| /* |
| * Copyright (C) 2015-2019 Apple Inc. All rights reserved. |
| * |
| * Redistribution and use in source and binary forms, with or without |
| * modification, are permitted provided that the following conditions |
| * are met: |
| * 1. Redistributions of source code must retain the above copyright |
| * notice, this list of conditions and the following disclaimer. |
| * 2. Redistributions in binary form must reproduce the above copyright |
| * notice, this list of conditions and the following disclaimer in the |
| * documentation and/or other materials provided with the distribution. |
| * |
| * THIS SOFTWARE IS PROVIDED BY APPLE INC. ``AS IS'' AND ANY |
| * EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE |
| * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR |
| * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL APPLE INC. OR |
| * CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, |
| * EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, |
| * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR |
| * PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY |
| * OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT |
| * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE |
| * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. |
| */ |
| |
| #include "config.h" |
| #include "testb3.h" |
| |
| #if ENABLE(B3_JIT) |
| |
| Lock crashLock; |
| |
| bool shouldRun(const char* filter, const char* testName) |
| { |
| // FIXME: These tests fail <https://bugs.webkit.org/show_bug.cgi?id=199330>. |
| if (!filter && isARM64()) { |
| for (auto& failingTest : { |
| "testNegFloatWithUselessDoubleConversion", |
| "testPinRegisters", |
| }) { |
| if (WTF::findIgnoringASCIICaseWithoutLength(testName, failingTest) != WTF::notFound) { |
| dataLogLn("*** Warning: Skipping known-bad test: ", testName); |
| return false; |
| } |
| } |
| } |
| return !filter || WTF::findIgnoringASCIICaseWithoutLength(testName, filter) != WTF::notFound; |
| } |
| |
| template<typename T> |
| void testRotR(T valueInt, int32_t shift) |
| { |
| Procedure proc; |
| BasicBlock* root = proc.addBlock(); |
| |
| Value* value = root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0); |
| if (sizeof(T) == 4) |
| value = root->appendNew<Value>(proc, Trunc, Origin(), value); |
| |
| Value* ammount = root->appendNew<Value>(proc, Trunc, Origin(), |
| root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR1)); |
| root->appendNewControlValue(proc, Return, Origin(), |
| root->appendNew<Value>(proc, RotR, Origin(), value, ammount)); |
| |
| CHECK_EQ(compileAndRun<T>(proc, valueInt, shift), rotateRight(valueInt, shift)); |
| } |
| |
| template<typename T> |
| void testRotL(T valueInt, int32_t shift) |
| { |
| Procedure proc; |
| BasicBlock* root = proc.addBlock(); |
| |
| Value* value = root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0); |
| if (sizeof(T) == 4) |
| value = root->appendNew<Value>(proc, Trunc, Origin(), value); |
| |
| Value* ammount = root->appendNew<Value>(proc, Trunc, Origin(), |
| root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR1)); |
| root->appendNewControlValue(proc, Return, Origin(), |
| root->appendNew<Value>(proc, RotL, Origin(), value, ammount)); |
| |
| CHECK_EQ(compileAndRun<T>(proc, valueInt, shift), rotateLeft(valueInt, shift)); |
| } |
| |
| |
| template<typename T> |
| void testRotRWithImmShift(T valueInt, int32_t shift) |
| { |
| Procedure proc; |
| BasicBlock* root = proc.addBlock(); |
| |
| Value* value = root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0); |
| if (sizeof(T) == 4) |
| value = root->appendNew<Value>(proc, Trunc, Origin(), value); |
| |
| Value* ammount = root->appendIntConstant(proc, Origin(), Int32, shift); |
| root->appendNewControlValue(proc, Return, Origin(), |
| root->appendNew<Value>(proc, RotR, Origin(), value, ammount)); |
| |
| CHECK_EQ(compileAndRun<T>(proc, valueInt, shift), rotateRight(valueInt, shift)); |
| } |
| |
| template<typename T> |
| void testRotLWithImmShift(T valueInt, int32_t shift) |
| { |
| Procedure proc; |
| BasicBlock* root = proc.addBlock(); |
| |
| Value* value = root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0); |
| if (sizeof(T) == 4) |
| value = root->appendNew<Value>(proc, Trunc, Origin(), value); |
| |
| Value* ammount = root->appendIntConstant(proc, Origin(), Int32, shift); |
| root->appendNewControlValue(proc, Return, Origin(), |
| root->appendNew<Value>(proc, RotL, Origin(), value, ammount)); |
| |
| CHECK_EQ(compileAndRun<T>(proc, valueInt, shift), rotateLeft(valueInt, shift)); |
| } |
| |
| template<typename T> |
| void testComputeDivisionMagic(T value, T magicMultiplier, unsigned shift) |
