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/*
* Copyright (C) 2015 The Android Open Source Project
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#include "intrinsics.h"
#include "dex/quick/dex_file_method_inliner.h"
#include "dex/quick/dex_file_to_method_inliner_map.h"
#include "driver/compiler_driver.h"
#include "invoke_type.h"
#include "nodes.h"
#include "quick/inline_method_analyser.h"
namespace art {
// Function that returns whether an intrinsic is static/direct or virtual.
static inline InvokeType GetIntrinsicInvokeType(Intrinsics i) {
switch (i) {
case Intrinsics::kNone:
return kInterface; // Non-sensical for intrinsic.
#define OPTIMIZING_INTRINSICS(Name, IsStatic) \
case Intrinsics::k ## Name: \
return IsStatic;
#include "intrinsics_list.h"
INTRINSICS_LIST(OPTIMIZING_INTRINSICS)
#undef INTRINSICS_LIST
#undef OPTIMIZING_INTRINSICS
}
return kInterface;
}
static Primitive::Type GetType(uint64_t data, bool is_op_size) {
if (is_op_size) {
switch (static_cast<OpSize>(data)) {
case kSignedByte:
return Primitive::kPrimByte;
case kSignedHalf:
return Primitive::kPrimShort;
case k32:
return Primitive::kPrimInt;
case k64:
return Primitive::kPrimLong;
default:
LOG(FATAL) << "Unknown/unsupported op size " << data;
UNREACHABLE();
}
} else {
if ((data & kIntrinsicFlagIsLong) != 0) {
return Primitive::kPrimLong;
}
if ((data & kIntrinsicFlagIsObject) != 0) {
return Primitive::kPrimNot;
}
return Primitive::kPrimInt;
}
}
static Intrinsics GetIntrinsic(InlineMethod method) {
switch (method.opcode) {
// Floating-point conversions.
case kIntrinsicDoubleCvt:
return ((method.d.data & kIntrinsicFlagToFloatingPoint) == 0) ?
Intrinsics::kDoubleDoubleToRawLongBits : Intrinsics::kDoubleLongBitsToDouble;
case kIntrinsicFloatCvt:
return ((method.d.data & kIntrinsicFlagToFloatingPoint) == 0) ?
Intrinsics::kFloatFloatToRawIntBits : Intrinsics::kFloatIntBitsToFloat;
// Bit manipulations.
case kIntrinsicReverseBits:
switch (GetType(method.d.data, true)) {
case Primitive::kPrimInt:
return Intrinsics::kIntegerReverse;
case Primitive::kPrimLong:
return Intrinsics::kLongReverse;
default:
LOG(FATAL) << "Unknown/unsupported op size " << method.d.data;
UNREACHABLE();
}
case kIntrinsicReverseBytes:
switch (GetType(method.d.data, true)) {
case Primitive::kPrimShort:
return Intrinsics::kShortReverseBytes;
case Primitive::kPrimInt:
return Intrinsics::kIntegerReverseBytes;
case Primitive::kPrimLong:
return Intrinsics::kLongReverseBytes;
default:
LOG(FATAL) << "Unknown/unsupported op size " << method.d.data;
UNREACHABLE();
}
// Abs.
case kIntrinsicAbsDouble:
return Intrinsics::kMathAbsDouble;
case kIntrinsicAbsFloat:
return Intrinsics::kMathAbsFloat;
case kIntrinsicAbsInt:
return Intrinsics::kMathAbsInt;
case kIntrinsicAbsLong:
return Intrinsics::kMathAbsLong;
// Min/max.
case kIntrinsicMinMaxDouble:
return ((method.d.data & kIntrinsicFlagMin) == 0) ?
Intrinsics::kMathMaxDoubleDouble : Intrinsics::kMathMinDoubleDouble;
case kIntrinsicMinMaxFloat:
return ((method.d.data & kIntrinsicFlagMin) == 0) ?
Intrinsics::kMathMaxFloatFloat : Intrinsics::kMathMinFloatFloat;
case kIntrinsicMinMaxInt:
return ((method.d.data & kIntrinsicFlagMin) == 0) ?
Intrinsics::kMathMaxIntInt : Intrinsics::kMathMinIntInt;
case kIntrinsicMinMaxLong:
return ((method.d.data & kIntrinsicFlagMin) == 0) ?
