示例#1
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def generate_native_getters_and_setters(cl: ClassIR, emitter: Emitter) -> None:
    for attr, rtype in cl.attributes.items():
        attr_field = emitter.attr(attr)

        # Native getter
        emitter.emit_line('{}{}({} *self)'.format(
            emitter.ctype_spaced(rtype),
            native_getter_name(cl, attr, emitter.names),
            cl.struct_name(emitter.names)))
        emitter.emit_line('{')
        if rtype.is_refcounted:
            emit_undefined_check(rtype, emitter, attr_field, '==')
            emitter.emit_lines(
                'PyErr_SetString(PyExc_AttributeError, "attribute {} of {} undefined");'
                .format(repr(attr), repr(cl.name)), '} else {')
            emitter.emit_inc_ref('self->{}'.format(attr_field), rtype)
            emitter.emit_line('}')
        emitter.emit_line('return self->{};'.format(attr_field))
        emitter.emit_line('}')
        emitter.emit_line()
        # Native setter
        emitter.emit_line('bool {}({} *self, {}value)'.format(
            native_setter_name(cl, attr, emitter.names),
            cl.struct_name(emitter.names), emitter.ctype_spaced(rtype)))
        emitter.emit_line('{')
        if rtype.is_refcounted:
            emit_undefined_check(rtype, emitter, attr_field, '!=')
            emitter.emit_dec_ref('self->{}'.format(attr_field), rtype)
            emitter.emit_line('}')
        # This steal the reference to src, so we don't need to increment the arg
        emitter.emit_lines('self->{} = value;'.format(attr_field), 'return 1;',
                           '}')
        emitter.emit_line()
示例#2
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def specialize_parent_vtable(cls: ClassIR, parent: ClassIR) -> VTableEntries:
    """Generate the part of a vtable corresponding to a parent class or trait"""
    updated = []
    for entry in parent.vtable_entries:
        if isinstance(entry, VTableMethod):
            # Find the original method corresponding to this vtable entry.
            # (This may not be the method in the entry, if it was overridden.)
            orig_parent_method = entry.cls.get_method(entry.name)
            assert orig_parent_method
            method_cls = cls.get_method_and_class(entry.name)
            if method_cls:
                child_method, defining_cls = method_cls
                # TODO: emit a wrapper for __init__ that raises or something
                if (is_same_method_signature(orig_parent_method.sig,
                                             child_method.sig)
                        or orig_parent_method.name == '__init__'):
                    entry = VTableMethod(entry.cls, entry.name, child_method,
                                         entry.shadow_method)
                else:
                    entry = VTableMethod(
                        entry.cls, entry.name,
                        defining_cls.glue_methods[(entry.cls, entry.name)],
                        entry.shadow_method)
        else:
            # If it is an attribute from a trait, we need to find out
            # the real class it got mixed in at and point to that.
            if parent.is_trait:
                _, origin_cls = cls.attr_details(entry.name)
                entry = VTableAttr(origin_cls, entry.name, entry.is_setter)
        updated.append(entry)
    return updated
示例#3
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def generate_getseter_declarations(cl: ClassIR, emitter: Emitter) -> None:
    if not cl.is_trait:
        for attr in cl.attributes:
            emitter.emit_line('static PyObject *')
            emitter.emit_line('{}({} *self, void *closure);'.format(
                getter_name(cl, attr, emitter.names),
                cl.struct_name(emitter.names)))
            emitter.emit_line('static int')
            emitter.emit_line(
                '{}({} *self, PyObject *value, void *closure);'.format(
                    setter_name(cl, attr, emitter.names),
                    cl.struct_name(emitter.names)))

    for prop in cl.properties:
        # Generate getter declaration
        emitter.emit_line('static PyObject *')
        emitter.emit_line('{}({} *self, void *closure);'.format(
            getter_name(cl, prop, emitter.names),
            cl.struct_name(emitter.names)))

