prog8/il65/optimize.py

381 lines
21 KiB
Python

"""
Programming Language for 6502/6510 microprocessors, codename 'Sick'
This is the optimizer that applies various optimizations to the parse tree,
eliminates statements that have no effect, optimizes calculations etc.
Written by Irmen de Jong (irmen@razorvine.net) - license: GNU GPL 3.0
"""
from typing import List, no_type_check, Union
from .datatypes import DataType
from .plyparse import *
from .plylex import print_warning, print_bold
from .constantfold import ConstantFold
class Optimizer:
def __init__(self, mod: Module) -> None:
self.num_warnings = 0
self.module = mod
self.optimizations_performed = False
self.constant_folder = ConstantFold(self.module)
def optimize(self) -> None:
self.num_warnings = 0
self.optimizations_performed = True
# keep optimizing as long as there were changes made
while self.optimizations_performed:
self.optimizations_performed = False
self._optimize()
# remaining optimizations that have to be done just once:
self.remove_unused_subroutines()
self.remove_empty_blocks()
def _optimize(self) -> None:
self.constant_folder.fold_constants(True) # perform constant folding and simple expression optimization
# @todo expression optimization: reduce expression nesting / flattening of parenthesis
# @todo expression optimization: simplify logical expression when a term makes it always true or false
# @todo expression optimization: optimize some simple multiplications into shifts (A*=8 -> A<<3)
self.create_aug_assignments()
self.optimize_assignments()
self.remove_superfluous_assignments()
self.combine_assignments_into_multi()
self.optimize_multiassigns()
# @todo optimize addition with self into shift 1 (A+=A -> A<<=1)
self.optimize_goto_compare_with_zero()
self.join_incrdecrs()
# @todo remove gotos with conditions that are always false
# @todo remove loops with conditions that are always empty/false
# @todo analyse for unreachable code and remove that (f.i. code after goto or return that has no label so can never be jumped to)
def join_incrdecrs(self) -> None:
for scope in self.module.all_nodes(Scope):
incrdecrs = [] # type: List[IncrDecr]
target = None
for node in list(scope.nodes):
if isinstance(node, IncrDecr):
if target is None:
target = node.target
incrdecrs.append(node)
continue
if self._same_target(target, node.target):
incrdecrs.append(node)
continue
if len(incrdecrs) > 1:
# optimize...
replaced = False
total = 0
for i in incrdecrs:
if i.operator == "++":
total += i.howmuch
else:
total -= i.howmuch
if total == 0:
replaced = True
for x in incrdecrs:
scope.remove_node(x)
else:
is_float = False
if isinstance(target, SymbolName):
symdef = target.my_scope().lookup(target.name)
if isinstance(symdef, VarDef) and symdef.datatype == DataType.FLOAT:
is_float = True
elif isinstance(target, Dereference):
is_float = target.datatype == DataType.FLOAT
if is_float:
replaced = True
for x in incrdecrs[1:]:
scope.remove_node(x)
incrdecr = self._make_incrdecr(incrdecrs[0], target, abs(total), "++" if total >= 0 else "--")
scope.replace_node(incrdecrs[0], incrdecr)
elif 0 < total <= 255:
replaced = True
for x in incrdecrs[1:]:
scope.remove_node(x)
incrdecr = self._make_incrdecr(incrdecrs[0], target, total, "++")
scope.replace_node(incrdecrs[0], incrdecr)
elif -255 <= total < 0:
replaced = True
total = -total
for x in incrdecrs[1:]:
scope.remove_node(x)
incrdecr = self._make_incrdecr(incrdecrs[0], target, total, "--")
scope.replace_node(incrdecrs[0], incrdecr)
if replaced:
self.optimizations_performed = True
self.num_warnings += 1
