python类append()的实例源码

def force_flatten(self):
        # force the struct or union to have a declaration that lists
        # directly all fields returned by enumfields(), flattening
        # nested anonymous structs/unions.
        names = []
        types = []
        bitsizes = []
        fldquals = []
        for name, type, bitsize, quals in self.enumfields():
            names.append(name)
            types.append(type)
            bitsizes.append(bitsize)
            fldquals.append(quals)
        self.fldnames = tuple(names)
        self.fldtypes = tuple(types)
        self.fldbitsize = tuple(bitsizes)
        self.fldquals = tuple(fldquals)

def force_flatten(self):
        # force the struct or union to have a declaration that lists
        # directly all fields returned by enumfields(), flattening
        # nested anonymous structs/unions.
        names = []
        types = []
        bitsizes = []
        fldquals = []
        for name, type, bitsize, quals in self.enumfields():
            names.append(name)
            types.append(type)
            bitsizes.append(bitsize)
            fldquals.append(quals)
        self.fldnames = tuple(names)
        self.fldtypes = tuple(types)
        self.fldbitsize = tuple(bitsizes)
        self.fldquals = tuple(fldquals)

def force_flatten(self):
        # force the struct or union to have a declaration that lists
        # directly all fields returned by enumfields(), flattening
        # nested anonymous structs/unions.
        names = []
        types = []
        bitsizes = []
        fldquals = []
        for name, type, bitsize, quals in self.enumfields():
            names.append(name)
            types.append(type)
            bitsizes.append(bitsize)
            fldquals.append(quals)
        self.fldnames = tuple(names)
        self.fldtypes = tuple(types)
        self.fldbitsize = tuple(bitsizes)
        self.fldquals = tuple(fldquals)

def force_flatten(self):
        # force the struct or union to have a declaration that lists
        # directly all fields returned by enumfields(), flattening
        # nested anonymous structs/unions.
        names = []
        types = []
        bitsizes = []
        fldquals = []
        for name, type, bitsize, quals in self.enumfields():
            names.append(name)
            types.append(type)
            bitsizes.append(bitsize)
            fldquals.append(quals)
        self.fldnames = tuple(names)
        self.fldtypes = tuple(types)
        self.fldbitsize = tuple(bitsizes)
        self.fldquals = tuple(fldquals)

def force_flatten(self):
        # force the struct or union to have a declaration that lists
        # directly all fields returned by enumfields(), flattening
        # nested anonymous structs/unions.
        names = []
        types = []
        bitsizes = []
        fldquals = []
        for name, type, bitsize, quals in self.enumfields():
            names.append(name)
            types.append(type)
            bitsizes.append(bitsize)
            fldquals.append(quals)
        self.fldnames = tuple(names)
        self.fldtypes = tuple(types)
        self.fldbitsize = tuple(bitsizes)
        self.fldquals = tuple(fldquals)

def force_flatten(self):
        # force the struct or union to have a declaration that lists
        # directly all fields returned by enumfields(), flattening
        # nested anonymous structs/unions.
        names = []
        types = []
        bitsizes = []
        fldquals = []
        for name, type, bitsize, quals in self.enumfields():
            names.append(name)
            types.append(type)
            bitsizes.append(bitsize)
            fldquals.append(quals)
        self.fldnames = tuple(names)
        self.fldtypes = tuple(types)
        self.fldbitsize = tuple(bitsizes)
        self.fldquals = tuple(fldquals)

def force_flatten(self):
        # force the struct or union to have a declaration that lists
        # directly all fields returned by enumfields(), flattening
        # nested anonymous structs/unions.
        names = []
        types = []
        bitsizes = []
        fldquals = []
        for name, type, bitsize, quals in self.enumfields():
            names.append(name)
            types.append(type)
            bitsizes.append(bitsize)
            fldquals.append(quals)
        self.fldnames = tuple(names)
        self.fldtypes = tuple(types)
        self.fldbitsize = tuple(bitsizes)
        self.fldquals = tuple(fldquals)

def force_flatten(self):
        # force the struct or union to have a declaration that lists
        # directly all fields returned by enumfields(), flattening
        # nested anonymous structs/unions.
        names = []
        types = []
        bitsizes = []
        fldquals = []
        for name, type, bitsize, quals in self.enumfields():
            names.append(name)
            types.append(type)
            bitsizes.append(bitsize)
            fldquals.append(quals)
        self.fldnames = tuple(names)
        self.fldtypes = tuple(types)
        self.fldbitsize = tuple(bitsizes)
        self.fldquals = tuple(fldquals)

def register(self, meth):
        '''
        Register a new method as a multimethod
        '''
        sig = inspect.signature(meth)

