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/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 4 -*-
* vim: set ts=8 sts=4 et sw=4 tw=99:
* 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/. */
#ifndef jit_none_MacroAssembler_none_h
#define jit_none_MacroAssembler_none_h
#include "jit/JitCompartment.h"
#include "jit/MoveResolver.h"
#include "jit/shared/Assembler-shared.h"
namespace js {
namespace jit {
static constexpr Register StackPointer = { Registers::invalid_reg };
static constexpr Register FramePointer = { Registers::invalid_reg };
static constexpr Register ReturnReg = { Registers::invalid_reg };
static constexpr FloatRegister ReturnFloat32Reg = { FloatRegisters::invalid_reg };
static constexpr FloatRegister ReturnDoubleReg = { FloatRegisters::invalid_reg };
static constexpr FloatRegister ReturnSimd128Reg = { FloatRegisters::invalid_reg };
static constexpr FloatRegister ScratchFloat32Reg = { FloatRegisters::invalid_reg };
static constexpr FloatRegister ScratchDoubleReg = { FloatRegisters::invalid_reg };
static constexpr FloatRegister ScratchSimd128Reg = { FloatRegisters::invalid_reg };
static constexpr FloatRegister InvalidFloatReg = { FloatRegisters::invalid_reg };
static constexpr Register OsrFrameReg = { Registers::invalid_reg };
static constexpr Register ArgumentsRectifierReg = { Registers::invalid_reg };
static constexpr Register PreBarrierReg = { Registers::invalid_reg };
static constexpr Register CallTempReg0 = { Registers::invalid_reg };
static constexpr Register CallTempReg1 = { Registers::invalid_reg };
static constexpr Register CallTempReg2 = { Registers::invalid_reg };
static constexpr Register CallTempReg3 = { Registers::invalid_reg };
static constexpr Register CallTempReg4 = { Registers::invalid_reg };
static constexpr Register CallTempReg5 = { Registers::invalid_reg };
static constexpr Register InvalidReg = { Registers::invalid_reg };
static constexpr Register IntArgReg0 = { Registers::invalid_reg };
static constexpr Register IntArgReg1 = { Registers::invalid_reg };
static constexpr Register IntArgReg2 = { Registers::invalid_reg };
static constexpr Register IntArgReg3 = { Registers::invalid_reg };
static constexpr Register GlobalReg = { Registers::invalid_reg };
static constexpr Register HeapReg = { Registers::invalid_reg };
static constexpr Register WasmIonExitRegCallee = { Registers::invalid_reg };
static constexpr Register WasmIonExitRegE0 = { Registers::invalid_reg };
static constexpr Register WasmIonExitRegE1 = { Registers::invalid_reg };
static constexpr Register WasmIonExitRegReturnData = { Registers::invalid_reg };
static constexpr Register WasmIonExitRegReturnType = { Registers::invalid_reg };
static constexpr Register WasmIonExitRegD0 = { Registers::invalid_reg };
static constexpr Register WasmIonExitRegD1 = { Registers::invalid_reg };
static constexpr Register WasmIonExitRegD2 = { Registers::invalid_reg };
static constexpr Register RegExpTesterRegExpReg = { Registers::invalid_reg };
static constexpr Register RegExpTesterStringReg = { Registers::invalid_reg };
static constexpr Register RegExpTesterLastIndexReg = { Registers::invalid_reg };
static constexpr Register RegExpTesterStickyReg = { Registers::invalid_reg };
static constexpr Register RegExpMatcherRegExpReg = { Registers::invalid_reg };
static constexpr Register RegExpMatcherStringReg = { Registers::invalid_reg };
static constexpr Register RegExpMatcherLastIndexReg = { Registers::invalid_reg };
static constexpr Register RegExpMatcherStickyReg = { Registers::invalid_reg };
