD
-Do not (do) assume that unaligned memory references will be handled by
-the system.
-.PP
-\fIM68hc1x Options\fR
-.IX Subsection "M68hc1x Options"
-.PP
-These are the \fB\-m\fR options defined for the 68hc11 and 68hc12
-microcontrollers. The default values for these options depends on
-which style of microcontroller was selected when the compiler was configured;
-the defaults for the most common choices are given below.
-.IP "\fB\-m6811\fR" 4
-.IX Item "-m6811"
-.PD 0
-.IP "\fB\-m68hc11\fR" 4
-.IX Item "-m68hc11"
-.PD
-Generate output for a 68HC11. This is the default
-when the compiler is configured for 68HC11\-based systems.
-.IP "\fB\-m6812\fR" 4
-.IX Item "-m6812"
-.PD 0
-.IP "\fB\-m68hc12\fR" 4
-.IX Item "-m68hc12"
-.PD
-Generate output for a 68HC12. This is the default
-when the compiler is configured for 68HC12\-based systems.
-.IP "\fB\-m68S12\fR" 4
-.IX Item "-m68S12"
-.PD 0
-.IP "\fB\-m68hcs12\fR" 4
-.IX Item "-m68hcs12"
-.PD
-Generate output for a 68HCS12.
-.IP "\fB\-mauto\-incdec\fR" 4
-.IX Item "-mauto-incdec"
-Enable the use of 68HC12 pre and post auto-increment and auto-decrement
-addressing modes.
-.IP "\fB\-minmax\fR" 4
-.IX Item "-minmax"
-.PD 0
-.IP "\fB\-nominmax\fR" 4
-.IX Item "-nominmax"
-.PD
-Enable the use of 68HC12 min and max instructions.
-.IP "\fB\-mlong\-calls\fR" 4
-.IX Item "-mlong-calls"
-.PD 0
-.IP "\fB\-mno\-long\-calls\fR" 4
-.IX Item "-mno-long-calls"
-.PD
-Treat all calls as being far away (near). If calls are assumed to be
-far away, the compiler will use the \f(CW\*(C`call\*(C'\fR instruction to
-call a function and the \f(CW\*(C`rtc\*(C'\fR instruction for returning.
-.IP "\fB\-mshort\fR" 4
-.IX Item "-mshort"
-Consider type \f(CW\*(C`int\*(C'\fR to be 16 bits wide, like \f(CW\*(C`short int\*(C'\fR.
-.IP "\fB\-msoft\-reg\-count=\fR\fIcount\fR" 4
-.IX Item "-msoft-reg-count=count"
-Specify the number of pseudo-soft registers which are used for the
-code generation. The maximum number is 32. Using more pseudo-soft
-register may or may not result in better code depending on the program.
-The default is 4 for 68HC11 and 2 for 68HC12.
-.PP
-\fI\s-1VAX\s0 Options\fR
-.IX Subsection "VAX Options"
-.PP
-These \fB\-m\fR options are defined for the \s-1VAX:\s0
-.IP "\fB\-munix\fR" 4
-.IX Item "-munix"
-Do not output certain jump instructions (\f(CW\*(C`aobleq\*(C'\fR and so on)
-that the Unix assembler for the \s-1VAX\s0 cannot handle across long
-ranges.
-.IP "\fB\-mgnu\fR" 4
-.IX Item "-mgnu"
-Do output those jump instructions, on the assumption that you
-will assemble with the \s-1GNU\s0 assembler.
-.IP "\fB\-mg\fR" 4
-.IX Item "-mg"
-Output code for g\-format floating point numbers instead of d\-format.
-.PP
-\fI\s-1SPARC\s0 Options\fR
-.IX Subsection "SPARC Options"
-.PP
-These \fB\-m\fR switches are supported on the \s-1SPARC:\s0
-.IP "\fB\-mno\-app\-regs\fR" 4
-.IX Item "-mno-app-regs"
-.PD 0
-.IP "\fB\-mapp\-regs\fR" 4
-.IX Item "-mapp-regs"
-.PD
-Specify \fB\-mapp\-regs\fR to generate output using the global registers
-2 through 4, which the \s-1SPARC\s0 \s-1SVR4\s0 \s-1ABI\s0 reserves for applications. This
-is the default, except on Solaris.
-.Sp
-To be fully \s-1SVR4\s0 \s-1ABI\s0 compliant at the cost of some performance loss,
-specify \fB\-mno\-app\-regs\fR. You should compile libraries and system
-software with this option.
-.IP "\fB\-mfpu\fR" 4
-.IX Item "-mfpu"
-.PD 0
-.IP "\fB\-mhard\-float\fR" 4
-.IX Item "-mhard-float"
-.PD
-Generate output containing floating point instructions. This is the
-default.
-.IP "\fB\-mno\-fpu\fR" 4
-.IX Item "-mno-fpu"
-.PD 0
-.IP "\fB\-msoft\-float\fR" 4
-.IX Item "-msoft-float"
-.PD
-Generate output containing library calls for floating point.
-\&\fBWarning:\fR the requisite libraries are not available for all \s-1SPARC\s0
-targets. Normally the facilities of the machine's usual C compiler are
-used, but this cannot be done directly in cross\-compilation. You must make
-your own arrangements to provide suitable library functions for
-cross\-compilation. The embedded targets \fBsparc\-*\-aout\fR and
-\&\fBsparclite\-*\-*\fR do provide software floating point support.
-.Sp
-\&\fB\-msoft\-float\fR changes the calling convention in the output file;
-therefore, it is only useful if you compile \fIall\fR of a program with
-this option. In particular, you need to compile \fIlibgcc.a\fR, the
-library that comes with \s-1GCC\s0, with \fB\-msoft\-float\fR in order for
-this to work.
-.IP "\fB\-mhard\-quad\-float\fR" 4
-.IX Item "-mhard-quad-float"
-Generate output containing quad-word (long double) floating point
-instructions.
-.IP "\fB\-msoft\-quad\-float\fR" 4
-.IX Item "-msoft-quad-float"
-Generate output containing library calls for quad-word (long double)
-floating point instructions. The functions called are those specified
-in the \s-1SPARC\s0 \s-1ABI\s0. This is the default.
-.Sp
-As of this writing, there are no sparc implementations that have hardware
-support for the quad-word floating point instructions. They all invoke
-a trap handler for one of these instructions, and then the trap handler
-emulates the effect of the instruction. Because of the trap handler overhead,
-this is much slower than calling the \s-1ABI\s0 library routines. Thus the
-\&\fB\-msoft\-quad\-float\fR option is the default.
-.IP "\fB\-mno\-flat\fR" 4
-.IX Item "-mno-flat"
-.PD 0
-.IP "\fB\-mflat\fR" 4
-.IX Item "-mflat"
-.PD
-With \fB\-mflat\fR, the compiler does not generate save/restore instructions
-and will use a ``flat'' or single register window calling convention.
-This model uses \f(CW%i7\fR as the frame pointer and is compatible with the normal
-register window model. Code from either may be intermixed.
-The local registers and the input registers (0\-\-5) are still treated as
-``call saved'' registers and will be saved on the stack as necessary.
-.Sp
-With \fB\-mno\-flat\fR (the default), the compiler emits save/restore
-instructions (except for leaf functions) and is the normal mode of operation.
-.IP "\fB\-mno\-unaligned\-doubles\fR" 4
-.IX Item "-mno-unaligned-doubles"
-.PD 0
-.IP "\fB\-munaligned\-doubles\fR" 4
-.IX Item "-munaligned-doubles"
-.PD
-Assume that doubles have 8 byte alignment. This is the default.
-.Sp
-With \fB\-munaligned\-doubles\fR, \s-1GCC\s0 assumes that doubles have 8 byte
-alignment only if they are contained in another type, or if they have an
-absolute address. Otherwise, it assumes they have 4 byte alignment.
-Specifying this option avoids some rare compatibility problems with code
-generated by other compilers. It is not the default because it results
-in a performance loss, especially for floating point code.
-.IP "\fB\-mno\-faster\-structs\fR" 4
-.IX Item "-mno-faster-structs"
-.PD 0
-.IP "\fB\-mfaster\-structs\fR" 4
-.IX Item "-mfaster-structs"
-.PD
-With \fB\-mfaster\-structs\fR, the compiler assumes that structures
-should have 8 byte alignment. This enables the use of pairs of
-\&\f(CW\*(C`ldd\*(C'\fR and \f(CW\*(C`std\*(C'\fR instructions for copies in structure
-assignment, in place of twice as many \f(CW\*(C`ld\*(C'\fR and \f(CW\*(C`st\*(C'\fR pairs.
-However, the use of this changed alignment directly violates the \s-1SPARC\s0
-\&\s-1ABI\s0. Thus, it's intended only for use on targets where the developer
-acknowledges that their resulting code will not be directly in line with
-the rules of the \s-1ABI\s0.
-.IP "\fB\-mimpure\-text\fR" 4
-.IX Item "-mimpure-text"
-\&\fB\-mimpure\-text\fR, used in addition to \fB\-shared\fR, tells
-the compiler to not pass \fB\-z text\fR to the linker when linking a
-shared object. Using this option, you can link position-dependent
-code into a shared object.
-.Sp
-\&\fB\-mimpure\-text\fR suppresses the ``relocations remain against
-allocatable but non-writable sections'' linker error message.
-However, the necessary relocations will trigger copy\-on\-write, and the
-shared object is not actually shared across processes. Instead of
-using \fB\-mimpure\-text\fR, you should compile all source code with
-\&\fB\-fpic\fR or \fB\-fPIC\fR.
-.Sp
-This option is only available on SunOS and Solaris.
-.IP "\fB\-mv8\fR" 4
-.IX Item "-mv8"
-.PD 0
-.IP "\fB\-msparclite\fR" 4
-.IX Item "-msparclite"
-.PD
-These two options select variations on the \s-1SPARC\s0 architecture.
-.Sp
-By default (unless specifically configured for the Fujitsu SPARClite),
-\&\s-1GCC\s0 generates code for the v7 variant of the \s-1SPARC\s0 architecture.
-.Sp
-\&\fB\-mv8\fR will give you \s-1SPARC\s0 v8 code. The only difference from v7
-code is that the compiler emits the integer multiply and integer
-divide instructions which exist in \s-1SPARC\s0 v8 but not in \s-1SPARC\s0 v7.
-.Sp
-\&\fB\-msparclite\fR will give you SPARClite code. This adds the integer
-multiply, integer divide step and scan (\f(CW\*(C`ffs\*(C'\fR) instructions which
-exist in SPARClite but not in \s-1SPARC\s0 v7.
-.Sp
-These options are deprecated and will be deleted in a future \s-1GCC\s0 release.
-They have been replaced with \fB\-mcpu=xxx\fR.
-.IP "\fB\-mcypress\fR" 4
-.IX Item "-mcypress"
-.PD 0
-.IP "\fB\-msupersparc\fR" 4
-.IX Item "-msupersparc"
-.PD
-These two options select the processor for which the code is optimized.
-.Sp
-With \fB\-mcypress\fR (the default), the compiler optimizes code for the
-Cypress \s-1CY7C602\s0 chip, as used in the SPARCStation/SPARCServer 3xx series.
-This is also appropriate for the older SPARCStation 1, 2, \s-1IPX\s0 etc.
-.Sp
-With \fB\-msupersparc\fR the compiler optimizes code for the SuperSPARC cpu, as
-used in the SPARCStation 10, 1000 and 2000 series. This flag also enables use
-of the full \s-1SPARC\s0 v8 instruction set.
-.Sp
-These options are deprecated and will be deleted in a future \s-1GCC\s0 release.
-They have been replaced with \fB\-mcpu=xxx\fR.
-.IP "\fB\-mcpu=\fR\fIcpu_type\fR" 4
-.IX Item "-mcpu=cpu_type"
-Set the instruction set, register set, and instruction scheduling parameters
-for machine type \fIcpu_type\fR. Supported values for \fIcpu_type\fR are
-\&\fBv7\fR, \fBcypress\fR, \fBv8\fR, \fBsupersparc\fR, \fBsparclite\fR,
-\&\fBhypersparc\fR, \fBsparclite86x\fR, \fBf930\fR, \fBf934\fR,
-\&\fBsparclet\fR, \fBtsc701\fR, \fBv9\fR, \fBultrasparc\fR, and
-\&\fBultrasparc3\fR.
-.Sp
-Default instruction scheduling parameters are used for values that select
-an architecture and not an implementation. These are \fBv7\fR, \fBv8\fR,
-\&\fBsparclite\fR, \fBsparclet\fR, \fBv9\fR.
-.Sp
-Here is a list of each supported architecture and their supported
-implementations.
-.Sp
-.Vb 5
-\& v7: cypress
-\& v8: supersparc, hypersparc
-\& sparclite: f930, f934, sparclite86x
-\& sparclet: tsc701
-\& v9: ultrasparc, ultrasparc3
-.Ve
-.IP "\fB\-mtune=\fR\fIcpu_type\fR" 4
-.IX Item "-mtune=cpu_type"
-Set the instruction scheduling parameters for machine type
-\&\fIcpu_type\fR, but do not set the instruction set or register set that the
-option \fB\-mcpu=\fR\fIcpu_type\fR would.
-.Sp
-The same values for \fB\-mcpu=\fR\fIcpu_type\fR can be used for
-\&\fB\-mtune=\fR\fIcpu_type\fR, but the only useful values are those
-that select a particular cpu implementation. Those are \fBcypress\fR,
-\&\fBsupersparc\fR, \fBhypersparc\fR, \fBf930\fR, \fBf934\fR,
-\&\fBsparclite86x\fR, \fBtsc701\fR, \fBultrasparc\fR, and
-\&\fBultrasparc3\fR.
-.PP
-These \fB\-m\fR switches are supported in addition to the above
-on the \s-1SPARCLET\s0 processor.
-.IP "\fB\-mlittle\-endian\fR" 4
-.IX Item "-mlittle-endian"
-Generate code for a processor running in little-endian mode.
-.IP "\fB\-mlive\-g0\fR" 4
-.IX Item "-mlive-g0"
-Treat register \f(CW%g0\fR as a normal register.
-\&\s-1GCC\s0 will continue to clobber it as necessary but will not assume
-it always reads as 0.
-.IP "\fB\-mbroken\-saverestore\fR" 4
-.IX Item "-mbroken-saverestore"
-Generate code that does not use non-trivial forms of the \f(CW\*(C`save\*(C'\fR and
-\&\f(CW\*(C`restore\*(C'\fR instructions. Early versions of the \s-1SPARCLET\s0 processor do
-not correctly handle \f(CW\*(C`save\*(C'\fR and \f(CW\*(C`restore\*(C'\fR instructions used with
-arguments. They correctly handle them used without arguments. A \f(CW\*(C`save\*(C'\fR
-instruction used without arguments increments the current window pointer
-but does not allocate a new stack frame. It is assumed that the window
-overflow trap handler will properly handle this case as will interrupt
-handlers.
-.PP
-These \fB\-m\fR switches are supported in addition to the above
-on \s-1SPARC\s0 V9 processors in 64\-bit environments.
-.IP "\fB\-mlittle\-endian\fR" 4
-.IX Item "-mlittle-endian"
-Generate code for a processor running in little-endian mode. It is only
-available for a few configurations and most notably not on Solaris.
-.IP "\fB\-m32\fR" 4
-.IX Item "-m32"
-.PD 0
-.IP "\fB\-m64\fR" 4
-.IX Item "-m64"
-.PD
-Generate code for a 32\-bit or 64\-bit environment.
-The 32\-bit environment sets int, long and pointer to 32 bits.
-The 64\-bit environment sets int to 32 bits and long and pointer
-to 64 bits.
-.IP "\fB\-mcmodel=medlow\fR" 4
-.IX Item "-mcmodel=medlow"
-Generate code for the Medium/Low code model: the program must be linked
-in the low 32 bits of the address space. Pointers are 64 bits.
-Programs can be statically or dynamically linked.
-.IP "\fB\-mcmodel=medmid\fR" 4
-.IX Item "-mcmodel=medmid"
-Generate code for the Medium/Middle code model: the program must be linked
-in the low 44 bits of the address space, the text segment must be less than
-2G bytes, and data segment must be within 2G of the text segment.
-Pointers are 64 bits.
-.IP "\fB\-mcmodel=medany\fR" 4
-.IX Item "-mcmodel=medany"
-Generate code for the Medium/Anywhere code model: the program may be linked
-anywhere in the address space, the text segment must be less than
-2G bytes, and data segment must be within 2G of the text segment.
-Pointers are 64 bits.
-.IP "\fB\-mcmodel=embmedany\fR" 4
-.IX Item "-mcmodel=embmedany"
-Generate code for the Medium/Anywhere code model for embedded systems:
-assume a 32\-bit text and a 32\-bit data segment, both starting anywhere
-(determined at link time). Register \f(CW%g4\fR points to the base of the
-data segment. Pointers are still 64 bits.
-Programs are statically linked, \s-1PIC\s0 is not supported.
-.IP "\fB\-mstack\-bias\fR" 4
-.IX Item "-mstack-bias"
-.PD 0
-.IP "\fB\-mno\-stack\-bias\fR" 4
-.IX Item "-mno-stack-bias"
-.PD
-With \fB\-mstack\-bias\fR, \s-1GCC\s0 assumes that the stack pointer, and
-frame pointer if present, are offset by \-2047 which must be added back
-when making stack frame references.
-Otherwise, assume no such offset is present.
-.PP
-These switches are supported in addition to the above on Solaris:
-.IP "\fB\-threads\fR" 4
-.IX Item "-threads"
-Add support for multithreading using the Solaris threads library. This
-option sets flags for both the preprocessor and linker. This option does
-not affect the thread safety of object code produced by the compiler or
-that of libraries supplied with it.
-.IP "\fB\-pthreads\fR" 4
-.IX Item "-pthreads"
-Add support for multithreading using the \s-1POSIX\s0 threads library. This
-option sets flags for both the preprocessor and linker. This option does
-not affect the thread safety of object code produced by the compiler or
-that of libraries supplied with it.
-.PP
-\fI\s-1ARM\s0 Options\fR
-.IX Subsection "ARM Options"
-.PP
-These \fB\-m\fR options are defined for Advanced \s-1RISC\s0 Machines (\s-1ARM\s0)
-architectures:
-.IP "\fB\-mapcs\-frame\fR" 4
-.IX Item "-mapcs-frame"
-Generate a stack frame that is compliant with the \s-1ARM\s0 Procedure Call
-Standard for all functions, even if this is not strictly necessary for
-correct execution of the code. Specifying \fB\-fomit\-frame\-pointer\fR
-with this option will cause the stack frames not to be generated for
-leaf functions. The default is \fB\-mno\-apcs\-frame\fR.
-.IP "\fB\-mapcs\fR" 4
-.IX Item "-mapcs"
-This is a synonym for \fB\-mapcs\-frame\fR.
-.IP "\fB\-mapcs\-26\fR" 4
-.IX Item "-mapcs-26"
-Generate code for a processor running with a 26\-bit program counter,
-and conforming to the function calling standards for the \s-1APCS\s0 26\-bit
-option. This option replaces the \fB\-m2\fR and \fB\-m3\fR options
-of previous releases of the compiler.
-.IP "\fB\-mapcs\-32\fR" 4
-.IX Item "-mapcs-32"
-Generate code for a processor running with a 32\-bit program counter,
-and conforming to the function calling standards for the \s-1APCS\s0 32\-bit
-option. This option replaces the \fB\-m6\fR option of previous releases
-of the compiler.
-.IP "\fB\-mthumb\-interwork\fR" 4
-.IX Item "-mthumb-interwork"
-Generate code which supports calling between the \s-1ARM\s0 and Thumb
-instruction sets. Without this option the two instruction sets cannot
-be reliably used inside one program. The default is
-\&\fB\-mno\-thumb\-interwork\fR, since slightly larger code is generated
-when \fB\-mthumb\-interwork\fR is specified.
-.IP "\fB\-mno\-sched\-prolog\fR" 4
-.IX Item "-mno-sched-prolog"
-Prevent the reordering of instructions in the function prolog, or the
-merging of those instruction with the instructions in the function's
-body. This means that all functions will start with a recognizable set
-of instructions (or in fact one of a choice from a small set of
-different function prologues), and this information can be used to
-locate the start if functions inside an executable piece of code. The
-default is \fB\-msched\-prolog\fR.
-.IP "\fB\-mhard\-float\fR" 4
-.IX Item "-mhard-float"
-Generate output containing floating point instructions. This is the
-default.
-.IP "\fB\-msoft\-float\fR" 4
-.IX Item "-msoft-float"
-Generate output containing library calls for floating point.
-\&\fBWarning:\fR the requisite libraries are not available for all \s-1ARM\s0
-targets. Normally the facilities of the machine's usual C compiler are
-used, but this cannot be done directly in cross\-compilation. You must make
-your own arrangements to provide suitable library functions for
-cross\-compilation.
-.Sp
-\&\fB\-msoft\-float\fR changes the calling convention in the output file;
-therefore, it is only useful if you compile \fIall\fR of a program with
-this option. In particular, you need to compile \fIlibgcc.a\fR, the
-library that comes with \s-1GCC\s0, with \fB\-msoft\-float\fR in order for
-this to work.
-.IP "\fB\-mlittle\-endian\fR" 4
-.IX Item "-mlittle-endian"
-Generate code for a processor running in little-endian mode. This is
-the default for all standard configurations.
-.IP "\fB\-mbig\-endian\fR" 4
-.IX Item "-mbig-endian"
-Generate code for a processor running in big-endian mode; the default is
-to compile code for a little-endian processor.
-.IP "\fB\-mwords\-little\-endian\fR" 4
-.IX Item "-mwords-little-endian"
-This option only applies when generating code for big-endian processors.
-Generate code for a little-endian word order but a big-endian byte
-order. That is, a byte order of the form \fB32107654\fR. Note: this
-option should only be used if you require compatibility with code for
-big-endian \s-1ARM\s0 processors generated by versions of the compiler prior to
-2.8.
-.IP "\fB\-malignment\-traps\fR" 4
-.IX Item "-malignment-traps"
-Generate code that will not trap if the \s-1MMU\s0 has alignment traps enabled.
-On \s-1ARM\s0 architectures prior to ARMv4, there were no instructions to
-access half-word objects stored in memory. However, when reading from
-memory a feature of the \s-1ARM\s0 architecture allows a word load to be used,
-even if the address is unaligned, and the processor core will rotate the
-data as it is being loaded. This option tells the compiler that such
-misaligned accesses will cause a \s-1MMU\s0 trap and that it should instead
-synthesize the access as a series of byte accesses. The compiler can
-still use word accesses to load half-word data if it knows that the
-address is aligned to a word boundary.
-.Sp
-This option is ignored when compiling for \s-1ARM\s0 architecture 4 or later,
-since these processors have instructions to directly access half-word
-objects in memory.
-.IP "\fB\-mno\-alignment\-traps\fR" 4
-.IX Item "-mno-alignment-traps"
-Generate code that assumes that the \s-1MMU\s0 will not trap unaligned
-accesses. This produces better code when the target instruction set
-does not have half-word memory operations (i.e. implementations prior to
-ARMv4).
-.Sp
-Note that you cannot use this option to access unaligned word objects,
-since the processor will only fetch one 32\-bit aligned object from
-memory.
-.Sp
-The default setting for most targets is \fB\-mno\-alignment\-traps\fR, since
-this produces better code when there are no half-word memory
-instructions available.
-.IP "\fB\-mshort\-load\-bytes\fR" 4
-.IX Item "-mshort-load-bytes"
-.PD 0
-.IP "\fB\-mno\-short\-load\-words\fR" 4
-.IX Item "-mno-short-load-words"
-.PD
-These are deprecated aliases for \fB\-malignment\-traps\fR.
-.IP "\fB\-mno\-short\-load\-bytes\fR" 4
-.IX Item "-mno-short-load-bytes"
-.PD 0
-.IP "\fB\-mshort\-load\-words\fR" 4
-.IX Item "-mshort-load-words"
-.PD
-This are deprecated aliases for \fB\-mno\-alignment\-traps\fR.
-.IP "\fB\-mcpu=\fR\fIname\fR" 4
-.IX Item "-mcpu=name"
-This specifies the name of the target \s-1ARM\s0 processor. \s-1GCC\s0 uses this name
-to determine what kind of instructions it can emit when generating
-assembly code. Permissible names are: \fBarm2\fR, \fBarm250\fR,
-\&\fBarm3\fR, \fBarm6\fR, \fBarm60\fR, \fBarm600\fR, \fBarm610\fR,
-\&\fBarm620\fR, \fBarm7\fR, \fBarm7m\fR, \fBarm7d\fR, \fBarm7dm\fR,
-\&\fBarm7di\fR, \fBarm7dmi\fR, \fBarm70\fR, \fBarm700\fR,
-\&\fBarm700i\fR, \fBarm710\fR, \fBarm710c\fR, \fBarm7100\fR,
-\&\fBarm7500\fR, \fBarm7500fe\fR, \fBarm7tdmi\fR, \fBarm8\fR,
-\&\fBstrongarm\fR, \fBstrongarm110\fR, \fBstrongarm1100\fR,
-\&\fBarm8\fR, \fBarm810\fR, \fBarm9\fR, \fBarm9e\fR, \fBarm920\fR,
-\&\fBarm920t\fR, \fBarm940t\fR, \fBarm9tdmi\fR, \fBarm10tdmi\fR,
-\&\fBarm1020t\fR, \fBxscale\fR.
-.IP "\fB\-mtune=\fR\fIname\fR" 4
-.IX Item "-mtune=name"
-This option is very similar to the \fB\-mcpu=\fR option, except that
-instead of specifying the actual target processor type, and hence
-restricting which instructions can be used, it specifies that \s-1GCC\s0 should
-tune the performance of the code as if the target were of the type
-specified in this option, but still choosing the instructions that it
-will generate based on the cpu specified by a \fB\-mcpu=\fR option.
-For some \s-1ARM\s0 implementations better performance can be obtained by using
-this option.
-.IP "\fB\-march=\fR\fIname\fR" 4
-.IX Item "-march=name"
-This specifies the name of the target \s-1ARM\s0 architecture. \s-1GCC\s0 uses this
-name to determine what kind of instructions it can emit when generating
-assembly code. This option can be used in conjunction with or instead
-of the \fB\-mcpu=\fR option. Permissible names are: \fBarmv2\fR,
-\&\fBarmv2a\fR, \fBarmv3\fR, \fBarmv3m\fR, \fBarmv4\fR, \fBarmv4t\fR,
-\&\fBarmv5\fR, \fBarmv5t\fR, \fBarmv5te\fR.
-.IP "\fB\-mfpe=\fR\fInumber\fR" 4
-.IX Item "-mfpe=number"
-.PD 0
-.IP "\fB\-mfp=\fR\fInumber\fR" 4
-.IX Item "-mfp=number"
-.PD
-This specifies the version of the floating point emulation available on
-the target. Permissible values are 2 and 3. \fB\-mfp=\fR is a synonym
-for \fB\-mfpe=\fR, for compatibility with older versions of \s-1GCC\s0.
-.IP "\fB\-mstructure\-size\-boundary=\fR\fIn\fR" 4
-.IX Item "-mstructure-size-boundary=n"
-The size of all structures and unions will be rounded up to a multiple
-of the number of bits set by this option. Permissible values are 8 and
-32. The default value varies for different toolchains. For the \s-1COFF\s0
-targeted toolchain the default value is 8. Specifying the larger number
-can produce faster, more efficient code, but can also increase the size
-of the program. The two values are potentially incompatible. Code
-compiled with one value cannot necessarily expect to work with code or
-libraries compiled with the other value, if they exchange information
-using structures or unions.
-.IP "\fB\-mabort\-on\-noreturn\fR" 4
-.IX Item "-mabort-on-noreturn"
-Generate a call to the function \f(CW\*(C`abort\*(C'\fR at the end of a
-\&\f(CW\*(C`noreturn\*(C'\fR function. It will be executed if the function tries to
-return.
-.IP "\fB\-mlong\-calls\fR" 4
-.IX Item "-mlong-calls"
-.PD 0
-.IP "\fB\-mno\-long\-calls\fR" 4
-.IX Item "-mno-long-calls"
-.PD
-Tells the compiler to perform function calls by first loading the
-address of the function into a register and then performing a subroutine
-call on this register. This switch is needed if the target function
-will lie outside of the 64 megabyte addressing range of the offset based
-version of subroutine call instruction.
-.Sp
-Even if this switch is enabled, not all function calls will be turned
-into long calls. The heuristic is that static functions, functions
-which have the \fBshort-call\fR attribute, functions that are inside
-the scope of a \fB#pragma no_long_calls\fR directive and functions whose
-definitions have already been compiled within the current compilation
-unit, will not be turned into long calls. The exception to this rule is
-that weak function definitions, functions with the \fBlong-call\fR
-attribute or the \fBsection\fR attribute, and functions that are within
-the scope of a \fB#pragma long_calls\fR directive, will always be
-turned into long calls.
-.Sp
-This feature is not enabled by default. Specifying
-\&\fB\-mno\-long\-calls\fR will restore the default behavior, as will
-placing the function calls within the scope of a \fB#pragma
-long_calls_off\fR directive. Note these switches have no effect on how
-the compiler generates code to handle function calls via function
-pointers.
-.IP "\fB\-mnop\-fun\-dllimport\fR" 4
-.IX Item "-mnop-fun-dllimport"
-Disable support for the \f(CW\*(C`dllimport\*(C'\fR attribute.
-.IP "\fB\-msingle\-pic\-base\fR" 4
-.IX Item "-msingle-pic-base"
-Treat the register used for \s-1PIC\s0 addressing as read\-only, rather than
-loading it in the prologue for each function. The run-time system is
-responsible for initializing this register with an appropriate value
-before execution begins.
-.IP "\fB\-mpic\-register=\fR\fIreg\fR" 4
-.IX Item "-mpic-register=reg"
-Specify the register to be used for \s-1PIC\s0 addressing. The default is R10
-unless stack-checking is enabled, when R9 is used.
-.IP "\fB\-mpoke\-function\-name\fR" 4
-.IX Item "-mpoke-function-name"
-Write the name of each function into the text section, directly
-preceding the function prologue. The generated code is similar to this:
-.Sp
-.Vb 9
-\& t0
-\& .ascii "arm_poke_function_name", 0
-\& .align
-\& t1
-\& .word 0xff000000 + (t1 - t0)
-\& arm_poke_function_name
-\& mov ip, sp
-\& stmfd sp!, {fp, ip, lr, pc}
-\& sub fp, ip, #4
-.Ve
-.Sp
-When performing a stack backtrace, code can inspect the value of
-\&\f(CW\*(C`pc\*(C'\fR stored at \f(CW\*(C`fp + 0\*(C'\fR. If the trace function then looks at
-location \f(CW\*(C`pc \- 12\*(C'\fR and the top 8 bits are set, then we know that
-there is a function name embedded immediately preceding this location
-and has length \f(CW\*(C`((pc[\-3]) & 0xff000000)\*(C'\fR.
-.IP "\fB\-mthumb\fR" 4
-.IX Item "-mthumb"
-Generate code for the 16\-bit Thumb instruction set. The default is to
-use the 32\-bit \s-1ARM\s0 instruction set.
-.IP "\fB\-mtpcs\-frame\fR" 4
-.IX Item "-mtpcs-frame"
-Generate a stack frame that is compliant with the Thumb Procedure Call
-Standard for all non-leaf functions. (A leaf function is one that does
-not call any other functions.) The default is \fB\-mno\-tpcs\-frame\fR.
-.IP "\fB\-mtpcs\-leaf\-frame\fR" 4
-.IX Item "-mtpcs-leaf-frame"
-Generate a stack frame that is compliant with the Thumb Procedure Call
-Standard for all leaf functions. (A leaf function is one that does
-not call any other functions.) The default is \fB\-mno\-apcs\-leaf\-frame\fR.
-.IP "\fB\-mcallee\-super\-interworking\fR" 4
-.IX Item "-mcallee-super-interworking"
-Gives all externally visible functions in the file being compiled an \s-1ARM\s0
-instruction set header which switches to Thumb mode before executing the
-rest of the function. This allows these functions to be called from
-non-interworking code.
-.IP "\fB\-mcaller\-super\-interworking\fR" 4
-.IX Item "-mcaller-super-interworking"
-Allows calls via function pointers (including virtual functions) to
-execute correctly regardless of whether the target code has been
-compiled for interworking or not. There is a small overhead in the cost
-of executing a function pointer if this option is enabled.
-.PP
-\fI\s-1MN10200\s0 Options\fR
-.IX Subsection "MN10200 Options"
-.PP
-These \fB\-m\fR options are defined for Matsushita \s-1MN10200\s0 architectures:
-.IP "\fB\-mrelax\fR" 4
-.IX Item "-mrelax"
-Indicate to the linker that it should perform a relaxation optimization pass
-to shorten branches, calls and absolute memory addresses. This option only
-has an effect when used on the command line for the final link step.
-.Sp
-This option makes symbolic debugging impossible.
-.PP
-\fI\s-1MN10300\s0 Options\fR
-.IX Subsection "MN10300 Options"
-.PP
-These \fB\-m\fR options are defined for Matsushita \s-1MN10300\s0 architectures:
-.IP "\fB\-mmult\-bug\fR" 4
-.IX Item "-mmult-bug"
-Generate code to avoid bugs in the multiply instructions for the \s-1MN10300\s0
-processors. This is the default.
-.IP "\fB\-mno\-mult\-bug\fR" 4
-.IX Item "-mno-mult-bug"
-Do not generate code to avoid bugs in the multiply instructions for the
-\&\s-1MN10300\s0 processors.
-.IP "\fB\-mam33\fR" 4
-.IX Item "-mam33"
-Generate code which uses features specific to the \s-1AM33\s0 processor.
-.IP "\fB\-mno\-am33\fR" 4
-.IX Item "-mno-am33"
-Do not generate code which uses features specific to the \s-1AM33\s0 processor. This
-is the default.
-.IP "\fB\-mno\-crt0\fR" 4
-.IX Item "-mno-crt0"
-Do not link in the C run-time initialization object file.
-.IP "\fB\-mrelax\fR" 4
-.IX Item "-mrelax"
-Indicate to the linker that it should perform a relaxation optimization pass
-to shorten branches, calls and absolute memory addresses. This option only
-has an effect when used on the command line for the final link step.
-.Sp
-This option makes symbolic debugging impossible.
-.PP
-\fIM32R/D Options\fR
-.IX Subsection "M32R/D Options"
-.PP
-These \fB\-m\fR options are defined for Mitsubishi M32R/D architectures:
-.IP "\fB\-m32rx\fR" 4
-.IX Item "-m32rx"
-Generate code for the M32R/X.
-.IP "\fB\-m32r\fR" 4
-.IX Item "-m32r"
-Generate code for the M32R. This is the default.
-.IP "\fB\-mcode\-model=small\fR" 4
-.IX Item "-mcode-model=small"
-Assume all objects live in the lower 16MB of memory (so that their addresses
-can be loaded with the \f(CW\*(C`ld24\*(C'\fR instruction), and assume all subroutines
-are reachable with the \f(CW\*(C`bl\*(C'\fR instruction.
-This is the default.
-.Sp
-The addressability of a particular object can be set with the
-\&\f(CW\*(C`model\*(C'\fR attribute.
-.IP "\fB\-mcode\-model=medium\fR" 4
-.IX Item "-mcode-model=medium"
-Assume objects may be anywhere in the 32\-bit address space (the compiler
-will generate \f(CW\*(C`seth/add3\*(C'\fR instructions to load their addresses), and
-assume all subroutines are reachable with the \f(CW\*(C`bl\*(C'\fR instruction.
-.IP "\fB\-mcode\-model=large\fR" 4
-.IX Item "-mcode-model=large"
-Assume objects may be anywhere in the 32\-bit address space (the compiler
-will generate \f(CW\*(C`seth/add3\*(C'\fR instructions to load their addresses), and
-assume subroutines may not be reachable with the \f(CW\*(C`bl\*(C'\fR instruction
-(the compiler will generate the much slower \f(CW\*(C`seth/add3/jl\*(C'\fR
-instruction sequence).
-.IP "\fB\-msdata=none\fR" 4
-.IX Item "-msdata=none"
-Disable use of the small data area. Variables will be put into
-one of \fB.data\fR, \fBbss\fR, or \fB.rodata\fR (unless the
-\&\f(CW\*(C`section\*(C'\fR attribute has been specified).
-This is the default.
-.Sp
-The small data area consists of sections \fB.sdata\fR and \fB.sbss\fR.
-Objects may be explicitly put in the small data area with the
-\&\f(CW\*(C`section\*(C'\fR attribute using one of these sections.
