Mercurial > lcfOS
view python/transform.py @ 288:a747a45dcd78
Various styling work
author | Windel Bouwman |
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date | Thu, 21 Nov 2013 14:26:13 +0100 |
parents | 02385f62f250 |
children | 9417caea2eb3 |
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""" Transformation to optimize IR-code """ import logging import ir # Standard passes: class FunctionPass: def __init__(self): self.logger = logging.getLogger('optimize') def run(self, ir): """ Main entry point for the pass """ self.logger.info('Running pass {}'.format(type(self))) ir.check() self.prepare() for f in ir.Functions: self.onFunction(f) ir.check() def onFunction(self, f): """ Override this virtual method """ raise NotImplementedError() def prepare(self): pass class BasicBlockPass(FunctionPass): def onFunction(self, f): for bb in f.Blocks: self.onBasicBlock(bb) def onBasicBlock(self, bb): """ Override this virtual method """ raise NotImplementedError() class InstructionPass(BasicBlockPass): def onBasicBlock(self, bb): for ins in iter(bb.Instructions): self.onInstruction(ins) def onInstruction(self, ins): """ Override this virtual method """ raise NotImplementedError() class BasePass(BasicBlockPass): def onBasicBlock(self, bb): pass # Usefull transforms: class ConstantFolder(BasePass): def __init__(self): super().__init__() self.ops = {} self.ops['+'] = lambda x, y: x + y self.ops['-'] = lambda x, y: x - y self.ops['*'] = lambda x, y: x * y self.ops['<<'] = lambda x, y: x << y def postExpr(self, expr): if type(i) is BinaryOperator and i.operation in self.ops.keys() and type(i.a) is Const and type(i.b) is Const: vr = self.ops[i.operation](i.a.value, i.b.value) return Const(vr) else: return expr class DeadCodeDeleter(BasicBlockPass): def onBasicBlock(self, bb): def instructionUsed(ins): if not type(ins) in [ImmLoad, BinaryOperator]: return True if len(ins.defs) == 0: # In case this instruction does not define any # variables, assume it is usefull. return True return any(d.Used for d in ins.defs) change = True while change: change = False for i in bb.Instructions: if instructionUsed(i): continue bb.removeInstruction(i) change = True class CommonSubexpressionElimination(BasicBlockPass): def onBasicBlock(self, bb): constMap = {} to_remove = [] for i in bb.Instructions: if isinstance(i, ImmLoad): if i.value in constMap: t_new = constMap[i.value] t_old = i.target logging.debug('Replacing {} with {}'.format(t_old, t_new)) t_old.replaceby(t_new) to_remove.append(i) else: constMap[i.value] = i.target elif isinstance(i, BinaryOperator): k = (i.value1, i.operation, i.value2) if k in constMap: t_old = i.result t_new = constMap[k] logging.debug('Replacing {} with {}'.format(t_old, t_new)) t_old.replaceby(t_new) to_remove.append(i) else: constMap[k] = i.result for i in to_remove: logging.debug('removing {}'.format(i)) bb.removeInstruction(i) class CleanPass(FunctionPass): def onFunction(self, f): removeEmptyBasicBlocks(f) def removeEmptyBlocks(f): """ Remove empty basic blocks from function. """ # If a block only contains a branch, it can be removed: empty = lambda b: type(b.FirstInstruction) is ir.Jump empty_blocks = list(filter(empty, f.Blocks)) for b in empty_blocks: # Update predecessors preds = b.Predecessors if b not in preds + [f.entry]: # Do not remove if preceeded by itself tgt = b.LastInstruction.target for pred in preds: pred.LastInstruction.changeTarget(b, tgt) logging.debug('Removing empty block: {}'.format(b)) f.removeBlock(b)