mirror of https://github.com/python/cpython
502 lines
18 KiB
C
502 lines
18 KiB
C
/* Peephole optimizations for bytecode compiler. */
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#include "Python.h"
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#include "Python-ast.h"
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#include "node.h"
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#include "ast.h"
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#include "code.h"
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#include "symtable.h"
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#include "opcode.h"
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#include "wordcode_helpers.h"
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#define UNCONDITIONAL_JUMP(op) (op==JUMP_ABSOLUTE || op==JUMP_FORWARD)
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#define CONDITIONAL_JUMP(op) (op==POP_JUMP_IF_FALSE || op==POP_JUMP_IF_TRUE \
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|| op==JUMP_IF_FALSE_OR_POP || op==JUMP_IF_TRUE_OR_POP)
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#define ABSOLUTE_JUMP(op) (op==JUMP_ABSOLUTE \
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|| op==POP_JUMP_IF_FALSE || op==POP_JUMP_IF_TRUE \
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|| op==JUMP_IF_FALSE_OR_POP || op==JUMP_IF_TRUE_OR_POP)
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#define JUMPS_ON_TRUE(op) (op==POP_JUMP_IF_TRUE || op==JUMP_IF_TRUE_OR_POP)
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#define GETJUMPTGT(arr, i) (get_arg(arr, i) / sizeof(_Py_CODEUNIT) + \
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(ABSOLUTE_JUMP(_Py_OPCODE(arr[i])) ? 0 : i+1))
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#define ISBASICBLOCK(blocks, start, end) \
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(blocks[start]==blocks[end])
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/* Scans back N consecutive LOAD_CONST instructions, skipping NOPs,
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returns index of the Nth last's LOAD_CONST's EXTENDED_ARG prefix.
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Callers are responsible to check CONST_STACK_LEN beforehand.
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*/
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static Py_ssize_t
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lastn_const_start(const _Py_CODEUNIT *codestr, Py_ssize_t i, Py_ssize_t n)
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{
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assert(n > 0);
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for (;;) {
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i--;
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assert(i >= 0);
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if (_Py_OPCODE(codestr[i]) == LOAD_CONST) {
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if (!--n) {
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while (i > 0 && _Py_OPCODE(codestr[i-1]) == EXTENDED_ARG) {
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i--;
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}
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return i;
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}
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}
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else {
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assert(_Py_OPCODE(codestr[i]) == EXTENDED_ARG);
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}
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}
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}
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/* Scans through EXTENDED ARGs, seeking the index of the effective opcode */
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static Py_ssize_t
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find_op(const _Py_CODEUNIT *codestr, Py_ssize_t codelen, Py_ssize_t i)
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{
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while (i < codelen && _Py_OPCODE(codestr[i]) == EXTENDED_ARG) {
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i++;
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}
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return i;
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}
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/* Given the index of the effective opcode,
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scan back to construct the oparg with EXTENDED_ARG */
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static unsigned int
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get_arg(const _Py_CODEUNIT *codestr, Py_ssize_t i)
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{
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_Py_CODEUNIT word;
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unsigned int oparg = _Py_OPARG(codestr[i]);
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if (i >= 1 && _Py_OPCODE(word = codestr[i-1]) == EXTENDED_ARG) {
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oparg |= _Py_OPARG(word) << 8;
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if (i >= 2 && _Py_OPCODE(word = codestr[i-2]) == EXTENDED_ARG) {
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oparg |= _Py_OPARG(word) << 16;
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if (i >= 3 && _Py_OPCODE(word = codestr[i-3]) == EXTENDED_ARG) {
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oparg |= _Py_OPARG(word) << 24;
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}
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}
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}
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return oparg;
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}
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/* Fill the region with NOPs. */
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static void
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fill_nops(_Py_CODEUNIT *codestr, Py_ssize_t start, Py_ssize_t end)
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{
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memset(codestr + start, NOP, (end - start) * sizeof(_Py_CODEUNIT));
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}
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/* Given the index of the effective opcode,
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attempt to replace the argument, taking into account EXTENDED_ARG.
