695 lines
26 KiB
Python
695 lines
26 KiB
Python
"""Transform mypy statement 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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A few statements are transformed in mypyc.irbuild.function (yield, for example).
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"""
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from typing import Optional, List, Tuple, Sequence, Callable
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import importlib.util
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from mypy.nodes import (
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Block, ExpressionStmt, ReturnStmt, AssignmentStmt, OperatorAssignmentStmt, IfStmt, WhileStmt,
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ForStmt, BreakStmt, ContinueStmt, RaiseStmt, TryStmt, WithStmt, AssertStmt, DelStmt,
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Expression, StrExpr, TempNode, Lvalue, Import, ImportFrom, ImportAll, TupleExpr, ListExpr,
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StarExpr
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)
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from mypyc.ir.ops import (
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Assign, Unreachable, RaiseStandardError, LoadErrorValue, BasicBlock, TupleGet, Value, Register,
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Branch, NO_TRACEBACK_LINE_NO
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)
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from mypyc.ir.rtypes import RInstance, exc_rtuple, is_tagged
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from mypyc.primitives.generic_ops import py_delattr_op
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from mypyc.primitives.misc_ops import type_op, import_from_op
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from mypyc.primitives.exc_ops import (
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raise_exception_op, reraise_exception_op, error_catch_op, exc_matches_op, restore_exc_info_op,
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get_exc_value_op, keep_propagating_op, get_exc_info_op
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)
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from mypyc.irbuild.targets import (
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AssignmentTarget, AssignmentTargetRegister, AssignmentTargetIndex, AssignmentTargetAttr,
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AssignmentTargetTuple
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)
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from mypyc.irbuild.nonlocalcontrol import (
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ExceptNonlocalControl, FinallyNonlocalControl, TryFinallyNonlocalControl
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)
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from mypyc.irbuild.for_helpers import for_loop_helper
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from mypyc.irbuild.builder import IRBuilder, int_borrow_friendly_op
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from mypyc.irbuild.ast_helpers import process_conditional, is_borrow_friendly_expr
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GenFunc = Callable[[], None]
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def transform_block(builder: IRBuilder, block: Block) -> None:
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if not block.is_unreachable:
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for stmt in block.body:
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builder.accept(stmt)
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# Raise a RuntimeError if we hit a non-empty unreachable block.
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# Don't complain about empty unreachable blocks, since mypy inserts
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# those after `if MYPY`.
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elif block.body:
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builder.add(RaiseStandardError(RaiseStandardError.RUNTIME_ERROR,
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'Reached allegedly unreachable code!',
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block.line))
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builder.add(Unreachable())
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def transform_expression_stmt(builder: IRBuilder, stmt: ExpressionStmt) -> None:
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if isinstance(stmt.expr, StrExpr):
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# Docstring. Ignore
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return
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# ExpressionStmts do not need to be coerced like other Expressions, so we shouldn't
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# call builder.accept here.
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stmt.expr.accept(builder.visitor)
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builder.flush_keep_alives()
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def transform_return_stmt(builder: IRBuilder, stmt: ReturnStmt) -> None:
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if stmt.expr:
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retval = builder.accept(stmt.expr)
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else:
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retval = builder.builder.none()
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retval = builder.coerce(retval, builder.ret_types[-1], stmt.line)
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builder.nonlocal_control[-1].gen_return(builder, retval, stmt.line)
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def transform_assignment_stmt(builder: IRBuilder, stmt: AssignmentStmt) -> None:
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lvalues = stmt.lvalues
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assert len(lvalues) >= 1
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builder.disallow_class_assignments(lvalues, stmt.line)
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first_lvalue = lvalues[0]
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if stmt.type and isinstance(stmt.rvalue, TempNode):
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# This is actually a variable annotation without initializer. Don't generate
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# an assignment but we need to call get_assignment_target since it adds a
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# name binding as a side effect.
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builder.get_assignment_target(first_lvalue, stmt.line)
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return
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# Special case multiple assignments like 'x, y = e1, e2'.
