1068 lines
38 KiB
Python
1068 lines
38 KiB
Python
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"""Transform mypy expression ASTs to mypyc IR (Intermediate Representation).
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The top-level AST transformation logic is implemented in mypyc.irbuild.visitor
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and mypyc.irbuild.builder.
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"""
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from __future__ import annotations
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import math
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from typing import Callable, Sequence
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from mypy.nodes import (
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ARG_POS,
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LDEF,
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AssertTypeExpr,
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AssignmentExpr,
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BytesExpr,
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CallExpr,
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CastExpr,
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ComparisonExpr,
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ComplexExpr,
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ConditionalExpr,
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DictExpr,
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DictionaryComprehension,
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EllipsisExpr,
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Expression,
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FloatExpr,
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GeneratorExpr,
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IndexExpr,
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IntExpr,
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ListComprehension,
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ListExpr,
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MemberExpr,
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MypyFile,
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NameExpr,
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OpExpr,
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RefExpr,
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SetComprehension,
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SetExpr,
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SliceExpr,
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StarExpr,
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StrExpr,
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SuperExpr,
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TupleExpr,
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TypeApplication,
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TypeInfo,
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UnaryExpr,
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Var,
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)
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from mypy.types import Instance, ProperType, TupleType, TypeType, get_proper_type
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from mypyc.common import MAX_SHORT_INT
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from mypyc.ir.class_ir import ClassIR
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from mypyc.ir.func_ir import FUNC_CLASSMETHOD, FUNC_STATICMETHOD
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from mypyc.ir.ops import (
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Assign,
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BasicBlock,
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ComparisonOp,
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Integer,
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LoadAddress,
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LoadLiteral,
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RaiseStandardError,
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Register,
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TupleGet,
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TupleSet,
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Value,
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)
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from mypyc.ir.rtypes import (
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RTuple,
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bool_rprimitive,
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int_rprimitive,
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is_fixed_width_rtype,
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is_int_rprimitive,
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is_list_rprimitive,
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is_none_rprimitive,
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object_rprimitive,
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set_rprimitive,
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)
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from mypyc.irbuild.ast_helpers import is_borrow_friendly_expr, process_conditional
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from mypyc.irbuild.builder import IRBuilder, int_borrow_friendly_op
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from mypyc.irbuild.constant_fold import constant_fold_expr
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from mypyc.irbuild.for_helpers import (
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comprehension_helper,
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translate_list_comprehension,
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translate_set_comprehension,
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)
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from mypyc.irbuild.format_str_tokenizer import (
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convert_format_expr_to_bytes,
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convert_format_expr_to_str,
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join_formatted_bytes,
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join_formatted_strings,
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tokenizer_printf_style,
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)
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from mypyc.irbuild.specialize import apply_function_specialization, apply_method_specialization
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from mypyc.primitives.bytes_ops import bytes_slice_op
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from mypyc.primitives.dict_ops import dict_get_item_op, dict_new_op, dict_set_item_op
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from mypyc.primitives.generic_ops import iter_op
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from mypyc.primitives.int_ops import int_comparison_op_mapping
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from mypyc.primitives.list_ops import list_append_op, list_extend_op, list_slice_op
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from mypyc.primitives.misc_ops import ellipsis_op, get_module_dict_op, new_slice_op, type_op
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from mypyc.primitives.registry import CFunctionDescription, builtin_names
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from mypyc.primitives.set_ops import set_add_op, set_in_op, set_update_op
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from mypyc.primitives.str_ops import str_slice_op
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from mypyc.primitives.tuple_ops import list_tuple_op, tuple_slice_op
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# Name and attribute references
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def transform_name_expr(builder: IRBuilder, expr: NameExpr) -> Value:
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if expr.node is None:
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builder.add(
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RaiseStandardError(
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RaiseStandardError.RUNTIME_ERROR,
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"mypyc internal error: should be unreachable",
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expr.line,
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)
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)
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return builder.none()
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fullname = expr.node.fullname
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if fullname in builtin_names:
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typ, src = builtin_names[fullname]
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return builder.add(LoadAddress(typ, src, expr.line))
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# special cases
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if fullname == "builtins.None":
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return builder.none()
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if fullname == "builtins.True":
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return builder.true()
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if fullname == "builtins.False":
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return builder.false()
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math_literal = transform_math_literal(builder, fullname)
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if math_literal is not None:
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return math_literal
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if isinstance(expr.node, Var) and expr.node.is_final:
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value = builder.emit_load_final(
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expr.node,
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fullname,
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expr.name,
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builder.is_native_ref_expr(expr),
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builder.types[expr],
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expr.line,
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)
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if value is not None:
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return value
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if isinstance(expr.node, MypyFile) and expr.node.fullname in builder.imports:
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return builder.load_module(expr.node.fullname)
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# If the expression is locally defined, then read the result from the corresponding
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# assignment target and return it. Otherwise if the expression is a global, load it from
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# the globals dictionary.
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# Except for imports, that currently always happens in the global namespace.
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if expr.kind == LDEF and not (isinstance(expr.node, Var) and expr.node.is_suppressed_import):
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# Try to detect and error when we hit the irritating mypy bug
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# where a local variable is cast to None. (#5423)
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if (
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isinstance(expr.node, Var)
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and is_none_rprimitive(builder.node_type(expr))
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and expr.node.is_inferred
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):
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builder.error(
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'Local variable "{}" has inferred type None; add an annotation'.format(
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expr.node.name
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),
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expr.node.line,
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)
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# TODO: Behavior currently only defined for Var, FuncDef and MypyFile node types.
