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+THE FREEZE SCRIPT

+=================

+

+(Directions for Windows are at the end of this file.)

+

+

+What is Freeze?

+---------------

+

+Freeze make it possible to ship arbitrary Python programs to people

+who don't have Python.  The shipped file (called a "frozen" version of

+your Python program) is an executable, so this only works if your

+platform is compatible with that on the receiving end (this is usually

+a matter of having the same major operating system revision and CPU

+type).

+

+The shipped file contains a Python interpreter and large portions of

+the Python run-time.  Some measures have been taken to avoid linking

+unneeded modules, but the resulting binary is usually not small.

+

+The Python source code of your program (and of the library modules

+written in Python that it uses) is not included in the binary --

+instead, the compiled byte-code (the instruction stream used

+internally by the interpreter) is incorporated.  This gives some

+protection of your Python source code, though not much -- a

+disassembler for Python byte-code is available in the standard Python

+library.  At least someone running "strings" on your binary won't see

+the source.

+

+

+How does Freeze know which modules to include?

+----------------------------------------------

+

+Previous versions of Freeze used a pretty simple-minded algorithm to

+find the modules that your program uses, essentially searching for

+lines starting with the word "import".  It was pretty easy to trick it

+into making mistakes, either missing valid import statements, or

+mistaking string literals (e.g. doc strings) for import statements.

+

+This has been remedied: Freeze now uses the regular Python parser to

+parse the program (and all its modules) and scans the generated byte

+code for IMPORT instructions.  It may still be confused -- it will not

+know about calls to the __import__ built-in function, or about import

+statements constructed on the fly and executed using the 'exec'

+statement, and it will consider import statements even when they are

+unreachable (e.g. "if 0: import foobar").

+

+This new version of Freeze also knows about Python's new package

+import mechanism, and uses exactly the same rules to find imported

+modules and packages.  One exception: if you write 'from package

+import *', Python will look into the __all__ variable of the package

+to determine which modules are to be imported, while Freeze will do a

+directory listing.

+

+One tricky issue: Freeze assumes that the Python interpreter and

+environment you're using to run Freeze is the same one that would be

+used to run your program, which should also be the same whose sources

+and installed files you will learn about in the next section.  In

+particular, your PYTHONPATH setting should be the same as for running

+your program locally.  (Tip: if the program doesn't run when you type

+"python hello.py" there's little chance of getting the frozen version

+to run.)

+

+

+How do I use Freeze?

+--------------------

+

+Normally, you should be able to use it as follows:

+

+	python freeze.py hello.py

+

+where hello.py is your program and freeze.py is the main file of

+Freeze (in actuality, you'll probably specify an absolute pathname

+such as /usr/joe/python/Tools/freeze/freeze.py).

+

+

+What do I do next?

+------------------

+

+Freeze creates a number of files: frozen.c, config.c and Makefile,

+plus one file for each Python module that gets included named

+M_<module>.c.  To produce the frozen version of your program, you can

+simply type "make".  This should produce a binary file.  If the

+filename argument to Freeze was "hello.py", the binary will be called

+"hello".

+

+Note: you can use the -o option to freeze to specify an alternative

+directory where these files are created. This makes it easier to

+clean up after you've shipped the frozen binary.  You should invoke

+"make" in the given directory.

+

+

+Freezing Tkinter programs

+-------------------------

+

+Unfortunately, it is currently not possible to freeze programs that

+use Tkinter without a Tcl/Tk installation. The best way to ship a

+frozen Tkinter program is to decide in advance where you are going

+to place the Tcl and Tk library files in the distributed setup, and

+then declare these directories in your frozen Python program using

+the TCL_LIBRARY, TK_LIBRARY and TIX_LIBRARY environment variables.