| { |
| DivisionMagic<T> magic = computeDivisionMagic(value); |
| CHECK(magic.magicMultiplier == magicMultiplier); |
| CHECK(magic.shift == shift); |
| } |
| |
| void run(const char* filter) |
| { |
| Deque<RefPtr<SharedTask<void()>>> tasks; |
| |
| RUN_NOW(testTerminalPatchpointThatNeedsToBeSpilled2()); |
| RUN(test42()); |
| RUN(testLoad42()); |
| RUN(testLoadAcq42()); |
| RUN(testLoadOffsetImm9Max()); |
| RUN(testLoadOffsetImm9MaxPlusOne()); |
| RUN(testLoadOffsetImm9MaxPlusTwo()); |
| RUN(testLoadOffsetImm9Min()); |
| RUN(testLoadOffsetImm9MinMinusOne()); |
| RUN(testLoadOffsetScaledUnsignedImm12Max()); |
| RUN(testLoadOffsetScaledUnsignedOverImm12Max()); |
| RUN(testArg(43)); |
| RUN(testReturnConst64(5)); |
| RUN(testReturnConst64(-42)); |
| RUN(testReturnVoid()); |
| |
| RUN_UNARY(testAddTreeArg32, int32Operands()); |
| RUN_UNARY(testMulTreeArg32, int32Operands()); |
| |
| addArgTests(filter, tasks); |
| |
| RUN_UNARY(testNegDouble, floatingPointOperands<double>()); |
| RUN_UNARY(testNegFloat, floatingPointOperands<float>()); |
| RUN_UNARY(testNegFloatWithUselessDoubleConversion, floatingPointOperands<float>()); |
| |
| addBitTests(filter, tasks); |
| |
| RUN(testShlArgs(1, 0)); |
| RUN(testShlArgs(1, 1)); |
| RUN(testShlArgs(1, 62)); |
| RUN(testShlArgs(0xffffffffffffffff, 0)); |
| RUN(testShlArgs(0xffffffffffffffff, 1)); |
| RUN(testShlArgs(0xffffffffffffffff, 63)); |
| RUN(testShlImms(1, 0)); |
| RUN(testShlImms(1, 1)); |
| RUN(testShlImms(1, 62)); |
| RUN(testShlImms(1, 65)); |
| RUN(testShlImms(0xffffffffffffffff, 0)); |
| RUN(testShlImms(0xffffffffffffffff, 1)); |
| RUN(testShlImms(0xffffffffffffffff, 63)); |
| RUN(testShlArgImm(1, 0)); |
| RUN(testShlArgImm(1, 1)); |
| RUN(testShlArgImm(1, 62)); |
| RUN(testShlArgImm(1, 65)); |
| RUN(testShlArgImm(0xffffffffffffffff, 0)); |
| RUN(testShlArgImm(0xffffffffffffffff, 1)); |
| RUN(testShlArgImm(0xffffffffffffffff, 63)); |
| RUN(testShlSShrArgImm(1, 0)); |
| RUN(testShlSShrArgImm(1, 1)); |
| RUN(testShlSShrArgImm(1, 62)); |
| RUN(testShlSShrArgImm(1, 65)); |
| RUN(testShlSShrArgImm(0xffffffffffffffff, 0)); |
| RUN(testShlSShrArgImm(0xffffffffffffffff, 1)); |
| RUN(testShlSShrArgImm(0xffffffffffffffff, 63)); |
| RUN(testShlArg32(2)); |
| RUN(testShlArgs32(1, 0)); |
| RUN(testShlArgs32(1, 1)); |
| RUN(testShlArgs32(1, 62)); |
| RUN(testShlImms32(1, 33)); |
| RUN(testShlArgs32(0xffffffff, 0)); |
| RUN(testShlArgs32(0xffffffff, 1)); |
| RUN(testShlArgs32(0xffffffff, 63)); |
| RUN(testShlImms32(1, 0)); |
| RUN(testShlImms32(1, 1)); |
| RUN(testShlImms32(1, 62)); |
| RUN(testShlImms32(1, 33)); |
| RUN(testShlImms32(0xffffffff, 0)); |
| RUN(testShlImms32(0xffffffff, 1)); |
| RUN(testShlImms32(0xffffffff, 63)); |
| RUN(testShlArgImm32(1, 0)); |
| RUN(testShlArgImm32(1, 1)); |
| RUN(testShlArgImm32(1, 62)); |
| RUN(testShlArgImm32(1, 33)); |
| RUN(testShlArgImm32(0xffffffff, 0)); |
| RUN(testShlArgImm32(0xffffffff, 1)); |
| RUN(testShlArgImm32(0xffffffff, 63)); |
| RUN(testShlZShrArgImm32(1, 0)); |
| RUN(testShlZShrArgImm32(1, 1)); |
| RUN(testShlZShrArgImm32(1, 62)); |
| RUN(testShlZShrArgImm32(1, 33)); |
| RUN(testShlZShrArgImm32(0xffffffff, 0)); |
| RUN(testShlZShrArgImm32(0xffffffff, 1)); |
| RUN(testShlZShrArgImm32(0xffffffff, 63)); |
| |
| addShrTests(filter, tasks); |
| |
| RUN_UNARY(testClzArg64, int64Operands()); |
| RUN_UNARY(testClzMem64, int64Operands()); |
| RUN_UNARY(testClzArg32, int32Operands()); |
| RUN_UNARY(testClzMem32, int64Operands()); |
| |
| RUN_UNARY(testAbsArg, floatingPointOperands<double>()); |
| RUN_UNARY(testAbsImm, floatingPointOperands<double>()); |
| RUN_UNARY(testAbsMem, floatingPointOperands<double>()); |
| RUN_UNARY(testAbsAbsArg, floatingPointOperands<double>()); |
| RUN_UNARY(testAbsNegArg, floatingPointOperands<double>()); |
| RUN_UNARY(testAbsBitwiseCastArg, floatingPointOperands<double>()); |
| RUN_UNARY(testBitwiseCastAbsBitwiseCastArg, floatingPointOperands<double>()); |
| RUN_UNARY(testAbsArg, floatingPointOperands<float>()); |
| RUN_UNARY(testAbsImm, floatingPointOperands<float>()); |
| RUN_UNARY(testAbsMem, floatingPointOperands<float>()); |
| RUN_UNARY(testAbsAbsArg, floatingPointOperands<float>()); |
| RUN_UNARY(testAbsNegArg, floatingPointOperands<float>()); |
| RUN_UNARY(testAbsBitwiseCastArg, floatingPointOperands<float>()); |
| RUN_UNARY(testBitwiseCastAbsBitwiseCastArg, floatingPointOperands<float>()); |
| RUN_UNARY(testAbsArgWithUselessDoubleConversion, floatingPointOperands<float>()); |
| RUN_UNARY(testAbsArgWithEffectfulDoubleConversion, floatingPointOperands<float>()); |
| |
| RUN_UNARY(testCeilArg, floatingPointOperands<double>()); |
