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- import sys, types
- from .lock import allocate_lock
- from .error import CDefError
- from . import model
-
- try:
- callable
- except NameError:
- # Python 3.1
- from collections import Callable
- callable = lambda x: isinstance(x, Callable)
-
- try:
- basestring
- except NameError:
- # Python 3.x
- basestring = str
-
- _unspecified = object()
-
-
-
- class FFI(object):
- r'''
- The main top-level class that you instantiate once, or once per module.
-
- Example usage:
-
- ffi = FFI()
- ffi.cdef("""
- int printf(const char *, ...);
- """)
-
- C = ffi.dlopen(None) # standard library
- -or-
- C = ffi.verify() # use a C compiler: verify the decl above is right
-
- C.printf("hello, %s!\n", ffi.new("char[]", "world"))
- '''
-
- def __init__(self, backend=None):
- """Create an FFI instance. The 'backend' argument is used to
- select a non-default backend, mostly for tests.
- """
- if backend is None:
- # You need PyPy (>= 2.0 beta), or a CPython (>= 2.6) with
- # _cffi_backend.so compiled.
- import _cffi_backend as backend
- from . import __version__
- if backend.__version__ != __version__:
- # bad version! Try to be as explicit as possible.
- if hasattr(backend, '__file__'):
- # CPython
- raise Exception("Version mismatch: this is the 'cffi' package version %s, located in %r. When we import the top-level '_cffi_backend' extension module, we get version %s, located in %r. The two versions should be equal; check your installation." % (
- __version__, __file__,
- backend.__version__, backend.__file__))
- else:
- # PyPy
- raise Exception("Version mismatch: this is the 'cffi' package version %s, located in %r. This interpreter comes with a built-in '_cffi_backend' module, which is version %s. The two versions should be equal; check your installation." % (
- __version__, __file__, backend.__version__))
- # (If you insist you can also try to pass the option
- # 'backend=backend_ctypes.CTypesBackend()', but don't
- # rely on it! It's probably not going to work well.)
-
- from . import cparser
- self._backend = backend
- self._lock = allocate_lock()
- self._parser = cparser.Parser()
- self._cached_btypes = {}
- self._parsed_types = types.ModuleType('parsed_types').__dict__
- self._new_types = types.ModuleType('new_types').__dict__
- self._function_caches = []
- self._libraries = []
- self._cdefsources = []
- self._included_ffis = []
- self._windows_unicode = None
- self._init_once_cache = {}
- self._cdef_version = None
- self._embedding = None
- self._typecache = model.get_typecache(backend)
- if hasattr(backend, 'set_ffi'):
- backend.set_ffi(self)
- for name in list(backend.__dict__):
- if name.startswith('RTLD_'):
- setattr(self, name, getattr(backend, name))
- #
- with self._lock:
- self.BVoidP = self._get_cached_btype(model.voidp_type)
- self.BCharA = self._get_cached_btype(model.char_array_type)
- if isinstance(backend, types.ModuleType):
- # _cffi_backend: attach these constants to the class
- if not hasattr(FFI, 'NULL'):
- FFI.NULL = self.cast(self.BVoidP, 0)
- FFI.CData, FFI.CType = backend._get_types()
- else:
- # ctypes backend: attach these constants to the instance
- self.NULL = self.cast(self.BVoidP, 0)
- self.CData, self.CType = backend._get_types()
- self.buffer = backend.buffer
-
- def cdef(self, csource, override=False, packed=False, pack=None):
- """Parse the given C source. This registers all declared functions,
- types, and global variables. The functions and global variables can
- then be accessed via either 'ffi.dlopen()' or 'ffi.verify()'.
- The types can be used in 'ffi.new()' and other functions.
- If 'packed' is specified as True, all structs declared inside this
- cdef are packed, i.e. laid out without any field alignment at all.
- Alternatively, 'pack' can be a small integer, and requests for
- alignment greater than that are ignored (pack=1 is equivalent to
- packed=True).
- """
- self._cdef(csource, override=override, packed=packed, pack=pack)
-
- def embedding_api(self, csource, packed=False, pack=None):
- self._cdef(csource, packed=packed, pack=pack, dllexport=True)
- if self._embedding is None:
- self._embedding = ''
-
- def _cdef(self, csource, override=False, **options):
- if not isinstance(csource, str): # unicode, on Python 2
- if not isinstance(csource, basestring):
- raise TypeError("cdef() argument must be a string")
- csource = csource.encode('ascii')
- with self._lock:
- self._cdef_version = object()
- self._parser.parse(csource, override=override, **options)
- self._cdefsources.append(csource)
- if override:
- for cache in self._function_caches:
- cache.clear()
- finishlist = self._parser._recomplete
- if finishlist:
- self._parser._recomplete = []
- for tp in finishlist:
- tp.finish_backend_type(self, finishlist)
-
- def dlopen(self, name, flags=0):
- """Load and return a dynamic library identified by 'name'.
