2015-04-13 17:28:11 +00:00
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Building Python using Microsoft Visual C++
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This directory is used to build CPython for Microsoft Windows NT version
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5.1 or higher (Windows XP, Windows Server 2003, or later) on 32 and 64
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bit platforms. Using this directory requires an installation of
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Microsoft Visual C++ 2010 (MSVC 10.0) of any edition. The specific
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requirements are as follows:
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Visual C++ 2010 Express Edition
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Required for building 32-bit Debug and Release configuration builds.
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The Python build solution pcbuild.sln makes use of Solution Folders,
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which this edition does not support. Any time pcbuild.sln is opened
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or reloaded by Visual C++, a warning about Solution Folders will be
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displayed which can be safely dismissed with no impact on your
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ability to build Python.
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Visual Studio 2010 Professional Edition
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Required for building 64-bit Debug and Release configuration builds
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Visual Studio 2010 Premium Edition
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Required for building Release configuration builds that make use of
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Profile Guided Optimization (PGO), on either platform.
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Installing Service Pack 1 for Visual Studio 2010 is highly recommended
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to avoid LNK1123 errors.
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All you need to do to build is open the solution "pcbuild.sln" in Visual
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Studio, select the desired combination of configuration and platform,
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then build with "Build Solution" or the F7 keyboard shortcut. You can
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also build from the command line using the "build.bat" script in this
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directory. The solution is configured to build the projects in the
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correct order.
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The solution currently supports two platforms. The Win32 platform is
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used to build standard x86-compatible 32-bit binaries, output into this
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directory. The x64 platform is used for building 64-bit AMD64 (aka
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x86_64 or EM64T) binaries, output into the amd64 sub-directory which
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will be created if it doesn't already exist. The Itanium (IA-64)
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platform is no longer supported. See the "Building for AMD64" section
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below for more information about 64-bit builds.
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Four configuration options are supported by the solution:
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Debug
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Used to build Python with extra debugging capabilities, equivalent
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to using ./configure --with-pydebug on UNIX. All binaries built
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using this configuration have "_d" added to their name:
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python34_d.dll, python_d.exe, parser_d.pyd, and so on. Both the
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build and rt (run test) batch files in this directory accept a -d
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option for debug builds. If you are building Python to help with
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development of CPython, you will most likely use this configuration.
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PGInstrument, PGUpdate
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Used to build Python in Release configuration using PGO, which
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requires Premium Edition of Visual Studio. See the "Profile
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Guided Optimization" section below for more information. Build
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output from each of these configurations lands in its own
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sub-directory of this directory. The official Python releases are
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built using these configurations.
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Release
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Used to build Python as it is meant to be used in production
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settings, though without PGO.
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Legacy support
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--------------
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You can find build directories for older versions of Visual Studio and
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Visual C++ in the PC directory. The legacy build directories are no
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longer actively maintained and may not work out of the box.
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Currently, the only legacy build directory is PC\VS9.0, for Visual
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Studio 2008 (9.0).
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C Runtime
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---------
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Visual Studio 2010 uses version 10 of the C runtime (MSVCRT10). The
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executables no longer use the "Side by Side" assemblies used in previous
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versions of the compiler. This simplifies distribution of applications.
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The run time libraries are available under the VC/Redist folder of your
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Visual Studio distribution. For more info, see the Readme in the
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VC/Redist folder.