static constexpr Register JSReturnReg_Type = { Registers::invalid_reg };
static constexpr Register JSReturnReg_Data = { Registers::invalid_reg };
static constexpr Register JSReturnReg = { Registers::invalid_reg };
#if defined(JS_NUNBOX32)
static constexpr ValueOperand JSReturnOperand(InvalidReg, InvalidReg);
static constexpr Register64 ReturnReg64(InvalidReg, InvalidReg);
#elif defined(JS_PUNBOX64)
static constexpr ValueOperand JSReturnOperand(InvalidReg);
static constexpr Register64 ReturnReg64(InvalidReg);
#else
#error "Bad architecture"
#endif
static constexpr Register ABINonArgReg0 = { Registers::invalid_reg };
static constexpr Register ABINonArgReg1 = { Registers::invalid_reg };
static constexpr Register ABINonArgReturnReg0 = { Registers::invalid_reg };
static constexpr Register ABINonArgReturnReg1 = { Registers::invalid_reg };
static constexpr Register WasmTableCallScratchReg = { Registers::invalid_reg };
static constexpr Register WasmTableCallSigReg = { Registers::invalid_reg };
static constexpr Register WasmTableCallIndexReg = { Registers::invalid_reg };
static constexpr Register WasmTlsReg = { Registers::invalid_reg };
static constexpr uint32_t ABIStackAlignment = 4;
static constexpr uint32_t CodeAlignment = 4;
static constexpr uint32_t JitStackAlignment = 8;
static constexpr uint32_t JitStackValueAlignment = JitStackAlignment / sizeof(Value);
static const Scale ScalePointer = TimesOne;
class Assembler : public AssemblerShared
{
public:
enum Condition {
Equal,
NotEqual,
Above,
AboveOrEqual,
Below,
BelowOrEqual,
GreaterThan,
GreaterThanOrEqual,
LessThan,
LessThanOrEqual,
Overflow,
CarrySet,
CarryClear,
Signed,
NotSigned,
Zero,
NonZero,
Always,
};
enum DoubleCondition {
DoubleOrdered,
DoubleEqual,
DoubleNotEqual,
DoubleGreaterThan,
DoubleGreaterThanOrEqual,
DoubleLessThan,
DoubleLessThanOrEqual,
DoubleUnordered,
DoubleEqualOrUnordered,
DoubleNotEqualOrUnordered,
DoubleGreaterThanOrUnordered,
DoubleGreaterThanOrEqualOrUnordered,
DoubleLessThanOrUnordered,
DoubleLessThanOrEqualOrUnordered
};
static Condition InvertCondition(Condition) { MOZ_CRASH(); }
template <typename T, typename S>
static void PatchDataWithValueCheck(CodeLocationLabel, T, S) { MOZ_CRASH(); }
static void PatchWrite_Imm32(CodeLocationLabel, Imm32) { MOZ_CRASH(); }
static void PatchWrite_NearCall(CodeLocationLabel, CodeLocationLabel) { MOZ_CRASH(); }
static uint32_t PatchWrite_NearCallSize() { MOZ_CRASH(); }
static void PatchInstructionImmediate(uint8_t*, PatchedImmPtr) { MOZ_CRASH(); }
static void ToggleToJmp(CodeLocationLabel) { MOZ_CRASH(); }
static void ToggleToCmp(CodeLocationLabel) { MOZ_CRASH(); }
static void ToggleCall(CodeLocationLabel, bool) { MOZ_CRASH(); }
static uintptr_t GetPointer(uint8_t*) { MOZ_CRASH(); }
void verifyHeapAccessDisassembly(uint32_t begin, uint32_t end,
const Disassembler::HeapAccess& heapAccess)
{
MOZ_CRASH();
}
};
class Operand
{
public:
Operand (const Address&) { MOZ_CRASH();}
Operand (const Register) { MOZ_CRASH();}
Operand (const FloatRegister) { MOZ_CRASH();}
Operand (Register, Imm32 ) { MOZ_CRASH(); }
Operand (Register, int32_t ) { MOZ_CRASH(); }
};
class MacroAssemblerNone : public Assembler
{
public:
MacroAssemblerNone() { MOZ_CRASH(); }
MoveResolver moveResolver_;
size_t size() const { MOZ_CRASH(); }
size_t bytesNeeded() const { MOZ_CRASH(); }
size_t jumpRelocationTableBytes() const { MOZ_CRASH(); }
size_t dataRelocationTableBytes() const { MOZ_CRASH(); }
size_t preBarrierTableBytes() const { MOZ_CRASH(); }