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if (isinstance(first_lvalue, (TupleExpr, ListExpr))
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and isinstance(stmt.rvalue, (TupleExpr, ListExpr))
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and len(first_lvalue.items) == len(stmt.rvalue.items)
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and all(is_simple_lvalue(item) for item in first_lvalue.items)
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and len(lvalues) == 1):
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temps = []
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for right in stmt.rvalue.items:
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rvalue_reg = builder.accept(right)
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temp = Register(rvalue_reg.type)
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builder.assign(temp, rvalue_reg, stmt.line)
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temps.append(temp)
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for (left, temp) in zip(first_lvalue.items, temps):
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assignment_target = builder.get_assignment_target(left)
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builder.assign(assignment_target, temp, stmt.line)
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return
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line = stmt.rvalue.line
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rvalue_reg = builder.accept(stmt.rvalue)
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if builder.non_function_scope() and stmt.is_final_def:
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builder.init_final_static(first_lvalue, rvalue_reg)
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for lvalue in lvalues:
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target = builder.get_assignment_target(lvalue)
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builder.assign(target, rvalue_reg, line)
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builder.flush_keep_alives()
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def is_simple_lvalue(expr: Expression) -> bool:
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return not isinstance(expr, (StarExpr, ListExpr, TupleExpr))
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def transform_operator_assignment_stmt(builder: IRBuilder, stmt: OperatorAssignmentStmt) -> None:
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"""Operator assignment statement such as x += 1"""
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builder.disallow_class_assignments([stmt.lvalue], stmt.line)
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if (is_tagged(builder.node_type(stmt.lvalue))
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and is_tagged(builder.node_type(stmt.rvalue))
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and stmt.op in int_borrow_friendly_op):
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can_borrow = (is_borrow_friendly_expr(builder, stmt.rvalue)
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and is_borrow_friendly_expr(builder, stmt.lvalue))
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else:
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can_borrow = False
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target = builder.get_assignment_target(stmt.lvalue)
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target_value = builder.read(target, stmt.line, can_borrow=can_borrow)
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rreg = builder.accept(stmt.rvalue, can_borrow=can_borrow)
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# the Python parser strips the '=' from operator assignment statements, so re-add it
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op = stmt.op + '='
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res = builder.binary_op(target_value, rreg, op, stmt.line)
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# usually operator assignments are done in-place
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# but when target doesn't support that we need to manually assign
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builder.assign(target, res, res.line)
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builder.flush_keep_alives()
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def transform_import(builder: IRBuilder, node: Import) -> None:
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if node.is_mypy_only:
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return
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globals = builder.load_globals_dict()
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for node_id, as_name in node.ids:
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builder.gen_import(node_id, node.line)
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# Update the globals dict with the appropriate module:
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# * For 'import foo.bar as baz' we add 'foo.bar' with the name 'baz'
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# * For 'import foo.bar' we add 'foo' with the name 'foo'
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# Typically we then ignore these entries and access things directly
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# via the module static, but we will use the globals version for modules
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# that mypy couldn't find, since it doesn't analyze module references
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# from those properly.
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# TODO: Don't add local imports to the global namespace
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# Miscompiling imports inside of functions, like below in import from.
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if as_name:
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name = as_name
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base = node_id
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else:
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base = name = node_id.split('.')[0]
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obj = builder.get_module(base, node.line)
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builder.gen_method_call(
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globals, '__setitem__', [builder.load_str(name), obj],
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result_type=None, line=node.line)
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def transform_import_from(builder: IRBuilder, node: ImportFrom) -> None:
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if node.is_mypy_only:
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return
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module_state = builder.graph[builder.module_name]
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if module_state.ancestors is not None and module_state.ancestors:
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module_package = module_state.ancestors[0]
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elif builder.module_path.endswith("__init__.py"):
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module_package = builder.module_name
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else:
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module_package = ''
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id = importlib.util.resolve_name('.' * node.relative + node.id, module_package)
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globals = builder.load_globals_dict()
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imported_names = [name for name, _ in node.names]
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module = builder.gen_import_from(id, globals, imported_names, node.line)
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# Copy everything into our module's dict.
