Exemple #1
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def transform_return_stmt(builder: IRBuilder, stmt: ReturnStmt) -> None:
    if stmt.expr:
        retval = builder.accept(stmt.expr)
    else:
        retval = builder.builder.none()
    retval = builder.coerce(retval, builder.ret_types[-1], stmt.line)
    builder.nonlocal_control[-1].gen_return(builder, retval, stmt.line)
Exemple #2
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def transform_conditional_expr(builder: IRBuilder,
                               expr: ConditionalExpr) -> Value:
    if_body, else_body, next = BasicBlock(), BasicBlock(), BasicBlock()

    builder.process_conditional(expr.cond, if_body, else_body)
    expr_type = builder.node_type(expr)
    # Having actual Phi nodes would be really nice here!
    target = builder.alloc_temp(expr_type)

    builder.activate_block(if_body)
    true_value = builder.accept(expr.if_expr)
    true_value = builder.coerce(true_value, expr_type, expr.line)
    builder.add(Assign(target, true_value))
    builder.goto(next)

    builder.activate_block(else_body)
    false_value = builder.accept(expr.else_expr)
    false_value = builder.coerce(false_value, expr_type, expr.line)
    builder.add(Assign(target, false_value))
    builder.goto(next)

    builder.activate_block(next)

    return target
Exemple #3
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def transform_tuple_expr(builder: IRBuilder, expr: TupleExpr) -> Value:
    if any(isinstance(item, StarExpr) for item in expr.items):
        # create a tuple of unknown length
        return _visit_tuple_display(builder, expr)

    # create a tuple of fixed length (RTuple)
    tuple_type = builder.node_type(expr)
    # When handling NamedTuple et. al we might not have proper type info,
    # so make some up if we need it.
    types = (tuple_type.types if isinstance(tuple_type, RTuple) else
             [object_rprimitive] * len(expr.items))

    items = []
    for item_expr, item_type in zip(expr.items, types):
        reg = builder.accept(item_expr)
        items.append(builder.coerce(reg, item_type, item_expr.line))
    return builder.add(TupleSet(items, expr.line))
Exemple #4
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def gen_glue_ne_method(builder: IRBuilder, cls: ClassIR, line: int) -> FuncIR:
    """Generate a __ne__ method from a __eq__ method. """
    builder.enter()

    rt_args = (RuntimeArg("self", RInstance(cls)), RuntimeArg("rhs", object_rprimitive))

    # The environment operates on Vars, so we make some up
    fake_vars = [(Var(arg.name), arg.type) for arg in rt_args]
    args = [
        builder.read(
            builder.environment.add_local_reg(
                var, type, is_arg=True
            ),
            line
        )
        for var, type in fake_vars
    ]  # type: List[Value]
    builder.ret_types[-1] = object_rprimitive

    # If __eq__ returns NotImplemented, then __ne__ should also
    not_implemented_block, regular_block = BasicBlock(), BasicBlock()
    eqval = builder.add(MethodCall(args[0], '__eq__', [args[1]], line))
    not_implemented = builder.primitive_op(not_implemented_op, [], line)
    builder.add(Branch(
        builder.binary_op(eqval, not_implemented, 'is', line),
        not_implemented_block,
        regular_block,
        Branch.BOOL_EXPR))

    builder.activate_block(regular_block)
    retval = builder.coerce(
        builder.unary_op(eqval, 'not', line), object_rprimitive, line
    )
    builder.add(Return(retval))

    builder.activate_block(not_implemented_block)
    builder.add(Return(not_implemented))

    blocks, env, ret_type, _ = builder.leave()
    return FuncIR(
        FuncDecl('__ne__', cls.name, builder.module_name,
                 FuncSignature(rt_args, ret_type)),
        blocks, env)
Exemple #5
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def translate_cast_expr(builder: IRBuilder, expr: CastExpr) -> Value:
    src = builder.accept(expr.expr)
    target_type = builder.type_to_rtype(expr.type)
    return builder.coerce(src, target_type, expr.line)
Exemple #6
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def generate_attr_defaults(builder: IRBuilder, cdef: ClassDef) -> None:
    """Generate an initialization method for default attr values (from class vars)"""
    cls = builder.mapper.type_to_ir[cdef.info]
    if cls.builtin_base:
        return

    # Pull out all assignments in classes in the mro so we can initialize them
    # TODO: Support nested statements
    default_assignments = []
    for info in reversed(cdef.info.mro):
        if info not in builder.mapper.type_to_ir:
            continue
        for stmt in info.defn.defs.body:
            if (isinstance(stmt, AssignmentStmt)
                    and isinstance(stmt.lvalues[0], NameExpr)
                    and not is_class_var(stmt.lvalues[0])
                    and not isinstance(stmt.rvalue, TempNode)):
                if stmt.lvalues[0].name == '__slots__':
                    continue

                # Skip type annotated assignments in dataclasses
                if is_dataclass(cdef) and stmt.type:
                    continue

                default_assignments.append(stmt)

    if not default_assignments:
        return

    builder.enter()
    builder.ret_types[-1] = bool_rprimitive

    rt_args = (RuntimeArg(SELF_NAME, RInstance(cls)),)
    self_var = builder.read(add_self_to_env(builder.environment, cls), -1)

    for stmt in default_assignments:
        lvalue = stmt.lvalues[0]
        assert isinstance(lvalue, NameExpr)
        if not stmt.is_final_def and not is_constant(stmt.rvalue):
            builder.warning('Unsupported default attribute value', stmt.rvalue.line)

        # If the attribute is initialized to None and type isn't optional,
        # don't initialize it to anything.
        attr_type = cls.attr_type(lvalue.name)
        if isinstance(stmt.rvalue, RefExpr) and stmt.rvalue.fullname == 'builtins.None':
            if (not is_optional_type(attr_type) and not is_object_rprimitive(attr_type)
                    and not is_none_rprimitive(attr_type)):
                continue
        val = builder.coerce(builder.accept(stmt.rvalue), attr_type, stmt.line)
        builder.add(SetAttr(self_var, lvalue.name, val, -1))

    builder.add(Return(builder.primitive_op(true_op, [], -1)))

    blocks, env, ret_type, _ = builder.leave()
    ir = FuncIR(
        FuncDecl('__mypyc_defaults_setup',
                 cls.name, builder.module_name,
                 FuncSignature(rt_args, ret_type)),
        blocks, env)
    builder.functions.append(ir)
    cls.methods[ir.name] = ir