size_t numCodeLabels() const { MOZ_CRASH(); }
CodeLabel codeLabel(size_t) { MOZ_CRASH(); }
bool asmMergeWith(const MacroAssemblerNone&) { MOZ_CRASH(); }
void trace(JSTracer*) { MOZ_CRASH(); }
static void TraceJumpRelocations(JSTracer*, JitCode*, CompactBufferReader&) { MOZ_CRASH(); }
static void TraceDataRelocations(JSTracer*, JitCode*, CompactBufferReader&) { MOZ_CRASH(); }
static bool SupportsFloatingPoint() { return false; }
static bool SupportsSimd() { return false; }
static bool SupportsUnalignedAccesses() { return false; }
void executableCopy(void*) { MOZ_CRASH(); }
void copyJumpRelocationTable(uint8_t*) { MOZ_CRASH(); }
void copyDataRelocationTable(uint8_t*) { MOZ_CRASH(); }
void copyPreBarrierTable(uint8_t*) { MOZ_CRASH(); }
void processCodeLabels(uint8_t*) { MOZ_CRASH(); }
void flushBuffer() { MOZ_CRASH(); }
template <typename T> void bind(T) { MOZ_CRASH(); }
void bindLater(Label*, wasm::TrapDesc) { MOZ_CRASH(); }
template <typename T> void j(Condition, T) { MOZ_CRASH(); }
template <typename T> void jump(T) { MOZ_CRASH(); }
void haltingAlign(size_t) { MOZ_CRASH(); }
void nopAlign(size_t) { MOZ_CRASH(); }
void checkStackAlignment() { MOZ_CRASH(); }
uint32_t currentOffset() { MOZ_CRASH(); }
uint32_t labelToPatchOffset(CodeOffset) { MOZ_CRASH(); }
CodeOffset labelForPatch() { MOZ_CRASH(); }
void nop() { MOZ_CRASH(); }
void breakpoint() { MOZ_CRASH(); }
void abiret() { MOZ_CRASH(); }
void ret() { MOZ_CRASH(); }
CodeOffset toggledJump(Label*) { MOZ_CRASH(); }
CodeOffset toggledCall(JitCode*, bool) { MOZ_CRASH(); }
static size_t ToggledCallSize(uint8_t*) { MOZ_CRASH(); }
void writePrebarrierOffset(CodeOffset) { MOZ_CRASH(); }
void finish() { MOZ_CRASH(); }
template <typename T, typename S> void moveValue(T, S) { MOZ_CRASH(); }
template <typename T, typename S, typename U> void moveValue(T, S, U) { MOZ_CRASH(); }
template <typename T, typename S> void storeValue(T, S) { MOZ_CRASH(); }
template <typename T, typename S, typename U> void storeValue(T, S, U) { MOZ_CRASH(); }
template <typename T, typename S> void loadValue(T, S) { MOZ_CRASH(); }
template <typename T> void pushValue(T) { MOZ_CRASH(); }
template <typename T, typename S> void pushValue(T, S) { MOZ_CRASH(); }
void popValue(ValueOperand) { MOZ_CRASH(); }
void tagValue(JSValueType, Register, ValueOperand) { MOZ_CRASH(); }
void retn(Imm32 n) { MOZ_CRASH(); }
template <typename T> void push(T) { MOZ_CRASH(); }
template <typename T> void Push(T) { MOZ_CRASH(); }
template <typename T> void pop(T) { MOZ_CRASH(); }
template <typename T> void Pop(T) { MOZ_CRASH(); }
template <typename T> CodeOffset pushWithPatch(T) { MOZ_CRASH(); }
CodeOffsetJump jumpWithPatch(RepatchLabel*, Label* doc = nullptr) { MOZ_CRASH(); }
CodeOffsetJump jumpWithPatch(RepatchLabel*, Condition, Label* doc = nullptr) { MOZ_CRASH(); }
CodeOffsetJump backedgeJump(RepatchLabel* label, Label* doc = nullptr) { MOZ_CRASH(); }
void testNullSet(Condition, ValueOperand, Register) { MOZ_CRASH(); }
void testObjectSet(Condition, ValueOperand, Register) { MOZ_CRASH(); }
void testUndefinedSet(Condition, ValueOperand, Register) { MOZ_CRASH(); }
template <typename T, typename S> void cmpPtrSet(Condition, T, S, Register) { MOZ_CRASH(); }
template <typename T, typename S> void cmp32Set(Condition, T, S, Register) { MOZ_CRASH(); }
template <typename T, typename S> void mov(T, S) { MOZ_CRASH(); }
template <typename T, typename S> void movq(T, S) { MOZ_CRASH(); }
template <typename T, typename S> void movePtr(T, S) { MOZ_CRASH(); }