- The standard C library can be loaded by passing None.
- Note that functions and types declared by 'ffi.cdef()' are not
- linked to a particular library, just like C headers; in the
- library we only look for the actual (untyped) symbols.
- """
- if not (isinstance(name, basestring) or
- name is None or
- isinstance(name, self.CData)):
- raise TypeError("dlopen(name): name must be a file name, None, "
- "or an already-opened 'void *' handle")
- with self._lock:
- lib, function_cache = _make_ffi_library(self, name, flags)
- self._function_caches.append(function_cache)
- self._libraries.append(lib)
- return lib
-
- def dlclose(self, lib):
- """Close a library obtained with ffi.dlopen(). After this call,
- access to functions or variables from the library will fail
- (possibly with a segmentation fault).
- """
- type(lib).__cffi_close__(lib)
-
- def _typeof_locked(self, cdecl):
- # call me with the lock!
- key = cdecl
- if key in self._parsed_types:
- return self._parsed_types[key]
- #
- if not isinstance(cdecl, str): # unicode, on Python 2
- cdecl = cdecl.encode('ascii')
- #
- type = self._parser.parse_type(cdecl)
- really_a_function_type = type.is_raw_function
- if really_a_function_type:
- type = type.as_function_pointer()
- btype = self._get_cached_btype(type)
- result = btype, really_a_function_type
- self._parsed_types[key] = result
- return result
-
- def _typeof(self, cdecl, consider_function_as_funcptr=False):
- # string -> ctype object
- try:
- result = self._parsed_types[cdecl]
- except KeyError:
- with self._lock:
- result = self._typeof_locked(cdecl)
- #
- btype, really_a_function_type = result
- if really_a_function_type and not consider_function_as_funcptr:
- raise CDefError("the type %r is a function type, not a "
- "pointer-to-function type" % (cdecl,))
- return btype
-
- def typeof(self, cdecl):
- """Parse the C type given as a string and return the
- corresponding <ctype> object.
- It can also be used on 'cdata' instance to get its C type.
- """
- if isinstance(cdecl, basestring):
- return self._typeof(cdecl)
- if isinstance(cdecl, self.CData):
- return self._backend.typeof(cdecl)
- if isinstance(cdecl, types.BuiltinFunctionType):
- res = _builtin_function_type(cdecl)
- if res is not None:
- return res
- if (isinstance(cdecl, types.FunctionType)
- and hasattr(cdecl, '_cffi_base_type')):
- with self._lock:
- return self._get_cached_btype(cdecl._cffi_base_type)
- raise TypeError(type(cdecl))
-
- def sizeof(self, cdecl):
- """Return the size in bytes of the argument. It can be a
- string naming a C type, or a 'cdata' instance.
- """
- if isinstance(cdecl, basestring):
- BType = self._typeof(cdecl)
- return self._backend.sizeof(BType)
- else:
- return self._backend.sizeof(cdecl)
-
- def alignof(self, cdecl):
- """Return the natural alignment size in bytes of the C type
- given as a string.
- """
- if isinstance(cdecl, basestring):
- cdecl = self._typeof(cdecl)
- return self._backend.alignof(cdecl)
-
- def offsetof(self, cdecl, *fields_or_indexes):
- """Return the offset of the named field inside the given
- structure or array, which must be given as a C type name.
- You can give several field names in case of nested structures.
- You can also give numeric values which correspond to array
- items, in case of an array type.
- """
- if isinstance(cdecl, basestring):
- cdecl = self._typeof(cdecl)
- return self._typeoffsetof(cdecl, *fields_or_indexes)[1]
-
- def new(self, cdecl, init=None):
- """Allocate an instance according to the specified C type and
- return a pointer to it. The specified C type must be either a
- pointer or an array: ``new('X *')`` allocates an X and returns
- a pointer to it, whereas ``new('X[n]')`` allocates an array of
- n X'es and returns an array referencing it (which works
- mostly like a pointer, like in C). You can also use
- ``new('X[]', n)`` to allocate an array of a non-constant
- length n.
-
- The memory is initialized following the rules of declaring a
- global variable in C: by default it is zero-initialized, but
- an explicit initializer can be given which can be used to
- fill all or part of the memory.