-.IP "\fB\-msdata=sdata\fR" 4
-.IX Item "-msdata=sdata"
-Put small global and static data in the small data area, but do not
-generate special code to reference them.
-.IP "\fB\-msdata=use\fR" 4
-.IX Item "-msdata=use"
-Put small global and static data in the small data area, and generate
-special instructions to reference them.
-.IP "\fB\-G\fR \fInum\fR" 4
-.IX Item "-G num"
-Put global and static objects less than or equal to \fInum\fR bytes
-into the small data or bss sections instead of the normal data or bss
-sections. The default value of \fInum\fR is 8.
-The \fB\-msdata\fR option must be set to one of \fBsdata\fR or \fBuse\fR
-for this option to have any effect.
-.Sp
-All modules should be compiled with the same \fB\-G\fR \fInum\fR value.
-Compiling with different values of \fInum\fR may or may not work; if it
-doesn't the linker will give an error message\-\-\-incorrect code will not be
-generated.
-.PP
-\fIM88K Options\fR
-.IX Subsection "M88K Options"
-.PP
-These \fB\-m\fR options are defined for Motorola 88k architectures:
-.IP "\fB\-m88000\fR" 4
-.IX Item "-m88000"
-Generate code that works well on both the m88100 and the
-m88110.
-.IP "\fB\-m88100\fR" 4
-.IX Item "-m88100"
-Generate code that works best for the m88100, but that also
-runs on the m88110.
-.IP "\fB\-m88110\fR" 4
-.IX Item "-m88110"
-Generate code that works best for the m88110, and may not run
-on the m88100.
-.IP "\fB\-mbig\-pic\fR" 4
-.IX Item "-mbig-pic"
-Obsolete option to be removed from the next revision.
-Use \fB\-fPIC\fR.
-.IP "\fB\-midentify\-revision\fR" 4
-.IX Item "-midentify-revision"
-Include an \f(CW\*(C`ident\*(C'\fR directive in the assembler output recording the
-source file name, compiler name and version, timestamp, and compilation
-flags used.
-.IP "\fB\-mno\-underscores\fR" 4
-.IX Item "-mno-underscores"
-In assembler output, emit symbol names without adding an underscore
-character at the beginning of each name. The default is to use an
-underscore as prefix on each name.
-.IP "\fB\-mocs\-debug\-info\fR" 4
-.IX Item "-mocs-debug-info"
-.PD 0
-.IP "\fB\-mno\-ocs\-debug\-info\fR" 4
-.IX Item "-mno-ocs-debug-info"
-.PD
-Include (or omit) additional debugging information (about registers used
-in each stack frame) as specified in the 88open Object Compatibility
-Standard, ``\s-1OCS\s0''. This extra information allows debugging of code that
-has had the frame pointer eliminated. The default for SVr4 and Delta 88
-SVr3.2 is to include this information; other 88k configurations omit this
-information by default.
-.IP "\fB\-mocs\-frame\-position\fR" 4
-.IX Item "-mocs-frame-position"
-When emitting \s-1COFF\s0 debugging information for automatic variables and
-parameters stored on the stack, use the offset from the canonical frame
-address, which is the stack pointer (register 31) on entry to the
-function. The SVr4 and Delta88 SVr3.2, and \s-1BCS\s0 configurations use
-\&\fB\-mocs\-frame\-position\fR; other 88k configurations have the default
-\&\fB\-mno\-ocs\-frame\-position\fR.
-.IP "\fB\-mno\-ocs\-frame\-position\fR" 4
-.IX Item "-mno-ocs-frame-position"
-When emitting \s-1COFF\s0 debugging information for automatic variables and
-parameters stored on the stack, use the offset from the frame pointer
-register (register 30). When this option is in effect, the frame
-pointer is not eliminated when debugging information is selected by the
-\&\-g switch.
-.IP "\fB\-moptimize\-arg\-area\fR" 4
-.IX Item "-moptimize-arg-area"
-Save space by reorganizing the stack frame. This option generates code
-that does not agree with the 88open specifications, but uses less
-memory.
-.IP "\fB\-mno\-optimize\-arg\-area\fR" 4
-.IX Item "-mno-optimize-arg-area"
-Do not reorganize the stack frame to save space. This is the default.
-The generated conforms to the specification, but uses more memory.
-.IP "\fB\-mshort\-data\-\fR\fInum\fR" 4
-.IX Item "-mshort-data-num"
-Generate smaller data references by making them relative to \f(CW\*(C`r0\*(C'\fR,
-which allows loading a value using a single instruction (rather than the
-usual two). You control which data references are affected by
-specifying \fInum\fR with this option. For example, if you specify
-\&\fB\-mshort\-data\-512\fR, then the data references affected are those
-involving displacements of less than 512 bytes.
-\&\fB\-mshort\-data\-\fR\fInum\fR is not effective for \fInum\fR greater
-than 64k.
-.IP "\fB\-mserialize\-volatile\fR" 4
-.IX Item "-mserialize-volatile"
-.PD 0
-.IP "\fB\-mno\-serialize\-volatile\fR" 4
-.IX Item "-mno-serialize-volatile"
-.PD
-Do, or don't, generate code to guarantee sequential consistency
-of volatile memory references. By default, consistency is
-guaranteed.
-.Sp
-The order of memory references made by the \s-1MC88110\s0 processor does
-not always match the order of the instructions requesting those
-references. In particular, a load instruction may execute before
-a preceding store instruction. Such reordering violates
-sequential consistency of volatile memory references, when there
-are multiple processors. When consistency must be guaranteed,
-\&\s-1GCC\s0 generates special instructions, as needed, to force
-execution in the proper order.
-.Sp
-The \s-1MC88100\s0 processor does not reorder memory references and so
-always provides sequential consistency. However, by default, \s-1GCC\s0
-generates the special instructions to guarantee consistency
-even when you use \fB\-m88100\fR, so that the code may be run on an
-\&\s-1MC88110\s0 processor. If you intend to run your code only on the
-\&\s-1MC88100\s0 processor, you may use \fB\-mno\-serialize\-volatile\fR.
-.Sp
-The extra code generated to guarantee consistency may affect the
-performance of your application. If you know that you can safely
-forgo this guarantee, you may use \fB\-mno\-serialize\-volatile\fR.
-.IP "\fB\-msvr4\fR" 4
-.IX Item "-msvr4"
-.PD 0
-.IP "\fB\-msvr3\fR" 4
-.IX Item "-msvr3"
-.PD
-Turn on (\fB\-msvr4\fR) or off (\fB\-msvr3\fR) compiler extensions
-related to System V release 4 (SVr4). This controls the following:
-.RS 4
-.IP "1." 4
-Which variant of the assembler syntax to emit.
-.IP "2." 4
-\&\fB\-msvr4\fR makes the C preprocessor recognize \fB#pragma weak\fR
-that is used on System V release 4.
-.IP "3." 4
-\&\fB\-msvr4\fR makes \s-1GCC\s0 issue additional declaration directives used in
-SVr4.
-.RE
-.RS 4
-.Sp
-\&\fB\-msvr4\fR is the default for the m88k\-motorola\-sysv4 configuration.
-\&\fB\-msvr3\fR is the default for all other m88k configurations.
-.RE
-.IP "\fB\-mversion\-03.00\fR" 4
-.IX Item "-mversion-03.00"
-This option is obsolete, and is ignored.
-.IP "\fB\-mno\-check\-zero\-division\fR" 4
-.IX Item "-mno-check-zero-division"
-.PD 0
-.IP "\fB\-mcheck\-zero\-division\fR" 4
-.IX Item "-mcheck-zero-division"
-.PD
-Do, or don't, generate code to guarantee that integer division by
-zero will be detected. By default, detection is guaranteed.
-.Sp
-Some models of the \s-1MC88100\s0 processor fail to trap upon integer
-division by zero under certain conditions. By default, when
-compiling code that might be run on such a processor, \s-1GCC\s0
-generates code that explicitly checks for zero-valued divisors
-and traps with exception number 503 when one is detected. Use of
-\&\fB\-mno\-check\-zero\-division\fR suppresses such checking for code
-generated to run on an \s-1MC88100\s0 processor.
-.Sp
-\&\s-1GCC\s0 assumes that the \s-1MC88110\s0 processor correctly detects all instances
-of integer division by zero. When \fB\-m88110\fR is specified, no
-explicit checks for zero-valued divisors are generated, and both
-\&\fB\-mcheck\-zero\-division\fR and \fB\-mno\-check\-zero\-division\fR are
-ignored.
-.IP "\fB\-muse\-div\-instruction\fR" 4
-.IX Item "-muse-div-instruction"
-Use the div instruction for signed integer division on the
-\&\s-1MC88100\s0 processor. By default, the div instruction is not used.
-.Sp
-On the \s-1MC88100\s0 processor the signed integer division instruction
-div) traps to the operating system on a negative operand. The
-operating system transparently completes the operation, but at a
-large cost in execution time. By default, when compiling code
-that might be run on an \s-1MC88100\s0 processor, \s-1GCC\s0 emulates signed
-integer division using the unsigned integer division instruction
-divu), thereby avoiding the large penalty of a trap to the
-operating system. Such emulation has its own, smaller, execution
-cost in both time and space. To the extent that your code's
-important signed integer division operations are performed on two
-nonnegative operands, it may be desirable to use the div
-instruction directly.
-.Sp
-On the \s-1MC88110\s0 processor the div instruction (also known as the
-divs instruction) processes negative operands without trapping to
-the operating system. When \fB\-m88110\fR is specified,
-\&\fB\-muse\-div\-instruction\fR is ignored, and the div instruction is used
-for signed integer division.
-.Sp
-Note that the result of dividing \f(CW\*(C`INT_MIN\*(C'\fR by \-1 is undefined. In
-particular, the behavior of such a division with and without
-\&\fB\-muse\-div\-instruction\fR may differ.
-.IP "\fB\-mtrap\-large\-shift\fR" 4
-.IX Item "-mtrap-large-shift"
-.PD 0
-.IP "\fB\-mhandle\-large\-shift\fR" 4
-.IX Item "-mhandle-large-shift"
-.PD
-Include code to detect bit-shifts of more than 31 bits; respectively,
-trap such shifts or emit code to handle them properly. By default \s-1GCC\s0
-makes no special provision for large bit shifts.
-.IP "\fB\-mwarn\-passed\-structs\fR" 4
-.IX Item "-mwarn-passed-structs"
-Warn when a function passes a struct as an argument or result.
-Structure-passing conventions have changed during the evolution of the C
-language, and are often the source of portability problems. By default,
-\&\s-1GCC\s0 issues no such warning.
-.PP
-\fI\s-1IBM\s0 \s-1RS/6000\s0 and PowerPC Options\fR
-.IX Subsection "IBM RS/6000 and PowerPC Options"
-.PP
-These \fB\-m\fR options are defined for the \s-1IBM\s0 \s-1RS/6000\s0 and PowerPC:
-.IP "\fB\-mpower\fR" 4
-.IX Item "-mpower"
-.PD 0
-.IP "\fB\-mno\-power\fR" 4
-.IX Item "-mno-power"
-.IP "\fB\-mpower2\fR" 4
-.IX Item "-mpower2"
-.IP "\fB\-mno\-power2\fR" 4
-.IX Item "-mno-power2"
-.IP "\fB\-mpowerpc\fR" 4
-.IX Item "-mpowerpc"
-.IP "\fB\-mno\-powerpc\fR" 4
-.IX Item "-mno-powerpc"
-.IP "\fB\-mpowerpc\-gpopt\fR" 4
-.IX Item "-mpowerpc-gpopt"
-.IP "\fB\-mno\-powerpc\-gpopt\fR" 4
-.IX Item "-mno-powerpc-gpopt"
-.IP "\fB\-mpowerpc\-gfxopt\fR" 4
-.IX Item "-mpowerpc-gfxopt"
-.IP "\fB\-mno\-powerpc\-gfxopt\fR" 4
-.IX Item "-mno-powerpc-gfxopt"
-.IP "\fB\-mpowerpc64\fR" 4
-.IX Item "-mpowerpc64"
-.IP "\fB\-mno\-powerpc64\fR" 4
-.IX Item "-mno-powerpc64"
-.PD
-\&\s-1GCC\s0 supports two related instruction set architectures for the
-\&\s-1RS/6000\s0 and PowerPC. The \fI\s-1POWER\s0\fR instruction set are those
-instructions supported by the \fBrios\fR chip set used in the original
-\&\s-1RS/6000\s0 systems and the \fIPowerPC\fR instruction set is the
-architecture of the Motorola MPC5xx, MPC6xx, MPC8xx microprocessors, and
-the \s-1IBM\s0 4xx microprocessors.
-.Sp
-Neither architecture is a subset of the other. However there is a
-large common subset of instructions supported by both. An \s-1MQ\s0
-register is included in processors supporting the \s-1POWER\s0 architecture.
-.Sp
-You use these options to specify which instructions are available on the
-processor you are using. The default value of these options is
-determined when configuring \s-1GCC\s0. Specifying the
-\&\fB\-mcpu=\fR\fIcpu_type\fR overrides the specification of these
-options. We recommend you use the \fB\-mcpu=\fR\fIcpu_type\fR option
-rather than the options listed above.
-.Sp
-The \fB\-mpower\fR option allows \s-1GCC\s0 to generate instructions that
-are found only in the \s-1POWER\s0 architecture and to use the \s-1MQ\s0 register.
-Specifying \fB\-mpower2\fR implies \fB\-power\fR and also allows \s-1GCC\s0
-to generate instructions that are present in the \s-1POWER2\s0 architecture but
-not the original \s-1POWER\s0 architecture.
-.Sp
-The \fB\-mpowerpc\fR option allows \s-1GCC\s0 to generate instructions that
-are found only in the 32\-bit subset of the PowerPC architecture.
-Specifying \fB\-mpowerpc\-gpopt\fR implies \fB\-mpowerpc\fR and also allows
-\&\s-1GCC\s0 to use the optional PowerPC architecture instructions in the
-General Purpose group, including floating-point square root. Specifying
-\&\fB\-mpowerpc\-gfxopt\fR implies \fB\-mpowerpc\fR and also allows \s-1GCC\s0 to
-use the optional PowerPC architecture instructions in the Graphics
-group, including floating-point select.
-.Sp
-The \fB\-mpowerpc64\fR option allows \s-1GCC\s0 to generate the additional
-64\-bit instructions that are found in the full PowerPC64 architecture
-and to treat GPRs as 64\-bit, doubleword quantities. \s-1GCC\s0 defaults to
-\&\fB\-mno\-powerpc64\fR.
-.Sp
-If you specify both \fB\-mno\-power\fR and \fB\-mno\-powerpc\fR, \s-1GCC\s0
-will use only the instructions in the common subset of both
-architectures plus some special \s-1AIX\s0 common-mode calls, and will not use
-the \s-1MQ\s0 register. Specifying both \fB\-mpower\fR and \fB\-mpowerpc\fR
-permits \s-1GCC\s0 to use any instruction from either architecture and to
-allow use of the \s-1MQ\s0 register; specify this for the Motorola \s-1MPC601\s0.
-.IP "\fB\-mnew\-mnemonics\fR" 4
-.IX Item "-mnew-mnemonics"
-.PD 0
-.IP "\fB\-mold\-mnemonics\fR" 4
-.IX Item "-mold-mnemonics"
-.PD
-Select which mnemonics to use in the generated assembler code. With
-\&\fB\-mnew\-mnemonics\fR, \s-1GCC\s0 uses the assembler mnemonics defined for
-the PowerPC architecture. With \fB\-mold\-mnemonics\fR it uses the
-assembler mnemonics defined for the \s-1POWER\s0 architecture. Instructions
-defined in only one architecture have only one mnemonic; \s-1GCC\s0 uses that
-mnemonic irrespective of which of these options is specified.
-.Sp
-\&\s-1GCC\s0 defaults to the mnemonics appropriate for the architecture in
-use. Specifying \fB\-mcpu=\fR\fIcpu_type\fR sometimes overrides the
-value of these option. Unless you are building a cross\-compiler, you
-should normally not specify either \fB\-mnew\-mnemonics\fR or
-\&\fB\-mold\-mnemonics\fR, but should instead accept the default.
-.IP "\fB\-mcpu=\fR\fIcpu_type\fR" 4
-.IX Item "-mcpu=cpu_type"
-Set architecture type, register usage, choice of mnemonics, and
-instruction scheduling parameters for machine type \fIcpu_type\fR.
-Supported values for \fIcpu_type\fR are \fBrios\fR, \fBrios1\fR,
-\&\fBrsc\fR, \fBrios2\fR, \fBrs64a\fR, \fB601\fR, \fB602\fR,
-\&\fB603\fR, \fB603e\fR, \fB604\fR, \fB604e\fR, \fB620\fR,
-\&\fB630\fR, \fB740\fR, \fB7400\fR, \fB7450\fR, \fB750\fR,
-\&\fBpower\fR, \fBpower2\fR, \fBpowerpc\fR, \fB403\fR, \fB505\fR,
-\&\fB801\fR, \fB821\fR, \fB823\fR, and \fB860\fR and \fBcommon\fR.
-.Sp
-\&\fB\-mcpu=common\fR selects a completely generic processor. Code
-generated under this option will run on any \s-1POWER\s0 or PowerPC processor.
-\&\s-1GCC\s0 will use only the instructions in the common subset of both
-architectures, and will not use the \s-1MQ\s0 register. \s-1GCC\s0 assumes a generic
-processor model for scheduling purposes.
-.Sp
-\&\fB\-mcpu=power\fR, \fB\-mcpu=power2\fR, \fB\-mcpu=powerpc\fR, and
-\&\fB\-mcpu=powerpc64\fR specify generic \s-1POWER\s0, \s-1POWER2\s0, pure 32\-bit
-PowerPC (i.e., not \s-1MPC601\s0), and 64\-bit PowerPC architecture machine
-types, with an appropriate, generic processor model assumed for
-scheduling purposes.
-.Sp
-The other options specify a specific processor. Code generated under
-those options will run best on that processor, and may not run at all on
-others.
-.Sp
-The \fB\-mcpu\fR options automatically enable or disable other
-\&\fB\-m\fR options as follows:
-.RS 4
-.IP "\fBcommon\fR" 4
-.IX Item "common"
-\&\fB\-mno\-power\fR, \fB\-mno\-powerpc\fR
-.IP "\fBpower\fR" 4
-.IX Item "power"
-.PD 0
-.IP "\fBpower2\fR" 4
-.IX Item "power2"
-.IP "\fBrios1\fR" 4
-.IX Item "rios1"
-.IP "\fBrios2\fR" 4
-.IX Item "rios2"
-.IP "\fBrsc\fR" 4
-.IX Item "rsc"
-.PD
-\&\fB\-mpower\fR, \fB\-mno\-powerpc\fR, \fB\-mno\-new\-mnemonics\fR
-.IP "\fBpowerpc\fR" 4
-.IX Item "powerpc"
-.PD 0
-.IP "\fBrs64a\fR" 4
-.IX Item "rs64a"
-.IP "\fB602\fR" 4
-.IX Item "602"
-.IP "\fB603\fR" 4
-.IX Item "603"
-.IP "\fB603e\fR" 4
-.IX Item "603e"
-.IP "\fB604\fR" 4
-.IX Item "604"
-.IP "\fB620\fR" 4
-.IX Item "620"
-.IP "\fB630\fR" 4
-.IX Item "630"
-.IP "\fB740\fR" 4
-.IX Item "740"
-.IP "\fB7400\fR" 4
-.IX Item "7400"
-.IP "\fB7450\fR" 4
-.IX Item "7450"
-.IP "\fB750\fR" 4
-.IX Item "750"
-.IP "\fB505\fR" 4
-.IX Item "505"
-.PD
-\&\fB\-mno\-power\fR, \fB\-mpowerpc\fR, \fB\-mnew\-mnemonics\fR
-.IP "\fB601\fR" 4
-.IX Item "601"
-\&\fB\-mpower\fR, \fB\-mpowerpc\fR, \fB\-mnew\-mnemonics\fR
-.IP "\fB403\fR" 4
-.IX Item "403"
-.PD 0
-.IP "\fB821\fR" 4
-.IX Item "821"
-.IP "\fB860\fR" 4
-.IX Item "860"
-.PD
-\&\fB\-mno\-power\fR, \fB\-mpowerpc\fR, \fB\-mnew\-mnemonics\fR, \fB\-msoft\-float\fR
-.RE
-.RS 4
-.RE
-.IP "\fB\-mtune=\fR\fIcpu_type\fR" 4
-.IX Item "-mtune=cpu_type"
-Set the instruction scheduling parameters for machine type
-\&\fIcpu_type\fR, but do not set the architecture type, register usage, or
-choice of mnemonics, as \fB\-mcpu=\fR\fIcpu_type\fR would. The same
-values for \fIcpu_type\fR are used for \fB\-mtune\fR as for
-\&\fB\-mcpu\fR. If both are specified, the code generated will use the
-architecture, registers, and mnemonics set by \fB\-mcpu\fR, but the
-scheduling parameters set by \fB\-mtune\fR.
-.IP "\fB\-maltivec\fR" 4
-.IX Item "-maltivec"
-.PD 0
-.IP "\fB\-mno\-altivec\fR" 4
-.IX Item "-mno-altivec"
-.PD
-These switches enable or disable the use of built-in functions that
-allow access to the AltiVec instruction set. You may also need to set
-\&\fB\-mabi=altivec\fR to adjust the current \s-1ABI\s0 with AltiVec \s-1ABI\s0
-enhancements.
-.IP "\fB\-mabi=spe\fR" 4
-.IX Item "-mabi=spe"
-Extend the current \s-1ABI\s0 with \s-1SPE\s0 \s-1ABI\s0 extensions. This does not change
-the default \s-1ABI\s0, instead it adds the \s-1SPE\s0 \s-1ABI\s0 extensions to the current
-\&\s-1ABI\s0.
-.IP "\fB\-mabi=no\-spe\fR" 4
-.IX Item "-mabi=no-spe"
-Disable Booke \s-1SPE\s0 \s-1ABI\s0 extensions for the current \s-1ABI\s0.
-.IP "\fB\-misel=\fR\fIyes/no\fR" 4
-.IX Item "-misel=yes/no"
-.PD 0
-.IP "\fB\-misel\fR" 4
-.IX Item "-misel"
-.PD
-This switch enables or disables the generation of \s-1ISEL\s0 instructions.
-.IP "\fB\-mfull\-toc\fR" 4
-.IX Item "-mfull-toc"
-.PD 0
-.IP "\fB\-mno\-fp\-in\-toc\fR" 4
-.IX Item "-mno-fp-in-toc"
-.IP "\fB\-mno\-sum\-in\-toc\fR" 4
-.IX Item "-mno-sum-in-toc"
-.IP "\fB\-mminimal\-toc\fR" 4
-.IX Item "-mminimal-toc"
-.PD
-Modify generation of the \s-1TOC\s0 (Table Of Contents), which is created for
-every executable file. The \fB\-mfull\-toc\fR option is selected by
-default. In that case, \s-1GCC\s0 will allocate at least one \s-1TOC\s0 entry for
-each unique non-automatic variable reference in your program. \s-1GCC\s0
-will also place floating-point constants in the \s-1TOC\s0. However, only
-16,384 entries are available in the \s-1TOC\s0.
-.Sp
-If you receive a linker error message that saying you have overflowed
-the available \s-1TOC\s0 space, you can reduce the amount of \s-1TOC\s0 space used
-with the \fB\-mno\-fp\-in\-toc\fR and \fB\-mno\-sum\-in\-toc\fR options.
-\&\fB\-mno\-fp\-in\-toc\fR prevents \s-1GCC\s0 from putting floating-point
-constants in the \s-1TOC\s0 and \fB\-mno\-sum\-in\-toc\fR forces \s-1GCC\s0 to
-generate code to calculate the sum of an address and a constant at
-run-time instead of putting that sum into the \s-1TOC\s0. You may specify one
-or both of these options. Each causes \s-1GCC\s0 to produce very slightly
-slower and larger code at the expense of conserving \s-1TOC\s0 space.
-.Sp
-If you still run out of space in the \s-1TOC\s0 even when you specify both of
-these options, specify \fB\-mminimal\-toc\fR instead. This option causes
-\&\s-1GCC\s0 to make only one \s-1TOC\s0 entry for every file. When you specify this
-option, \s-1GCC\s0 will produce code that is slower and larger but which
-uses extremely little \s-1TOC\s0 space. You may wish to use this option
-only on files that contain less frequently executed code.
-.IP "\fB\-maix64\fR" 4
-.IX Item "-maix64"
-.PD 0
-.IP "\fB\-maix32\fR" 4
-.IX Item "-maix32"
-.PD
-Enable 64\-bit \s-1AIX\s0 \s-1ABI\s0 and calling convention: 64\-bit pointers, 64\-bit
-\&\f(CW\*(C`long\*(C'\fR type, and the infrastructure needed to support them.
-Specifying \fB\-maix64\fR implies \fB\-mpowerpc64\fR and
-\&\fB\-mpowerpc\fR, while \fB\-maix32\fR disables the 64\-bit \s-1ABI\s0 and
-implies \fB\-mno\-powerpc64\fR. \s-1GCC\s0 defaults to \fB\-maix32\fR.
-.IP "\fB\-mxl\-call\fR" 4
-.IX Item "-mxl-call"
-.PD 0
-.IP "\fB\-mno\-xl\-call\fR" 4
-.IX Item "-mno-xl-call"
-.PD
-On \s-1AIX\s0, pass floating-point arguments to prototyped functions beyond the
-register save area (\s-1RSA\s0) on the stack in addition to argument FPRs. The
-\&\s-1AIX\s0 calling convention was extended but not initially documented to
-handle an obscure K&R C case of calling a function that takes the
-address of its arguments with fewer arguments than declared. \s-1AIX\s0 \s-1XL\s0
-compilers access floating point arguments which do not fit in the
-\&\s-1RSA\s0 from the stack when a subroutine is compiled without
-optimization. Because always storing floating-point arguments on the
-stack is inefficient and rarely needed, this option is not enabled by
-default and only is necessary when calling subroutines compiled by \s-1AIX\s0
-\&\s-1XL\s0 compilers without optimization.
-.IP "\fB\-mpe\fR" 4
-.IX Item "-mpe"
-Support \fI\s-1IBM\s0 \s-1RS/6000\s0 \s-1SP\s0\fR \fIParallel Environment\fR (\s-1PE\s0). Link an
-application written to use message passing with special startup code to
-enable the application to run. The system must have \s-1PE\s0 installed in the
-standard location (\fI/usr/lpp/ppe.poe/\fR), or the \fIspecs\fR file
-must be overridden with the \fB\-specs=\fR option to specify the
-appropriate directory location. The Parallel Environment does not
-support threads, so the \fB\-mpe\fR option and the \fB\-pthread\fR
-option are incompatible.
-.IP "\fB\-msoft\-float\fR" 4
-.IX Item "-msoft-float"
-.PD 0
-.IP "\fB\-mhard\-float\fR" 4
-.IX Item "-mhard-float"
-.PD
-Generate code that does not use (uses) the floating-point register set.
-Software floating point emulation is provided if you use the
-\&\fB\-msoft\-float\fR option, and pass the option to \s-1GCC\s0 when linking.
-.IP "\fB\-mmultiple\fR" 4
-.IX Item "-mmultiple"
-.PD 0
-.IP "\fB\-mno\-multiple\fR" 4
-.IX Item "-mno-multiple"
-.PD
-Generate code that uses (does not use) the load multiple word
-instructions and the store multiple word instructions. These
-instructions are generated by default on \s-1POWER\s0 systems, and not
-generated on PowerPC systems. Do not use \fB\-mmultiple\fR on little
-endian PowerPC systems, since those instructions do not work when the
-processor is in little endian mode. The exceptions are \s-1PPC740\s0 and
-\&\s-1PPC750\s0 which permit the instructions usage in little endian mode.
-.IP "\fB\-mstring\fR" 4
-.IX Item "-mstring"
-.PD 0
-.IP "\fB\-mno\-string\fR" 4
-.IX Item "-mno-string"
-.PD
-Generate code that uses (does not use) the load string instructions
-and the store string word instructions to save multiple registers and
-do small block moves. These instructions are generated by default on
-\&\s-1POWER\s0 systems, and not generated on PowerPC systems. Do not use
-\&\fB\-mstring\fR on little endian PowerPC systems, since those
-instructions do not work when the processor is in little endian mode.
-The exceptions are \s-1PPC740\s0 and \s-1PPC750\s0 which permit the instructions
-usage in little endian mode.
-.IP "\fB\-mupdate\fR" 4
-.IX Item "-mupdate"
-.PD 0
-.IP "\fB\-mno\-update\fR" 4
-.IX Item "-mno-update"
-.PD
-Generate code that uses (does not use) the load or store instructions
-that update the base register to the address of the calculated memory
-location. These instructions are generated by default. If you use
-\&\fB\-mno\-update\fR, there is a small window between the time that the
-stack pointer is updated and the address of the previous frame is
-stored, which means code that walks the stack frame across interrupts or
-signals may get corrupted data.
-.IP "\fB\-mfused\-madd\fR" 4
-.IX Item "-mfused-madd"
-.PD 0
-.IP "\fB\-mno\-fused\-madd\fR" 4
-.IX Item "-mno-fused-madd"
-.PD
-Generate code that uses (does not use) the floating point multiply and
-accumulate instructions. These instructions are generated by default if
-hardware floating is used.
-.IP "\fB\-mno\-bit\-align\fR" 4
-.IX Item "-mno-bit-align"
-.PD 0
-.IP "\fB\-mbit\-align\fR" 4
-.IX Item "-mbit-align"
-.PD
-On System V.4 and embedded PowerPC systems do not (do) force structures
-and unions that contain bit-fields to be aligned to the base type of the
-bit\-field.
-.Sp
-For example, by default a structure containing nothing but 8
-\&\f(CW\*(C`unsigned\*(C'\fR bit-fields of length 1 would be aligned to a 4 byte
-boundary and have a size of 4 bytes. By using \fB\-mno\-bit\-align\fR,
-the structure would be aligned to a 1 byte boundary and be one byte in
-size.
-.IP "\fB\-mno\-strict\-align\fR" 4
-.IX Item "-mno-strict-align"
-.PD 0
-.IP "\fB\-mstrict\-align\fR" 4
-.IX Item "-mstrict-align"
-.PD
-On System V.4 and embedded PowerPC systems do not (do) assume that
-unaligned memory references will be handled by the system.
-.IP "\fB\-mrelocatable\fR" 4
-.IX Item "-mrelocatable"
-.PD 0
-.IP "\fB\-mno\-relocatable\fR" 4
-.IX Item "-mno-relocatable"
-.PD
-On embedded PowerPC systems generate code that allows (does not allow)
-the program to be relocated to a different address at runtime. If you
-use \fB\-mrelocatable\fR on any module, all objects linked together must
-be compiled with \fB\-mrelocatable\fR or \fB\-mrelocatable\-lib\fR.
-.IP "\fB\-mrelocatable\-lib\fR" 4
-.IX Item "-mrelocatable-lib"
-.PD 0
-.IP "\fB\-mno\-relocatable\-lib\fR" 4
-.IX Item "-mno-relocatable-lib"
-.PD
-On embedded PowerPC systems generate code that allows (does not allow)
-the program to be relocated to a different address at runtime. Modules
-compiled with \fB\-mrelocatable\-lib\fR can be linked with either modules
-compiled without \fB\-mrelocatable\fR and \fB\-mrelocatable\-lib\fR or
-with modules compiled with the \fB\-mrelocatable\fR options.
-.IP "\fB\-mno\-toc\fR" 4
-.IX Item "-mno-toc"
-.PD 0
-.IP "\fB\-mtoc\fR" 4
-.IX Item "-mtoc"
-.PD
-On System V.4 and embedded PowerPC systems do not (do) assume that
-register 2 contains a pointer to a global area pointing to the addresses
-used in the program.
-.IP "\fB\-mlittle\fR" 4
-.IX Item "-mlittle"
-.PD 0
-.IP "\fB\-mlittle\-endian\fR" 4
-.IX Item "-mlittle-endian"
-.PD
-On System V.4 and embedded PowerPC systems compile code for the
-processor in little endian mode. The \fB\-mlittle\-endian\fR option is
-the same as \fB\-mlittle\fR.
-.IP "\fB\-mbig\fR" 4
-.IX Item "-mbig"
-.PD 0
-.IP "\fB\-mbig\-endian\fR" 4
-.IX Item "-mbig-endian"
-.PD
-On System V.4 and embedded PowerPC systems compile code for the
-processor in big endian mode. The \fB\-mbig\-endian\fR option is
-the same as \fB\-mbig\fR.
-.IP "\fB\-mcall\-sysv\fR" 4
-.IX Item "-mcall-sysv"
-On System V.4 and embedded PowerPC systems compile code using calling
-conventions that adheres to the March 1995 draft of the System V
-Application Binary Interface, PowerPC processor supplement. This is the
-default unless you configured \s-1GCC\s0 using \fBpowerpc\-*\-eabiaix\fR.
-.IP "\fB\-mcall\-sysv\-eabi\fR" 4
-.IX Item "-mcall-sysv-eabi"
-Specify both \fB\-mcall\-sysv\fR and \fB\-meabi\fR options.
-.IP "\fB\-mcall\-sysv\-noeabi\fR" 4
-.IX Item "-mcall-sysv-noeabi"
-Specify both \fB\-mcall\-sysv\fR and \fB\-mno\-eabi\fR options.
-.IP "\fB\-mcall\-aix\fR" 4
-.IX Item "-mcall-aix"
-On System V.4 and embedded PowerPC systems compile code using calling
-conventions that are similar to those used on \s-1AIX\s0. This is the
-default if you configured \s-1GCC\s0 using \fBpowerpc\-*\-eabiaix\fR.
-.IP "\fB\-mcall\-solaris\fR" 4
-.IX Item "-mcall-solaris"
-On System V.4 and embedded PowerPC systems compile code for the Solaris
-operating system.
-.IP "\fB\-mcall\-linux\fR" 4
-.IX Item "-mcall-linux"
-On System V.4 and embedded PowerPC systems compile code for the
-Linux-based \s-1GNU\s0 system.
-.IP "\fB\-mcall\-gnu\fR" 4
-.IX Item "-mcall-gnu"
-On System V.4 and embedded PowerPC systems compile code for the
-Hurd-based \s-1GNU\s0 system.
-.IP "\fB\-mcall\-netbsd\fR" 4
-.IX Item "-mcall-netbsd"
-On System V.4 and embedded PowerPC systems compile code for the
-NetBSD operating system.
-.IP "\fB\-maix\-struct\-return\fR" 4
-.IX Item "-maix-struct-return"
-Return all structures in memory (as specified by the \s-1AIX\s0 \s-1ABI\s0).
-.IP "\fB\-msvr4\-struct\-return\fR" 4
-.IX Item "-msvr4-struct-return"
-Return structures smaller than 8 bytes in registers (as specified by the
-\&\s-1SVR4\s0 \s-1ABI\s0).
-.IP "\fB\-mabi=altivec\fR" 4
-.IX Item "-mabi=altivec"
-Extend the current \s-1ABI\s0 with AltiVec \s-1ABI\s0 extensions. This does not
-change the default \s-1ABI\s0, instead it adds the AltiVec \s-1ABI\s0 extensions to
-the current \s-1ABI\s0.
-.IP "\fB\-mabi=no\-altivec\fR" 4
-.IX Item "-mabi=no-altivec"
-Disable AltiVec \s-1ABI\s0 extensions for the current \s-1ABI\s0.
-.IP "\fB\-mprototype\fR" 4
-.IX Item "-mprototype"
-.PD 0
-.IP "\fB\-mno\-prototype\fR" 4
-.IX Item "-mno-prototype"
-.PD
-On System V.4 and embedded PowerPC systems assume that all calls to
-variable argument functions are properly prototyped. Otherwise, the
-compiler must insert an instruction before every non prototyped call to
-set or clear bit 6 of the condition code register (\fI\s-1CR\s0\fR) to
-indicate whether floating point values were passed in the floating point
-registers in case the function takes a variable arguments. With
-\&\fB\-mprototype\fR, only calls to prototyped variable argument functions
-will set or clear the bit.
-.IP "\fB\-msim\fR" 4
-.IX Item "-msim"
-On embedded PowerPC systems, assume that the startup module is called
-\&\fIsim\-crt0.o\fR and that the standard C libraries are \fIlibsim.a\fR and
-\&\fIlibc.a\fR. This is the default for \fBpowerpc\-*\-eabisim\fR.
-configurations.
-.IP "\fB\-mmvme\fR" 4
-.IX Item "-mmvme"
-On embedded PowerPC systems, assume that the startup module is called
-\&\fIcrt0.o\fR and the standard C libraries are \fIlibmvme.a\fR and
-\&\fIlibc.a\fR.
