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577 lines
24 KiB
Python
577 lines
24 KiB
Python
"""distutils.ccompiler
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Contains CCompiler, an abstract base class that defines the interface
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for the Distutils compiler abstraction model."""
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# created 1999/07/05, Greg Ward
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__rcsid__ = "$Id$"
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import sys, os
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from types import *
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from copy import copy
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from distutils.errors import *
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from distutils.spawn import spawn
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from distutils.util import move_file
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class CCompiler:
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"""Abstract base class to define the interface that must be implemented
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by real compiler abstraction classes. Might have some use as a
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place for shared code, but it's not yet clear what code can be
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shared between compiler abstraction models for different platforms.
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The basic idea behind a compiler abstraction class is that each
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instance can be used for all the compile/link steps in building
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a single project. Thus, attributes common to all of those compile
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and link steps -- include directories, macros to define, libraries
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to link against, etc. -- are attributes of the compiler instance.
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To allow for variability in how individual files are treated,
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most (all?) of those attributes may be varied on a per-compilation
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or per-link basis."""
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# 'compiler_type' is a class attribute that identifies this class. It
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# keeps code that wants to know what kind of compiler it's dealing with
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# from having to import all possible compiler classes just to do an
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# 'isinstance'. In concrete CCompiler subclasses, 'compiler_type'
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# should really, really be one of the keys of the 'compiler_class'
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# dictionary (see below -- used by the 'new_compiler()' factory
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# function) -- authors of new compiler interface classes are
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# responsible for updating 'compiler_class'!
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compiler_type = None
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# XXX things not handled by this compiler abstraction model:
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# * client can't provide additional options for a compiler,
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# e.g. warning, optimization, debugging flags. Perhaps this
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# should be the domain of concrete compiler abstraction classes
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# (UnixCCompiler, MSVCCompiler, etc.) -- or perhaps the base
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# class should have methods for the common ones.
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# * can't put output files (object files, libraries, whatever)
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# into a separate directory from their inputs. Should this be
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# handled by an 'output_dir' attribute of the whole object, or a
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# parameter to the compile/link_* methods, or both?
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# * can't completely override the include or library searchg
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# path, ie. no "cc -I -Idir1 -Idir2" or "cc -L -Ldir1 -Ldir2".
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# I'm not sure how widely supported this is even by Unix
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# compilers, much less on other platforms. And I'm even less
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# sure how useful it is; maybe for cross-compiling, but
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# support for that is a ways off. (And anyways, cross
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# compilers probably have a dedicated binary with the
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# right paths compiled in. I hope.)
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# * can't do really freaky things with the library list/library
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# dirs, e.g. "-Ldir1 -lfoo -Ldir2 -lfoo" to link against
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# different versions of libfoo.a in different locations. I
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# think this is useless without the ability to null out the
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# library search path anyways.
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def __init__ (self,
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verbose=0,
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dry_run=0,
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force=0):
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self.verbose = verbose
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self.dry_run = dry_run
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self.force = force
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# 'output_dir': a common output directory for object, library,
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# shared object, and shared library files
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self.output_dir = None
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# 'macros': a list of macro definitions (or undefinitions). A
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# macro definition is a 2-tuple (name, value), where the value is
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# either a string or None (no explicit value). A macro
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# undefinition is a 1-tuple (name,).
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self.macros = []
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# 'include_dirs': a list of directories to search for include files
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self.include_dirs = []
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# 'libraries': a list of libraries to include in any link
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# (library names, not filenames: eg. "foo" not "libfoo.a")
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self.libraries = []
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# 'library_dirs': a list of directories to search for libraries
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self.library_dirs = []
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# 'runtime_library_dirs': a list of directories to search for
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# shared libraries/objects at runtime
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self.runtime_library_dirs = []
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# 'objects': a list of object files (or similar, such as explicitly
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# named library files) to include on any link
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self.objects = []
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# __init__ ()
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def _find_macro (self, name):
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i = 0
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for defn in self.macros:
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if defn[0] == name:
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return i
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i = i + 1
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return None
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def _check_macro_definitions (self, definitions):
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"""Ensures that every element of 'definitions' is a valid macro
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definition, ie. either (name,value) 2-tuple or a (name,)
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tuple. Do nothing if all definitions are OK, raise
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TypeError otherwise."""