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Returns -1 on failure, or the new op index on success */
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static Py_ssize_t
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set_arg(_Py_CODEUNIT *codestr, Py_ssize_t i, unsigned int oparg)
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{
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unsigned int curarg = get_arg(codestr, i);
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int curilen, newilen;
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if (curarg == oparg)
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return i;
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curilen = instrsize(curarg);
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newilen = instrsize(oparg);
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if (curilen < newilen) {
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return -1;
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}
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write_op_arg(codestr + i + 1 - curilen, _Py_OPCODE(codestr[i]), oparg, newilen);
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fill_nops(codestr, i + 1 - curilen + newilen, i + 1);
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return i-curilen+newilen;
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}
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/* Attempt to write op/arg at end of specified region of memory.
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Preceding memory in the region is overwritten with NOPs.
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Returns -1 on failure, op index on success */
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static Py_ssize_t
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copy_op_arg(_Py_CODEUNIT *codestr, Py_ssize_t i, unsigned char op,
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unsigned int oparg, Py_ssize_t maxi)
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{
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int ilen = instrsize(oparg);
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if (i + ilen > maxi) {
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return -1;
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}
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write_op_arg(codestr + maxi - ilen, op, oparg, ilen);
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fill_nops(codestr, i, maxi - ilen);
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return maxi - 1;
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}
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/* Replace LOAD_CONST c1, LOAD_CONST c2 ... LOAD_CONST cn, BUILD_TUPLE n
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with LOAD_CONST (c1, c2, ... cn).
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The consts table must still be in list form so that the
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new constant (c1, c2, ... cn) can be appended.
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Called with codestr pointing to the first LOAD_CONST.
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*/
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static Py_ssize_t
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fold_tuple_on_constants(_Py_CODEUNIT *codestr, Py_ssize_t codelen,
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Py_ssize_t c_start, Py_ssize_t opcode_end,
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PyObject *consts, int n)
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{
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/* Pre-conditions */
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assert(PyList_CheckExact(consts));
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/* Buildup new tuple of constants */
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PyObject *newconst = PyTuple_New(n);
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if (newconst == NULL) {
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return -1;
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}
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for (Py_ssize_t i = 0, pos = c_start; i < n; i++, pos++) {
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assert(pos < opcode_end);
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pos = find_op(codestr, codelen, pos);
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assert(_Py_OPCODE(codestr[pos]) == LOAD_CONST);
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unsigned int arg = get_arg(codestr, pos);
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PyObject *constant = PyList_GET_ITEM(consts, arg);
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Py_INCREF(constant);
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PyTuple_SET_ITEM(newconst, i, constant);
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}
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/* Append folded constant onto consts */
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if (PyList_Append(consts, newconst)) {
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Py_DECREF(newconst);
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return -1;
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}
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Py_DECREF(newconst);
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return copy_op_arg(codestr, c_start, LOAD_CONST,
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PyList_GET_SIZE(consts)-1, opcode_end);
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}
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static unsigned int *
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markblocks(_Py_CODEUNIT *code, Py_ssize_t len)
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{
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unsigned int *blocks = PyMem_New(unsigned int, len);
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int i, j, opcode, blockcnt = 0;
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if (blocks == NULL) {
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PyErr_NoMemory();
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return NULL;
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}
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memset(blocks, 0, len*sizeof(int));
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/* Mark labels in the first pass */
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for (i = 0; i < len; i++) {
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opcode = _Py_OPCODE(code[i]);
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switch (opcode) {
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case FOR_ITER:
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case JUMP_FORWARD:
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case JUMP_IF_FALSE_OR_POP:
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case JUMP_IF_TRUE_OR_POP:
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case POP_JUMP_IF_FALSE:
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case POP_JUMP_IF_TRUE:
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case JUMP_ABSOLUTE:
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case SETUP_FINALLY:
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case SETUP_WITH:
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case SETUP_ASYNC_WITH:
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case CALL_FINALLY:
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j = GETJUMPTGT(code, i);
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assert(j < len);
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blocks[j] = 1;
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break;
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}
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}
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/* Build block numbers in the second pass */
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for (i = 0; i < len; i++) {
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blockcnt += blocks[i]; /* increment blockcnt over labels */
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blocks[i] = blockcnt;
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}
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return blocks;
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}
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/* Perform basic peephole optimizations to components of a code object.