-.IP "\fB\-mads\fR" 4
-.IX Item "-mads"
-On embedded PowerPC systems, assume that the startup module is called
-\&\fIcrt0.o\fR and the standard C libraries are \fIlibads.a\fR and
-\&\fIlibc.a\fR.
-.IP "\fB\-myellowknife\fR" 4
-.IX Item "-myellowknife"
-On embedded PowerPC systems, assume that the startup module is called
-\&\fIcrt0.o\fR and the standard C libraries are \fIlibyk.a\fR and
-\&\fIlibc.a\fR.
-.IP "\fB\-mvxworks\fR" 4
-.IX Item "-mvxworks"
-On System V.4 and embedded PowerPC systems, specify that you are
-compiling for a VxWorks system.
-.IP "\fB\-mwindiss\fR" 4
-.IX Item "-mwindiss"
-Specify that you are compiling for the WindISS simulation environment.
-.IP "\fB\-memb\fR" 4
-.IX Item "-memb"
-On embedded PowerPC systems, set the \fI\s-1PPC_EMB\s0\fR bit in the \s-1ELF\s0 flags
-header to indicate that \fBeabi\fR extended relocations are used.
-.IP "\fB\-meabi\fR" 4
-.IX Item "-meabi"
-.PD 0
-.IP "\fB\-mno\-eabi\fR" 4
-.IX Item "-mno-eabi"
-.PD
-On System V.4 and embedded PowerPC systems do (do not) adhere to the
-Embedded Applications Binary Interface (eabi) which is a set of
-modifications to the System V.4 specifications. Selecting \fB\-meabi\fR
-means that the stack is aligned to an 8 byte boundary, a function
-\&\f(CW\*(C`_\|_eabi\*(C'\fR is called to from \f(CW\*(C`main\*(C'\fR to set up the eabi
-environment, and the \fB\-msdata\fR option can use both \f(CW\*(C`r2\*(C'\fR and
-\&\f(CW\*(C`r13\*(C'\fR to point to two separate small data areas. Selecting
-\&\fB\-mno\-eabi\fR means that the stack is aligned to a 16 byte boundary,
-do not call an initialization function from \f(CW\*(C`main\*(C'\fR, and the
-\&\fB\-msdata\fR option will only use \f(CW\*(C`r13\*(C'\fR to point to a single
-small data area. The \fB\-meabi\fR option is on by default if you
-configured \s-1GCC\s0 using one of the \fBpowerpc*\-*\-eabi*\fR options.
-.IP "\fB\-msdata=eabi\fR" 4
-.IX Item "-msdata=eabi"
-On System V.4 and embedded PowerPC systems, put small initialized
-\&\f(CW\*(C`const\*(C'\fR global and static data in the \fB.sdata2\fR section, which
-is pointed to by register \f(CW\*(C`r2\*(C'\fR. Put small initialized
-non\-\f(CW\*(C`const\*(C'\fR global and static data in the \fB.sdata\fR section,
-which is pointed to by register \f(CW\*(C`r13\*(C'\fR. Put small uninitialized
-global and static data in the \fB.sbss\fR section, which is adjacent to
-the \fB.sdata\fR section. The \fB\-msdata=eabi\fR option is
-incompatible with the \fB\-mrelocatable\fR option. The
-\&\fB\-msdata=eabi\fR option also sets the \fB\-memb\fR option.
-.IP "\fB\-msdata=sysv\fR" 4
-.IX Item "-msdata=sysv"
-On System V.4 and embedded PowerPC systems, put small global and static
-data in the \fB.sdata\fR section, which is pointed to by register
-\&\f(CW\*(C`r13\*(C'\fR. Put small uninitialized global and static data in the
-\&\fB.sbss\fR section, which is adjacent to the \fB.sdata\fR section.
-The \fB\-msdata=sysv\fR option is incompatible with the
-\&\fB\-mrelocatable\fR option.
-.IP "\fB\-msdata=default\fR" 4
-.IX Item "-msdata=default"
-.PD 0
-.IP "\fB\-msdata\fR" 4
-.IX Item "-msdata"
-.PD
-On System V.4 and embedded PowerPC systems, if \fB\-meabi\fR is used,
-compile code the same as \fB\-msdata=eabi\fR, otherwise compile code the
-same as \fB\-msdata=sysv\fR.
-.IP "\fB\-msdata\-data\fR" 4
-.IX Item "-msdata-data"
-On System V.4 and embedded PowerPC systems, put small global and static
-data in the \fB.sdata\fR section. Put small uninitialized global and
-static data in the \fB.sbss\fR section. Do not use register \f(CW\*(C`r13\*(C'\fR
-to address small data however. This is the default behavior unless
-other \fB\-msdata\fR options are used.
-.IP "\fB\-msdata=none\fR" 4
-.IX Item "-msdata=none"
-.PD 0
-.IP "\fB\-mno\-sdata\fR" 4
-.IX Item "-mno-sdata"
-.PD
-On embedded PowerPC systems, put all initialized global and static data
-in the \fB.data\fR section, and all uninitialized data in the
-\&\fB.bss\fR section.
-.IP "\fB\-G\fR \fInum\fR" 4
-.IX Item "-G num"
-On embedded PowerPC systems, put global and static items less than or
-equal to \fInum\fR bytes into the small data or bss sections instead of
-the normal data or bss section. By default, \fInum\fR is 8. The
-\&\fB\-G\fR \fInum\fR switch is also passed to the linker.
-All modules should be compiled with the same \fB\-G\fR \fInum\fR value.
-.IP "\fB\-mregnames\fR" 4
-.IX Item "-mregnames"
-.PD 0
-.IP "\fB\-mno\-regnames\fR" 4
-.IX Item "-mno-regnames"
-.PD
-On System V.4 and embedded PowerPC systems do (do not) emit register
-names in the assembly language output using symbolic forms.
-.IP "\fB\-mlongcall\fR" 4
-.IX Item "-mlongcall"
-.PD 0
-.IP "\fB\-mno\-longcall\fR" 4
-.IX Item "-mno-longcall"
-.PD
-Default to making all function calls via pointers, so that functions
-which reside further than 64 megabytes (67,108,864 bytes) from the
-current location can be called. This setting can be overridden by the
-\&\f(CW\*(C`shortcall\*(C'\fR function attribute, or by \f(CW\*(C`#pragma longcall(0)\*(C'\fR.
-.Sp
-Some linkers are capable of detecting out-of-range calls and generating
-glue code on the fly. On these systems, long calls are unnecessary and
-generate slower code. As of this writing, the \s-1AIX\s0 linker can do this,
-as can the \s-1GNU\s0 linker for PowerPC/64. It is planned to add this feature
-to the \s-1GNU\s0 linker for 32\-bit PowerPC systems as well.
-.Sp
-In the future, we may cause \s-1GCC\s0 to ignore all longcall specifications
-when the linker is known to generate glue.
-.IP "\fB\-pthread\fR" 4
-.IX Item "-pthread"
-Adds support for multithreading with the \fIpthreads\fR library.
-This option sets flags for both the preprocessor and linker.
-.PP
-\fIDarwin Options\fR
-.IX Subsection "Darwin Options"
-.PP
-These options are defined for all architectures running the Darwin operating
-system. They are useful for compatibility with other Mac \s-1OS\s0 compilers.
-.IP "\fB\-all_load\fR" 4
-.IX Item "-all_load"
-Loads all members of static archive libraries.
-See man \fIld\fR\|(1) for more information.
-.IP "\fB\-arch_errors_fatal\fR" 4
-.IX Item "-arch_errors_fatal"
-Cause the errors having to do with files that have the wrong architecture
-to be fatal.
-.IP "\fB\-bind_at_load\fR" 4
-.IX Item "-bind_at_load"
-Causes the output file to be marked such that the dynamic linker will
-bind all undefined references when the file is loaded or launched.
-.IP "\fB\-bundle\fR" 4
-.IX Item "-bundle"
-Produce a Mach-o bundle format file.
-See man \fIld\fR\|(1) for more information.
-.IP "\fB\-bundle_loader\fR \fIexecutable\fR" 4
-.IX Item "-bundle_loader executable"
-This specifies the \fIexecutable\fR that will be loading the build
-output file being linked. See man \fIld\fR\|(1) for more information.
-.IP "\fB\-allowable_client\fR \fIclient_name\fR" 4
-.IX Item "-allowable_client client_name"
-.PD 0
-.IP "\fB\-arch_only\fR" 4
-.IX Item "-arch_only"
-.IP "\fB\-client_name\fR" 4
-.IX Item "-client_name"
-.IP "\fB\-compatibility_version\fR" 4
-.IX Item "-compatibility_version"
-.IP "\fB\-current_version\fR" 4
-.IX Item "-current_version"
-.IP "\fB\-dependency\-file\fR" 4
-.IX Item "-dependency-file"
-.IP "\fB\-dylib_file\fR" 4
-.IX Item "-dylib_file"
-.IP "\fB\-dylinker_install_name\fR" 4
-.IX Item "-dylinker_install_name"
-.IP "\fB\-dynamic\fR" 4
-.IX Item "-dynamic"
-.IP "\fB\-dynamiclib\fR" 4
-.IX Item "-dynamiclib"
-.IP "\fB\-exported_symbols_list\fR" 4
-.IX Item "-exported_symbols_list"
-.IP "\fB\-filelist\fR" 4
-.IX Item "-filelist"
-.IP "\fB\-flat_namespace\fR" 4
-.IX Item "-flat_namespace"
-.IP "\fB\-force_cpusubtype_ALL\fR" 4
-.IX Item "-force_cpusubtype_ALL"
-.IP "\fB\-force_flat_namespace\fR" 4
-.IX Item "-force_flat_namespace"
-.IP "\fB\-headerpad_max_install_names\fR" 4
-.IX Item "-headerpad_max_install_names"
-.IP "\fB\-image_base\fR" 4
-.IX Item "-image_base"
-.IP "\fB\-init\fR" 4
-.IX Item "-init"
-.IP "\fB\-install_name\fR" 4
-.IX Item "-install_name"
-.IP "\fB\-keep_private_externs\fR" 4
-.IX Item "-keep_private_externs"
-.IP "\fB\-multi_module\fR" 4
-.IX Item "-multi_module"
-.IP "\fB\-multiply_defined\fR" 4
-.IX Item "-multiply_defined"
-.IP "\fB\-multiply_defined_unused\fR" 4
-.IX Item "-multiply_defined_unused"
-.IP "\fB\-noall_load\fR" 4
-.IX Item "-noall_load"
-.IP "\fB\-nomultidefs\fR" 4
-.IX Item "-nomultidefs"
-.IP "\fB\-noprebind\fR" 4
-.IX Item "-noprebind"
-.IP "\fB\-noseglinkedit\fR" 4
-.IX Item "-noseglinkedit"
-.IP "\fB\-pagezero_size\fR" 4
-.IX Item "-pagezero_size"
-.IP "\fB\-prebind\fR" 4
-.IX Item "-prebind"
-.IP "\fB\-prebind_all_twolevel_modules\fR" 4
-.IX Item "-prebind_all_twolevel_modules"
-.IP "\fB\-private_bundle\fR" 4
-.IX Item "-private_bundle"
-.IP "\fB\-read_only_relocs\fR" 4
-.IX Item "-read_only_relocs"
-.IP "\fB\-sectalign\fR" 4
-.IX Item "-sectalign"
-.IP "\fB\-sectobjectsymbols\fR" 4
-.IX Item "-sectobjectsymbols"
-.IP "\fB\-whyload\fR" 4
-.IX Item "-whyload"
-.IP "\fB\-seg1addr\fR" 4
-.IX Item "-seg1addr"
-.IP "\fB\-sectcreate\fR" 4
-.IX Item "-sectcreate"
-.IP "\fB\-sectobjectsymbols\fR" 4
-.IX Item "-sectobjectsymbols"
-.IP "\fB\-sectorder\fR" 4
-.IX Item "-sectorder"
-.IP "\fB\-seg_addr_table\fR" 4
-.IX Item "-seg_addr_table"
-.IP "\fB\-seg_addr_table_filename\fR" 4
-.IX Item "-seg_addr_table_filename"
-.IP "\fB\-seglinkedit\fR" 4
-.IX Item "-seglinkedit"
-.IP "\fB\-segprot\fR" 4
-.IX Item "-segprot"
-.IP "\fB\-segs_read_only_addr\fR" 4
-.IX Item "-segs_read_only_addr"
-.IP "\fB\-segs_read_write_addr\fR" 4
-.IX Item "-segs_read_write_addr"
-.IP "\fB\-single_module\fR" 4
-.IX Item "-single_module"
-.IP "\fB\-static\fR" 4
-.IX Item "-static"
-.IP "\fB\-sub_library\fR" 4
-.IX Item "-sub_library"
-.IP "\fB\-sub_umbrella\fR" 4
-.IX Item "-sub_umbrella"
-.IP "\fB\-twolevel_namespace\fR" 4
-.IX Item "-twolevel_namespace"
-.IP "\fB\-umbrella\fR" 4
-.IX Item "-umbrella"
-.IP "\fB\-undefined\fR" 4
-.IX Item "-undefined"
-.IP "\fB\-unexported_symbols_list\fR" 4
-.IX Item "-unexported_symbols_list"
-.IP "\fB\-weak_reference_mismatches\fR" 4
-.IX Item "-weak_reference_mismatches"
-.IP "\fB\-whatsloaded\fR" 4
-.IX Item "-whatsloaded"
-.PD
-This options are available for Darwin linker. Darwin linker man page
-describes them in detail.
-.PP
-\fI\s-1IBM\s0 \s-1RT\s0 Options\fR
-.IX Subsection "IBM RT Options"
-.PP
-These \fB\-m\fR options are defined for the \s-1IBM\s0 \s-1RT\s0 \s-1PC:\s0
-.IP "\fB\-min\-line\-mul\fR" 4
-.IX Item "-min-line-mul"
-Use an in-line code sequence for integer multiplies. This is the
-default.
-.IP "\fB\-mcall\-lib\-mul\fR" 4
-.IX Item "-mcall-lib-mul"
-Call \f(CW\*(C`lmul$$\*(C'\fR for integer multiples.
-.IP "\fB\-mfull\-fp\-blocks\fR" 4
-.IX Item "-mfull-fp-blocks"
-Generate full-size floating point data blocks, including the minimum
-amount of scratch space recommended by \s-1IBM\s0. This is the default.
-.IP "\fB\-mminimum\-fp\-blocks\fR" 4
-.IX Item "-mminimum-fp-blocks"
-Do not include extra scratch space in floating point data blocks. This
-results in smaller code, but slower execution, since scratch space must
-be allocated dynamically.
-.IP "\fB\-mfp\-arg\-in\-fpregs\fR" 4
-.IX Item "-mfp-arg-in-fpregs"
-Use a calling sequence incompatible with the \s-1IBM\s0 calling convention in
-which floating point arguments are passed in floating point registers.
-Note that \f(CW\*(C`stdarg.h\*(C'\fR will not work with floating point operands
-if this option is specified.
-.IP "\fB\-mfp\-arg\-in\-gregs\fR" 4
-.IX Item "-mfp-arg-in-gregs"
-Use the normal calling convention for floating point arguments. This is
-the default.
-.IP "\fB\-mhc\-struct\-return\fR" 4
-.IX Item "-mhc-struct-return"
-Return structures of more than one word in memory, rather than in a
-register. This provides compatibility with the MetaWare HighC (hc)
-compiler. Use the option \fB\-fpcc\-struct\-return\fR for compatibility
-with the Portable C Compiler (pcc).
-.IP "\fB\-mnohc\-struct\-return\fR" 4
-.IX Item "-mnohc-struct-return"
-Return some structures of more than one word in registers, when
-convenient. This is the default. For compatibility with the
-IBM-supplied compilers, use the option \fB\-fpcc\-struct\-return\fR or the
-option \fB\-mhc\-struct\-return\fR.
-.PP
-\fI\s-1MIPS\s0 Options\fR
-.IX Subsection "MIPS Options"
-.PP
-These \fB\-m\fR options are defined for the \s-1MIPS\s0 family of computers:
-.IP "\fB\-march=\fR\fIarch\fR" 4
-.IX Item "-march=arch"
-Generate code that will run on \fIarch\fR, which can be the name of a
-generic \s-1MIPS\s0 \s-1ISA\s0, or the name of a particular processor. The \s-1ISA\s0 names
-are: \fBmips1\fR, \fBmips2\fR, \fBmips3\fR, \fBmips4\fR, \fBmips32\fR
-and \fBmips64\fR. The processor names are: \fBr2000\fR,
-\&\fBr3000\fR, \fBr3900\fR, \fBr4000\fR, \fBvr4100\fR, \fBvr4300\fR,
-\&\fBr4400\fR, \fBr4600\fR, \fBr4650\fR, \fBvr5000\fR, \fBr6000\fR,
-\&\fBr8000\fR, \fB4kc\fR, \fB4kp\fR, \fB5kc\fR, \fB20kc\fR,
-\&\fBorion\fR, and \fBsb1\fR. The special value \fBfrom-abi\fR selects the
-most compatible architecture for the selected \s-1ABI\s0 (that is,
-\&\fBmips1\fR for 32\-bit ABIs and \fBmips3\fR for 64\-bit ABIs).
-.Sp
-In processor names, a final \fB000\fR can be abbreviated as \fBk\fR
-(for example, \fB\-march=r2k\fR). Prefixes are optional, and
-\&\fBvr\fR may be written \fBr\fR.
-.Sp
-\&\s-1GCC\s0 defines two macros based on the value of this option. The first
-is \fB_MIPS_ARCH\fR, which gives the name of target architecture, as
-a string. The second has the form \fB_MIPS_ARCH_\fR\fIfoo\fR,
-where \fIfoo\fR is the capitalized value of \fB_MIPS_ARCH\fR.
-For example, \fB\-march=r2000\fR will set \fB_MIPS_ARCH\fR
-to \fB\*(L"r2000\*(R"\fR and define the macro \fB_MIPS_ARCH_R2000\fR.
-.Sp
-Note that the \fB_MIPS_ARCH\fR macro uses the processor names given
-above. In other words, it will have the full prefix and will not
-abbreviate \fB000\fR as \fBk\fR. In the case of \fBfrom-abi\fR,
-the macro names the resolved architecture (either \fB\*(L"mips1\*(R"\fR or
-\&\fB\*(L"mips3\*(R"\fR). It names the default architecture when no
-\&\fB\-march\fR option is given.
-.IP "\fB\-mtune=\fR\fIarch\fR" 4
-.IX Item "-mtune=arch"
-Optimize for \fIarch\fR. Among other things, this option controls
-the way instructions are scheduled, and the perceived cost of arithmetic
-operations. The list of \fIarch\fR values is the same as for
-\&\fB\-march\fR.
-.Sp
-When this option is not used, \s-1GCC\s0 will optimize for the processor
-specified by \fB\-march\fR. By using \fB\-march\fR and
-\&\fB\-mtune\fR together, it is possible to generate code that will
-run on a family of processors, but optimize the code for one
-particular member of that family.
-.Sp
-\&\fB\-mtune\fR defines the macros \fB_MIPS_TUNE\fR and
-\&\fB_MIPS_TUNE_\fR\fIfoo\fR, which work in the same way as the
-\&\fB\-march\fR ones described above.
-.IP "\fB\-mips1\fR" 4
-.IX Item "-mips1"
-Equivalent to \fB\-march=mips1\fR.
-.IP "\fB\-mips2\fR" 4
-.IX Item "-mips2"
-Equivalent to \fB\-march=mips2\fR.
-.IP "\fB\-mips3\fR" 4
-.IX Item "-mips3"
-Equivalent to \fB\-march=mips3\fR.
-.IP "\fB\-mips4\fR" 4
-.IX Item "-mips4"
-Equivalent to \fB\-march=mips4\fR.
-.IP "\fB\-mips32\fR" 4
-.IX Item "-mips32"
-Equivalent to \fB\-march=mips32\fR.
-.IP "\fB\-mips64\fR" 4
-.IX Item "-mips64"
-Equivalent to \fB\-march=mips64\fR.
-.IP "\fB\-mfused\-madd\fR" 4
-.IX Item "-mfused-madd"
-.PD 0
-.IP "\fB\-mno\-fused\-madd\fR" 4
-.IX Item "-mno-fused-madd"
-.PD
-Generate code that uses (does not use) the floating point multiply and
-accumulate instructions, when they are available. These instructions
-are generated by default if they are available, but this may be
-undesirable if the extra precision causes problems or on certain chips
-in the mode where denormals are rounded to zero where denormals
-generated by multiply and accumulate instructions cause exceptions
-anyway.
-.IP "\fB\-mfp32\fR" 4
-.IX Item "-mfp32"
-Assume that floating point registers are 32 bits wide.
-.IP "\fB\-mfp64\fR" 4
-.IX Item "-mfp64"
-Assume that floating point registers are 64 bits wide.
-.IP "\fB\-mgp32\fR" 4
-.IX Item "-mgp32"
-Assume that general purpose registers are 32 bits wide.
-.IP "\fB\-mgp64\fR" 4
-.IX Item "-mgp64"
-Assume that general purpose registers are 64 bits wide.
-.IP "\fB\-mint64\fR" 4
-.IX Item "-mint64"
-Force int and long types to be 64 bits wide. See \fB\-mlong32\fR for an
-explanation of the default, and the width of pointers.
-.IP "\fB\-mlong64\fR" 4
-.IX Item "-mlong64"
-Force long types to be 64 bits wide. See \fB\-mlong32\fR for an
-explanation of the default, and the width of pointers.
-.IP "\fB\-mlong32\fR" 4
-.IX Item "-mlong32"
-Force long, int, and pointer types to be 32 bits wide.
-.Sp
-The default size of ints, longs and pointers depends on the \s-1ABI\s0. All
-the supported ABIs use 32\-bit ints. The n64 \s-1ABI\s0 uses 64\-bit longs, as
-does the 64\-bit Cygnus \s-1EABI\s0; the others use 32\-bit longs. Pointers
-are the same size as longs, or the same size as integer registers,
-whichever is smaller.
-.IP "\fB\-mabi=32\fR" 4
-.IX Item "-mabi=32"
-.PD 0
-.IP "\fB\-mabi=o64\fR" 4
-.IX Item "-mabi=o64"
-.IP "\fB\-mabi=n32\fR" 4
-.IX Item "-mabi=n32"
-.IP "\fB\-mabi=64\fR" 4
-.IX Item "-mabi=64"
-.IP "\fB\-mabi=eabi\fR" 4
-.IX Item "-mabi=eabi"
-.IP "\fB\-mabi=meabi\fR" 4
-.IX Item "-mabi=meabi"
-.PD
-Generate code for the given \s-1ABI\s0.
-.Sp
-Note that there are two embedded ABIs: \fB\-mabi=eabi\fR
-selects the one defined by Cygnus while \fB\-meabi=meabi\fR
-selects the one defined by \s-1MIPS\s0. Both these ABIs have
-32\-bit and 64\-bit variants. Normally, \s-1GCC\s0 will generate
-64\-bit code when you select a 64\-bit architecture, but you
-can use \fB\-mgp32\fR to get 32\-bit code instead.
-.IP "\fB\-mmips\-as\fR" 4
-.IX Item "-mmips-as"
-Generate code for the \s-1MIPS\s0 assembler, and invoke \fImips-tfile\fR to
-add normal debug information. This is the default for all
-platforms except for the \s-1OSF/1\s0 reference platform, using the OSF/rose
-object format. If the either of the \fB\-gstabs\fR or \fB\-gstabs+\fR
-switches are used, the \fImips-tfile\fR program will encapsulate the
-stabs within \s-1MIPS\s0 \s-1ECOFF\s0.
-.IP "\fB\-mgas\fR" 4
-.IX Item "-mgas"
-Generate code for the \s-1GNU\s0 assembler. This is the default on the \s-1OSF/1\s0
-reference platform, using the OSF/rose object format. Also, this is
-the default if the configure option \fB\-\-with\-gnu\-as\fR is used.
-.IP "\fB\-msplit\-addresses\fR" 4
-.IX Item "-msplit-addresses"
-.PD 0
-.IP "\fB\-mno\-split\-addresses\fR" 4
-.IX Item "-mno-split-addresses"
-.PD
-Generate code to load the high and low parts of address constants separately.
-This allows \s-1GCC\s0 to optimize away redundant loads of the high order
-bits of addresses. This optimization requires \s-1GNU\s0 as and \s-1GNU\s0 ld.
-This optimization is enabled by default for some embedded targets where
-\&\s-1GNU\s0 as and \s-1GNU\s0 ld are standard.
-.IP "\fB\-mrnames\fR" 4
-.IX Item "-mrnames"
-.PD 0
-.IP "\fB\-mno\-rnames\fR" 4
-.IX Item "-mno-rnames"
-.PD
-The \fB\-mrnames\fR switch says to output code using the \s-1MIPS\s0 software
-names for the registers, instead of the hardware names (ie, \fIa0\fR
-instead of \fI$4\fR). The only known assembler that supports this option
-is the Algorithmics assembler.
-.IP "\fB\-mgpopt\fR" 4
-.IX Item "-mgpopt"
-.PD 0
-.IP "\fB\-mno\-gpopt\fR" 4
-.IX Item "-mno-gpopt"
-.PD
-The \fB\-mgpopt\fR switch says to write all of the data declarations
-before the instructions in the text section, this allows the \s-1MIPS\s0
-assembler to generate one word memory references instead of using two
-words for short global or static data items. This is on by default if
-optimization is selected.
-.IP "\fB\-mstats\fR" 4
-.IX Item "-mstats"
-.PD 0
-.IP "\fB\-mno\-stats\fR" 4
-.IX Item "-mno-stats"
-.PD
-For each non-inline function processed, the \fB\-mstats\fR switch
-causes the compiler to emit one line to the standard error file to
-print statistics about the program (number of registers saved, stack
-size, etc.).
-.IP "\fB\-mmemcpy\fR" 4
-.IX Item "-mmemcpy"
-.PD 0
-.IP "\fB\-mno\-memcpy\fR" 4
-.IX Item "-mno-memcpy"
-.PD
-The \fB\-mmemcpy\fR switch makes all block moves call the appropriate
-string function (\fBmemcpy\fR or \fBbcopy\fR) instead of possibly
-generating inline code.
-.IP "\fB\-mmips\-tfile\fR" 4
-.IX Item "-mmips-tfile"
-.PD 0
-.IP "\fB\-mno\-mips\-tfile\fR" 4
-.IX Item "-mno-mips-tfile"
-.PD
-The \fB\-mno\-mips\-tfile\fR switch causes the compiler not
-postprocess the object file with the \fImips-tfile\fR program,
-after the \s-1MIPS\s0 assembler has generated it to add debug support. If
-\&\fImips-tfile\fR is not run, then no local variables will be
-available to the debugger. In addition, \fIstage2\fR and
-\&\fIstage3\fR objects will have the temporary file names passed to the
-assembler embedded in the object file, which means the objects will
-not compare the same. The \fB\-mno\-mips\-tfile\fR switch should only
-be used when there are bugs in the \fImips-tfile\fR program that
-prevents compilation.
-.IP "\fB\-msoft\-float\fR" 4
-.IX Item "-msoft-float"
-Generate output containing library calls for floating point.
-\&\fBWarning:\fR the requisite libraries are not part of \s-1GCC\s0.
-Normally the facilities of the machine's usual C compiler are used, but
-this can't be done directly in cross\-compilation. You must make your
-own arrangements to provide suitable library functions for
-cross\-compilation.
-.IP "\fB\-mhard\-float\fR" 4
-.IX Item "-mhard-float"
-Generate output containing floating point instructions. This is the
-default if you use the unmodified sources.
-.IP "\fB\-mabicalls\fR" 4
-.IX Item "-mabicalls"
-.PD 0
-.IP "\fB\-mno\-abicalls\fR" 4
-.IX Item "-mno-abicalls"
-.PD
-Emit (or do not emit) the pseudo operations \fB.abicalls\fR,
-\&\fB.cpload\fR, and \fB.cprestore\fR that some System V.4 ports use for
-position independent code.
-.IP "\fB\-mlong\-calls\fR" 4
-.IX Item "-mlong-calls"
-.PD 0
-.IP "\fB\-mno\-long\-calls\fR" 4
-.IX Item "-mno-long-calls"
-.PD
-Do all calls with the \fB\s-1JALR\s0\fR instruction, which requires
-loading up a function's address into a register before the call.
-You need to use this switch, if you call outside of the current
-512 megabyte segment to functions that are not through pointers.
-.IP "\fB\-mhalf\-pic\fR" 4
-.IX Item "-mhalf-pic"
-.PD 0
-.IP "\fB\-mno\-half\-pic\fR" 4
-.IX Item "-mno-half-pic"
-.PD
-Put pointers to extern references into the data section and load them
-up, rather than put the references in the text section.
-.IP "\fB\-membedded\-pic\fR" 4
-.IX Item "-membedded-pic"
-.PD 0
-.IP "\fB\-mno\-embedded\-pic\fR" 4
-.IX Item "-mno-embedded-pic"
-.PD
-Generate \s-1PIC\s0 code suitable for some embedded systems. All calls are
-made using \s-1PC\s0 relative address, and all data is addressed using the \f(CW$gp\fR
-register. No more than 65536 bytes of global data may be used. This
-requires \s-1GNU\s0 as and \s-1GNU\s0 ld which do most of the work. This currently
-only works on targets which use \s-1ECOFF\s0; it does not work with \s-1ELF\s0.
-.IP "\fB\-membedded\-data\fR" 4
-.IX Item "-membedded-data"
-.PD 0
-.IP "\fB\-mno\-embedded\-data\fR" 4
-.IX Item "-mno-embedded-data"
-.PD
-Allocate variables to the read-only data section first if possible, then
-next in the small data section if possible, otherwise in data. This gives
-slightly slower code than the default, but reduces the amount of \s-1RAM\s0 required
-when executing, and thus may be preferred for some embedded systems.
-.IP "\fB\-muninit\-const\-in\-rodata\fR" 4
-.IX Item "-muninit-const-in-rodata"
-.PD 0
-.IP "\fB\-mno\-uninit\-const\-in\-rodata\fR" 4
-.IX Item "-mno-uninit-const-in-rodata"
-.PD
-When used together with \fB\-membedded\-data\fR, it will always store uninitialized
-const variables in the read-only data section.
-.IP "\fB\-msingle\-float\fR" 4
-.IX Item "-msingle-float"
-.PD 0
-.IP "\fB\-mdouble\-float\fR" 4
-.IX Item "-mdouble-float"
-.PD
-The \fB\-msingle\-float\fR switch tells gcc to assume that the floating
-point coprocessor only supports single precision operations, as on the
-\&\fBr4650\fR chip. The \fB\-mdouble\-float\fR switch permits gcc to use
-double precision operations. This is the default.
-.IP "\fB\-mmad\fR" 4
-.IX Item "-mmad"
-.PD 0
-.IP "\fB\-mno\-mad\fR" 4
-.IX Item "-mno-mad"
-.PD
-Permit use of the \fBmad\fR, \fBmadu\fR and \fBmul\fR instructions,
-as on the \fBr4650\fR chip.
-.IP "\fB\-m4650\fR" 4
-.IX Item "-m4650"
-Turns on \fB\-msingle\-float\fR, \fB\-mmad\fR, and, at least for now,
-\&\fB\-mcpu=r4650\fR.
-.IP "\fB\-mips16\fR" 4
-.IX Item "-mips16"
-.PD 0
-.IP "\fB\-mno\-mips16\fR" 4
-.IX Item "-mno-mips16"
-.PD
-Enable 16\-bit instructions.
-.IP "\fB\-mentry\fR" 4
-.IX Item "-mentry"
-Use the entry and exit pseudo ops. This option can only be used with
-\&\fB\-mips16\fR.
-.IP "\fB\-EL\fR" 4
-.IX Item "-EL"
-Compile code for the processor in little endian mode.
-The requisite libraries are assumed to exist.
-.IP "\fB\-EB\fR" 4
-.IX Item "-EB"
-Compile code for the processor in big endian mode.
-The requisite libraries are assumed to exist.
-.IP "\fB\-G\fR \fInum\fR" 4
-.IX Item "-G num"
-Put global and static items less than or equal to \fInum\fR bytes into
-the small data or bss sections instead of the normal data or bss
-section. This allows the assembler to emit one word memory reference
-instructions based on the global pointer (\fIgp\fR or \fI$28\fR),
-instead of the normal two words used. By default, \fInum\fR is 8 when
-the \s-1MIPS\s0 assembler is used, and 0 when the \s-1GNU\s0 assembler is used. The
-\&\fB\-G\fR \fInum\fR switch is also passed to the assembler and linker.
-All modules should be compiled with the same \fB\-G\fR \fInum\fR
-value.
-.IP "\fB\-nocpp\fR" 4
-.IX Item "-nocpp"
-Tell the \s-1MIPS\s0 assembler to not run its preprocessor over user
-assembler files (with a \fB.s\fR suffix) when assembling them.
-.IP "\fB\-mfix7000\fR" 4
-.IX Item "-mfix7000"
-Pass an option to gas which will cause nops to be inserted if
-the read of the destination register of an mfhi or mflo instruction
-occurs in the following two instructions.
-.IP "\fB\-no\-crt0\fR" 4
-.IX Item "-no-crt0"
-Do not include the default crt0.
-.IP "\fB\-mflush\-func=\fR\fIfunc\fR" 4
-.IX Item "-mflush-func=func"
-.PD 0
-.IP "\fB\-mno\-flush\-func\fR" 4
-.IX Item "-mno-flush-func"
-.PD
-Specifies the function to call to flush the I and D caches, or to not
-call any such function. If called, the function must take the same
-arguments as the common \f(CW\*(C`_flush_func()\*(C'\fR, that is, the address of the
-memory range for which the cache is being flushed, the size of the
-memory range, and the number 3 (to flush both caches). The default
-depends on the target gcc was configured for, but commonly is either
-\&\fB_flush_func\fR or \fB_\|_cpu_flush\fR.
-.IP "\fB\-mbranch\-likely\fR" 4
-.IX Item "-mbranch-likely"
-.PD 0
-.IP "\fB\-mno\-branch\-likely\fR" 4
-.IX Item "-mno-branch-likely"
-.PD
-Enable or disable use of Branch Likely instructions, regardless of the
-default for the selected architecture. By default, Branch Likely
-instructions may be generated if they are supported by the selected
-architecture. An exception is for the \s-1MIPS32\s0 and \s-1MIPS64\s0 architectures
-and processors which implement those architectures; for those, Branch
-Likely instructions will not be generated by default because the \s-1MIPS32\s0
-and \s-1MIPS64\s0 architectures specifically deprecate their use.
-.PP
-\fIIntel 386 and \s-1AMD\s0 x86\-64 Options\fR
-.IX Subsection "Intel 386 and AMD x86-64 Options"
-.PP
-These \fB\-m\fR options are defined for the i386 and x86\-64 family of
-computers:
-.IP "\fB\-mcpu=\fR\fIcpu-type\fR" 4
-.IX Item "-mcpu=cpu-type"
-Tune to \fIcpu-type\fR everything applicable about the generated code, except
-for the \s-1ABI\s0 and the set of available instructions. The choices for
-\&\fIcpu-type\fR are \fBi386\fR, \fBi486\fR, \fBi586\fR, \fBi686\fR,
-\&\fBpentium\fR, \fBpentium-mmx\fR, \fBpentiumpro\fR, \fBpentium2\fR,
-\&\fBpentium3\fR, \fBpentium4\fR, \fBprescott\fR, \fBnocona\fR,
-\&\fBk6\fR, \fBk6\-2\fR, \fBk6\-3\fR,
-\&\fBathlon\fR, \fBathlon-tbird\fR, \fBathlon\-4\fR, \fBathlon-xp\fR,
-\&\fBathlon-mp\fR, \fBwinchip\-c6\fR, \fBwinchip2\fR and \fBc3\fR.
-.Sp
-While picking a specific \fIcpu-type\fR will schedule things appropriately
-for that particular chip, the compiler will not generate any code that
-does not run on the i386 without the \fB\-march=\fR\fIcpu-type\fR option
-being used. \fBi586\fR is equivalent to \fBpentium\fR and \fBi686\fR
-is equivalent to \fBpentiumpro\fR. \fBk6\fR and \fBathlon\fR are the
-\&\s-1AMD\s0 chips as opposed to the Intel ones.
-.IP "\fB\-march=\fR\fIcpu-type\fR" 4
-.IX Item "-march=cpu-type"
-Generate instructions for the machine type \fIcpu-type\fR. The choices
-for \fIcpu-type\fR are the same as for \fB\-mcpu\fR. Moreover,
-specifying \fB\-march=\fR\fIcpu-type\fR implies \fB\-mcpu=\fR\fIcpu-type\fR.