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for defn in definitions:
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if not (type (defn) is TupleType and
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(len (defn) == 1 or
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(len (defn) == 2 and
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(type (defn[1]) is StringType or defn[1] is None))) and
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type (defn[0]) is StringType):
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raise TypeError, \
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("invalid macro definition '%s': " % defn) + \
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"must be tuple (string,), (string, string), or " + \
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"(string, None)"
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# -- Bookkeeping methods -------------------------------------------
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def define_macro (self, name, value=None):
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"""Define a preprocessor macro for all compilations driven by
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this compiler object. The optional parameter 'value' should be
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a string; if it is not supplied, then the macro will be defined
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without an explicit value and the exact outcome depends on the
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compiler used (XXX true? does ANSI say anything about this?)"""
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# Delete from the list of macro definitions/undefinitions if
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# already there (so that this one will take precedence).
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i = self._find_macro (name)
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if i is not None:
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del self.macros[i]
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defn = (name, value)
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self.macros.append (defn)
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def undefine_macro (self, name):
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"""Undefine a preprocessor macro for all compilations driven by
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this compiler object. If the same macro is defined by
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'define_macro()' and undefined by 'undefine_macro()' the last
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call takes precedence (including multiple redefinitions or
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undefinitions). If the macro is redefined/undefined on a
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per-compilation basis (ie. in the call to 'compile()'), then
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that takes precedence."""
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# Delete from the list of macro definitions/undefinitions if
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# already there (so that this one will take precedence).
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i = self._find_macro (name)
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if i is not None:
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del self.macros[i]
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undefn = (name,)
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self.macros.append (undefn)
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def add_include_dir (self, dir):
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"""Add 'dir' to the list of directories that will be searched
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for header files. The compiler is instructed to search
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directories in the order in which they are supplied by
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successive calls to 'add_include_dir()'."""
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self.include_dirs.append (dir)
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def set_include_dirs (self, dirs):
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"""Set the list of directories that will be searched to 'dirs'
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(a list of strings). Overrides any preceding calls to
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'add_include_dir()'; subsequence calls to 'add_include_dir()'
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add to the list passed to 'set_include_dirs()'. This does
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not affect any list of standard include directories that
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the compiler may search by default."""
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self.include_dirs = copy (dirs)
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def add_library (self, libname):
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"""Add 'libname' to the list of libraries that will be included
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in all links driven by this compiler object. Note that
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'libname' should *not* be the name of a file containing a
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library, but the name of the library itself: the actual filename
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will be inferred by the linker, the compiler, or the compiler
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abstraction class (depending on the platform).
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The linker will be instructed to link against libraries in the
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order they were supplied to 'add_library()' and/or
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'set_libraries()'. It is perfectly valid to duplicate library
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names; the linker will be instructed to link against libraries
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as many times as they are mentioned."""
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self.libraries.append (libname)
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def set_libraries (self, libnames):
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"""Set the list of libraries to be included in all links driven
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by this compiler object to 'libnames' (a list of strings).
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This does not affect any standard system libraries that the
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linker may include by default."""
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self.libraries = copy (libnames)
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def add_library_dir (self, dir):
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"""Add 'dir' to the list of directories that will be searched for
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libraries specified to 'add_library()' and 'set_libraries()'.
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The linker will be instructed to search for libraries in the
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order they are supplied to 'add_library_dir()' and/or
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'set_library_dirs()'."""
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self.library_dirs.append (dir)
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def set_library_dirs (self, dirs):
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"""Set the list of library search directories to 'dirs' (a list
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of strings). This does not affect any standard library
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search path that the linker may search by default."""
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self.library_dirs = copy (dirs)
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def add_runtime_library_dir (self, dir):
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"""Add 'dir' to the list of directories that will be searched for
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shared libraries at runtime."""