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# Note that we miscompile import from inside of functions here,
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# since that case *shouldn't* load it into the globals dict.
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# This probably doesn't matter much and the code runs basically right.
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for name, maybe_as_name in node.names:
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as_name = maybe_as_name or name
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obj = builder.call_c(import_from_op,
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[module, builder.load_str(id),
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builder.load_str(name), builder.load_str(as_name)],
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node.line)
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builder.gen_method_call(
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globals, '__setitem__', [builder.load_str(as_name), obj],
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result_type=None, line=node.line)
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def transform_import_all(builder: IRBuilder, node: ImportAll) -> None:
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if node.is_mypy_only:
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return
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builder.gen_import(node.id, node.line)
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def transform_if_stmt(builder: IRBuilder, stmt: IfStmt) -> None:
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if_body, next = BasicBlock(), BasicBlock()
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else_body = BasicBlock() if stmt.else_body else next
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# If statements are normalized
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assert len(stmt.expr) == 1
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process_conditional(builder, stmt.expr[0], if_body, else_body)
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builder.activate_block(if_body)
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builder.accept(stmt.body[0])
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builder.goto(next)
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if stmt.else_body:
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builder.activate_block(else_body)
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builder.accept(stmt.else_body)
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builder.goto(next)
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builder.activate_block(next)
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def transform_while_stmt(builder: IRBuilder, s: WhileStmt) -> None:
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body, next, top, else_block = BasicBlock(), BasicBlock(), BasicBlock(), BasicBlock()
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normal_loop_exit = else_block if s.else_body is not None else next
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builder.push_loop_stack(top, next)
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# Split block so that we get a handle to the top of the loop.
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builder.goto_and_activate(top)
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process_conditional(builder, s.expr, body, normal_loop_exit)
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builder.activate_block(body)
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builder.accept(s.body)
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# Add branch to the top at the end of the body.
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builder.goto(top)
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builder.pop_loop_stack()
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if s.else_body is not None:
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builder.activate_block(else_block)
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builder.accept(s.else_body)
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builder.goto(next)
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builder.activate_block(next)
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def transform_for_stmt(builder: IRBuilder, s: ForStmt) -> None:
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if s.is_async:
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builder.error('async for is unimplemented', s.line)
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def body() -> None:
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builder.accept(s.body)
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def else_block() -> None:
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assert s.else_body is not None
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builder.accept(s.else_body)
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for_loop_helper(builder, s.index, s.expr, body,
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else_block if s.else_body else None, s.line)
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def transform_break_stmt(builder: IRBuilder, node: BreakStmt) -> None:
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builder.nonlocal_control[-1].gen_break(builder, node.line)
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def transform_continue_stmt(builder: IRBuilder, node: ContinueStmt) -> None:
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builder.nonlocal_control[-1].gen_continue(builder, node.line)
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def transform_raise_stmt(builder: IRBuilder, s: RaiseStmt) -> None:
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if s.expr is None:
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builder.call_c(reraise_exception_op, [], NO_TRACEBACK_LINE_NO)
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builder.add(Unreachable())
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return
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exc = builder.accept(s.expr)
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builder.call_c(raise_exception_op, [exc], s.line)
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builder.add(Unreachable())
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def transform_try_except(builder: IRBuilder,
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body: GenFunc,
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handlers: Sequence[
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Tuple[Optional[Expression], Optional[Expression], GenFunc]],
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else_body: Optional[GenFunc],
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line: int) -> None:
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"""Generalized try/except/else handling that takes functions to gen the bodies.
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The point of this is to also be able to support with."""