-
- When the returned <cdata> object goes out of scope, the memory
- is freed. In other words the returned <cdata> object has
- ownership of the value of type 'cdecl' that it points to. This
- means that the raw data can be used as long as this object is
- kept alive, but must not be used for a longer time. Be careful
- about that when copying the pointer to the memory somewhere
- else, e.g. into another structure.
- """
- if isinstance(cdecl, basestring):
- cdecl = self._typeof(cdecl)
- return self._backend.newp(cdecl, init)
-
- def new_allocator(self, alloc=None, free=None,
- should_clear_after_alloc=True):
- """Return a new allocator, i.e. a function that behaves like ffi.new()
- but uses the provided low-level 'alloc' and 'free' functions.
-
- 'alloc' is called with the size as argument. If it returns NULL, a
- MemoryError is raised. 'free' is called with the result of 'alloc'
- as argument. Both can be either Python function or directly C
- functions. If 'free' is None, then no free function is called.
- If both 'alloc' and 'free' are None, the default is used.
-
- If 'should_clear_after_alloc' is set to False, then the memory
- returned by 'alloc' is assumed to be already cleared (or you are
- fine with garbage); otherwise CFFI will clear it.
- """
- compiled_ffi = self._backend.FFI()
- allocator = compiled_ffi.new_allocator(alloc, free,
- should_clear_after_alloc)
- def allocate(cdecl, init=None):
- if isinstance(cdecl, basestring):
- cdecl = self._typeof(cdecl)
- return allocator(cdecl, init)
- return allocate
-
- def cast(self, cdecl, source):
- """Similar to a C cast: returns an instance of the named C
- type initialized with the given 'source'. The source is
- casted between integers or pointers of any type.
- """
- if isinstance(cdecl, basestring):
- cdecl = self._typeof(cdecl)
- return self._backend.cast(cdecl, source)
-
- def string(self, cdata, maxlen=-1):
- """Return a Python string (or unicode string) from the 'cdata'.
- If 'cdata' is a pointer or array of characters or bytes, returns
- the null-terminated string. The returned string extends until
- the first null character, or at most 'maxlen' characters. If
- 'cdata' is an array then 'maxlen' defaults to its length.
-
- If 'cdata' is a pointer or array of wchar_t, returns a unicode
- string following the same rules.
-
- If 'cdata' is a single character or byte or a wchar_t, returns
- it as a string or unicode string.
-
- If 'cdata' is an enum, returns the value of the enumerator as a
- string, or 'NUMBER' if the value is out of range.
- """
- return self._backend.string(cdata, maxlen)
-
- def unpack(self, cdata, length):
- """Unpack an array of C data of the given length,
- returning a Python string/unicode/list.
-
- If 'cdata' is a pointer to 'char', returns a byte string.
- It does not stop at the first null. This is equivalent to:
- ffi.buffer(cdata, length)[:]
-
- If 'cdata' is a pointer to 'wchar_t', returns a unicode string.
- 'length' is measured in wchar_t's; it is not the size in bytes.
-
- If 'cdata' is a pointer to anything else, returns a list of
- 'length' items. This is a faster equivalent to:
- [cdata[i] for i in range(length)]
- """
- return self._backend.unpack(cdata, length)
-
- #def buffer(self, cdata, size=-1):
- # """Return a read-write buffer object that references the raw C data
- # pointed to by the given 'cdata'. The 'cdata' must be a pointer or
- # an array. Can be passed to functions expecting a buffer, or directly
- # manipulated with:
- #
- # buf[:] get a copy of it in a regular string, or
- # buf[idx] as a single character
- # buf[:] = ...
- # buf[idx] = ... change the content
- # """
- # note that 'buffer' is a type, set on this instance by __init__
-
- def from_buffer(self, cdecl, python_buffer=_unspecified,
- require_writable=False):
- """Return a cdata of the given type pointing to the data of the
- given Python object, which must support the buffer interface.
- Note that this is not meant to be used on the built-in types
- str or unicode (you can build 'char[]' arrays explicitly)
- but only on objects containing large quantities of raw data
- in some other format, like 'array.array' or numpy arrays.
-
- The first argument is optional and default to 'char[]'.
- """
- if python_buffer is _unspecified:
- cdecl, python_buffer = self.BCharA, cdecl
- elif isinstance(cdecl, basestring):
- cdecl = self._typeof(cdecl)
- return self._backend.from_buffer(cdecl, python_buffer,
- require_writable)
-
- def memmove(self, dest, src, n):
- """ffi.memmove(dest, src, n) copies n bytes of memory from src to dest.