template <typename T, typename S> void move32(T, S) { MOZ_CRASH(); }
template <typename T, typename S> void moveFloat32(T, S) { MOZ_CRASH(); }
template <typename T, typename S> void moveDouble(T, S) { MOZ_CRASH(); }
template <typename T, typename S> void move64(T, S) { MOZ_CRASH(); }
template <typename T> CodeOffset movWithPatch(T, Register) { MOZ_CRASH(); }
template <typename T> void loadInt32x1(T, FloatRegister dest) { MOZ_CRASH(); }
template <typename T> void loadInt32x2(T, FloatRegister dest) { MOZ_CRASH(); }
template <typename T> void loadInt32x3(T, FloatRegister dest) { MOZ_CRASH(); }
template <typename T> void loadFloat32x3(T, FloatRegister dest) { MOZ_CRASH(); }
template <typename T> void loadPtr(T, Register) { MOZ_CRASH(); }
template <typename T> void load32(T, Register) { MOZ_CRASH(); }
template <typename T> void loadFloat32(T, FloatRegister) { MOZ_CRASH(); }
template <typename T> void loadDouble(T, FloatRegister) { MOZ_CRASH(); }
template <typename T> void loadAlignedSimd128Int(T, FloatRegister) { MOZ_CRASH(); }
template <typename T> void loadUnalignedSimd128Int(T, FloatRegister) { MOZ_CRASH(); }
template <typename T> void loadAlignedSimd128Float(T, FloatRegister) { MOZ_CRASH(); }
template <typename T> void loadUnalignedSimd128Float(T, FloatRegister) { MOZ_CRASH(); }
template <typename T> void loadPrivate(T, Register) { MOZ_CRASH(); }
template <typename T> void load8SignExtend(T, Register) { MOZ_CRASH(); }
template <typename T> void load8ZeroExtend(T, Register) { MOZ_CRASH(); }
template <typename T> void load16SignExtend(T, Register) { MOZ_CRASH(); }
template <typename T> void load16ZeroExtend(T, Register) { MOZ_CRASH(); }
template <typename T> void load64(T, Register64 ) { MOZ_CRASH(); }
template <typename T, typename S> void storePtr(T, S) { MOZ_CRASH(); }
template <typename T, typename S> void store32(T, S) { MOZ_CRASH(); }
template <typename T, typename S> void store32_NoSecondScratch(T, S) { MOZ_CRASH(); }
template <typename T, typename S> void storeFloat32(T, S) { MOZ_CRASH(); }
template <typename T, typename S> void storeDouble(T, S) { MOZ_CRASH(); }
template <typename T, typename S> void storeAlignedSimd128Int(T, S) { MOZ_CRASH(); }
template <typename T, typename S> void storeUnalignedSimd128Int(T, S) { MOZ_CRASH(); }
template <typename T, typename S> void storeAlignedSimd128Float(T, S) { MOZ_CRASH(); }
template <typename T, typename S> void storeUnalignedSimd128Float(T, S) { MOZ_CRASH(); }
template <typename T, typename S> void store8(T, S) { MOZ_CRASH(); }
template <typename T, typename S> void store16(T, S) { MOZ_CRASH(); }
template <typename T, typename S> void storeInt32x1(T, S) { MOZ_CRASH(); }
template <typename T, typename S> void storeInt32x2(T, S) { MOZ_CRASH(); }
template <typename T, typename S> void storeInt32x3(T, S) { MOZ_CRASH(); }
template <typename T, typename S> void storeFloat32x3(T, S) { MOZ_CRASH(); }
template <typename T, typename S> void store64(T, S) { MOZ_CRASH(); }
template <typename T> void computeEffectiveAddress(T, Register) { MOZ_CRASH(); }
template <typename T> void compareExchange8SignExtend(const T& mem, Register oldval, Register newval, Register output) { MOZ_CRASH(); }
template <typename T> void compareExchange8ZeroExtend(const T& mem, Register oldval, Register newval, Register output) { MOZ_CRASH(); }
template <typename T> void compareExchange16SignExtend(const T& mem, Register oldval, Register newval, Register output) { MOZ_CRASH(); }