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if isinstance(expr.node, MypyFile):
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# Load reference to a module imported inside function from
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# the modules dictionary. It would be closer to Python
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# semantics to access modules imported inside functions
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# via local variables, but this is tricky since the mypy
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# AST doesn't include a Var node for the module. We
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# instead load the module separately on each access.
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mod_dict = builder.call_c(get_module_dict_op, [], expr.line)
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obj = builder.call_c(
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dict_get_item_op, [mod_dict, builder.load_str(expr.node.fullname)], expr.line
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)
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return obj
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else:
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return builder.read(builder.get_assignment_target(expr, for_read=True), expr.line)
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return builder.load_global(expr)
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def transform_member_expr(builder: IRBuilder, expr: MemberExpr) -> Value:
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# First check if this is maybe a final attribute.
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final = builder.get_final_ref(expr)
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if final is not None:
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fullname, final_var, native = final
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value = builder.emit_load_final(
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final_var, fullname, final_var.name, native, builder.types[expr], expr.line
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)
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if value is not None:
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return value
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math_literal = transform_math_literal(builder, expr.fullname)
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if math_literal is not None:
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return math_literal
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if isinstance(expr.node, MypyFile) and expr.node.fullname in builder.imports:
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return builder.load_module(expr.node.fullname)
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can_borrow = builder.is_native_attr_ref(expr)
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obj = builder.accept(expr.expr, can_borrow=can_borrow)
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rtype = builder.node_type(expr)
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# Special case: for named tuples transform attribute access to faster index access.
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typ = get_proper_type(builder.types.get(expr.expr))
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if isinstance(typ, TupleType) and typ.partial_fallback.type.is_named_tuple:
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fields = typ.partial_fallback.type.metadata["namedtuple"]["fields"]
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if expr.name in fields:
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index = builder.builder.load_int(fields.index(expr.name))
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return builder.gen_method_call(obj, "__getitem__", [index], rtype, expr.line)
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check_instance_attribute_access_through_class(builder, expr, typ)
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borrow = can_borrow and builder.can_borrow
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return builder.builder.get_attr(obj, expr.name, rtype, expr.line, borrow=borrow)
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def check_instance_attribute_access_through_class(
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builder: IRBuilder, expr: MemberExpr, typ: ProperType | None
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) -> None:
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"""Report error if accessing an instance attribute through class object."""
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if isinstance(expr.expr, RefExpr):
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node = expr.expr.node
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if isinstance(typ, TypeType) and isinstance(typ.item, Instance):
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# TODO: Handle other item types
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node = typ.item.type
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if isinstance(node, TypeInfo):
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class_ir = builder.mapper.type_to_ir.get(node)
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if class_ir is not None and class_ir.is_ext_class:
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sym = node.get(expr.name)
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if (
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sym is not None
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and isinstance(sym.node, Var)
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and not sym.node.is_classvar
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and not sym.node.is_final
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):
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builder.error(
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'Cannot access instance attribute "{}" through class object'.format(
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expr.name
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),
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expr.line,
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)
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builder.note(
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'(Hint: Use "x: Final = ..." or "x: ClassVar = ..." to define '
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"a class attribute)",
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expr.line,
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)
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def transform_super_expr(builder: IRBuilder, o: SuperExpr) -> Value:
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# warning(builder, 'can not optimize super() expression', o.line)
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sup_val = builder.load_module_attr_by_fullname("builtins.super", o.line)
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if o.call.args:
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args = [builder.accept(arg) for arg in o.call.args]
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else:
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assert o.info is not None
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typ = builder.load_native_type_object(o.info.fullname)
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ir = builder.mapper.type_to_ir[o.info]
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iter_env = iter(builder.builder.args)
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# Grab first argument
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vself: Value = next(iter_env)
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if builder.fn_info.is_generator:
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# grab sixth argument (see comment in translate_super_method_call)
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self_targ = list(builder.symtables[-1].values())[6]
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vself = builder.read(self_targ, builder.fn_info.fitem.line)
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elif not ir.is_ext_class:
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vself = next(iter_env) # second argument is self if non_extension class
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args = [typ, vself]
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res = builder.py_call(sup_val, args, o.line)
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return builder.py_get_attr(res, o.name, o.line)
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# Calls
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def transform_call_expr(builder: IRBuilder, expr: CallExpr) -> Value:
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callee = expr.callee
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if isinstance(expr.analyzed, CastExpr):
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return translate_cast_expr(builder, expr.analyzed)
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elif isinstance(expr.analyzed, AssertTypeExpr):
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# Compile to a no-op.
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return builder.accept(expr.analyzed.expr)
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elif (
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isinstance(callee, (NameExpr, MemberExpr))
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and isinstance(callee.node, TypeInfo)
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and callee.node.is_newtype
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):
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# A call to a NewType type is a no-op at runtime.
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return builder.accept(expr.args[0])
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if isinstance(callee, IndexExpr) and isinstance(callee.analyzed, TypeApplication):
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callee = callee.analyzed.expr # Unwrap type application
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if isinstance(callee, MemberExpr):
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if isinstance(callee.expr, RefExpr) and isinstance(callee.expr.node, MypyFile):
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# Call a module-level function, not a method.
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return translate_call(builder, expr, callee)
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return apply_method_specialization(builder, expr, callee) or translate_method_call(
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builder, expr, callee
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)
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elif isinstance(callee, SuperExpr):
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return translate_super_method_call(builder, expr, callee)
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else:
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return translate_call(builder, expr, callee)
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def translate_call(builder: IRBuilder, expr: CallExpr, callee: Expression) -> Value:
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# The common case of calls is refexprs
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if isinstance(callee, RefExpr):
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return apply_function_specialization(builder, expr, callee) or translate_refexpr_call(
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builder, expr, callee
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)
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function = builder.accept(callee)
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args = [builder.accept(arg) for arg in expr.args]
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return builder.py_call(
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function, args, expr.line, arg_kinds=expr.arg_kinds, arg_names=expr.arg_names
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)
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def translate_refexpr_call(builder: IRBuilder, expr: CallExpr, callee: RefExpr) -> Value:
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"""Translate a non-method call."""