print_warning("{}: merged a sequence of incr/decrs or augmented assignments".format(incrdecrs[0].sourceref))
incrdecrs.clear()
target = None
if isinstance(node, IncrDecr):
incrdecrs.append(node)
target = node.target
def _same_target(self, node1: Union[Register, SymbolName, Dereference],
node2: Union[Register, SymbolName, Dereference]) -> bool:
if isinstance(node1, Register) and isinstance(node2, Register) and node1.name == node2.name:
return True
if isinstance(node1, SymbolName) and isinstance(node2, SymbolName) and node1.name == node2.name:
return True
if isinstance(node1, Dereference) and isinstance(node2, Dereference) and node1.operand == node2.operand:
return True
return False
@no_type_check
def create_aug_assignments(self) -> None:
# create augmented assignments from regular assignment that only refers to the lvalue
# A=A+10, A=10+A -> A+=10, A=A*4, A=4*A -> A*=4, etc
for assignment in self.module.all_nodes(Assignment):
if len(assignment.left.nodes) > 1:
continue
if not isinstance(assignment.right, ExpressionWithOperator) or assignment.right.unary:
continue
expr = assignment.right
if expr.operator in ('-', '/', '//', '**', '<<', '>>', '&'): # non-associative operators
if isinstance(expr.right, (LiteralValue, SymbolName)) and self._same_target(assignment.left.nodes[0], expr.left):
num_val = expr.right.const_value()
operator = expr.operator + '='
aug_assign = self._make_aug_assign(assignment, assignment.left.nodes[0], num_val, operator)
assignment.my_scope().replace_node(assignment, aug_assign)
self.optimizations_performed = True
continue
if expr.operator not in ('+', '*', '|', '^'): # associative operators
continue
if isinstance(expr.right, (LiteralValue, SymbolName)) and self._same_target(assignment.left.nodes[0], expr.left):
num_val = expr.right.const_value()
operator = expr.operator + '='
aug_assign = self._make_aug_assign(assignment, assignment.left.nodes[0], num_val, operator)
assignment.my_scope().replace_node(assignment, aug_assign)
self.optimizations_performed = True
elif isinstance(expr.left, (LiteralValue, SymbolName)) and self._same_target(assignment.left.nodes[0], expr.right):
num_val = expr.left.const_value()
operator = expr.operator + '='
aug_assign = self._make_aug_assign(assignment, assignment.left.nodes[0], num_val, operator)
assignment.my_scope().replace_node(assignment, aug_assign)
self.optimizations_performed = True
def remove_superfluous_assignments(self) -> None:
# remove consecutive assignment statements to the same target, only keep the last value (only if its a constant!)
# this is NOT done for memory mapped variables because these often represent a volatile register of some sort!
for scope in self.module.all_nodes(Scope):
prev_node = None # type: AstNode
for node in list(scope.nodes):
if isinstance(node, Assignment) and isinstance(prev_node, Assignment):
if isinstance(node.right, (LiteralValue, Register)) and node.left.same_targets(prev_node.left):
if not node.left.has_memvalue():
scope.remove_node(prev_node)
self.optimizations_performed = True
self.num_warnings += 1
print_warning("{}: removed superfluous assignment".format(prev_node.sourceref))
prev_node = node
@no_type_check
def optimize_assignments(self) -> None:
# remove assignment statements that do nothing (A=A)
# remove augmented assignments that have no effect (x+=0, x-=0, x/=1, x//=1, x*=1)
# convert augmented assignments to simple incr/decr if possible (A+=10 => A++ by 10)
# simplify some calculations (x*=0, x**=0) to simple constant value assignment
# @todo remove or simplify logical aug assigns like A |= 0, A |= true, A |= false (or perhaps turn them into byte values first?)