        # Generate property setter declaration if a setter exists
        if cl.properties[prop][1]:
            emitter.emit_line('static int')
            emitter.emit_line(
                '{}({} *self, PyObject *value, void *closure);'.format(
                    setter_name(cl, prop, emitter.names),
                    cl.struct_name(emitter.names)))
示例#4
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    def setUp(self) -> None:
        self.env = Environment()
        self.n = self.env.add_local(Var('n'), int_rprimitive)
        self.m = self.env.add_local(Var('m'), int_rprimitive)
        self.k = self.env.add_local(Var('k'), int_rprimitive)
        self.l = self.env.add_local(Var('l'), list_rprimitive)  # noqa
        self.ll = self.env.add_local(Var('ll'), list_rprimitive)
        self.o = self.env.add_local(Var('o'), object_rprimitive)
        self.o2 = self.env.add_local(Var('o2'), object_rprimitive)
        self.d = self.env.add_local(Var('d'), dict_rprimitive)
        self.b = self.env.add_local(Var('b'), bool_rprimitive)
        self.t = self.env.add_local(Var('t'),
                                    RTuple([int_rprimitive, bool_rprimitive]))
        self.tt = self.env.add_local(
            Var('tt'),
            RTuple(
                [RTuple([int_rprimitive, bool_rprimitive]), bool_rprimitive]))
        ir = ClassIR('A', 'mod')
        ir.attributes = OrderedDict([('x', bool_rprimitive),
                                     ('y', int_rprimitive)])
        compute_vtable(ir)
        ir.mro = [ir]
        self.r = self.env.add_local(Var('r'), RInstance(ir))

        self.context = EmitterContext(NameGenerator([['mod']]))
        self.emitter = Emitter(self.context, self.env)
        self.declarations = Emitter(self.context, self.env)
        self.visitor = FunctionEmitterVisitor(self.emitter, self.declarations,
                                              'prog.py', 'prog')
示例#5
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def generate_richcompare_wrapper(cl: ClassIR, emitter: Emitter) -> Optional[str]:
    """Generates a wrapper for richcompare dunder methods."""
    # Sort for determinism on Python 3.5
    matches = sorted([name for name in RICHCOMPARE_OPS if cl.has_method(name)])
    if not matches:
        return None

    name = '{}_RichCompare_{}'.format(DUNDER_PREFIX, cl.name_prefix(emitter.names))
    emitter.emit_line(
        'static PyObject *{name}(PyObject *obj_lhs, PyObject *obj_rhs, int op) {{'.format(
            name=name)
    )
    emitter.emit_line('switch (op) {')
    for func in matches:
        emitter.emit_line('case {}: {{'.format(RICHCOMPARE_OPS[func]))
        method = cl.get_method(func)
        assert method is not None
        generate_wrapper_core(method, emitter, arg_names=['lhs', 'rhs'])
        emitter.emit_line('}')
    emitter.emit_line('}')

    emitter.emit_line('Py_INCREF(Py_NotImplemented);')
    emitter.emit_line('return Py_NotImplemented;')

    emitter.emit_line('}')

    return name
示例#6
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def generate_methods_table(cl: ClassIR, name: str, emitter: Emitter) -> None:
    emitter.emit_line('static PyMethodDef {}[] = {{'.format(name))
    for fn in cl.methods.values():
        if fn.decl.is_prop_setter or fn.decl.is_prop_getter:
            continue
        emitter.emit_line('{{"{}",'.format(fn.name))
        emitter.emit_line(' (PyCFunction){}{},'.format(PREFIX,
                                                       fn.cname(
                                                           emitter.names)))
        flags = ['METH_VARARGS', 'METH_KEYWORDS']
        if fn.decl.kind == FUNC_STATICMETHOD:
            flags.append('METH_STATIC')
        elif fn.decl.kind == FUNC_CLASSMETHOD:
            flags.append('METH_CLASS')

        emitter.emit_line(' {}, NULL}},'.format(' | '.join(flags)))

    # Provide a default __getstate__ and __setstate__
    if not cl.has_method('__setstate__') and not cl.has_method('__getstate__'):
        emitter.emit_lines(
            '{"__setstate__", (PyCFunction)CPyPickle_SetState, METH_O, NULL},',
            '{"__getstate__", (PyCFunction)CPyPickle_GetState, METH_NOARGS, NULL},',
        )