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# Gen the argument values
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arg_values = [builder.accept(arg) for arg in expr.args]
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return builder.call_refexpr_with_args(expr, callee, arg_values)
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|
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|
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def translate_method_call(builder: IRBuilder, expr: CallExpr, callee: MemberExpr) -> Value:
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"""Generate IR for an arbitrary call of form e.m(...).
|
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|
|
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This can also deal with calls to module-level functions.
|
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"""
|
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if builder.is_native_ref_expr(callee):
|
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# Call to module-level native function or such
|
||
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return translate_call(builder, expr, callee)
|
||
|
elif (
|
||
|
isinstance(callee.expr, RefExpr)
|
||
|
and isinstance(callee.expr.node, TypeInfo)
|
||
|
and callee.expr.node in builder.mapper.type_to_ir
|
||
|
and builder.mapper.type_to_ir[callee.expr.node].has_method(callee.name)
|
||
|
):
|
||
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# Call a method via the *class*
|
||
|
assert isinstance(callee.expr.node, TypeInfo)
|
||
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ir = builder.mapper.type_to_ir[callee.expr.node]
|
||
|
return call_classmethod(builder, ir, expr, callee)
|
||
|
elif builder.is_module_member_expr(callee):
|
||
|
# Fall back to a PyCall for non-native module calls
|
||
|
function = builder.accept(callee)
|
||
|
args = [builder.accept(arg) for arg in expr.args]
|
||
|
return builder.py_call(
|
||
|
function, args, expr.line, arg_kinds=expr.arg_kinds, arg_names=expr.arg_names
|
||
|
)
|
||
|
else:
|
||
|
if isinstance(callee.expr, RefExpr):
|
||
|
node = callee.expr.node
|
||
|
if isinstance(node, Var) and node.is_cls:
|
||
|
typ = get_proper_type(node.type)
|
||
|
if isinstance(typ, TypeType) and isinstance(typ.item, Instance):
|
||
|
class_ir = builder.mapper.type_to_ir.get(typ.item.type)
|
||
|
if class_ir and class_ir.is_ext_class and class_ir.has_no_subclasses():
|
||
|
# Call a native classmethod via cls that can be statically bound,
|
||
|
# since the class has no subclasses.
|
||
|
return call_classmethod(builder, class_ir, expr, callee)
|
||
|
|
||
|
receiver_typ = builder.node_type(callee.expr)
|
||
|
|
||
|
# If there is a specializer for this method name/type, try calling it.
|
||
|
# We would return the first successful one.
|
||
|
val = apply_method_specialization(builder, expr, callee, receiver_typ)
|
||
|
if val is not None:
|
||
|
return val
|
||
|
|
||
|
obj = builder.accept(callee.expr)
|
||
|
args = [builder.accept(arg) for arg in expr.args]
|
||
|
return builder.gen_method_call(
|
||
|
obj,
|
||
|
callee.name,
|
||
|
args,
|
||
|
builder.node_type(expr),
|
||
|
expr.line,
|
||
|
expr.arg_kinds,
|
||
|
expr.arg_names,
|
||
|
)
|
||
|
|
||
|
|
||
|
def call_classmethod(builder: IRBuilder, ir: ClassIR, expr: CallExpr, callee: MemberExpr) -> Value:
|
||
|
decl = ir.method_decl(callee.name)
|
||
|
args = []
|
||
|
arg_kinds, arg_names = expr.arg_kinds.copy(), expr.arg_names.copy()
|
||
|
# Add the class argument for class methods in extension classes
|
||
|
if decl.kind == FUNC_CLASSMETHOD and ir.is_ext_class:
|
||
|
args.append(builder.load_native_type_object(ir.fullname))
|
||
|
arg_kinds.insert(0, ARG_POS)
|
||
|
arg_names.insert(0, None)
|
||
|
args += [builder.accept(arg) for arg in expr.args]
|
||
|
|
||
|
if ir.is_ext_class:
|
||
|
return builder.builder.call(decl, args, arg_kinds, arg_names, expr.line)
|
||
|
else:
|
||
|
obj = builder.accept(callee.expr)
|
||
|
return builder.gen_method_call(
|
||
|
obj,
|
||
|
callee.name,
|
||
|
args,
|
||
|
builder.node_type(expr),
|
||
|
expr.line,
|
||
|
expr.arg_kinds,
|
||
|
expr.arg_names,
|
||
|
)
|
||
|
|
||
|
|
||
|
def translate_super_method_call(builder: IRBuilder, expr: CallExpr, callee: SuperExpr) -> Value:
|
||
|
if callee.info is None or (len(callee.call.args) != 0 and len(callee.call.args) != 2):
|
||
|
return translate_call(builder, expr, callee)