| RUN_UNARY(testCeilImm, floatingPointOperands<double>()); |
| RUN_UNARY(testCeilMem, floatingPointOperands<double>()); |
| RUN_UNARY(testCeilCeilArg, floatingPointOperands<double>()); |
| RUN_UNARY(testFloorCeilArg, floatingPointOperands<double>()); |
| RUN_UNARY(testCeilIToD64, int64Operands()); |
| RUN_UNARY(testCeilIToD32, int32Operands()); |
| RUN_UNARY(testCeilArg, floatingPointOperands<float>()); |
| RUN_UNARY(testCeilImm, floatingPointOperands<float>()); |
| RUN_UNARY(testCeilMem, floatingPointOperands<float>()); |
| RUN_UNARY(testCeilCeilArg, floatingPointOperands<float>()); |
| RUN_UNARY(testFloorCeilArg, floatingPointOperands<float>()); |
| RUN_UNARY(testCeilArgWithUselessDoubleConversion, floatingPointOperands<float>()); |
| RUN_UNARY(testCeilArgWithEffectfulDoubleConversion, floatingPointOperands<float>()); |
| |
| RUN_UNARY(testFloorArg, floatingPointOperands<double>()); |
| RUN_UNARY(testFloorImm, floatingPointOperands<double>()); |
| RUN_UNARY(testFloorMem, floatingPointOperands<double>()); |
| RUN_UNARY(testFloorFloorArg, floatingPointOperands<double>()); |
| RUN_UNARY(testCeilFloorArg, floatingPointOperands<double>()); |
| RUN_UNARY(testFloorIToD64, int64Operands()); |
| RUN_UNARY(testFloorIToD32, int32Operands()); |
| RUN_UNARY(testFloorArg, floatingPointOperands<float>()); |
| RUN_UNARY(testFloorImm, floatingPointOperands<float>()); |
| RUN_UNARY(testFloorMem, floatingPointOperands<float>()); |
| RUN_UNARY(testFloorFloorArg, floatingPointOperands<float>()); |
| RUN_UNARY(testCeilFloorArg, floatingPointOperands<float>()); |
| RUN_UNARY(testFloorArgWithUselessDoubleConversion, floatingPointOperands<float>()); |
| RUN_UNARY(testFloorArgWithEffectfulDoubleConversion, floatingPointOperands<float>()); |
| |
| RUN_UNARY(testSqrtArg, floatingPointOperands<double>()); |
| RUN_UNARY(testSqrtImm, floatingPointOperands<double>()); |
| RUN_UNARY(testSqrtMem, floatingPointOperands<double>()); |
| RUN_UNARY(testSqrtArg, floatingPointOperands<float>()); |
| RUN_UNARY(testSqrtImm, floatingPointOperands<float>()); |
| RUN_UNARY(testSqrtMem, floatingPointOperands<float>()); |
| RUN_UNARY(testSqrtArgWithUselessDoubleConversion, floatingPointOperands<float>()); |
| RUN_UNARY(testSqrtArgWithEffectfulDoubleConversion, floatingPointOperands<float>()); |
| |
| RUN_BINARY(testCompareTwoFloatToDouble, floatingPointOperands<float>(), floatingPointOperands<float>()); |
| RUN_BINARY(testCompareOneFloatToDouble, floatingPointOperands<float>(), floatingPointOperands<double>()); |
| RUN_BINARY(testCompareFloatToDoubleThroughPhi, floatingPointOperands<float>(), floatingPointOperands<float>()); |
| RUN_UNARY(testDoubleToFloatThroughPhi, floatingPointOperands<float>()); |
| RUN(testReduceFloatToDoubleValidates()); |
| RUN_UNARY(testDoubleProducerPhiToFloatConversion, floatingPointOperands<float>()); |
| RUN_UNARY(testDoubleProducerPhiToFloatConversionWithDoubleConsumer, floatingPointOperands<float>()); |
| RUN_BINARY(testDoubleProducerPhiWithNonFloatConst, floatingPointOperands<float>(), floatingPointOperands<double>()); |
| |
| RUN_UNARY(testDoubleArgToInt64BitwiseCast, floatingPointOperands<double>()); |
| RUN_UNARY(testDoubleImmToInt64BitwiseCast, floatingPointOperands<double>()); |
| RUN_UNARY(testTwoBitwiseCastOnDouble, floatingPointOperands<double>()); |
| RUN_UNARY(testBitwiseCastOnDoubleInMemory, floatingPointOperands<double>()); |
| RUN_UNARY(testBitwiseCastOnDoubleInMemoryIndexed, floatingPointOperands<double>()); |
| RUN_UNARY(testInt64BArgToDoubleBitwiseCast, int64Operands()); |
| RUN_UNARY(testInt64BImmToDoubleBitwiseCast, int64Operands()); |
| RUN_UNARY(testTwoBitwiseCastOnInt64, int64Operands()); |
| RUN_UNARY(testBitwiseCastOnInt64InMemory, int64Operands()); |
| RUN_UNARY(testBitwiseCastOnInt64InMemoryIndexed, int64Operands()); |
| RUN_UNARY(testFloatImmToInt32BitwiseCast, floatingPointOperands<float>()); |
| RUN_UNARY(testBitwiseCastOnFloatInMemory, floatingPointOperands<float>()); |
| RUN_UNARY(testInt32BArgToFloatBitwiseCast, int32Operands()); |
| RUN_UNARY(testInt32BImmToFloatBitwiseCast, int32Operands()); |
| RUN_UNARY(testTwoBitwiseCastOnInt32, int32Operands()); |
| RUN_UNARY(testBitwiseCastOnInt32InMemory, int32Operands()); |
| |
| RUN_UNARY(testConvertDoubleToFloatArg, floatingPointOperands<double>()); |
| RUN_UNARY(testConvertDoubleToFloatImm, floatingPointOperands<double>()); |
| RUN_UNARY(testConvertDoubleToFloatMem, floatingPointOperands<double>()); |
| RUN_UNARY(testConvertFloatToDoubleArg, floatingPointOperands<float>()); |
| RUN_UNARY(testConvertFloatToDoubleImm, floatingPointOperands<float>()); |
| RUN_UNARY(testConvertFloatToDoubleMem, floatingPointOperands<float>()); |
