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cobalt / cobalt / e77c070364e97b7a7deea396227c08805cb9e66d / . / src / third_party / WebKit / Source / JavaScriptCore / jit / ThunkGenerators.cpp
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/*
* Copyright (C) 2010 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. AND ITS CONTRIBUTORS ``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 ITS 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 "ThunkGenerators.h"
#include "CodeBlock.h"
#include <wtf/InlineASM.h>
#include "SpecializedThunkJIT.h"
#include <wtf/text/StringImpl.h>
#if ENABLE(JIT)
namespace JSC {
static void stringCharLoad(SpecializedThunkJIT& jit, JSGlobalData* globalData)
{
// load string
jit.loadJSStringArgument(*globalData, SpecializedThunkJIT::ThisArgument, SpecializedThunkJIT::regT0);
// Load string length to regT2, and start the process of loading the data pointer into regT0
jit.load32(MacroAssembler::Address(SpecializedThunkJIT::regT0, ThunkHelpers::jsStringLengthOffset()), SpecializedThunkJIT::regT2);
jit.loadPtr(MacroAssembler::Address(SpecializedThunkJIT::regT0, ThunkHelpers::jsStringValueOffset()), SpecializedThunkJIT::regT0);
jit.appendFailure(jit.branchTest32(MacroAssembler::Zero, SpecializedThunkJIT::regT0));
// load index
jit.loadInt32Argument(0, SpecializedThunkJIT::regT1); // regT1 contains the index
// Do an unsigned compare to simultaneously filter negative indices as well as indices that are too large
jit.appendFailure(jit.branch32(MacroAssembler::AboveOrEqual, SpecializedThunkJIT::regT1, SpecializedThunkJIT::regT2));
// Load the character
SpecializedThunkJIT::JumpList is16Bit;
SpecializedThunkJIT::JumpList cont8Bit;
// Load the string flags
jit.loadPtr(MacroAssembler::Address(SpecializedThunkJIT::regT0, ThunkHelpers::stringImplFlagsOffset()), SpecializedThunkJIT::regT2);
jit.loadPtr(MacroAssembler::Address(SpecializedThunkJIT::regT0, ThunkHelpers::stringImplDataOffset()), SpecializedThunkJIT::regT0);
is16Bit.append(jit.branchTest32(MacroAssembler::Zero, SpecializedThunkJIT::regT2, MacroAssembler::TrustedImm32(ThunkHelpers::stringImpl8BitFlag())));
jit.load8(MacroAssembler::BaseIndex(SpecializedThunkJIT::regT0, SpecializedThunkJIT::regT1, MacroAssembler::TimesOne, 0), SpecializedThunkJIT::regT0);
cont8Bit.append(jit.jump());
is16Bit.link(&jit);
jit.load16(MacroAssembler::BaseIndex(SpecializedThunkJIT::regT0, SpecializedThunkJIT::regT1, MacroAssembler::TimesTwo, 0), SpecializedThunkJIT::regT0);
cont8Bit.link(&jit);
}
static void charToString(SpecializedThunkJIT& jit, JSGlobalData* globalData, MacroAssembler::RegisterID src, MacroAssembler::RegisterID dst, MacroAssembler::RegisterID scratch)
{
jit.appendFailure(jit.branch32(MacroAssembler::AboveOrEqual, src, MacroAssembler::TrustedImm32(0x100)));
jit.move(MacroAssembler::TrustedImmPtr(globalData->smallStrings.singleCharacterStrings()), scratch);
jit.loadPtr(MacroAssembler::BaseIndex(scratch, src, MacroAssembler::ScalePtr, 0), dst);
jit.appendFailure(jit.branchTestPtr(MacroAssembler::Zero, dst));
}
MacroAssemblerCodeRef charCodeAtThunkGenerator(JSGlobalData* globalData)
{
SpecializedThunkJIT jit(1);
stringCharLoad(jit, globalData);
jit.returnInt32(SpecializedThunkJIT::regT0);
return jit.finalize(*globalData, globalData->jitStubs->ctiNativeCall(), "charCodeAt");
}
MacroAssemblerCodeRef charAtThunkGenerator(JSGlobalData* globalData)
{
SpecializedThunkJIT jit(1);
stringCharLoad(jit, globalData);
charToString(jit, globalData, SpecializedThunkJIT::regT0, SpecializedThunkJIT::regT0, SpecializedThunkJIT::regT1);
jit.returnJSCell(SpecializedThunkJIT::regT0);
return jit.finalize(*globalData, globalData->jitStubs->ctiNativeCall(), "charAt");
}