|
||
|
|
||
|
# We support two-argument super but only when it is super(CurrentClass, self)
|
||
|
# TODO: We could support it when it is a parent class in many cases?
|
||
|
if len(callee.call.args) == 2:
|
||
|
self_arg = callee.call.args[1]
|
||
|
if (
|
||
|
not isinstance(self_arg, NameExpr)
|
||
|
or not isinstance(self_arg.node, Var)
|
||
|
or not self_arg.node.is_self
|
||
|
):
|
||
|
return translate_call(builder, expr, callee)
|
||
|
|
||
|
typ_arg = callee.call.args[0]
|
||
|
if (
|
||
|
not isinstance(typ_arg, NameExpr)
|
||
|
or not isinstance(typ_arg.node, TypeInfo)
|
||
|
or callee.info is not typ_arg.node
|
||
|
):
|
||
|
return translate_call(builder, expr, callee)
|
||
|
|
||
|
ir = builder.mapper.type_to_ir[callee.info]
|
||
|
# Search for the method in the mro, skipping ourselves. We
|
||
|
# determine targets of super calls to native methods statically.
|
||
|
for base in ir.mro[1:]:
|
||
|
if callee.name in base.method_decls:
|
||
|
break
|
||
|
else:
|
||
|
if (
|
||
|
ir.is_ext_class
|
||
|
and ir.builtin_base is None
|
||
|
and not ir.inherits_python
|
||
|
and callee.name == "__init__"
|
||
|
and len(expr.args) == 0
|
||
|
):
|
||
|
# Call translates to object.__init__(self), which is a
|
||
|
# no-op, so omit the call.
|
||
|
return builder.none()
|
||
|
return translate_call(builder, expr, callee)
|
||
|
|
||
|
decl = base.method_decl(callee.name)
|
||
|
arg_values = [builder.accept(arg) for arg in expr.args]
|
||
|
arg_kinds, arg_names = expr.arg_kinds.copy(), expr.arg_names.copy()
|
||
|
|
||
|
if decl.kind != FUNC_STATICMETHOD:
|
||
|
# Grab first argument
|
||
|
vself: Value = builder.self()
|
||
|
if decl.kind == FUNC_CLASSMETHOD:
|
||
|
vself = builder.call_c(type_op, [vself], expr.line)
|
||
|
elif builder.fn_info.is_generator:
|
||
|
# For generator classes, the self target is the 6th value
|
||
|
# in the symbol table (which is an ordered dict). This is sort
|
||
|
# of ugly, but we can't search by name since the 'self' parameter
|
||
|
# could be named anything, and it doesn't get added to the
|
||
|
# environment indexes.
|
||
|
self_targ = list(builder.symtables[-1].values())[6]
|
||
|
vself = builder.read(self_targ, builder.fn_info.fitem.line)
|
||
|
arg_values.insert(0, vself)
|
||
|
arg_kinds.insert(0, ARG_POS)
|
||
|
arg_names.insert(0, None)
|
||
|
|
||
|
return builder.builder.call(decl, arg_values, arg_kinds, arg_names, expr.line)
|
||
|
|
||
|
|
||
|
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)
|
||
|
|
||
|
|
||
|
# Operators
|
||
|
|
||
|
|
||
|
def transform_unary_expr(builder: IRBuilder, expr: UnaryExpr) -> Value:
|
||
|
folded = try_constant_fold(builder, expr)
|
||
|
if folded:
|
||
|
return folded
|
||
|
|
||
|
return builder.unary_op(builder.accept(expr.expr), expr.op, expr.line)
|
||
|
|
||
|
|
||
|
def transform_op_expr(builder: IRBuilder, expr: OpExpr) -> Value:
|
||
|
if expr.op in ("and", "or"):
|
||
|
return builder.shortcircuit_expr(expr)
|
||
|
|
||
|
# Special case for string formatting
|
||
|
if expr.op == "%" and isinstance(expr.left, (StrExpr, BytesExpr)):
|
||
|
ret = translate_printf_style_formatting(builder, expr.left, expr.right)
|
||
|
if ret is not None:
|
||
|
return ret
|
||
|
|
||
|
folded = try_constant_fold(builder, expr)
|
||
|
if folded:
|
||
|
return folded
|
||
|
|
||
|
borrow_left = False
|
||
|
borrow_right = False
|
||
|
|
||
|
ltype = builder.node_type(expr.left)
|
||
|
rtype = builder.node_type(expr.right)
|
||
|
|
||
|
# Special case some int ops to allow borrowing operands.
|
||
|
if is_int_rprimitive(ltype) and is_int_rprimitive(rtype):
|
||
|
if expr.op == "//":
|
||
|
expr = try_optimize_int_floor_divide(expr)
|
||
|
if expr.op in int_borrow_friendly_op:
|
||
|
borrow_left = is_borrow_friendly_expr(builder, expr.right)
|
||
|
borrow_right = True
|
||
|
elif is_fixed_width_rtype(ltype) and is_fixed_width_rtype(rtype):
|
||
|
borrow_left = is_borrow_friendly_expr(builder, expr.right)
|
||
|
borrow_right = True
|
||
|
|
||
|
left = builder.accept(expr.left, can_borrow=borrow_left)
|
||
|
right = builder.accept(expr.right, can_borrow=borrow_right)
|
||
|
return builder.binary_op(left, right, expr.op, expr.line)
|
||
|
|
||
|
|
||
|
def try_optimize_int_floor_divide(expr: OpExpr) -> OpExpr:
|
||
|
"""Replace // with a power of two with a right shift, if possible."""