| RUN_UNARY(testConvertDoubleToFloatToDoubleToFloat, floatingPointOperands<double>()); |
| RUN_UNARY(testStoreFloat, floatingPointOperands<double>()); |
| RUN_UNARY(testStoreDoubleConstantAsFloat, floatingPointOperands<double>()); |
| RUN_UNARY(testLoadFloatConvertDoubleConvertFloatStoreFloat, floatingPointOperands<float>()); |
| RUN_UNARY(testFroundArg, floatingPointOperands<double>()); |
| RUN_UNARY(testFroundMem, floatingPointOperands<double>()); |
| |
| RUN(testIToD64Arg()); |
| RUN(testIToF64Arg()); |
| RUN(testIToD32Arg()); |
| RUN(testIToF32Arg()); |
| RUN(testIToD64Mem()); |
| RUN(testIToF64Mem()); |
| RUN(testIToD32Mem()); |
| RUN(testIToF32Mem()); |
| RUN_UNARY(testIToD64Imm, int64Operands()); |
| RUN_UNARY(testIToF64Imm, int64Operands()); |
| RUN_UNARY(testIToD32Imm, int32Operands()); |
| RUN_UNARY(testIToF32Imm, int32Operands()); |
| RUN(testIToDReducedToIToF64Arg()); |
| RUN(testIToDReducedToIToF32Arg()); |
| |
| RUN_UNARY(testCheckAddRemoveCheckWithSExt8, int8Operands()); |
| RUN_UNARY(testCheckAddRemoveCheckWithSExt16, int16Operands()); |
| RUN_UNARY(testCheckAddRemoveCheckWithSExt32, int32Operands()); |
| RUN_UNARY(testCheckAddRemoveCheckWithZExt32, int32Operands()); |
| |
| RUN(testStore32(44)); |
| RUN(testStoreConstant(49)); |
| RUN(testStoreConstantPtr(49)); |
| RUN(testStore8Arg()); |
| RUN(testStore8Imm()); |
| RUN(testStorePartial8BitRegisterOnX86()); |
| RUN(testStore16Arg()); |
| RUN(testStore16Imm()); |
| RUN(testTrunc((static_cast<int64_t>(1) << 40) + 42)); |
| RUN(testAdd1(45)); |
| RUN(testAdd1Ptr(51)); |
| RUN(testAdd1Ptr(static_cast<intptr_t>(0xbaadbeef))); |
| RUN(testNeg32(52)); |
| RUN(testNegPtr(53)); |
| RUN(testStoreAddLoad32(46)); |
| RUN(testStoreRelAddLoadAcq32(46)); |
| RUN(testStoreAddLoadImm32(46)); |
| RUN(testStoreAddLoad64(4600)); |
| RUN(testStoreRelAddLoadAcq64(4600)); |
| RUN(testStoreAddLoadImm64(4600)); |
| RUN(testStoreAddLoad8(4, Load8Z)); |
| RUN(testStoreRelAddLoadAcq8(4, Load8Z)); |
| RUN(testStoreRelAddFenceLoadAcq8(4, Load8Z)); |
| RUN(testStoreAddLoadImm8(4, Load8Z)); |
| RUN(testStoreAddLoad8(4, Load8S)); |
| RUN(testStoreRelAddLoadAcq8(4, Load8S)); |
| RUN(testStoreAddLoadImm8(4, Load8S)); |
| RUN(testStoreAddLoad16(6, Load16Z)); |
| RUN(testStoreRelAddLoadAcq16(6, Load16Z)); |
| RUN(testStoreAddLoadImm16(6, Load16Z)); |
| RUN(testStoreAddLoad16(6, Load16S)); |
| RUN(testStoreRelAddLoadAcq16(6, Load16S)); |
| RUN(testStoreAddLoadImm16(6, Load16S)); |
| RUN(testStoreAddLoad32Index(46)); |
| RUN(testStoreAddLoadImm32Index(46)); |
| RUN(testStoreAddLoad64Index(4600)); |
| RUN(testStoreAddLoadImm64Index(4600)); |
| RUN(testStoreAddLoad8Index(4, Load8Z)); |
| RUN(testStoreAddLoadImm8Index(4, Load8Z)); |
| RUN(testStoreAddLoad8Index(4, Load8S)); |
| RUN(testStoreAddLoadImm8Index(4, Load8S)); |
| RUN(testStoreAddLoad16Index(6, Load16Z)); |
| RUN(testStoreAddLoadImm16Index(6, Load16Z)); |
| RUN(testStoreAddLoad16Index(6, Load16S)); |
| RUN(testStoreAddLoadImm16Index(6, Load16S)); |
| RUN(testStoreSubLoad(46)); |
| RUN(testStoreAddLoadInterference(52)); |
| RUN(testStoreAddAndLoad(47, 0xffff)); |
| RUN(testStoreAddAndLoad(470000, 0xffff)); |
| RUN(testStoreNegLoad32(54)); |
| RUN(testStoreNegLoadPtr(55)); |
| RUN(testAdd1Uncommuted(48)); |
| RUN(testLoadOffset()); |
| RUN(testLoadOffsetNotConstant()); |
| RUN(testLoadOffsetUsingAdd()); |
| RUN(testLoadOffsetUsingAddInterference()); |
| RUN(testLoadOffsetUsingAddNotConstant()); |
| RUN(testLoadAddrShift(0)); |
| RUN(testLoadAddrShift(1)); |
| RUN(testLoadAddrShift(2)); |
| RUN(testLoadAddrShift(3)); |
| RUN(testFramePointer()); |
| RUN(testOverrideFramePointer()); |
| RUN(testStackSlot()); |
| RUN(testLoadFromFramePointer()); |
| RUN(testStoreLoadStackSlot(50)); |
| |
| RUN(testBranch()); |
| RUN(testBranchPtr()); |
| RUN(testDiamond()); |
| RUN(testBranchNotEqual()); |
| RUN(testBranchNotEqualCommute()); |
| RUN(testBranchNotEqualNotEqual()); |
| RUN(testBranchEqual()); |
| RUN(testBranchEqualEqual()); |
| RUN(testBranchEqualCommute()); |
| RUN(testBranchEqualEqual1()); |
| RUN_BINARY(testBranchEqualOrUnorderedArgs, floatingPointOperands<double>(), floatingPointOperands<double>()); |
| RUN_BINARY(testBranchEqualOrUnorderedArgs, floatingPointOperands<float>(), floatingPointOperands<float>()); |
| RUN_BINARY(testBranchNotEqualAndOrderedArgs, floatingPointOperands<double>(), floatingPointOperands<double>()); |
| RUN_BINARY(testBranchNotEqualAndOrderedArgs, floatingPointOperands<float>(), floatingPointOperands<float>()); |
| RUN_BINARY(testBranchEqualOrUnorderedDoubleArgImm, floatingPointOperands<double>(), floatingPointOperands<double>()); |
