import py, sys, re from cffi import FFI, FFIError, CDefError, VerificationError class FakeBackend(object): def nonstandard_integer_types(self): return {} def sizeof(self, name): return 1 def load_library(self, name, flags): if sys.platform == 'win32': assert name is None or "msvcr" in name else: assert name is None or "libc" in name or "libm" in name return FakeLibrary() def new_function_type(self, args, result, has_varargs): args = [arg.cdecl for arg in args] result = result.cdecl return FakeType( '' % (', '.join(args), result, has_varargs)) def new_primitive_type(self, name): assert name == name.lower() return FakeType('<%s>' % name) def new_pointer_type(self, itemtype): return FakeType('' % (itemtype,)) def new_struct_type(self, name): return FakeStruct(name) def complete_struct_or_union(self, s, fields, tp=None, totalsize=-1, totalalignment=-1, sflags=0): assert isinstance(s, FakeStruct) s.fields = fields def new_array_type(self, ptrtype, length): return FakeType('' % (ptrtype, length)) def new_void_type(self): return FakeType("") def cast(self, x, y): return 'casted!' def _get_types(self): return "CData", "CType" class FakeType(object): def __init__(self, cdecl): self.cdecl = cdecl def __str__(self): return self.cdecl class FakeStruct(object): def __init__(self, name): self.name = name def __str__(self): return ', '.join([str(y) + str(x) for x, y, z in self.fields]) class FakeLibrary(object): def load_function(self, BType, name): return FakeFunction(BType, name) class FakeFunction(object): def __init__(self, BType, name): self.BType = str(BType) self.name = name lib_m = "m" if sys.platform == 'win32': #there is a small chance this fails on Mingw via environ $CC import distutils.ccompiler if distutils.ccompiler.get_default_compiler() == 'msvc': lib_m = 'msvcrt' def test_simple(): ffi = FFI(backend=FakeBackend()) ffi.cdef("double sin(double x);") m = ffi.dlopen(lib_m) func = m.sin # should be a callable on real backends assert func.name == 'sin' assert func.BType == '), , False>' def test_pipe(): ffi = FFI(backend=FakeBackend()) ffi.cdef("int pipe(int pipefd[2]);") C = ffi.dlopen(None) func = C.pipe assert func.name == 'pipe' assert func.BType == '>), , False>' def test_vararg(): ffi = FFI(backend=FakeBackend()) ffi.cdef("short foo(int, ...);") C = ffi.dlopen(None) func = C.foo assert func.name == 'foo' assert func.BType == '), , True>' def test_no_args(): ffi = FFI(backend=FakeBackend()) ffi.cdef(""" int foo(void); """) C = ffi.dlopen(None) assert C.foo.BType == ', False>' def test_typedef(): ffi = FFI(backend=FakeBackend()) ffi.cdef(""" typedef unsigned int UInt; typedef UInt UIntReally; UInt foo(void); """) C = ffi.dlopen(None) assert str(ffi.typeof("UIntReally")) == '' assert C.foo.BType == ', False>' def test_typedef_more_complex(): ffi = FFI(backend=FakeBackend()) ffi.cdef(""" typedef struct { int a, b; } foo_t, *foo_p; int foo(foo_p[]); """) C = ffi.dlopen(None) assert str(ffi.typeof("foo_t")) == 'a, b' assert str(ffi.typeof("foo_p")) == 'a, b>' assert C.foo.BType == ('a, b>>), , False>') def test_typedef_array_convert_array_to_pointer(): ffi = FFI(backend=FakeBackend()) ffi.cdef(""" typedef int (*fn_t)(int[5]); """) with ffi._lock: type = ffi._parser.parse_type("fn_t") BType = ffi._get_cached_btype(type) assert str(BType) == '>), , False>' def test_remove_comments(): ffi = FFI(backend=FakeBackend()) ffi.cdef(""" double /*comment here*/ sin // blah blah /* multi- line- //comment */ ( // foo double // bar /* <- ignored, because it's in a comment itself x, double/*several*//*comment*/y) /*on the same line*/ ; """) m = ffi.dlopen(lib_m) func = m.sin assert func.name == 'sin' assert func.BType == ', ), , False>' def test_remove_line_continuation_comments(): ffi = FFI(backend=FakeBackend()) ffi.cdef(""" double // blah \\ more comments x(void); double // blah\\\\ y(void); double // blah\\ \ etc z(void); """) m = ffi.dlopen(lib_m) m.x m.y m.z def test_line_continuation_in_defines(): ffi = FFI(backend=FakeBackend()) ffi.cdef(""" #define ABC\\ 42 #define BCD \\ 43 """) m = ffi.dlopen(lib_m) assert m.ABC == 42 assert m.BCD == 43 def test_define_not_supported_for_now(): ffi = FFI(backend=FakeBackend()) e = py.test.raises(CDefError, ffi.cdef, '#define FOO "blah"') assert str(e.value) == ( 'only supports one of the following syntax:\n' ' #define FOO ... (literally dot-dot-dot)\n' ' #define FOO NUMBER (with NUMBER an integer' ' constant, decimal/hex/octal)\n' 'got:\n' ' #define FOO "blah"') def test_unnamed_struct(): ffi = FFI(backend=FakeBackend()) ffi.cdef("typedef struct { int x; } foo_t;\n" "typedef struct { int y; } *bar_p;\n") assert 'typedef foo_t' in ffi._parser._declarations assert 'typedef bar_p' in ffi._parser._declarations assert 'anonymous foo_t' in ffi._parser._declarations type_foo = ffi._parser.parse_type("foo_t") type_bar = ffi._parser.parse_type("bar_p").totype assert repr(type_foo) == "" assert repr(type_bar) == "" py.test.raises(VerificationError, type_bar.get_c_name) assert type_foo.get_c_name() == "foo_t" def test_override(): ffi = FFI(backend=FakeBackend()) C = ffi.dlopen(None) ffi.cdef("int foo(void);") py.test.raises(FFIError, ffi.cdef, "long foo(void);") assert C.foo.BType == ', False>' ffi.cdef("long foo(void);", override=True) assert C.foo.BType == ', False>' def test_cannot_have_only_variadic_part(): # this checks that we get a sensible error if we try "int foo(...);" ffi = FFI() e = py.test.raises(CDefError, ffi.cdef, "int foo(...);") assert str(e.value) == \ "foo: a function with only '(...)' as argument is not correct C" def test_parse_error(): ffi = FFI() e = py.test.raises(CDefError, ffi.cdef, " x y z ") assert re.match(r'cannot parse "x y z"\n:\d+:', str(e.value)) def test_cannot_declare_enum_later(): ffi = FFI() e = py.test.raises(NotImplementedError, ffi.cdef, "typedef enum foo_e foo_t; enum foo_e { AA, BB };") assert str(e.value) == ( "enum foo_e: the '{}' declaration should appear on the " "first time the enum is mentioned, not later") def test_unknown_name(): ffi = FFI() e = py.test.raises(CDefError, ffi.cast, "foobarbazunknown", 0) assert str(e.value) == "unknown identifier 'foobarbazunknown'" e = py.test.raises(CDefError, ffi.cast, "foobarbazunknown*", 0) assert str(e.value).startswith('cannot parse "foobarbazunknown*"') e = py.test.raises(CDefError, ffi.cast, "int(*)(foobarbazunknown)", 0) assert str(e.value).startswith('cannot parse "int(*)(foobarbazunknown)"') def test_redefine_common_type(): prefix = "" if sys.version_info < (3,) else "b" ffi = FFI() ffi.cdef("typedef char FILE;") assert repr(ffi.cast("FILE", 123)) == "" % prefix ffi.cdef("typedef char int32_t;") assert repr(ffi.cast("int32_t", 123)) == "" % prefix ffi = FFI() ffi.cdef("typedef int bool, *FILE;") assert repr(ffi.cast("bool", 123)) == "" assert re.match(r"", repr(ffi.cast("FILE", 123))) ffi = FFI() ffi.cdef("typedef bool (*fn_t)(bool, bool);") # "bool," but within "( )" def test_bool(): ffi = FFI() ffi.cdef("void f(bool);") # ffi = FFI() ffi.cdef("typedef _Bool bool; void f(bool);") def test_unknown_argument_type(): ffi = FFI() e = py.test.raises(CDefError, ffi.cdef, "void f(foobarbazzz);") assert str(e.value) == ("f arg 1: unknown type 'foobarbazzz' (if you meant" " to use the old C syntax of giving untyped" " arguments, it is not supported)") def test_void_renamed_as_only_arg(): ffi = FFI() ffi.cdef("typedef void void_t1;" "typedef void_t1 void_t;" "typedef int (*func_t)(void_t);") assert ffi.typeof("func_t").args == () def test_WPARAM_on_windows(): if sys.platform != 'win32': py.test.skip("Only for Windows") ffi = FFI() ffi.cdef("void f(WPARAM);") # # WPARAM -> UINT_PTR -> unsigned 32/64-bit integer ffi = FFI() value = int(ffi.cast("WPARAM", -42)) assert value == sys.maxsize * 2 - 40 def