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self.runtime_library_dirs.append (dir)
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def set_runtime_library_dirs (self, dirs):
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"""Set the list of directories to search for shared libraries
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at runtime to 'dirs' (a list of strings). This does not affect
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any standard search path that the runtime linker may search by
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default."""
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self.runtime_library_dirs = copy (dirs)
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def add_link_object (self, object):
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"""Add 'object' to the list of object files (or analogues, such
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as explictly named library files or the output of "resource
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compilers") to be included in every link driven by this
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compiler object."""
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self.objects.append (object)
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def set_link_objects (self, objects):
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"""Set the list of object files (or analogues) to be included
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in every link to 'objects'. This does not affect any
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standard object files that the linker may include by default
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(such as system libraries)."""
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self.objects = copy (objects)
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# -- Worker methods ------------------------------------------------
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# (must be implemented by subclasses)
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def compile (self,
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sources,
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output_dir=None,
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macros=None,
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include_dirs=None,
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extra_preargs=None,
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extra_postargs=None):
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"""Compile one or more C/C++ source files. 'sources' must be
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a list of strings, each one the name of a C/C++ source
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file. Return a list of the object filenames generated
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(one for each source filename in 'sources').
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'macros', if given, must be a list of macro definitions. A
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macro definition is either a (name, value) 2-tuple or a (name,)
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1-tuple. The former defines a macro; if the value is None, the
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macro is defined without an explicit value. The 1-tuple case
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undefines a macro. Later definitions/redefinitions/
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undefinitions take precedence.
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'include_dirs', if given, must be a list of strings, the directories
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to add to the default include file search path for this
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compilation only.
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'extra_preargs' and 'extra_postargs' are optional lists of extra
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command-line arguments that will be, respectively, prepended or
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appended to the generated command line immediately before
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execution. These will most likely be peculiar to the particular
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platform and compiler being worked with, but are a necessary
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escape hatch for those occasions when the abstract compiler
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framework doesn't cut the mustard."""
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pass
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# XXX this is kind of useless without 'link_binary()' or
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# 'link_executable()' or something -- or maybe 'link_static_lib()'
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# should not exist at all, and we just have 'link_binary()'?
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def link_static_lib (self,
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objects,
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output_libname,
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output_dir=None,
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libraries=None,
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library_dirs=None,
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extra_preargs=None,
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extra_postargs=None):
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"""Link a bunch of stuff together to create a static library
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file. The "bunch of stuff" consists of the list of object
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files supplied as 'objects', the extra object files supplied
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to 'add_link_object()' and/or 'set_link_objects()', the
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libraries supplied to 'add_library()' and/or
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'set_libraries()', and the libraries supplied as 'libraries'
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(if any).
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'output_libname' should be a library name, not a filename;
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the filename will be inferred from the library name.
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'libraries' is a list of libraries to link against. These are
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library names, not filenames, since they're translated into
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filenames in a platform-specific way (eg. "foo" becomes
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"libfoo.a" on Unix and "foo.lib" on DOS/Windows). However, they
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can include a directory component, which means the linker will
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look in that specific directory rather than searching all the
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normal locations.
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'library_dirs', if supplied, should be a list of directories to
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search for libraries that were specified as bare library names
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(ie. no directory component). These are on top of the system
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default and those supplied to 'add_library_dir()' and/or
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'set_library_dirs()'.
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'extra_preargs' and 'extra_postargs' are as for 'compile()'
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(except of course that they supply command-line arguments
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for the particular linker being used)."""
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pass
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def link_shared_lib (self,
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objects,
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output_libname,
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output_dir=None,
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libraries=None,
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library_dirs=None,
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extra_preargs=None,
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extra_postargs=None):
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"""Link a bunch of stuff together to create a shared library
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file. Has the same effect as 'link_static_lib()' except
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that the filename inferred from 'output_libname' will most
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likely be different, and the type of file generated will
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almost certainly be different."""