| RUN_BINARY(testBranchEqualOrUnorderedFloatArgImm, floatingPointOperands<float>(), floatingPointOperands<float>()); |
| RUN_BINARY(testBranchEqualOrUnorderedDoubleImms, floatingPointOperands<double>(), floatingPointOperands<double>()); |
| RUN_BINARY(testBranchEqualOrUnorderedFloatImms, floatingPointOperands<float>(), floatingPointOperands<float>()); |
| RUN_BINARY(testBranchEqualOrUnorderedFloatWithUselessDoubleConversion, floatingPointOperands<float>(), floatingPointOperands<float>()); |
| RUN_BINARY(testBranchNotEqualAndOrderedArgs, floatingPointOperands<double>(), floatingPointOperands<double>()); |
| RUN_BINARY(testBranchNotEqualAndOrderedArgs, floatingPointOperands<float>(), floatingPointOperands<float>()); |
| RUN(testBranchFold(42)); |
| RUN(testBranchFold(0)); |
| RUN(testDiamondFold(42)); |
| RUN(testDiamondFold(0)); |
| RUN(testBranchNotEqualFoldPtr(42)); |
| RUN(testBranchNotEqualFoldPtr(0)); |
| RUN(testBranchEqualFoldPtr(42)); |
| RUN(testBranchEqualFoldPtr(0)); |
| RUN(testBranchLoadPtr()); |
| RUN(testBranchLoad32()); |
| RUN(testBranchLoad8S()); |
| RUN(testBranchLoad8Z()); |
| RUN(testBranchLoad16S()); |
| RUN(testBranchLoad16Z()); |
| RUN(testBranch8WithLoad8ZIndex()); |
| |
| RUN(testComplex(64, 128)); |
| RUN(testComplex(4, 128)); |
| RUN(testComplex(4, 256)); |
| RUN(testComplex(4, 384)); |
| |
| RUN_BINARY(testBranchBitTest32TmpImm, int32Operands(), int32Operands()); |
| RUN_BINARY(testBranchBitTest32AddrImm, int32Operands(), int32Operands()); |
| RUN_BINARY(testBranchBitTest32TmpTmp, int32Operands(), int32Operands()); |
| RUN_BINARY(testBranchBitTest64TmpTmp, int64Operands(), int64Operands()); |
| RUN_BINARY(testBranchBitTest64AddrTmp, int64Operands(), int64Operands()); |
| RUN_BINARY(testBranchBitTestNegation, int64Operands(), int64Operands()); |
| RUN_BINARY(testBranchBitTestNegation2, int64Operands(), int64Operands()); |
| |
| RUN(testSimplePatchpoint()); |
| RUN(testSimplePatchpointWithoutOuputClobbersGPArgs()); |
| RUN(testSimplePatchpointWithOuputClobbersGPArgs()); |
| RUN(testSimplePatchpointWithoutOuputClobbersFPArgs()); |
| RUN(testSimplePatchpointWithOuputClobbersFPArgs()); |
| RUN(testPatchpointWithEarlyClobber()); |
| RUN(testPatchpointCallArg()); |
| RUN(testPatchpointFixedRegister()); |
| RUN(testPatchpointAny(ValueRep::WarmAny)); |
| RUN(testPatchpointAny(ValueRep::ColdAny)); |
| RUN(testPatchpointGPScratch()); |
| RUN(testPatchpointFPScratch()); |
| RUN(testPatchpointLotsOfLateAnys()); |
| RUN(testPatchpointAnyImm(ValueRep::WarmAny)); |
| RUN(testPatchpointAnyImm(ValueRep::ColdAny)); |
| RUN(testPatchpointAnyImm(ValueRep::LateColdAny)); |
| RUN(testPatchpointManyWarmAnyImms()); |
| RUN(testPatchpointManyColdAnyImms()); |
| RUN(testPatchpointWithRegisterResult()); |
| RUN(testPatchpointWithStackArgumentResult()); |
| RUN(testPatchpointWithAnyResult()); |
| RUN(testSimpleCheck()); |
| RUN(testCheckFalse()); |
| RUN(testCheckTrue()); |
| RUN(testCheckLessThan()); |
| RUN(testCheckMegaCombo()); |
| RUN(testCheckTrickyMegaCombo()); |
| RUN(testCheckTwoMegaCombos()); |
| RUN(testCheckTwoNonRedundantMegaCombos()); |
| RUN(testCheckAddImm()); |
| RUN(testCheckAddImmCommute()); |
| RUN(testCheckAddImmSomeRegister()); |
| RUN(testCheckAdd()); |
| RUN(testCheckAdd64()); |
| RUN(testCheckAddFold(100, 200)); |
| RUN(testCheckAddFoldFail(2147483647, 100)); |
| RUN(testCheckAddArgumentAliasing64()); |
| RUN(testCheckAddArgumentAliasing32()); |
| RUN(testCheckAddSelfOverflow64()); |
| RUN(testCheckAddSelfOverflow32()); |
| RUN(testCheckSubImm()); |
| RUN(testCheckSubBadImm()); |
| RUN(testCheckSub()); |
| RUN(testCheckSub64()); |
| RUN(testCheckSubFold(100, 200)); |
| RUN(testCheckSubFoldFail(-2147483647, 100)); |
| RUN(testCheckNeg()); |
| RUN(testCheckNeg64()); |
| RUN(testCheckMul()); |
| RUN(testCheckMulMemory()); |
| RUN(testCheckMul2()); |
| RUN(testCheckMul64()); |
| RUN(testCheckMulFold(100, 200)); |
| RUN(testCheckMulFoldFail(2147483647, 100)); |
| RUN(testCheckMulArgumentAliasing64()); |
| RUN(testCheckMulArgumentAliasing32()); |
| |
| RUN_BINARY([](int32_t a, int32_t b) { testCompare(Equal, a, b); }, int64Operands(), int64Operands()); |
| RUN_BINARY([](int32_t a, int32_t b) { testCompare(NotEqual, a, b); }, int64Operands(), int64Operands()); |
| RUN_BINARY([](int32_t a, int32_t b) { testCompare(LessThan, a, b); }, int64Operands(), int64Operands()); |
| RUN_BINARY([](int32_t a, int32_t b) { testCompare(GreaterThan, a, b); }, int64Operands(), int64Operands()); |
| RUN_BINARY([](int32_t a, int32_t b) { testCompare(LessEqual, a, b); }, int64Operands(), int64Operands()); |
| RUN_BINARY([](int32_t a, int32_t b) { testCompare(GreaterEqual, a, b); }, int64Operands(), int64Operands()); |