-.IP "\fB\-m386\fR" 4
-.IX Item "-m386"
-.PD 0
-.IP "\fB\-m486\fR" 4
-.IX Item "-m486"
-.IP "\fB\-mpentium\fR" 4
-.IX Item "-mpentium"
-.IP "\fB\-mpentiumpro\fR" 4
-.IX Item "-mpentiumpro"
-.PD
-These options are synonyms for \fB\-mcpu=i386\fR, \fB\-mcpu=i486\fR,
-\&\fB\-mcpu=pentium\fR, and \fB\-mcpu=pentiumpro\fR respectively.
-These synonyms are deprecated.
-.IP "\fB\-mfpmath=\fR\fIunit\fR" 4
-.IX Item "-mfpmath=unit"
-Generate floating point arithmetics for selected unit \fIunit\fR. The choices
-for \fIunit\fR are:
-.RS 4
-.IP "\fB387\fR" 4
-.IX Item "387"
-Use the standard 387 floating point coprocessor present majority of chips and
-emulated otherwise. Code compiled with this option will run almost everywhere.
-The temporary results are computed in 80bit precision instead of precision
-specified by the type resulting in slightly different results compared to most
-of other chips. See \fB\-ffloat\-store\fR for more detailed description.
-.Sp
-This is the default choice for i386 compiler.
-.IP "\fBsse\fR" 4
-.IX Item "sse"
-Use scalar floating point instructions present in the \s-1SSE\s0 instruction set.
-This instruction set is supported by Pentium3 and newer chips, in the \s-1AMD\s0 line
-by Athlon\-4, Athlon-xp and Athlon-mp chips. The earlier version of \s-1SSE\s0
-instruction set supports only single precision arithmetics, thus the double and
-extended precision arithmetics is still done using 387. Later version, present
-only in Pentium4 and the future \s-1AMD\s0 x86\-64 chips supports double precision
-arithmetics too.
-.Sp
-For i387 you need to use \fB\-march=\fR\fIcpu-type\fR, \fB\-msse\fR or
-\&\fB\-msse2\fR switches to enable \s-1SSE\s0 extensions and make this option
-effective. For x86\-64 compiler, these extensions are enabled by default.
-.Sp
-The resulting code should be considerably faster in the majority of cases and avoid
-the numerical instability problems of 387 code, but may break some existing
-code that expects temporaries to be 80bit.
-.Sp
-This is the default choice for the x86\-64 compiler.
-.IP "\fBsse,387\fR" 4
-.IX Item "sse,387"
-Attempt to utilize both instruction sets at once. This effectively double the
-amount of available registers and on chips with separate execution units for
-387 and \s-1SSE\s0 the execution resources too. Use this option with care, as it is
-still experimental, because the gcc register allocator does not model separate
-functional units well.
-.RE
-.RS 4
-.RE
-.IP "\fB\-masm=\fR\fIdialect\fR" 4
-.IX Item "-masm=dialect"
-Output asm instructions using selected \fIdialect\fR. Supported choices are
-\&\fBintel\fR or \fBatt\fR (the default one).
-.IP "\fB\-mieee\-fp\fR" 4
-.IX Item "-mieee-fp"
-.PD 0
-.IP "\fB\-mno\-ieee\-fp\fR" 4
-.IX Item "-mno-ieee-fp"
-.PD
-Control whether or not the compiler uses \s-1IEEE\s0 floating point
-comparisons. These handle correctly the case where the result of a
-comparison is unordered.
-.IP "\fB\-msoft\-float\fR" 4
-.IX Item "-msoft-float"
-Generate output containing library calls for floating point.
-\&\fBWarning:\fR the requisite libraries are not part of \s-1GCC\s0.
-Normally the facilities of the machine's usual C compiler are used, but
-this can't be done directly in cross\-compilation. You must make your
-own arrangements to provide suitable library functions for
-cross\-compilation.
-.Sp
-On machines where a function returns floating point results in the 80387
-register stack, some floating point opcodes may be emitted even if
-\&\fB\-msoft\-float\fR is used.
-.IP "\fB\-mno\-fp\-ret\-in\-387\fR" 4
-.IX Item "-mno-fp-ret-in-387"
-Do not use the \s-1FPU\s0 registers for return values of functions.
-.Sp
-The usual calling convention has functions return values of types
-\&\f(CW\*(C`float\*(C'\fR and \f(CW\*(C`double\*(C'\fR in an \s-1FPU\s0 register, even if there
-is no \s-1FPU\s0. The idea is that the operating system should emulate
-an \s-1FPU\s0.
-.Sp
-The option \fB\-mno\-fp\-ret\-in\-387\fR causes such values to be returned
-in ordinary \s-1CPU\s0 registers instead.
-.IP "\fB\-mno\-fancy\-math\-387\fR" 4
-.IX Item "-mno-fancy-math-387"
-Some 387 emulators do not support the \f(CW\*(C`sin\*(C'\fR, \f(CW\*(C`cos\*(C'\fR and
-\&\f(CW\*(C`sqrt\*(C'\fR instructions for the 387. Specify this option to avoid
-generating those instructions. This option is the default on FreeBSD,
-OpenBSD and NetBSD. This option is overridden when \fB\-march\fR
-indicates that the target cpu will always have an \s-1FPU\s0 and so the
-instruction will not need emulation. As of revision 2.6.1, these
-instructions are not generated unless you also use the
-\&\fB\-funsafe\-math\-optimizations\fR switch.
-.IP "\fB\-malign\-double\fR" 4
-.IX Item "-malign-double"
-.PD 0
-.IP "\fB\-mno\-align\-double\fR" 4
-.IX Item "-mno-align-double"
-.PD
-Control whether \s-1GCC\s0 aligns \f(CW\*(C`double\*(C'\fR, \f(CW\*(C`long double\*(C'\fR, and
-\&\f(CW\*(C`long long\*(C'\fR variables on a two word boundary or a one word
-boundary. Aligning \f(CW\*(C`double\*(C'\fR variables on a two word boundary will
-produce code that runs somewhat faster on a \fBPentium\fR at the
-expense of more memory.
-.Sp
-\&\fBWarning:\fR if you use the \fB\-malign\-double\fR switch,
-structures containing the above types will be aligned differently than
-the published application binary interface specifications for the 386
-and will not be binary compatible with structures in code compiled
-without that switch.
-.IP "\fB\-m96bit\-long\-double\fR" 4
-.IX Item "-m96bit-long-double"
-.PD 0
-.IP "\fB\-m128bit\-long\-double\fR" 4
-.IX Item "-m128bit-long-double"
-.PD
-These switches control the size of \f(CW\*(C`long double\*(C'\fR type. The i386
-application binary interface specifies the size to be 96 bits,
-so \fB\-m96bit\-long\-double\fR is the default in 32 bit mode.
-.Sp
-Modern architectures (Pentium and newer) would prefer \f(CW\*(C`long double\*(C'\fR
-to be aligned to an 8 or 16 byte boundary. In arrays or structures
-conforming to the \s-1ABI\s0, this would not be possible. So specifying a
-\&\fB\-m128bit\-long\-double\fR will align \f(CW\*(C`long double\*(C'\fR
-to a 16 byte boundary by padding the \f(CW\*(C`long double\*(C'\fR with an additional
-32 bit zero.
-.Sp
-In the x86\-64 compiler, \fB\-m128bit\-long\-double\fR is the default choice as
-its \s-1ABI\s0 specifies that \f(CW\*(C`long double\*(C'\fR is to be aligned on 16 byte boundary.
-.Sp
-Notice that neither of these options enable any extra precision over the x87
-standard of 80 bits for a \f(CW\*(C`long double\*(C'\fR.
-.Sp
-\&\fBWarning:\fR if you override the default value for your target \s-1ABI\s0, the
-structures and arrays containing \f(CW\*(C`long double\*(C'\fR variables will change their size as
-well as function calling convention for function taking \f(CW\*(C`long double\*(C'\fR
-will be modified. Hence they will not be binary compatible with arrays or
-structures in code compiled without that switch.
-.IP "\fB\-msvr3\-shlib\fR" 4
-.IX Item "-msvr3-shlib"
-.PD 0
-.IP "\fB\-mno\-svr3\-shlib\fR" 4
-.IX Item "-mno-svr3-shlib"
-.PD
-Control whether \s-1GCC\s0 places uninitialized local variables into the
-\&\f(CW\*(C`bss\*(C'\fR or \f(CW\*(C`data\*(C'\fR segments. \fB\-msvr3\-shlib\fR places them
-into \f(CW\*(C`bss\*(C'\fR. These options are meaningful only on System V Release 3.
-.IP "\fB\-mrtd\fR" 4
-.IX Item "-mrtd"
-Use a different function-calling convention, in which functions that
-take a fixed number of arguments return with the \f(CW\*(C`ret\*(C'\fR \fInum\fR
-instruction, which pops their arguments while returning. This saves one
-instruction in the caller since there is no need to pop the arguments
-there.
-.Sp
-You can specify that an individual function is called with this calling
-sequence with the function attribute \fBstdcall\fR. You can also
-override the \fB\-mrtd\fR option by using the function attribute
-\&\fBcdecl\fR.
-.Sp
-\&\fBWarning:\fR this calling convention is incompatible with the one
-normally used on Unix, so you cannot use it if you need to call
-libraries compiled with the Unix compiler.
-.Sp
-Also, you must provide function prototypes for all functions that
-take variable numbers of arguments (including \f(CW\*(C`printf\*(C'\fR);
-otherwise incorrect code will be generated for calls to those
-functions.
-.Sp
-In addition, seriously incorrect code will result if you call a
-function with too many arguments. (Normally, extra arguments are
-harmlessly ignored.)
-.IP "\fB\-mregparm=\fR\fInum\fR" 4
-.IX Item "-mregparm=num"
-Control how many registers are used to pass integer arguments. By
-default, no registers are used to pass arguments, and at most 3
-registers can be used. You can control this behavior for a specific
-function by using the function attribute \fBregparm\fR.
-.Sp
-\&\fBWarning:\fR if you use this switch, and
-\&\fInum\fR is nonzero, then you must build all modules with the same
-value, including any libraries. This includes the system libraries and
-startup modules.
-.IP "\fB\-mpreferred\-stack\-boundary=\fR\fInum\fR" 4
-.IX Item "-mpreferred-stack-boundary=num"
-Attempt to keep the stack boundary aligned to a 2 raised to \fInum\fR
-byte boundary. If \fB\-mpreferred\-stack\-boundary\fR is not specified,
-the default is 4 (16 bytes or 128 bits), except when optimizing for code
-size (\fB\-Os\fR), in which case the default is the minimum correct
-alignment (4 bytes for x86, and 8 bytes for x86\-64).
-.Sp
-On Pentium and PentiumPro, \f(CW\*(C`double\*(C'\fR and \f(CW\*(C`long double\*(C'\fR values
-should be aligned to an 8 byte boundary (see \fB\-malign\-double\fR) or
-suffer significant run time performance penalties. On Pentium \s-1III\s0, the
-Streaming \s-1SIMD\s0 Extension (\s-1SSE\s0) data type \f(CW\*(C`_\|_m128\*(C'\fR suffers similar
-penalties if it is not 16 byte aligned.
-.Sp
-To ensure proper alignment of this values on the stack, the stack boundary
-must be as aligned as that required by any value stored on the stack.
-Further, every function must be generated such that it keeps the stack
-aligned. Thus calling a function compiled with a higher preferred
-stack boundary from a function compiled with a lower preferred stack
-boundary will most likely misalign the stack. It is recommended that
-libraries that use callbacks always use the default setting.
-.Sp
-This extra alignment does consume extra stack space, and generally
-increases code size. Code that is sensitive to stack space usage, such
-as embedded systems and operating system kernels, may want to reduce the
-preferred alignment to \fB\-mpreferred\-stack\-boundary=2\fR.
-.IP "\fB\-mmmx\fR" 4
-.IX Item "-mmmx"
-.PD 0
-.IP "\fB\-mno\-mmx\fR" 4
-.IX Item "-mno-mmx"
-.IP "\fB\-msse\fR" 4
-.IX Item "-msse"
-.IP "\fB\-mno\-sse\fR" 4
-.IX Item "-mno-sse"
-.IP "\fB\-msse2\fR" 4
-.IX Item "-msse2"
-.IP "\fB\-mno\-sse2\fR" 4
-.IX Item "-mno-sse2"
-.IP "\fB\-msse3\fR" 4
-.IX Item "-msse3"
-.IP "\fB\-mno\-sse3\fR" 4
-.IX Item "-mno-sse3"
-.IP "\fB\-m3dnow\fR" 4
-.IX Item "-m3dnow"
-.IP "\fB\-mno\-3dnow\fR" 4
-.IX Item "-mno-3dnow"
-.PD
-These switches enable or disable the use of built-in functions that allow
-direct access to the \s-1MMX\s0, \s-1SSE\s0, \s-1SSE2\s0, \s-1SSE3\s0 and 3Dnow extensions of the
-instruction set.
-.Sp
-To have \s-1SSE/SSE2\s0 instructions generated automatically from floating-point
-code, see \fB\-mfpmath=sse\fR.
-.IP "\fB\-mpush\-args\fR" 4
-.IX Item "-mpush-args"
-.PD 0
-.IP "\fB\-mno\-push\-args\fR" 4
-.IX Item "-mno-push-args"
-.PD
-Use \s-1PUSH\s0 operations to store outgoing parameters. This method is shorter
-and usually equally fast as method using \s-1SUB/MOV\s0 operations and is enabled
-by default. In some cases disabling it may improve performance because of
-improved scheduling and reduced dependencies.
-.IP "\fB\-maccumulate\-outgoing\-args\fR" 4
-.IX Item "-maccumulate-outgoing-args"
-If enabled, the maximum amount of space required for outgoing arguments will be
-computed in the function prologue. This is faster on most modern CPUs
-because of reduced dependencies, improved scheduling and reduced stack usage
-when preferred stack boundary is not equal to 2. The drawback is a notable
-increase in code size. This switch implies \fB\-mno\-push\-args\fR.
-.IP "\fB\-mthreads\fR" 4
-.IX Item "-mthreads"
-Support thread-safe exception handling on \fBMingw32\fR. Code that relies
-on thread-safe exception handling must compile and link all code with the
-\&\fB\-mthreads\fR option. When compiling, \fB\-mthreads\fR defines
-\&\fB\-D_MT\fR; when linking, it links in a special thread helper library
-\&\fB\-lmingwthrd\fR which cleans up per thread exception handling data.
-.IP "\fB\-mno\-align\-stringops\fR" 4
-.IX Item "-mno-align-stringops"
-Do not align destination of inlined string operations. This switch reduces
-code size and improves performance in case the destination is already aligned,
-but gcc don't know about it.
-.IP "\fB\-minline\-all\-stringops\fR" 4
-.IX Item "-minline-all-stringops"
-By default \s-1GCC\s0 inlines string operations only when destination is known to be
-aligned at least to 4 byte boundary. This enables more inlining, increase code
-size, but may improve performance of code that depends on fast memcpy, strlen
-and memset for short lengths.
-.IP "\fB\-momit\-leaf\-frame\-pointer\fR" 4
-.IX Item "-momit-leaf-frame-pointer"
-Don't keep the frame pointer in a register for leaf functions. This
-avoids the instructions to save, set up and restore frame pointers and
-makes an extra register available in leaf functions. The option
-\&\fB\-fomit\-frame\-pointer\fR removes the frame pointer for all functions
-which might make debugging harder.
-.PP
-These \fB\-m\fR switches are supported in addition to the above
-on \s-1AMD\s0 x86\-64 processors in 64\-bit environments.
-.IP "\fB\-m32\fR" 4
-.IX Item "-m32"
-.PD 0
-.IP "\fB\-m64\fR" 4
-.IX Item "-m64"
-.PD
-Generate code for a 32\-bit or 64\-bit environment.
-The 32\-bit environment sets int, long and pointer to 32 bits and
-generates code that runs on any i386 system.
-The 64\-bit environment sets int to 32 bits and long and pointer
-to 64 bits and generates code for \s-1AMD\s0's x86\-64 architecture.
-.IP "\fB\-mno\-red\-zone\fR" 4
-.IX Item "-mno-red-zone"
-Do not use a so called red zone for x86\-64 code. The red zone is mandated
-by the x86\-64 \s-1ABI\s0, it is a 128\-byte area beyond the location of the
-stack pointer that will not be modified by signal or interrupt handlers
-and therefore can be used for temporary data without adjusting the stack
-pointer. The flag \fB\-mno\-red\-zone\fR disables this red zone.
-.IP "\fB\-mcmodel=small\fR" 4
-.IX Item "-mcmodel=small"
-Generate code for the small code model: the program and its symbols must
-be linked in the lower 2 \s-1GB\s0 of the address space. Pointers are 64 bits.
-Programs can be statically or dynamically linked. This is the default
-code model.
-.IP "\fB\-mcmodel=kernel\fR" 4
-.IX Item "-mcmodel=kernel"
-Generate code for the kernel code model. The kernel runs in the
-negative 2 \s-1GB\s0 of the address space.
-This model has to be used for Linux kernel code.
-.IP "\fB\-mcmodel=medium\fR" 4
-.IX Item "-mcmodel=medium"
-Generate code for the medium model: The program is linked in the lower 2
-\&\s-1GB\s0 of the address space but symbols can be located anywhere in the
-address space. Programs can be statically or dynamically linked, but
-building of shared libraries are not supported with the medium model.
-.IP "\fB\-mcmodel=large\fR" 4
-.IX Item "-mcmodel=large"
-Generate code for the large model: This model makes no assumptions
-about addresses and sizes of sections. Currently \s-1GCC\s0 does not implement
-this model.
-.PP
-\fI\s-1HPPA\s0 Options\fR
-.IX Subsection "HPPA Options"
-.PP
-These \fB\-m\fR options are defined for the \s-1HPPA\s0 family of computers:
-.IP "\fB\-march=\fR\fIarchitecture-type\fR" 4
-.IX Item "-march=architecture-type"
-Generate code for the specified architecture. The choices for
-\&\fIarchitecture-type\fR are \fB1.0\fR for \s-1PA\s0 1.0, \fB1.1\fR for \s-1PA\s0
-1.1, and \fB2.0\fR for \s-1PA\s0 2.0 processors. Refer to
-\&\fI/usr/lib/sched.models\fR on an HP-UX system to determine the proper
-architecture option for your machine. Code compiled for lower numbered
-architectures will run on higher numbered architectures, but not the
-other way around.
-.Sp
-\&\s-1PA\s0 2.0 support currently requires gas snapshot 19990413 or later. The
-next release of binutils (current is 2.9.1) will probably contain \s-1PA\s0 2.0
-support.
-.IP "\fB\-mpa\-risc\-1\-0\fR" 4
-.IX Item "-mpa-risc-1-0"
-.PD 0
-.IP "\fB\-mpa\-risc\-1\-1\fR" 4
-.IX Item "-mpa-risc-1-1"
-.IP "\fB\-mpa\-risc\-2\-0\fR" 4
-.IX Item "-mpa-risc-2-0"
-.PD
-Synonyms for \fB\-march=1.0\fR, \fB\-march=1.1\fR, and \fB\-march=2.0\fR respectively.
-.IP "\fB\-mbig\-switch\fR" 4
-.IX Item "-mbig-switch"
-Generate code suitable for big switch tables. Use this option only if
-the assembler/linker complain about out of range branches within a switch
-table.
-.IP "\fB\-mjump\-in\-delay\fR" 4
-.IX Item "-mjump-in-delay"
-Fill delay slots of function calls with unconditional jump instructions
-by modifying the return pointer for the function call to be the target
-of the conditional jump.
-.IP "\fB\-mdisable\-fpregs\fR" 4
-.IX Item "-mdisable-fpregs"
-Prevent floating point registers from being used in any manner. This is
-necessary for compiling kernels which perform lazy context switching of
-floating point registers. If you use this option and attempt to perform
-floating point operations, the compiler will abort.
-.IP "\fB\-mdisable\-indexing\fR" 4
-.IX Item "-mdisable-indexing"
-Prevent the compiler from using indexing address modes. This avoids some
-rather obscure problems when compiling \s-1MIG\s0 generated code under \s-1MACH\s0.
-.IP "\fB\-mno\-space\-regs\fR" 4
-.IX Item "-mno-space-regs"
-Generate code that assumes the target has no space registers. This allows
-\&\s-1GCC\s0 to generate faster indirect calls and use unscaled index address modes.
-.Sp
-Such code is suitable for level 0 \s-1PA\s0 systems and kernels.
-.IP "\fB\-mfast\-indirect\-calls\fR" 4
-.IX Item "-mfast-indirect-calls"
-Generate code that assumes calls never cross space boundaries. This
-allows \s-1GCC\s0 to emit code which performs faster indirect calls.
-.Sp
-This option will not work in the presence of shared libraries or nested
-functions.
-.IP "\fB\-mlong\-load\-store\fR" 4
-.IX Item "-mlong-load-store"
-Generate 3\-instruction load and store sequences as sometimes required by
-the HP-UX 10 linker. This is equivalent to the \fB+k\fR option to
-the \s-1HP\s0 compilers.
-.IP "\fB\-mportable\-runtime\fR" 4
-.IX Item "-mportable-runtime"
-Use the portable calling conventions proposed by \s-1HP\s0 for \s-1ELF\s0 systems.
-.IP "\fB\-mgas\fR" 4
-.IX Item "-mgas"
-Enable the use of assembler directives only \s-1GAS\s0 understands.
-.IP "\fB\-mschedule=\fR\fIcpu-type\fR" 4
-.IX Item "-mschedule=cpu-type"
-Schedule code according to the constraints for the machine type
-\&\fIcpu-type\fR. The choices for \fIcpu-type\fR are \fB700\fR
-\&\fB7100\fR, \fB7100LC\fR, \fB7200\fR, \fB7300\fR and \fB8000\fR. Refer
-to \fI/usr/lib/sched.models\fR on an HP-UX system to determine the
-proper scheduling option for your machine. The default scheduling is
-\&\fB8000\fR.
-.IP "\fB\-mlinker\-opt\fR" 4
-.IX Item "-mlinker-opt"
-Enable the optimization pass in the HP-UX linker. Note this makes symbolic
-debugging impossible. It also triggers a bug in the HP-UX 8 and HP-UX 9
-linkers in which they give bogus error messages when linking some programs.
-.IP "\fB\-msoft\-float\fR" 4
-.IX Item "-msoft-float"
-Generate output containing library calls for floating point.
-\&\fBWarning:\fR the requisite libraries are not available for all \s-1HPPA\s0
-targets. Normally the facilities of the machine's usual C compiler are
-used, but this cannot be done directly in cross\-compilation. You must make
-your own arrangements to provide suitable library functions for
-cross\-compilation. The embedded target \fBhppa1.1\-*\-pro\fR
-does provide software floating point support.
-.Sp
-\&\fB\-msoft\-float\fR changes the calling convention in the output file;
-therefore, it is only useful if you compile \fIall\fR of a program with
-this option. In particular, you need to compile \fIlibgcc.a\fR, the
-library that comes with \s-1GCC\s0, with \fB\-msoft\-float\fR in order for
-this to work.
-.IP "\fB\-msio\fR" 4
-.IX Item "-msio"
-Generate the predefine, \f(CW\*(C`_SIO\*(C'\fR, for server \s-1IO\s0. The default is
-\&\fB\-mwsio\fR. This generates the predefines, \f(CW\*(C`_\|_hp9000s700\*(C'\fR,
-\&\f(CW\*(C`_\|_hp9000s700_\|_\*(C'\fR and \f(CW\*(C`_WSIO\*(C'\fR, for workstation \s-1IO\s0. These
-options are available under HP-UX and \s-1HI\-UX\s0.
-.IP "\fB\-mgnu\-ld\fR" 4
-.IX Item "-mgnu-ld"
-Use \s-1GNU\s0 ld specific options. This passes \fB\-shared\fR to ld when
-building a shared library. It is the default when \s-1GCC\s0 is configured,
-explicitly or implicitly, with the \s-1GNU\s0 linker. This option does not
-have any affect on which ld is called, it only changes what parameters
-are passed to that ld. The ld that is called is determined by the
-\&\fB\-\-with\-ld\fR configure option, gcc's program search path, and
-finally by the user's \fB\s-1PATH\s0\fR. The linker used by \s-1GCC\s0 can be printed
-using \fBwhich `gcc \-print\-prog\-name=ld`\fR.
-.IP "\fB\-mhp\-ld\fR" 4
-.IX Item "-mhp-ld"
-Use \s-1HP\s0 ld specific options. This passes \fB\-b\fR to ld when building
-a shared library and passes \fB+Accept TypeMismatch\fR to ld on all
-links. It is the default when \s-1GCC\s0 is configured, explicitly or
-implicitly, with the \s-1HP\s0 linker. This option does not have any affect on
-which ld is called, it only changes what parameters are passed to that
-ld. The ld that is called is determined by the \fB\-\-with\-ld\fR
-configure option, gcc's program search path, and finally by the user's
-\&\fB\s-1PATH\s0\fR. The linker used by \s-1GCC\s0 can be printed using \fBwhich
-`gcc \-print\-prog\-name=ld`\fR.
-.IP "\fB\-mlong\-calls\fR" 4
-.IX Item "-mlong-calls"
-Generate code that uses long call sequences. This ensures that a call
-is always able to reach linker generated stubs. The default is to generate
-long calls only when the distance from the call site to the beginning
-of the function or translation unit, as the case may be, exceeds a
-predefined limit set by the branch type being used. The limits for
-normal calls are 7,600,000 and 240,000 bytes, respectively for the
-\&\s-1PA\s0 2.0 and \s-1PA\s0 1.X architectures. Sibcalls are always limited at
-240,000 bytes.
-.Sp
-Distances are measured from the beginning of functions when using the
-\&\fB\-ffunction\-sections\fR option, or when using the \fB\-mgas\fR
-and \fB\-mno\-portable\-runtime\fR options together under HP-UX with
-the \s-1SOM\s0 linker.
-.Sp
-It is normally not desirable to use this option as it will degrade
-performance. However, it may be useful in large applications,
-particularly when partial linking is used to build the application.
-.Sp
-The types of long calls used depends on the capabilities of the
-assembler and linker, and the type of code being generated. The
-impact on systems that support long absolute calls, and long pic
-symbol-difference or pc-relative calls should be relatively small.
-However, an indirect call is used on 32\-bit \s-1ELF\s0 systems in pic code
-and it is quite long.
-.IP "\fB\-nolibdld\fR" 4
-.IX Item "-nolibdld"
-Suppress the generation of link options to search libdld.sl when the
-\&\fB\-static\fR option is specified on HP-UX 10 and later.
-.IP "\fB\-static\fR" 4
-.IX Item "-static"
-The HP-UX implementation of setlocale in libc has a dependency on
-libdld.sl. There isn't an archive version of libdld.sl. Thus,
-when the \fB\-static\fR option is specified, special link options
-are needed to resolve this dependency.
-.Sp
-On HP-UX 10 and later, the \s-1GCC\s0 driver adds the necessary options to
-link with libdld.sl when the \fB\-static\fR option is specified.
-This causes the resulting binary to be dynamic. On the 64\-bit port,
-the linkers generate dynamic binaries by default in any case. The
-\&\fB\-nolibdld\fR option can be used to prevent the \s-1GCC\s0 driver from
-adding these link options.
-.IP "\fB\-threads\fR" 4
-.IX Item "-threads"
-Add support for multithreading with the \fIdce thread\fR library
-under \s-1HP\-UX\s0. This option sets flags for both the preprocessor and
-linker.
-.PP
-\fIIntel 960 Options\fR
-.IX Subsection "Intel 960 Options"
-.PP
-These \fB\-m\fR options are defined for the Intel 960 implementations:
-.IP "\fB\-m\fR\fIcpu-type\fR" 4
-.IX Item "-mcpu-type"
-Assume the defaults for the machine type \fIcpu-type\fR for some of
-the other options, including instruction scheduling, floating point
-support, and addressing modes. The choices for \fIcpu-type\fR are
-\&\fBka\fR, \fBkb\fR, \fBmc\fR, \fBca\fR, \fBcf\fR,
-\&\fBsa\fR, and \fBsb\fR.
-The default is
-\&\fBkb\fR.
-.IP "\fB\-mnumerics\fR" 4
-.IX Item "-mnumerics"
-.PD 0
-.IP "\fB\-msoft\-float\fR" 4
-.IX Item "-msoft-float"
-.PD
-The \fB\-mnumerics\fR option indicates that the processor does support
-floating-point instructions. The \fB\-msoft\-float\fR option indicates
-that floating-point support should not be assumed.
-.IP "\fB\-mleaf\-procedures\fR" 4
-.IX Item "-mleaf-procedures"
-.PD 0
-.IP "\fB\-mno\-leaf\-procedures\fR" 4
-.IX Item "-mno-leaf-procedures"
-.PD
-Do (or do not) attempt to alter leaf procedures to be callable with the
-\&\f(CW\*(C`bal\*(C'\fR instruction as well as \f(CW\*(C`call\*(C'\fR. This will result in more
-efficient code for explicit calls when the \f(CW\*(C`bal\*(C'\fR instruction can be
-substituted by the assembler or linker, but less efficient code in other
-cases, such as calls via function pointers, or using a linker that doesn't
-support this optimization.
-.IP "\fB\-mtail\-call\fR" 4
-.IX Item "-mtail-call"
-.PD 0
-.IP "\fB\-mno\-tail\-call\fR" 4
-.IX Item "-mno-tail-call"
-.PD
-Do (or do not) make additional attempts (beyond those of the
-machine-independent portions of the compiler) to optimize tail-recursive
-calls into branches. You may not want to do this because the detection of
-cases where this is not valid is not totally complete. The default is
-\&\fB\-mno\-tail\-call\fR.
-.IP "\fB\-mcomplex\-addr\fR" 4
-.IX Item "-mcomplex-addr"
-.PD 0
-.IP "\fB\-mno\-complex\-addr\fR" 4
-.IX Item "-mno-complex-addr"
-.PD
-Assume (or do not assume) that the use of a complex addressing mode is a
-win on this implementation of the i960. Complex addressing modes may not
-be worthwhile on the K\-series, but they definitely are on the C\-series.
-The default is currently \fB\-mcomplex\-addr\fR for all processors except
-the \s-1CB\s0 and \s-1CC\s0.
-.IP "\fB\-mcode\-align\fR" 4
-.IX Item "-mcode-align"
-.PD 0
-.IP "\fB\-mno\-code\-align\fR" 4
-.IX Item "-mno-code-align"
-.PD
-Align code to 8\-byte boundaries for faster fetching (or don't bother).
-Currently turned on by default for C\-series implementations only.
-.IP "\fB\-mic\-compat\fR" 4
-.IX Item "-mic-compat"
-.PD 0
-.IP "\fB\-mic2.0\-compat\fR" 4
-.IX Item "-mic2.0-compat"
-.IP "\fB\-mic3.0\-compat\fR" 4
-.IX Item "-mic3.0-compat"
-.PD
-Enable compatibility with iC960 v2.0 or v3.0.
-.IP "\fB\-masm\-compat\fR" 4
-.IX Item "-masm-compat"
-.PD 0
-.IP "\fB\-mintel\-asm\fR" 4
-.IX Item "-mintel-asm"
-.PD
-Enable compatibility with the iC960 assembler.
-.IP "\fB\-mstrict\-align\fR" 4
-.IX Item "-mstrict-align"
-.PD 0
-.IP "\fB\-mno\-strict\-align\fR" 4
-.IX Item "-mno-strict-align"
-.PD
-Do not permit (do permit) unaligned accesses.
-.IP "\fB\-mold\-align\fR" 4
-.IX Item "-mold-align"
-Enable structure-alignment compatibility with Intel's gcc release version
-1.3 (based on gcc 1.37). This option implies \fB\-mstrict\-align\fR.
-.IP "\fB\-mlong\-double\-64\fR" 4
-.IX Item "-mlong-double-64"
-Implement type \fBlong double\fR as 64\-bit floating point numbers.
-Without the option \fBlong double\fR is implemented by 80\-bit
-floating point numbers. The only reason we have it because there is
-no 128\-bit \fBlong double\fR support in \fBfp\-bit.c\fR yet. So it
-is only useful for people using soft-float targets. Otherwise, we
-should recommend against use of it.
-.PP
-\fI\s-1DEC\s0 Alpha Options\fR
-.IX Subsection "DEC Alpha Options"
-.PP
-These \fB\-m\fR options are defined for the \s-1DEC\s0 Alpha implementations:
-.IP "\fB\-mno\-soft\-float\fR" 4
-.IX Item "-mno-soft-float"
-.PD 0
-.IP "\fB\-msoft\-float\fR" 4
-.IX Item "-msoft-float"
-.PD
-Use (do not use) the hardware floating-point instructions for
-floating-point operations. When \fB\-msoft\-float\fR is specified,
-functions in \fIlibgcc.a\fR will be used to perform floating-point
-operations. Unless they are replaced by routines that emulate the
-floating-point operations, or compiled in such a way as to call such
-emulations routines, these routines will issue floating-point
-operations. If you are compiling for an Alpha without floating-point
-operations, you must ensure that the library is built so as not to call
-them.
-.Sp
-Note that Alpha implementations without floating-point operations are
-required to have floating-point registers.
-.IP "\fB\-mfp\-reg\fR" 4
-.IX Item "-mfp-reg"
-.PD 0
-.IP "\fB\-mno\-fp\-regs\fR" 4
-.IX Item "-mno-fp-regs"
-.PD
-Generate code that uses (does not use) the floating-point register set.
-\&\fB\-mno\-fp\-regs\fR implies \fB\-msoft\-float\fR. If the floating-point
-register set is not used, floating point operands are passed in integer
-registers as if they were integers and floating-point results are passed
-in \f(CW$0\fR instead of \f(CW$f0\fR. This is a non-standard calling sequence,
-so any function with a floating-point argument or return value called by code
-compiled with \fB\-mno\-fp\-regs\fR must also be compiled with that
-option.
-.Sp
-A typical use of this option is building a kernel that does not use,
-and hence need not save and restore, any floating-point registers.
-.IP "\fB\-mieee\fR" 4
-.IX Item "-mieee"
-The Alpha architecture implements floating-point hardware optimized for
-maximum performance. It is mostly compliant with the \s-1IEEE\s0 floating
-point standard. However, for full compliance, software assistance is
-required. This option generates code fully \s-1IEEE\s0 compliant code
-\&\fIexcept\fR that the \fIinexact-flag\fR is not maintained (see below).
-If this option is turned on, the preprocessor macro \f(CW\*(C`_IEEE_FP\*(C'\fR is
-defined during compilation. The resulting code is less efficient but is
-able to correctly support denormalized numbers and exceptional \s-1IEEE\s0
-values such as not-a-number and plus/minus infinity. Other Alpha
-compilers call this option \fB\-ieee_with_no_inexact\fR.
-.IP "\fB\-mieee\-with\-inexact\fR" 4
-.IX Item "-mieee-with-inexact"
-This is like \fB\-mieee\fR except the generated code also maintains
-the \s-1IEEE\s0 \fIinexact-flag\fR. Turning on this option causes the
-generated code to implement fully-compliant \s-1IEEE\s0 math. In addition to
-\&\f(CW\*(C`_IEEE_FP\*(C'\fR, \f(CW\*(C`_IEEE_FP_EXACT\*(C'\fR is defined as a preprocessor
-macro. On some Alpha implementations the resulting code may execute
-significantly slower than the code generated by default. Since there is
-very little code that depends on the \fIinexact-flag\fR, you should
-normally not specify this option. Other Alpha compilers call this
-option \fB\-ieee_with_inexact\fR.
-.IP "\fB\-mfp\-trap\-mode=\fR\fItrap-mode\fR" 4
-.IX Item "-mfp-trap-mode=trap-mode"
-This option controls what floating-point related traps are enabled.
-Other Alpha compilers call this option \fB\-fptm\fR \fItrap-mode\fR.
-The trap mode can be set to one of four values:
-.RS 4
-.IP "\fBn\fR" 4
-.IX Item "n"
-This is the default (normal) setting. The only traps that are enabled
-are the ones that cannot be disabled in software (e.g., division by zero
-trap).
-.IP "\fBu\fR" 4
-.IX Item "u"
-In addition to the traps enabled by \fBn\fR, underflow traps are enabled
-as well.
-.IP "\fBsu\fR" 4
-.IX Item "su"
-Like \fBsu\fR, but the instructions are marked to be safe for software
-completion (see Alpha architecture manual for details).
-.IP "\fBsui\fR" 4
-.IX Item "sui"
-Like \fBsu\fR, but inexact traps are enabled as well.
