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	# mypy: allow-untyped-defs
	import bisect
	import dataclasses
	import dis
	import sys
	from typing import Any, Set, Union

	TERMINAL_OPCODES = {
	dis.opmap["RETURN_VALUE"],
	dis.opmap["JUMP_FORWARD"],
	dis.opmap["RAISE_VARARGS"],
	# TODO(jansel): double check exception handling
	}
	if sys.version_info >= (3, 9):
	TERMINAL_OPCODES.add(dis.opmap["RERAISE"])
	if sys.version_info >= (3, 11):
	TERMINAL_OPCODES.add(dis.opmap["JUMP_BACKWARD"])
	TERMINAL_OPCODES.add(dis.opmap["JUMP_FORWARD"])
	else:
	TERMINAL_OPCODES.add(dis.opmap["JUMP_ABSOLUTE"])
	if sys.version_info >= (3, 12):
	TERMINAL_OPCODES.add(dis.opmap["RETURN_CONST"])
	JUMP_OPCODES = set(dis.hasjrel + dis.hasjabs)
	JUMP_OPNAMES = {dis.opname[opcode] for opcode in JUMP_OPCODES}
	HASLOCAL = set(dis.haslocal)
	HASFREE = set(dis.hasfree)

	stack_effect = dis.stack_effect


	def get_indexof(insts):
	"""
	Get a mapping from instruction memory address to index in instruction list.
	Additionally checks that each instruction only appears once in the list.
	"""
	indexof = {}
	for i, inst in enumerate(insts):
	assert inst not in indexof
	indexof[inst] = i
	return indexof


	def remove_dead_code(instructions):
	"""Dead code elimination"""
	indexof = get_indexof(instructions)
	live_code = set()

	def find_live_code(start):
	for i in range(start, len(instructions)):
	if i in live_code:
	return
	live_code.add(i)
	inst = instructions[i]
	if inst.exn_tab_entry:
	find_live_code(indexof[inst.exn_tab_entry.target])
	if inst.opcode in JUMP_OPCODES:
	find_live_code(indexof[inst.target])
	if inst.opcode in TERMINAL_OPCODES:
	return

	find_live_code(0)

	# change exception table entries if start/end instructions are dead
	# assumes that exception table entries have been propagated,
	# e.g. with bytecode_transformation.propagate_inst_exn_table_entries,
	# and that instructions with an exn_tab_entry lies within its start/end.
	if sys.version_info >= (3, 11):
	live_idx = sorted(live_code)
	for i, inst in enumerate(instructions):
	if i in live_code and inst.exn_tab_entry:
	# find leftmost live instruction >= start
	start_idx = bisect.bisect_left(
	live_idx, indexof[inst.exn_tab_entry.start]
	)
	assert start_idx < len(live_idx)
	# find rightmost live instruction <= end
	end_idx = (
	bisect.bisect_right(live_idx, indexof[inst.exn_tab_entry.end]) - 1
	)
	assert end_idx >= 0
	assert live_idx[start_idx] <= i <= live_idx[end_idx]
	inst.exn_tab_entry.start = instructions[live_idx[start_idx]]
	inst.exn_tab_entry.end = instructions[live_idx[end_idx]]

	return [inst for i, inst in enumerate(instructions) if i in live_code]


	def remove_pointless_jumps(instructions):
	"""Eliminate jumps to the next instruction"""
	pointless_jumps = {
	id(a)
	for a, b in zip(instructions, instructions[1:])
	if a.opname == "JUMP_ABSOLUTE" and a.target is b
	}
	return [inst for inst in instructions if id(inst) not in pointless_jumps]


	def propagate_line_nums(instructions):
	"""Ensure every instruction has line number set in case some are removed"""
	cur_line_no = None

	def populate_line_num(inst):
	nonlocal cur_line_no
	if inst.starts_line:
	cur_line_no = inst.starts_line

	inst.starts_line = cur_line_no

	for inst in instructions:
	populate_line_num(inst)


	def remove_extra_line_nums(instructions):
	"""Remove extra starts line properties before packing bytecode"""

	cur_line_no = None

	def remove_line_num(inst):
	nonlocal cur_line_no
	if inst.starts_line is None:
	return
	elif inst.starts_line == cur_line_no:
	inst.starts_line = None
	else:
	cur_line_no = inst.starts_line

	for inst in instructions:
	remove_line_num(inst)