| RUN_BINARY([](int32_t a, int32_t b) { testCompare(Below, a, b); }, int64Operands(), int64Operands()); |
| RUN_BINARY([](int32_t a, int32_t b) { testCompare(Above, a, b); }, int64Operands(), int64Operands()); |
| RUN_BINARY([](int32_t a, int32_t b) { testCompare(BelowEqual, a, b); }, int64Operands(), int64Operands()); |
| RUN_BINARY([](int32_t a, int32_t b) { testCompare(AboveEqual, a, b); }, int64Operands(), int64Operands()); |
| RUN_BINARY([](int32_t a, int32_t b) { testCompare(BitAnd, a, b); }, int64Operands(), int64Operands()); |
| |
| RUN(testEqualDouble(42, 42, true)); |
| RUN(testEqualDouble(0, -0, true)); |
| RUN(testEqualDouble(42, 43, false)); |
| RUN(testEqualDouble(PNaN, 42, false)); |
| RUN(testEqualDouble(42, PNaN, false)); |
| RUN(testEqualDouble(PNaN, PNaN, false)); |
| |
| addLoadTests(filter, tasks); |
| addTupleTests(filter, tasks); |
| |
| addCopyTests(filter, tasks); |
| |
| RUN(testSpillGP()); |
| RUN(testSpillFP()); |
| |
| RUN(testInt32ToDoublePartialRegisterStall()); |
| RUN(testInt32ToDoublePartialRegisterWithoutStall()); |
| |
| addCallTests(filter, tasks); |
| |
| RUN(testLinearScanWithCalleeOnStack()); |
| |
| RUN(testChillDiv(4, 2, 2)); |
| RUN(testChillDiv(1, 0, 0)); |
| RUN(testChillDiv(0, 0, 0)); |
| RUN(testChillDiv(1, -1, -1)); |
| RUN(testChillDiv(-2147483647 - 1, 0, 0)); |
| RUN(testChillDiv(-2147483647 - 1, 1, -2147483647 - 1)); |
| RUN(testChillDiv(-2147483647 - 1, -1, -2147483647 - 1)); |
| RUN(testChillDiv(-2147483647 - 1, 2, -1073741824)); |
| RUN(testChillDiv64(4, 2, 2)); |
| RUN(testChillDiv64(1, 0, 0)); |
| RUN(testChillDiv64(0, 0, 0)); |
| RUN(testChillDiv64(1, -1, -1)); |
| RUN(testChillDiv64(-9223372036854775807ll - 1, 0, 0)); |
| RUN(testChillDiv64(-9223372036854775807ll - 1, 1, -9223372036854775807ll - 1)); |
| RUN(testChillDiv64(-9223372036854775807ll - 1, -1, -9223372036854775807ll - 1)); |
| RUN(testChillDiv64(-9223372036854775807ll - 1, 2, -4611686018427387904)); |
| RUN(testChillDivTwice(4, 2, 6, 2, 5)); |
| RUN(testChillDivTwice(4, 0, 6, 2, 3)); |
| RUN(testChillDivTwice(4, 2, 6, 0, 2)); |
| |
| RUN_UNARY(testModArg, int64Operands()); |
| RUN_BINARY(testModArgs, int64Operands(), int64Operands()); |
| RUN_BINARY(testModImms, int64Operands(), int64Operands()); |
| RUN_UNARY(testModArg32, int32Operands()); |
| RUN_BINARY(testModArgs32, int32Operands(), int32Operands()); |
| RUN_BINARY(testModImms32, int32Operands(), int32Operands()); |
| RUN_UNARY(testChillModArg, int64Operands()); |
| RUN_BINARY(testChillModArgs, int64Operands(), int64Operands()); |
| RUN_BINARY(testChillModImms, int64Operands(), int64Operands()); |
| RUN_UNARY(testChillModArg32, int32Operands()); |
| RUN_BINARY(testChillModArgs32, int32Operands(), int32Operands()); |
| RUN_BINARY(testChillModImms32, int32Operands(), int32Operands()); |
| |
| RUN(testSwitch(0, 1)); |
| RUN(testSwitch(1, 1)); |
| RUN(testSwitch(2, 1)); |
| RUN(testSwitch(2, 2)); |
| RUN(testSwitch(10, 1)); |
| RUN(testSwitch(10, 2)); |
| RUN(testSwitch(100, 1)); |
| RUN(testSwitch(100, 100)); |
| |
| RUN(testSwitchSameCaseAsDefault()); |
| |
| RUN(testSwitchChillDiv(0, 1)); |
| RUN(testSwitchChillDiv(1, 1)); |
| RUN(testSwitchChillDiv(2, 1)); |
| RUN(testSwitchChillDiv(2, 2)); |
| RUN(testSwitchChillDiv(10, 1)); |
| RUN(testSwitchChillDiv(10, 2)); |
| RUN(testSwitchChillDiv(100, 1)); |
| RUN(testSwitchChillDiv(100, 100)); |
| |
| RUN(testSwitchTargettingSameBlock()); |
| RUN(testSwitchTargettingSameBlockFoldPathConstant()); |
| |
| RUN(testTrunc(0)); |
| RUN(testTrunc(1)); |
| RUN(testTrunc(-1)); |
| RUN(testTrunc(1000000000000ll)); |
| RUN(testTrunc(-1000000000000ll)); |
| RUN(testTruncFold(0)); |
| RUN(testTruncFold(1)); |
| RUN(testTruncFold(-1)); |
| RUN(testTruncFold(1000000000000ll)); |
| RUN(testTruncFold(-1000000000000ll)); |
| |
| RUN(testZExt32(0)); |
| RUN(testZExt32(1)); |
| RUN(testZExt32(-1)); |
| RUN(testZExt32(1000000000ll)); |
| RUN(testZExt32(-1000000000ll)); |
| RUN(testZExt32Fold(0)); |
| RUN(testZExt32Fold(1)); |
| RUN(testZExt32Fold(-1)); |
| RUN(testZExt32Fold(1000000000ll)); |
| RUN(testZExt32Fold(-1000000000ll)); |
| |
| RUN(testSExt32(0)); |
| RUN(testSExt32(1)); |
| RUN(testSExt32(-1)); |
| RUN(testSExt32(1000000000ll)); |
| RUN(testSExt32(-1000000000ll)); |
| RUN(testSExt32Fold(0)); |
| RUN(testSExt32Fold(1)); |
| RUN(testSExt32Fold(-1)); |
| RUN(testSExt32Fold(1000000000ll)); |
| RUN(testSExt32Fold(-1000000000ll)); |
| |
| RUN(testTruncZExt32(0)); |
| RUN(testTruncZExt32(1)); |
| RUN(testTruncZExt32(-1)); |
| RUN(testTruncZExt32(1000000000ll)); |
| RUN(testTruncZExt32(-1000000000ll)); |
| RUN(testTruncSExt32(0)); |
| RUN(testTruncSExt32(1)); |
| RUN(testTruncSExt32(-1)); |
| RUN(testTruncSExt32(1000000000ll)); |