|
||
|
if not isinstance(expr.right, IntExpr):
|
||
|
return expr
|
||
|
divisor = expr.right.value
|
||
|
shift = divisor.bit_length() - 1
|
||
|
if 0 < shift < 28 and divisor == (1 << shift):
|
||
|
return OpExpr(">>", expr.left, IntExpr(shift))
|
||
|
return expr
|
||
|
|
||
|
|
||
|
def transform_index_expr(builder: IRBuilder, expr: IndexExpr) -> Value:
|
||
|
index = expr.index
|
||
|
base_type = builder.node_type(expr.base)
|
||
|
is_list = is_list_rprimitive(base_type)
|
||
|
can_borrow_base = is_list and is_borrow_friendly_expr(builder, index)
|
||
|
|
||
|
base = builder.accept(expr.base, can_borrow=can_borrow_base)
|
||
|
|
||
|
if isinstance(base.type, RTuple) and isinstance(index, IntExpr):
|
||
|
return builder.add(TupleGet(base, index.value, expr.line))
|
||
|
|
||
|
if isinstance(index, SliceExpr):
|
||
|
value = try_gen_slice_op(builder, base, index)
|
||
|
if value:
|
||
|
return value
|
||
|
|
||
|
index_reg = builder.accept(expr.index, can_borrow=is_list)
|
||
|
return builder.gen_method_call(
|
||
|
base, "__getitem__", [index_reg], builder.node_type(expr), expr.line
|
||
|
)
|
||
|
|
||
|
|
||
|
def try_constant_fold(builder: IRBuilder, expr: Expression) -> Value | None:
|
||
|
"""Return the constant value of an expression if possible.
|
||
|
|
||
|
Return None otherwise.
|
||
|
"""
|
||
|
value = constant_fold_expr(builder, expr)
|
||
|
if value is not None:
|
||
|
return builder.load_literal_value(value)
|
||
|
return None
|
||
|
|
||
|
|
||
|
def try_gen_slice_op(builder: IRBuilder, base: Value, index: SliceExpr) -> Value | None:
|
||
|
"""Generate specialized slice op for some index expressions.
|
||
|
|
||
|
Return None if a specialized op isn't available.
|
||
|
|
||
|
This supports obj[x:y], obj[:x], and obj[x:] for a few types.
|
||
|
"""
|
||
|
if index.stride:
|
||
|
# We can only handle the default stride of 1.
|
||
|
return None
|
||
|
|
||
|
if index.begin_index:
|
||
|
begin_type = builder.node_type(index.begin_index)
|
||
|
else:
|
||
|
begin_type = int_rprimitive
|
||
|
if index.end_index:
|
||
|
end_type = builder.node_type(index.end_index)
|
||
|
else:
|
||
|
end_type = int_rprimitive
|
||
|
|
||
|
# Both begin and end index must be int (or missing).
|
||
|
if is_int_rprimitive(begin_type) and is_int_rprimitive(end_type):
|
||
|
if index.begin_index:
|
||
|
begin = builder.accept(index.begin_index)
|
||
|
else:
|
||
|
begin = builder.load_int(0)
|
||
|
if index.end_index:
|
||
|
end = builder.accept(index.end_index)
|
||
|
else:
|
||
|
# Replace missing end index with the largest short integer
|
||
|
# (a sequence can't be longer).
|
||
|
end = builder.load_int(MAX_SHORT_INT)
|
||
|
candidates = [list_slice_op, tuple_slice_op, str_slice_op, bytes_slice_op]
|
||
|
return builder.builder.matching_call_c(candidates, [base, begin, end], index.line)
|
||
|
|
||
|
return None
|
||
|
|
||
|
|
||
|
def transform_conditional_expr(builder: IRBuilder, expr: ConditionalExpr) -> Value:
|
||
|
if_body, else_body, next_block = BasicBlock(), BasicBlock(), BasicBlock()
|
||
|
|
||
|
process_conditional(builder, expr.cond, if_body, else_body)
|
||
|
expr_type = builder.node_type(expr)
|
||
|
# Having actual Phi nodes would be really nice here!
|
||
|
target = Register(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_block)
|
||
|
|
||
|
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_block)
|
||
|
|
||
|
builder.activate_block(next_block)
|
||
|
|
||
|
return target
|
||
|
|
||
|
|
||
|
def set_literal_values(builder: IRBuilder, items: Sequence[Expression]) -> list[object] | None:
|
||
|
values: list[object] = []
|
||
|
for item in items:
|
||
|
const_value = constant_fold_expr(builder, item)
|
||
|
if const_value is not None:
|
||
|
values.append(const_value)
|
||
|
continue
|
||
|
|
||
|
if isinstance(item, RefExpr):
|
||
|
if item.fullname == "builtins.None":
|
||
|
values.append(None)
|
||
|
elif item.fullname == "builtins.True":
|
||
|
values.append(True)
|
||
|
elif item.fullname == "builtins.False":
|
||
|
values.append(False)
|
||
|
elif isinstance(item, TupleExpr):
|
||
|
tuple_values = set_literal_values(builder, item.items)
|
||
|
if tuple_values is not None:
|
||
|
values.append(tuple(tuple_values))
|
||
|
|
||
|
if len(values) != len(items):
|
||
|
# Bail if not all items can be converted into values.
|
||
|
return None
|
||
|
return values
|
||
|
|
||
|
|
||
|
def precompute_set_literal(builder: IRBuilder, s: SetExpr) -> Value | None:
|
||
|
"""Try to pre-compute a frozenset literal during module initialization.
|
||
|
|
||
|
Return None if it's not possible.