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Sub-Projects
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------------
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The CPython project is split up into several smaller sub-projects which
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are managed by the pcbuild.sln solution file. Each sub-project is
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represented by a .vcxproj and a .vcxproj.filters file starting with the
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name of the sub-project. These sub-projects fall into a few general
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categories:
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The following sub-projects represent the bare minimum required to build
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a functioning CPython interpreter. If nothing else builds but these,
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you'll have a very limited but usable python.exe:
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pythoncore
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.dll and .lib
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python
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.exe
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kill_python
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kill_python.exe, a small program designed to kill any instances of
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python(_d).exe that are running and live in the build output
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directory; this is meant to avoid build issues due to locked files
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make_buildinfo, make_versioninfo
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helpers to provide necessary information to the build process
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These sub-projects provide extra executables that are useful for running
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CPython in different ways:
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pythonw
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pythonw.exe, a variant of python.exe that doesn't open a Command
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Prompt window
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pylauncher
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py.exe, the Python Launcher for Windows, see
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http://docs.python.org/3/using/windows.html#launcher
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pywlauncher
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pyw.exe, a variant of py.exe that doesn't open a Command Prompt
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window
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_testembed
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_testembed.exe, a small program that embeds Python for testing
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purposes, used by test_capi.py
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These are miscellaneous sub-projects that don't really fit the other
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categories. By default, these projects do not build in Debug
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configuration:
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_freeze_importlib
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_freeze_importlib.exe, used to regenerate Python\importlib.h after
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changes have been made to Lib\importlib\_bootstrap.py
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bdist_wininst
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..\Lib\distutils\command\wininst-10.0[-amd64].exe, the base
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executable used by the distutils bdist_wininst command
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python3dll
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python3.dll, the PEP 384 Stable ABI dll
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xxlimited
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builds an example module that makes use of the PEP 384 Stable ABI,
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see Modules\xxlimited.c
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The following sub-projects are for individual modules of the standard
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library which are implemented in C; each one builds a DLL (renamed to
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.pyd) of the same name as the project:
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_ctypes
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_ctypes_test
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_decimal
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_elementtree
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_hashlib
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_msi
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_multiprocessing
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_overlapped
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_socket
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_testcapi
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_testbuffer
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_testimportmultiple
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pyexpat
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select
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unicodedata
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winsound
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The following Python-controlled sub-projects wrap external projects.
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Note that these external libraries are not necessary for a working
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interpreter, but they do implement several major features. See the
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"Getting External Sources" section below for additional information
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about getting the source for building these libraries. The sub-projects
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are:
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_bz2
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Python wrapper for version 1.0.6 of the libbzip2 compression library
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Homepage:
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http://www.bzip.org/
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_lzma
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Python wrapper for the liblzma compression library, using pre-built
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binaries of XZ Utils version 5.0.5
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Homepage:
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http://tukaani.org/xz/
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_ssl
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2015-07-22 04:20:47 +00:00
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Python wrapper for version 1.0.2d of the OpenSSL secure sockets
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2015-04-13 17:28:11 +00:00
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library, which is built by ssl.vcxproj
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Homepage:
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http://www.openssl.org/
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Building OpenSSL requires nasm.exe (the Netwide Assembler), version
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2.10 or newer from
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http://www.nasm.us/
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to be somewhere on your PATH. More recent versions of OpenSSL may
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need a later version of NASM. If OpenSSL's self tests don't pass,
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you should first try to update NASM and do a full rebuild of
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2015-06-17 04:27:56 +00:00
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OpenSSL. If you use the PCbuild\get_externals.bat method
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2015-04-13 17:28:11 +00:00
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for getting sources, it also downloads a version of NASM which the
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ssl build script will add to PATH.
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If you like to use the official sources instead of the files from
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python.org's subversion repository, Perl is required to build the
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necessary makefiles and assembly files. ActivePerl is available
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from
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http://www.activestate.com/activeperl/
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The svn.python.org version contains pre-built makefiles and assembly
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files.
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The build process makes sure that no patented algorithms are
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included. For now RC5, MDC2 and IDEA are excluded from the build.
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You may have to manually remove $(OBJ_D)\i_*.obj from ms\nt.mak if
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using official sources; the svn.python.org-hosted version is already
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fixed.
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The ssl.vcxproj sub-project simply invokes PCbuild/build_ssl.py,
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which locates and builds OpenSSL.
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build_ssl.py attempts to catch the most common errors (such as not
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being able to find OpenSSL sources, or not being able to find a Perl
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that works with OpenSSL) and give a reasonable error message. If
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you have a problem that doesn't seem to be handled correctly (e.g.,
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you know you have ActivePerl but we can't find it), please take a
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peek at build_ssl.py and suggest patches. Note that build_ssl.py
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should be able to be run directly from the command-line.