+

+For example, assume you will ship your frozen program in the directory 

+<root>/bin/windows-x86 and will place your Tcl library files 

+in <root>/lib/tcl8.2 and your Tk library files in <root>/lib/tk8.2. Then

+placing the following lines in your frozen Python script before importing

+Tkinter or Tix would set the environment correctly for Tcl/Tk/Tix:

+

+import os

+import os.path

+RootDir = os.path.dirname(os.path.dirname(os.getcwd()))

+

+import sys

+if sys.platform == "win32":

+   sys.path = ['', '..\\..\\lib\\python-2.0']

+   os.environ['TCL_LIBRARY'] = RootDir + '\\lib\\tcl8.2'

+   os.environ['TK_LIBRARY'] = RootDir + '\\lib\\tk8.2'

+   os.environ['TIX_LIBRARY'] = RootDir + '\\lib\\tix8.1'

+elif sys.platform == "linux2":

+   sys.path = ['', '../../lib/python-2.0']

+   os.environ['TCL_LIBRARY'] = RootDir + '/lib/tcl8.2'

+   os.environ['TK_LIBRARY'] = RootDir + '/lib/tk8.2'

+   os.environ['TIX_LIBRARY'] = RootDir + '/lib/tix8.1'

+elif sys.platform == "solaris":

+   sys.path = ['', '../../lib/python-2.0']

+   os.environ['TCL_LIBRARY'] = RootDir + '/lib/tcl8.2'

+   os.environ['TK_LIBRARY'] = RootDir + '/lib/tk8.2'

+   os.environ['TIX_LIBRARY'] = RootDir + '/lib/tix8.1'

+

+This also adds <root>/lib/python-2.0 to your Python path

+for any Python files such as _tkinter.pyd you may need.

+

+Note that the dynamic libraries (such as tcl82.dll tk82.dll python20.dll

+under Windows, or libtcl8.2.so and libtcl8.2.so under Unix) are required

+at program load time, and are searched by the operating system loader

+before Python can be started. Under Windows, the environment

+variable PATH is consulted, and under Unix, it may be the

+environment variable LD_LIBRARY_PATH and/or the system

+shared library cache (ld.so). An additional preferred directory for

+finding the dynamic libraries is built into the .dll or .so files at

+compile time - see the LIB_RUNTIME_DIR variable in the Tcl makefile. 

+The OS must find the dynamic libraries or your frozen program won't start. 

+Usually I make sure that the .so or .dll files are in the same directory

+as the executable, but this may not be foolproof.

+

+A workaround to installing your Tcl library files with your frozen

+executable would be possible, in which the Tcl/Tk library files are

+incorporated in a frozen Python module as string literals and written

+to a temporary location when the program runs; this is currently left

+as an exercise for the reader.  An easier approach is to freeze the

+Tcl/Tk/Tix code into the dynamic libraries using the Tcl ET code,

+or the Tix Stand-Alone-Module code. Of course, you can also simply 

+require that Tcl/Tk is required on the target installation, but be 

+careful that the version corresponds.

+

+There are some caveats using frozen Tkinter applications:

+	Under Windows if you use the -s windows option, writing

+to stdout or stderr is an error.

+	The Tcl [info nameofexecutable] will be set to where the

+program was frozen, not where it is run from.

+	The global variables argc and argv do not exist.

+

+

+A warning about shared library modules

+--------------------------------------

+

+When your Python installation uses shared library modules such as 

+_tkinter.pyd, these will not be incorporated in the frozen program.

+ Again, the frozen program will work when you test it, but it won't

+ work when you ship it to a site without a Python installation.

+

+Freeze prints a warning when this is the case at the end of the

+freezing process:

+

+	Warning: unknown modules remain: ...

+

+When this occurs, the best thing to do is usually to rebuild Python

+using static linking only. Or use the approach described in the previous

+section to declare a library path using sys.path, and place the modules

+such as _tkinter.pyd there.

+

+

+Troubleshooting

+---------------

+

+If you have trouble using Freeze for a large program, it's probably

+best to start playing with a really simple program first (like the file

+hello.py).  If you can't get that to work there's something

+fundamentally wrong -- perhaps you haven't installed Python.  To do a

+proper install, you should do "make install" in the Python root

+directory.

