StackTypeSet *
TypeInferenceOracle::getCallTarget(UnrootedScript caller, uint32_t argc, jsbytecode *pc)
{
JS_ASSERT(caller == this->script());
JS_ASSERT(js_CodeSpec[*pc].format & JOF_INVOKE && JSOp(*pc) != JSOP_EVAL);
ScriptAnalysis *analysis = script()->analysis();
return analysis->poppedTypes(pc, argc + 1);
}
bool
TypeInferenceOracle::analyzeTypesForInlinableCallees(JSContext *cx, JSScript *script,
Vector<JSScript*> &seen)
{
// Don't analyze scripts which will not be inlined (but always analyze the first script).
if (seen.length() > 0 && script->getUseCount() < js_IonOptions.usesBeforeInlining())
return true;
for (size_t i = 0; i < seen.length(); i++) {
if (seen[i] == script)
return true;
}
if (!seen.append(script))
return false;
if (!script->ensureRanInference(cx))
return false;
ScriptAnalysis *analysis = script->analysis();
JS_ASSERT(analysis->ranInference());
for (jsbytecode *pc = script->code;
pc < script->code + script->length;
pc += GetBytecodeLength(pc))
{
if (!(js_CodeSpec[*pc].format & JOF_INVOKE))
continue;
if (!analysis->maybeCode(pc))
continue;
uint32_t argc = GET_ARGC(pc);
StackTypeSet *calleeTypes = analysis->poppedTypes(pc, argc + 1);
if (!analyzeTypesForInlinableCallees(cx, calleeTypes, seen))
return false;
// For foo.call() and foo.apply(), also look for any callees in the
// 'this' types of the call, which might be inlined by Ion.
if (*pc == JSOP_FUNCALL || *pc == JSOP_FUNAPPLY) {
StackTypeSet *thisTypes = analysis->poppedTypes(pc, argc);
if (!analyzeTypesForInlinableCallees(cx, thisTypes, seen))
return false;
}
}
return true;
}
bool
TypeInferenceOracle::getOsrTypes(jsbytecode *osrPc, Vector<MIRType> &slotTypes)
{
JS_ASSERT(JSOp(*osrPc) == JSOP_LOOPENTRY);
JS_ASSERT(script()->code < osrPc);
JS_ASSERT(osrPc < script()->code + script()->length);
Vector<types::StackTypeSet *> slotTypeSets(cx);
if (!slotTypeSets.resize(TotalSlots(script())))
return false;
for (uint32_t slot = ThisSlot(); slot < TotalSlots(script()); slot++)
slotTypeSets[slot] = TypeScript::SlotTypes(script(), slot);
jsbytecode *pc = script()->code;
ScriptAnalysis *analysis = script()->analysis();
// To determine the slot types at the OSR pc, we have to do a forward walk
// over the bytecode to reconstruct the types.
for (;;) {
Bytecode *opinfo = analysis->maybeCode(pc);
if (opinfo) {
if (opinfo->jumpTarget) {
// Update variable types for all new values at this bytecode.
if (const SlotValue *newv = analysis->newValues(pc)) {
while (newv->slot) {
if (newv->slot < TotalSlots(script()))
slotTypeSets[newv->slot] = analysis->getValueTypes(newv->value);
newv++;
}
}
}
if (BytecodeUpdatesSlot(JSOp(*pc))) {
uint32_t slot = GetBytecodeSlot(script(), pc);
if (analysis->trackSlot(slot))
slotTypeSets[slot] = analysis->pushedTypes(pc, 0);
}
}
if (pc == osrPc)
break;
pc += GetBytecodeLength(pc);
}
JS_ASSERT(pc == osrPc);
// TI always includes the |this| slot, but Ion only does so for function
// scripts. This means we have to subtract 1 for global/eval scripts.
JS_ASSERT(ThisSlot() == 1);
JS_ASSERT(ArgSlot(0) == 2);
#ifdef DEBUG
uint32_t stackDepth = analysis->getCode(osrPc).stackDepth;
#endif
if (script()->function()) {
JS_ASSERT(slotTypes.length() == TotalSlots(script()) + stackDepth);
for (size_t i = ThisSlot(); i < TotalSlots(script()); i++)
slotTypes[i] = getMIRType(slotTypeSets[i]);
} else {
JS_ASSERT(slotTypes.length() == TotalSlots(script()) + stackDepth - 1);
for (size_t i = ArgSlot(0); i < TotalSlots(script()); i++)
slotTypes[i - 1] = getMIRType(slotTypeSets[i]);
}
return true;
}