| RUN(testTruncSExt32(-1000000000ll)); |
| |
| addSExtTests(filter, tasks); |
| |
| RUN(testBasicSelect()); |
| RUN(testSelectTest()); |
| RUN(testSelectCompareDouble()); |
| RUN_BINARY(testSelectCompareFloat, floatingPointOperands<float>(), floatingPointOperands<float>()); |
| RUN_BINARY(testSelectCompareFloatToDouble, floatingPointOperands<float>(), floatingPointOperands<float>()); |
| RUN(testSelectDouble()); |
| RUN(testSelectDoubleTest()); |
| RUN(testSelectDoubleCompareDouble()); |
| RUN_BINARY(testSelectDoubleCompareFloat, floatingPointOperands<float>(), floatingPointOperands<float>()); |
| RUN_BINARY(testSelectFloatCompareFloat, floatingPointOperands<float>(), floatingPointOperands<float>()); |
| RUN(testSelectDoubleCompareDoubleWithAliasing()); |
| RUN(testSelectFloatCompareFloatWithAliasing()); |
| RUN(testSelectFold(42)); |
| RUN(testSelectFold(43)); |
| RUN(testSelectInvert()); |
| RUN(testCheckSelect()); |
| RUN(testCheckSelectCheckSelect()); |
| RUN(testCheckSelectAndCSE()); |
| RUN_BINARY(testPowDoubleByIntegerLoop, floatingPointOperands<double>(), int64Operands()); |
| |
| RUN(testTruncOrHigh()); |
| RUN(testTruncOrLow()); |
| RUN(testBitAndOrHigh()); |
| RUN(testBitAndOrLow()); |
| |
| RUN(testBranch64Equal(0, 0)); |
| RUN(testBranch64Equal(1, 1)); |
| RUN(testBranch64Equal(-1, -1)); |
| RUN(testBranch64Equal(1, -1)); |
| RUN(testBranch64Equal(-1, 1)); |
| RUN(testBranch64EqualImm(0, 0)); |
| RUN(testBranch64EqualImm(1, 1)); |
| RUN(testBranch64EqualImm(-1, -1)); |
| RUN(testBranch64EqualImm(1, -1)); |
| RUN(testBranch64EqualImm(-1, 1)); |
| RUN(testBranch64EqualMem(0, 0)); |
| RUN(testBranch64EqualMem(1, 1)); |
| RUN(testBranch64EqualMem(-1, -1)); |
| RUN(testBranch64EqualMem(1, -1)); |
| RUN(testBranch64EqualMem(-1, 1)); |
| RUN(testBranch64EqualMemImm(0, 0)); |
| RUN(testBranch64EqualMemImm(1, 1)); |
| RUN(testBranch64EqualMemImm(-1, -1)); |
| RUN(testBranch64EqualMemImm(1, -1)); |
| RUN(testBranch64EqualMemImm(-1, 1)); |
| |
| RUN(testStore8Load8Z(0)); |
| RUN(testStore8Load8Z(123)); |
| RUN(testStore8Load8Z(12345)); |
| RUN(testStore8Load8Z(-123)); |
| |
| RUN(testStore16Load16Z(0)); |
| RUN(testStore16Load16Z(123)); |
| RUN(testStore16Load16Z(12345)); |
| RUN(testStore16Load16Z(12345678)); |
| RUN(testStore16Load16Z(-123)); |
| |
| addSShrShTests(filter, tasks); |
| |
| RUN(testCheckMul64SShr()); |
| |
| RUN_BINARY(testRotR, int32Operands(), int32Operands()); |
| RUN_BINARY(testRotR, int64Operands(), int32Operands()); |
| RUN_BINARY(testRotL, int32Operands(), int32Operands()); |
| RUN_BINARY(testRotL, int64Operands(), int32Operands()); |
| |
| RUN_BINARY(testRotRWithImmShift, int32Operands(), int32Operands()); |
| RUN_BINARY(testRotRWithImmShift, int64Operands(), int32Operands()); |
| RUN_BINARY(testRotLWithImmShift, int32Operands(), int32Operands()); |
| RUN_BINARY(testRotLWithImmShift, int64Operands(), int32Operands()); |
| |
| RUN(testComputeDivisionMagic<int32_t>(2, -2147483647, 0)); |
| RUN(testTrivialInfiniteLoop()); |
| RUN(testFoldPathEqual()); |
| |
| RUN(testRShiftSelf32()); |
| RUN(testURShiftSelf32()); |
| RUN(testLShiftSelf32()); |
| RUN(testRShiftSelf64()); |
| RUN(testURShiftSelf64()); |
| RUN(testLShiftSelf64()); |
| |
| RUN(testPatchpointDoubleRegs()); |
| RUN(testSpillDefSmallerThanUse()); |
| RUN(testSpillUseLargerThanDef()); |
| RUN(testLateRegister()); |
| RUN(testInterpreter()); |
| RUN(testReduceStrengthCheckBottomUseInAnotherBlock()); |
| RUN(testResetReachabilityDanglingReference()); |
| |
| RUN(testEntrySwitchSimple()); |
| RUN(testEntrySwitchNoEntrySwitch()); |
| RUN(testEntrySwitchWithCommonPaths()); |
| RUN(testEntrySwitchWithCommonPathsAndNonTrivialEntrypoint()); |
| RUN(testEntrySwitchLoop()); |
| |
| RUN(testSomeEarlyRegister()); |
| RUN(testPatchpointTerminalReturnValue(true)); |
| RUN(testPatchpointTerminalReturnValue(false)); |
| RUN(testTerminalPatchpointThatNeedsToBeSpilled()); |
| |
| RUN(testMemoryFence()); |
| RUN(testStoreFence()); |
| RUN(testLoadFence()); |
| RUN(testTrappingLoad()); |
| RUN(testTrappingStore()); |
| RUN(testTrappingLoadAddStore()); |
| RUN(testTrappingLoadDCE()); |
| RUN(testTrappingStoreElimination()); |
| RUN(testMoveConstants()); |
| RUN(testPCOriginMapDoesntInsertNops()); |
| RUN(testPinRegisters()); |
| RUN(testReduceStrengthReassociation(true)); |
| RUN(testReduceStrengthReassociation(false)); |
| RUN(testAddShl32()); |
| RUN(testAddShl64()); |
| RUN(testAddShl65()); |
| RUN(testLoadBaseIndexShift2()); |
| RUN(testLoadBaseIndexShift32()); |
| RUN(testOptimizeMaterialization()); |
| |
| // FIXME: Re-enable B3 hoistLoopInvariantValues |
| // https://bugs.webkit.org/show_bug.cgi?id=212651 |