-.RE
-.RS 4
-.RE
-.IP "\fB\-mfp\-rounding\-mode=\fR\fIrounding-mode\fR" 4
-.IX Item "-mfp-rounding-mode=rounding-mode"
-Selects the \s-1IEEE\s0 rounding mode. Other Alpha compilers call this option
-\&\fB\-fprm\fR \fIrounding-mode\fR. The \fIrounding-mode\fR can be one
-of:
-.RS 4
-.IP "\fBn\fR" 4
-.IX Item "n"
-Normal \s-1IEEE\s0 rounding mode. Floating point numbers are rounded towards
-the nearest machine number or towards the even machine number in case
-of a tie.
-.IP "\fBm\fR" 4
-.IX Item "m"
-Round towards minus infinity.
-.IP "\fBc\fR" 4
-.IX Item "c"
-Chopped rounding mode. Floating point numbers are rounded towards zero.
-.IP "\fBd\fR" 4
-.IX Item "d"
-Dynamic rounding mode. A field in the floating point control register
-(\fIfpcr\fR, see Alpha architecture reference manual) controls the
-rounding mode in effect. The C library initializes this register for
-rounding towards plus infinity. Thus, unless your program modifies the
-\&\fIfpcr\fR, \fBd\fR corresponds to round towards plus infinity.
-.RE
-.RS 4
-.RE
-.IP "\fB\-mtrap\-precision=\fR\fItrap-precision\fR" 4
-.IX Item "-mtrap-precision=trap-precision"
-In the Alpha architecture, floating point traps are imprecise. This
-means without software assistance it is impossible to recover from a
-floating trap and program execution normally needs to be terminated.
-\&\s-1GCC\s0 can generate code that can assist operating system trap handlers
-in determining the exact location that caused a floating point trap.
-Depending on the requirements of an application, different levels of
-precisions can be selected:
-.RS 4
-.IP "\fBp\fR" 4
-.IX Item "p"
-Program precision. This option is the default and means a trap handler
-can only identify which program caused a floating point exception.
-.IP "\fBf\fR" 4
-.IX Item "f"
-Function precision. The trap handler can determine the function that
-caused a floating point exception.
-.IP "\fBi\fR" 4
-.IX Item "i"
-Instruction precision. The trap handler can determine the exact
-instruction that caused a floating point exception.
-.RE
-.RS 4
-.Sp
-Other Alpha compilers provide the equivalent options called
-\&\fB\-scope_safe\fR and \fB\-resumption_safe\fR.
-.RE
-.IP "\fB\-mieee\-conformant\fR" 4
-.IX Item "-mieee-conformant"
-This option marks the generated code as \s-1IEEE\s0 conformant. You must not
-use this option unless you also specify \fB\-mtrap\-precision=i\fR and either
-\&\fB\-mfp\-trap\-mode=su\fR or \fB\-mfp\-trap\-mode=sui\fR. Its only effect
-is to emit the line \fB.eflag 48\fR in the function prologue of the
-generated assembly file. Under \s-1DEC\s0 Unix, this has the effect that
-IEEE-conformant math library routines will be linked in.
-.IP "\fB\-mbuild\-constants\fR" 4
-.IX Item "-mbuild-constants"
-Normally \s-1GCC\s0 examines a 32\- or 64\-bit integer constant to
-see if it can construct it from smaller constants in two or three
-instructions. If it cannot, it will output the constant as a literal and
-generate code to load it from the data segment at runtime.
-.Sp
-Use this option to require \s-1GCC\s0 to construct \fIall\fR integer constants
-using code, even if it takes more instructions (the maximum is six).
-.Sp
-You would typically use this option to build a shared library dynamic
-loader. Itself a shared library, it must relocate itself in memory
-before it can find the variables and constants in its own data segment.
-.IP "\fB\-malpha\-as\fR" 4
-.IX Item "-malpha-as"
-.PD 0
-.IP "\fB\-mgas\fR" 4
-.IX Item "-mgas"
-.PD
-Select whether to generate code to be assembled by the vendor-supplied
-assembler (\fB\-malpha\-as\fR) or by the \s-1GNU\s0 assembler \fB\-mgas\fR.
-.IP "\fB\-mbwx\fR" 4
-.IX Item "-mbwx"
-.PD 0
-.IP "\fB\-mno\-bwx\fR" 4
-.IX Item "-mno-bwx"
-.IP "\fB\-mcix\fR" 4
-.IX Item "-mcix"
-.IP "\fB\-mno\-cix\fR" 4
-.IX Item "-mno-cix"
-.IP "\fB\-mfix\fR" 4
-.IX Item "-mfix"
-.IP "\fB\-mno\-fix\fR" 4
-.IX Item "-mno-fix"
-.IP "\fB\-mmax\fR" 4
-.IX Item "-mmax"
-.IP "\fB\-mno\-max\fR" 4
-.IX Item "-mno-max"
-.PD
-Indicate whether \s-1GCC\s0 should generate code to use the optional \s-1BWX\s0,
-\&\s-1CIX\s0, \s-1FIX\s0 and \s-1MAX\s0 instruction sets. The default is to use the instruction
-sets supported by the \s-1CPU\s0 type specified via \fB\-mcpu=\fR option or that
-of the \s-1CPU\s0 on which \s-1GCC\s0 was built if none was specified.
-.IP "\fB\-mfloat\-vax\fR" 4
-.IX Item "-mfloat-vax"
-.PD 0
-.IP "\fB\-mfloat\-ieee\fR" 4
-.IX Item "-mfloat-ieee"
-.PD
-Generate code that uses (does not use) \s-1VAX\s0 F and G floating point
-arithmetic instead of \s-1IEEE\s0 single and double precision.
-.IP "\fB\-mexplicit\-relocs\fR" 4
-.IX Item "-mexplicit-relocs"
-.PD 0
-.IP "\fB\-mno\-explicit\-relocs\fR" 4
-.IX Item "-mno-explicit-relocs"
-.PD
-Older Alpha assemblers provided no way to generate symbol relocations
-except via assembler macros. Use of these macros does not allow
-optimal instruction scheduling. \s-1GNU\s0 binutils as of version 2.12
-supports a new syntax that allows the compiler to explicitly mark
-which relocations should apply to which instructions. This option
-is mostly useful for debugging, as \s-1GCC\s0 detects the capabilities of
-the assembler when it is built and sets the default accordingly.
-.IP "\fB\-msmall\-data\fR" 4
-.IX Item "-msmall-data"
-.PD 0
-.IP "\fB\-mlarge\-data\fR" 4
-.IX Item "-mlarge-data"
-.PD
-When \fB\-mexplicit\-relocs\fR is in effect, static data is
-accessed via \fIgp-relative\fR relocations. When \fB\-msmall\-data\fR
-is used, objects 8 bytes long or smaller are placed in a \fIsmall data area\fR
-(the \f(CW\*(C`.sdata\*(C'\fR and \f(CW\*(C`.sbss\*(C'\fR sections) and are accessed via
-16\-bit relocations off of the \f(CW$gp\fR register. This limits the
-size of the small data area to 64KB, but allows the variables to be
-directly accessed via a single instruction.
-.Sp
-The default is \fB\-mlarge\-data\fR. With this option the data area
-is limited to just below 2GB. Programs that require more than 2GB of
-data must use \f(CW\*(C`malloc\*(C'\fR or \f(CW\*(C`mmap\*(C'\fR to allocate the data in the
-heap instead of in the program's data segment.
-.Sp
-When generating code for shared libraries, \fB\-fpic\fR implies
-\&\fB\-msmall\-data\fR and \fB\-fPIC\fR implies \fB\-mlarge\-data\fR.
-.IP "\fB\-mcpu=\fR\fIcpu_type\fR" 4
-.IX Item "-mcpu=cpu_type"
-Set the instruction set and instruction scheduling parameters for
-machine type \fIcpu_type\fR. You can specify either the \fB\s-1EV\s0\fR
-style name or the corresponding chip number. \s-1GCC\s0 supports scheduling
-parameters for the \s-1EV4\s0, \s-1EV5\s0 and \s-1EV6\s0 family of processors and will
-choose the default values for the instruction set from the processor
-you specify. If you do not specify a processor type, \s-1GCC\s0 will default
-to the processor on which the compiler was built.
-.Sp
-Supported values for \fIcpu_type\fR are
-.RS 4
-.IP "\fBev4\fR" 4
-.IX Item "ev4"
-.PD 0
-.IP "\fBev45\fR" 4
-.IX Item "ev45"
-.IP "\fB21064\fR" 4
-.IX Item "21064"
-.PD
-Schedules as an \s-1EV4\s0 and has no instruction set extensions.
-.IP "\fBev5\fR" 4
-.IX Item "ev5"
-.PD 0
-.IP "\fB21164\fR" 4
-.IX Item "21164"
-.PD
-Schedules as an \s-1EV5\s0 and has no instruction set extensions.
-.IP "\fBev56\fR" 4
-.IX Item "ev56"
-.PD 0
-.IP "\fB21164a\fR" 4
-.IX Item "21164a"
-.PD
-Schedules as an \s-1EV5\s0 and supports the \s-1BWX\s0 extension.
-.IP "\fBpca56\fR" 4
-.IX Item "pca56"
-.PD 0
-.IP "\fB21164pc\fR" 4
-.IX Item "21164pc"
-.IP "\fB21164PC\fR" 4
-.IX Item "21164PC"
-.PD
-Schedules as an \s-1EV5\s0 and supports the \s-1BWX\s0 and \s-1MAX\s0 extensions.
-.IP "\fBev6\fR" 4
-.IX Item "ev6"
-.PD 0
-.IP "\fB21264\fR" 4
-.IX Item "21264"
-.PD
-Schedules as an \s-1EV6\s0 and supports the \s-1BWX\s0, \s-1FIX\s0, and \s-1MAX\s0 extensions.
-.IP "\fBev67\fR" 4
-.IX Item "ev67"
-.PD 0
-.IP "\fB21264a\fR" 4
-.IX Item "21264a"
-.PD
-Schedules as an \s-1EV6\s0 and supports the \s-1BWX\s0, \s-1CIX\s0, \s-1FIX\s0, and \s-1MAX\s0 extensions.
-.RE
-.RS 4
-.RE
-.IP "\fB\-mtune=\fR\fIcpu_type\fR" 4
-.IX Item "-mtune=cpu_type"
-Set only the instruction scheduling parameters for machine type
-\&\fIcpu_type\fR. The instruction set is not changed.
-.IP "\fB\-mmemory\-latency=\fR\fItime\fR" 4
-.IX Item "-mmemory-latency=time"
-Sets the latency the scheduler should assume for typical memory
-references as seen by the application. This number is highly
-dependent on the memory access patterns used by the application
-and the size of the external cache on the machine.
-.Sp
-Valid options for \fItime\fR are
-.RS 4
-.IP "\fInumber\fR" 4
-.IX Item "number"
-A decimal number representing clock cycles.
-.IP "\fBL1\fR" 4
-.IX Item "L1"
-.PD 0
-.IP "\fBL2\fR" 4
-.IX Item "L2"
-.IP "\fBL3\fR" 4
-.IX Item "L3"
-.IP "\fBmain\fR" 4
-.IX Item "main"
-.PD
-The compiler contains estimates of the number of clock cycles for
-``typical'' \s-1EV4\s0 & \s-1EV5\s0 hardware for the Level 1, 2 & 3 caches
-(also called Dcache, Scache, and Bcache), as well as to main memory.
-Note that L3 is only valid for \s-1EV5\s0.
-.RE
-.RS 4
-.RE
-.PP
-\fI\s-1DEC\s0 Alpha/VMS Options\fR
-.IX Subsection "DEC Alpha/VMS Options"
-.PP
-These \fB\-m\fR options are defined for the \s-1DEC\s0 Alpha/VMS implementations:
-.IP "\fB\-mvms\-return\-codes\fR" 4
-.IX Item "-mvms-return-codes"
-Return \s-1VMS\s0 condition codes from main. The default is to return \s-1POSIX\s0
-style condition (e.g. error) codes.
-.PP
-\fIH8/300 Options\fR
-.IX Subsection "H8/300 Options"
-.PP
-These \fB\-m\fR options are defined for the H8/300 implementations:
-.IP "\fB\-mrelax\fR" 4
-.IX Item "-mrelax"
-Shorten some address references at link time, when possible; uses the
-linker option \fB\-relax\fR.
-.IP "\fB\-mh\fR" 4
-.IX Item "-mh"
-Generate code for the H8/300H.
-.IP "\fB\-ms\fR" 4
-.IX Item "-ms"
-Generate code for the H8S.
-.IP "\fB\-mn\fR" 4
-.IX Item "-mn"
-Generate code for the H8S and H8/300H in the normal mode. This switch
-must be used either with \-mh or \-ms.
-.IP "\fB\-ms2600\fR" 4
-.IX Item "-ms2600"
-Generate code for the H8S/2600. This switch must be used with \fB\-ms\fR.
-.IP "\fB\-mint32\fR" 4
-.IX Item "-mint32"
-Make \f(CW\*(C`int\*(C'\fR data 32 bits by default.
-.IP "\fB\-malign\-300\fR" 4
-.IX Item "-malign-300"
-On the H8/300H and H8S, use the same alignment rules as for the H8/300.
-The default for the H8/300H and H8S is to align longs and floats on 4
-byte boundaries.
-\&\fB\-malign\-300\fR causes them to be aligned on 2 byte boundaries.
-This option has no effect on the H8/300.
-.PP
-\fI\s-1SH\s0 Options\fR
-.IX Subsection "SH Options"
-.PP
-These \fB\-m\fR options are defined for the \s-1SH\s0 implementations:
-.IP "\fB\-m1\fR" 4
-.IX Item "-m1"
-Generate code for the \s-1SH1\s0.
-.IP "\fB\-m2\fR" 4
-.IX Item "-m2"
-Generate code for the \s-1SH2\s0.
-.IP "\fB\-m3\fR" 4
-.IX Item "-m3"
-Generate code for the \s-1SH3\s0.
-.IP "\fB\-m3e\fR" 4
-.IX Item "-m3e"
-Generate code for the SH3e.
-.IP "\fB\-m4\-nofpu\fR" 4
-.IX Item "-m4-nofpu"
-Generate code for the \s-1SH4\s0 without a floating-point unit.
-.IP "\fB\-m4\-single\-only\fR" 4
-.IX Item "-m4-single-only"
-Generate code for the \s-1SH4\s0 with a floating-point unit that only
-supports single-precision arithmetic.
-.IP "\fB\-m4\-single\fR" 4
-.IX Item "-m4-single"
-Generate code for the \s-1SH4\s0 assuming the floating-point unit is in
-single-precision mode by default.
-.IP "\fB\-m4\fR" 4
-.IX Item "-m4"
-Generate code for the \s-1SH4\s0.
-.IP "\fB\-mb\fR" 4
-.IX Item "-mb"
-Compile code for the processor in big endian mode.
-.IP "\fB\-ml\fR" 4
-.IX Item "-ml"
-Compile code for the processor in little endian mode.
-.IP "\fB\-mdalign\fR" 4
-.IX Item "-mdalign"
-Align doubles at 64\-bit boundaries. Note that this changes the calling
-conventions, and thus some functions from the standard C library will
-not work unless you recompile it first with \fB\-mdalign\fR.
-.IP "\fB\-mrelax\fR" 4
-.IX Item "-mrelax"
-Shorten some address references at link time, when possible; uses the
-linker option \fB\-relax\fR.
-.IP "\fB\-mbigtable\fR" 4
-.IX Item "-mbigtable"
-Use 32\-bit offsets in \f(CW\*(C`switch\*(C'\fR tables. The default is to use
-16\-bit offsets.
-.IP "\fB\-mfmovd\fR" 4
-.IX Item "-mfmovd"
-Enable the use of the instruction \f(CW\*(C`fmovd\*(C'\fR.
-.IP "\fB\-mhitachi\fR" 4
-.IX Item "-mhitachi"
-Comply with the calling conventions defined by Renesas.
-.IP "\fB\-mnomacsave\fR" 4
-.IX Item "-mnomacsave"
-Mark the \f(CW\*(C`MAC\*(C'\fR register as call\-clobbered, even if
-\&\fB\-mhitachi\fR is given.
-.IP "\fB\-mieee\fR" 4
-.IX Item "-mieee"
-Increase IEEE-compliance of floating-point code.
-.IP "\fB\-misize\fR" 4
-.IX Item "-misize"
-Dump instruction size and location in the assembly code.
-.IP "\fB\-mpadstruct\fR" 4
-.IX Item "-mpadstruct"
-This option is deprecated. It pads structures to multiple of 4 bytes,
-which is incompatible with the \s-1SH\s0 \s-1ABI\s0.
-.IP "\fB\-mspace\fR" 4
-.IX Item "-mspace"
-Optimize for space instead of speed. Implied by \fB\-Os\fR.
-.IP "\fB\-mprefergot\fR" 4
-.IX Item "-mprefergot"
-When generating position-independent code, emit function calls using
-the Global Offset Table instead of the Procedure Linkage Table.
-.IP "\fB\-musermode\fR" 4
-.IX Item "-musermode"
-Generate a library function call to invalidate instruction cache
-entries, after fixing up a trampoline. This library function call
-doesn't assume it can write to the whole memory address space. This
-is the default when the target is \f(CW\*(C`sh\-*\-linux*\*(C'\fR.
-.PP
-\fIOptions for System V\fR
-.IX Subsection "Options for System V"
-.PP
-These additional options are available on System V Release 4 for
-compatibility with other compilers on those systems:
-.IP "\fB\-G\fR" 4
-.IX Item "-G"
-Create a shared object.
-It is recommended that \fB\-symbolic\fR or \fB\-shared\fR be used instead.
-.IP "\fB\-Qy\fR" 4
-.IX Item "-Qy"
-Identify the versions of each tool used by the compiler, in a
-\&\f(CW\*(C`.ident\*(C'\fR assembler directive in the output.
-.IP "\fB\-Qn\fR" 4
-.IX Item "-Qn"
-Refrain from adding \f(CW\*(C`.ident\*(C'\fR directives to the output file (this is
-the default).
-.IP "\fB\-YP,\fR\fIdirs\fR" 4
-.IX Item "-YP,dirs"
-Search the directories \fIdirs\fR, and no others, for libraries
-specified with \fB\-l\fR.
-.IP "\fB\-Ym,\fR\fIdir\fR" 4
-.IX Item "-Ym,dir"
-Look in the directory \fIdir\fR to find the M4 preprocessor.
-The assembler uses this option.
-.PP
-\fITMS320C3x/C4x Options\fR
-.IX Subsection "TMS320C3x/C4x Options"
-.PP
-These \fB\-m\fR options are defined for TMS320C3x/C4x implementations:
-.IP "\fB\-mcpu=\fR\fIcpu_type\fR" 4
-.IX Item "-mcpu=cpu_type"
-Set the instruction set, register set, and instruction scheduling
-parameters for machine type \fIcpu_type\fR. Supported values for
-\&\fIcpu_type\fR are \fBc30\fR, \fBc31\fR, \fBc32\fR, \fBc40\fR, and
-\&\fBc44\fR. The default is \fBc40\fR to generate code for the
-\&\s-1TMS320C40\s0.
-.IP "\fB\-mbig\-memory\fR" 4
-.IX Item "-mbig-memory"
-.PD 0
-.IP "\fB\-mbig\fR" 4
-.IX Item "-mbig"
-.IP "\fB\-msmall\-memory\fR" 4
-.IX Item "-msmall-memory"
-.IP "\fB\-msmall\fR" 4
-.IX Item "-msmall"
-.PD
-Generates code for the big or small memory model. The small memory
-model assumed that all data fits into one 64K word page. At run-time
-the data page (\s-1DP\s0) register must be set to point to the 64K page
-containing the .bss and .data program sections. The big memory model is
-the default and requires reloading of the \s-1DP\s0 register for every direct
-memory access.
-.IP "\fB\-mbk\fR" 4
-.IX Item "-mbk"
-.PD 0
-.IP "\fB\-mno\-bk\fR" 4
-.IX Item "-mno-bk"
-.PD
-Allow (disallow) allocation of general integer operands into the block
-count register \s-1BK\s0.
-.IP "\fB\-mdb\fR" 4
-.IX Item "-mdb"
-.PD 0
-.IP "\fB\-mno\-db\fR" 4
-.IX Item "-mno-db"
-.PD
-Enable (disable) generation of code using decrement and branch,
-DBcond(D), instructions. This is enabled by default for the C4x. To be
-on the safe side, this is disabled for the C3x, since the maximum
-iteration count on the C3x is 2^{23 + 1} (but who iterates loops more than
-2^{23} times on the C3x?). Note that \s-1GCC\s0 will try to reverse a loop so
-that it can utilize the decrement and branch instruction, but will give
-up if there is more than one memory reference in the loop. Thus a loop
-where the loop counter is decremented can generate slightly more
-efficient code, in cases where the \s-1RPTB\s0 instruction cannot be utilized.
-.IP "\fB\-mdp\-isr\-reload\fR" 4
-.IX Item "-mdp-isr-reload"
-.PD 0
-.IP "\fB\-mparanoid\fR" 4
-.IX Item "-mparanoid"
-.PD
-Force the \s-1DP\s0 register to be saved on entry to an interrupt service
-routine (\s-1ISR\s0), reloaded to point to the data section, and restored on
-exit from the \s-1ISR\s0. This should not be required unless someone has
-violated the small memory model by modifying the \s-1DP\s0 register, say within
-an object library.
-.IP "\fB\-mmpyi\fR" 4
-.IX Item "-mmpyi"
-.PD 0
-.IP "\fB\-mno\-mpyi\fR" 4
-.IX Item "-mno-mpyi"
-.PD
-For the C3x use the 24\-bit \s-1MPYI\s0 instruction for integer multiplies
-instead of a library call to guarantee 32\-bit results. Note that if one
-of the operands is a constant, then the multiplication will be performed
-using shifts and adds. If the \fB\-mmpyi\fR option is not specified for the C3x,
-then squaring operations are performed inline instead of a library call.
-.IP "\fB\-mfast\-fix\fR" 4
-.IX Item "-mfast-fix"
-.PD 0
-.IP "\fB\-mno\-fast\-fix\fR" 4
-.IX Item "-mno-fast-fix"
-.PD
-The C3x/C4x \s-1FIX\s0 instruction to convert a floating point value to an
-integer value chooses the nearest integer less than or equal to the
-floating point value rather than to the nearest integer. Thus if the
-floating point number is negative, the result will be incorrectly
-truncated an additional code is necessary to detect and correct this
-case. This option can be used to disable generation of the additional
-code required to correct the result.
-.IP "\fB\-mrptb\fR" 4
-.IX Item "-mrptb"
-.PD 0
-.IP "\fB\-mno\-rptb\fR" 4
-.IX Item "-mno-rptb"
-.PD
-Enable (disable) generation of repeat block sequences using the \s-1RPTB\s0
-instruction for zero overhead looping. The \s-1RPTB\s0 construct is only used
-for innermost loops that do not call functions or jump across the loop
-boundaries. There is no advantage having nested \s-1RPTB\s0 loops due to the
-overhead required to save and restore the \s-1RC\s0, \s-1RS\s0, and \s-1RE\s0 registers.
-This is enabled by default with \fB\-O2\fR.
-.IP "\fB\-mrpts=\fR\fIcount\fR" 4
-.IX Item "-mrpts=count"
-.PD 0
-.IP "\fB\-mno\-rpts\fR" 4
-.IX Item "-mno-rpts"
-.PD
-Enable (disable) the use of the single instruction repeat instruction
-\&\s-1RPTS\s0. If a repeat block contains a single instruction, and the loop
-count can be guaranteed to be less than the value \fIcount\fR, \s-1GCC\s0 will
-emit a \s-1RPTS\s0 instruction instead of a \s-1RPTB\s0. If no value is specified,
-then a \s-1RPTS\s0 will be emitted even if the loop count cannot be determined
-at compile time. Note that the repeated instruction following \s-1RPTS\s0 does
-not have to be reloaded from memory each iteration, thus freeing up the
-\&\s-1CPU\s0 buses for operands. However, since interrupts are blocked by this
-instruction, it is disabled by default.
-.IP "\fB\-mloop\-unsigned\fR" 4
-.IX Item "-mloop-unsigned"
-.PD 0
-.IP "\fB\-mno\-loop\-unsigned\fR" 4
-.IX Item "-mno-loop-unsigned"
-.PD
-The maximum iteration count when using \s-1RPTS\s0 and \s-1RPTB\s0 (and \s-1DB\s0 on the C40)
-is 2^{31 + 1} since these instructions test if the iteration count is
-negative to terminate the loop. If the iteration count is unsigned
-there is a possibility than the 2^{31 + 1} maximum iteration count may be
-exceeded. This switch allows an unsigned iteration count.
-.IP "\fB\-mti\fR" 4
-.IX Item "-mti"
-Try to emit an assembler syntax that the \s-1TI\s0 assembler (asm30) is happy
-with. This also enforces compatibility with the \s-1API\s0 employed by the \s-1TI\s0
-C3x C compiler. For example, long doubles are passed as structures
-rather than in floating point registers.
-.IP "\fB\-mregparm\fR" 4
-.IX Item "-mregparm"
-.PD 0
-.IP "\fB\-mmemparm\fR" 4
-.IX Item "-mmemparm"
-.PD
-Generate code that uses registers (stack) for passing arguments to functions.
-By default, arguments are passed in registers where possible rather
-than by pushing arguments on to the stack.
-.IP "\fB\-mparallel\-insns\fR" 4
-.IX Item "-mparallel-insns"
-.PD 0
-.IP "\fB\-mno\-parallel\-insns\fR" 4
-.IX Item "-mno-parallel-insns"
-.PD
-Allow the generation of parallel instructions. This is enabled by
-default with \fB\-O2\fR.
-.IP "\fB\-mparallel\-mpy\fR" 4
-.IX Item "-mparallel-mpy"
-.PD 0
-.IP "\fB\-mno\-parallel\-mpy\fR" 4
-.IX Item "-mno-parallel-mpy"
-.PD
-Allow the generation of MPY||ADD and MPY||SUB parallel instructions,
-provided \fB\-mparallel\-insns\fR is also specified. These instructions have
-tight register constraints which can pessimize the code generation
-of large functions.
-.PP
-\fIV850 Options\fR
-.IX Subsection "V850 Options"
-.PP
-These \fB\-m\fR options are defined for V850 implementations:
-.IP "\fB\-mlong\-calls\fR" 4
-.IX Item "-mlong-calls"
-.PD 0
-.IP "\fB\-mno\-long\-calls\fR" 4
-.IX Item "-mno-long-calls"
-.PD
-Treat all calls as being far away (near). If calls are assumed to be
-far away, the compiler will always load the functions address up into a
-register, and call indirect through the pointer.
-.IP "\fB\-mno\-ep\fR" 4
-.IX Item "-mno-ep"
-.PD 0
-.IP "\fB\-mep\fR" 4
-.IX Item "-mep"
-.PD
-Do not optimize (do optimize) basic blocks that use the same index
-pointer 4 or more times to copy pointer into the \f(CW\*(C`ep\*(C'\fR register, and
-use the shorter \f(CW\*(C`sld\*(C'\fR and \f(CW\*(C`sst\*(C'\fR instructions. The \fB\-mep\fR
-option is on by default if you optimize.
-.IP "\fB\-mno\-prolog\-function\fR" 4
-.IX Item "-mno-prolog-function"
-.PD 0
-.IP "\fB\-mprolog\-function\fR" 4
-.IX Item "-mprolog-function"
-.PD
-Do not use (do use) external functions to save and restore registers
-at the prologue and epilogue of a function. The external functions
-are slower, but use less code space if more than one function saves
-the same number of registers. The \fB\-mprolog\-function\fR option
-is on by default if you optimize.
-.IP "\fB\-mspace\fR" 4
-.IX Item "-mspace"
-Try to make the code as small as possible. At present, this just turns
-on the \fB\-mep\fR and \fB\-mprolog\-function\fR options.
-.IP "\fB\-mtda=\fR\fIn\fR" 4
-.IX Item "-mtda=n"
-Put static or global variables whose size is \fIn\fR bytes or less into
-the tiny data area that register \f(CW\*(C`ep\*(C'\fR points to. The tiny data
-area can hold up to 256 bytes in total (128 bytes for byte references).
-.IP "\fB\-msda=\fR\fIn\fR" 4
-.IX Item "-msda=n"
-Put static or global variables whose size is \fIn\fR bytes or less into
-the small data area that register \f(CW\*(C`gp\*(C'\fR points to. The small data
-area can hold up to 64 kilobytes.
-.IP "\fB\-mzda=\fR\fIn\fR" 4
-.IX Item "-mzda=n"
-Put static or global variables whose size is \fIn\fR bytes or less into
-the first 32 kilobytes of memory.
-.IP "\fB\-mv850\fR" 4
-.IX Item "-mv850"
-Specify that the target processor is the V850.
-.IP "\fB\-mbig\-switch\fR" 4
-.IX Item "-mbig-switch"
-Generate code suitable for big switch tables. Use this option only if
-the assembler/linker complain about out of range branches within a switch
-table.
-.IP "\fB\-mapp\-regs\fR" 4
-.IX Item "-mapp-regs"
-This option will cause r2 and r5 to be used in the code generated by
-the compiler. This setting is the default.
-.IP "\fB\-mno\-app\-regs\fR" 4
-.IX Item "-mno-app-regs"
-This option will cause r2 and r5 to be treated as fixed registers.
-.IP "\fB\-mv850e\fR" 4
-.IX Item "-mv850e"
-Specify that the target processor is the V850E. The preprocessor
-constant \fB_\|_v850e_\|_\fR will be defined if this option is used.
-.Sp
-If neither \fB\-mv850\fR nor \fB\-mv850e\fR are defined
-then a default target processor will be chosen and the relevant
-\&\fB_\|_v850*_\|_\fR preprocessor constant will be defined.
-.Sp
-The preprocessor constants \fB_\|_v850\fR and \fB_\|_v851_\|_\fR are always
-defined, regardless of which processor variant is the target.
-.IP "\fB\-mdisable\-callt\fR" 4
-.IX Item "-mdisable-callt"
-This option will suppress generation of the \s-1CALLT\s0 instruction for the
-v850e flavors of the v850 architecture. The default is
-\&\fB\-mno\-disable\-callt\fR which allows the \s-1CALLT\s0 instruction to be used.
-.PP
-\fI\s-1ARC\s0 Options\fR
-.IX Subsection "ARC Options"
-.PP
-These options are defined for \s-1ARC\s0 implementations:
-.IP "\fB\-EL\fR" 4
-.IX Item "-EL"
-Compile code for little endian mode. This is the default.
-.IP "\fB\-EB\fR" 4
-.IX Item "-EB"
-Compile code for big endian mode.
-.IP "\fB\-mmangle\-cpu\fR" 4
-.IX Item "-mmangle-cpu"
-Prepend the name of the cpu to all public symbol names.
-In multiple-processor systems, there are many \s-1ARC\s0 variants with different
-instruction and register set characteristics. This flag prevents code
-compiled for one cpu to be linked with code compiled for another.
-No facility exists for handling variants that are ``almost identical''.
-This is an all or nothing option.
-.IP "\fB\-mcpu=\fR\fIcpu\fR" 4
-.IX Item "-mcpu=cpu"
-Compile code for \s-1ARC\s0 variant \fIcpu\fR.
-Which variants are supported depend on the configuration.
-All variants support \fB\-mcpu=base\fR, this is the default.
-.IP "\fB\-mtext=\fR\fItext-section\fR" 4
-.IX Item "-mtext=text-section"
-.PD 0
-.IP "\fB\-mdata=\fR\fIdata-section\fR" 4
-.IX Item "-mdata=data-section"
-.IP "\fB\-mrodata=\fR\fIreadonly-data-section\fR" 4
-.IX Item "-mrodata=readonly-data-section"
-.PD
-Put functions, data, and readonly data in \fItext-section\fR,
-\&\fIdata-section\fR, and \fIreadonly-data-section\fR respectively
-by default. This can be overridden with the \f(CW\*(C`section\*(C'\fR attribute.
-.PP
-\fI\s-1NS32K\s0 Options\fR
-.IX Subsection "NS32K Options"
-.PP
-These are the \fB\-m\fR options defined for the 32000 series. The default
-values for these options depends on which style of 32000 was selected when
-the compiler was configured; the defaults for the most common choices are
-given below.
-.IP "\fB\-m32032\fR" 4
-.IX Item "-m32032"
-.PD 0
-.IP "\fB\-m32032\fR" 4
-.IX Item "-m32032"
-.PD
-Generate output for a 32032. This is the default
-when the compiler is configured for 32032 and 32016 based systems.
-.IP "\fB\-m32332\fR" 4
-.IX Item "-m32332"
-.PD 0
-.IP "\fB\-m32332\fR" 4
-.IX Item "-m32332"
-.PD
-Generate output for a 32332. This is the default
-when the compiler is configured for 32332\-based systems.
-.IP "\fB\-m32532\fR" 4
-.IX Item "-m32532"
-.PD 0
-.IP "\fB\-m32532\fR" 4
-.IX Item "-m32532"
-.PD
-Generate output for a 32532. This is the default
-when the compiler is configured for 32532\-based systems.
-.IP "\fB\-m32081\fR" 4
-.IX Item "-m32081"
-Generate output containing 32081 instructions for floating point.
-This is the default for all systems.
-.IP "\fB\-m32381\fR" 4
-.IX Item "-m32381"
-Generate output containing 32381 instructions for floating point. This
-also implies \fB\-m32081\fR. The 32381 is only compatible with the 32332
-and 32532 cpus. This is the default for the pc532\-netbsd configuration.
-.IP "\fB\-mmulti\-add\fR" 4
-.IX Item "-mmulti-add"
-Try and generate multiply-add floating point instructions \f(CW\*(C`polyF\*(C'\fR
-and \f(CW\*(C`dotF\*(C'\fR. This option is only available if the \fB\-m32381\fR
-option is in effect. Using these instructions requires changes to
-register allocation which generally has a negative impact on
-performance. This option should only be enabled when compiling code
-particularly likely to make heavy use of multiply-add instructions.
-.IP "\fB\-mnomulti\-add\fR" 4
-.IX Item "-mnomulti-add"
-Do not try and generate multiply-add floating point instructions
-\&\f(CW\*(C`polyF\*(C'\fR and \f(CW\*(C`dotF\*(C'\fR. This is the default on all platforms.
-.IP "\fB\-msoft\-float\fR" 4
-.IX Item "-msoft-float"
-Generate output containing library calls for floating point.
-\&\fBWarning:\fR the requisite libraries may not be available.
-.IP "\fB\-mieee\-compare\fR" 4
-.IX Item "-mieee-compare"
-.PD 0
-.IP "\fB\-mno\-ieee\-compare\fR" 4
-.IX Item "-mno-ieee-compare"
-.PD
-Control whether or not the compiler uses \s-1IEEE\s0 floating point
-comparisons. These handle correctly the case where the result of a
-comparison is unordered.
-\&\fBWarning:\fR the requisite kernel support may not be available.
-.IP "\fB\-mnobitfield\fR" 4
-.IX Item "-mnobitfield"
-Do not use the bit-field instructions. On some machines it is faster to
-use shifting and masking operations. This is the default for the pc532.
-.IP "\fB\-mbitfield\fR" 4
-.IX Item "-mbitfield"
-Do use the bit-field instructions. This is the default for all platforms
-except the pc532.
-.IP "\fB\-mrtd\fR" 4
-.IX Item "-mrtd"
-Use a different function-calling convention, in which functions
-that take a fixed number of arguments return pop their
-arguments on return with the \f(CW\*(C`ret\*(C'\fR instruction.
-.Sp
-This calling convention is incompatible with the one normally
-used on Unix, so you cannot use it if you need to call libraries
-compiled with the Unix compiler.
-.Sp
-Also, you must provide function prototypes for all functions that
-take variable numbers of arguments (including \f(CW\*(C`printf\*(C'\fR);
-otherwise incorrect code will be generated for calls to those
-functions.
-.Sp
-In addition, seriously incorrect code will result if you call a
-function with too many arguments. (Normally, extra arguments are
-harmlessly ignored.)
-.Sp
-This option takes its name from the 680x0 \f(CW\*(C`rtd\*(C'\fR instruction.
-.IP "\fB\-mregparam\fR" 4
-.IX Item "-mregparam"
-Use a different function-calling convention where the first two arguments
-are passed in registers.
-.Sp
-This calling convention is incompatible with the one normally
-used on Unix, so you cannot use it if you need to call libraries
-compiled with the Unix compiler.
-.IP "\fB\-mnoregparam\fR" 4
-.IX Item "-mnoregparam"
-Do not pass any arguments in registers. This is the default for all
-targets.
-.IP "\fB\-msb\fR" 4
-.IX Item "-msb"
-It is \s-1OK\s0 to use the sb as an index register which is always loaded with
-zero. This is the default for the pc532\-netbsd target.