|
||
|
|
||
|
Supported items:
|
||
|
- Anything supported by irbuild.constant_fold.constant_fold_expr()
|
||
|
- None, True, and False
|
||
|
- Tuple literals with only items listed above
|
||
|
"""
|
||
|
values = set_literal_values(builder, s.items)
|
||
|
if values is not None:
|
||
|
return builder.add(LoadLiteral(frozenset(values), set_rprimitive))
|
||
|
|
||
|
return None
|
||
|
|
||
|
|
||
|
def transform_comparison_expr(builder: IRBuilder, e: ComparisonExpr) -> Value:
|
||
|
# x in (...)/[...]
|
||
|
# x not in (...)/[...]
|
||
|
first_op = e.operators[0]
|
||
|
if (
|
||
|
first_op in ["in", "not in"]
|
||
|
and len(e.operators) == 1
|
||
|
and isinstance(e.operands[1], (TupleExpr, ListExpr))
|
||
|
):
|
||
|
items = e.operands[1].items
|
||
|
n_items = len(items)
|
||
|
# x in y -> x == y[0] or ... or x == y[n]
|
||
|
# x not in y -> x != y[0] and ... and x != y[n]
|
||
|
# 16 is arbitrarily chosen to limit code size
|
||
|
if 1 < n_items < 16:
|
||
|
if e.operators[0] == "in":
|
||
|
bin_op = "or"
|
||
|
cmp_op = "=="
|
||
|
else:
|
||
|
bin_op = "and"
|
||
|
cmp_op = "!="
|
||
|
lhs = e.operands[0]
|
||
|
mypy_file = builder.graph["builtins"].tree
|
||
|
assert mypy_file is not None
|
||
|
info = mypy_file.names["bool"].node
|
||
|
assert isinstance(info, TypeInfo)
|
||
|
bool_type = Instance(info, [])
|
||
|
exprs = []
|
||
|
for item in items:
|
||
|
expr = ComparisonExpr([cmp_op], [lhs, item])
|
||
|
builder.types[expr] = bool_type
|
||
|
exprs.append(expr)
|
||
|
|
||
|
or_expr: Expression = exprs.pop(0)
|
||
|
for expr in exprs:
|
||
|
or_expr = OpExpr(bin_op, or_expr, expr)
|
||
|
builder.types[or_expr] = bool_type
|
||
|
return builder.accept(or_expr)
|
||
|
# x in [y]/(y) -> x == y
|
||
|
# x not in [y]/(y) -> x != y
|
||
|
elif n_items == 1:
|
||
|
if e.operators[0] == "in":
|
||
|
cmp_op = "=="
|
||
|
else:
|
||
|
cmp_op = "!="
|
||
|
e.operators = [cmp_op]
|
||
|
e.operands[1] = items[0]
|
||
|
# x in []/() -> False
|
||
|
# x not in []/() -> True
|
||
|
elif n_items == 0:
|
||
|
if e.operators[0] == "in":
|
||
|
return builder.false()
|
||
|
else:
|
||
|
return builder.true()
|
||
|
|
||
|
# x in {...}
|
||
|
# x not in {...}
|
||
|
if (
|
||
|
first_op in ("in", "not in")
|
||
|
and len(e.operators) == 1
|
||
|
and isinstance(e.operands[1], SetExpr)
|
||
|
):
|
||
|
set_literal = precompute_set_literal(builder, e.operands[1])
|
||
|
if set_literal is not None:
|
||
|
lhs = e.operands[0]
|
||
|
result = builder.builder.call_c(
|
||
|
set_in_op, [builder.accept(lhs), set_literal], e.line, bool_rprimitive
|
||
|
)
|
||
|
if first_op == "not in":
|
||
|
return builder.unary_op(result, "not", e.line)
|
||
|
return result
|
||
|
|
||
|
if len(e.operators) == 1:
|
||
|
# Special some common simple cases
|
||
|
if first_op in ("is", "is not"):
|
||
|
right_expr = e.operands[1]
|
||
|
if isinstance(right_expr, NameExpr) and right_expr.fullname == "builtins.None":
|
||
|
# Special case 'is None' / 'is not None'.
|
||
|
return translate_is_none(builder, e.operands[0], negated=first_op != "is")
|
||
|
left_expr = e.operands[0]
|
||
|
if is_int_rprimitive(builder.node_type(left_expr)):
|
||
|
right_expr = e.operands[1]
|
||
|
if is_int_rprimitive(builder.node_type(right_expr)):
|
||
|
if first_op in int_borrow_friendly_op:
|
||
|
borrow_left = is_borrow_friendly_expr(builder, right_expr)
|
||
|
left = builder.accept(left_expr, can_borrow=borrow_left)
|
||
|
right = builder.accept(right_expr, can_borrow=True)
|
||
|
return builder.compare_tagged(left, right, first_op, e.line)
|
||
|
|
||
|
# TODO: Don't produce an expression when used in conditional context
|
||
|
# All of the trickiness here is due to support for chained conditionals
|
||
|
# (`e1 < e2 > e3`, etc). `e1 < e2 > e3` is approximately equivalent to
|
||
|
# `e1 < e2 and e2 > e3` except that `e2` is only evaluated once.
|
||
|
expr_type = builder.node_type(e)