MacroAssemblerCodeRef fromCharCodeThunkGenerator(JSGlobalData* globalData)
{
SpecializedThunkJIT jit(1);
// load char code
jit.loadInt32Argument(0, SpecializedThunkJIT::regT0);
charToString(jit, globalData, SpecializedThunkJIT::regT0, SpecializedThunkJIT::regT0, SpecializedThunkJIT::regT1);
jit.returnJSCell(SpecializedThunkJIT::regT0);
return jit.finalize(*globalData, globalData->jitStubs->ctiNativeCall(), "fromCharCode");
}
MacroAssemblerCodeRef sqrtThunkGenerator(JSGlobalData* globalData)
{
SpecializedThunkJIT jit(1);
if (!jit.supportsFloatingPointSqrt())
return MacroAssemblerCodeRef::createSelfManagedCodeRef(globalData->jitStubs->ctiNativeCall());
jit.loadDoubleArgument(0, SpecializedThunkJIT::fpRegT0, SpecializedThunkJIT::regT0);
jit.sqrtDouble(SpecializedThunkJIT::fpRegT0, SpecializedThunkJIT::fpRegT0);
jit.returnDouble(SpecializedThunkJIT::fpRegT0);
return jit.finalize(*globalData, globalData->jitStubs->ctiNativeCall(), "sqrt");
}
#define UnaryDoubleOpWrapper(function) function##Wrapper
enum MathThunkCallingConvention { };
typedef MathThunkCallingConvention(*MathThunk)(MathThunkCallingConvention);
extern "C" {
double jsRound(double) REFERENCED_FROM_ASM;
double jsRound(double d)
{
double integer = ceil(d);
return integer - (integer - d > 0.5);
}
}
#if CPU(X86_64) && COMPILER(GCC) && (PLATFORM(MAC) || OS(LINUX))
#define defineUnaryDoubleOpWrapper(function) \
asm( \
".text\n" \
".globl " SYMBOL_STRING(function##Thunk) "\n" \
HIDE_SYMBOL(function##Thunk) "\n" \
SYMBOL_STRING(function##Thunk) ":" "\n" \
"call " GLOBAL_REFERENCE(function) "\n" \
"ret\n" \
);\
extern "C" { \
MathThunkCallingConvention function##Thunk(MathThunkCallingConvention); \
} \
static MathThunk UnaryDoubleOpWrapper(function) = &function##Thunk;
#elif CPU(X86) && COMPILER(GCC) && (PLATFORM(MAC) || OS(LINUX))
#define defineUnaryDoubleOpWrapper(function) \
asm( \
".text\n" \
".globl " SYMBOL_STRING(function##Thunk) "\n" \
HIDE_SYMBOL(function##Thunk) "\n" \
SYMBOL_STRING(function##Thunk) ":" "\n" \
"subl $8, %esp\n" \
"movsd %xmm0, (%esp) \n" \
"call " GLOBAL_REFERENCE(function) "\n" \
"fstpl (%esp) \n" \
"movsd (%esp), %xmm0 \n" \
"addl $8, %esp\n" \
"ret\n" \
);\
extern "C" { \
MathThunkCallingConvention function##Thunk(MathThunkCallingConvention); \
} \
static MathThunk UnaryDoubleOpWrapper(function) = &function##Thunk;
#else
#define defineUnaryDoubleOpWrapper(function) \
static MathThunk UnaryDoubleOpWrapper(function) = 0
#endif
defineUnaryDoubleOpWrapper(jsRound);
defineUnaryDoubleOpWrapper(exp);
defineUnaryDoubleOpWrapper(log);
defineUnaryDoubleOpWrapper(floor);
defineUnaryDoubleOpWrapper(ceil);
static const double oneConstant = 1.0;
static const double negativeHalfConstant = -0.5;
static const double zeroConstant = 0.0;
static const double halfConstant = 0.5;
MacroAssemblerCodeRef floorThunkGenerator(JSGlobalData* globalData)
{
SpecializedThunkJIT jit(1);
MacroAssembler::Jump nonIntJump;
if (!UnaryDoubleOpWrapper(floor) || !jit.supportsFloatingPoint())
return MacroAssemblerCodeRef::createSelfManagedCodeRef(globalData->jitStubs->ctiNativeCall());
jit.loadInt32Argument(0, SpecializedThunkJIT::regT0, nonIntJump);
jit.returnInt32(SpecializedThunkJIT::regT0);
nonIntJump.link(&jit);
jit.loadDoubleArgument(0, SpecializedThunkJIT::fpRegT0, SpecializedThunkJIT::regT0);
SpecializedThunkJIT::Jump intResult;
SpecializedThunkJIT::JumpList doubleResult;
if (jit.supportsFloatingPointTruncate()) {
jit.loadDouble(&zeroConstant, SpecializedThunkJIT::fpRegT1);
doubleResult.append(jit.branchDouble(MacroAssembler::DoubleEqual, SpecializedThunkJIT::fpRegT0, SpecializedThunkJIT::fpRegT1));
SpecializedThunkJIT::JumpList slowPath;
// Handle the negative doubles in the slow path for now.