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assert handlers, "try needs except"
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except_entry, exit_block, cleanup_block = BasicBlock(), BasicBlock(), BasicBlock()
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double_except_block = BasicBlock()
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# If there is an else block, jump there after the try, otherwise just leave
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else_block = BasicBlock() if else_body else exit_block
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# Compile the try block with an error handler
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builder.builder.push_error_handler(except_entry)
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builder.goto_and_activate(BasicBlock())
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body()
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builder.goto(else_block)
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builder.builder.pop_error_handler()
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# The error handler catches the error and then checks it
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# against the except clauses. We compile the error handler
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# itself with an error handler so that it can properly restore
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# the *old* exc_info if an exception occurs.
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# The exception chaining will be done automatically when the
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# exception is raised, based on the exception in exc_info.
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builder.builder.push_error_handler(double_except_block)
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builder.activate_block(except_entry)
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old_exc = builder.maybe_spill(builder.call_c(error_catch_op, [], line))
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# Compile the except blocks with the nonlocal control flow overridden to clear exc_info
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builder.nonlocal_control.append(
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ExceptNonlocalControl(builder.nonlocal_control[-1], old_exc))
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# Process the bodies
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for type, var, handler_body in handlers:
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next_block = None
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if type:
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next_block, body_block = BasicBlock(), BasicBlock()
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matches = builder.call_c(
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exc_matches_op, [builder.accept(type)], type.line
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)
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builder.add(Branch(matches, body_block, next_block, Branch.BOOL))
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builder.activate_block(body_block)
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if var:
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target = builder.get_assignment_target(var)
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builder.assign(
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target,
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builder.call_c(get_exc_value_op, [], var.line),
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var.line
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)
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handler_body()
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builder.goto(cleanup_block)
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if next_block:
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builder.activate_block(next_block)
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# Reraise the exception if needed
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if next_block:
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builder.call_c(reraise_exception_op, [], NO_TRACEBACK_LINE_NO)
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builder.add(Unreachable())
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builder.nonlocal_control.pop()
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builder.builder.pop_error_handler()
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# Cleanup for if we leave except through normal control flow:
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# restore the saved exc_info information and continue propagating
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# the exception if it exists.
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builder.activate_block(cleanup_block)
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builder.call_c(restore_exc_info_op, [builder.read(old_exc)], line)
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builder.goto(exit_block)
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# Cleanup for if we leave except through a raised exception:
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# restore the saved exc_info information and continue propagating
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# the exception.
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builder.activate_block(double_except_block)
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builder.call_c(restore_exc_info_op, [builder.read(old_exc)], line)
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builder.call_c(keep_propagating_op, [], NO_TRACEBACK_LINE_NO)
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builder.add(Unreachable())
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# If present, compile the else body in the obvious way
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if else_body:
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builder.activate_block(else_block)
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else_body()
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builder.goto(exit_block)
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builder.activate_block(exit_block)
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def transform_try_except_stmt(builder: IRBuilder, t: TryStmt) -> None:
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def body() -> None:
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builder.accept(t.body)
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# Work around scoping woes
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def make_handler(body: Block) -> GenFunc:
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return lambda: builder.accept(body)
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handlers = [(type, var, make_handler(body))
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for type, var, body in zip(t.types, t.vars, t.handlers)]
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else_body = (lambda: builder.accept(t.else_body)) if t.else_body else None
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transform_try_except(builder, body, handlers, else_body, t.line)