template <typename T> void compareExchange16ZeroExtend(const T& mem, Register oldval, Register newval, Register output) { MOZ_CRASH(); }
template <typename T> void compareExchange32(const T& mem, Register oldval, Register newval, Register output) { MOZ_CRASH(); }
template<typename T> void atomicExchange8SignExtend(const T& mem, Register value, Register output) { MOZ_CRASH(); }
template<typename T> void atomicExchange8ZeroExtend(const T& mem, Register value, Register output) { MOZ_CRASH(); }
template<typename T> void atomicExchange16SignExtend(const T& mem, Register value, Register output) { MOZ_CRASH(); }
template<typename T> void atomicExchange16ZeroExtend(const T& mem, Register value, Register output) { MOZ_CRASH(); }
template<typename T> void atomicExchange32(const T& mem, Register value, Register output) { MOZ_CRASH(); }
template <typename T, typename S> void atomicFetchAdd8SignExtend(const T& value, const S& mem, Register temp, Register output) { MOZ_CRASH(); }
template <typename T, typename S> void atomicFetchAdd8ZeroExtend(const T& value, const S& mem, Register temp, Register output) { MOZ_CRASH(); }
template <typename T, typename S> void atomicFetchAdd16SignExtend(const T& value, const S& mem, Register temp, Register output) { MOZ_CRASH(); }
template <typename T, typename S> void atomicFetchAdd16ZeroExtend(const T& value, const S& mem, Register temp, Register output) { MOZ_CRASH(); }
template <typename T, typename S> void atomicFetchAdd32(const T& value, const S& mem, Register temp, Register output) { MOZ_CRASH(); }
template <typename T, typename S> void atomicAdd8(const T& value, const S& mem) { MOZ_CRASH(); }
template <typename T, typename S> void atomicAdd16(const T& value, const S& mem) { MOZ_CRASH(); }
template <typename T, typename S> void atomicAdd32(const T& value, const S& mem) { MOZ_CRASH(); }
template <typename T, typename S> void atomicFetchSub8SignExtend(const T& value, const S& mem, Register temp, Register output) { MOZ_CRASH(); }
template <typename T, typename S> void atomicFetchSub8ZeroExtend(const T& value, const S& mem, Register temp, Register output) { MOZ_CRASH(); }
template <typename T, typename S> void atomicFetchSub16SignExtend(const T& value, const S& mem, Register temp, Register output) { MOZ_CRASH(); }
template <typename T, typename S> void atomicFetchSub16ZeroExtend(const T& value, const S& mem, Register temp, Register output) { MOZ_CRASH(); }
template <typename T, typename S> void atomicFetchSub32(const T& value, const S& mem, Register temp, Register output) { MOZ_CRASH(); }
template <typename T, typename S> void atomicSub8(const T& value, const S& mem) { MOZ_CRASH(); }
template <typename T, typename S> void atomicSub16(const T& value, const S& mem) { MOZ_CRASH(); }
template <typename T, typename S> void atomicSub32(const T& value, const S& mem) { MOZ_CRASH(); }
template <typename T, typename S> void atomicFetchAnd8SignExtend(const T& value, const S& mem, Register temp, Register output) { MOZ_CRASH(); }
template <typename T, typename S> void atomicFetchAnd8ZeroExtend(const T& value, const S& mem, Register temp, Register output) { MOZ_CRASH(); }
template <typename T, typename S> void atomicFetchAnd16SignExtend(const T& value, const S& mem, Register temp, Register output) { MOZ_CRASH(); }
template <typename T, typename S> void atomicFetchAnd16ZeroExtend(const T& value, const S& mem, Register temp, Register output) { MOZ_CRASH(); }
template <typename T, typename S> void atomicFetchAnd32(const T& value, const S& mem, Register temp, Register output) { MOZ_CRASH(); }