for assignment in self.module.all_nodes():
if isinstance(assignment, Assignment):
if all(lv == assignment.right for lv in assignment.left.nodes):
assignment.my_scope().remove_node(assignment)
self.optimizations_performed = True
self.num_warnings += 1
print_warning("{}: removed statement that has no effect".format(assignment.sourceref))
elif isinstance(assignment, AugAssignment):
if isinstance(assignment.right, LiteralValue) and isinstance(assignment.right.value, (int, float)):
if assignment.right.value == 0:
if assignment.operator in ("+=", "-=", "|=", "<<=", ">>=", "^="):
self.num_warnings += 1
print_warning("{}: removed statement that has no effect".format(assignment.sourceref))
assignment.my_scope().remove_node(assignment)
self.optimizations_performed = True
elif assignment.operator == "*=":
self.num_warnings += 1
print_warning("{}: statement replaced by = 0".format(assignment.sourceref))
new_assignment = self._make_new_assignment(assignment, 0)
assignment.my_scope().replace_node(assignment, new_assignment)
self.optimizations_performed = True
elif assignment.operator == "**=":
self.num_warnings += 1
print_warning("{}: statement replaced by = 1".format(assignment.sourceref))
new_assignment = self._make_new_assignment(assignment, 1)
assignment.my_scope().replace_node(assignment, new_assignment)
self.optimizations_performed = True
if assignment.right.value >= 8 and assignment.operator in ("<<=", ">>="):
print("{}: shifting result is always zero".format(assignment.sourceref))
new_stmt = Assignment(sourceref=assignment.sourceref)
new_stmt.nodes.append(AssignmentTargets(nodes=[assignment.left], sourceref=assignment.sourceref))
new_stmt.nodes.append(LiteralValue(value=0, sourceref=assignment.sourceref))
assignment.my_scope().replace_node(assignment, new_stmt)
self.optimizations_performed = True
if assignment.operator in ("+=", "-=") and 0 < assignment.right.value < 256:
howmuch = assignment.right
if howmuch.value not in (0, 1):
_, howmuch = coerce_constant_value(datatype_of(assignment.left, assignment.my_scope()),
howmuch, assignment.sourceref)
new_stmt = IncrDecr(operator="++" if assignment.operator == "+=" else "--",
howmuch=howmuch.value, sourceref=assignment.sourceref)
new_stmt.target = assignment.left
new_stmt.target.parent = new_stmt
assignment.my_scope().replace_node(assignment, new_stmt)
self.optimizations_performed = True
if assignment.right.value == 1 and assignment.operator in ("/=", "//=", "*="):
self.num_warnings += 1
print_warning("{}: removed statement that has no effect".format(assignment.sourceref))
assignment.my_scope().remove_node(assignment)
self.optimizations_performed = True
@no_type_check
def _make_new_assignment(self, old_aug_assignment: AugAssignment, constantvalue: int) -> Assignment:
new_assignment = Assignment(sourceref=old_aug_assignment.sourceref)
new_assignment.parent = old_aug_assignment.parent
left = AssignmentTargets(nodes=[old_aug_assignment.left], sourceref=old_aug_assignment.sourceref)
left.parent = new_assignment
new_assignment.nodes.append(left)
value = LiteralValue(value=constantvalue, sourceref=old_aug_assignment.sourceref)
value.parent = new_assignment
new_assignment.nodes.append(value)
return new_assignment
@no_type_check
def _make_aug_assign(self, old_assign: Assignment, target: Union[Register, SymbolName, Dereference],
value: Union[int, float], operator: str) -> AugAssignment:
assert isinstance(target, (Register, SymbolName, Dereference))
a = AugAssignment(operator=operator, sourceref=old_assign.sourceref)
a.nodes.append(target)
target.parent = a
lv = LiteralValue(value=value, sourceref=old_assign.sourceref)
a.nodes.append(lv)
lv.parent = a
a.parent = old_assign.parent
return a
@no_type_check
def _make_incrdecr(self, old_stmt: AstNode, target: Union[Register, SymbolName, Dereference],
howmuch: Union[int, float], operator: str) -> IncrDecr:
assert isinstance(target, (Register, SymbolName, Dereference))
a = IncrDecr(operator=operator, howmuch=howmuch, sourceref=old_stmt.sourceref)
a.nodes.append(target)
target.parent = a
a.parent = old_stmt.parent
return a
def combine_assignments_into_multi(self) -> None:
# fold multiple consecutive assignments with the same rvalue into one multi-assignment
for scope in self.module.all_nodes(Scope):