-
- Like the C function memmove(), the memory areas may overlap;
- apart from that it behaves like the C function memcpy().
-
- 'src' can be any cdata ptr or array, or any Python buffer object.
- 'dest' can be any cdata ptr or array, or a writable Python buffer
- object. The size to copy, 'n', is always measured in bytes.
-
- Unlike other methods, this one supports all Python buffer including
- byte strings and bytearrays---but it still does not support
- non-contiguous buffers.
- """
- return self._backend.memmove(dest, src, n)
-
- def callback(self, cdecl, python_callable=None, error=None, onerror=None):
- """Return a callback object or a decorator making such a
- callback object. 'cdecl' must name a C function pointer type.
- The callback invokes the specified 'python_callable' (which may
- be provided either directly or via a decorator). Important: the
- callback object must be manually kept alive for as long as the
- callback may be invoked from the C level.
- """
- def callback_decorator_wrap(python_callable):
- if not callable(python_callable):
- raise TypeError("the 'python_callable' argument "
- "is not callable")
- return self._backend.callback(cdecl, python_callable,
- error, onerror)
- if isinstance(cdecl, basestring):
- cdecl = self._typeof(cdecl, consider_function_as_funcptr=True)
- if python_callable is None:
- return callback_decorator_wrap # decorator mode
- else:
- return callback_decorator_wrap(python_callable) # direct mode
-
- def getctype(self, cdecl, replace_with=''):
- """Return a string giving the C type 'cdecl', which may be itself
- a string or a <ctype> object. If 'replace_with' is given, it gives
- extra text to append (or insert for more complicated C types), like
- a variable name, or '*' to get actually the C type 'pointer-to-cdecl'.
- """
- if isinstance(cdecl, basestring):
- cdecl = self._typeof(cdecl)
- replace_with = replace_with.strip()
- if (replace_with.startswith('*')
- and '&[' in self._backend.getcname(cdecl, '&')):
- replace_with = '(%s)' % replace_with
- elif replace_with and not replace_with[0] in '[(':
- replace_with = ' ' + replace_with
- return self._backend.getcname(cdecl, replace_with)
-
- def gc(self, cdata, destructor, size=0):
- """Return a new cdata object that points to the same
- data. Later, when this new cdata object is garbage-collected,
- 'destructor(old_cdata_object)' will be called.
-
- The optional 'size' gives an estimate of the size, used to
- trigger the garbage collection more eagerly. So far only used
- on PyPy. It tells the GC that the returned object keeps alive
- roughly 'size' bytes of external memory.
- """
- return self._backend.gcp(cdata, destructor, size)
-
- def _get_cached_btype(self, type):
- assert self._lock.acquire(False) is False
- # call me with the lock!
- try:
- BType = self._cached_btypes[type]
- except KeyError:
- finishlist = []
- BType = type.get_cached_btype(self, finishlist)
- for type in finishlist:
- type.finish_backend_type(self, finishlist)
- return BType
-
- def verify(self, source='', tmpdir=None, **kwargs):
- """Verify that the current ffi signatures compile on this
- machine, and return a dynamic library object. The dynamic
- library can be used to call functions and access global
- variables declared in this 'ffi'. The library is compiled
- by the C compiler: it gives you C-level API compatibility
- (including calling macros). This is unlike 'ffi.dlopen()',
- which requires binary compatibility in the signatures.
- """
- from .verifier import Verifier, _caller_dir_pycache
- #
- # If set_unicode(True) was called, insert the UNICODE and
- # _UNICODE macro declarations
- if self._windows_unicode:
- self._apply_windows_unicode(kwargs)
- #
- # Set the tmpdir here, and not in Verifier.__init__: it picks
- # up the caller's directory, which we want to be the caller of
- # ffi.verify(), as opposed to the caller of Veritier().
- tmpdir = tmpdir or _caller_dir_pycache()
- #
- # Make a Verifier() and use it to load the library.
- self.verifier = Verifier(self, source, tmpdir, **kwargs)
- lib = self.verifier.load_library()
- #
- # Save the loaded library for keep-alive purposes, even
- # if the caller doesn't keep it alive itself (it should).
- self._libraries.append(lib)
- return lib
-
- def _get_errno(self):
- return self._backend.get_errno()
- def _set_errno(self, errno):
- self._backend.set_errno(errno)
- errno = property(_get_errno, _set_errno, None,
- "the value of 'errno' from/to the C calls")
-
- def getwinerror(self, code=-1):
- return self._backend.getwinerror(code)
-
- def _pointer_to(self, ctype):
- with self._lock:
- return model.pointer_cache(self, ctype)
-
- def addressof(self, cdata, *fields_or_indexes):
- """Return the address of a <cdata 'struct-or-union'>.