    emitter.emit_line('{NULL}  /* Sentinel */')
    emitter.emit_line('};')
示例#7
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def generate_setter(cl: ClassIR, attr: str, rtype: RType,
                    emitter: Emitter) -> None:
    attr_field = emitter.attr(attr)
    emitter.emit_line('static int')
    emitter.emit_line('{}({} *self, PyObject *value, void *closure)'.format(
        setter_name(cl, attr, emitter.names), cl.struct_name(emitter.names)))
    emitter.emit_line('{')
    if rtype.is_refcounted:
        emit_undefined_check(rtype, emitter, attr_field, '!=')
        emitter.emit_dec_ref('self->{}'.format(attr_field), rtype)
        emitter.emit_line('}')
    emitter.emit_line('if (value != NULL) {')
    if rtype.is_unboxed:
        emitter.emit_unbox('value',
                           'tmp',
                           rtype,
                           custom_failure='return -1;',
                           declare_dest=True)
    elif is_same_type(rtype, object_rprimitive):
        emitter.emit_line('PyObject *tmp = value;')
    else:
        emitter.emit_cast('value', 'tmp', rtype, declare_dest=True)
        emitter.emit_lines('if (!tmp)', '    return -1;')
    emitter.emit_inc_ref('tmp', rtype)
    emitter.emit_line('self->{} = tmp;'.format(attr_field))
    emitter.emit_line('} else')
    emitter.emit_line('    self->{} = {};'.format(
        attr_field, emitter.c_undefined_value(rtype)))
    emitter.emit_line('return 0;')
    emitter.emit_line('}')
示例#8
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def declare_native_getters_and_setters(cl: ClassIR, emitter: Emitter) -> None:
    decls = emitter.context.declarations
    for attr, rtype in cl.attributes.items():
        getter_name = native_getter_name(cl, attr, emitter.names)
        setter_name = native_setter_name(cl, attr, emitter.names)
        decls[getter_name] = HeaderDeclaration(
            '{}{}({} *self);'.format(emitter.ctype_spaced(rtype), getter_name,
                                     cl.struct_name(emitter.names)),
            needs_export=True,
        )
        decls[setter_name] = HeaderDeclaration(
            'bool {}({} *self, {}value);'.format(
                native_setter_name(cl, attr, emitter.names),
                cl.struct_name(emitter.names), emitter.ctype_spaced(rtype)),
            needs_export=True,
        )
示例#9
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def generate_side_table_for_class(cl: ClassIR, name: str, type: str,
                                  slots: Dict[str, str],
                                  emitter: Emitter) -> Optional[str]:
    name = '{}_{}'.format(cl.name_prefix(emitter.names), name)
    emitter.emit_line('static {} {} = {{'.format(type, name))
    for field, value in slots.items():
        emitter.emit_line(".{} = {},".format(field, value))
    emitter.emit_line("};")
    return name
示例#10
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def generate_dealloc_for_class(cl: ClassIR, dealloc_func_name: str,
                               clear_func_name: str, emitter: Emitter) -> None:
    emitter.emit_line('static void')
    emitter.emit_line('{}({} *self)'.format(dealloc_func_name,
                                            cl.struct_name(emitter.names)))
    emitter.emit_line('{')
    emitter.emit_line('PyObject_GC_UnTrack(self);')
    emitter.emit_line('{}(self);'.format(clear_func_name))
    emitter.emit_line('Py_TYPE(self)->tp_free((PyObject *)self);')
    emitter.emit_line('}')
示例#11
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def generate_slots(cl: ClassIR, table: SlotTable,
                   emitter: Emitter) -> Dict[str, str]:
    fields = OrderedDict()  # type: Dict[str, str]
    # Sort for determinism on Python 3.5
    for name, (slot, generator) in sorted(table.items()):
        method_cls = cl.get_method_and_class(name)
        if method_cls and (method_cls[1] == cl or name in ALWAYS_FILL):
            fields[slot] = generator(cl, method_cls[0], emitter)

    return fields
示例#12
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def compute_vtable(cls: ClassIR) -> None:
    """Compute the vtable structure for a class."""
    if cls.vtable is not None: return

    if not cls.is_generated:
        cls.has_dict = any(x.inherits_python for x in cls.mro)

    for t in cls.mro[1:]:
        # Make sure all ancestors are processed first
        compute_vtable(t)
        # Merge attributes from traits into the class
        if not t.is_trait:
            continue
        for name, typ in t.attributes.items():
            if not cls.is_trait and not any(name in b.attributes
                                            for b in cls.base_mro):
                cls.attributes[name] = typ

    cls.vtable = {}
    if cls.base:
        assert cls.base.vtable is not None
        cls.vtable.update(cls.base.vtable)
        cls.vtable_entries = specialize_parent_vtable(cls, cls.base)

