cpython/Mac/MPW
1994-09-16 11:08:31 +00:00
..
buildall README, Makfiles and `buildall' script to build Python under MPW 3.2. 1994-08-29 08:58:39 +00:00
README Added some more files to Mac-Makefile (not tested!); finishing touch 1994-09-16 11:08:31 +00:00

From: walker@island.com (Richard Walker)
Date: Wed, 1 Jun 94 15:28:40 PDT

Compiling Python Under MPW C
============================

This directory contains the Makefiles, source files and scripts
required to compile Python under MPW C.

Compiling:
----------
the "buildall" file at the top level is an MPW script
which rebuilds the entire Python source.

To build, start the MPW Shell and select the Worksheet window.
Go to top level directory of the Python source tree.
Type: buildall<ENTER>

To rebuild:
Type: buildall clean<ENTER>
Type: buildall<ENTER>

Configuration:
--------------
The files "Makefile", "config.h", "Mac:config.c" and
"Modules:Makefile" are normally configured and/or generated
automagically under Unix.

Macintosh programmers will have to be content with editing
these files manually to reflect their desired configuration.
The files provided here are examples only; Modules which 
made it into this version are those which required little or 
no modification.

Running:
--------
The top-level Makefile compiles Python as an MPW Tool.
You can then run Python interactively from within
the MPW Worksheet.

Diagnostics:
------------
If Python fails to run by aborting in file "Parser:grammar1.c",
at the end of the function "finddfa", line 46,
try defining the preprocessor symbol "MPW_881_BUG" in 
file "Parser:acceler.c", function "fixstate", line 107.

---------------------------------------------------------------

Additional notes by Guido for Python 1.1:
-----------------------------------------

I have tried this with MPW 3.2 and tweaked Richards Makefiles and
buildall script slightly to work with Python 1.1.  The same configure
file now works for THINK C 6.0 (or 7.0) and MPW 3.2.  It is essential
that 'MPW' is defined when compiling with MPW; for both compilers,
'HAVE_CONFIG_H' should also be defined.  For MPW, the buildall script
takes care of this.

I moved some files around or renamed them and modified the Makefiles
accordingly.  All Mac specific files are now in the Mac subdirectory,
especially config.c, config.h, macmodule.c, and (new) macmain.c.

I wouldn't bother with the Grammar subdirectory or the Parser
generator (Pgen) -- the needed Pgen output files are part of the
distribution.

If the buildall script stops at a compilation error you are usually
left in one of the subordinate directories.

Instead of using the buildall script you can also once execute the Set
and Export commands listed at its top (which set compiler and linker
options) and in each of the directories Mac, Parser, Python, Objects,
Modules and finally the python rot directory, execute the two command

	make >makefile.out
	makefile.out

Or you could execute

	make

have a look at its output and execute selected commands from it.

The buildall script executes

	Directory {Python}

which normally prints the current directory, because {Python} is not
defined.  If it is set to the python root directory, you could place
buildall somewhere in your command search path and execute it from
anywhere.

If you are mixing THINK C and MPW, you may experience weird errors in
previously correct modules.  These disappear when you throw away the
module's .pyc file.  The errors usually have to do with string
literals containing '\n' or '\r'.  The reason is an incompatibility
between their handling of '\n' and '\r' -- in MPW C, '\n' actually is
ASCII CR while '\r' is ASCII LF, which is the reverse situation from
any other ASCII based C implementation.  This behaviour is inherited
by Python compiled with MPW C.  This is normally not a problem, but
*binary* files written by one system will be mis-interpreted by the
other, and this is what happens to the .pyc files.  There is no easy
way to fix this in the source.  (This is a real shame, since the
format of .pyc files was carefully designed to be independent of byte
order and integer size -- deviations in the ASCII character codes were
never anticipated.)