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The ssl sub-project does not have the ability to clean the OpenSSL
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build; if you need to rebuild, you'll have to clean it by hand.
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_sqlite3
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Wraps SQLite 3.8.11.0, which is itself built by sqlite3.vcxproj
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Homepage:
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http://www.sqlite.org/
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_tkinter
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Wraps version 8.6.1 of the Tk windowing system.
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Homepage:
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http://www.tcl.tk/
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Unlike the other external libraries listed above, Tk must be built
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separately before the _tkinter module can be built. This means that
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a pre-built Tcl/Tk installation is expected in ..\externals\tcltk
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(tcltk64 for 64-bit) relative to this directory; the easiest way to
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do so is to build Python using `build.bat -e`, which will build
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Tcl, Tk, and Tix and install them as expected. Note that to
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import and use tkinter, the Tcl and Tk DLLs must be somewhere that
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python.exe can find them, which means that either
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..\externals\tcltk[64]\bin must be added to PATH, or the DLLs must
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be copied from that folder to be alongside python.exe. `build.bat`
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takes care of it for you by copying the DLLs into the build
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directory.
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2015-04-13 17:28:11 +00:00
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Getting External Sources
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------------------------
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The last category of sub-projects listed above wrap external projects
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Python doesn't control, and as such a little more work is required in
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order to download the relevant source files for each project before they
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2015-06-17 04:27:56 +00:00
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can be built. The easiest way to do this is to use the `build.bat`
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script in this directory to build Python, and pass the '-e' switch to
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tell it to use get_externals.bat to fetch external sources and build
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Tcl/Tk and Tix. To use get_externals.bat, you'll need to have
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Subversion installed and svn.exe on your PATH. The script will fetch
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external library sources from http://svn.python.org/external and place
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them in ..\externals (relative to this directory).
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Building for AMD64
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------------------
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The build process for AMD64 / x64 is very similar to standard builds,
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you just have to set x64 as platform. In addition, the HOST_PYTHON
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environment variable must point to a Python interpreter (at least 2.4),
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to support cross-compilation from Win32. Note that Visual Studio
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requires Professional Edition or better in order to build 64-bit
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binaries.
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Profile Guided Optimization
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---------------------------
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The solution has two configurations for PGO. The PGInstrument
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configuration must be built first. The PGInstrument binaries are linked
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against a profiling library and contain extra debug information. The
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PGUpdate configuration takes the profiling data and generates optimized
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binaries.
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The build_pgo.bat script automates the creation of optimized binaries.
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It creates the PGI files, runs the unit test suite or PyBench with the
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PGI python, and finally creates the optimized files.
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See
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http://msdn.microsoft.com/en-us/library/e7k32f4k(VS.100).aspx
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for more on this topic.
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Static library
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--------------
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The solution has no configuration for static libraries. However it is
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easy to build a static library instead of a DLL. You simply have to set
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the "Configuration Type" to "Static Library (.lib)" and alter the
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preprocessor macro "Py_ENABLE_SHARED" to "Py_NO_ENABLE_SHARED". You may
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also have to change the "Runtime Library" from "Multi-threaded DLL
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(/MD)" to "Multi-threaded (/MT)".
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Visual Studio properties
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------------------------
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The PCbuild solution makes heavy use of Visual Studio property files
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(*.props). The properties can be viewed and altered in the Property
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Manager (View -> Other Windows -> Property Manager).
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The property files used are (+-- = "also imports"):
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* debug (debug macro: _DEBUG)
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* pginstrument (PGO)
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* pgupdate (PGO)
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+-- pginstrument
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* pyd (python extension, release build)
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+-- release
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+-- pyproject
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* pyd_d (python extension, debug build)
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+-- debug
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+-- pyproject
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* pyproject (base settings for all projects, user macros like PyDllName)
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* release (release macro: NDEBUG)
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* sqlite3 (used only by sqlite3.vcxproj)
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* x64 (AMD64 / x64 platform specific settings)
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The pyproject property file defines _WIN32 and x64 defines _WIN64 and
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_M_X64 although the macros are set by the compiler, too. The GUI doesn't
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always know about the macros and confuse the user with false
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information.
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