    # Include the vtable from the parent classes, but handle method overrides.
    entries = cls.vtable_entries

    # Traits need to have attributes in the vtable, since the
    # attributes can be at different places in different classes, but
    # regular classes can just directly get them.
    if cls.is_trait:
        # Traits also need to pull in vtable entries for non-trait
        # parent classes explicitly.
        for t in cls.mro:
            for attr in t.attributes:
                if attr in cls.vtable:
                    continue
                cls.vtable[attr] = len(entries)
                entries.append(VTableAttr(t, attr, is_setter=False))
                entries.append(VTableAttr(t, attr, is_setter=True))

    all_traits = [t for t in cls.mro if t.is_trait]

    for t in [cls] + cls.traits:
        for fn in itertools.chain(t.methods.values()):
            # TODO: don't generate a new entry when we overload without changing the type
            if fn == cls.get_method(fn.name):
                cls.vtable[fn.name] = len(entries)
                # If the class contains a glue method referring to itself, that is a
                # shadow glue method to support interpreted subclasses.
                shadow = cls.glue_methods.get((cls, fn.name))
                entries.append(VTableMethod(t, fn.name, fn, shadow))

    # Compute vtables for all of the traits that the class implements
    if not cls.is_trait:
        for trait in all_traits:
            compute_vtable(trait)
            cls.trait_vtables[trait] = specialize_parent_vtable(cls, trait)
示例#13
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def generate_object_struct(cl: ClassIR, emitter: Emitter) -> None:
    seen_attrs = set()  # type: Set[Tuple[str, RType]]
    lines = []  # type: List[str]
    lines += ['typedef struct {', 'PyObject_HEAD', 'CPyVTableItem *vtable;']
    for base in reversed(cl.base_mro):
        if not base.is_trait:
            for attr, rtype in base.attributes.items():
                if (attr, rtype) not in seen_attrs:
                    lines.append('{}{};'.format(emitter.ctype_spaced(rtype),
                                                emitter.attr(attr)))
                    seen_attrs.add((attr, rtype))

                    if isinstance(rtype, RTuple):
                        emitter.declare_tuple_struct(rtype)

    lines.append('}} {};'.format(cl.struct_name(emitter.names)))
    lines.append('')
    emitter.context.declarations[cl.struct_name(
        emitter.names)] = HeaderDeclaration(lines, is_type=True)
示例#14
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def generate_clear_for_class(cl: ClassIR, func_name: str,
                             emitter: Emitter) -> None:
    emitter.emit_line('static int')
    emitter.emit_line('{}({} *self)'.format(func_name,
                                            cl.struct_name(emitter.names)))
    emitter.emit_line('{')
    for base in reversed(cl.base_mro):
        for attr, rtype in base.attributes.items():
            emitter.emit_gc_clear('self->{}'.format(emitter.attr(attr)), rtype)
    if cl.has_dict:
        struct_name = cl.struct_name(emitter.names)
        # __dict__ lives right after the struct and __weakref__ lives right after that
        emitter.emit_gc_clear(
            '*((PyObject **)((char *)self + sizeof({})))'.format(struct_name),
            object_rprimitive)
        emitter.emit_gc_clear(
            '*((PyObject **)((char *)self + sizeof(PyObject *) + sizeof({})))'.
            format(struct_name), object_rprimitive)
    emitter.emit_line('return 0;')
    emitter.emit_line('}')
示例#15
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def generate_traverse_for_class(cl: ClassIR, func_name: str,
                                emitter: Emitter) -> None:
    """Emit function that performs cycle GC traversal of an instance."""
    emitter.emit_line('static int')
    emitter.emit_line('{}({} *self, visitproc visit, void *arg)'.format(
        func_name, cl.struct_name(emitter.names)))
    emitter.emit_line('{')
    for base in reversed(cl.base_mro):
        for attr, rtype in base.attributes.items():
            emitter.emit_gc_visit('self->{}'.format(emitter.attr(attr)), rtype)
    if cl.has_dict:
        struct_name = cl.struct_name(emitter.names)
        # __dict__ lives right after the struct and __weakref__ lives right after that
        emitter.emit_gc_visit(
            '*((PyObject **)((char *)self + sizeof({})))'.format(struct_name),
            object_rprimitive)
        emitter.emit_gc_visit(
            '*((PyObject **)((char *)self + sizeof(PyObject *) + sizeof({})))'.
            format(struct_name), object_rprimitive)
    emitter.emit_line('return 0;')
    emitter.emit_line('}')
示例#16
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def build_type_map(mapper: Mapper, modules: List[MypyFile], graph: Graph,
                   types: Dict[Expression, Type], options: CompilerOptions,
                   errors: Errors) -> None:
    # Collect all classes defined in everything we are compiling
    classes = []
    for module in modules:
        module_classes = [
            node for node in module.defs if isinstance(node, ClassDef)
        ]
        classes.extend([(module, cdef) for cdef in module_classes])