        # Build a type-signature from the method's annotations
        types = []
        for name, parm in sig.parameters.items():
            if name == 'self': 
                continue
            if parm.annotation is inspect.Parameter.empty:
                raise TypeError(
                    'Argument {} must be annotated with a type'.format(name)
                    )
            if not isinstance(parm.annotation, type):
                raise TypeError(
                    'Argument {} annotation must be a type'.format(name)
                    )
            if parm.default is not inspect.Parameter.empty:
                self._methods[tuple(types)] = meth
            types.append(parm.annotation)

        self._methods[tuple(types)] = meth

def force_flatten(self):
        # force the struct or union to have a declaration that lists
        # directly all fields returned by enumfields(), flattening
        # nested anonymous structs/unions.
        names = []
        types = []
        bitsizes = []
        fldquals = []
        for name, type, bitsize, quals in self.enumfields():
            names.append(name)
            types.append(type)
            bitsizes.append(bitsize)
            fldquals.append(quals)
        self.fldnames = tuple(names)
        self.fldtypes = tuple(types)
        self.fldbitsize = tuple(bitsizes)
        self.fldquals = tuple(fldquals)

def force_flatten(self):
        # force the struct or union to have a declaration that lists
        # directly all fields returned by enumfields(), flattening
        # nested anonymous structs/unions.
        names = []
        types = []
        bitsizes = []
        fldquals = []
        for name, type, bitsize, quals in self.enumfields():
            names.append(name)
            types.append(type)
            bitsizes.append(bitsize)
            fldquals.append(quals)
        self.fldnames = tuple(names)
        self.fldtypes = tuple(types)
        self.fldbitsize = tuple(bitsizes)
        self.fldquals = tuple(fldquals)

def force_flatten(self):
        # force the struct or union to have a declaration that lists
        # directly all fields returned by enumfields(), flattening
        # nested anonymous structs/unions.
        names = []
        types = []
        bitsizes = []
        fldquals = []
        for name, type, bitsize, quals in self.enumfields():
            names.append(name)
            types.append(type)
            bitsizes.append(bitsize)
            fldquals.append(quals)
        self.fldnames = tuple(names)
        self.fldtypes = tuple(types)
        self.fldbitsize = tuple(bitsizes)
        self.fldquals = tuple(fldquals)

def force_flatten(self):
        # force the struct or union to have a declaration that lists
        # directly all fields returned by enumfields(), flattening
        # nested anonymous structs/unions.
        names = []
        types = []
        bitsizes = []
        fldquals = []
        for name, type, bitsize, quals in self.enumfields():
            names.append(name)
            types.append(type)
            bitsizes.append(bitsize)
            fldquals.append(quals)
        self.fldnames = tuple(names)
        self.fldtypes = tuple(types)
        self.fldbitsize = tuple(bitsizes)
        self.fldquals = tuple(fldquals)

def force_flatten(self):
        # force the struct or union to have a declaration that lists
        # directly all fields returned by enumfields(), flattening
        # nested anonymous structs/unions.
        names = []
        types = []
        bitsizes = []
        fldquals = []
        for name, type, bitsize, quals in self.enumfields():
            names.append(name)
            types.append(type)
            bitsizes.append(bitsize)
            fldquals.append(quals)
        self.fldnames = tuple(names)
        self.fldtypes = tuple(types)
        self.fldbitsize = tuple(bitsizes)
        self.fldquals = tuple(fldquals)