slowPath.append(jit.branchDouble(MacroAssembler::DoubleLessThanOrUnordered, SpecializedThunkJIT::fpRegT0, SpecializedThunkJIT::fpRegT1));
slowPath.append(jit.branchTruncateDoubleToInt32(SpecializedThunkJIT::fpRegT0, SpecializedThunkJIT::regT0));
intResult = jit.jump();
slowPath.link(&jit);
}
jit.callDoubleToDouble(UnaryDoubleOpWrapper(floor));
jit.branchConvertDoubleToInt32(SpecializedThunkJIT::fpRegT0, SpecializedThunkJIT::regT0, doubleResult, SpecializedThunkJIT::fpRegT1);
if (jit.supportsFloatingPointTruncate())
intResult.link(&jit);
jit.returnInt32(SpecializedThunkJIT::regT0);
doubleResult.link(&jit);
jit.returnDouble(SpecializedThunkJIT::fpRegT0);
return jit.finalize(*globalData, globalData->jitStubs->ctiNativeCall(), "floor");
}
MacroAssemblerCodeRef ceilThunkGenerator(JSGlobalData* globalData)
{
SpecializedThunkJIT jit(1);
if (!UnaryDoubleOpWrapper(ceil) || !jit.supportsFloatingPoint())
return MacroAssemblerCodeRef::createSelfManagedCodeRef(globalData->jitStubs->ctiNativeCall());
MacroAssembler::Jump nonIntJump;
jit.loadInt32Argument(0, SpecializedThunkJIT::regT0, nonIntJump);
jit.returnInt32(SpecializedThunkJIT::regT0);
nonIntJump.link(&jit);
jit.loadDoubleArgument(0, SpecializedThunkJIT::fpRegT0, SpecializedThunkJIT::regT0);
jit.callDoubleToDouble(UnaryDoubleOpWrapper(ceil));
SpecializedThunkJIT::JumpList doubleResult;
jit.branchConvertDoubleToInt32(SpecializedThunkJIT::fpRegT0, SpecializedThunkJIT::regT0, doubleResult, SpecializedThunkJIT::fpRegT1);
jit.returnInt32(SpecializedThunkJIT::regT0);
doubleResult.link(&jit);
jit.returnDouble(SpecializedThunkJIT::fpRegT0);
return jit.finalize(*globalData, globalData->jitStubs->ctiNativeCall(), "ceil");
}
MacroAssemblerCodeRef roundThunkGenerator(JSGlobalData* globalData)
{
SpecializedThunkJIT jit(1);
if (!UnaryDoubleOpWrapper(jsRound) || !jit.supportsFloatingPoint())
return MacroAssemblerCodeRef::createSelfManagedCodeRef(globalData->jitStubs->ctiNativeCall());
MacroAssembler::Jump nonIntJump;
jit.loadInt32Argument(0, SpecializedThunkJIT::regT0, nonIntJump);
jit.returnInt32(SpecializedThunkJIT::regT0);
nonIntJump.link(&jit);
jit.loadDoubleArgument(0, SpecializedThunkJIT::fpRegT0, SpecializedThunkJIT::regT0);
SpecializedThunkJIT::Jump intResult;
SpecializedThunkJIT::JumpList doubleResult;
if (jit.supportsFloatingPointTruncate()) {
jit.loadDouble(&zeroConstant, SpecializedThunkJIT::fpRegT1);
doubleResult.append(jit.branchDouble(MacroAssembler::DoubleEqual, SpecializedThunkJIT::fpRegT0, SpecializedThunkJIT::fpRegT1));
SpecializedThunkJIT::JumpList slowPath;
// Handle the negative doubles in the slow path for now.