- If 'fields_or_indexes' are given, returns the address of that
- field or array item in the structure or array, recursively in
- case of nested structures.
- """
- try:
- ctype = self._backend.typeof(cdata)
- except TypeError:
- if '__addressof__' in type(cdata).__dict__:
- return type(cdata).__addressof__(cdata, *fields_or_indexes)
- raise
- if fields_or_indexes:
- ctype, offset = self._typeoffsetof(ctype, *fields_or_indexes)
- else:
- if ctype.kind == "pointer":
- raise TypeError("addressof(pointer)")
- offset = 0
- ctypeptr = self._pointer_to(ctype)
- return self._backend.rawaddressof(ctypeptr, cdata, offset)
-
- def _typeoffsetof(self, ctype, field_or_index, *fields_or_indexes):
- ctype, offset = self._backend.typeoffsetof(ctype, field_or_index)
- for field1 in fields_or_indexes:
- ctype, offset1 = self._backend.typeoffsetof(ctype, field1, 1)
- offset += offset1
- return ctype, offset
-
- def include(self, ffi_to_include):
- """Includes the typedefs, structs, unions and enums defined
- in another FFI instance. Usage is similar to a #include in C,
- where a part of the program might include types defined in
- another part for its own usage. Note that the include()
- method has no effect on functions, constants and global
- variables, which must anyway be accessed directly from the
- lib object returned by the original FFI instance.
- """
- if not isinstance(ffi_to_include, FFI):
- raise TypeError("ffi.include() expects an argument that is also of"
- " type cffi.FFI, not %r" % (
- type(ffi_to_include).__name__,))
- if ffi_to_include is self:
- raise ValueError("self.include(self)")
- with ffi_to_include._lock:
- with self._lock:
- self._parser.include(ffi_to_include._parser)
- self._cdefsources.append('[')
- self._cdefsources.extend(ffi_to_include._cdefsources)
- self._cdefsources.append(']')
- self._included_ffis.append(ffi_to_include)
-
- def new_handle(self, x):
- return self._backend.newp_handle(self.BVoidP, x)
-
- def from_handle(self, x):
- return self._backend.from_handle(x)
-
- def release(self, x):
- self._backend.release(x)
-
- def set_unicode(self, enabled_flag):
- """Windows: if 'enabled_flag' is True, enable the UNICODE and
- _UNICODE defines in C, and declare the types like TCHAR and LPTCSTR
- to be (pointers to) wchar_t. If 'enabled_flag' is False,
- declare these types to be (pointers to) plain 8-bit characters.
- This is mostly for backward compatibility; you usually want True.
- """
- if self._windows_unicode is not None:
- raise ValueError("set_unicode() can only be called once")
- enabled_flag = bool(enabled_flag)
- if enabled_flag:
- self.cdef("typedef wchar_t TBYTE;"
- "typedef wchar_t TCHAR;"
- "typedef const wchar_t *LPCTSTR;"
- "typedef const wchar_t *PCTSTR;"
- "typedef wchar_t *LPTSTR;"
- "typedef wchar_t *PTSTR;"
- "typedef TBYTE *PTBYTE;"
- "typedef TCHAR *PTCHAR;")
- else:
- self.cdef("typedef char TBYTE;"
- "typedef char TCHAR;"
- "typedef const char *LPCTSTR;"
- "typedef const char *PCTSTR;"
- "typedef char *LPTSTR;"
- "typedef char *PTSTR;"
- "typedef TBYTE *PTBYTE;"
- "typedef TCHAR *PTCHAR;")
- self._windows_unicode = enabled_flag
-
- def _apply_windows_unicode(self, kwds):
- defmacros = kwds.get('define_macros', ())
- if not isinstance(defmacros, (list, tuple)):
- raise TypeError("'define_macros' must be a list or tuple")
- defmacros = list(defmacros) + [('UNICODE', '1'),
- ('_UNICODE', '1')]
- kwds['define_macros'] = defmacros
-
- def _apply_embedding_fix(self, kwds):
- # must include an argument like "-lpython2.7" for the compiler
- def ensure(key, value):
- lst = kwds.setdefault(key, [])
- if value not in lst:
- lst.append(value)
- #
- if '__pypy__' in sys.builtin_module_names:
- import os
- if sys.platform == "win32":
- # we need 'libpypy-c.lib'. Current distributions of
- # pypy (>= 4.1) contain it as 'libs/python27.lib'.