	@dataclasses.dataclass
	class ReadsWrites:
	reads: Set[Any]
	writes: Set[Any]
	visited: Set[Any]


	def livevars_analysis(instructions, instruction):
	indexof = get_indexof(instructions)
	must = ReadsWrites(set(), set(), set())
	may = ReadsWrites(set(), set(), set())

	def walk(state, start):
	if start in state.visited:
	return
	state.visited.add(start)

	for i in range(start, len(instructions)):
	inst = instructions[i]
	if inst.opcode in HASLOCAL or inst.opcode in HASFREE:
	if "LOAD" in inst.opname or "DELETE" in inst.opname:
	if inst.argval not in must.writes:
	state.reads.add(inst.argval)
	elif "STORE" in inst.opname:
	state.writes.add(inst.argval)
	elif inst.opname == "MAKE_CELL":
	pass
	else:
	raise NotImplementedError(f"unhandled {inst.opname}")
	if inst.exn_tab_entry:
	walk(may, indexof[inst.exn_tab_entry.target])
	if inst.opcode in JUMP_OPCODES:
	walk(may, indexof[inst.target])
	state = may
	if inst.opcode in TERMINAL_OPCODES:
	return

	walk(must, indexof[instruction])
	return must.reads \| may.reads


	@dataclasses.dataclass
	class FixedPointBox:
	value: bool = True


	@dataclasses.dataclass
	class StackSize:
	low: Union[int, float]
	high: Union[int, float]
	fixed_point: FixedPointBox

	def zero(self):
	self.low = 0
	self.high = 0
	self.fixed_point.value = False

	def offset_of(self, other, n):
	prior = (self.low, self.high)
	self.low = min(self.low, other.low + n)
	self.high = max(self.high, other.high + n)
	if (self.low, self.high) != prior:
	self.fixed_point.value = False

	def exn_tab_jump(self, depth):
	prior = (self.low, self.high)
	self.low = min(self.low, depth)
	self.high = max(self.high, depth)
	if (self.low, self.high) != prior:
	self.fixed_point.value = False


	def stacksize_analysis(instructions) -> Union[int, float]:
	assert instructions
	fixed_point = FixedPointBox()
	stack_sizes = {
	inst: StackSize(float("inf"), float("-inf"), fixed_point)
	for inst in instructions
	}
	stack_sizes[instructions[0]].zero()

	for _ in range(100):
	if fixed_point.value:
	break
	fixed_point.value = True

	for inst, next_inst in zip(instructions, instructions[1:] + [None]):
	stack_size = stack_sizes[inst]
	# CALL_FINALLY in Python 3.8 is handled differently when determining stack depth.
	# See https://github.com/python/cpython/blob/3.8/Python/compile.c#L5450.
	# Essentially, the stack effect of CALL_FINALLY is computed with jump=True,
	# but the resulting stack depth is propagated to the next instruction, not the
	# jump target.
	is_call_finally = (
	sys.version_info < (3, 9) and inst.opcode == dis.opmap["CALL_FINALLY"]
	)
	if inst.opcode not in TERMINAL_OPCODES:
	assert next_inst is not None, f"missing next inst: {inst}"
	# total stack effect of CALL_FINALLY and END_FINALLY in 3.8 is 0
	eff = (
	0
	if is_call_finally
	else stack_effect(inst.opcode, inst.arg, jump=False)
	)
	stack_sizes[next_inst].offset_of(stack_size, eff)
	if inst.opcode in JUMP_OPCODES and not is_call_finally:
	stack_sizes[inst.target].offset_of(
	stack_size, stack_effect(inst.opcode, inst.arg, jump=True)
	)
	if inst.exn_tab_entry:
	# see https://github.com/python/cpython/blob/3.11/Objects/exception_handling_notes.txt
	# on why depth is computed this way.
	depth = inst.exn_tab_entry.depth + int(inst.exn_tab_entry.lasti) + 1
	stack_sizes[inst.exn_tab_entry.target].exn_tab_jump(depth)

	if False:
	for inst in instructions:
	stack_size = stack_sizes[inst]
	print(stack_size.low, stack_size.high, inst)

	low = min(x.low for x in stack_sizes.values())
	high = max(x.high for x in stack_sizes.values())

	assert fixed_point.value, "failed to reach fixed point"
	assert low >= 0
	return high