cpython/Mac
Jack Jansen 5f653091d1 - Moved some useful routines from macosmodule.c here
- Added GetFSSpec (tuple-style), BuildFSSpec and Pstring
  (platform-independent correct conversion of C to Pascal strings)
1995-01-18 13:53:49 +00:00
..
Compat Ported to CodeWarrior 1994-12-14 14:10:51 +00:00
Demo/speech Add files by Jack 1994-10-02 11:33:59 +00:00
Include - Moved some useful routines from macosmodule.c here 1995-01-18 13:53:49 +00:00
Lib shelve.py: database of persistent objects, on top of pickle.py and anydbm.py 1995-01-10 00:31:14 +00:00
MPW Added some more files to Mac-Makefile (not tested!); finishing touch 1994-09-16 11:08:31 +00:00
Modules Moved some generally useful routines to macglue.c 1995-01-18 13:52:07 +00:00
Python - Moved some useful routines from macosmodule.c here 1995-01-18 13:53:49 +00:00
Unsupported/mactcp - Ported to powerpc 1995-01-18 13:50:42 +00:00
mwerks Fast (and correct) malloc for MetroWerks PPC compiler 1995-01-18 13:48:31 +00:00
scripts Updates for THINK C 6.0. Moved the necessary UNIX emulation routines here. 1994-08-19 10:51:31 +00:00
think/macconsole Macconsole module is think-specific 1995-01-18 13:44:20 +00:00
README Added some files, reformatted some paragraphs. 1994-09-16 11:09:18 +00:00
Relnotes-1.1 Added macmain.c (separate Mac specific main prog); bump version to 1.1 1994-08-23 13:34:25 +00:00
Relnotes-1.2 Added some files, reformatted some paragraphs. 1994-09-16 11:09:18 +00:00
USING Added macmain.c (separate Mac specific main prog); bump version to 1.1 1994-08-23 13:34:25 +00:00
errno_unix.h Unix functionality expected by python but missing from CodeWarrior 1994-12-14 14:04:55 +00:00
fopenRF.c Think 6.0 version 1995-01-02 19:13:30 +00:00
mwerksglue.c Unix functionality expected by python but missing from CodeWarrior 1994-12-14 14:04:55 +00:00

README

BUILDING PYTHON 1.1 FOR THE MACINTOSH
*************************************

Python can be built on the Mac using either THINK C 6.0 (or 7.0) or
MPW 3.2.  In the past it has been compiled with earlier versions of
these compilers, but no guarantees are made that the source is still
compatible with those versions.  Likewise, new compiler versions may
effectively change the language accepted (or the library provided!)
and thus cause problems.


1. Using Think C 6.0
====================

1.1 The directory structure
---------------------------

I duplicate the UNIX directory structure from the distribution.  The
subdirectories needed to compile are: Mac, Include, Parser, Python,
Objects, Modules.  (Don't bother with Grammar and the parser
generator, nor with the Doc subdirectory.)

For running and testing, you also need Lib and its subdirectories test
and stdwin.  You could also copy some things from the Demo/stdwin
directory (unfortunately most other demos are UNIX specific and even
many stdwin demos are).

Make sure there is no config.c file in the Modules subdirectory (if
you copy from a directory where you have done a UNIX build this might
occur).  Also don't use the config.h generated on UNIX.

1.2 The project file
--------------------

I put all source files in one project, which I place in the parent
directory of the source directories.

1.2.1 Project type

(This is the Set Project Type... dialog in the Project menu.)

Set the creator to PYTH; turn on "far data"; leave "far code" and
"separate strs" unchecked (they just serve to bloat the application).
A partition size of 1000K should be enough to run the standard test
suite (which requires a lot of memory because it stress tests the
parser quite a bit) and most demos or medium-size applications.  The
interpreter will do basic things in as little at 500K but this may
prevent parsing larger modules.

1.2.2 Compiler options

(This is the Options -> THINK C ... dialog in the Edit menu.)

	- Start with Factory Settings.

	- In the Prefix, remove #include <MacHeaders> and add
		#define HAVE_CONFIG_H

	- Choose any optimizer and debugger settings you like.  - You
	can choose 4-byte ints if you want.  This requires that you
	rebuild the ANSI and unix libraries with 4-bytes ints as well
	(better make copies with names like ANSI 32 bit).  With 4-byte
	ints the interpreter is marginally bigger and somewhat (~10%)
	slower, but Python programs can use strings and lists with
	more than 32000 items (with 2-byte ints these can cause
	crashes).  The range of Python integers is not affected (these
	are always represented as longs).