- pythonlib = "python{0[0]}{0[1]}".format(sys.version_info)
- if hasattr(sys, 'prefix'):
- ensure('library_dirs', os.path.join(sys.prefix, 'libs'))
- else:
- # we need 'libpypy-c.{so,dylib}', which should be by
- # default located in 'sys.prefix/bin' for installed
- # systems.
- if sys.version_info < (3,):
- pythonlib = "pypy-c"
- else:
- pythonlib = "pypy3-c"
- if hasattr(sys, 'prefix'):
- ensure('library_dirs', os.path.join(sys.prefix, 'bin'))
- # On uninstalled pypy's, the libpypy-c is typically found in
- # .../pypy/goal/.
- if hasattr(sys, 'prefix'):
- ensure('library_dirs', os.path.join(sys.prefix, 'pypy', 'goal'))
- else:
- if sys.platform == "win32":
- template = "python%d%d"
- if hasattr(sys, 'gettotalrefcount'):
- template += '_d'
- else:
- try:
- import sysconfig
- except ImportError: # 2.6
- from distutils import sysconfig
- template = "python%d.%d"
- if sysconfig.get_config_var('DEBUG_EXT'):
- template += sysconfig.get_config_var('DEBUG_EXT')
- pythonlib = (template %
- (sys.hexversion >> 24, (sys.hexversion >> 16) & 0xff))
- if hasattr(sys, 'abiflags'):
- pythonlib += sys.abiflags
- ensure('libraries', pythonlib)
- if sys.platform == "win32":
- ensure('extra_link_args', '/MANIFEST')
-
- def set_source(self, module_name, source, source_extension='.c', **kwds):
- import os
- if hasattr(self, '_assigned_source'):
- raise ValueError("set_source() cannot be called several times "
- "per ffi object")
- if not isinstance(module_name, basestring):
- raise TypeError("'module_name' must be a string")
- if os.sep in module_name or (os.altsep and os.altsep in module_name):
- raise ValueError("'module_name' must not contain '/': use a dotted "
- "name to make a 'package.module' location")
- self._assigned_source = (str(module_name), source,
- source_extension, kwds)
-
- def set_source_pkgconfig(self, module_name, pkgconfig_libs, source,
- source_extension='.c', **kwds):
- from . import pkgconfig
- if not isinstance(pkgconfig_libs, list):
- raise TypeError("the pkgconfig_libs argument must be a list "
- "of package names")
- kwds2 = pkgconfig.flags_from_pkgconfig(pkgconfig_libs)
- pkgconfig.merge_flags(kwds, kwds2)
- self.set_source(module_name, source, source_extension, **kwds)
-
- def distutils_extension(self, tmpdir='build', verbose=True):
- from distutils.dir_util import mkpath
- from .recompiler import recompile
- #
- if not hasattr(self, '_assigned_source'):
- if hasattr(self, 'verifier'): # fallback, 'tmpdir' ignored
- return self.verifier.get_extension()
- raise ValueError("set_source() must be called before"
- " distutils_extension()")
- module_name, source, source_extension, kwds = self._assigned_source
- if source is None:
- raise TypeError("distutils_extension() is only for C extension "
- "modules, not for dlopen()-style pure Python "
- "modules")
- mkpath(tmpdir)
- ext, updated = recompile(self, module_name,
- source, tmpdir=tmpdir, extradir=tmpdir,
- source_extension=source_extension,
- call_c_compiler=False, **kwds)
- if verbose:
- if updated:
- sys.stderr.write("regenerated: %r\n" % (ext.sources[0],))
- else:
- sys.stderr.write("not modified: %r\n" % (ext.sources[0],))
- return ext
-
- def emit_c_code(self, filename):
- from .recompiler import recompile
- #
- if not hasattr(self, '_assigned_source'):
- raise ValueError("set_source() must be called before emit_c_code()")
- module_name, source, source_extension, kwds = self._assigned_source
- if source is None:
- raise TypeError("emit_c_code() is only for C extension modules, "
- "not for dlopen()-style pure Python modules")
- recompile(self, module_name, source,
- c_file=filename, call_c_compiler=False, **kwds)
-
- def emit_python_code(self, filename):
- from .recompiler import recompile
- #
- if not hasattr(self, '_assigned_source'):
- raise ValueError("set_source() must be called before emit_c_code()")
- module_name, source, source_extension, kwds = self._assigned_source
- if source is not None:
- raise TypeError("emit_python_code() is only for dlopen()-style "
- "pure Python modules, not for C extension modules")
- recompile(self, module_name, source,
- c_file=filename, call_c_compiler=False, **kwds)
-
- def compile(self, tmpdir='.', verbose=0, target=None, debug=None):
- """The 'target' argument gives the final file name of the
- compiled DLL. Use '*' to force distutils' choice, suitable for
- regular CPython C API modules. Use a file name ending in '.*'
- to ask for the system's default extension for dynamic libraries
- (.so/.dll/.dylib).