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def try_finally_try(builder: IRBuilder,
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err_handler: BasicBlock,
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return_entry: BasicBlock,
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main_entry: BasicBlock,
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try_body: GenFunc) -> Optional[Register]:
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# Compile the try block with an error handler
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control = TryFinallyNonlocalControl(return_entry)
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builder.builder.push_error_handler(err_handler)
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builder.nonlocal_control.append(control)
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builder.goto_and_activate(BasicBlock())
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try_body()
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builder.goto(main_entry)
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builder.nonlocal_control.pop()
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builder.builder.pop_error_handler()
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return control.ret_reg
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def try_finally_entry_blocks(builder: IRBuilder,
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err_handler: BasicBlock,
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return_entry: BasicBlock,
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main_entry: BasicBlock,
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finally_block: BasicBlock,
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ret_reg: Optional[Register]) -> Value:
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old_exc = Register(exc_rtuple)
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# Entry block for non-exceptional flow
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builder.activate_block(main_entry)
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if ret_reg:
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builder.add(
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Assign(
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ret_reg,
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builder.add(LoadErrorValue(builder.ret_types[-1]))
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)
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)
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builder.goto(return_entry)
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builder.activate_block(return_entry)
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builder.add(Assign(old_exc, builder.add(LoadErrorValue(exc_rtuple))))
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builder.goto(finally_block)
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# Entry block for errors
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builder.activate_block(err_handler)
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if ret_reg:
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builder.add(
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Assign(
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ret_reg,
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builder.add(LoadErrorValue(builder.ret_types[-1]))
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)
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)
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builder.add(Assign(old_exc, builder.call_c(error_catch_op, [], -1)))
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builder.goto(finally_block)
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return old_exc
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def try_finally_body(
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builder: IRBuilder,
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finally_block: BasicBlock,
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finally_body: GenFunc,
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ret_reg: Optional[Value],
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old_exc: Value) -> Tuple[BasicBlock, FinallyNonlocalControl]:
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cleanup_block = BasicBlock()
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# Compile the finally block with the nonlocal control flow overridden to restore exc_info
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builder.builder.push_error_handler(cleanup_block)
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finally_control = FinallyNonlocalControl(
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builder.nonlocal_control[-1], ret_reg, old_exc)
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builder.nonlocal_control.append(finally_control)
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builder.activate_block(finally_block)
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finally_body()
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builder.nonlocal_control.pop()
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return cleanup_block, finally_control
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def try_finally_resolve_control(builder: IRBuilder,
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cleanup_block: BasicBlock,
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finally_control: FinallyNonlocalControl,
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old_exc: Value,
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ret_reg: Optional[Value]) -> BasicBlock:
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"""Resolve the control flow out of a finally block.
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|
This means returning if there was a return, propagating
|
|
exceptions, break/continue (soon), or just continuing on.
|
|
"""
|
|
reraise, rest = BasicBlock(), BasicBlock()
|
|
builder.add(Branch(old_exc, rest, reraise, Branch.IS_ERROR))
|
|
|
|
# Reraise the exception if there was one
|
|
builder.activate_block(reraise)
|
|
builder.call_c(reraise_exception_op, [], NO_TRACEBACK_LINE_NO)
|
|
builder.add(Unreachable())
|
|
builder.builder.pop_error_handler()
|
|
|
|
# If there was a return, keep returning
|
|
if ret_reg:
|
|
builder.activate_block(rest)
|
|
return_block, rest = BasicBlock(), BasicBlock()
|
|
builder.add(Branch(ret_reg, rest, return_block, Branch.IS_ERROR))
|
|
|
|
builder.activate_block(return_block)
|
|
builder.nonlocal_control[-1].gen_return(builder, ret_reg, -1)
|
|
|
|
# TODO: handle break/continue
|
|
builder.activate_block(rest)
|
|
out_block = BasicBlock()
|
|
builder.goto(out_block)
|
|
|
|
# If there was an exception, restore again
|
|
builder.activate_block(cleanup_block)
|
|
finally_control.gen_cleanup(builder, -1)
|
|
builder.call_c(keep_propagating_op, [], NO_TRACEBACK_LINE_NO)
|
|
builder.add(Unreachable())
|
|
|
|
return out_block
|
|
|
|
|
|
def transform_try_finally_stmt(builder: IRBuilder,
|
|
try_body: GenFunc,
|
|
finally_body: GenFunc) -> None:
|
|
"""Generalized try/finally handling that takes functions to gen the bodies.
|
|
|
|
The point of this is to also be able to support with."""