template <typename T, typename S> void atomicAnd8(const T& value, const S& mem) { MOZ_CRASH(); }
template <typename T, typename S> void atomicAnd16(const T& value, const S& mem) { MOZ_CRASH(); }
template <typename T, typename S> void atomicAnd32(const T& value, const S& mem) { MOZ_CRASH(); }
template <typename T, typename S> void atomicFetchOr8SignExtend(const T& value, const S& mem, Register temp, Register output) { MOZ_CRASH(); }
template <typename T, typename S> void atomicFetchOr8ZeroExtend(const T& value, const S& mem, Register temp, Register output) { MOZ_CRASH(); }
template <typename T, typename S> void atomicFetchOr16SignExtend(const T& value, const S& mem, Register temp, Register output) { MOZ_CRASH(); }
template <typename T, typename S> void atomicFetchOr16ZeroExtend(const T& value, const S& mem, Register temp, Register output) { MOZ_CRASH(); }
template <typename T, typename S> void atomicFetchOr32(const T& value, const S& mem, Register temp, Register output) { MOZ_CRASH(); }
template <typename T, typename S> void atomicOr8(const T& value, const S& mem) { MOZ_CRASH(); }
template <typename T, typename S> void atomicOr16(const T& value, const S& mem) { MOZ_CRASH(); }
template <typename T, typename S> void atomicOr32(const T& value, const S& mem) { MOZ_CRASH(); }
template <typename T, typename S> void atomicFetchXor8SignExtend(const T& value, const S& mem, Register temp, Register output) { MOZ_CRASH(); }
template <typename T, typename S> void atomicFetchXor8ZeroExtend(const T& value, const S& mem, Register temp, Register output) { MOZ_CRASH(); }
template <typename T, typename S> void atomicFetchXor16SignExtend(const T& value, const S& mem, Register temp, Register output) { MOZ_CRASH(); }
template <typename T, typename S> void atomicFetchXor16ZeroExtend(const T& value, const S& mem, Register temp, Register output) { MOZ_CRASH(); }
template <typename T, typename S> void atomicFetchXor32(const T& value, const S& mem, Register temp, Register output) { MOZ_CRASH(); }
template <typename T, typename S> void atomicXor8(const T& value, const S& mem) { MOZ_CRASH(); }
template <typename T, typename S> void atomicXor16(const T& value, const S& mem) { MOZ_CRASH(); }
template <typename T, typename S> void atomicXor32(const T& value, const S& mem) { MOZ_CRASH(); }
Register splitTagForTest(ValueOperand) { MOZ_CRASH(); }
void boxDouble(FloatRegister, ValueOperand) { MOZ_CRASH(); }
void boxNonDouble(JSValueType, Register, ValueOperand) { MOZ_CRASH(); }
template <typename T> void unboxInt32(T, Register) { MOZ_CRASH(); }
template <typename T> void unboxBoolean(T, Register) { MOZ_CRASH(); }
template <typename T> void unboxString(T, Register) { MOZ_CRASH(); }
template <typename T> void unboxSymbol(T, Register) { MOZ_CRASH(); }
template <typename T> void unboxObject(T, Register) { MOZ_CRASH(); }
template <typename T> void unboxDouble(T, FloatRegister) { MOZ_CRASH(); }
void unboxValue(const ValueOperand&, AnyRegister) { MOZ_CRASH(); }
void unboxNonDouble(const ValueOperand&, Register ) { MOZ_CRASH();}
void notBoolean(ValueOperand) { MOZ_CRASH(); }
Register extractObject(Address, Register) { MOZ_CRASH(); }
Register extractObject(ValueOperand, Register) { MOZ_CRASH(); }
Register extractInt32(ValueOperand, Register) { MOZ_CRASH(); }
Register extractBoolean(ValueOperand, Register) { MOZ_CRASH(); }
template <typename T> Register extractTag(T, Register) { MOZ_CRASH(); }
void convertFloat32ToInt32(FloatRegister, Register, Label*, bool v = true) { MOZ_CRASH(); }
