Example #1
0
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('}')
Example #2
0
def generate_wrapper_core(fn: FuncIR, emitter: Emitter,
                          optional_args: Optional[List[RuntimeArg]] = None,
                          arg_names: Optional[List[str]] = None,
                          cleanups: Optional[List[str]] = None,
                          traceback_code: Optional[str] = None) -> None:
    """Generates the core part of a wrapper function for a native function.
    This expects each argument as a PyObject * named obj_{arg} as a precondition.
    It converts the PyObject *s to the necessary types, checking and unboxing if necessary,
    makes the call, then boxes the result if necessary and returns it.
    """

    optional_args = optional_args or []
    cleanups = cleanups or []
    use_goto = bool(cleanups or traceback_code)
    error_code = 'return NULL;' if not use_goto else 'goto fail;'

    arg_names = arg_names or [arg.name for arg in fn.args]
    for arg_name, arg in zip(arg_names, fn.args):
        # Suppress the argument check for *args/**kwargs, since we know it must be right.
        typ = arg.type if arg.kind not in (ARG_STAR, ARG_STAR2) else object_rprimitive
        generate_arg_check(arg_name, typ, emitter, error_code, arg in optional_args)
    native_args = ', '.join('arg_{}'.format(arg) for arg in arg_names)
    if fn.ret_type.is_unboxed or use_goto:
        # TODO: The Py_RETURN macros return the correct PyObject * with reference count handling.
        #       Are they relevant?
        emitter.emit_line('{}retval = {}{}({});'.format(emitter.ctype_spaced(fn.ret_type),
                                                        NATIVE_PREFIX,
                                                        fn.cname(emitter.names),
                                                        native_args))
        emitter.emit_lines(*cleanups)
        if fn.ret_type.is_unboxed:
            emitter.emit_error_check('retval', fn.ret_type, 'return NULL;')
            emitter.emit_box('retval', 'retbox', fn.ret_type, declare_dest=True)

        emitter.emit_line('return {};'.format('retbox' if fn.ret_type.is_unboxed else 'retval'))
    else:
        emitter.emit_line('return {}{}({});'.format(NATIVE_PREFIX,
                                                    fn.cname(emitter.names),
                                                    native_args))
        # TODO: Tracebacks?

    if use_goto:
        emitter.emit_label('fail')
        emitter.emit_lines(*cleanups)
        if traceback_code:
            emitter.emit_lines(traceback_code)
        emitter.emit_lines('return NULL;')
Example #3
0
def generate_function_declaration(fn: FuncIR, emitter: Emitter) -> None:
    emitter.context.declarations[emitter.native_function_name(
        fn.decl)] = HeaderDeclaration('{};'.format(
            native_function_header(fn.decl, emitter)),
                                      needs_export=True)
    if fn.name != TOP_LEVEL_NAME:
        emitter.context.declarations[
            PREFIX + fn.cname(emitter.names)] = HeaderDeclaration('{};'.format(
                wrapper_function_header(fn, emitter.names)))
Example #4
0
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('}')
Example #5
0
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
Example #6
0
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
Example #7
0
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
Example #8
0
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
Example #9
0
def wrapper_slot(cl: ClassIR, fn: FuncIR, emitter: Emitter) -> str:
    return '{}{}'.format(PREFIX, fn.cname(emitter.names))
Example #10
0
def native_slot(cl: ClassIR, fn: FuncIR, emitter: Emitter) -> str:
    return '{}{}'.format(NATIVE_PREFIX, fn.cname(emitter.names))
Example #11
0
def wrapper_function_header(fn: FuncIR, names: NameGenerator) -> str:
    return 'PyObject *{prefix}{name}(PyObject *self, PyObject *args, PyObject *kw)'.format(
        prefix=PREFIX,
        name=fn.cname(names))