|
||
|
|
||
|
# go(i, prev) generates code for `ei opi e{i+1} op{i+1} ... en`,
|
||
|
# assuming that prev contains the value of `ei`.
|
||
|
def go(i: int, prev: Value) -> Value:
|
||
|
if i == len(e.operators) - 1:
|
||
|
return transform_basic_comparison(
|
||
|
builder, e.operators[i], prev, builder.accept(e.operands[i + 1]), e.line
|
||
|
)
|
||
|
|
||
|
next = builder.accept(e.operands[i + 1])
|
||
|
return builder.builder.shortcircuit_helper(
|
||
|
"and",
|
||
|
expr_type,
|
||
|
lambda: transform_basic_comparison(builder, e.operators[i], prev, next, e.line),
|
||
|
lambda: go(i + 1, next),
|
||
|
e.line,
|
||
|
)
|
||
|
|
||
|
return go(0, builder.accept(e.operands[0]))
|
||
|
|
||
|
|
||
|
def translate_is_none(builder: IRBuilder, expr: Expression, negated: bool) -> Value:
|
||
|
v = builder.accept(expr, can_borrow=True)
|
||
|
return builder.binary_op(v, builder.none_object(), "is not" if negated else "is", expr.line)
|
||
|
|
||
|
|
||
|
def transform_basic_comparison(
|
||
|
builder: IRBuilder, op: str, left: Value, right: Value, line: int
|
||
|
) -> Value:
|
||
|
if (
|
||
|
is_int_rprimitive(left.type)
|
||
|
and is_int_rprimitive(right.type)
|
||
|
and op in int_comparison_op_mapping
|
||
|
):
|
||
|
return builder.compare_tagged(left, right, op, line)
|
||
|
if is_fixed_width_rtype(left.type) and op in int_comparison_op_mapping:
|
||
|
if right.type == left.type:
|
||
|
if left.type.is_signed:
|
||
|
op_id = ComparisonOp.signed_ops[op]
|
||
|
else:
|
||
|
op_id = ComparisonOp.unsigned_ops[op]
|
||
|
return builder.builder.comparison_op(left, right, op_id, line)
|
||
|
elif isinstance(right, Integer):
|
||
|
if left.type.is_signed:
|
||
|
op_id = ComparisonOp.signed_ops[op]
|
||
|
else:
|
||
|
op_id = ComparisonOp.unsigned_ops[op]
|
||
|
return builder.builder.comparison_op(
|
||
|
left, builder.coerce(right, left.type, line), op_id, line
|
||
|
)
|
||
|
elif (
|
||
|
is_fixed_width_rtype(right.type)
|
||
|
and op in int_comparison_op_mapping
|
||
|
and isinstance(left, Integer)
|
||
|
):
|
||
|
if right.type.is_signed:
|
||
|
op_id = ComparisonOp.signed_ops[op]
|
||
|
else:
|
||
|
op_id = ComparisonOp.unsigned_ops[op]
|
||
|
return builder.builder.comparison_op(
|
||
|
builder.coerce(left, right.type, line), right, op_id, line
|
||
|
)
|
||
|
|
||
|
negate = False
|
||
|
if op == "is not":
|
||
|
op, negate = "is", True
|
||
|
elif op == "not in":
|
||
|
op, negate = "in", True
|
||
|
|
||
|
target = builder.binary_op(left, right, op, line)
|
||
|
|
||
|
if negate:
|
||
|
target = builder.unary_op(target, "not", line)
|
||
|
return target
|
||
|
|
||
|
|
||
|
def translate_printf_style_formatting(
|
||
|
builder: IRBuilder, format_expr: StrExpr | BytesExpr, rhs: Expression
|
||
|
) -> Value | None:
|
||
|
tokens = tokenizer_printf_style(format_expr.value)
|
||
|
if tokens is not None:
|
||
|
literals, format_ops = tokens
|
||
|
|
||
|
exprs = []
|
||
|
if isinstance(rhs, TupleExpr):
|
||
|
exprs = rhs.items
|
||
|
elif isinstance(rhs, Expression):
|
||
|
exprs.append(rhs)
|
||
|
|
||
|
if isinstance(format_expr, BytesExpr):
|
||
|
substitutions = convert_format_expr_to_bytes(
|
||
|
builder, format_ops, exprs, format_expr.line
|
||
|
)
|
||
|
if substitutions is not None:
|
||
|
return join_formatted_bytes(builder, literals, substitutions, format_expr.line)
|
||
|
else:
|
||
|
substitutions = convert_format_expr_to_str(
|
||
|
builder, format_ops, exprs, format_expr.line
|
||
|
)
|
||
|
if substitutions is not None:
|
||
|
return join_formatted_strings(builder, literals, substitutions, format_expr.line)
|
||
|
|
||
|
return None
|
||
|
|
||
|
|
||
|
# Literals
|
||
|
|
||
|
|
||
|
def transform_int_expr(builder: IRBuilder, expr: IntExpr) -> Value:
|
||
|
return builder.builder.load_int(expr.value)
|
||
|
|
||
|
|
||
|
def transform_float_expr(builder: IRBuilder, expr: FloatExpr) -> Value:
|
||
|
return builder.builder.load_float(expr.value)
|
||
|
|
||
|
|
||
|
def transform_complex_expr(builder: IRBuilder, expr: ComplexExpr) -> Value:
|
||
|
return builder.builder.load_complex(expr.value)
|
||
|
|
||
|
|
||
|
def transform_str_expr(builder: IRBuilder, expr: StrExpr) -> Value:
|
||
|
return builder.load_str(expr.value)
|
||
|
|
||
|
|
||
|
def transform_bytes_expr(builder: IRBuilder, expr: BytesExpr) -> Value:
|
||
|
return builder.load_bytes_from_str_literal(expr.value)
|
||
|
|
||
|
|
||
|
def transform_ellipsis(builder: IRBuilder, o: EllipsisExpr) -> Value:
|
||
|
return builder.add(LoadAddress(ellipsis_op.type, ellipsis_op.src, o.line))
|
||
|
|
||
|
|
||
|
# Display expressions
|
||
|
|
||
|
|
||
|
def transform_list_expr(builder: IRBuilder, expr: ListExpr) -> Value:
|
||
|
return _visit_list_display(builder, expr.items, expr.line)
|
||
|
|
||
|
|
||
|
def _visit_list_display(builder: IRBuilder, items: list[Expression], line: int) -> Value:
|
||
|
return _visit_display(
|
||
|
builder, items, builder.new_list_op, list_append_op, list_extend_op, line, True
|
||
|
)
|
||
|
|
||
|
|
||
|
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))
|
||
|
|
||
|
|
||
|
def _visit_tuple_display(builder: IRBuilder, expr: TupleExpr) -> Value:
|
||
|
"""Create a list, then turn it into a tuple."""