    # Collect all class mappings so that we can bind arbitrary class name
    # references even if there are import cycles.
    for module, cdef in classes:
        class_ir = ClassIR(cdef.name,
                           module.fullname,
                           is_trait(cdef),
                           is_abstract=cdef.info.is_abstract)
        class_ir.is_ext_class = is_extension_class(cdef)
        # If global optimizations are disabled, turn of tracking of class children
        if not options.global_opts:
            class_ir.children = None
        mapper.type_to_ir[cdef.info] = class_ir

    # Populate structural information in class IR for extension classes.
    for module, cdef in classes:
        with catch_errors(module.path, cdef.line):
            if mapper.type_to_ir[cdef.info].is_ext_class:
                prepare_class_def(module.path, module.fullname, cdef, errors,
                                  mapper)
            else:
                prepare_non_ext_class_def(module.path, module.fullname, cdef,
                                          errors, mapper)

    # Collect all the functions also. We collect from the symbol table
    # so that we can easily pick out the right copy of a function that
    # is conditionally defined.
    for module in modules:
        for func in get_module_func_defs(module):
            prepare_func_def(module.fullname, None, func, mapper)
示例#17
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def generate_get_wrapper(cl: ClassIR, fn: FuncIR, emitter: Emitter) -> str:
    """Generates a wrapper for native __get__ methods."""
    name = '{}{}{}'.format(DUNDER_PREFIX, fn.name, cl.name_prefix(emitter.names))
    emitter.emit_line(
        'static PyObject *{name}(PyObject *self, PyObject *instance, PyObject *owner) {{'.
        format(name=name))
    emitter.emit_line('instance = instance ? instance : Py_None;')
    emitter.emit_line('return {}{}(self, instance, owner);'.format(
        NATIVE_PREFIX,
        fn.cname(emitter.names)))
    emitter.emit_line('}')

    return name
示例#18
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def generate_setup_for_class(cl: ClassIR, func_name: str,
                             defaults_fn: Optional[FuncIR], vtable_name: str,
                             shadow_vtable_name: Optional[str],
                             emitter: Emitter) -> None:
    """Generate a native function that allocates an instance of a class."""
    emitter.emit_line('static PyObject *')
    emitter.emit_line('{}(PyTypeObject *type)'.format(func_name))
    emitter.emit_line('{')
    emitter.emit_line('{} *self;'.format(cl.struct_name(emitter.names)))
    emitter.emit_line('self = ({struct} *)type->tp_alloc(type, 0);'.format(
        struct=cl.struct_name(emitter.names)))
    emitter.emit_line('if (self == NULL)')
    emitter.emit_line('    return NULL;')

    if shadow_vtable_name:
        emitter.emit_line('if (type != {}) {{'.format(
            emitter.type_struct_name(cl)))
        emitter.emit_line('self->vtable = {};'.format(shadow_vtable_name))
        emitter.emit_line('} else {')
        emitter.emit_line('self->vtable = {};'.format(vtable_name))
        emitter.emit_line('}')
    else:
        emitter.emit_line('self->vtable = {};'.format(vtable_name))

    for base in reversed(cl.base_mro):
        for attr, rtype in base.attributes.items():
            emitter.emit_line('self->{} = {};'.format(
                emitter.attr(attr), emitter.c_undefined_value(rtype)))

    # Initialize attributes to default values, if necessary
    if defaults_fn is not None:
        emitter.emit_lines(
            'if ({}{}((PyObject *)self) == 0) {{'.format(
                NATIVE_PREFIX, defaults_fn.cname(emitter.names)),
            'Py_DECREF(self);', 'return NULL;', '}')

    emitter.emit_line('return (PyObject *)self;')
    emitter.emit_line('}')
示例#19
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def generate_dunder_wrapper(cl: ClassIR, fn: FuncIR, emitter: Emitter) -> str:
    """Generates a wrapper for native __dunder__ methods to be able to fit into the mapping
    protocol slot. This specifically means that the arguments are taken as *PyObjects and returned
    as *PyObjects.
    """
    input_args = ', '.join('PyObject *obj_{}'.format(arg.name) for arg in fn.args)
    name = '{}{}{}'.format(DUNDER_PREFIX, fn.name, cl.name_prefix(emitter.names))
    emitter.emit_line('static PyObject *{name}({input_args}) {{'.format(
        name=name,
        input_args=input_args,
    ))
    generate_wrapper_core(fn, emitter)
    emitter.emit_line('}')