1.2.3 Files to add

(This is the Add Files... dialog in the Source menu.)

The following source files must be added to the project.  I use a
separate segment for each begin letter -- this avoids segment
overflow, except for 'c', where you have to put either ceval.c or
compile.c in a separate segment.  You could also group them by
subdirectory or function, but you may still have to split segments
arbitrarily because of the 32000 bytes restriction.

	- From Mac: all .c files except fopenRF.c [[which shouldn't even
	be there]].

	- From Parser: acceler.c, grammar1.c, intrcheck.c,
	myreadline.c, node.c, parser.c, parsetok.c, tokenizer.c.

	- From Python: bltinmodule.c, ceval.c, cgensupport.c,
	compile.c, errors.c, getopt.c, graminit.c, import.c,
	marshal.c, modsupport.c, mystrtoul.c, pythonmain.c,
	pythonrun.c, sigcheck.c, structmember.c, sysmodule.c,
	traceback.c (i.e. all .c files except dup2.c, fmod.c,
	frozenmain.c, getcwd.c, getmtime.c, memmove.c, sigcheck.c,
	strerror.c, strtod.c, thread.c)

	- From Objects: all .c files except xxobject.c.

	- From Modules: all the modules listed in config.c (in the Mac
	subdirectory) in the initializer for inittab[], before
	"ADDMODULE MARKER 2".  Also add md5c.c if you add md5module.c,
	and regexpr.c if you add regexmodule.c.  (You'll find
	macmodule.c in the Mac subdirectory, so it should already have
	been added in a previous step.)  Note that for most modules,
	the source file is called <name>module.c, but for a few long
	module names it is just <module>.c.  Don't add stdwinmodule.c
	yet,

The following THINK C libraries must be added: from Standard
Libraries, ANSI and unix; from Mac Libraries, MacTraps.  I put each
library in a separate segment.  Also see my earlier remark on 4-byte
ints.

1.4 Adding STDWIN
-----------------

STDWIN is built in two separate projects: stdwin.pi contains the core
STDWIN implementation from Ports/mac, textedit.pi contains the files
from Packs/textedit.  Use the same compiler options as for Python and
the same general source setup (in a sister directory of the toplevel
Python directory).  Put all sources in the same segment.  To
stdwin.pi, also add Tools/strdup.c and Gen/wtextbreak.c.

The two projects can now be added as libraries to the Python project.
You must also add stdwinmodule.c and add "#define USE_STDWIN" to the
Prefix in the compiler options dialog (this only affects macmain.c and
config.c).

Note that stdwinmodule.c contains an #include statement that
references "stdwin.h" by relative path name -- if the stdwin toplevel
directory is not a sibling of the python toplevel directory, you may
have to adjust the number of colons in the pathname.

1.5 Resources
-------------

Since I created them with ResEdit I have no text source of the
resources needed to give the application an icon etc...  You can copy
the size, bundle, file reference and icon resources from the
distributed Python application with ResEdit.  THINK C automatically
copies resources into the application file from a file
<projectname>.rsrc.


2. Using MPW 3.2
================

The subdirectory MPW contains a README.MPW file, a buildall script and
several Makefiles, kindly contributed by Richard Walker of Island
Software.  Move these files to the corresponding locations relative to
the Python root directory (where Mac-Makefile should become Makefile
in the Mac subdirectory, etc.), and run the buildall script.  The
README.MPW file contains more instructions and caveats (I've added
some remarks of my own at the end).

Some notes:

- The MPW and THINK C ports share all source files, including config.c
  and config.h -- all differentiation is done based on #ifdef THINK_C
  or #ifdef MPW (#ifdef macintosh is used for code that should be seen
  by all Mac compilers).

- The dynload subdirectory contains an attempt to create dynamically
  loadable modules from CODE segments.  This was not very successful
  due to the restrictions on CODE segments (no global variables, no
  calls to external functions).  Maybe Apple's new shared library
  manager will be a better starting point.

- I haven't tried building STDWIN with MPW recently.  There is MPW
  specific code all over the STDWIN source but it is for a much older
  version of the compiler and library.


--Guido van Rossum, CWI, Amsterdam <Guido.van.Rossum@cwi.nl>
<URL:http://www.cwi.nl/cwi/people/Guido.van.Rossum.html>