+

+

+Usage under Windows 95 or NT

+----------------------------

+

+Under Windows 95 or NT, you *must* use the -p option and point it to

+the top of the Python source tree.

+

+WARNING: the resulting executable is not self-contained; it requires

+the Python DLL, currently PYTHON20.DLL (it does not require the

+standard library of .py files though).  It may also require one or

+more extension modules loaded from .DLL or .PYD files; the module

+names are printed in the warning message about remaining unknown

+modules.

+

+The driver script generates a Makefile that works with the Microsoft

+command line C compiler (CL).  To compile, run "nmake"; this will

+build a target "hello.exe" if the source was "hello.py".  Only the

+files frozenmain.c and frozen.c are used; no config.c is generated or

+used, since the standard DLL is used.

+

+In order for this to work, you must have built Python using the VC++

+(Developer Studio) 5.0 compiler.  The provided project builds

+python20.lib in the subdirectory pcbuild\Release of thje Python source

+tree, and this is where the generated Makefile expects it to be.  If

+this is not the case, you can edit the Makefile or (probably better)

+winmakemakefile.py (e.g., if you are using the 4.2 compiler, the

+python20.lib file is generated in the subdirectory vc40 of the Python

+source tree).

+

+It is possible to create frozen programs that don't have a console

+window, by specifying the option '-s windows'. See the Usage below.

+

+Usage

+-----

+

+Here is a list of all of the options (taken from freeze.__doc__):

+

+usage: freeze [options...] script [module]...

+

+Options:

+-p prefix:    This is the prefix used when you ran ``make install''

+              in the Python build directory.

+              (If you never ran this, freeze won't work.)

+              The default is whatever sys.prefix evaluates to.

+              It can also be the top directory of the Python source

+              tree; then -P must point to the build tree.

+

+-P exec_prefix: Like -p but this is the 'exec_prefix', used to

+                install objects etc.  The default is whatever sys.exec_prefix

+                evaluates to, or the -p argument if given.

+                If -p points to the Python source tree, -P must point

+                to the build tree, if different.

+

+-e extension: A directory containing additional .o files that

+              may be used to resolve modules.  This directory

+              should also have a Setup file describing the .o files.

+              On Windows, the name of a .INI file describing one

+              or more extensions is passed.

+              More than one -e option may be given.

+

+-o dir:       Directory where the output files are created; default '.'.

+

+-m:           Additional arguments are module names instead of filenames.

+

+-a package=dir: Additional directories to be added to the package's

+                __path__.  Used to simulate directories added by the

+                package at runtime (eg, by OpenGL and win32com).

+                More than one -a option may be given for each package.

+

+-l file:      Pass the file to the linker (windows only)

+

+-d:           Debugging mode for the module finder.

+

+-q:           Make the module finder totally quiet.

+

+-h:           Print this help message.

+

+-x module     Exclude the specified module.

+

+-i filename:  Include a file with additional command line options.  Used

+              to prevent command lines growing beyond the capabilities of

+              the shell/OS.  All arguments specified in filename

+              are read and the -i option replaced with the parsed

+              params (note - quoting args in this file is NOT supported)

+

+-s subsystem: Specify the subsystem (For Windows only.); 

+              'console' (default), 'windows', 'service' or 'com_dll'

+              

+-w:           Toggle Windows (NT or 95) behavior.

+              (For debugging only -- on a win32 platform, win32 behavior

+              is automatic.)

+

+Arguments:

+

+script:       The Python script to be executed by the resulting binary.

+

+module ...:   Additional Python modules (referenced by pathname)

+              that will be included in the resulting binary.  These

+              may be .py or .pyc files.  If -m is specified, these are

+              module names that are search in the path instead.

+

+

+

+--Guido van Rossum (home page: http://www.python.org/~guido/)