| Options::useB3HoistLoopInvariantValues() = true; |
| |
| RUN(testLICMPure()); |
| RUN(testLICMPureSideExits()); |
| RUN(testLICMPureWritesPinned()); |
| RUN(testLICMPureWrites()); |
| RUN(testLICMReadsLocalState()); |
| RUN(testLICMReadsPinned()); |
| RUN(testLICMReads()); |
| RUN(testLICMPureNotBackwardsDominant()); |
| RUN(testLICMPureFoiledByChild()); |
| RUN(testLICMPureNotBackwardsDominantFoiledByChild()); |
| RUN(testLICMExitsSideways()); |
| RUN(testLICMWritesLocalState()); |
| RUN(testLICMWrites()); |
| RUN(testLICMWritesPinned()); |
| RUN(testLICMFence()); |
| RUN(testLICMControlDependent()); |
| RUN(testLICMControlDependentNotBackwardsDominant()); |
| RUN(testLICMControlDependentSideExits()); |
| RUN(testLICMReadsPinnedWritesPinned()); |
| RUN(testLICMReadsWritesDifferentHeaps()); |
| RUN(testLICMReadsWritesOverlappingHeaps()); |
| RUN(testLICMDefaultCall()); |
| |
| addAtomicTests(filter, tasks); |
| RUN(testDepend32()); |
| RUN(testDepend64()); |
| |
| RUN(testWasmBoundsCheck(0)); |
| RUN(testWasmBoundsCheck(100)); |
| RUN(testWasmBoundsCheck(10000)); |
| RUN(testWasmBoundsCheck(std::numeric_limits<unsigned>::max() - 5)); |
| |
| RUN(testWasmAddress()); |
| |
| RUN(testFastTLSLoad()); |
| RUN(testFastTLSStore()); |
| |
| RUN(testDoubleLiteralComparison(bitwise_cast<double>(0x8000000000000001ull), bitwise_cast<double>(0x0000000000000000ull))); |
| RUN(testDoubleLiteralComparison(bitwise_cast<double>(0x0000000000000000ull), bitwise_cast<double>(0x8000000000000001ull))); |
| RUN(testDoubleLiteralComparison(125.3144446948241, 125.3144446948242)); |
| RUN(testDoubleLiteralComparison(125.3144446948242, 125.3144446948241)); |
| |
| RUN(testFloatEqualOrUnorderedFolding()); |
| RUN(testFloatEqualOrUnorderedFoldingNaN()); |
| RUN(testFloatEqualOrUnorderedDontFold()); |
| |
| RUN(testShuffleDoesntTrashCalleeSaves()); |
| RUN(testDemotePatchpointTerminal()); |
| |
| RUN(testLoopWithMultipleHeaderEdges()); |
| |
| RUN(testInfiniteLoopDoesntCauseBadHoisting()); |
| |
| if (isX86()) { |
| RUN(testBranchBitAndImmFusion(Identity, Int64, 1, Air::BranchTest32, Air::Arg::Tmp)); |
| RUN(testBranchBitAndImmFusion(Identity, Int64, 0xff, Air::BranchTest32, Air::Arg::Tmp)); |
| RUN(testBranchBitAndImmFusion(Trunc, Int32, 1, Air::BranchTest32, Air::Arg::Tmp)); |
| RUN(testBranchBitAndImmFusion(Trunc, Int32, 0xff, Air::BranchTest32, Air::Arg::Tmp)); |
| RUN(testBranchBitAndImmFusion(Load8S, Int32, 1, Air::BranchTest8, Air::Arg::Addr)); |
| RUN(testBranchBitAndImmFusion(Load8Z, Int32, 1, Air::BranchTest8, Air::Arg::Addr)); |
| RUN(testBranchBitAndImmFusion(Load, Int32, 1, Air::BranchTest32, Air::Arg::Addr)); |
| RUN(testBranchBitAndImmFusion(Load, Int64, 1, Air::BranchTest32, Air::Arg::Addr)); |
| RUN(testX86LeaAddAddShlLeft()); |
| RUN(testX86LeaAddAddShlRight()); |
| RUN(testX86LeaAddAdd()); |
| RUN(testX86LeaAddShlRight()); |
| RUN(testX86LeaAddShlLeftScale1()); |
| RUN(testX86LeaAddShlLeftScale2()); |
| RUN(testX86LeaAddShlLeftScale4()); |
| RUN(testX86LeaAddShlLeftScale8()); |
| } |
| |
| if (isARM64()) { |
| RUN(testTernarySubInstructionSelection(Identity, Int64, Air::Sub64)); |
| RUN(testTernarySubInstructionSelection(Trunc, Int32, Air::Sub32)); |
| } |
| |
| RUN(testReportUsedRegistersLateUseFollowedByEarlyDefDoesNotMarkUseAsDead()); |
| |
| if (tasks.isEmpty()) |
| usage(); |
| |
| Lock lock; |
| |
| Vector<Ref<Thread>> threads; |
| for (unsigned i = filter ? 1 : WTF::numberOfProcessorCores(); i--;) { |
| threads.append( |
| Thread::create( |
| "testb3 thread", |
| [&] () { |
| for (;;) { |
| RefPtr<SharedTask<void()>> task; |
| { |
| LockHolder locker(lock); |
| if (tasks.isEmpty()) |
| return; |
| task = tasks.takeFirst(); |
| } |
| |
| task->run(); |
| } |
| })); |
| } |
| |
| for (auto& thread : threads) |
| thread->waitForCompletion(); |
| crashLock.lock(); |
| crashLock.unlock(); |
| } |
| |
| #else // ENABLE(B3_JIT) |
| |
| static void run(const char*) |
| { |
| dataLog("B3 JIT is not enabled.\n"); |
| } |
| |
| #endif // ENABLE(B3_JIT) |
| |
| int main(int argc, char** argv) |
| { |
| const char* filter = nullptr; |
| switch (argc) { |
| case 1: |
| break; |
| case 2: |
| filter = argv[1]; |
| break; |
| default: |
| usage(); |
| break; |
| } |
| |
| JSC::Config::configureForTesting(); |
| |
| WTF::initializeMainThread(); |
| JSC::initialize(); |
| |
| for (unsigned i = 0; i <= 2; ++i) { |
| JSC::Options::defaultB3OptLevel() = i; |
| run(filter); |
| } |
| |
| return 0; |
| } |
| |
| #if OS(WINDOWS) |
| extern "C" __declspec(dllexport) int WINAPI dllLauncherEntryPoint(int argc, const char* argv[]) |
| { |
| return main(argc, const_cast<char**>(argv)); |
| } |
| #endif |