-.IP "\fB\-mnosb\fR" 4
-.IX Item "-mnosb"
-The sb register is not available for use or has not been initialized to
-zero by the run time system. This is the default for all targets except
-the pc532\-netbsd. It is also implied whenever \fB\-mhimem\fR or
-\&\fB\-fpic\fR is set.
-.IP "\fB\-mhimem\fR" 4
-.IX Item "-mhimem"
-Many ns32000 series addressing modes use displacements of up to 512MB.
-If an address is above 512MB then displacements from zero can not be used.
-This option causes code to be generated which can be loaded above 512MB.
-This may be useful for operating systems or \s-1ROM\s0 code.
-.IP "\fB\-mnohimem\fR" 4
-.IX Item "-mnohimem"
-Assume code will be loaded in the first 512MB of virtual address space.
-This is the default for all platforms.
-.PP
-\fI\s-1AVR\s0 Options\fR
-.IX Subsection "AVR Options"
-.PP
-These options are defined for \s-1AVR\s0 implementations:
-.IP "\fB\-mmcu=\fR\fImcu\fR" 4
-.IX Item "-mmcu=mcu"
-Specify \s-1ATMEL\s0 \s-1AVR\s0 instruction set or \s-1MCU\s0 type.
-.Sp
-Instruction set avr1 is for the minimal \s-1AVR\s0 core, not supported by the C
-compiler, only for assembler programs (\s-1MCU\s0 types: at90s1200, attiny10,
-attiny11, attiny12, attiny15, attiny28).
-.Sp
-Instruction set avr2 (default) is for the classic \s-1AVR\s0 core with up to
-8K program memory space (\s-1MCU\s0 types: at90s2313, at90s2323, attiny22,
-at90s2333, at90s2343, at90s4414, at90s4433, at90s4434, at90s8515,
-at90c8534, at90s8535).
-.Sp
-Instruction set avr3 is for the classic \s-1AVR\s0 core with up to 128K program
-memory space (\s-1MCU\s0 types: atmega103, atmega603, at43usb320, at76c711).
-.Sp
-Instruction set avr4 is for the enhanced \s-1AVR\s0 core with up to 8K program
-memory space (\s-1MCU\s0 types: atmega8, atmega83, atmega85).
-.Sp
-Instruction set avr5 is for the enhanced \s-1AVR\s0 core with up to 128K program
-memory space (\s-1MCU\s0 types: atmega16, atmega161, atmega163, atmega32, atmega323,
-atmega64, atmega128, at43usb355, at94k).
-.IP "\fB\-msize\fR" 4
-.IX Item "-msize"
-Output instruction sizes to the asm file.
-.IP "\fB\-minit\-stack=\fR\fIN\fR" 4
-.IX Item "-minit-stack=N"
-Specify the initial stack address, which may be a symbol or numeric value,
-\&\fB_\|_stack\fR is the default.
-.IP "\fB\-mno\-interrupts\fR" 4
-.IX Item "-mno-interrupts"
-Generated code is not compatible with hardware interrupts.
-Code size will be smaller.
-.IP "\fB\-mcall\-prologues\fR" 4
-.IX Item "-mcall-prologues"
-Functions prologues/epilogues expanded as call to appropriate
-subroutines. Code size will be smaller.
-.IP "\fB\-mno\-tablejump\fR" 4
-.IX Item "-mno-tablejump"
-Do not generate tablejump insns which sometimes increase code size.
-.IP "\fB\-mtiny\-stack\fR" 4
-.IX Item "-mtiny-stack"
-Change only the low 8 bits of the stack pointer.
-.PP
-\fIMCore Options\fR
-.IX Subsection "MCore Options"
-.PP
-These are the \fB\-m\fR options defined for the Motorola M*Core
-processors.
-.IP "\fB\-mhardlit\fR" 4
-.IX Item "-mhardlit"
-.PD 0
-.IP "\fB\-mno\-hardlit\fR" 4
-.IX Item "-mno-hardlit"
-.PD
-Inline constants into the code stream if it can be done in two
-instructions or less.
-.IP "\fB\-mdiv\fR" 4
-.IX Item "-mdiv"
-.PD 0
-.IP "\fB\-mno\-div\fR" 4
-.IX Item "-mno-div"
-.PD
-Use the divide instruction. (Enabled by default).
-.IP "\fB\-mrelax\-immediate\fR" 4
-.IX Item "-mrelax-immediate"
-.PD 0
-.IP "\fB\-mno\-relax\-immediate\fR" 4
-.IX Item "-mno-relax-immediate"
-.PD
-Allow arbitrary sized immediates in bit operations.
-.IP "\fB\-mwide\-bitfields\fR" 4
-.IX Item "-mwide-bitfields"
-.PD 0
-.IP "\fB\-mno\-wide\-bitfields\fR" 4
-.IX Item "-mno-wide-bitfields"
-.PD
-Always treat bit-fields as int\-sized.
-.IP "\fB\-m4byte\-functions\fR" 4
-.IX Item "-m4byte-functions"
-.PD 0
-.IP "\fB\-mno\-4byte\-functions\fR" 4
-.IX Item "-mno-4byte-functions"
-.PD
-Force all functions to be aligned to a four byte boundary.
-.IP "\fB\-mcallgraph\-data\fR" 4
-.IX Item "-mcallgraph-data"
-.PD 0
-.IP "\fB\-mno\-callgraph\-data\fR" 4
-.IX Item "-mno-callgraph-data"
-.PD
-Emit callgraph information.
-.IP "\fB\-mslow\-bytes\fR" 4
-.IX Item "-mslow-bytes"
-.PD 0
-.IP "\fB\-mno\-slow\-bytes\fR" 4
-.IX Item "-mno-slow-bytes"
-.PD
-Prefer word access when reading byte quantities.
-.IP "\fB\-mlittle\-endian\fR" 4
-.IX Item "-mlittle-endian"
-.PD 0
-.IP "\fB\-mbig\-endian\fR" 4
-.IX Item "-mbig-endian"
-.PD
-Generate code for a little endian target.
-.IP "\fB\-m210\fR" 4
-.IX Item "-m210"
-.PD 0
-.IP "\fB\-m340\fR" 4
-.IX Item "-m340"
-.PD
-Generate code for the 210 processor.
-.PP
-\fI\s-1IA\-64\s0 Options\fR
-.IX Subsection "IA-64 Options"
-.PP
-These are the \fB\-m\fR options defined for the Intel \s-1IA\-64\s0 architecture.
-.IP "\fB\-mbig\-endian\fR" 4
-.IX Item "-mbig-endian"
-Generate code for a big endian target. This is the default for \s-1HP\-UX\s0.
-.IP "\fB\-mlittle\-endian\fR" 4
-.IX Item "-mlittle-endian"
-Generate code for a little endian target. This is the default for \s-1AIX5\s0
-and Linux.
-.IP "\fB\-mgnu\-as\fR" 4
-.IX Item "-mgnu-as"
-.PD 0
-.IP "\fB\-mno\-gnu\-as\fR" 4
-.IX Item "-mno-gnu-as"
-.PD
-Generate (or don't) code for the \s-1GNU\s0 assembler. This is the default.
-.IP "\fB\-mgnu\-ld\fR" 4
-.IX Item "-mgnu-ld"
-.PD 0
-.IP "\fB\-mno\-gnu\-ld\fR" 4
-.IX Item "-mno-gnu-ld"
-.PD
-Generate (or don't) code for the \s-1GNU\s0 linker. This is the default.
-.IP "\fB\-mno\-pic\fR" 4
-.IX Item "-mno-pic"
-Generate code that does not use a global pointer register. The result
-is not position independent code, and violates the \s-1IA\-64\s0 \s-1ABI\s0.
-.IP "\fB\-mvolatile\-asm\-stop\fR" 4
-.IX Item "-mvolatile-asm-stop"
-.PD 0
-.IP "\fB\-mno\-volatile\-asm\-stop\fR" 4
-.IX Item "-mno-volatile-asm-stop"
-.PD
-Generate (or don't) a stop bit immediately before and after volatile asm
-statements.
-.IP "\fB\-mb\-step\fR" 4
-.IX Item "-mb-step"
-Generate code that works around Itanium B step errata.
-.IP "\fB\-mregister\-names\fR" 4
-.IX Item "-mregister-names"
-.PD 0
-.IP "\fB\-mno\-register\-names\fR" 4
-.IX Item "-mno-register-names"
-.PD
-Generate (or don't) \fBin\fR, \fBloc\fR, and \fBout\fR register names for
-the stacked registers. This may make assembler output more readable.
-.IP "\fB\-mno\-sdata\fR" 4
-.IX Item "-mno-sdata"
-.PD 0
-.IP "\fB\-msdata\fR" 4
-.IX Item "-msdata"
-.PD
-Disable (or enable) optimizations that use the small data section. This may
-be useful for working around optimizer bugs.
-.IP "\fB\-mconstant\-gp\fR" 4
-.IX Item "-mconstant-gp"
-Generate code that uses a single constant global pointer value. This is
-useful when compiling kernel code.
-.IP "\fB\-mauto\-pic\fR" 4
-.IX Item "-mauto-pic"
-Generate code that is self\-relocatable. This implies \fB\-mconstant\-gp\fR.
-This is useful when compiling firmware code.
-.IP "\fB\-minline\-float\-divide\-min\-latency\fR" 4
-.IX Item "-minline-float-divide-min-latency"
-Generate code for inline divides of floating point values
-using the minimum latency algorithm.
-.IP "\fB\-minline\-float\-divide\-max\-throughput\fR" 4
-.IX Item "-minline-float-divide-max-throughput"
-Generate code for inline divides of floating point values
-using the maximum throughput algorithm.
-.IP "\fB\-minline\-int\-divide\-min\-latency\fR" 4
-.IX Item "-minline-int-divide-min-latency"
-Generate code for inline divides of integer values
-using the minimum latency algorithm.
-.IP "\fB\-minline\-int\-divide\-max\-throughput\fR" 4
-.IX Item "-minline-int-divide-max-throughput"
-Generate code for inline divides of integer values
-using the maximum throughput algorithm.
-.IP "\fB\-mno\-dwarf2\-asm\fR" 4
-.IX Item "-mno-dwarf2-asm"
-.PD 0
-.IP "\fB\-mdwarf2\-asm\fR" 4
-.IX Item "-mdwarf2-asm"
-.PD
-Don't (or do) generate assembler code for the \s-1DWARF2\s0 line number debugging
-info. This may be useful when not using the \s-1GNU\s0 assembler.
-.IP "\fB\-mfixed\-range=\fR\fIregister-range\fR" 4
-.IX Item "-mfixed-range=register-range"
-Generate code treating the given register range as fixed registers.
-A fixed register is one that the register allocator can not use. This is
-useful when compiling kernel code. A register range is specified as
-two registers separated by a dash. Multiple register ranges can be
-specified separated by a comma.
-.PP
-\fID30V Options\fR
-.IX Subsection "D30V Options"
-.PP
-These \fB\-m\fR options are defined for D30V implementations:
-.IP "\fB\-mextmem\fR" 4
-.IX Item "-mextmem"
-Link the \fB.text\fR, \fB.data\fR, \fB.bss\fR, \fB.strings\fR,
-\&\fB.rodata\fR, \fB.rodata1\fR, \fB.data1\fR sections into external
-memory, which starts at location \f(CW0x80000000\fR.
-.IP "\fB\-mextmemory\fR" 4
-.IX Item "-mextmemory"
-Same as the \fB\-mextmem\fR switch.
-.IP "\fB\-monchip\fR" 4
-.IX Item "-monchip"
-Link the \fB.text\fR section into onchip text memory, which starts at
-location \f(CW0x0\fR. Also link \fB.data\fR, \fB.bss\fR,
-\&\fB.strings\fR, \fB.rodata\fR, \fB.rodata1\fR, \fB.data1\fR sections
-into onchip data memory, which starts at location \f(CW0x20000000\fR.
-.IP "\fB\-mno\-asm\-optimize\fR" 4
-.IX Item "-mno-asm-optimize"
-.PD 0
-.IP "\fB\-masm\-optimize\fR" 4
-.IX Item "-masm-optimize"
-.PD
-Disable (enable) passing \fB\-O\fR to the assembler when optimizing.
-The assembler uses the \fB\-O\fR option to automatically parallelize
-adjacent short instructions where possible.
-.IP "\fB\-mbranch\-cost=\fR\fIn\fR" 4
-.IX Item "-mbranch-cost=n"
-Increase the internal costs of branches to \fIn\fR. Higher costs means
-that the compiler will issue more instructions to avoid doing a branch.
-The default is 2.
-.IP "\fB\-mcond\-exec=\fR\fIn\fR" 4
-.IX Item "-mcond-exec=n"
-Specify the maximum number of conditionally executed instructions that
-replace a branch. The default is 4.
-.PP
-\fIS/390 and zSeries Options\fR
-.IX Subsection "S/390 and zSeries Options"
-.PP
-These are the \fB\-m\fR options defined for the S/390 and zSeries architecture.
-.IP "\fB\-mhard\-float\fR" 4
-.IX Item "-mhard-float"
-.PD 0
-.IP "\fB\-msoft\-float\fR" 4
-.IX Item "-msoft-float"
-.PD
-Use (do not use) the hardware floating-point instructions and registers
-for floating-point operations. When \fB\-msoft\-float\fR is specified,
-functions in \fIlibgcc.a\fR will be used to perform floating-point
-operations. When \fB\-mhard\-float\fR is specified, the compiler
-generates \s-1IEEE\s0 floating-point instructions. This is the default.
-.IP "\fB\-mbackchain\fR" 4
-.IX Item "-mbackchain"
-.PD 0
-.IP "\fB\-mno\-backchain\fR" 4
-.IX Item "-mno-backchain"
-.PD
-Generate (or do not generate) code which maintains an explicit
-backchain within the stack frame that points to the caller's frame.
-This is currently needed to allow debugging. The default is to
-generate the backchain.
-.IP "\fB\-msmall\-exec\fR" 4
-.IX Item "-msmall-exec"
-.PD 0
-.IP "\fB\-mno\-small\-exec\fR" 4
-.IX Item "-mno-small-exec"
-.PD
-Generate (or do not generate) code using the \f(CW\*(C`bras\*(C'\fR instruction
-to do subroutine calls.
-This only works reliably if the total executable size does not
-exceed 64k. The default is to use the \f(CW\*(C`basr\*(C'\fR instruction instead,
-which does not have this limitation.
-.IP "\fB\-m64\fR" 4
-.IX Item "-m64"
-.PD 0
-.IP "\fB\-m31\fR" 4
-.IX Item "-m31"
-.PD
-When \fB\-m31\fR is specified, generate code compliant to the
-Linux for S/390 \s-1ABI\s0. When \fB\-m64\fR is specified, generate
-code compliant to the Linux for zSeries \s-1ABI\s0. This allows \s-1GCC\s0 in
-particular to generate 64\-bit instructions. For the \fBs390\fR
-targets, the default is \fB\-m31\fR, while the \fBs390x\fR
-targets default to \fB\-m64\fR.
-.IP "\fB\-mmvcle\fR" 4
-.IX Item "-mmvcle"
-.PD 0
-.IP "\fB\-mno\-mvcle\fR" 4
-.IX Item "-mno-mvcle"
-.PD
-Generate (or do not generate) code using the \f(CW\*(C`mvcle\*(C'\fR instruction
-to perform block moves. When \fB\-mno\-mvcle\fR is specified,
-use a \f(CW\*(C`mvc\*(C'\fR loop instead. This is the default.
-.IP "\fB\-mdebug\fR" 4
-.IX Item "-mdebug"
-.PD 0
-.IP "\fB\-mno\-debug\fR" 4
-.IX Item "-mno-debug"
-.PD
-Print (or do not print) additional debug information when compiling.
-The default is to not print debug information.
-.PP
-\fI\s-1CRIS\s0 Options\fR
-.IX Subsection "CRIS Options"
-.PP
-These options are defined specifically for the \s-1CRIS\s0 ports.
-.IP "\fB\-march=\fR\fIarchitecture-type\fR" 4
-.IX Item "-march=architecture-type"
-.PD 0
-.IP "\fB\-mcpu=\fR\fIarchitecture-type\fR" 4
-.IX Item "-mcpu=architecture-type"
-.PD
-Generate code for the specified architecture. The choices for
-\&\fIarchitecture-type\fR are \fBv3\fR, \fBv8\fR and \fBv10\fR for
-respectively \s-1ETRAX\s0\ 4, \s-1ETRAX\s0\ 100, and \s-1ETRAX\s0\ 100\ \s-1LX\s0.
-Default is \fBv0\fR except for cris\-axis\-linux\-gnu, where the default is
-\&\fBv10\fR.
-.IP "\fB\-mtune=\fR\fIarchitecture-type\fR" 4
-.IX Item "-mtune=architecture-type"
-Tune to \fIarchitecture-type\fR everything applicable about the generated
-code, except for the \s-1ABI\s0 and the set of available instructions. The
-choices for \fIarchitecture-type\fR are the same as for
-\&\fB\-march=\fR\fIarchitecture-type\fR.
-.IP "\fB\-mmax\-stack\-frame=\fR\fIn\fR" 4
-.IX Item "-mmax-stack-frame=n"
-Warn when the stack frame of a function exceeds \fIn\fR bytes.
-.IP "\fB\-melinux\-stacksize=\fR\fIn\fR" 4
-.IX Item "-melinux-stacksize=n"
-Only available with the \fBcris-axis-aout\fR target. Arranges for
-indications in the program to the kernel loader that the stack of the
-program should be set to \fIn\fR bytes.
-.IP "\fB\-metrax4\fR" 4
-.IX Item "-metrax4"
-.PD 0
-.IP "\fB\-metrax100\fR" 4
-.IX Item "-metrax100"
-.PD
-The options \fB\-metrax4\fR and \fB\-metrax100\fR are synonyms for
-\&\fB\-march=v3\fR and \fB\-march=v8\fR respectively.
-.IP "\fB\-mmul\-bug\-workaround\fR" 4
-.IX Item "-mmul-bug-workaround"
-.PD 0
-.IP "\fB\-mno\-mul\-bug\-workaround\fR" 4
-.IX Item "-mno-mul-bug-workaround"
-.PD
-Work around a bug in the \f(CW\*(C`muls\*(C'\fR and \f(CW\*(C`mulu\*(C'\fR instructions for \s-1CPU\s0
-models where it applies. This option is active by default.
-.IP "\fB\-mpdebug\fR" 4
-.IX Item "-mpdebug"
-Enable CRIS-specific verbose debug-related information in the assembly
-code. This option also has the effect to turn off the \fB#NO_APP\fR
-formatted-code indicator to the assembler at the beginning of the
-assembly file.
-.IP "\fB\-mcc\-init\fR" 4
-.IX Item "-mcc-init"
-Do not use condition-code results from previous instruction; always emit
-compare and test instructions before use of condition codes.
-.IP "\fB\-mno\-side\-effects\fR" 4
-.IX Item "-mno-side-effects"
-Do not emit instructions with side-effects in addressing modes other than
-post\-increment.
-.IP "\fB\-mstack\-align\fR" 4
-.IX Item "-mstack-align"
-.PD 0
-.IP "\fB\-mno\-stack\-align\fR" 4
-.IX Item "-mno-stack-align"
-.IP "\fB\-mdata\-align\fR" 4
-.IX Item "-mdata-align"
-.IP "\fB\-mno\-data\-align\fR" 4
-.IX Item "-mno-data-align"
-.IP "\fB\-mconst\-align\fR" 4
-.IX Item "-mconst-align"
-.IP "\fB\-mno\-const\-align\fR" 4
-.IX Item "-mno-const-align"
-.PD
-These options (no\-options) arranges (eliminate arrangements) for the
-stack\-frame, individual data and constants to be aligned for the maximum
-single data access size for the chosen \s-1CPU\s0 model. The default is to
-arrange for 32\-bit alignment. \s-1ABI\s0 details such as structure layout are
-not affected by these options.
-.IP "\fB\-m32\-bit\fR" 4
-.IX Item "-m32-bit"
-.PD 0
-.IP "\fB\-m16\-bit\fR" 4
-.IX Item "-m16-bit"
-.IP "\fB\-m8\-bit\fR" 4
-.IX Item "-m8-bit"
-.PD
-Similar to the stack\- data\- and const-align options above, these options
-arrange for stack\-frame, writable data and constants to all be 32\-bit,
-16\-bit or 8\-bit aligned. The default is 32\-bit alignment.
-.IP "\fB\-mno\-prologue\-epilogue\fR" 4
-.IX Item "-mno-prologue-epilogue"
-.PD 0
-.IP "\fB\-mprologue\-epilogue\fR" 4
-.IX Item "-mprologue-epilogue"
-.PD
-With \fB\-mno\-prologue\-epilogue\fR, the normal function prologue and
-epilogue that sets up the stack-frame are omitted and no return
-instructions or return sequences are generated in the code. Use this
-option only together with visual inspection of the compiled code: no
-warnings or errors are generated when call-saved registers must be saved,
-or storage for local variable needs to be allocated.
-.IP "\fB\-mno\-gotplt\fR" 4
-.IX Item "-mno-gotplt"
-.PD 0
-.IP "\fB\-mgotplt\fR" 4
-.IX Item "-mgotplt"
-.PD
-With \fB\-fpic\fR and \fB\-fPIC\fR, don't generate (do generate)
-instruction sequences that load addresses for functions from the \s-1PLT\s0 part
-of the \s-1GOT\s0 rather than (traditional on other architectures) calls to the
-\&\s-1PLT\s0. The default is \fB\-mgotplt\fR.
-.IP "\fB\-maout\fR" 4
-.IX Item "-maout"
-Legacy no-op option only recognized with the cris-axis-aout target.
-.IP "\fB\-melf\fR" 4
-.IX Item "-melf"
-Legacy no-op option only recognized with the cris-axis-elf and
-cris-axis-linux-gnu targets.
-.IP "\fB\-melinux\fR" 4
-.IX Item "-melinux"
-Only recognized with the cris-axis-aout target, where it selects a
-GNU/linux\-like multilib, include files and instruction set for
-\&\fB\-march=v8\fR.
-.IP "\fB\-mlinux\fR" 4
-.IX Item "-mlinux"
-Legacy no-op option only recognized with the cris-axis-linux-gnu target.
-.IP "\fB\-sim\fR" 4
-.IX Item "-sim"
-This option, recognized for the cris-axis-aout and cris-axis-elf arranges
-to link with input-output functions from a simulator library. Code,
-initialized data and zero-initialized data are allocated consecutively.
-.IP "\fB\-sim2\fR" 4
-.IX Item "-sim2"
-Like \fB\-sim\fR, but pass linker options to locate initialized data at
-0x40000000 and zero-initialized data at 0x80000000.
-.PP
-\fI\s-1MMIX\s0 Options\fR
-.IX Subsection "MMIX Options"
-.PP
-These options are defined for the \s-1MMIX:\s0
-.IP "\fB\-mlibfuncs\fR" 4
-.IX Item "-mlibfuncs"
-.PD 0
-.IP "\fB\-mno\-libfuncs\fR" 4
-.IX Item "-mno-libfuncs"
-.PD
-Specify that intrinsic library functions are being compiled, passing all
-values in registers, no matter the size.
-.IP "\fB\-mepsilon\fR" 4
-.IX Item "-mepsilon"
-.PD 0
-.IP "\fB\-mno\-epsilon\fR" 4
-.IX Item "-mno-epsilon"
-.PD
-Generate floating-point comparison instructions that compare with respect
-to the \f(CW\*(C`rE\*(C'\fR epsilon register.
-.IP "\fB\-mabi=mmixware\fR" 4
-.IX Item "-mabi=mmixware"
-.PD 0
-.IP "\fB\-mabi=gnu\fR" 4
-.IX Item "-mabi=gnu"
-.PD
-Generate code that passes function parameters and return values that (in
-the called function) are seen as registers \f(CW$0\fR and up, as opposed to
-the \s-1GNU\s0 \s-1ABI\s0 which uses global registers \f(CW$231\fR and up.
-.IP "\fB\-mzero\-extend\fR" 4
-.IX Item "-mzero-extend"
-.PD 0
-.IP "\fB\-mno\-zero\-extend\fR" 4
-.IX Item "-mno-zero-extend"
-.PD
-When reading data from memory in sizes shorter than 64 bits, use (do not
-use) zero-extending load instructions by default, rather than
-sign-extending ones.
-.IP "\fB\-mknuthdiv\fR" 4
-.IX Item "-mknuthdiv"
-.PD 0
-.IP "\fB\-mno\-knuthdiv\fR" 4
-.IX Item "-mno-knuthdiv"
-.PD
-Make the result of a division yielding a remainder have the same sign as
-the divisor. With the default, \fB\-mno\-knuthdiv\fR, the sign of the
-remainder follows the sign of the dividend. Both methods are
-arithmetically valid, the latter being almost exclusively used.
-.IP "\fB\-mtoplevel\-symbols\fR" 4
-.IX Item "-mtoplevel-symbols"
-.PD 0
-.IP "\fB\-mno\-toplevel\-symbols\fR" 4
-.IX Item "-mno-toplevel-symbols"
-.PD
-Prepend (do not prepend) a \fB:\fR to all global symbols, so the assembly
-code can be used with the \f(CW\*(C`PREFIX\*(C'\fR assembly directive.
-.IP "\fB\-melf\fR" 4
-.IX Item "-melf"
-Generate an executable in the \s-1ELF\s0 format, rather than the default
-\&\fBmmo\fR format used by the \fBmmix\fR simulator.
-.IP "\fB\-mbranch\-predict\fR" 4
-.IX Item "-mbranch-predict"
-.PD 0
-.IP "\fB\-mno\-branch\-predict\fR" 4
-.IX Item "-mno-branch-predict"
-.PD
-Use (do not use) the probable-branch instructions, when static branch
-prediction indicates a probable branch.
-.IP "\fB\-mbase\-addresses\fR" 4
-.IX Item "-mbase-addresses"
-.PD 0
-.IP "\fB\-mno\-base\-addresses\fR" 4
-.IX Item "-mno-base-addresses"
-.PD
-Generate (do not generate) code that uses \fIbase addresses\fR. Using a
-base address automatically generates a request (handled by the assembler
-and the linker) for a constant to be set up in a global register. The
-register is used for one or more base address requests within the range 0
-to 255 from the value held in the register. The generally leads to short
-and fast code, but the number of different data items that can be
-addressed is limited. This means that a program that uses lots of static
-data may require \fB\-mno\-base\-addresses\fR.
-.IP "\fB\-msingle\-exit\fR" 4
-.IX Item "-msingle-exit"
-.PD 0
-.IP "\fB\-mno\-single\-exit\fR" 4
-.IX Item "-mno-single-exit"
-.PD
-Force (do not force) generated code to have a single exit point in each
-function.
-.PP
-\fI\s-1PDP\-11\s0 Options\fR
-.IX Subsection "PDP-11 Options"
-.PP
-These options are defined for the \s-1PDP\-11:\s0
-.IP "\fB\-mfpu\fR" 4
-.IX Item "-mfpu"
-Use hardware \s-1FPP\s0 floating point. This is the default. (\s-1FIS\s0 floating
-point on the \s-1PDP\-11/40\s0 is not supported.)
-.IP "\fB\-msoft\-float\fR" 4
-.IX Item "-msoft-float"
-Do not use hardware floating point.
-.IP "\fB\-mac0\fR" 4
-.IX Item "-mac0"
-Return floating-point results in ac0 (fr0 in Unix assembler syntax).
-.IP "\fB\-mno\-ac0\fR" 4
-.IX Item "-mno-ac0"
-Return floating-point results in memory. This is the default.
-.IP "\fB\-m40\fR" 4
-.IX Item "-m40"
-Generate code for a \s-1PDP\-11/40\s0.
-.IP "\fB\-m45\fR" 4
-.IX Item "-m45"
-Generate code for a \s-1PDP\-11/45\s0. This is the default.
-.IP "\fB\-m10\fR" 4
-.IX Item "-m10"
-Generate code for a \s-1PDP\-11/10\s0.
-.IP "\fB\-mbcopy\-builtin\fR" 4
-.IX Item "-mbcopy-builtin"
-Use inline \f(CW\*(C`movstrhi\*(C'\fR patterns for copying memory. This is the
-default.
-.IP "\fB\-mbcopy\fR" 4
-.IX Item "-mbcopy"
-Do not use inline \f(CW\*(C`movstrhi\*(C'\fR patterns for copying memory.
-.IP "\fB\-mint16\fR" 4
-.IX Item "-mint16"
-.PD 0
-.IP "\fB\-mno\-int32\fR" 4
-.IX Item "-mno-int32"
-.PD
-Use 16\-bit \f(CW\*(C`int\*(C'\fR. This is the default.
-.IP "\fB\-mint32\fR" 4
-.IX Item "-mint32"
-.PD 0
-.IP "\fB\-mno\-int16\fR" 4
-.IX Item "-mno-int16"
-.PD
-Use 32\-bit \f(CW\*(C`int\*(C'\fR.
-.IP "\fB\-mfloat64\fR" 4
-.IX Item "-mfloat64"
-.PD 0
-.IP "\fB\-mno\-float32\fR" 4
-.IX Item "-mno-float32"
-.PD
-Use 64\-bit \f(CW\*(C`float\*(C'\fR. This is the default.
-.IP "\fB\-mfloat32\fR" 4
-.IX Item "-mfloat32"
-.PD 0
-.IP "\fB\-mno\-float64\fR" 4
-.IX Item "-mno-float64"
-.PD
-Use 32\-bit \f(CW\*(C`float\*(C'\fR.
-.IP "\fB\-mabshi\fR" 4
-.IX Item "-mabshi"
-Use \f(CW\*(C`abshi2\*(C'\fR pattern. This is the default.
-.IP "\fB\-mno\-abshi\fR" 4
-.IX Item "-mno-abshi"
-Do not use \f(CW\*(C`abshi2\*(C'\fR pattern.
-.IP "\fB\-mbranch\-expensive\fR" 4
-.IX Item "-mbranch-expensive"
-Pretend that branches are expensive. This is for experimenting with
-code generation only.
-.IP "\fB\-mbranch\-cheap\fR" 4
-.IX Item "-mbranch-cheap"
-Do not pretend that branches are expensive. This is the default.
-.IP "\fB\-msplit\fR" 4
-.IX Item "-msplit"
-Generate code for a system with split I&D.
-.IP "\fB\-mno\-split\fR" 4
-.IX Item "-mno-split"
-Generate code for a system without split I&D. This is the default.
-.IP "\fB\-munix\-asm\fR" 4
-.IX Item "-munix-asm"
-Use Unix assembler syntax. This is the default when configured for
-\&\fBpdp11\-*\-bsd\fR.
-.IP "\fB\-mdec\-asm\fR" 4
-.IX Item "-mdec-asm"
-Use \s-1DEC\s0 assembler syntax. This is the default when configured for any
-\&\s-1PDP\-11\s0 target other than \fBpdp11\-*\-bsd\fR.
-.PP
-\fIXstormy16 Options\fR
-.IX Subsection "Xstormy16 Options"
-.PP
-These options are defined for Xstormy16:
-.IP "\fB\-msim\fR" 4
-.IX Item "-msim"
-Choose startup files and linker script suitable for the simulator.
-.PP
-\fI\s-1FRV\s0 Options\fR
-.IX Subsection "FRV Options"
-.IP "\fB\-mgpr\-32\fR" 4
-.IX Item "-mgpr-32"
-Only use the first 32 general purpose registers.
-.IP "\fB\-mgpr\-64\fR" 4
-.IX Item "-mgpr-64"
-Use all 64 general purpose registers.
-.IP "\fB\-mfpr\-32\fR" 4
-.IX Item "-mfpr-32"
-Use only the first 32 floating point registers.
-.IP "\fB\-mfpr\-64\fR" 4
-.IX Item "-mfpr-64"
-Use all 64 floating point registers
-.IP "\fB\-mhard\-float\fR" 4
-.IX Item "-mhard-float"
-Use hardware instructions for floating point operations.
-.IP "\fB\-msoft\-float\fR" 4
-.IX Item "-msoft-float"
-Use library routines for floating point operations.
-.IP "\fB\-malloc\-cc\fR" 4
-.IX Item "-malloc-cc"
-Dynamically allocate condition code registers.
-.IP "\fB\-mfixed\-cc\fR" 4
-.IX Item "-mfixed-cc"
-Do not try to dynamically allocate condition code registers, only
-use \f(CW\*(C`icc0\*(C'\fR and \f(CW\*(C`fcc0\*(C'\fR.
-.IP "\fB\-mdword\fR" 4
-.IX Item "-mdword"
-Change \s-1ABI\s0 to use double word insns.
-.IP "\fB\-mno\-dword\fR" 4
-.IX Item "-mno-dword"
-Do not use double word instructions.
-.IP "\fB\-mdouble\fR" 4
-.IX Item "-mdouble"
-Use floating point double instructions.
-.IP "\fB\-mno\-double\fR" 4
-.IX Item "-mno-double"
-Do not use floating point double instructions.
-.IP "\fB\-mmedia\fR" 4
-.IX Item "-mmedia"
-Use media instructions.
-.IP "\fB\-mno\-media\fR" 4
-.IX Item "-mno-media"
-Do not use media instructions.
-.IP "\fB\-mmuladd\fR" 4
-.IX Item "-mmuladd"
-Use multiply and add/subtract instructions.
-.IP "\fB\-mno\-muladd\fR" 4
-.IX Item "-mno-muladd"
-Do not use multiply and add/subtract instructions.
-.IP "\fB\-mlibrary\-pic\fR" 4
-.IX Item "-mlibrary-pic"
-Enable \s-1PIC\s0 support for building libraries
-.IP "\fB\-macc\-4\fR" 4
-.IX Item "-macc-4"
-Use only the first four media accumulator registers.
-.IP "\fB\-macc\-8\fR" 4
-.IX Item "-macc-8"
-Use all eight media accumulator registers.
-.IP "\fB\-mpack\fR" 4
-.IX Item "-mpack"
-Pack \s-1VLIW\s0 instructions.
-.IP "\fB\-mno\-pack\fR" 4
-.IX Item "-mno-pack"
-Do not pack \s-1VLIW\s0 instructions.
-.IP "\fB\-mno\-eflags\fR" 4
-.IX Item "-mno-eflags"
-Do not mark \s-1ABI\s0 switches in e_flags.
-.IP "\fB\-mcond\-move\fR" 4
-.IX Item "-mcond-move"
-Enable the use of conditional-move instructions (default).
-.Sp
-This switch is mainly for debugging the compiler and will likely be removed
-in a future version.
-.IP "\fB\-mno\-cond\-move\fR" 4
-.IX Item "-mno-cond-move"
-Disable the use of conditional-move instructions.
-.Sp
-This switch is mainly for debugging the compiler and will likely be removed
-in a future version.
-.IP "\fB\-mscc\fR" 4
-.IX Item "-mscc"
-Enable the use of conditional set instructions (default).
-.Sp
-This switch is mainly for debugging the compiler and will likely be removed
-in a future version.
-.IP "\fB\-mno\-scc\fR" 4
-.IX Item "-mno-scc"
-Disable the use of conditional set instructions.
-.Sp
-This switch is mainly for debugging the compiler and will likely be removed
-in a future version.
-.IP "\fB\-mcond\-exec\fR" 4
-.IX Item "-mcond-exec"
-Enable the use of conditional execution (default).
-.Sp
-This switch is mainly for debugging the compiler and will likely be removed
-in a future version.
-.IP "\fB\-mno\-cond\-exec\fR" 4
-.IX Item "-mno-cond-exec"
-Disable the use of conditional execution.
-.Sp
-This switch is mainly for debugging the compiler and will likely be removed
-in a future version.
-.IP "\fB\-mvliw\-branch\fR" 4
-.IX Item "-mvliw-branch"
-Run a pass to pack branches into \s-1VLIW\s0 instructions (default).
-.Sp
-This switch is mainly for debugging the compiler and will likely be removed
-in a future version.
-.IP "\fB\-mno\-vliw\-branch\fR" 4
-.IX Item "-mno-vliw-branch"
-Do not run a pass to pack branches into \s-1VLIW\s0 instructions.
-.Sp
-This switch is mainly for debugging the compiler and will likely be removed
-in a future version.
-.IP "\fB\-mmulti\-cond\-exec\fR" 4
-.IX Item "-mmulti-cond-exec"
-Enable optimization of \f(CW\*(C`&&\*(C'\fR and \f(CW\*(C`||\*(C'\fR in conditional execution
-(default).
-.Sp
-This switch is mainly for debugging the compiler and will likely be removed
-in a future version.