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pass
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def link_shared_object (self,
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objects,
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output_filename,
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output_dir=None,
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libraries=None,
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library_dirs=None,
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extra_preargs=None,
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extra_postargs=None):
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"""Link a bunch of stuff together to create a shared object
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file. Much like 'link_shared_lib()', except the output filename
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is explicitly supplied as 'output_filename'. If 'output_dir' is
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supplied, 'output_filename' is relative to it
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(i.e. 'output_filename' can provide directory components if
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needed)."""
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pass
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# -- Filename mangling methods -------------------------------------
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# General principle for the filename-mangling methods: by default,
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# don't include a directory component, no matter what the caller
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# supplies. Eg. for UnixCCompiler, a source file of "foo/bar/baz.c"
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# becomes "baz.o" or "baz.so", etc. (That way, it's easiest for the
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# caller to decide where it wants to put/find the output file.) The
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# 'output_dir' parameter overrides this, of course -- the directory
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# component of the input filenames is replaced by 'output_dir'.
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def object_filenames (self, source_filenames, output_dir=None):
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"""Return the list of object filenames corresponding to each
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specified source filename."""
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pass
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def shared_object_filename (self, source_filename):
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"""Return the shared object filename corresponding to a
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specified source filename (assuming the same directory)."""
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pass
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def library_filename (self, libname):
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"""Return the static library filename corresponding to the
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specified library name."""
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pass
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def shared_library_filename (self, libname):
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"""Return the shared library filename corresponding to the
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specified library name."""
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pass
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# XXX ugh -- these should go!
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def object_name (self, inname):
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"""Given a name with no extension, return the name + object extension"""
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return inname + self._obj_ext
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def shared_library_name (self, inname):
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"""Given a name with no extension, return the name + shared object extension"""
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return inname + self._shared_lib_ext
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# -- Utility methods -----------------------------------------------
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def announce (self, msg, level=1):
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if self.verbose >= level:
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print msg
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def warn (self, msg):
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sys.stderr.write ("warning: %s\n" % msg)
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def spawn (self, cmd):
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spawn (cmd, verbose=self.verbose, dry_run=self.dry_run)
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def move_file (self, src, dst):
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return move_file (src, dst, verbose=self.verbose, dry_run=self.dry_run)
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# class CCompiler
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# Map a platform ('posix', 'nt') to the default compiler type for
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# that platform.
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default_compiler = { 'posix': 'unix',
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'nt': 'msvc',
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}
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# Map compiler types to (module_name, class_name) pairs -- ie. where to
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# find the code that implements an interface to this compiler. (The module
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# is assumed to be in the 'distutils' package.)
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compiler_class = { 'unix': ('unixccompiler', 'UnixCCompiler'),
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'msvc': ('msvccompiler', 'MSVCCompiler'),
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}
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def new_compiler (plat=None,
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compiler=None,
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verbose=0,
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dry_run=0,
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force=0):
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"""Generate an instance of some CCompiler subclass for the supplied
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platform/compiler combination. 'plat' defaults to 'os.name'
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(eg. 'posix', 'nt'), and 'compiler' defaults to the default
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compiler for that platform. Currently only 'posix' and 'nt'
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are supported, and the default compilers are "traditional Unix
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interface" (UnixCCompiler class) and Visual C++ (MSVCCompiler
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class). Note that it's perfectly possible to ask for a Unix
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compiler object under Windows, and a Microsoft compiler object
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under Unix -- if you supply a value for 'compiler', 'plat'
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is ignored."""
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if plat is None:
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plat = os.name
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try:
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if compiler is None:
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compiler = default_compiler[plat]
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(module_name, class_name) = compiler_class[compiler]
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except KeyError:
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msg = "don't know how to compile C/C++ code on platform '%s'" % plat
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if compiler is not None:
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msg = msg + " with '%s' compiler" % compiler
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raise DistutilsPlatformError, msg
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try:
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module_name = "distutils." + module_name
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__import__ (module_name)
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module = sys.modules[module_name]
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klass = vars(module)[class_name]
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except ImportError:
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raise DistutilsModuleError, \
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"can't compile C/C++ code: unable to load module '%s'" % \
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module_name
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except KeyError:
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raise DistutilsModuleError, \
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("can't compile C/C++ code: unable to find class '%s' " +
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"in module '%s'") % (class_name, module_name)
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return klass (verbose, dry_run, force)
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def gen_preprocess_options (macros, include_dirs):
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"""Generate C pre-processor options (-D, -U, -I) as used by at
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least two types of compilers: the typical Unix compiler and Visual
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C++. 'macros' is the usual thing, a list of 1- or 2-tuples, where
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(name,) means undefine (-U) macro 'name', and (name,value) means
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define (-D) macro 'name' to 'value'. 'include_dirs' is just a list of
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directory names to be added to the header file search path (-I).