slowPath.append(jit.branchDouble(MacroAssembler::DoubleLessThanOrUnordered, SpecializedThunkJIT::fpRegT0, SpecializedThunkJIT::fpRegT1));
jit.loadDouble(&halfConstant, SpecializedThunkJIT::fpRegT1);
jit.addDouble(SpecializedThunkJIT::fpRegT0, SpecializedThunkJIT::fpRegT1);
slowPath.append(jit.branchTruncateDoubleToInt32(SpecializedThunkJIT::fpRegT1, SpecializedThunkJIT::regT0));
intResult = jit.jump();
slowPath.link(&jit);
}
jit.callDoubleToDouble(UnaryDoubleOpWrapper(jsRound));
jit.branchConvertDoubleToInt32(SpecializedThunkJIT::fpRegT0, SpecializedThunkJIT::regT0, doubleResult, SpecializedThunkJIT::fpRegT1);
if (jit.supportsFloatingPointTruncate())
intResult.link(&jit);
jit.returnInt32(SpecializedThunkJIT::regT0);
doubleResult.link(&jit);
jit.returnDouble(SpecializedThunkJIT::fpRegT0);
return jit.finalize(*globalData, globalData->jitStubs->ctiNativeCall(), "round");
}
MacroAssemblerCodeRef expThunkGenerator(JSGlobalData* globalData)
{
if (!UnaryDoubleOpWrapper(exp))
return MacroAssemblerCodeRef::createSelfManagedCodeRef(globalData->jitStubs->ctiNativeCall());
SpecializedThunkJIT jit(1);
if (!jit.supportsFloatingPoint())
return MacroAssemblerCodeRef::createSelfManagedCodeRef(globalData->jitStubs->ctiNativeCall());
jit.loadDoubleArgument(0, SpecializedThunkJIT::fpRegT0, SpecializedThunkJIT::regT0);
jit.callDoubleToDouble(UnaryDoubleOpWrapper(exp));
jit.returnDouble(SpecializedThunkJIT::fpRegT0);
return jit.finalize(*globalData, globalData->jitStubs->ctiNativeCall(), "exp");
}
MacroAssemblerCodeRef logThunkGenerator(JSGlobalData* globalData)
{
if (!UnaryDoubleOpWrapper(log))
return MacroAssemblerCodeRef::createSelfManagedCodeRef(globalData->jitStubs->ctiNativeCall());
SpecializedThunkJIT jit(1);
if (!jit.supportsFloatingPoint())
return MacroAssemblerCodeRef::createSelfManagedCodeRef(globalData->jitStubs->ctiNativeCall());
jit.loadDoubleArgument(0, SpecializedThunkJIT::fpRegT0, SpecializedThunkJIT::regT0);
jit.callDoubleToDouble(UnaryDoubleOpWrapper(log));
jit.returnDouble(SpecializedThunkJIT::fpRegT0);
return jit.finalize(*globalData, globalData->jitStubs->ctiNativeCall(), "log");
}
MacroAssemblerCodeRef absThunkGenerator(JSGlobalData* globalData)
{
SpecializedThunkJIT jit(1);
if (!jit.supportsFloatingPointAbs())
return MacroAssemblerCodeRef::createSelfManagedCodeRef(globalData->jitStubs->ctiNativeCall());
MacroAssembler::Jump nonIntJump;
jit.loadInt32Argument(0, SpecializedThunkJIT::regT0, nonIntJump);
jit.rshift32(SpecializedThunkJIT::regT0, MacroAssembler::TrustedImm32(31), SpecializedThunkJIT::regT1);
jit.add32(SpecializedThunkJIT::regT1, SpecializedThunkJIT::regT0);
jit.xor32(SpecializedThunkJIT::regT1, SpecializedThunkJIT::regT0);
jit.appendFailure(jit.branch32(MacroAssembler::Equal, SpecializedThunkJIT::regT0, MacroAssembler::TrustedImm32(1 << 31)));
jit.returnInt32(SpecializedThunkJIT::regT0);
nonIntJump.link(&jit);
// Shame about the double int conversion here.