-.IP "\fB\-mno\-multi\-cond\-exec\fR" 4
-.IX Item "-mno-multi-cond-exec"
-Disable optimization of \f(CW\*(C`&&\*(C'\fR and \f(CW\*(C`||\*(C'\fR in conditional execution.
-.Sp
-This switch is mainly for debugging the compiler and will likely be removed
-in a future version.
-.IP "\fB\-mnested\-cond\-exec\fR" 4
-.IX Item "-mnested-cond-exec"
-Enable nested conditional execution optimizations (default).
-.Sp
-This switch is mainly for debugging the compiler and will likely be removed
-in a future version.
-.IP "\fB\-mno\-nested\-cond\-exec\fR" 4
-.IX Item "-mno-nested-cond-exec"
-Disable nested conditional execution optimizations.
-.Sp
-This switch is mainly for debugging the compiler and will likely be removed
-in a future version.
-.IP "\fB\-mtomcat\-stats\fR" 4
-.IX Item "-mtomcat-stats"
-Cause gas to print out tomcat statistics.
-.IP "\fB\-mcpu=\fR\fIcpu\fR" 4
-.IX Item "-mcpu=cpu"
-Select the processor type for which to generate code. Possible values are
-\&\fBsimple\fR, \fBtomcat\fR, \fBfr500\fR, \fBfr400\fR, \fBfr300\fR,
-\&\fBfrv\fR.
-.PP
-\fIXtensa Options\fR
-.IX Subsection "Xtensa Options"
-.PP
-The Xtensa architecture is designed to support many different
-configurations. The compiler's default options can be set to match a
-particular Xtensa configuration by copying a configuration file into the
-\&\s-1GCC\s0 sources when building \s-1GCC\s0. The options below may be used to
-override the default options.
-.IP "\fB\-mbig\-endian\fR" 4
-.IX Item "-mbig-endian"
-.PD 0
-.IP "\fB\-mlittle\-endian\fR" 4
-.IX Item "-mlittle-endian"
-.PD
-Specify big-endian or little-endian byte ordering for the target Xtensa
-processor.
-.IP "\fB\-mdensity\fR" 4
-.IX Item "-mdensity"
-.PD 0
-.IP "\fB\-mno\-density\fR" 4
-.IX Item "-mno-density"
-.PD
-Enable or disable use of the optional Xtensa code density instructions.
-.IP "\fB\-mmac16\fR" 4
-.IX Item "-mmac16"
-.PD 0
-.IP "\fB\-mno\-mac16\fR" 4
-.IX Item "-mno-mac16"
-.PD
-Enable or disable use of the Xtensa \s-1MAC16\s0 option. When enabled, \s-1GCC\s0
-will generate \s-1MAC16\s0 instructions from standard C code, with the
-limitation that it will use neither the \s-1MR\s0 register file nor any
-instruction that operates on the \s-1MR\s0 registers. When this option is
-disabled, \s-1GCC\s0 will translate 16\-bit multiply/accumulate operations to a
-combination of core instructions and library calls, depending on whether
-any other multiplier options are enabled.
-.IP "\fB\-mmul16\fR" 4
-.IX Item "-mmul16"
-.PD 0
-.IP "\fB\-mno\-mul16\fR" 4
-.IX Item "-mno-mul16"
-.PD
-Enable or disable use of the 16\-bit integer multiplier option. When
-enabled, the compiler will generate 16\-bit multiply instructions for
-multiplications of 16 bits or smaller in standard C code. When this
-option is disabled, the compiler will either use 32\-bit multiply or
-\&\s-1MAC16\s0 instructions if they are available or generate library calls to
-perform the multiply operations using shifts and adds.
-.IP "\fB\-mmul32\fR" 4
-.IX Item "-mmul32"
-.PD 0
-.IP "\fB\-mno\-mul32\fR" 4
-.IX Item "-mno-mul32"
-.PD
-Enable or disable use of the 32\-bit integer multiplier option. When
-enabled, the compiler will generate 32\-bit multiply instructions for
-multiplications of 32 bits or smaller in standard C code. When this
-option is disabled, the compiler will generate library calls to perform
-the multiply operations using either shifts and adds or 16\-bit multiply
-instructions if they are available.
-.IP "\fB\-mnsa\fR" 4
-.IX Item "-mnsa"
-.PD 0
-.IP "\fB\-mno\-nsa\fR" 4
-.IX Item "-mno-nsa"
-.PD
-Enable or disable use of the optional normalization shift amount
-(\f(CW\*(C`NSA\*(C'\fR) instructions to implement the built-in \f(CW\*(C`ffs\*(C'\fR function.
-.IP "\fB\-mminmax\fR" 4
-.IX Item "-mminmax"
-.PD 0
-.IP "\fB\-mno\-minmax\fR" 4
-.IX Item "-mno-minmax"
-.PD
-Enable or disable use of the optional minimum and maximum value
-instructions.
-.IP "\fB\-msext\fR" 4
-.IX Item "-msext"
-.PD 0
-.IP "\fB\-mno\-sext\fR" 4
-.IX Item "-mno-sext"
-.PD
-Enable or disable use of the optional sign extend (\f(CW\*(C`SEXT\*(C'\fR)
-instruction.
-.IP "\fB\-mbooleans\fR" 4
-.IX Item "-mbooleans"
-.PD 0
-.IP "\fB\-mno\-booleans\fR" 4
-.IX Item "-mno-booleans"
-.PD
-Enable or disable support for the boolean register file used by Xtensa
-coprocessors. This is not typically useful by itself but may be
-required for other options that make use of the boolean registers (e.g.,
-the floating-point option).
-.IP "\fB\-mhard\-float\fR" 4
-.IX Item "-mhard-float"
-.PD 0
-.IP "\fB\-msoft\-float\fR" 4
-.IX Item "-msoft-float"
-.PD
-Enable or disable use of the floating-point option. When enabled, \s-1GCC\s0
-generates floating-point instructions for 32\-bit \f(CW\*(C`float\*(C'\fR
-operations. When this option is disabled, \s-1GCC\s0 generates library calls
-to emulate 32\-bit floating-point operations using integer instructions.
-Regardless of this option, 64\-bit \f(CW\*(C`double\*(C'\fR operations are always
-emulated with calls to library functions.
-.IP "\fB\-mfused\-madd\fR" 4
-.IX Item "-mfused-madd"
-.PD 0
-.IP "\fB\-mno\-fused\-madd\fR" 4
-.IX Item "-mno-fused-madd"
-.PD
-Enable or disable use of fused multiply/add and multiply/subtract
-instructions in the floating-point option. This has no effect if the
-floating-point option is not also enabled. Disabling fused multiply/add
-and multiply/subtract instructions forces the compiler to use separate
-instructions for the multiply and add/subtract operations. This may be
-desirable in some cases where strict \s-1IEEE\s0 754\-compliant results are
-required: the fused multiply add/subtract instructions do not round the
-intermediate result, thereby producing results with \fImore\fR bits of
-precision than specified by the \s-1IEEE\s0 standard. Disabling fused multiply
-add/subtract instructions also ensures that the program output is not
-sensitive to the compiler's ability to combine multiply and add/subtract
-operations.
-.IP "\fB\-mserialize\-volatile\fR" 4
-.IX Item "-mserialize-volatile"
-.PD 0
-.IP "\fB\-mno\-serialize\-volatile\fR" 4
-.IX Item "-mno-serialize-volatile"
-.PD
-When this option is enabled, \s-1GCC\s0 inserts \f(CW\*(C`MEMW\*(C'\fR instructions before
-\&\f(CW\*(C`volatile\*(C'\fR memory references to guarantee sequential consistency.
-The default is \fB\-mserialize\-volatile\fR. Use
-\&\fB\-mno\-serialize\-volatile\fR to omit the \f(CW\*(C`MEMW\*(C'\fR instructions.
-.IP "\fB\-mtext\-section\-literals\fR" 4
-.IX Item "-mtext-section-literals"
-.PD 0
-.IP "\fB\-mno\-text\-section\-literals\fR" 4
-.IX Item "-mno-text-section-literals"
-.PD
-Control the treatment of literal pools. The default is
-\&\fB\-mno\-text\-section\-literals\fR, which places literals in a separate
-section in the output file. This allows the literal pool to be placed
-in a data \s-1RAM/ROM\s0, and it also allows the linker to combine literal
-pools from separate object files to remove redundant literals and
-improve code size. With \fB\-mtext\-section\-literals\fR, the literals
-are interspersed in the text section in order to keep them as close as
-possible to their references. This may be necessary for large assembly
-files.
-.IP "\fB\-mtarget\-align\fR" 4
-.IX Item "-mtarget-align"
-.PD 0
-.IP "\fB\-mno\-target\-align\fR" 4
-.IX Item "-mno-target-align"
-.PD
-When this option is enabled, \s-1GCC\s0 instructs the assembler to
-automatically align instructions to reduce branch penalties at the
-expense of some code density. The assembler attempts to widen density
-instructions to align branch targets and the instructions following call
-instructions. If there are not enough preceding safe density
-instructions to align a target, no widening will be performed. The
-default is \fB\-mtarget\-align\fR. These options do not affect the
-treatment of auto-aligned instructions like \f(CW\*(C`LOOP\*(C'\fR, which the
-assembler will always align, either by widening density instructions or
-by inserting no-op instructions.
-.IP "\fB\-mlongcalls\fR" 4
-.IX Item "-mlongcalls"
-.PD 0
-.IP "\fB\-mno\-longcalls\fR" 4
-.IX Item "-mno-longcalls"
-.PD
-When this option is enabled, \s-1GCC\s0 instructs the assembler to translate
-direct calls to indirect calls unless it can determine that the target
-of a direct call is in the range allowed by the call instruction. This
-translation typically occurs for calls to functions in other source
-files. Specifically, the assembler translates a direct \f(CW\*(C`CALL\*(C'\fR
-instruction into an \f(CW\*(C`L32R\*(C'\fR followed by a \f(CW\*(C`CALLX\*(C'\fR instruction.
-The default is \fB\-mno\-longcalls\fR. This option should be used in
-programs where the call target can potentially be out of range. This
-option is implemented in the assembler, not the compiler, so the
-assembly code generated by \s-1GCC\s0 will still show direct call
-instructions\-\-\-look at the disassembled object code to see the actual
-instructions. Note that the assembler will use an indirect call for
-every cross-file call, not just those that really will be out of range.
-.Sh "Options for Code Generation Conventions"
-.IX Subsection "Options for Code Generation Conventions"
-These machine-independent options control the interface conventions
-used in code generation.
-.PP
-Most of them have both positive and negative forms; the negative form
-of \fB\-ffoo\fR would be \fB\-fno\-foo\fR. In the table below, only
-one of the forms is listed\-\-\-the one which is not the default. You
-can figure out the other form by either removing \fBno\-\fR or adding
-it.
-.IP "\fB\-fbounds\-check\fR" 4
-.IX Item "-fbounds-check"
-For front-ends that support it, generate additional code to check that
-indices used to access arrays are within the declared range. This is
-currently only supported by the Java and Fortran 77 front\-ends, where
-this option defaults to true and false respectively.
-.IP "\fB\-ftrapv\fR" 4
-.IX Item "-ftrapv"
-This option generates traps for signed overflow on addition, subtraction,
-multiplication operations.
-.IP "\fB\-fexceptions\fR" 4
-.IX Item "-fexceptions"
-Enable exception handling. Generates extra code needed to propagate
-exceptions. For some targets, this implies \s-1GCC\s0 will generate frame
-unwind information for all functions, which can produce significant data
-size overhead, although it does not affect execution. If you do not
-specify this option, \s-1GCC\s0 will enable it by default for languages like
-\&\*(C+ which normally require exception handling, and disable it for
-languages like C that do not normally require it. However, you may need
-to enable this option when compiling C code that needs to interoperate
-properly with exception handlers written in \*(C+. You may also wish to
-disable this option if you are compiling older \*(C+ programs that don't
-use exception handling.
-.IP "\fB\-fnon\-call\-exceptions\fR" 4
-.IX Item "-fnon-call-exceptions"
-Generate code that allows trapping instructions to throw exceptions.
-Note that this requires platform-specific runtime support that does
-not exist everywhere. Moreover, it only allows \fItrapping\fR
-instructions to throw exceptions, i.e. memory references or floating
-point instructions. It does not allow exceptions to be thrown from
-arbitrary signal handlers such as \f(CW\*(C`SIGALRM\*(C'\fR.
-.IP "\fB\-funwind\-tables\fR" 4
-.IX Item "-funwind-tables"
-Similar to \fB\-fexceptions\fR, except that it will just generate any needed
-static data, but will not affect the generated code in any other way.
-You will normally not enable this option; instead, a language processor
-that needs this handling would enable it on your behalf.
-.IP "\fB\-fasynchronous\-unwind\-tables\fR" 4
-.IX Item "-fasynchronous-unwind-tables"
-Generate unwind table in dwarf2 format, if supported by target machine. The
-table is exact at each instruction boundary, so it can be used for stack
-unwinding from asynchronous events (such as debugger or garbage collector).
-.IP "\fB\-fpcc\-struct\-return\fR" 4
-.IX Item "-fpcc-struct-return"
-Return ``short'' \f(CW\*(C`struct\*(C'\fR and \f(CW\*(C`union\*(C'\fR values in memory like
-longer ones, rather than in registers. This convention is less
-efficient, but it has the advantage of allowing intercallability between
-GCC-compiled files and files compiled with other compilers, particularly
-the Portable C Compiler (pcc).
-.Sp
-The precise convention for returning structures in memory depends
-on the target configuration macros.
-.Sp
-Short structures and unions are those whose size and alignment match
-that of some integer type.
-.Sp
-\&\fBWarning:\fR code compiled with the \fB\-fpcc\-struct\-return\fR
-switch is not binary compatible with code compiled with the
-\&\fB\-freg\-struct\-return\fR switch.
-Use it to conform to a non-default application binary interface.
-.IP "\fB\-freg\-struct\-return\fR" 4
-.IX Item "-freg-struct-return"
-Return \f(CW\*(C`struct\*(C'\fR and \f(CW\*(C`union\*(C'\fR values in registers when possible.
-This is more efficient for small structures than
-\&\fB\-fpcc\-struct\-return\fR.
-.Sp
-If you specify neither \fB\-fpcc\-struct\-return\fR nor
-\&\fB\-freg\-struct\-return\fR, \s-1GCC\s0 defaults to whichever convention is
-standard for the target. If there is no standard convention, \s-1GCC\s0
-defaults to \fB\-fpcc\-struct\-return\fR, except on targets where \s-1GCC\s0 is
-the principal compiler. In those cases, we can choose the standard, and
-we chose the more efficient register return alternative.
-.Sp
-\&\fBWarning:\fR code compiled with the \fB\-freg\-struct\-return\fR
-switch is not binary compatible with code compiled with the
-\&\fB\-fpcc\-struct\-return\fR switch.
-Use it to conform to a non-default application binary interface.
-.IP "\fB\-fshort\-enums\fR" 4
-.IX Item "-fshort-enums"
-Allocate to an \f(CW\*(C`enum\*(C'\fR type only as many bytes as it needs for the
-declared range of possible values. Specifically, the \f(CW\*(C`enum\*(C'\fR type
-will be equivalent to the smallest integer type which has enough room.
-.Sp
-\&\fBWarning:\fR the \fB\-fshort\-enums\fR switch causes \s-1GCC\s0 to generate
-code that is not binary compatible with code generated without that switch.
-Use it to conform to a non-default application binary interface.
-.IP "\fB\-fshort\-double\fR" 4
-.IX Item "-fshort-double"
-Use the same size for \f(CW\*(C`double\*(C'\fR as for \f(CW\*(C`float\*(C'\fR.
-.Sp
-\&\fBWarning:\fR the \fB\-fshort\-double\fR switch causes \s-1GCC\s0 to generate
-code that is not binary compatible with code generated without that switch.
-Use it to conform to a non-default application binary interface.
-.IP "\fB\-fshort\-wchar\fR" 4
-.IX Item "-fshort-wchar"
-Override the underlying type for \fBwchar_t\fR to be \fBshort
-unsigned int\fR instead of the default for the target. This option is
-useful for building programs to run under \s-1WINE\s0.
-.Sp
-\&\fBWarning:\fR the \fB\-fshort\-wchar\fR switch causes \s-1GCC\s0 to generate
-code that is not binary compatible with code generated without that switch.
-Use it to conform to a non-default application binary interface.
-.IP "\fB\-fshared\-data\fR" 4
-.IX Item "-fshared-data"
-Requests that the data and non\-\f(CW\*(C`const\*(C'\fR variables of this
-compilation be shared data rather than private data. The distinction
-makes sense only on certain operating systems, where shared data is
-shared between processes running the same program, while private data
-exists in one copy per process.
-.IP "\fB\-fno\-common\fR" 4
-.IX Item "-fno-common"
-In C, allocate even uninitialized global variables in the data section of the
-object file, rather than generating them as common blocks. This has the
-effect that if the same variable is declared (without \f(CW\*(C`extern\*(C'\fR) in
-two different compilations, you will get an error when you link them.
-The only reason this might be useful is if you wish to verify that the
-program will work on other systems which always work this way.
-.IP "\fB\-fno\-ident\fR" 4
-.IX Item "-fno-ident"
-Ignore the \fB#ident\fR directive.
-.IP "\fB\-fno\-gnu\-linker\fR" 4
-.IX Item "-fno-gnu-linker"
-Do not output global initializations (such as \*(C+ constructors and
-destructors) in the form used by the \s-1GNU\s0 linker (on systems where the \s-1GNU\s0
-linker is the standard method of handling them). Use this option when
-you want to use a non-GNU linker, which also requires using the
-\&\fBcollect2\fR program to make sure the system linker includes
-constructors and destructors. (\fBcollect2\fR is included in the \s-1GCC\s0
-distribution.) For systems which \fImust\fR use \fBcollect2\fR, the
-compiler driver \fBgcc\fR is configured to do this automatically.
-.IP "\fB\-finhibit\-size\-directive\fR" 4
-.IX Item "-finhibit-size-directive"
-Don't output a \f(CW\*(C`.size\*(C'\fR assembler directive, or anything else that
-would cause trouble if the function is split in the middle, and the
-two halves are placed at locations far apart in memory. This option is
-used when compiling \fIcrtstuff.c\fR; you should not need to use it
-for anything else.
-.IP "\fB\-fverbose\-asm\fR" 4
-.IX Item "-fverbose-asm"
-Put extra commentary information in the generated assembly code to
-make it more readable. This option is generally only of use to those
-who actually need to read the generated assembly code (perhaps while
-debugging the compiler itself).
-.Sp
-\&\fB\-fno\-verbose\-asm\fR, the default, causes the
-extra information to be omitted and is useful when comparing two assembler
-files.
-.IP "\fB\-fvolatile\fR" 4
-.IX Item "-fvolatile"
-Consider all memory references through pointers to be volatile.
-.IP "\fB\-fvolatile\-global\fR" 4
-.IX Item "-fvolatile-global"
-Consider all memory references to extern and global data items to
-be volatile. \s-1GCC\s0 does not consider static data items to be volatile
-because of this switch.
-.IP "\fB\-fvolatile\-static\fR" 4
-.IX Item "-fvolatile-static"
-Consider all memory references to static data to be volatile.
-.IP "\fB\-fpic\fR" 4
-.IX Item "-fpic"
-Generate position-independent code (\s-1PIC\s0) suitable for use in a shared
-library, if supported for the target machine. Such code accesses all
-constant addresses through a global offset table (\s-1GOT\s0). The dynamic
-loader resolves the \s-1GOT\s0 entries when the program starts (the dynamic
-loader is not part of \s-1GCC\s0; it is part of the operating system). If
-the \s-1GOT\s0 size for the linked executable exceeds a machine-specific
-maximum size, you get an error message from the linker indicating that
-\&\fB\-fpic\fR does not work; in that case, recompile with \fB\-fPIC\fR
-instead. (These maximums are 16k on the m88k, 8k on the \s-1SPARC\s0, and 32k
-on the m68k and \s-1RS/6000\s0. The 386 has no such limit.)
-.Sp
-Position-independent code requires special support, and therefore works
-only on certain machines. For the 386, \s-1GCC\s0 supports \s-1PIC\s0 for System V
-but not for the Sun 386i. Code generated for the \s-1IBM\s0 \s-1RS/6000\s0 is always
-position\-independent.
-.IP "\fB\-fPIC\fR" 4
-.IX Item "-fPIC"
-If supported for the target machine, emit position-independent code,
-suitable for dynamic linking and avoiding any limit on the size of the
-global offset table. This option makes a difference on the m68k, m88k,
-and the \s-1SPARC\s0.
-.Sp
-Position-independent code requires special support, and therefore works
-only on certain machines.
-.IP "\fB\-ffixed\-\fR\fIreg\fR" 4
-.IX Item "-ffixed-reg"
-Treat the register named \fIreg\fR as a fixed register; generated code
-should never refer to it (except perhaps as a stack pointer, frame
-pointer or in some other fixed role).
-.Sp
-\&\fIreg\fR must be the name of a register. The register names accepted
-are machine-specific and are defined in the \f(CW\*(C`REGISTER_NAMES\*(C'\fR
-macro in the machine description macro file.
-.Sp
-This flag does not have a negative form, because it specifies a
-three-way choice.
-.IP "\fB\-fcall\-used\-\fR\fIreg\fR" 4
-.IX Item "-fcall-used-reg"
-Treat the register named \fIreg\fR as an allocable register that is
-clobbered by function calls. It may be allocated for temporaries or
-variables that do not live across a call. Functions compiled this way
-will not save and restore the register \fIreg\fR.
-.Sp
-It is an error to used this flag with the frame pointer or stack pointer.
-Use of this flag for other registers that have fixed pervasive roles in
-the machine's execution model will produce disastrous results.
-.Sp
-This flag does not have a negative form, because it specifies a
-three-way choice.
-.IP "\fB\-fcall\-saved\-\fR\fIreg\fR" 4
-.IX Item "-fcall-saved-reg"
-Treat the register named \fIreg\fR as an allocable register saved by
-functions. It may be allocated even for temporaries or variables that
-live across a call. Functions compiled this way will save and restore
-the register \fIreg\fR if they use it.
-.Sp
-It is an error to used this flag with the frame pointer or stack pointer.
-Use of this flag for other registers that have fixed pervasive roles in
-the machine's execution model will produce disastrous results.
-.Sp
-A different sort of disaster will result from the use of this flag for
-a register in which function values may be returned.
-.Sp
-This flag does not have a negative form, because it specifies a
-three-way choice.
-.IP "\fB\-fpack\-struct\fR" 4
-.IX Item "-fpack-struct"
-Pack all structure members together without holes.
-.Sp
-\&\fBWarning:\fR the \fB\-fpack\-struct\fR switch causes \s-1GCC\s0 to generate
-code that is not binary compatible with code generated without that switch.
-Additionally, it makes the code suboptimal.
-Use it to conform to a non-default application binary interface.
-.IP "\fB\-finstrument\-functions\fR" 4
-.IX Item "-finstrument-functions"
-Generate instrumentation calls for entry and exit to functions. Just
-after function entry and just before function exit, the following
-profiling functions will be called with the address of the current
-function and its call site. (On some platforms,
-\&\f(CW\*(C`_\|_builtin_return_address\*(C'\fR does not work beyond the current
-function, so the call site information may not be available to the
-profiling functions otherwise.)
-.Sp
-.Vb 4
-\& void __cyg_profile_func_enter (void *this_fn,
-\& void *call_site);
-\& void __cyg_profile_func_exit (void *this_fn,
-\& void *call_site);
-.Ve
-.Sp
-The first argument is the address of the start of the current function,
-which may be looked up exactly in the symbol table.
-.Sp
-This instrumentation is also done for functions expanded inline in other
-functions. The profiling calls will indicate where, conceptually, the
-inline function is entered and exited. This means that addressable
-versions of such functions must be available. If all your uses of a
-function are expanded inline, this may mean an additional expansion of
-code size. If you use \fBextern inline\fR in your C code, an
-addressable version of such functions must be provided. (This is
-normally the case anyways, but if you get lucky and the optimizer always
-expands the functions inline, you might have gotten away without
-providing static copies.)
-.Sp
-A function may be given the attribute \f(CW\*(C`no_instrument_function\*(C'\fR, in
-which case this instrumentation will not be done. This can be used, for
-example, for the profiling functions listed above, high-priority
-interrupt routines, and any functions from which the profiling functions
-cannot safely be called (perhaps signal handlers, if the profiling
-routines generate output or allocate memory).
-.IP "\fB\-fstack\-check\fR" 4
-.IX Item "-fstack-check"
-Generate code to verify that you do not go beyond the boundary of the
-stack. You should specify this flag if you are running in an
-environment with multiple threads, but only rarely need to specify it in
-a single-threaded environment since stack overflow is automatically
-detected on nearly all systems if there is only one stack.
-.Sp
-Note that this switch does not actually cause checking to be done; the
-operating system must do that. The switch causes generation of code
-to ensure that the operating system sees the stack being extended.
-.IP "\fB\-fstack\-limit\-register=\fR\fIreg\fR" 4
-.IX Item "-fstack-limit-register=reg"
-.PD 0
-.IP "\fB\-fstack\-limit\-symbol=\fR\fIsym\fR" 4
-.IX Item "-fstack-limit-symbol=sym"
-.IP "\fB\-fno\-stack\-limit\fR" 4
-.IX Item "-fno-stack-limit"
-.PD
-Generate code to ensure that the stack does not grow beyond a certain value,
-either the value of a register or the address of a symbol. If the stack
-would grow beyond the value, a signal is raised. For most targets,
-the signal is raised before the stack overruns the boundary, so
-it is possible to catch the signal without taking special precautions.
-.Sp
-For instance, if the stack starts at absolute address \fB0x80000000\fR
-and grows downwards, you can use the flags
-\&\fB\-fstack\-limit\-symbol=_\|_stack_limit\fR and
-\&\fB\-Wl,\-\-defsym,_\|_stack_limit=0x7ffe0000\fR to enforce a stack limit
-of 128KB. Note that this may only work with the \s-1GNU\s0 linker.
-.IP "\fB\-fargument\-alias\fR" 4
-.IX Item "-fargument-alias"
-.PD 0
-.IP "\fB\-fargument\-noalias\fR" 4
-.IX Item "-fargument-noalias"
-.IP "\fB\-fargument\-noalias\-global\fR" 4
-.IX Item "-fargument-noalias-global"
-.PD
-Specify the possible relationships among parameters and between
-parameters and global data.
-.Sp
-\&\fB\-fargument\-alias\fR specifies that arguments (parameters) may
-alias each other and may alias global storage.\fB\-fargument\-noalias\fR specifies that arguments do not alias
-each other, but may alias global storage.\fB\-fargument\-noalias\-global\fR specifies that arguments do not
-alias each other and do not alias global storage.
-.Sp
-Each language will automatically use whatever option is required by
-the language standard. You should not need to use these options yourself.
-.IP "\fB\-fleading\-underscore\fR" 4
-.IX Item "-fleading-underscore"
-This option and its counterpart, \fB\-fno\-leading\-underscore\fR, forcibly
-change the way C symbols are represented in the object file. One use
-is to help link with legacy assembly code.
-.Sp
-\&\fBWarning:\fR the \fB\-fleading\-underscore\fR switch causes \s-1GCC\s0 to
-generate code that is not binary compatible with code generated without that
-switch. Use it to conform to a non-default application binary interface.
-Not all targets provide complete support for this switch.
-.IP "\fB\-ftls\-model=\fR\fImodel\fR" 4
-.IX Item "-ftls-model=model"
-Alter the thread-local storage model to be used.
-The \fImodel\fR argument should be one of \f(CW\*(C`global\-dynamic\*(C'\fR,
-\&\f(CW\*(C`local\-dynamic\*(C'\fR, \f(CW\*(C`initial\-exec\*(C'\fR or \f(CW\*(C`local\-exec\*(C'\fR.
-.Sp
-The default without \fB\-fpic\fR is \f(CW\*(C`initial\-exec\*(C'\fR; with
-\&\fB\-fpic\fR the default is \f(CW\*(C`global\-dynamic\*(C'\fR.
-.SH "ENVIRONMENT"
-.IX Header "ENVIRONMENT"
-This section describes several environment variables that affect how \s-1GCC\s0
-operates. Some of them work by specifying directories or prefixes to use
-when searching for various kinds of files. Some are used to specify other
-aspects of the compilation environment.
-.PP
-Note that you can also specify places to search using options such as
-\&\fB\-B\fR, \fB\-I\fR and \fB\-L\fR. These
-take precedence over places specified using environment variables, which
-in turn take precedence over those specified by the configuration of \s-1GCC\s0.
-.IP "\fB\s-1LANG\s0\fR" 4
-.IX Item "LANG"
-.PD 0
-.IP "\fB\s-1LC_CTYPE\s0\fR" 4
-.IX Item "LC_CTYPE"
-.IP "\fB\s-1LC_MESSAGES\s0\fR" 4
-.IX Item "LC_MESSAGES"
-.IP "\fB\s-1LC_ALL\s0\fR" 4
-.IX Item "LC_ALL"
-.PD
-These environment variables control the way that \s-1GCC\s0 uses
-localization information that allow \s-1GCC\s0 to work with different
-national conventions. \s-1GCC\s0 inspects the locale categories
-\&\fB\s-1LC_CTYPE\s0\fR and \fB\s-1LC_MESSAGES\s0\fR if it has been configured to do
-so. These locale categories can be set to any value supported by your
-installation. A typical value is \fBen_UK\fR for English in the United
-Kingdom.
-.Sp
-The \fB\s-1LC_CTYPE\s0\fR environment variable specifies character
-classification. \s-1GCC\s0 uses it to determine the character boundaries in
-a string; this is needed for some multibyte encodings that contain quote
-and escape characters that would otherwise be interpreted as a string
-end or escape.
-.Sp
-The \fB\s-1LC_MESSAGES\s0\fR environment variable specifies the language to
-use in diagnostic messages.
-.Sp
-If the \fB\s-1LC_ALL\s0\fR environment variable is set, it overrides the value
-of \fB\s-1LC_CTYPE\s0\fR and \fB\s-1LC_MESSAGES\s0\fR; otherwise, \fB\s-1LC_CTYPE\s0\fR
-and \fB\s-1LC_MESSAGES\s0\fR default to the value of the \fB\s-1LANG\s0\fR
-environment variable. If none of these variables are set, \s-1GCC\s0
-defaults to traditional C English behavior.
-.IP "\fB\s-1TMPDIR\s0\fR" 4
-.IX Item "TMPDIR"
-If \fB\s-1TMPDIR\s0\fR is set, it specifies the directory to use for temporary
-files. \s-1GCC\s0 uses temporary files to hold the output of one stage of
-compilation which is to be used as input to the next stage: for example,
-the output of the preprocessor, which is the input to the compiler
-proper.
-.IP "\fB\s-1GCC_EXEC_PREFIX\s0\fR" 4
-.IX Item "GCC_EXEC_PREFIX"
-If \fB\s-1GCC_EXEC_PREFIX\s0\fR is set, it specifies a prefix to use in the
-names of the subprograms executed by the compiler. No slash is added
-when this prefix is combined with the name of a subprogram, but you can
-specify a prefix that ends with a slash if you wish.
-.Sp
-If \fB\s-1GCC_EXEC_PREFIX\s0\fR is not set, \s-1GCC\s0 will attempt to figure out
-an appropriate prefix to use based on the pathname it was invoked with.
-.Sp
-If \s-1GCC\s0 cannot find the subprogram using the specified prefix, it
-tries looking in the usual places for the subprogram.
-.Sp
-The default value of \fB\s-1GCC_EXEC_PREFIX\s0\fR is
-\&\fI\fIprefix\fI/lib/gcc\-lib/\fR where \fIprefix\fR is the value
-of \f(CW\*(C`prefix\*(C'\fR when you ran the \fIconfigure\fR script.
-.Sp
-Other prefixes specified with \fB\-B\fR take precedence over this prefix.
-.Sp
-This prefix is also used for finding files such as \fIcrt0.o\fR that are
-used for linking.
-.Sp
-In addition, the prefix is used in an unusual way in finding the
-directories to search for header files. For each of the standard
-directories whose name normally begins with \fB/usr/local/lib/gcc\-lib\fR
-(more precisely, with the value of \fB\s-1GCC_INCLUDE_DIR\s0\fR), \s-1GCC\s0 tries
-replacing that beginning with the specified prefix to produce an
-alternate directory name. Thus, with \fB\-Bfoo/\fR, \s-1GCC\s0 will search
-\&\fIfoo/bar\fR where it would normally search \fI/usr/local/lib/bar\fR.
-These alternate directories are searched first; the standard directories
-come next.
-.IP "\fB\s-1COMPILER_PATH\s0\fR" 4
-.IX Item "COMPILER_PATH"
-The value of \fB\s-1COMPILER_PATH\s0\fR is a colon-separated list of
-directories, much like \fB\s-1PATH\s0\fR. \s-1GCC\s0 tries the directories thus
-specified when searching for subprograms, if it can't find the
-subprograms using \fB\s-1GCC_EXEC_PREFIX\s0\fR.
-.IP "\fB\s-1LIBRARY_PATH\s0\fR" 4
-.IX Item "LIBRARY_PATH"
-The value of \fB\s-1LIBRARY_PATH\s0\fR is a colon-separated list of
-directories, much like \fB\s-1PATH\s0\fR. When configured as a native compiler,
-\&\s-1GCC\s0 tries the directories thus specified when searching for special
-linker files, if it can't find them using \fB\s-1GCC_EXEC_PREFIX\s0\fR. Linking
-using \s-1GCC\s0 also uses these directories when searching for ordinary
-libraries for the \fB\-l\fR option (but directories specified with
-\&\fB\-L\fR come first).
-.IP "\fB\s-1LANG\s0\fR" 4
-.IX Item "LANG"
-This variable is used to pass locale information to the compiler. One way in
-which this information is used is to determine the character set to be used
-when character literals, string literals and comments are parsed in C and \*(C+.
-When the compiler is configured to allow multibyte characters,
-the following values for \fB\s-1LANG\s0\fR are recognized:
-.RS 4
-.IP "\fBC\-JIS\fR" 4
-.IX Item "C-JIS"
-Recognize \s-1JIS\s0 characters.
-.IP "\fBC\-SJIS\fR" 4
-.IX Item "C-SJIS"
-Recognize \s-1SJIS\s0 characters.
-.IP "\fBC\-EUCJP\fR" 4
-.IX Item "C-EUCJP"
-Recognize \s-1EUCJP\s0 characters.
-.RE
-.RS 4
-.Sp
-If \fB\s-1LANG\s0\fR is not defined, or if it has some other value, then the
-compiler will use mblen and mbtowc as defined by the default locale to
-recognize and translate multibyte characters.
-.RE
-.PP
-Some additional environments variables affect the behavior of the
-preprocessor.
-.IP "\fB\s-1CPATH\s0\fR" 4
-.IX Item "CPATH"
-.PD 0
-.IP "\fBC_INCLUDE_PATH\fR" 4
-.IX Item "C_INCLUDE_PATH"
-.IP "\fB\s-1CPLUS_INCLUDE_PATH\s0\fR" 4
-.IX Item "CPLUS_INCLUDE_PATH"
-.IP "\fB\s-1OBJC_INCLUDE_PATH\s0\fR" 4
-.IX Item "OBJC_INCLUDE_PATH"
-.PD
-Each variable's value is a list of directories separated by a special
-character, much like \fB\s-1PATH\s0\fR, in which to look for header files.
-The special character, \f(CW\*(C`PATH_SEPARATOR\*(C'\fR, is target-dependent and
-determined at \s-1GCC\s0 build time. For Windows-based targets it is a
-semicolon, and for almost all other targets it is a colon.
-.Sp
-\&\fB\s-1CPATH\s0\fR specifies a list of directories to be searched as if
-specified with \fB\-I\fR, but after any paths given with \fB\-I\fR
-options on the command line. This environment variable is used
-regardless of which language is being preprocessed.
-.Sp
-The remaining environment variables apply only when preprocessing the
-particular language indicated. Each specifies a list of directories
-to be searched as if specified with \fB\-isystem\fR, but after any
-paths given with \fB\-isystem\fR options on the command line.
-.Sp
-In all these variables, an empty element instructs the compiler to
-search its current working directory. Empty elements can appear at the
-beginning or end of a path. For instance, if the value of
-\&\fB\s-1CPATH\s0\fR is \f(CW\*(C`:/special/include\*(C'\fR, that has the same
-effect as \fB\-I.\ \-I/special/include\fR.
-.IP "\fB\s-1DEPENDENCIES_OUTPUT\s0\fR" 4
-.IX Item "DEPENDENCIES_OUTPUT"
-If this variable is set, its value specifies how to output
-dependencies for Make based on the non-system header files processed
-by the compiler. System header files are ignored in the dependency
-output.