|
|
# Finally is a big pain, because there are so many ways that
|
|
# exits can occur. We emit 10+ basic blocks for every finally!
|
|
|
|
err_handler, main_entry, return_entry, finally_block = (
|
|
BasicBlock(), BasicBlock(), BasicBlock(), BasicBlock())
|
|
|
|
# Compile the body of the try
|
|
ret_reg = try_finally_try(
|
|
builder, err_handler, return_entry, main_entry, try_body)
|
|
|
|
# Set up the entry blocks for the finally statement
|
|
old_exc = try_finally_entry_blocks(
|
|
builder, err_handler, return_entry, main_entry, finally_block, ret_reg)
|
|
|
|
# Compile the body of the finally
|
|
cleanup_block, finally_control = try_finally_body(
|
|
builder, finally_block, finally_body, ret_reg, old_exc)
|
|
|
|
# Resolve the control flow out of the finally block
|
|
out_block = try_finally_resolve_control(
|
|
builder, cleanup_block, finally_control, old_exc, ret_reg)
|
|
|
|
builder.activate_block(out_block)
|
|
|
|
|
|
def transform_try_stmt(builder: IRBuilder, t: TryStmt) -> None:
|
|
# Our compilation strategy for try/except/else/finally is to
|
|
# treat try/except/else and try/finally as separate language
|
|
# constructs that we compile separately. When we have a
|
|
# try/except/else/finally, we treat the try/except/else as the
|
|
# body of a try/finally block.
|
|
if t.finally_body:
|
|
def transform_try_body() -> None:
|
|
if t.handlers:
|
|
transform_try_except_stmt(builder, t)
|
|
else:
|
|
builder.accept(t.body)
|
|
body = t.finally_body
|
|
|
|
transform_try_finally_stmt(builder, transform_try_body, lambda: builder.accept(body))
|
|
else:
|
|
transform_try_except_stmt(builder, t)
|
|
|
|
|
|
def get_sys_exc_info(builder: IRBuilder) -> List[Value]:
|
|
exc_info = builder.call_c(get_exc_info_op, [], -1)
|
|
return [builder.add(TupleGet(exc_info, i, -1)) for i in range(3)]
|
|
|
|
|
|
def transform_with(builder: IRBuilder,
|
|
expr: Expression,
|
|
target: Optional[Lvalue],
|
|
body: GenFunc,
|
|
line: int) -> None:
|
|
# This is basically a straight transcription of the Python code in PEP 343.
|
|
# I don't actually understand why a bunch of it is the way it is.
|
|
# We could probably optimize the case where the manager is compiled by us,
|
|
# but that is not our common case at all, so.
|
|
mgr_v = builder.accept(expr)
|
|
typ = builder.call_c(type_op, [mgr_v], line)
|
|
exit_ = builder.maybe_spill(builder.py_get_attr(typ, '__exit__', line))
|
|
value = builder.py_call(
|
|
builder.py_get_attr(typ, '__enter__', line), [mgr_v], line
|
|
)
|
|
mgr = builder.maybe_spill(mgr_v)
|
|
exc = builder.maybe_spill_assignable(builder.true())
|
|
|
|
def try_body() -> None:
|
|
if target:
|
|
builder.assign(builder.get_assignment_target(target), value, line)
|
|
body()
|
|
|
|
def except_body() -> None:
|
|
builder.assign(exc, builder.false(), line)
|
|
out_block, reraise_block = BasicBlock(), BasicBlock()
|
|
builder.add_bool_branch(
|
|
builder.py_call(builder.read(exit_),
|
|
[builder.read(mgr)] + get_sys_exc_info(builder), line),
|
|
out_block,
|
|
reraise_block
|
|
)
|
|
builder.activate_block(reraise_block)
|
|
builder.call_c(reraise_exception_op, [], NO_TRACEBACK_LINE_NO)
|
|
builder.add(Unreachable())
|
|
builder.activate_block(out_block)
|
|
|
|
def finally_body() -> None:
|
|