jit.loadDoubleArgument(0, SpecializedThunkJIT::fpRegT0, SpecializedThunkJIT::regT0);
jit.absDouble(SpecializedThunkJIT::fpRegT0, SpecializedThunkJIT::fpRegT1);
jit.returnDouble(SpecializedThunkJIT::fpRegT1);
return jit.finalize(*globalData, globalData->jitStubs->ctiNativeCall(), "abs");
}
MacroAssemblerCodeRef powThunkGenerator(JSGlobalData* globalData)
{
SpecializedThunkJIT jit(2);
if (!jit.supportsFloatingPoint())
return MacroAssemblerCodeRef::createSelfManagedCodeRef(globalData->jitStubs->ctiNativeCall());
jit.loadDouble(&oneConstant, SpecializedThunkJIT::fpRegT1);
jit.loadDoubleArgument(0, SpecializedThunkJIT::fpRegT0, SpecializedThunkJIT::regT0);
MacroAssembler::Jump nonIntExponent;
jit.loadInt32Argument(1, SpecializedThunkJIT::regT0, nonIntExponent);
jit.appendFailure(jit.branch32(MacroAssembler::LessThan, SpecializedThunkJIT::regT0, MacroAssembler::TrustedImm32(0)));
MacroAssembler::Jump exponentIsZero = jit.branchTest32(MacroAssembler::Zero, SpecializedThunkJIT::regT0);
MacroAssembler::Label startLoop(jit.label());
MacroAssembler::Jump exponentIsEven = jit.branchTest32(MacroAssembler::Zero, SpecializedThunkJIT::regT0, MacroAssembler::TrustedImm32(1));
jit.mulDouble(SpecializedThunkJIT::fpRegT0, SpecializedThunkJIT::fpRegT1);
exponentIsEven.link(&jit);
jit.mulDouble(SpecializedThunkJIT::fpRegT0, SpecializedThunkJIT::fpRegT0);
jit.rshift32(MacroAssembler::TrustedImm32(1), SpecializedThunkJIT::regT0);
jit.branchTest32(MacroAssembler::NonZero, SpecializedThunkJIT::regT0).linkTo(startLoop, &jit);
exponentIsZero.link(&jit);
{
SpecializedThunkJIT::JumpList doubleResult;
jit.branchConvertDoubleToInt32(SpecializedThunkJIT::fpRegT1, SpecializedThunkJIT::regT0, doubleResult, SpecializedThunkJIT::fpRegT0);
jit.returnInt32(SpecializedThunkJIT::regT0);
doubleResult.link(&jit);
jit.returnDouble(SpecializedThunkJIT::fpRegT1);
}
if (jit.supportsFloatingPointSqrt()) {
nonIntExponent.link(&jit);
jit.loadDouble(&negativeHalfConstant, SpecializedThunkJIT::fpRegT3);
jit.loadDoubleArgument(1, SpecializedThunkJIT::fpRegT2, SpecializedThunkJIT::regT0);
jit.appendFailure(jit.branchDouble(MacroAssembler::DoubleLessThanOrEqual, SpecializedThunkJIT::fpRegT0, SpecializedThunkJIT::fpRegT1));
jit.appendFailure(jit.branchDouble(MacroAssembler::DoubleNotEqualOrUnordered, SpecializedThunkJIT::fpRegT2, SpecializedThunkJIT::fpRegT3));
jit.sqrtDouble(SpecializedThunkJIT::fpRegT0, SpecializedThunkJIT::fpRegT0);
jit.divDouble(SpecializedThunkJIT::fpRegT0, SpecializedThunkJIT::fpRegT1);
SpecializedThunkJIT::JumpList doubleResult;
jit.branchConvertDoubleToInt32(SpecializedThunkJIT::fpRegT1, SpecializedThunkJIT::regT0, doubleResult, SpecializedThunkJIT::fpRegT0);
jit.returnInt32(SpecializedThunkJIT::regT0);
doubleResult.link(&jit);
jit.returnDouble(SpecializedThunkJIT::fpRegT1);
} else
jit.appendFailure(nonIntExponent);
return jit.finalize(*globalData, globalData->jitStubs->ctiNativeCall(), "pow");
}
}
#endif // ENABLE(JIT)