-
- The default is '*' when building a non-embedded C API extension,
- and (module_name + '.*') when building an embedded library.
- """
- from .recompiler import recompile
- #
- if not hasattr(self, '_assigned_source'):
- raise ValueError("set_source() must be called before compile()")
- module_name, source, source_extension, kwds = self._assigned_source
- return recompile(self, module_name, source, tmpdir=tmpdir,
- target=target, source_extension=source_extension,
- compiler_verbose=verbose, debug=debug, **kwds)
-
- def init_once(self, func, tag):
- # Read _init_once_cache[tag], which is either (False, lock) if
- # we're calling the function now in some thread, or (True, result).
- # Don't call setdefault() in most cases, to avoid allocating and
- # immediately freeing a lock; but still use setdefaut() to avoid
- # races.
- try:
- x = self._init_once_cache[tag]
- except KeyError:
- x = self._init_once_cache.setdefault(tag, (False, allocate_lock()))
- # Common case: we got (True, result), so we return the result.
- if x[0]:
- return x[1]
- # Else, it's a lock. Acquire it to serialize the following tests.
- with x[1]:
- # Read again from _init_once_cache the current status.
- x = self._init_once_cache[tag]
- if x[0]:
- return x[1]
- # Call the function and store the result back.
- result = func()
- self._init_once_cache[tag] = (True, result)
- return result
-
- def embedding_init_code(self, pysource):
- if self._embedding:
- raise ValueError("embedding_init_code() can only be called once")
- # fix 'pysource' before it gets dumped into the C file:
- # - remove empty lines at the beginning, so it starts at "line 1"
- # - dedent, if all non-empty lines are indented
- # - check for SyntaxErrors
- import re
- match = re.match(r'\s*\n', pysource)
- if match:
- pysource = pysource[match.end():]
- lines = pysource.splitlines() or ['']
- prefix = re.match(r'\s*', lines[0]).group()
- for i in range(1, len(lines)):
- line = lines[i]
- if line.rstrip():
- while not line.startswith(prefix):
- prefix = prefix[:-1]
- i = len(prefix)
- lines = [line[i:]+'\n' for line in lines]
- pysource = ''.join(lines)
- #
- compile(pysource, "cffi_init", "exec")
- #
- self._embedding = pysource
-
- def def_extern(self, *args, **kwds):
- raise ValueError("ffi.def_extern() is only available on API-mode FFI "
- "objects")
-
- def list_types(self):
- """Returns the user type names known to this FFI instance.
- This returns a tuple containing three lists of names:
- (typedef_names, names_of_structs, names_of_unions)
- """
- typedefs = []
- structs = []
- unions = []
- for key in self._parser._declarations:
- if key.startswith('typedef '):
- typedefs.append(key[8:])
- elif key.startswith('struct '):
- structs.append(key[7:])
- elif key.startswith('union '):
- unions.append(key[6:])
- typedefs.sort()
- structs.sort()
- unions.sort()
- return (typedefs, structs, unions)
-
-
- def _load_backend_lib(backend, name, flags):
- import os
- if not isinstance(name, basestring):
- if sys.platform != "win32" or name is not None:
- return backend.load_library(name, flags)
- name = "c" # Windows: load_library(None) fails, but this works
- # on Python 2 (backward compatibility hack only)
- first_error = None
- if '.' in name or '/' in name or os.sep in name:
- try:
- return backend.load_library(name, flags)
- except OSError as e:
- first_error = e
- import ctypes.util
- path = ctypes.util.find_library(name)
- if path is None:
- if name == "c" and sys.platform == "win32" and sys.version_info >= (3,):
- raise OSError("dlopen(None) cannot work on Windows for Python 3 "
- "(see http://bugs.python.org/issue23606)")
- msg = ("ctypes.util.find_library() did not manage "
- "to locate a library called %r" % (name,))
- if first_error is not None:
- msg = "%s. Additionally, %s" % (first_error, msg)
- raise OSError(msg)
- return backend.load_library(path, flags)
-
- def _make_ffi_library(ffi, libname, flags):
- backend = ffi._backend
- backendlib = _load_backend_lib(backend, libname, flags)
- #
- def accessor_function(name):