def force_flatten(self):
        # force the struct or union to have a declaration that lists
        # directly all fields returned by enumfields(), flattening
        # nested anonymous structs/unions.
        names = []
        types = []
        bitsizes = []
        fldquals = []
        for name, type, bitsize, quals in self.enumfields():
            names.append(name)
            types.append(type)
            bitsizes.append(bitsize)
            fldquals.append(quals)
        self.fldnames = tuple(names)
        self.fldtypes = tuple(types)
        self.fldbitsize = tuple(bitsizes)
        self.fldquals = tuple(fldquals)

def force_flatten(self):
        # force the struct or union to have a declaration that lists
        # directly all fields returned by enumfields(), flattening
        # nested anonymous structs/unions.
        names = []
        types = []
        bitsizes = []
        fldquals = []
        for name, type, bitsize, quals in self.enumfields():
            names.append(name)
            types.append(type)
            bitsizes.append(bitsize)
            fldquals.append(quals)
        self.fldnames = tuple(names)
        self.fldtypes = tuple(types)
        self.fldbitsize = tuple(bitsizes)
        self.fldquals = tuple(fldquals)

def force_flatten(self):
        # force the struct or union to have a declaration that lists
        # directly all fields returned by enumfields(), flattening
        # nested anonymous structs/unions.
        names = []
        types = []
        bitsizes = []
        fldquals = []
        for name, type, bitsize, quals in self.enumfields():
            names.append(name)
            types.append(type)
            bitsizes.append(bitsize)
            fldquals.append(quals)
        self.fldnames = tuple(names)
        self.fldtypes = tuple(types)
        self.fldbitsize = tuple(bitsizes)
        self.fldquals = tuple(fldquals)

def force_flatten(self):
        # force the struct or union to have a declaration that lists
        # directly all fields returned by enumfields(), flattening
        # nested anonymous structs/unions.
        names = []
        types = []
        bitsizes = []
        fldquals = []
        for name, type, bitsize, quals in self.enumfields():
            names.append(name)
            types.append(type)
            bitsizes.append(bitsize)
            fldquals.append(quals)
        self.fldnames = tuple(names)
        self.fldtypes = tuple(types)
        self.fldbitsize = tuple(bitsizes)
        self.fldquals = tuple(fldquals)

def force_flatten(self):
        # force the struct or union to have a declaration that lists
        # directly all fields returned by enumfields(), flattening
        # nested anonymous structs/unions.
        names = []
        types = []
        bitsizes = []
        fldquals = []
        for name, type, bitsize, quals in self.enumfields():
            names.append(name)
            types.append(type)
            bitsizes.append(bitsize)
            fldquals.append(quals)
        self.fldnames = tuple(names)
        self.fldtypes = tuple(types)
        self.fldbitsize = tuple(bitsizes)
        self.fldquals = tuple(fldquals)

def force_flatten(self):
        # force the struct or union to have a declaration that lists
        # directly all fields returned by enumfields(), flattening
        # nested anonymous structs/unions.
        names = []
        types = []
        bitsizes = []
        fldquals = []
        for name, type, bitsize, quals in self.enumfields():
            names.append(name)
            types.append(type)
            bitsizes.append(bitsize)
            fldquals.append(quals)
        self.fldnames = tuple(names)
        self.fldtypes = tuple(types)
        self.fldbitsize = tuple(bitsizes)
        self.fldquals = tuple(fldquals)

def force_flatten(self):
        # force the struct or union to have a declaration that lists
        # directly all fields returned by enumfields(), flattening
        # nested anonymous structs/unions.
        names = []
        types = []
        bitsizes = []
        fldquals = []
        for name, type, bitsize, quals in self.enumfields():
            names.append(name)
            types.append(type)
            bitsizes.append(bitsize)
            fldquals.append(quals)
        self.fldnames = tuple(names)
        self.fldtypes = tuple(types)
        self.fldbitsize = tuple(bitsizes)
        self.fldquals = tuple(fldquals)

def force_flatten(self):
        # force the struct or union to have a declaration that lists
        # directly all fields returned by enumfields(), flattening
        # nested anonymous structs/unions.
        names = []
        types = []
        bitsizes = []
        fldquals = []
        for name, type, bitsize, quals in self.enumfields():
            names.append(name)
            types.append(type)
            bitsizes.append(bitsize)
            fldquals.append(quals)
        self.fldnames = tuple(names)
        self.fldtypes = tuple(types)
        self.fldbitsize = tuple(bitsizes)
        self.fldquals = tuple(fldquals)