|
||
|
val_as_list = _visit_list_display(builder, expr.items, expr.line)
|
||
|
return builder.call_c(list_tuple_op, [val_as_list], expr.line)
|
||
|
|
||
|
|
||
|
def transform_dict_expr(builder: IRBuilder, expr: DictExpr) -> Value:
|
||
|
"""First accepts all keys and values, then makes a dict out of them."""
|
||
|
key_value_pairs = []
|
||
|
for key_expr, value_expr in expr.items:
|
||
|
key = builder.accept(key_expr) if key_expr is not None else None
|
||
|
value = builder.accept(value_expr)
|
||
|
key_value_pairs.append((key, value))
|
||
|
|
||
|
return builder.builder.make_dict(key_value_pairs, expr.line)
|
||
|
|
||
|
|
||
|
def transform_set_expr(builder: IRBuilder, expr: SetExpr) -> Value:
|
||
|
return _visit_display(
|
||
|
builder, expr.items, builder.new_set_op, set_add_op, set_update_op, expr.line, False
|
||
|
)
|
||
|
|
||
|
|
||
|
def _visit_display(
|
||
|
builder: IRBuilder,
|
||
|
items: list[Expression],
|
||
|
constructor_op: Callable[[list[Value], int], Value],
|
||
|
append_op: CFunctionDescription,
|
||
|
extend_op: CFunctionDescription,
|
||
|
line: int,
|
||
|
is_list: bool,
|
||
|
) -> Value:
|
||
|
accepted_items = []
|
||
|
for item in items:
|
||
|
if isinstance(item, StarExpr):
|
||
|
accepted_items.append((True, builder.accept(item.expr)))
|
||
|
else:
|
||
|
accepted_items.append((False, builder.accept(item)))
|
||
|
|
||
|
result: Value | None = None
|
||
|
initial_items = []
|
||
|
for starred, value in accepted_items:
|
||
|
if result is None and not starred and is_list:
|
||
|
initial_items.append(value)
|
||
|
continue
|
||
|
|
||
|
if result is None:
|
||
|
result = constructor_op(initial_items, line)
|
||
|
|
||
|
builder.call_c(extend_op if starred else append_op, [result, value], line)
|
||
|
|
||
|
if result is None:
|
||
|
result = constructor_op(initial_items, line)
|
||
|
|
||
|
return result
|
||
|
|
||
|
|
||
|
# Comprehensions
|
||
|
|
||
|
|
||
|
def transform_list_comprehension(builder: IRBuilder, o: ListComprehension) -> Value:
|
||
|
return translate_list_comprehension(builder, o.generator)
|
||
|
|
||
|
|
||
|
def transform_set_comprehension(builder: IRBuilder, o: SetComprehension) -> Value:
|
||
|
return translate_set_comprehension(builder, o.generator)
|
||
|
|
||
|
|
||
|
def transform_dictionary_comprehension(builder: IRBuilder, o: DictionaryComprehension) -> Value:
|
||
|
d = builder.maybe_spill(builder.call_c(dict_new_op, [], o.line))
|
||
|
loop_params = list(zip(o.indices, o.sequences, o.condlists, o.is_async))
|
||
|
|
||
|
def gen_inner_stmts() -> None:
|
||
|
k = builder.accept(o.key)
|
||
|
v = builder.accept(o.value)
|
||
|
builder.call_c(dict_set_item_op, [builder.read(d), k, v], o.line)
|
||
|
|
||
|
comprehension_helper(builder, loop_params, gen_inner_stmts, o.line)
|
||
|
return builder.read(d)
|
||
|
|
||
|
|
||
|
# Misc
|
||
|
|
||
|
|
||
|
def transform_slice_expr(builder: IRBuilder, expr: SliceExpr) -> Value:
|
||
|
def get_arg(arg: Expression | None) -> Value:
|
||
|
if arg is None:
|
||
|
return builder.none_object()
|
||
|
else:
|
||
|
return builder.accept(arg)
|
||
|
|
||
|
args = [get_arg(expr.begin_index), get_arg(expr.end_index), get_arg(expr.stride)]
|
||
|
return builder.call_c(new_slice_op, args, expr.line)
|
||
|
|
||
|
|
||
|
def transform_generator_expr(builder: IRBuilder, o: GeneratorExpr) -> Value:
|
||
|
builder.warning("Treating generator comprehension as list", o.line)
|
||
|
return builder.call_c(iter_op, [translate_list_comprehension(builder, o)], o.line)
|
||
|
|
||
|
|
||
|
def transform_assignment_expr(builder: IRBuilder, o: AssignmentExpr) -> Value:
|
||
|
value = builder.accept(o.value)
|
||
|
target = builder.get_assignment_target(o.target)
|
||
|
builder.assign(target, value, o.line)
|
||
|
return value
|
||
|
|
||
|
|
||
|
def transform_math_literal(builder: IRBuilder, fullname: str) -> Value | None:
|
||
|
if fullname == "math.e":
|
||
|
return builder.load_float(math.e)
|
||
|
if fullname == "math.pi":
|
||
|
return builder.load_float(math.pi)
|
||
|
if fullname == "math.inf":
|
||
|
return builder.load_float(math.inf)
|
||
|
if fullname == "math.nan":
|
||
|
return builder.load_float(math.nan)
|
||
|
if fullname == "math.tau":
|
||
|
return builder.load_float(math.tau)
|
||
|
|
||
|
return None
|