Intrinsics::kMathMaxLongLong : Intrinsics::kMathMinLongLong;
// Misc math.
case kIntrinsicSqrt:
return Intrinsics::kMathSqrt;
case kIntrinsicCeil:
return Intrinsics::kMathCeil;
case kIntrinsicFloor:
return Intrinsics::kMathFloor;
case kIntrinsicRint:
return Intrinsics::kMathRint;
case kIntrinsicRoundDouble:
return Intrinsics::kMathRoundDouble;
case kIntrinsicRoundFloat:
return Intrinsics::kMathRoundFloat;
// System.arraycopy.
case kIntrinsicSystemArrayCopyCharArray:
return Intrinsics::kSystemArrayCopyChar;
// Thread.currentThread.
case kIntrinsicCurrentThread:
return Intrinsics::kThreadCurrentThread;
// Memory.peek.
case kIntrinsicPeek:
switch (GetType(method.d.data, true)) {
case Primitive::kPrimByte:
return Intrinsics::kMemoryPeekByte;
case Primitive::kPrimShort:
return Intrinsics::kMemoryPeekShortNative;
case Primitive::kPrimInt:
return Intrinsics::kMemoryPeekIntNative;
case Primitive::kPrimLong:
return Intrinsics::kMemoryPeekLongNative;
default:
LOG(FATAL) << "Unknown/unsupported op size " << method.d.data;
UNREACHABLE();
}
// Memory.poke.
case kIntrinsicPoke:
switch (GetType(method.d.data, true)) {
case Primitive::kPrimByte:
return Intrinsics::kMemoryPokeByte;
case Primitive::kPrimShort:
return Intrinsics::kMemoryPokeShortNative;
case Primitive::kPrimInt:
return Intrinsics::kMemoryPokeIntNative;
case Primitive::kPrimLong:
return Intrinsics::kMemoryPokeLongNative;
default:
LOG(FATAL) << "Unknown/unsupported op size " << method.d.data;
UNREACHABLE();
}
// String.
case kIntrinsicCharAt:
return Intrinsics::kStringCharAt;
case kIntrinsicCompareTo:
return Intrinsics::kStringCompareTo;
case kIntrinsicGetCharsNoCheck:
return Intrinsics::kStringGetCharsNoCheck;
case kIntrinsicIsEmptyOrLength:
// The inliner can handle these two cases - and this is the preferred approach
// since after inlining the call is no longer visible (as opposed to waiting
// until codegen to handle intrinsic).
return Intrinsics::kNone;
case kIntrinsicIndexOf:
return ((method.d.data & kIntrinsicFlagBase0) == 0) ?
Intrinsics::kStringIndexOfAfter : Intrinsics::kStringIndexOf;
case kIntrinsicNewStringFromBytes:
return Intrinsics::kStringNewStringFromBytes;
case kIntrinsicNewStringFromChars:
return Intrinsics::kStringNewStringFromChars;
case kIntrinsicNewStringFromString:
return Intrinsics::kStringNewStringFromString;
case kIntrinsicCas:
switch (GetType(method.d.data, false)) {
case Primitive::kPrimNot:
return Intrinsics::kUnsafeCASObject;
case Primitive::kPrimInt:
return Intrinsics::kUnsafeCASInt;
case Primitive::kPrimLong:
return Intrinsics::kUnsafeCASLong;
default:
LOG(FATAL) << "Unknown/unsupported op size " << method.d.data;
UNREACHABLE();
}
case kIntrinsicUnsafeGet: {
const bool is_volatile = (method.d.data & kIntrinsicFlagIsVolatile);
switch (GetType(method.d.data, false)) {
case Primitive::kPrimInt:
return is_volatile ? Intrinsics::kUnsafeGetVolatile : Intrinsics::kUnsafeGet;
case Primitive::kPrimLong:
return is_volatile ? Intrinsics::kUnsafeGetLongVolatile : Intrinsics::kUnsafeGetLong;
case Primitive::kPrimNot:
return is_volatile ? Intrinsics::kUnsafeGetObjectVolatile : Intrinsics::kUnsafeGetObject;
default:
LOG(FATAL) << "Unknown/unsupported op size " << method.d.data;
UNREACHABLE();
}
}
case kIntrinsicUnsafePut: {
enum Sync { kNoSync, kVolatile, kOrdered };
const Sync sync =
((method.d.data & kIntrinsicFlagIsVolatile) != 0) ? kVolatile :
((method.d.data & kIntrinsicFlagIsOrdered) != 0) ? kOrdered :
kNoSync;
switch (GetType(method.d.data, false)) {
case Primitive::kPrimInt:
switch (sync) {
case kNoSync:
return Intrinsics::kUnsafePut;
case kVolatile:
return Intrinsics::kUnsafePutVolatile;
case kOrdered:
return Intrinsics::kUnsafePutOrdered;
}
break;
case Primitive::kPrimLong:
switch (sync) {
case kNoSync:
return Intrinsics::kUnsafePutLong;
case kVolatile:
return Intrinsics::kUnsafePutLongVolatile;
case kOrdered:
return Intrinsics::kUnsafePutLongOrdered;
}
break;
case Primitive::kPrimNot:
switch (sync) {
case kNoSync:
return Intrinsics::kUnsafePutObject;
case kVolatile:
return Intrinsics::kUnsafePutObjectVolatile;
case kOrdered:
return Intrinsics::kUnsafePutObjectOrdered;
}
break;
default:
LOG(FATAL) << "Unknown/unsupported op size " << method.d.data;
UNREACHABLE();
}
break;
}
// Virtual cases.