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Returns a list of command-line options suitable for either
|
|
Unix compilers or Visual C++."""
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|
|
|
# XXX it would be nice (mainly aesthetic, and so we don't generate
|
|
# stupid-looking command lines) to go over 'macros' and eliminate
|
|
# redundant definitions/undefinitions (ie. ensure that only the
|
|
# latest mention of a particular macro winds up on the command
|
|
# line). I don't think it's essential, though, since most (all?)
|
|
# Unix C compilers only pay attention to the latest -D or -U
|
|
# mention of a macro on their command line. Similar situation for
|
|
# 'include_dirs'. I'm punting on both for now. Anyways, weeding out
|
|
# redundancies like this should probably be the province of
|
|
# CCompiler, since the data structures used are inherited from it
|
|
# and therefore common to all CCompiler classes.
|
|
|
|
pp_opts = []
|
|
for macro in macros:
|
|
|
|
if not (type (macro) is TupleType and
|
|
1 <= len (macro) <= 2):
|
|
raise TypeError, \
|
|
("bad macro definition '%s': " +
|
|
"each element of 'macros' list must be a 1- or 2-tuple") % \
|
|
macro
|
|
|
|
if len (macro) == 1: # undefine this macro
|
|
pp_opts.append ("-U%s" % macro[0])
|
|
elif len (macro) == 2:
|
|
if macro[1] is None: # define with no explicit value
|
|
pp_opts.append ("-D%s" % macro[0])
|
|
else:
|
|
# XXX *don't* need to be clever about quoting the
|
|
# macro value here, because we're going to avoid the
|
|
# shell at all costs when we spawn the command!
|
|
pp_opts.append ("-D%s=%s" % macro)
|
|
|
|
for dir in include_dirs:
|
|
pp_opts.append ("-I%s" % dir)
|
|
|
|
return pp_opts
|
|
|
|
# gen_preprocess_options ()
|
|
|
|
|
|
def gen_lib_options (compiler, library_dirs, libraries):
|
|
"""Generate linker options for searching library directories and
|
|
linking with specific libraries. 'libraries' and 'library_dirs'
|
|
are, respectively, lists of library names (not filenames!) and
|
|
search directories. Returns a list of command-line options suitable
|
|
for use with some compiler (depending on the two format strings
|
|
passed in)."""
|
|
|
|
lib_opts = []
|
|
|
|
for dir in library_dirs:
|
|
lib_opts.append (compiler.library_dir_option (dir))
|
|
|
|
# XXX it's important that we *not* remove redundant library mentions!
|
|
# sometimes you really do have to say "-lfoo -lbar -lfoo" in order to
|
|
# resolve all symbols. I just hope we never have to say "-lfoo obj.o
|
|
# -lbar" to get things to work -- that's certainly a possibility, but a
|
|
# pretty nasty way to arrange your C code.
|
|
|
|
for lib in libraries:
|
|
(lib_dir, lib_name) = os.path.split (lib)
|
|
if lib_dir:
|
|
lib_file = compiler.find_library_file ([lib_dir], lib_name)
|
|
if lib_file:
|
|
lib_opts.append (lib_file)
|
|
else:
|
|
compiler.warn ("no library file corresponding to "
|
|
"'%s' found (skipping)" % lib)
|
|
else:
|
|
lib_opts.append (compiler.library_option (lib))
|
|
|
|
return lib_opts
|
|
|
|
# _gen_lib_options ()
|