/* -*- 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/WarpBuilderShared.h"
#include "jit/MIRGenerator.h"
#include "jit/MIRGraph.h"
using namespace js;
using namespace js::jit;
WarpBuilderShared::WarpBuilderShared(WarpSnapshot& snapshot,
MIRGenerator& mirGen,
MBasicBlock* current_)
: snapshot_(snapshot),
mirGen_(mirGen),
alloc_(mirGen.alloc()),
current(current_) {}
bool WarpBuilderShared::resumeAfter(MInstruction* ins, BytecodeLocation loc) {
// resumeAfter should only be used with effectful instructions. The only
// exceptions are:
// 1. MInt64ToBigInt, which is used to convert the result of either a call
// into Wasm code or loading from a BigIntArray, so we attach the resume
// point to that instead of to the call resp. load.
// 2. MPostIntPtrConversion which is used after conversion from IntPtr.
MOZ_ASSERT(ins->isEffectful() || ins->isInt64ToBigInt() ||
ins->isPostIntPtrConversion());
MOZ_ASSERT(!ins->isMovable());
MResumePoint* resumePoint = MResumePoint::
New(
alloc(), ins->block(), loc.toRawBytecode(), ResumeMode::ResumeAfter);
if (!resumePoint) {
return false;
}
ins->setResumePoint(resumePoint);
return true;
}
MConstant* WarpBuilderShared::constant(
const Value& v) {
MOZ_ASSERT_IF(v.isString(), v.toString()->isLinear());
MOZ_ASSERT_IF(v.isGCThing(), !IsInsideNursery(v.toGCThing()));
MConstant* cst = MConstant::
New(alloc(), v);
current->add(cst);
return cst;
}
void WarpBuilderShared::pushConstant(
const Value& v) {
MConstant* cst = constant(v);
current->push(cst);
}
MDefinition* WarpBuilderShared::unboxObjectInfallible(MDefinition* def,
IsMovable movable) {
if (def->type() == MIRType::Object) {
return def;
}
if (def->type() != MIRType::Value) {
// Corner case: if the MIR node has a type other than Object or Value, this
// code isn't actually reachable and we expect an earlier guard to fail.
// Just insert a Box to satisfy MIR invariants.
MOZ_ASSERT(movable == IsMovable::No);
auto* box = MBox::
New(alloc(), def);
current->add(box);
def = box;
}
auto* unbox = MUnbox::
New(alloc(), def, MIRType::Object, MUnbox::Infallible);
if (movable == IsMovable::No) {
unbox->setNotMovable();
}
current->add(unbox);
return unbox;
}
MCall* WarpBuilderShared::makeCall(CallInfo& callInfo,
bool needsThisCheck,
WrappedFunction* target,
bool isDOMCall,
gc::Heap initialHeap) {
auto addUndefined = [
this]() -> MConstant* {
return constant(UndefinedValue());
};
return MakeCall(alloc(), addUndefined, callInfo, needsThisCheck, target,
isDOMCall, initialHeap);
}
MInstruction* WarpBuilderShared::makeSpreadCall(CallInfo& callInfo,
bool needsThisCheck,
bool isSameRealm,
WrappedFunction* target) {
MOZ_ASSERT(callInfo.argFormat() == CallInfo::ArgFormat::Array);
MOZ_ASSERT_IF(needsThisCheck, !target);
// Load dense elements of the argument array.
MElements* elements = MElements::
New(alloc(), callInfo.arrayArg());
current->add(elements);
if (callInfo.constructing()) {
auto* newTarget = unboxObjectInfallible(callInfo.getNewTarget());
auto* construct =
MConstructArray::
New(alloc(), target, callInfo.callee(), elements,
callInfo.thisArg(), newTarget);
if (isSameRealm) {
construct->setNotCrossRealm();
}
if (needsThisCheck) {
construct->setNeedsThisCheck();
}
return construct;
}
auto* apply = MApplyArray::
New(alloc(), target, callInfo.callee(), elements,
callInfo.thisArg());
if (callInfo.ignoresReturnValue()) {
apply->setIgnoresReturnValue();
}
if (isSameRealm) {
apply->setNotCrossRealm();
}
MOZ_ASSERT(!needsThisCheck);
return apply;
}