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The consts object should still be in list form to allow new constants
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to be appended.
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To keep the optimizer simple, it bails when the lineno table has complex
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encoding for gaps >= 255.
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Optimizations are restricted to simple transformations occurring within a
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single basic block. All transformations keep the code size the same or
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smaller. For those that reduce size, the gaps are initially filled with
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NOPs. Later those NOPs are removed and the jump addresses retargeted in
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a single pass. */
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PyObject *
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PyCode_Optimize(PyObject *code, PyObject* consts, PyObject *names,
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PyObject *lnotab_obj)
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{
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Py_ssize_t h, i, nexti, op_start, codelen, tgt;
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unsigned int j, nops;
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unsigned char opcode, nextop;
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_Py_CODEUNIT *codestr = NULL;
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unsigned char *lnotab;
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unsigned int cum_orig_offset, last_offset;
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Py_ssize_t tabsiz;
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// Count runs of consecutive LOAD_CONSTs
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unsigned int cumlc = 0, lastlc = 0;
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unsigned int *blocks = NULL;
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/* Bail out if an exception is set */
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if (PyErr_Occurred())
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goto exitError;
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/* Bypass optimization when the lnotab table is too complex */
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assert(PyBytes_Check(lnotab_obj));
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lnotab = (unsigned char*)PyBytes_AS_STRING(lnotab_obj);
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tabsiz = PyBytes_GET_SIZE(lnotab_obj);
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assert(tabsiz == 0 || Py_REFCNT(lnotab_obj) == 1);
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if (memchr(lnotab, 255, tabsiz) != NULL) {
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/* 255 value are used for multibyte bytecode instructions */
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goto exitUnchanged;
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}
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/* Note: -128 and 127 special values for line number delta are ok,
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the peephole optimizer doesn't modify line numbers. */
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assert(PyBytes_Check(code));
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codelen = PyBytes_GET_SIZE(code);
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assert(codelen % sizeof(_Py_CODEUNIT) == 0);
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/* Make a modifiable copy of the code string */
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codestr = (_Py_CODEUNIT *)PyMem_Malloc(codelen);
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if (codestr == NULL) {
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PyErr_NoMemory();
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goto exitError;
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}
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memcpy(codestr, PyBytes_AS_STRING(code), codelen);
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codelen /= sizeof(_Py_CODEUNIT);
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blocks = markblocks(codestr, codelen);
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if (blocks == NULL)
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goto exitError;
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assert(PyList_Check(consts));
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for (i=find_op(codestr, codelen, 0) ; i<codelen ; i=nexti) {
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opcode = _Py_OPCODE(codestr[i]);
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op_start = i;
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while (op_start >= 1 && _Py_OPCODE(codestr[op_start-1]) == EXTENDED_ARG) {
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op_start--;
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}
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nexti = i + 1;
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while (nexti < codelen && _Py_OPCODE(codestr[nexti]) == EXTENDED_ARG)
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nexti++;
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nextop = nexti < codelen ? _Py_OPCODE(codestr[nexti]) : 0;
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lastlc = cumlc;
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cumlc = 0;
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switch (opcode) {
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/* Skip over LOAD_CONST trueconst
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POP_JUMP_IF_FALSE xx. This improves
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"while 1" performance. */
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case LOAD_CONST:
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cumlc = lastlc + 1;
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if (nextop != POP_JUMP_IF_FALSE ||
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!ISBASICBLOCK(blocks, op_start, i + 1) ||
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!PyObject_IsTrue(PyList_GET_ITEM(consts, get_arg(codestr, i))))
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break;
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fill_nops(codestr, op_start, nexti + 1);
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cumlc = 0;
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break;
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/* Try to fold tuples of constants.
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Skip over BUILD_SEQN 1 UNPACK_SEQN 1.
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Replace BUILD_SEQN 2 UNPACK_SEQN 2 with ROT2.