test__is_constant_globalvar(): for input, expected_output in [ ("int a;", False), ("const int a;", True), ("int *a;", False), ("const int *a;", False), ("int const *a;", False), ("int *const a;", True), ("int a[5];", False), ("const int a[5];", False), ("int *a[5];", False), ("const int *a[5];", False), ("int const *a[5];", False), ("int *const a[5];", False), ("int a[5][6];", False), ("const int a[5][6];", False), ]: ffi = FFI() ffi.cdef(input) declarations = ffi._parser._declarations assert ('constant a' in declarations) == expected_output assert ('variable a' in declarations) == (not expected_output) def test_restrict(): from cffi import model for input, expected_output in [ ("int a;", False), ("restrict int a;", True), ("int *a;", False), ]: ffi = FFI() ffi.cdef(input) tp, quals = ffi._parser._declarations['variable a'] assert bool(quals & model.Q_RESTRICT) == expected_output def test_different_const_funcptr_types(): lst = [] for input in [ "int(*)(int *a)", "int(*)(int const *a)", "int(*)(int * const a)", "int(*)(int const a[])"]: ffi = FFI(backend=FakeBackend()) lst.append(ffi._parser.parse_type(input)) assert lst[0] != lst[1] assert lst[0] == lst[2] assert lst[1] == lst[3] def test_const_pointer_to_pointer(): from cffi import model ffi = FFI(backend=FakeBackend()) # tp, qual = ffi._parser.parse_type_and_quals("char * * (* const)") assert (str(tp), qual) == ("", model.Q_CONST) tp, qual = ffi._parser.parse_type_and_quals("char * (* const (*))") assert (str(tp), qual) == ("", 0) tp, qual = ffi._parser.parse_type_and_quals("char (* const (* (*)))") assert (str(tp), qual) == ("", 0) tp, qual = ffi._parser.parse_type_and_quals("char const * * *") assert (str(tp), qual) == ("", 0) tp, qual = ffi._parser.parse_type_and_quals("const char * * *") assert (str(tp), qual) == ("", 0) # tp, qual = ffi._parser.parse_type_and_quals("char * * * const const") assert (str(tp), qual) == ("", model.Q_CONST) tp, qual = ffi._parser.parse_type_and_quals("char * * volatile *") assert (str(tp), qual) == ("", 0) tp, qual = ffi._parser.parse_type_and_quals("char * volatile restrict * *") assert (str(tp), qual) == ("", 0) tp, qual = ffi._parser.parse_type_and_quals("char const volatile * * *") assert (str(tp), qual) == ("", 0) tp, qual = ffi._parser.parse_type_and_quals("const char * * *") assert (str(tp), qual) == ("", 0) # tp, qual = ffi._parser.parse_type_and_quals( "int(char*const*, short****const*)") assert (str(tp), qual) == ( "", 0) tp, qual = ffi._parser.parse_type_and_quals( "char*const*(short*const****)") assert (str(tp), qual) == ( "", 0) def test_enum(): ffi = FFI() ffi.cdef(""" enum Enum { POS = +1, TWO = 2, NIL = 0, NEG = -1}; """) C = ffi.dlopen(None) assert C.POS == 1 assert C.TWO == 2 assert C.NIL == 0 assert C.NEG == -1 def test_stdcall(): ffi = FFI() tp = ffi.typeof("int(*)(int __stdcall x(int)," " long (__cdecl*y)(void)," " short(WINAPI *z)(short))") if sys.platform == 'win32' and sys.maxsize < 2**32: stdcall = '__stdcall ' else: stdcall = '' assert str(tp) == ( "" % (stdcall, stdcall)) def test_extern_python(): ffi = FFI() ffi.cdef(""" int bok(int, int); extern "Python" int foobar(int, int); int baz(int, int); """) assert sorted(ffi._parser._declarations) == [ 'extern_python foobar', 'function baz', 'function bok'] assert (ffi._parser._declarations['function bok'] == ffi._parser._declarations['extern_python foobar'] == ffi._parser._declarations['function baz']) def test_extern_python_group(): ffi = FFI() ffi.cdef(""" int bok(int); extern "Python" {int foobar(int, int);int bzrrr(int);} int baz(int, int); """) assert sorted(ffi._parser._declarations) == [ 'extern_python bzrrr', 'extern_python foobar', 'function baz', 'function bok'] assert (ffi._parser._declarations['function baz'] == ffi._parser._declarations['extern_python foobar'] != ffi._parser._declarations['function bok'] == ffi._parser._declarations['extern_python bzrrr'])