    return name
示例#20
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def generate_readonly_getter(cl: ClassIR, attr: str, rtype: RType,
                             func_ir: FuncIR, emitter: Emitter) -> None:
    emitter.emit_line('static PyObject *')
    emitter.emit_line('{}({} *self, void *closure)'.format(
        getter_name(cl, attr, emitter.names), cl.struct_name(emitter.names)))
    emitter.emit_line('{')
    if rtype.is_unboxed:
        emitter.emit_line('{}retval = {}{}((PyObject *) self);'.format(
            emitter.ctype_spaced(rtype), NATIVE_PREFIX,
            func_ir.cname(emitter.names)))
        emitter.emit_box('retval', 'retbox', rtype, declare_dest=True)
        emitter.emit_line('return retbox;')
    else:
        emitter.emit_line('return {}{}((PyObject *) self);'.format(
            NATIVE_PREFIX, func_ir.cname(emitter.names)))
    emitter.emit_line('}')
示例#21
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def generate_bool_wrapper(cl: ClassIR, fn: FuncIR, emitter: Emitter) -> str:
    """Generates a wrapper for native __bool__ methods."""
    name = '{}{}{}'.format(DUNDER_PREFIX, fn.name, cl.name_prefix(emitter.names))
    emitter.emit_line('static int {name}(PyObject *self) {{'.format(
        name=name
    ))
    emitter.emit_line('{}val = {}{}(self);'.format(emitter.ctype_spaced(fn.ret_type),
                                                   NATIVE_PREFIX,
                                                   fn.cname(emitter.names)))
    emitter.emit_error_check('val', fn.ret_type, 'return -1;')
    # This wouldn't be that hard to fix but it seems unimportant and
    # getting error handling and unboxing right would be fiddly. (And
    # way easier to do in IR!)
    assert is_bool_rprimitive(fn.ret_type), "Only bool return supported for __bool__"
    emitter.emit_line('return val;')
    emitter.emit_line('}')

    return name
示例#22
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def generate_init_for_class(cl: ClassIR, init_fn: FuncIR,
                            emitter: Emitter) -> str:
    """Generate an init function suitable for use as tp_init.

    tp_init needs to be a function that returns an int, and our
    __init__ methods return a PyObject. Translate NULL to -1,
    everything else to 0.
    """
    func_name = '{}_init'.format(cl.name_prefix(emitter.names))

    emitter.emit_line('static int')
    emitter.emit_line(
        '{}(PyObject *self, PyObject *args, PyObject *kwds)'.format(func_name))
    emitter.emit_line('{')
    emitter.emit_line('return {}{}(self, args, kwds) != NULL ? 0 : -1;'.format(
        PREFIX, init_fn.cname(emitter.names)))
    emitter.emit_line('}')

    return func_name
示例#23
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def generate_property_setter(cl: ClassIR, attr: str, arg_type: RType,
                             func_ir: FuncIR, emitter: Emitter) -> None:

    emitter.emit_line('static int')
    emitter.emit_line('{}({} *self, PyObject *value, void *closure)'.format(
        setter_name(cl, attr, emitter.names), cl.struct_name(emitter.names)))
    emitter.emit_line('{')
    if arg_type.is_unboxed:
        emitter.emit_unbox('value',
                           'tmp',
                           arg_type,
                           custom_failure='return -1;',
                           declare_dest=True)
        emitter.emit_line('{}{}((PyObject *) self, tmp);'.format(
            NATIVE_PREFIX, func_ir.cname(emitter.names)))
    else:
        emitter.emit_line('{}{}((PyObject *) self, value);'.format(
            NATIVE_PREFIX, func_ir.cname(emitter.names)))
    emitter.emit_line('return 0;')
    emitter.emit_line('}')
示例#24
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def generate_getter(cl: ClassIR, attr: str, rtype: RType,
                    emitter: Emitter) -> None:
    attr_field = emitter.attr(attr)
    emitter.emit_line('static PyObject *')
    emitter.emit_line('{}({} *self, void *closure)'.format(
        getter_name(cl, attr, emitter.names), cl.struct_name(emitter.names)))
    emitter.emit_line('{')
    emit_undefined_check(rtype, emitter, attr_field, '==')
    emitter.emit_line('PyErr_SetString(PyExc_AttributeError,')
    emitter.emit_line('    "attribute {} of {} undefined");'.format(
        repr(attr), repr(cl.name)))
    emitter.emit_line('return NULL;')
    emitter.emit_line('}')
    emitter.emit_inc_ref('self->{}'.format(attr_field), rtype)
    emitter.emit_box('self->{}'.format(attr_field),
                     'retval',
                     rtype,
                     declare_dest=True)
    emitter.emit_line('return retval;')
    emitter.emit_line('}')
示例#25
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def generate_hash_wrapper(cl: ClassIR, fn: FuncIR, emitter: Emitter) -> str:
    """Generates a wrapper for native __hash__ methods."""
    name = '{}{}{}'.format(DUNDER_PREFIX, fn.name, cl.name_prefix(emitter.names))
    emitter.emit_line('static Py_ssize_t {name}(PyObject *self) {{'.format(
        name=name
    ))
    emitter.emit_line('{}retval = {}{}{}(self);'.format(emitter.ctype_spaced(fn.ret_type),
                                                        emitter.get_group_prefix(fn.decl),
                                                        NATIVE_PREFIX,
                                                        fn.cname(emitter.names)))
    emitter.emit_error_check('retval', fn.ret_type, 'return -1;')
    if is_int_rprimitive(fn.ret_type):
        emitter.emit_line('Py_ssize_t val = CPyTagged_AsSsize_t(retval);')
    else:
        emitter.emit_line('Py_ssize_t val = PyLong_AsSsize_t(retval);')
    emitter.emit_dec_ref('retval', fn.ret_type)
    emitter.emit_line('if (PyErr_Occurred()) return -1;')
    # We can't return -1 from a hash function..
    emitter.emit_line('if (val == -1) return -2;')
    emitter.emit_line('return val;')
    emitter.emit_line('}')

    return name
示例#26
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 def setUp(self) -> None:
     self.inst_a = RInstance(ClassIR('A', '__main__'))
     self.inst_b = RInstance(ClassIR('B', '__main__'))
示例#27
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def generate_class(cl: ClassIR, module: str, emitter: Emitter) -> None:
    """Generate C code for a class.

    This is the main entry point to the module.
    """
    name = cl.name
    name_prefix = cl.name_prefix(emitter.names)

    setup_name = '{}_setup'.format(name_prefix)
    new_name = '{}_new'.format(name_prefix)
    members_name = '{}_members'.format(name_prefix)
    getseters_name = '{}_getseters'.format(name_prefix)
    vtable_name = '{}_vtable'.format(name_prefix)
    traverse_name = '{}_traverse'.format(name_prefix)
    clear_name = '{}_clear'.format(name_prefix)
    dealloc_name = '{}_dealloc'.format(name_prefix)
    methods_name = '{}_methods'.format(name_prefix)
    vtable_setup_name = '{}_trait_vtable_setup'.format(name_prefix)

    fields = OrderedDict()  # type: Dict[str, str]
    fields['tp_name'] = '"{}"'.format(name)

    generate_full = not cl.is_trait and not cl.builtin_base
    needs_getseters = not cl.is_generated

    if generate_full:
        fields['tp_new'] = new_name
        fields['tp_dealloc'] = '(destructor){}_dealloc'.format(name_prefix)
        fields['tp_traverse'] = '(traverseproc){}_traverse'.format(name_prefix)
        fields['tp_clear'] = '(inquiry){}_clear'.format(name_prefix)
    if needs_getseters:
        fields['tp_getset'] = getseters_name
    fields['tp_methods'] = methods_name

    def emit_line() -> None:
        emitter.emit_line()

    emit_line()

    # If the class has a method to initialize default attribute
    # values, we need to call it during initialization.
    defaults_fn = cl.get_method('__mypyc_defaults_setup')

    # If there is a __init__ method, we'll use it in the native constructor.
    init_fn = cl.get_method('__init__')

    # Fill out slots in the type object from dunder methods.
    fields.update(generate_slots(cl, SLOT_DEFS, emitter))

    # Fill out dunder methods that live in tables hanging off the side.
    for table_name, type, slot_defs in SIDE_TABLES:
        slots = generate_slots(cl, slot_defs, emitter)
        if slots:
            table_struct_name = generate_side_table_for_class(
                cl, table_name, type, slots, emitter)
            fields['tp_{}'.format(table_name)] = '&{}'.format(
                table_struct_name)

    richcompare_name = generate_richcompare_wrapper(cl, emitter)
    if richcompare_name:
        fields['tp_richcompare'] = richcompare_name

    # If the class inherits from python, make space for a __dict__
    struct_name = cl.struct_name(emitter.names)
    if cl.builtin_base:
        base_size = 'sizeof({})'.format(cl.builtin_base)
    elif cl.is_trait:
        base_size = 'sizeof(PyObject)'
    else:
        base_size = 'sizeof({})'.format(struct_name)
    # Since our types aren't allocated using type() we need to
    # populate these fields ourselves if we want them to have correct
    # values. PyType_Ready will inherit the offsets from tp_base but
    # that isn't what we want.