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Replace BUILD_SEQN 3 UNPACK_SEQN 3 with ROT3 ROT2. */
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case BUILD_TUPLE:
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j = get_arg(codestr, i);
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if (j > 0 && lastlc >= j) {
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h = lastn_const_start(codestr, op_start, j);
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if (ISBASICBLOCK(blocks, h, op_start)) {
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h = fold_tuple_on_constants(codestr, codelen,
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h, i+1, consts, j);
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break;
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}
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}
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if (nextop != UNPACK_SEQUENCE ||
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!ISBASICBLOCK(blocks, op_start, i + 1) ||
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j != get_arg(codestr, nexti))
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break;
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if (j < 2) {
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fill_nops(codestr, op_start, nexti + 1);
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} else if (j == 2) {
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codestr[op_start] = PACKOPARG(ROT_TWO, 0);
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fill_nops(codestr, op_start + 1, nexti + 1);
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} else if (j == 3) {
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codestr[op_start] = PACKOPARG(ROT_THREE, 0);
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codestr[op_start + 1] = PACKOPARG(ROT_TWO, 0);
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fill_nops(codestr, op_start + 2, nexti + 1);
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}
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break;
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/* Simplify conditional jump to conditional jump where the
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result of the first test implies the success of a similar
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test or the failure of the opposite test.
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Arises in code like:
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"a and b or c"
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"(a and b) and c"
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"(a or b) or c"
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"(a or b) and c"
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x:JUMP_IF_FALSE_OR_POP y y:JUMP_IF_FALSE_OR_POP z
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--> x:JUMP_IF_FALSE_OR_POP z
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x:JUMP_IF_FALSE_OR_POP y y:JUMP_IF_TRUE_OR_POP z
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--> x:POP_JUMP_IF_FALSE y+1
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where y+1 is the instruction following the second test.
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*/
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case JUMP_IF_FALSE_OR_POP:
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case JUMP_IF_TRUE_OR_POP:
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h = get_arg(codestr, i) / sizeof(_Py_CODEUNIT);
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tgt = find_op(codestr, codelen, h);
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j = _Py_OPCODE(codestr[tgt]);
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if (CONDITIONAL_JUMP(j)) {
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/* NOTE: all possible jumps here are absolute. */
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if (JUMPS_ON_TRUE(j) == JUMPS_ON_TRUE(opcode)) {
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/* The second jump will be taken iff the first is.
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The current opcode inherits its target's
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stack effect */
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h = set_arg(codestr, i, get_arg(codestr, tgt));
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} else {
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/* The second jump is not taken if the first is (so
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jump past it), and all conditional jumps pop their
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argument when they're not taken (so change the
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first jump to pop its argument when it's taken). */
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h = set_arg(codestr, i, (tgt + 1) * sizeof(_Py_CODEUNIT));
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j = opcode == JUMP_IF_TRUE_OR_POP ?
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POP_JUMP_IF_TRUE : POP_JUMP_IF_FALSE;
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}
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if (h >= 0) {
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nexti = h;
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codestr[nexti] = PACKOPARG(j, _Py_OPARG(codestr[nexti]));
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break;
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}
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}
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/* Intentional fallthrough */
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/* Replace jumps to unconditional jumps */
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case POP_JUMP_IF_FALSE:
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case POP_JUMP_IF_TRUE:
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case JUMP_FORWARD:
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case JUMP_ABSOLUTE:
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h = GETJUMPTGT(codestr, i);
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tgt = find_op(codestr, codelen, h);
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/* Replace JUMP_* to a RETURN into just a RETURN */
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if (UNCONDITIONAL_JUMP(opcode) &&
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_Py_OPCODE(codestr[tgt]) == RETURN_VALUE) {
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codestr[op_start] = PACKOPARG(RETURN_VALUE, 0);
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fill_nops(codestr, op_start + 1, i + 1);
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} else if (UNCONDITIONAL_JUMP(_Py_OPCODE(codestr[tgt]))) {
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j = GETJUMPTGT(codestr, tgt);
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if (opcode == JUMP_FORWARD) { /* JMP_ABS can go backwards */
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opcode = JUMP_ABSOLUTE;
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} else if (!ABSOLUTE_JUMP(opcode)) {
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if ((Py_ssize_t)j < i + 1) {
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break; /* No backward relative jumps */
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}
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j -= i + 1; /* Calc relative jump addr */
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}
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j *= sizeof(_Py_CODEUNIT);
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copy_op_arg(codestr, op_start, opcode, j, i + 1);
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}
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break;
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/* Remove unreachable ops after RETURN */
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case RETURN_VALUE:
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h = i + 1;
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/* END_FINALLY should be kept since it denotes the end of
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the 'finally' block in frame_setlineno() in frameobject.c.