void convertDoubleToInt32(FloatRegister, Register, Label*, bool v = true) { MOZ_CRASH(); }
void convertBoolToInt32(Register, Register) { MOZ_CRASH(); }
void convertDoubleToFloat32(FloatRegister, FloatRegister) { MOZ_CRASH(); }
void convertInt32ToFloat32(Register, FloatRegister) { MOZ_CRASH(); }
template <typename T> void convertInt32ToDouble(T, FloatRegister) { MOZ_CRASH(); }
void convertFloat32ToDouble(FloatRegister, FloatRegister) { MOZ_CRASH(); }
static bool convertUInt64ToDoubleNeedsTemp() { MOZ_CRASH(); }
void convertUInt64ToDouble(Register64, FloatRegister, Register) { MOZ_CRASH(); }
void boolValueToDouble(ValueOperand, FloatRegister) { MOZ_CRASH(); }
void boolValueToFloat32(ValueOperand, FloatRegister) { MOZ_CRASH(); }
void int32ValueToDouble(ValueOperand, FloatRegister) { MOZ_CRASH(); }
void int32ValueToFloat32(ValueOperand, FloatRegister) { MOZ_CRASH(); }
void loadConstantDouble(double, FloatRegister) { MOZ_CRASH(); }
void loadConstantFloat32(float, FloatRegister) { MOZ_CRASH(); }
void loadConstantDouble(wasm::RawF64, FloatRegister) { MOZ_CRASH(); }
void loadConstantFloat32(wasm::RawF32, FloatRegister) { MOZ_CRASH(); }
Condition testInt32Truthy(bool, ValueOperand) { MOZ_CRASH(); }
Condition testStringTruthy(bool, ValueOperand) { MOZ_CRASH(); }
template <typename T> void loadUnboxedValue(T, MIRType, AnyRegister) { MOZ_CRASH(); }
template <typename T> void storeUnboxedValue(const ConstantOrRegister&, MIRType, T, MIRType) { MOZ_CRASH(); }
template <typename T> void storeUnboxedPayload(ValueOperand value, T, size_t) { MOZ_CRASH(); }
void convertUInt32ToDouble(Register, FloatRegister) { MOZ_CRASH(); }
void convertUInt32ToFloat32(Register, FloatRegister) { MOZ_CRASH(); }
void incrementInt32Value(Address) { MOZ_CRASH(); }
void ensureDouble(ValueOperand, FloatRegister, Label*) { MOZ_CRASH(); }
void handleFailureWithHandlerTail(void*) { MOZ_CRASH(); }
void buildFakeExitFrame(Register, uint32_t*) { MOZ_CRASH(); }
bool buildOOLFakeExitFrame(void*) { MOZ_CRASH(); }
void loadWasmGlobalPtr(uint32_t, Register) { MOZ_CRASH(); }
void loadWasmActivationFromTls(Register) { MOZ_CRASH(); }
void loadWasmActivationFromSymbolicAddress(Register) { MOZ_CRASH(); }
void loadWasmPinnedRegsFromTls() { MOZ_CRASH(); }
void setPrinter(Sprinter*) { MOZ_CRASH(); }
Operand ToPayload(Operand base) { MOZ_CRASH(); }
static const Register getStackPointer() { MOZ_CRASH(); }
// Instrumentation for entering and leaving the profiler.
void profilerEnterFrame(Register , Register ) { MOZ_CRASH(); }
void profilerExitFrame() { MOZ_CRASH(); }
#ifdef JS_NUNBOX32
Address ToPayload(Address) { MOZ_CRASH(); }
Address ToType(Address) { MOZ_CRASH(); }
#endif
struct AutoPrepareForPatching {
explicit AutoPrepareForPatching(MacroAssemblerNone&) {
MOZ_CRASH();
}
};
};
typedef MacroAssemblerNone MacroAssemblerSpecific;
class ABIArgGenerator
{
public:
ABIArgGenerator() { MOZ_CRASH(); }
ABIArg next(MIRType) { MOZ_CRASH(); }
ABIArg& current() { MOZ_CRASH(); }
uint32_t stackBytesConsumedSoFar() const { MOZ_CRASH(); }
};
static inline void
PatchJump(CodeLocationJump&, CodeLocationLabel, ReprotectCode reprotect = DontReprotect)
{
MOZ_CRASH();
}
static inline bool GetTempRegForIntArg(uint32_t, uint32_t, Register*) { MOZ_CRASH(); }
static inline
void PatchBackedge(CodeLocationJump& jump_, CodeLocationLabel label, JitRuntime::BackedgeTarget target)
{
MOZ_CRASH();
}
} // namespace jit
} // namespace js
#endif /* jit_none_MacroAssembler_none_h */
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