case kIntrinsicReferenceGetReferent:
return Intrinsics::kReferenceGetReferent;
// Quick inliner cases. Remove after refactoring. They are here so that we can use the
// compiler to warn on missing cases.
case kInlineOpNop:
case kInlineOpReturnArg:
case kInlineOpNonWideConst:
case kInlineOpIGet:
case kInlineOpIPut:
return Intrinsics::kNone;
// String init cases, not intrinsics.
case kInlineStringInit:
return Intrinsics::kNone;
// No default case to make the compiler warn on missing cases.
}
return Intrinsics::kNone;
}
static bool CheckInvokeType(Intrinsics intrinsic, HInvoke* invoke) {
// The DexFileMethodInliner should have checked whether the methods are agreeing with
// what we expect, i.e., static methods are called as such. Add another check here for
// our expectations:
// Whenever the intrinsic is marked as static-or-direct, report an error if we find an
// InvokeVirtual. The other direction is not possible: we have intrinsics for virtual
// functions that will perform a check inline. If the precise type is known, however,
// the instruction will be sharpened to an InvokeStaticOrDirect.
InvokeType intrinsic_type = GetIntrinsicInvokeType(intrinsic);
InvokeType invoke_type = invoke->IsInvokeStaticOrDirect() ?
invoke->AsInvokeStaticOrDirect()->GetInvokeType() :
invoke->IsInvokeVirtual() ? kVirtual : kSuper;
switch (intrinsic_type) {
case kStatic:
return (invoke_type == kStatic);
case kDirect:
return (invoke_type == kDirect);
case kVirtual:
// Call might be devirtualized.
return (invoke_type == kVirtual || invoke_type == kDirect);
default:
return false;
}
}
// TODO: Refactor DexFileMethodInliner and have something nicer than InlineMethod.
void IntrinsicsRecognizer::Run() {
DexFileMethodInliner* inliner = driver_->GetMethodInlinerMap()->GetMethodInliner(dex_file_);
DCHECK(inliner != nullptr);
for (HReversePostOrderIterator it(*graph_); !it.Done(); it.Advance()) {
HBasicBlock* block = it.Current();
for (HInstructionIterator inst_it(block->GetInstructions()); !inst_it.Done();
inst_it.Advance()) {
HInstruction* inst = inst_it.Current();
if (inst->IsInvoke()) {
HInvoke* invoke = inst->AsInvoke();
InlineMethod method;
if (inliner->IsIntrinsic(invoke->GetDexMethodIndex(), &method)) {
Intrinsics intrinsic = GetIntrinsic(method);
if (intrinsic != Intrinsics::kNone) {
if (!CheckInvokeType(intrinsic, invoke)) {
LOG(WARNING) << "Found an intrinsic with unexpected invoke type: "
<< intrinsic << " for "
<< PrettyMethod(invoke->GetDexMethodIndex(), *dex_file_);
} else {
invoke->SetIntrinsic(intrinsic);
}
}
}
}
}
}
}
std::ostream& operator<<(std::ostream& os, const Intrinsics& intrinsic) {
switch (intrinsic) {
case Intrinsics::kNone:
os << "No intrinsic.";
break;
#define OPTIMIZING_INTRINSICS(Name, IsStatic) \
case Intrinsics::k ## Name: \
os << # Name; \
break;
#include "intrinsics_list.h"
INTRINSICS_LIST(OPTIMIZING_INTRINSICS)
#undef STATIC_INTRINSICS_LIST
#undef VIRTUAL_INTRINSICS_LIST
#undef OPTIMIZING_INTRINSICS
}
return os;
}
} // namespace art