- key = 'function ' + name
- tp, _ = ffi._parser._declarations[key]
- BType = ffi._get_cached_btype(tp)
- value = backendlib.load_function(BType, name)
- library.__dict__[name] = value
- #
- def accessor_variable(name):
- key = 'variable ' + name
- tp, _ = ffi._parser._declarations[key]
- BType = ffi._get_cached_btype(tp)
- read_variable = backendlib.read_variable
- write_variable = backendlib.write_variable
- setattr(FFILibrary, name, property(
- lambda self: read_variable(BType, name),
- lambda self, value: write_variable(BType, name, value)))
- #
- def addressof_var(name):
- try:
- return addr_variables[name]
- except KeyError:
- with ffi._lock:
- if name not in addr_variables:
- key = 'variable ' + name
- tp, _ = ffi._parser._declarations[key]
- BType = ffi._get_cached_btype(tp)
- if BType.kind != 'array':
- BType = model.pointer_cache(ffi, BType)
- p = backendlib.load_function(BType, name)
- addr_variables[name] = p
- return addr_variables[name]
- #
- def accessor_constant(name):
- raise NotImplementedError("non-integer constant '%s' cannot be "
- "accessed from a dlopen() library" % (name,))
- #
- def accessor_int_constant(name):
- library.__dict__[name] = ffi._parser._int_constants[name]
- #
- accessors = {}
- accessors_version = [False]
- addr_variables = {}
- #
- def update_accessors():
- if accessors_version[0] is ffi._cdef_version:
- return
- #
- for key, (tp, _) in ffi._parser._declarations.items():
- if not isinstance(tp, model.EnumType):
- tag, name = key.split(' ', 1)
- if tag == 'function':
- accessors[name] = accessor_function
- elif tag == 'variable':
- accessors[name] = accessor_variable
- elif tag == 'constant':
- accessors[name] = accessor_constant
- else:
- for i, enumname in enumerate(tp.enumerators):
- def accessor_enum(name, tp=tp, i=i):
- tp.check_not_partial()
- library.__dict__[name] = tp.enumvalues[i]
- accessors[enumname] = accessor_enum
- for name in ffi._parser._int_constants:
- accessors.setdefault(name, accessor_int_constant)
- accessors_version[0] = ffi._cdef_version
- #
- def make_accessor(name):
- with ffi._lock:
- if name in library.__dict__ or name in FFILibrary.__dict__:
- return # added by another thread while waiting for the lock
- if name not in accessors:
- update_accessors()
- if name not in accessors:
- raise AttributeError(name)
- accessors[name](name)
- #
- class FFILibrary(object):
- def __getattr__(self, name):
- make_accessor(name)
- return getattr(self, name)
- def __setattr__(self, name, value):
- try:
- property = getattr(self.__class__, name)
- except AttributeError:
- make_accessor(name)
- setattr(self, name, value)
- else:
- property.__set__(self, value)
- def __dir__(self):
- with ffi._lock:
- update_accessors()
- return accessors.keys()
- def __addressof__(self, name):
- if name in library.__dict__:
- return library.__dict__[name]
- if name in FFILibrary.__dict__:
- return addressof_var(name)
- make_accessor(name)
- if name in library.__dict__:
- return library.__dict__[name]
- if name in FFILibrary.__dict__:
- return addressof_var(name)
- raise AttributeError("cffi library has no function or "
- "global variable named '%s'" % (name,))
- def __cffi_close__(self):
- backendlib.close_lib()
- self.__dict__.clear()
- #
- if isinstance(libname, basestring):
- try:
- if not isinstance(libname, str): # unicode, on Python 2
- libname = libname.encode('utf-8')
- FFILibrary.__name__ = 'FFILibrary_%s' % libname
- except UnicodeError:
- pass
- library = FFILibrary()
- return library, library.__dict__
-
- def _builtin_function_type(func):
- # a hack to make at least ffi.typeof(builtin_function) work,
- # if the builtin function was obtained by 'vengine_cpy'.
- import sys
- try:
- module = sys.modules[func.__module__]
- ffi = module._cffi_original_ffi
- types_of_builtin_funcs = module._cffi_types_of_builtin_funcs
- tp = types_of_builtin_funcs[func]
- except (KeyError, AttributeError, TypeError):
- return None
- else:
- with ffi._lock:
- return ffi._get_cached_btype(tp)
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