def force_flatten(self):
        # force the struct or union to have a declaration that lists
        # directly all fields returned by enumfields(), flattening
        # nested anonymous structs/unions.
        names = []
        types = []
        bitsizes = []
        fldquals = []
        for name, type, bitsize, quals in self.enumfields():
            names.append(name)
            types.append(type)
            bitsizes.append(bitsize)
            fldquals.append(quals)
        self.fldnames = tuple(names)
        self.fldtypes = tuple(types)
        self.fldbitsize = tuple(bitsizes)
        self.fldquals = tuple(fldquals)

def __init__(self, args, result, ellipsis, abi=None):
        self.args = args
        self.result = result
        self.ellipsis = ellipsis
        self.abi = abi
        #
        reprargs = [arg._get_c_name() for arg in self.args]
        if self.ellipsis:
            reprargs.append('...')
        reprargs = reprargs or ['void']
        replace_with = self._base_pattern % (', '.join(reprargs),)
        if abi is not None:
            replace_with = replace_with[:1] + abi + ' ' + replace_with[1:]
        self.c_name_with_marker = (
            self.result.c_name_with_marker.replace('&', replace_with))

def build_backend_type(self, ffi, finishlist):
        result = self.result.get_cached_btype(ffi, finishlist)
        args = []
        for tp in self.args:
            args.append(tp.get_cached_btype(ffi, finishlist))
        abi_args = ()
        if self.abi == "__stdcall":
            if not self.ellipsis:    # __stdcall ignored for variadic funcs
                try:
                    abi_args = (ffi._backend.FFI_STDCALL,)
                except AttributeError:
                    pass
        return global_cache(self, ffi, 'new_function_type',
                            tuple(args), result, self.ellipsis, *abi_args)

def build_backend_type(self, ffi, finishlist):
        self.check_not_partial()
        finishlist.append(self)
        #
        return global_cache(self, ffi, 'new_%s_type' % self.kind,
                            self.get_official_name(), key=self)

def __init__(self, args, result, ellipsis, abi=None):
        self.args = args
        self.result = result
        self.ellipsis = ellipsis
        self.abi = abi
        #
        reprargs = [arg._get_c_name() for arg in self.args]
        if self.ellipsis:
            reprargs.append('...')
        reprargs = reprargs or ['void']
        replace_with = self._base_pattern % (', '.join(reprargs),)
        if abi is not None:
            replace_with = replace_with[:1] + abi + ' ' + replace_with[1:]
        self.c_name_with_marker = (
            self.result.c_name_with_marker.replace('&', replace_with))

def build_backend_type(self, ffi, finishlist):
        result = self.result.get_cached_btype(ffi, finishlist)
        args = []
        for tp in self.args:
            args.append(tp.get_cached_btype(ffi, finishlist))
        abi_args = ()
        if self.abi == "__stdcall":
            if not self.ellipsis:    # __stdcall ignored for variadic funcs
                try:
                    abi_args = (ffi._backend.FFI_STDCALL,)
                except AttributeError:
                    pass
        return global_cache(self, ffi, 'new_function_type',
                            tuple(args), result, self.ellipsis, *abi_args)

def build_backend_type(self, ffi, finishlist):
        self.check_not_partial()
        finishlist.append(self)
        #
        return global_cache(self, ffi, 'new_%s_type' % self.kind,
                            self.get_official_name(), key=self)

def __init__(self, args, result, ellipsis, abi=None):
        self.args = args
        self.result = result
        self.ellipsis = ellipsis
        self.abi = abi
        #
        reprargs = [arg._get_c_name() for arg in self.args]
        if self.ellipsis:
            reprargs.append('...')
        reprargs = reprargs or ['void']
        replace_with = self._base_pattern % (', '.join(reprargs),)
        if abi is not None:
            replace_with = replace_with[:1] + abi + ' ' + replace_with[1:]
        self.c_name_with_marker = (
            self.result.c_name_with_marker.replace('&', replace_with))