out_block, exit_block = BasicBlock(), BasicBlock()
|
|
builder.add(
|
|
Branch(builder.read(exc), exit_block, out_block, Branch.BOOL)
|
|
)
|
|
builder.activate_block(exit_block)
|
|
none = builder.none_object()
|
|
builder.py_call(
|
|
builder.read(exit_), [builder.read(mgr), none, none, none], line
|
|
)
|
|
builder.goto_and_activate(out_block)
|
|
|
|
transform_try_finally_stmt(
|
|
builder,
|
|
lambda: transform_try_except(builder,
|
|
try_body,
|
|
[(None, None, except_body)],
|
|
None,
|
|
line),
|
|
finally_body
|
|
)
|
|
|
|
|
|
def transform_with_stmt(builder: IRBuilder, o: WithStmt) -> None:
|
|
if o.is_async:
|
|
builder.error('async with is unimplemented', o.line)
|
|
|
|
# Generate separate logic for each expr in it, left to right
|
|
def generate(i: int) -> None:
|
|
if i >= len(o.expr):
|
|
builder.accept(o.body)
|
|
else:
|
|
transform_with(builder, o.expr[i], o.target[i], lambda: generate(i + 1), o.line)
|
|
|
|
generate(0)
|
|
|
|
|
|
def transform_assert_stmt(builder: IRBuilder, a: AssertStmt) -> None:
|
|
if builder.options.strip_asserts:
|
|
return
|
|
cond = builder.accept(a.expr)
|
|
ok_block, error_block = BasicBlock(), BasicBlock()
|
|
builder.add_bool_branch(cond, ok_block, error_block)
|
|
builder.activate_block(error_block)
|
|
if a.msg is None:
|
|
# Special case (for simpler generated code)
|
|
builder.add(RaiseStandardError(RaiseStandardError.ASSERTION_ERROR, None, a.line))
|
|
elif isinstance(a.msg, StrExpr):
|
|
# Another special case
|
|
builder.add(RaiseStandardError(RaiseStandardError.ASSERTION_ERROR, a.msg.value,
|
|
a.line))
|
|
else:
|
|
# The general case -- explicitly construct an exception instance
|
|
message = builder.accept(a.msg)
|
|
exc_type = builder.load_module_attr_by_fullname('builtins.AssertionError', a.line)
|
|
exc = builder.py_call(exc_type, [message], a.line)
|
|
builder.call_c(raise_exception_op, [exc], a.line)
|
|
builder.add(Unreachable())
|
|
builder.activate_block(ok_block)
|
|
|
|
|
|
def transform_del_stmt(builder: IRBuilder, o: DelStmt) -> None:
|
|
transform_del_item(builder, builder.get_assignment_target(o.expr), o.line)
|
|
|
|
|
|
def transform_del_item(builder: IRBuilder, target: AssignmentTarget, line: int) -> None:
|
|
if isinstance(target, AssignmentTargetIndex):
|
|
builder.gen_method_call(
|
|
target.base,
|
|
'__delitem__',
|
|
[target.index],
|
|
result_type=None,
|
|
line=line
|
|
)
|
|
elif isinstance(target, AssignmentTargetAttr):
|
|
if isinstance(target.obj_type, RInstance):
|
|
cl = target.obj_type.class_ir
|
|
if not cl.is_deletable(target.attr):
|
|
builder.error(f'"{target.attr}" cannot be deleted', line)
|
|
builder.note(
|
|
'Using "__deletable__ = ' +
|
|
'[\'<attr>\']" in the class body enables "del obj.<attr>"', line)
|
|
key = builder.load_str(target.attr)
|
|
builder.call_c(py_delattr_op, [target.obj, key], line)
|
|
elif isinstance(target, AssignmentTargetRegister):
|
|
# Delete a local by assigning an error value to it, which will
|
|
# prompt the insertion of uninit checks.
|
|
builder.add(Assign(target.register,
|
|
builder.add(LoadErrorValue(target.type, undefines=True))))
|
|
elif isinstance(target, AssignmentTargetTuple):
|
|
for subtarget in target.items:
|
|
transform_del_item(builder, subtarget, line)
|