    # XXX: there is no reason for the __weakref__ stuff to be mixed up with __dict__
    if cl.has_dict:
        # __dict__ lives right after the struct and __weakref__ lives right after that
        # TODO: They should get members in the struct instead of doing this nonsense.
        weak_offset = '{} + sizeof(PyObject *)'.format(base_size)
        emitter.emit_lines(
            'PyMemberDef {}[] = {{'.format(members_name),
            '{{"__dict__", T_OBJECT_EX, {}, 0, NULL}},'.format(base_size),
            '{{"__weakref__", T_OBJECT_EX, {}, 0, NULL}},'.format(weak_offset),
            '{0}',
            '};',
        )

        fields['tp_members'] = members_name
        fields['tp_basicsize'] = '{} + 2*sizeof(PyObject *)'.format(base_size)
        fields['tp_dictoffset'] = base_size
        fields['tp_weaklistoffset'] = weak_offset
    else:
        fields['tp_basicsize'] = base_size

    if generate_full:
        # Declare setup method that allocates and initializes an object. type is the
        # type of the class being initialized, which could be another class if there
        # is an interpreted subclass.
        emitter.emit_line(
            'static PyObject *{}(PyTypeObject *type);'.format(setup_name))
        assert cl.ctor is not None
        emitter.emit_line(native_function_header(cl.ctor, emitter) + ';')

        emit_line()
        generate_new_for_class(cl, new_name, vtable_name, setup_name, emitter)
        emit_line()
        generate_traverse_for_class(cl, traverse_name, emitter)
        emit_line()
        generate_clear_for_class(cl, clear_name, emitter)
        emit_line()
        generate_dealloc_for_class(cl, dealloc_name, clear_name, emitter)
        emit_line()
        generate_native_getters_and_setters(cl, emitter)

        if cl.allow_interpreted_subclasses:
            shadow_vtable_name = generate_vtables(
                cl,
                vtable_setup_name + "_shadow",
                vtable_name + "_shadow",
                emitter,
                shadow=True)  # type: Optional[str]
            emit_line()
        else:
            shadow_vtable_name = None
        vtable_name = generate_vtables(cl,
                                       vtable_setup_name,
                                       vtable_name,
                                       emitter,
                                       shadow=False)
        emit_line()
    if needs_getseters:
        generate_getseter_declarations(cl, emitter)
        emit_line()
        generate_getseters_table(cl, getseters_name, emitter)
        emit_line()
    generate_methods_table(cl, methods_name, emitter)
    emit_line()

    flags = [
        'Py_TPFLAGS_DEFAULT', 'Py_TPFLAGS_HEAPTYPE', 'Py_TPFLAGS_BASETYPE'
    ]
    if generate_full:
        flags.append('Py_TPFLAGS_HAVE_GC')
    fields['tp_flags'] = ' | '.join(flags)

    emitter.emit_line("static PyTypeObject {}_template_ = {{".format(
        emitter.type_struct_name(cl)))
    emitter.emit_line("PyVarObject_HEAD_INIT(NULL, 0)")
    for field, value in fields.items():
        emitter.emit_line(".{} = {},".format(field, value))
    emitter.emit_line("};")
    emitter.emit_line(
        "static PyTypeObject *{t}_template = &{t}_template_;".format(
            t=emitter.type_struct_name(cl)))

    emitter.emit_line()
    if generate_full:
        generate_setup_for_class(cl, setup_name, defaults_fn, vtable_name,
                                 shadow_vtable_name, emitter)
        emitter.emit_line()
        generate_constructor_for_class(cl, cl.ctor, init_fn, setup_name,
                                       vtable_name, emitter)
        emitter.emit_line()
    if needs_getseters:
        generate_getseters(cl, emitter)
示例#28
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 def trait_vtable_name(trait: ClassIR) -> str:
     return '{}_{}_trait_vtable{}'.format(base.name_prefix(emitter.names),
                                          trait.name_prefix(emitter.names),
                                          '_shadow' if shadow else '')