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/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -*-
* vim: set ts=8 sts=2 et sw=2 tw=80:
* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
#include "jit/InstructionReordering.h"
#include "jit/MIRGraph.h"
using namespace js;
using namespace js::jit;
static void MoveBefore(MBasicBlock* block, MInstruction* at,
MInstruction* ins) {
if (at == ins) {
return;
}
// Update instruction numbers.
for (MInstructionIterator iter(block->begin(at)); *iter != ins; iter++) {
MOZ_ASSERT(iter->id() < ins->id());
iter->setId(iter->id() + 1);
}
ins->setId(at->id() - 1);
block->moveBefore(at, ins);
}
static bool IsLastUse(MDefinition* ins, MDefinition* input,
MBasicBlock* loopHeader) {
// If we are in a loop, this cannot be the last use of any definitions from
// outside the loop, as those definitions can be used in future iterations.
if (loopHeader && input->block()->id() < loopHeader->id()) {
return false;
}
for (MUseDefIterator iter(input); iter; iter++) {
// Watch for uses defined in blocks which ReorderInstructions hasn't
// processed yet. These nodes have not had their ids set yet.
if (iter.def()->block()->id() > ins->block()->id()) {
return false;
}
if (iter.def()->id() > ins->id()) {
return false;
}
}
return true;
}
bool jit::ReorderInstructions(MIRGraph& graph) {
// Renumber all instructions in the graph as we go.
size_t nextId = 0;
// List of the headers of any loops we are in.
Vector<MBasicBlock*, 4, SystemAllocPolicy> loopHeaders;
for (ReversePostorderIterator block(graph.rpoBegin());
block != graph.rpoEnd(); block++) {
// Renumber all definitions inside the basic blocks.
for (MPhiIterator iter(block->phisBegin()); iter != block->phisEnd();
iter++) {
iter->setId(nextId++);
}
for (MInstructionIterator iter(block->begin()); iter != block->end();
iter++) {
iter->setId(nextId++);
}
// Don't reorder instructions within entry blocks, which have special
// requirements.
if (*block == graph.entryBlock() || *block == graph.osrBlock()) {
continue;
}
if (block->isLoopHeader()) {
if (!loopHeaders.append(*block)) {
return false;
}
}
MBasicBlock* innerLoop = loopHeaders.empty() ? nullptr : loopHeaders.back();
MInstruction* top = block->safeInsertTop();
MInstructionReverseIterator rtop = ++block->rbegin(top);
for (MInstructionIterator iter(block->begin(top)); iter != block->end();) {
MInstruction* ins = *iter;
// Filter out some instructions which are never reordered.
if (ins->isEffectful() || !ins->isMovable() || ins->resumePoint() ||
ins == block->lastIns()) {
iter++;
continue;
}
// Move constants with a single use in the current block to the
// start of the block. Constants won't be reordered by the logic
// below, as they have no inputs. Moving them up as high as
// possible can allow their use to be moved up further, though,
// and has no cost if the constant is emitted at its use.
if (ins->isConstant() && ins->hasOneUse() &&
ins->usesBegin()->consumer()->block() == *block &&
!IsFloatingPointType(ins->type())) {
iter++;
MInstructionIterator targetIter = block->begin();
while (targetIter->isConstant() || targetIter->isInterruptCheck()) {
if (*targetIter == ins) {
break;
}
targetIter++;
}
MoveBefore(*block, *targetIter, ins);
continue;
}
// Look for inputs where this instruction is the last use of that
// input. If we move this instruction up, the input's lifetime will
// be shortened, modulo resume point uses (which don't need to be
// stored in a register, and can be handled by the register
// allocator by just spilling at some point with no reload).
Vector<MDefinition*, 4, SystemAllocPolicy> lastUsedInputs;
for (size_t i = 0; i < ins->numOperands(); i++) {
MDefinition* input = ins->getOperand(i);
if (!input->isConstant() && IsLastUse(ins, input, innerLoop)) {
if (!lastUsedInputs.append(input)) {
return false;
}
}
}
// Don't try to move instructions which aren't the last use of any
// of their inputs (we really ought to move these down instead).
if (lastUsedInputs.length() < 2) {
iter++;
continue;
}
MInstruction* target = ins;
MInstruction* postCallTarget = nullptr;
for (MInstructionReverseIterator riter = ++block->rbegin(ins);
riter != rtop; riter++) {
MInstruction* prev = *riter;
if (prev->isInterruptCheck()) {
break;
}
// The instruction can't be moved before any of its uses.
bool isUse = false;
for (size_t i = 0; i < ins->numOperands(); i++) {
if (ins->getOperand(i) == prev) {
isUse = true;
break;
}
}
if (isUse) {
break;
}
// The instruction can't be moved before an instruction that
// stores to a location read by the instruction.
if (prev->isEffectful() &&
(ins->getAliasSet().flags() & prev->getAliasSet().flags()) &&
ins->mightAlias(prev) != MDefinition::AliasType::NoAlias) {
break;
}
// Make sure the instruction will still be the last use of one
// of its inputs when moved up this far.
for (size_t i = 0; i < lastUsedInputs.length();) {
bool found = false;
for (size_t j = 0; j < prev->numOperands(); j++) {
if (prev->getOperand(j) == lastUsedInputs[i]) {
found = true;
break;
}
}
if (found) {
lastUsedInputs[i] = lastUsedInputs.back();
lastUsedInputs.popBack();
} else {
i++;
}
}
if (lastUsedInputs.length() < 2) {
break;
}
// If we see a captured call result, either move the instruction before
// the corresponding call or don't move it at all.
if (prev->isCallResultCapture()) {
if (!postCallTarget) {
postCallTarget = target;
}
} else if (postCallTarget) {
MOZ_ASSERT(prev->isWasmCall() || prev->isIonToWasmCall());
postCallTarget = nullptr;
}
// We can move the instruction before this one.
target = prev;
}
if (postCallTarget) {
// We would have plonked this instruction between a call and its
// captured return value. Instead put it after the last corresponding
// return value.
target = postCallTarget;
}
iter++;
MoveBefore(*block, target, ins);
}
if (block->isLoopBackedge()) {
loopHeaders.popBack();
}
}
return true;
}
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