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SETUP_FINALLY should be kept for balancing.
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*/
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while (h < codelen && ISBASICBLOCK(blocks, i, h) &&
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_Py_OPCODE(codestr[h]) != END_FINALLY)
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{
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if (_Py_OPCODE(codestr[h]) == SETUP_FINALLY) {
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while (h > i + 1 &&
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_Py_OPCODE(codestr[h - 1]) == EXTENDED_ARG)
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{
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h--;
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}
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break;
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}
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h++;
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}
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if (h > i + 1) {
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fill_nops(codestr, i + 1, h);
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nexti = find_op(codestr, codelen, h);
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}
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break;
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}
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}
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/* Fixup lnotab */
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for (i = 0, nops = 0; i < codelen; i++) {
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assert(i - nops <= INT_MAX);
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/* original code offset => new code offset */
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blocks[i] = i - nops;
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if (_Py_OPCODE(codestr[i]) == NOP)
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nops++;
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}
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cum_orig_offset = 0;
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last_offset = 0;
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for (i=0 ; i < tabsiz ; i+=2) {
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unsigned int offset_delta, new_offset;
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cum_orig_offset += lnotab[i];
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assert(cum_orig_offset % sizeof(_Py_CODEUNIT) == 0);
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new_offset = blocks[cum_orig_offset / sizeof(_Py_CODEUNIT)] *
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sizeof(_Py_CODEUNIT);
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offset_delta = new_offset - last_offset;
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assert(offset_delta <= 255);
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lnotab[i] = (unsigned char)offset_delta;
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last_offset = new_offset;
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}
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/* Remove NOPs and fixup jump targets */
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for (op_start = i = h = 0; i < codelen; i++, op_start = i) {
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j = _Py_OPARG(codestr[i]);
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while (_Py_OPCODE(codestr[i]) == EXTENDED_ARG) {
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i++;
|
|
j = j<<8 | _Py_OPARG(codestr[i]);
|
|
}
|
|
opcode = _Py_OPCODE(codestr[i]);
|
|
switch (opcode) {
|
|
case NOP:continue;
|
|
|
|
case JUMP_ABSOLUTE:
|
|
case POP_JUMP_IF_FALSE:
|
|
case POP_JUMP_IF_TRUE:
|
|
case JUMP_IF_FALSE_OR_POP:
|
|
case JUMP_IF_TRUE_OR_POP:
|
|
j = blocks[j / sizeof(_Py_CODEUNIT)] * sizeof(_Py_CODEUNIT);
|
|
break;
|
|
|
|
case FOR_ITER:
|
|
case JUMP_FORWARD:
|
|
case SETUP_FINALLY:
|
|
case SETUP_WITH:
|
|
case SETUP_ASYNC_WITH:
|
|
case CALL_FINALLY:
|
|
j = blocks[j / sizeof(_Py_CODEUNIT) + i + 1] - blocks[i] - 1;
|
|
j *= sizeof(_Py_CODEUNIT);
|
|
break;
|
|
}
|
|
nexti = i - op_start + 1;
|
|
if (instrsize(j) > nexti)
|
|
goto exitUnchanged;
|
|
/* If instrsize(j) < nexti, we'll emit EXTENDED_ARG 0 */
|
|
write_op_arg(codestr + h, opcode, j, nexti);
|
|
h += nexti;
|
|
}
|
|
assert(h + (Py_ssize_t)nops == codelen);
|
|
|
|
PyMem_Free(blocks);
|
|
code = PyBytes_FromStringAndSize((char *)codestr, h * sizeof(_Py_CODEUNIT));
|
|
PyMem_Free(codestr);
|
|
return code;
|
|
|
|
exitError:
|
|
code = NULL;
|
|
|
|
exitUnchanged:
|
|
Py_XINCREF(code);
|
|
PyMem_Free(blocks);
|
|
PyMem_Free(codestr);
|
|
return code;
|
|
}
|