-.Sp
-The value of \fB\s-1DEPENDENCIES_OUTPUT\s0\fR can be just a file name, in
-which case the Make rules are written to that file, guessing the target
-name from the source file name. Or the value can have the form
-\&\fIfile\fR\fB \fR\fItarget\fR, in which case the rules are written to
-file \fIfile\fR using \fItarget\fR as the target name.
-.Sp
-In other words, this environment variable is equivalent to combining
-the options \fB\-MM\fR and \fB\-MF\fR,
-with an optional \fB\-MT\fR switch too.
-.IP "\fB\s-1SUNPRO_DEPENDENCIES\s0\fR" 4
-.IX Item "SUNPRO_DEPENDENCIES"
-This variable is the same as \fB\s-1DEPENDENCIES_OUTPUT\s0\fR (see above),
-except that system header files are not ignored, so it implies
-\&\fB\-M\fR rather than \fB\-MM\fR. However, the dependence on the
-main input file is omitted.
-.SH "BUGS"
-.IX Header "BUGS"
-For instructions on reporting bugs, see
-<\fBhttp://gcc.gnu.org/bugs.html\fR>. Use of the \fBgccbug\fR
-script to report bugs is recommended.
-.SH "FOOTNOTES"
-.IX Header "FOOTNOTES"
-.IP "1." 4
-On some systems, \fBgcc \-shared\fR
-needs to build supplementary stub code for constructors to work. On
-multi-libbed systems, \fBgcc \-shared\fR must select the correct support
-libraries to link against. Failing to supply the correct flags may lead
-to subtle defects. Supplying them in cases where they are not necessary
-is innocuous.
-.SH "SEE ALSO"
-.IX Header "SEE ALSO"
-\&\fIgpl\fR\|(7), \fIgfdl\fR\|(7), \fIfsf\-funding\fR\|(7),
-\&\fIcpp\fR\|(1), \fIgcov\fR\|(1), \fIg77\fR\|(1), \fIas\fR\|(1), \fIld\fR\|(1), \fIgdb\fR\|(1), \fIadb\fR\|(1), \fIdbx\fR\|(1), \fIsdb\fR\|(1)
-and the Info entries for \fIgcc\fR, \fIcpp\fR, \fIg77\fR, \fIas\fR,
-\&\fIld\fR, \fIbinutils\fR and \fIgdb\fR.
-.SH "AUTHOR"
-.IX Header "AUTHOR"
-See the Info entry for \fBgcc\fR, or
-<\fBhttp://gcc.gnu.org/onlinedocs/gcc/Contributors.html\fR>,
-for contributors to \s-1GCC\s0.
-.SH "COPYRIGHT"
-.IX Header "COPYRIGHT"
-Copyright (c) 1988, 1989, 1992, 1993, 1994, 1995, 1996, 1997,
-1998, 1999, 2000, 2001, 2002, 2003 Free Software Foundation, Inc.
-.PP
-Permission is granted to copy, distribute and/or modify this document
-under the terms of the \s-1GNU\s0 Free Documentation License, Version 1.2 or
-any later version published by the Free Software Foundation; with the
-Invariant Sections being ``\s-1GNU\s0 General Public License'' and ``Funding
-Free Software'', the Front-Cover texts being (a) (see below), and with
-the Back-Cover Texts being (b) (see below). A copy of the license is
-included in the \fIgfdl\fR\|(7) man page.
-.PP
-(a) The \s-1FSF\s0's Front-Cover Text is:
-.PP
-.Vb 1
-\& A GNU Manual
-.Ve
-.PP
-(b) The \s-1FSF\s0's Back-Cover Text is:
-.PP
-.Vb 3
-\& You have freedom to copy and modify this GNU Manual, like GNU
-\& software. Copies published by the Free Software Foundation raise
-\& funds for GNU development.
-.Ve
+timestamp
diff -u -r -N gcc-3.3.6-core-orig/gcc/doc/invoke.texi gcc-3.3.6/gcc/doc/invoke.texi
--- gcc-3.3.6-core-orig/gcc/doc/invoke.texi 2005-04-22 07:52:33.000000000 +0100
+++ gcc-3.3.6/gcc/doc/invoke.texi 2010-11-09 20:47:16.000000000 +0000
@@ -329,7 +329,7 @@
@emph{M68hc1x Options}
@gccoptlist{-m6811 -m6812 -m68hc11 -m68hc12 -m68hcs12 @gol
--mauto-incdec -minmax -mlong-calls -mshort @gol
+-mauto-incdec -minmax -mlong-calls -mrelax -mshort @gol
-msoft-reg-count=@var{count}}
@emph{VAX Options}
@@ -5624,7 +5624,20 @@
@opindex mno-long-calls
Treat all calls as being far away (near). If calls are assumed to be
far away, the compiler will use the @code{call} instruction to
-call a function and the @code{rtc} instruction for returning.
+call a function and the @code{rtc} instruction for returning. An interrupt
+or a trap handler is not affected by this option and is always considered near.
+
+@item -mrelax
+@opindex mrelax
+Indicate to the compiler and linker that they should perform a relaxation
+optimization pass to shorten branches, calls and absolute memory addresses.
+The compiler will not use direct addressing mode for pseudo-soft registers and
+it will also emit some @code{bset} and @code{bclr} sequences that can be
+optimized by the linker. The linker option @option{-relax} will be used
+and the linker will transform 16-bit addressing modes into direct addressing
+modes if possible.
+
+This option makes symbolic debugging impossible.
@item -mshort
@opindex mshort
diff -u -r -N gcc-3.3.6-core-orig/gcc/expmed.c gcc-3.3.6/gcc/expmed.c
--- gcc-3.3.6-core-orig/gcc/expmed.c 2005-04-30 17:01:29.000000000 +0100
+++ gcc-3.3.6/gcc/expmed.c 2010-11-09 20:47:16.000000000 +0000
@@ -474,6 +474,15 @@
result in an abort. */
fieldmode = smallest_mode_for_size (nwords * BITS_PER_WORD, MODE_INT);
+ /* When the value is a constant, the constant_subword applies a
+ correction on big endian targets. If the bitfield contains less words
+ than the value (fieldmode), the constant that is extracted is shifted
+ by the word difference. Example: bitfield = 33, fieldmode = DImode
+ and constant_subword extracts word 1 2 3 instead of 0 1 2. */
+ int correction = 0;
+ if (WORDS_BIG_ENDIAN && CONSTANT_P (value))
+ correction = GET_MODE_BITSIZE (fieldmode) / BITS_PER_WORD - nwords;
+
for (i = 0; i < nwords; i++)
{
/* If I is 0, use the low-order word in both field and target;
@@ -488,7 +497,7 @@
store_bit_field (op0, MIN (BITS_PER_WORD,
bitsize - i * BITS_PER_WORD),
bitnum + bit_offset, word_mode,
- operand_subword_force (value, wordnum,
+ operand_subword_force (value, correction + wordnum,
(GET_MODE (value) == VOIDmode
? fieldmode
: GET_MODE (value))),
@@ -2142,7 +2151,7 @@
if ((t & 1) == 0)
{
m = floor_log2 (t & -t); /* m = number of low zero bits */
- if (m < BITS_PER_WORD)
+ if (m < MAX_BITS_PER_WORD)
{
q = t >> m;
cost = shift_cost[m];
@@ -2227,7 +2236,7 @@
unsigned HOST_WIDE_INT d;
d = ((unsigned HOST_WIDE_INT) 1 << m) + 1;
- if (t % d == 0 && t > d && m < BITS_PER_WORD)
+ if (t % d == 0 && t > d && m < MAX_BITS_PER_WORD)
{
cost = MIN (shiftadd_cost[m], add_cost + shift_cost[m]);
synth_mult (alg_in, t / d, cost_limit - cost);
@@ -2246,7 +2255,7 @@
}
d = ((unsigned HOST_WIDE_INT) 1 << m) - 1;
- if (t % d == 0 && t > d && m < BITS_PER_WORD)
+ if (t % d == 0 && t > d && m < MAX_BITS_PER_WORD)
{
cost = MIN (shiftsub_cost[m], add_cost + shift_cost[m]);
synth_mult (alg_in, t / d, cost_limit - cost);
@@ -2271,7 +2280,7 @@
q = t - 1;
q = q & -q;
m = exact_log2 (q);
- if (m >= 0 && m < BITS_PER_WORD)
+ if (m >= 0 && m < MAX_BITS_PER_WORD)
{
cost = shiftadd_cost[m];
synth_mult (alg_in, (t - 1) >> m, cost_limit - cost);
@@ -2290,7 +2299,7 @@
q = t + 1;
q = q & -q;
m = exact_log2 (q);
- if (m >= 0 && m < BITS_PER_WORD)
+ if (m >= 0 && m < MAX_BITS_PER_WORD)
{
cost = shiftsub_cost[m];
synth_mult (alg_in, (t + 1) >> m, cost_limit - cost);
@@ -2793,7 +2802,7 @@
/* expand_mult handles constant multiplication of word_mode
or narrower. It does a poor job for large modes. */
- if (size < BITS_PER_WORD
+ if (size < MAX_BITS_PER_WORD
&& mul_cost[(int) wider_mode] + shift_cost[size-1] < max_cost)
{
/* We have to do this, since expand_binop doesn't do conversion for
@@ -2824,7 +2833,7 @@
/* Secondly, same as above, but use sign flavor opposite of unsignedp.
Need to adjust the result after the multiplication. */
- if (size - 1 < BITS_PER_WORD
+ if (size - 1 < MAX_BITS_PER_WORD
&& (mul_highpart_cost[(int) mode] + 2 * shift_cost[size-1] + 4 * add_cost
< max_cost))
{
@@ -2849,7 +2858,7 @@
/* Try widening the mode and perform a non-widening multiplication. */
moptab = smul_optab;
if (smul_optab->handlers[(int) wider_mode].insn_code != CODE_FOR_nothing
- && size - 1 < BITS_PER_WORD
+ && size - 1 < MAX_BITS_PER_WORD
&& mul_cost[(int) wider_mode] + shift_cost[size-1] < max_cost)
{
op1 = wide_op1;
@@ -2859,7 +2868,7 @@
/* Try widening multiplication of opposite signedness, and adjust. */
moptab = unsignedp ? smul_widen_optab : umul_widen_optab;
if (moptab->handlers[(int) wider_mode].insn_code != CODE_FOR_nothing
- && size - 1 < BITS_PER_WORD
+ && size - 1 < MAX_BITS_PER_WORD
&& (mul_widen_cost[(int) wider_mode]
+ 2 * shift_cost[size-1] + 4 * add_cost < max_cost))
{
@@ -3199,7 +3208,7 @@
{
rtx t1, t2, t3, t4;
- if (post_shift - 1 >= BITS_PER_WORD)
+ if (post_shift - 1 >= MAX_BITS_PER_WORD)
goto fail1;
extra_cost = (shift_cost[post_shift - 1]
@@ -3226,8 +3235,8 @@
{
rtx t1, t2;
- if (pre_shift >= BITS_PER_WORD
- || post_shift >= BITS_PER_WORD)
+ if (pre_shift >= MAX_BITS_PER_WORD
+ || post_shift >= MAX_BITS_PER_WORD)
goto fail1;
t1 = expand_shift (RSHIFT_EXPR, compute_mode, op0,
@@ -3363,8 +3372,8 @@
{
rtx t1, t2, t3;
- if (post_shift >= BITS_PER_WORD
- || size - 1 >= BITS_PER_WORD)
+ if (post_shift >= MAX_BITS_PER_WORD
+ || size - 1 >= MAX_BITS_PER_WORD)
goto fail1;
extra_cost = (shift_cost[post_shift]
@@ -3393,8 +3402,8 @@
{
rtx t1, t2, t3, t4;
- if (post_shift >= BITS_PER_WORD
- || size - 1 >= BITS_PER_WORD)
+ if (post_shift >= MAX_BITS_PER_WORD
+ || size - 1 >= MAX_BITS_PER_WORD)
goto fail1;
ml |= (~(unsigned HOST_WIDE_INT) 0) << (size - 1);
@@ -3480,8 +3489,8 @@
if (mh)
abort ();
- if (post_shift < BITS_PER_WORD
- && size - 1 < BITS_PER_WORD)
+ if (post_shift < MAX_BITS_PER_WORD
+ && size - 1 < MAX_BITS_PER_WORD)
{
t1 = expand_shift (RSHIFT_EXPR, compute_mode, op0,
build_int_2 (size - 1, 0),
@@ -4135,8 +4144,12 @@
case SIGN_EXTEND:
case ZERO_EXTEND:
- t = (*lang_hooks.types.type_for_mode) (GET_MODE (XEXP (x, 0)),
- GET_CODE (x) == ZERO_EXTEND);
+ if (CONSTANT_P (XEXP (x, 0)))
+ t = (*lang_hooks.types.type_for_mode) (GET_MODE (x),
+ GET_CODE (x) == ZERO_EXTEND);
+ else
+ t = (*lang_hooks.types.type_for_mode) (GET_MODE (XEXP (x, 0)),
+ GET_CODE (x) == ZERO_EXTEND);
return fold (convert (type, make_tree (t, XEXP (x, 0))));
default:
diff -u -r -N gcc-3.3.6-core-orig/gcc/final.c gcc-3.3.6/gcc/final.c
--- gcc-3.3.6-core-orig/gcc/final.c 2003-12-01 08:18:36.000000000 +0000
+++ gcc-3.3.6/gcc/final.c 2010-11-09 20:47:16.000000000 +0000
@@ -2909,7 +2909,22 @@
/* simplify_subreg does not remove subreg from volatile references.
We are required to. */
if (GET_CODE (y) == MEM)
- *xp = adjust_address (y, GET_MODE (x), SUBREG_BYTE (x));
+ {
+ unsigned outer_size = GET_MODE_SIZE (GET_MODE (x));
+ unsigned inner_size = GET_MODE_SIZE (GET_MODE (y));
+ int offset = SUBREG_BYTE (x);
+
+ /* If this is a paradoxical subreg with a SUBREG_BYTE set
+ to 0 we must adjust the offset for big-endian machines
+ (otherwise we take the address of the high part). */
+ if (BYTES_BIG_ENDIAN && !offset && outer_size > inner_size)
+ {
+ offset += MIN (inner_size, UNITS_PER_WORD);
+ offset -= MIN (outer_size, UNITS_PER_WORD);
+ }
+
+ *xp = adjust_address (y, GET_MODE (x), offset);
+ }
else
{
rtx new = simplify_subreg (GET_MODE (x), y, GET_MODE (y),
diff -u -r -N gcc-3.3.6-core-orig/gcc/flow.c gcc-3.3.6/gcc/flow.c
--- gcc-3.3.6-core-orig/gcc/flow.c 2004-12-04 00:36:35.000000000 +0000
+++ gcc-3.3.6/gcc/flow.c 2010-11-09 20:47:16.000000000 +0000
@@ -571,7 +571,7 @@
fputs ("Old:\n", rtl_dump_file);
dump_bb (bb, rtl_dump_file);
}
- abort ();
+ // SCz: abort ();
}
}
else
diff -u -r -N gcc-3.3.6-core-orig/gcc/gcse.c gcc-3.3.6/gcc/gcse.c
--- gcc-3.3.6-core-orig/gcc/gcse.c 2003-12-20 19:59:50.000000000 +0000
+++ gcc-3.3.6/gcc/gcse.c 2010-11-09 20:47:16.000000000 +0000
@@ -3513,8 +3513,7 @@
/* ??? If the change fails, we return 0, even though we created
an insn. I think this is ok. */
new_insn
- = emit_insn_after (gen_rtx_SET (VOIDmode, to,
- SET_DEST (expr_set)),
+ = emit_insn_after (gen_move_insn (to, SET_DEST (expr_set)),
insn_computes_expr);
/* Keep register set table up to date. */
@@ -3525,7 +3524,7 @@
{
fprintf (gcse_file, "GCSE: Creating insn %d to copy value of reg %d",
INSN_UID (NEXT_INSN (insn_computes_expr)),
- REGNO (SET_SRC (PATTERN (NEXT_INSN (insn_computes_expr)))));
+ REGNO (SET_DEST (expr_set)));
fprintf (gcse_file, ", computed in insn %d,\n",
INSN_UID (insn_computes_expr));
fprintf (gcse_file, " into newly allocated reg %d\n",
diff -u -r -N gcc-3.3.6-core-orig/gcc/libgcc2.c gcc-3.3.6/gcc/libgcc2.c
--- gcc-3.3.6-core-orig/gcc/libgcc2.c 2002-10-23 11:47:24.000000000 +0100
+++ gcc-3.3.6/gcc/libgcc2.c 2010-11-09 20:47:16.000000000 +0000
@@ -490,7 +490,12 @@
#if (defined (L_udivdi3) || defined (L_divdi3) || \
defined (L_umoddi3) || defined (L_moddi3))
-#define L_udivmoddi4
+#if !defined(mc6811) && !defined(mc6812)
+# define L_udivmoddi4
+#else
+extern UDWtype
+__udivmoddi4 (UDWtype n, UDWtype d, UDWtype *rp);
+#endif
#endif
#ifdef L_clz
diff -u -r -N gcc-3.3.6-core-orig/gcc/longlong.h gcc-3.3.6/gcc/longlong.h
--- gcc-3.3.6-core-orig/gcc/longlong.h 2002-10-03 21:39:08.000000000 +0100
+++ gcc-3.3.6/gcc/longlong.h 2010-11-09 20:47:16.000000000 +0000
@@ -1162,6 +1162,67 @@
#endif /* __GNUC__ */
+#if defined(mc6811) || defined(mc6812)
+#define sub_ddmmss(sh, sl, ah, al, bh, bl) \
+ do { \
+ __asm__ ("subd 2+%2\n" \
+ "\txgdx\n" \
+ "\tsbcb 1+%2\n" \
+ "\tsbca %2\n" \
+ "\txgdx" : "=D"((USItype) (sl)) \
+ : "0"((USItype) (al)), "m"((USItype) (bl))); \
+ /* Assumes that the carry is not modified. */ \
+ /* which is true since the reload instructions */ \
+ /* generated between the two __asm__ only do load/store. */ \
+ __asm__ ("sbcb 3+%2\n" \
+ "\tsbca 2+%2\n" \
+ "\txgdx\n" \
+ "\tsbcb 1+%2\n" \
+ "\tsbca %2\n" \
+ "\txgdx" : "=D"((USItype) (sh)) \
+ : "0"((USItype) (ah)), "m"((USItype) (bh))); \
+ } while (0)
+#if defined(mc6812)
+#define umul_ppmm(w1, w0, u, v) \
+ do { \
+ UWtype __x0, __x1, __x2, __x3; \
+ \
+ __x0 = ((UWtype) ((UHItype) __ll_lowpart (u))) * ((UWtype) ((UHItype) __ll_lowpart (v))); \
+ __x1 = ((UWtype) ((UHItype) __ll_lowpart (u))) * ((UWtype) ((UHItype) __ll_highpart (v))); \
+ __x2 = ((UWtype) ((UHItype) __ll_highpart (u))) * ((UWtype) ((UHItype) __ll_lowpart (v))); \
+ __x3 = ((UWtype) ((UHItype) __ll_highpart (u))) * ((UWtype) ((UHItype) __ll_highpart (v))); \
+ \
+ __x1 += __ll_highpart (__x0);/* this can't give carry */ \
+ __x1 += __x2; /* but this indeed can */ \
+ __asm__ ("bcc 1f\n" \
+ "\tinx\n" \
+ "1:" : "=D"(__x3) : "0"(__x3)); \
+ \
+ (w1) = __x3 + __ll_highpart (__x1); \
+ (w0) = __ll_lowpart (__x1) * __ll_B + __ll_lowpart (__x0); \
+ } while (0)
+#else
+#define umul_ppmm(w1, w0, u, v) \
+ do { \
+ UWtype __x0, __x1, __x2, __x3; \
+ extern UWtype __attribute__((near)) __mulhi32 (UHItype, UHItype); \
+ \
+ __x0 = __mulhi32 (__ll_lowpart (u), __ll_lowpart (v)); \
+ __x1 = __mulhi32 (__ll_lowpart (u), __ll_highpart (v)); \
+ __x2 = __mulhi32 (__ll_highpart (u), __ll_lowpart (v)); \
+ __x3 = __mulhi32 (__ll_highpart (u), __ll_highpart (v)); \
+ \
+ __x1 += __ll_highpart (__x0);/* this can't give carry */ \
+ __x1 += __x2; /* but this indeed can */ \
+ __asm__ ("bcc 1f\n" \
+ "\tinx\n" \
+ "1:" : "=D"(__x3) : "0"(__x3)); \
+ \
+ (w1) = __x3 + __ll_highpart (__x1); \
+ (w0) = __ll_lowpart (__x1) * __ll_B + __ll_lowpart (__x0); \
+ } while (0)
+#endif
+#endif
/* If this machine has no inline assembler, use C macros. */
#if !defined (add_ssaaaa)
@@ -1232,6 +1293,45 @@
#endif
/* Define this unconditionally, so it can be used for debugging. */
+#if defined(mc6811) || defined(mc6812)
+extern USItype __udivmodsi4(USItype num, USItype den, USItype* mod);
+
+#define __udiv_qrnnd_c(q, r, n1, n0, d) \
+ do { \
+ USItype __d1, __d0, __q1, __q0; \
+ USItype __r0, __m; \
+ __d1 = __ll_highpart (d); \
+ __d0 = __ll_lowpart (d); \
+ \
+ __q1 = __udivmodsi4 (n1,__d1,&__r0); \
+ __m = (USItype) __q1 * __d0; \
+ __r0 = __r0 * __ll_B | __ll_highpart (n0); \
+ if (__r0 < __m) \
+ { \
+ __q1--, __r0 += (d); \
+ if (__r0 >= (d)) /* i.e. we didn't get carry when adding to __r0 */\
+ if (__r0 < __m) \
+ __q1--, __r0 += (d); \
+ } \
+ __r0 -= __m; \
+ \
+ __q0 = __udivmodsi4 (__r0,__d1,&__r0); \
+ __m = (USItype) __q0 * __d0; \
+ __r0 = __r0 * __ll_B | __ll_lowpart (n0); \
+ if (__r0 < __m) \
+ { \
+ __q0--, __r0 += (d); \
+ if (__r0 >= (d)) \
+ if (__r0 < __m) \
+ __q0--, __r0 += (d); \
+ } \
+ __r0 -= __m; \
+ \
+ (q) = (USItype) __q1 * __ll_B | __q0; \
+ (r) = __r0; \
+ } while (0)
+#else
+/* Define this unconditionally, so it can be used for debugging. */
#define __udiv_qrnnd_c(q, r, n1, n0, d) \
do { \
UWtype __d1, __d0, __q1, __q0; \
@@ -1268,6 +1368,7 @@
(q) = (UWtype) __q1 * __ll_B | __q0; \
(r) = __r0; \
} while (0)
+#endif
/* If the processor has no udiv_qrnnd but sdiv_qrnnd, go through
__udiv_w_sdiv (defined in libgcc or elsewhere). */
diff -u -r -N gcc-3.3.6-core-orig/gcc/loop.c gcc-3.3.6/gcc/loop.c
--- gcc-3.3.6-core-orig/gcc/loop.c 2004-05-30 00:27:30.000000000 +0100
+++ gcc-3.3.6/gcc/loop.c 2010-11-09 20:47:16.000000000 +0000
@@ -4703,7 +4703,8 @@
this is an address giv, then try to put the increment
immediately after its use, so that flow can create an
auto-increment addressing mode. */
- if (v->giv_type == DEST_ADDR && bl->biv_count == 1
+ if ((HAVE_POST_INCREMENT || HAVE_POST_DECREMENT)
+ && v->giv_type == DEST_ADDR && bl->biv_count == 1
&& bl->biv->always_executed && ! bl->biv->maybe_multiple
/* We don't handle reversed biv's because bl->biv->insn
does not have a valid INSN_LUID. */
@@ -8979,7 +8980,13 @@
|| (GET_CODE (v->add_val) == REG
&& REG_POINTER (v->add_val)))
&& ! v->ignore && ! v->maybe_dead && v->always_computable
- && v->mode == mode)
+ && v->mode == mode
+ /* SCz: There is a possible overflow here.
+ If we compare to a constant value, the constant is
+ re-computed (CST * mult_add + add_val) and there may
+ be an overflow. CST was 16399, mult was 8, and integers
+ are 16-bits. (execute/loop-3c.c, -Os -mshort). */
+ && 0)
{
if (! biv_elimination_giv_has_0_offset (bl->biv, v, insn))
continue;
diff -u -r -N gcc-3.3.6-core-orig/gcc/regrename.c gcc-3.3.6/gcc/regrename.c
--- gcc-3.3.6-core-orig/gcc/regrename.c 2002-11-04 16:57:02.000000000 +0000
+++ gcc-3.3.6/gcc/regrename.c 2010-11-09 20:47:16.000000000 +0000
@@ -102,6 +102,9 @@
HARD_REG_SET *pset = (HARD_REG_SET *) data;
unsigned int regno;
int nregs;
+
+ if (GET_CODE (x) == SUBREG)
+ x = SUBREG_REG (x);
if (GET_CODE (x) != REG)
return;
regno = REGNO (x);
@@ -292,6 +295,7 @@
for (new_reg = 0; new_reg < FIRST_PSEUDO_REGISTER; new_reg++)
{
int nregs = HARD_REGNO_NREGS (new_reg, GET_MODE (*this->loc));
+ int mode = GET_MODE (*this->loc);
for (i = nregs - 1; i >= 0; --i)
if (TEST_HARD_REG_BIT (this_unavailable, new_reg + i)
@@ -307,7 +311,7 @@
&& !LEAF_REGISTERS[new_reg + i])
#endif
#ifdef HARD_REGNO_RENAME_OK
- || ! HARD_REGNO_RENAME_OK (reg + i, new_reg + i)
+ || ! HARD_REGNO_RENAME_OK (reg + i, new_reg + i, mode)
#endif
)
break;
diff -u -r -N gcc-3.3.6-core-orig/gcc/reload1.c gcc-3.3.6/gcc/reload1.c
--- gcc-3.3.6-core-orig/gcc/reload1.c 2004-11-26 05:08:45.000000000 +0000
+++ gcc-3.3.6/gcc/reload1.c 2010-11-09 20:47:16.000000000 +0000
@@ -1777,9 +1777,6 @@
if (best_reg == -1)
return 0;
- if (rtl_dump_file)
- fprintf (rtl_dump_file, "Using reg %d for reload %d\n", best_reg, rnum);
-
rl->nregs = HARD_REGNO_NREGS (best_reg, rl->mode);
rl->regno = best_reg;
@@ -1930,6 +1927,7 @@
{
error ("unable to find a register to spill in class `%s'",
reg_class_names[class]);
+
fatal_insn ("this is the insn:", insn);
}
}
@@ -3979,7 +3977,7 @@
for this insn in order to be stored in
(obeying register constraints). That is correct; such reload
registers ARE still valid. */
- note_stores (oldpat, forget_old_reloads_1, NULL);
+ note_stores (oldpat, forget_old_reloads_1, NULL);
/* There may have been CLOBBER insns placed after INSN. So scan
between INSN and NEXT and use them to forget old reloads. */
@@ -4580,6 +4578,9 @@
case RELOAD_OTHER:
/* Since a RELOAD_OTHER reload claims the reg for the entire insn,
its value must reach the end. */
+ for (i = 0; i < reload_n_operands; i++)
+ if (TEST_HARD_REG_BIT (reload_reg_used_in_output[i], regno))
+ return 0;
return 1;
/* If this use is for part of the insn,
@@ -5298,6 +5299,13 @@
CLEAR_HARD_REG_SET (reload_reg_used_in_insn);
CLEAR_HARD_REG_SET (reload_reg_used_in_other_addr);
+#if 0 /* TARGET_M68HC11 or NO_SPILL_REG_ROUND_ROBIN */
+ /* Don't use the round-robin fashion for allocation of spill registers.
+ If we use round-robin, the reload pass allocates Y and Z registers
+ which are expensive compared to X and D. */
+ last_spill_reg = -1;
+#endif
+
CLEAR_HARD_REG_SET (reg_used_in_insn);
{
HARD_REG_SET tmp;
@@ -6037,6 +6045,29 @@
reload_spill_index[r] = -1;
}
+
+/* Returns true if merging reloads i and j should result in a
+ RELOAD_FOR_OTHER_ADDRESS reload, else false for RELOAD_OTHER. */
+static int
+merge_becomes_other_address (int i, int j)
+{
+ int wn1 = rld[i].when_needed;
+ int wn2 = rld[j].when_needed;
+
+ if (wn2 == RELOAD_FOR_OTHER_ADDRESS)
+ wn2 = wn1;
+ else if (wn1 != RELOAD_FOR_OTHER_ADDRESS)
+ return 0;
+
+ return (wn2 == RELOAD_FOR_INPUT_ADDRESS
+ || wn2 == RELOAD_FOR_INPADDR_ADDRESS
+ || wn2 == RELOAD_FOR_OUTPUT_ADDRESS
+ || wn2 == RELOAD_FOR_OUTADDR_ADDRESS
+ || wn2 == RELOAD_FOR_OPERAND_ADDRESS
+ || wn2 == RELOAD_FOR_OPADDR_ADDR
+ || wn2 == RELOAD_FOR_OTHER_ADDRESS);
+}
+
/* If SMALL_REGISTER_CLASSES is nonzero, we may not have merged two
reloads of the same item for fear that we might not have enough reload
registers. However, normally they will get the same reload register
@@ -6050,6 +6081,7 @@
This will not increase the number of spill registers needed and will
prevent redundant code. */
+extern const char *const reload_when_needed_name[];
static void
merge_assigned_reloads (insn)
rtx insn;
@@ -6114,6 +6146,7 @@
if (j == n_reloads
&& max_input_address_opnum <= min_conflicting_input_opnum)
{
+ int changed = 0;
for (j = 0; j < n_reloads; j++)
if (i != j && rld[j].reg_rtx != 0
&& rtx_equal_p (rld[i].reg_rtx, rld[j].reg_rtx)
@@ -6121,12 +6154,22 @@
|| rld[j].when_needed == RELOAD_FOR_INPUT_ADDRESS
|| rld[j].when_needed == RELOAD_FOR_OTHER_ADDRESS))
{
- rld[i].when_needed = RELOAD_OTHER;
+ if (merge_becomes_other_address (i, j))
+ rld[i].when_needed = RELOAD_FOR_OTHER_ADDRESS;
+ else
+ rld[i].when_needed = RELOAD_OTHER;
rld[j].in = 0;
reload_spill_index[j] = -1;
transfer_replacements (i, j);
+ changed = 1;
}
+ /* If this is now RELOAD_OTHER or RELOAD_FOR_OTHER_ADDRESS,
+ look for any reloads that load parts of this operand and
+ set them to RELOAD_FOR_OTHER_ADDRESS if they were for
+ inputs, RELOAD_OTHER for outputs. Note that this test is
+ equivalent to looking for reloads for this operand
+ number. */
/* If this is now RELOAD_OTHER, look for any reloads that load
parts of this operand and set them to RELOAD_FOR_OTHER_ADDRESS
if they were for inputs, RELOAD_OTHER for outputs. Note that
@@ -6137,7 +6180,9 @@
same value or a part of it; we must not change its type if there
is a conflicting input. */
- if (rld[i].when_needed == RELOAD_OTHER)
+ if (changed
+ && (rld[i].when_needed == RELOAD_OTHER
+ || rld[i].when_needed == RELOAD_FOR_OTHER_ADDRESS))
for (j = 0; j < n_reloads; j++)
if (rld[j].in != 0
&& rld[j].when_needed != RELOAD_OTHER
@@ -6152,7 +6197,8 @@
rld[j].when_needed
= ((rld[j].when_needed == RELOAD_FOR_INPUT_ADDRESS
- || rld[j].when_needed == RELOAD_FOR_INPADDR_ADDRESS)
+ || rld[j].when_needed == RELOAD_FOR_INPADDR_ADDRESS
+ || rld[j].when_needed == RELOAD_FOR_OPADDR_ADDR)
? RELOAD_FOR_OTHER_ADDRESS : RELOAD_OTHER);
/* Check to see if we accidentally converted two reloads
@@ -6164,8 +6210,13 @@
if (rld[k].in != 0 && rld[k].reg_rtx != 0
&& rld[k].when_needed == rld[j].when_needed
&& rtx_equal_p (rld[k].reg_rtx, rld[j].reg_rtx)
- && ! rtx_equal_p (rld[k].in, rld[j].in))
+ && ! rtx_equal_p (rld[k].in, rld[j].in)) {
+ printf("Changed reload %d, conflict %d with %d\n",
+ i, k, j);
+
abort ();
+ }
+
}
}
}
@@ -7306,6 +7357,13 @@
rld[r].when_needed))
CLEAR_HARD_REG_BIT (reg_reloaded_valid, i + k);
}
+ else
+ {
+ /* When the reload does not reach the end, we must
+ invalidate the old info. */
+ for (k = 0; k < nr; k++)
+ CLEAR_HARD_REG_BIT (reg_reloaded_valid, i + k);
+ }
}
/* The following if-statement was #if 0'd in 1.34 (or before...).
diff -u -r -N gcc-3.3.6-core-orig/gcc/reload.c gcc-3.3.6/gcc/reload.c
--- gcc-3.3.6-core-orig/gcc/reload.c 2004-03-05 17:09:34.000000000 +0000
+++ gcc-3.3.6/gcc/reload.c 2010-11-09 20:47:16.000000000 +0000
@@ -4216,6 +4216,20 @@
if (goal_alternative_matches[rld[i].opnum] >= 0)
rld[i].opnum = goal_alternative_matches[rld[i].opnum];
+
+ /* If an operand's reload is RELOAD_OTHER, change any
+ RELOAD_FOR_OPERAND_ADDRESS and RELOAD_FOR_OUTPUT_ADDRESS reloads
+ of that operand to RELOAD_FOR_OTHER_ADDRESS. This is necessary
+ to make sure the reloads are emitted in the good order. We only need
+ to scan backward. */
+ if (rld[i].when_needed == RELOAD_OTHER
+ && rld[i].optional == 0)
+ {
+ for (j = i - 1; j >= 0; j--)
+ if (rld[j].opnum == rld[i].opnum
+ && rld[j].when_needed == RELOAD_FOR_OPERAND_ADDRESS)
+ rld[j].when_needed = RELOAD_FOR_OTHER_ADDRESS;
+ }
}
/* Scan all the reloads, and check for RELOAD_FOR_OPERAND_ADDRESS reloads.
@@ -4556,10 +4570,8 @@
force a reload in that case. So we should not do anything here. */
else if (regno >= FIRST_PSEUDO_REGISTER
-#ifdef LOAD_EXTEND_OP
&& (GET_MODE_SIZE (GET_MODE (x))
<= GET_MODE_SIZE (GET_MODE (SUBREG_REG (x))))
-#endif
&& (reg_equiv_address[regno] != 0
|| (reg_equiv_mem[regno] != 0
&& (! strict_memory_address_p (GET_MODE (x),
@@ -5913,7 +5925,7 @@
}
find_reloads_address (GET_MODE (tem), &tem, XEXP (tem, 0),
- &XEXP (tem, 0), opnum, ADDR_TYPE (type),
+ &XEXP (tem, 0), opnum, type,
ind_levels, insn);
/* If this is not a toplevel operand, find_reloads doesn't see
diff -u -r -N gcc-3.3.6-core-orig/gcc/toplev.c gcc-3.3.6/gcc/toplev.c
--- gcc-3.3.6-core-orig/gcc/toplev.c 2004-03-05 17:55:51.000000000 +0000
+++ gcc-3.3.6/gcc/toplev.c 2010-11-09 20:47:16.000000000 +0000
@@ -3101,7 +3101,10 @@
setjmp_args_warning ();
}
- if (optimize)
+ /* SCz: PR target/5854, this is initializing registers by inserting
+ instructions before the prologue instructions that save incomming
+ registers. */
+ if (optimize && 0)
{
if (!flag_new_regalloc && initialize_uninitialized_subregs ())
{
diff -u -r -N gcc-3.3.6-core-orig/gcc/version.c gcc-3.3.6/gcc/version.c
--- gcc-3.3.6-core-orig/gcc/version.c 2005-05-03 11:56:18.000000000 +0100
+++ gcc-3.3.6/gcc/version.c 2010-11-09 20:47:16.000000000 +0000
@@ -6,7 +6,7 @@
please modify this string to indicate that, e.g. by putting your
organization's name in parentheses at the end of the string. */
-const char version_string[] = "3.3.6";
+const char version_string[] = "3.3.6-9s12x-20101028";
/* This is the location of the online document giving instructions for
reporting bugs. If you distribute a modified version of GCC,