rvalue = None
assignments = [] # type: List[Assignment]
for stmt in list(scope.nodes):
if isinstance(stmt, Assignment):
if assignments:
if stmt.right == rvalue:
assignments.append(stmt)
continue
elif len(assignments) > 1:
# replace the first assignment by a multi-assign with all the others
for assignment in assignments[1:]:
print("{}: joined with previous assignment".format(assignment.sourceref))
assignments[0].left.nodes.extend(assignment.left.nodes)
scope.remove_node(assignment)
self.optimizations_performed = True
rvalue = None
assignments.clear()
else:
rvalue = stmt.right
assignments.append(stmt)
else:
rvalue = None
assignments.clear()
@no_type_check
def optimize_multiassigns(self) -> None:
# optimize multi-assign statements (remove duplicate targets, optimize order)
for assignment in self.module.all_nodes(Assignment):
if len(assignment.left.nodes) > 1:
# remove duplicates
lvalues = set(assignment.left.nodes)
if len(lvalues) != len(assignment.left.nodes):
print("{}: removed duplicate assignment targets".format(assignment.sourceref))
# @todo change order: first registers, then zp addresses, then non-zp addresses, then the rest (if any)
assignment.left.nodes = list(lvalues)
self.optimizations_performed = True
@no_type_check
def remove_unused_subroutines(self) -> None:
# some symbols are used by the emitted assembly code from the code generator,
# and should never be removed or the assembler will fail
never_remove = {"c64.FREADUY", "c64.FTOMEMXY", "c64.FADD", "c64.FSUB",
"c64flt.GIVUAYF", "c64flt.copy_mflt", "c64flt.float_add_one", "c64flt.float_sub_one",
"c64flt.float_add_SW1_to_XY", "c64flt.float_sub_SW1_from_XY"}
num_discarded = 0
for sub in self.module.all_nodes(Subroutine):
usages = self.module.subroutine_usage[(sub.parent.name, sub.name)]
if not usages and sub.parent.name + '.' + sub.name not in never_remove:
sub.parent.remove_node(sub)
num_discarded += 1
# if num_discarded:
# print("discarded {:d} unused subroutines".format(num_discarded))
@no_type_check
def optimize_goto_compare_with_zero(self) -> None:
# a conditional goto that compares a value with zero will be simplified
# the comparison operator and rvalue (0) will be removed and the if-status changed accordingly
for goto in self.module.all_nodes(Goto):
if isinstance(goto.condition, Expression):
pass # @todo optimize goto conditionals
# if cond and isinstance(cond.rvalue, (int, float)) and cond.rvalue.value == 0:
# simplified = False
# if cond.ifstatus in ("true", "ne"):
# if cond.comparison_op == "==":
# # if_true something == 0 -> if_not something
# cond.ifstatus = "not"
# cond.comparison_op, cond.rvalue = "", None
# simplified = True
# elif cond.comparison_op == "!=":
# # if_true something != 0 -> if_true something
# cond.comparison_op, cond.rvalue = "", None
# simplified = True
# elif cond.ifstatus in ("not", "eq"):
# if cond.comparison_op == "==":
# # if_not something == 0 -> if_true something
# cond.ifstatus = "true"
# cond.comparison_op, cond.rvalue = "", None
# simplified = True
# elif cond.comparison_op == "!=":
# # if_not something != 0 -> if_not something
# cond.comparison_op, cond.rvalue = "", None
# simplified = True
# if simplified:
# print("{}: simplified comparison with zero".format(stmt.sourceref))
def remove_empty_blocks(self) -> None:
# remove blocks without name and without address, or that are empty
for node in self.module.all_nodes():
if isinstance(node, (Subroutine, Block)):
if not node.scope:
continue
if all(isinstance(n, Directive) for n in node.scope.nodes):
empty = True
for n in node.scope.nodes:
empty = empty and n.name not in {"asmbinary", "asminclude"}
if empty:
self.num_warnings += 1
print_warning("ignoring empty block or subroutine", node.sourceref)
assert isinstance(node.parent, (Block, Module))
node.my_scope().nodes.remove(node)
if isinstance(node, Block):
if not node.name and node.address is None:
self.num_warnings += 1
print_warning("ignoring block without name and address", node.sourceref)
assert isinstance(node.parent, Module)
node.my_scope().nodes.remove(node)
def optimize(mod: Module) -> None:
opt = Optimizer(mod)
opt.optimize()
if opt.num_warnings:
print_bold("There are {:d} optimization warnings.".format(opt.num_warnings))