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Diffstat (limited to 'src/3rdparty/webkit/JavaScriptCore/assembler/MacroAssemblerARM.h')
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1 files changed, 797 insertions, 0 deletions
diff --git a/src/3rdparty/webkit/JavaScriptCore/assembler/MacroAssemblerARM.h b/src/3rdparty/webkit/JavaScriptCore/assembler/MacroAssemblerARM.h new file mode 100644 index 000000000..27879a956 --- /dev/null +++ b/src/3rdparty/webkit/JavaScriptCore/assembler/MacroAssemblerARM.h @@ -0,0 +1,797 @@ +/* + * Copyright (C) 2008 Apple Inc. + * Copyright (C) 2009 University of Szeged + * 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. + */ + +#ifndef MacroAssemblerARM_h +#define MacroAssemblerARM_h + +#include <wtf/Platform.h> + +#if ENABLE(ASSEMBLER) && PLATFORM(ARM) + +#include "ARMAssembler.h" +#include "AbstractMacroAssembler.h" + +namespace JSC { + +class MacroAssemblerARM : public AbstractMacroAssembler<ARMAssembler> { +public: + enum Condition { + Equal = ARMAssembler::EQ, + NotEqual = ARMAssembler::NE, + Above = ARMAssembler::HI, + AboveOrEqual = ARMAssembler::CS, + Below = ARMAssembler::CC, + BelowOrEqual = ARMAssembler::LS, + GreaterThan = ARMAssembler::GT, + GreaterThanOrEqual = ARMAssembler::GE, + LessThan = ARMAssembler::LT, + LessThanOrEqual = ARMAssembler::LE, + Overflow = ARMAssembler::VS, + Signed = ARMAssembler::MI, + Zero = ARMAssembler::EQ, + NonZero = ARMAssembler::NE + }; + + enum DoubleCondition { + DoubleEqual, //FIXME + DoubleNotEqual, //FIXME + DoubleGreaterThan, //FIXME + DoubleGreaterThanOrEqual, //FIXME + DoubleLessThan, //FIXME + DoubleLessThanOrEqual, //FIXME + }; + + static const RegisterID stackPointerRegister = ARM::sp; + + static const Scale ScalePtr = TimesFour; + + void add32(RegisterID src, RegisterID dest) + { + m_assembler.adds_r(dest, dest, src); + } + + void add32(Imm32 imm, Address address) + { + load32(address, ARM::S1); + add32(imm, ARM::S1); + store32(ARM::S1, address); + } + + void add32(Imm32 imm, RegisterID dest) + { + m_assembler.adds_r(dest, dest, m_assembler.getImm(imm.m_value, ARM::S0)); + } + + void add32(Address src, RegisterID dest) + { + load32(src, ARM::S1); + add32(ARM::S1, dest); + } + + void and32(RegisterID src, RegisterID dest) + { + m_assembler.ands_r(dest, dest, src); + } + + void and32(Imm32 imm, RegisterID dest) + { + ARMWord w = m_assembler.getImm(imm.m_value, ARM::S0, true); + if (w & ARMAssembler::OP2_INV_IMM) + m_assembler.bics_r(dest, dest, w & ~ARMAssembler::OP2_INV_IMM); + else + m_assembler.ands_r(dest, dest, w); + } + + void lshift32(Imm32 imm, RegisterID dest) + { + m_assembler.movs_r(dest, m_assembler.lsl(dest, imm.m_value & 0x1f)); + } + + void lshift32(RegisterID shift_amount, RegisterID dest) + { + m_assembler.movs_r(dest, m_assembler.lsl_r(dest, shift_amount)); + } + + void mul32(RegisterID src, RegisterID dest) + { + if (src == dest) { + move(src, ARM::S0); + src = ARM::S0; + } + m_assembler.muls_r(dest, dest, src); + } + + void mul32(Imm32 imm, RegisterID src, RegisterID dest) + { + move(imm, ARM::S0); + m_assembler.muls_r(dest, src, ARM::S0); + } + + void not32(RegisterID dest) + { + m_assembler.mvns_r(dest, dest); + } + + void or32(RegisterID src, RegisterID dest) + { + m_assembler.orrs_r(dest, dest, src); + } + + void or32(Imm32 imm, RegisterID dest) + { + m_assembler.orrs_r(dest, dest, m_assembler.getImm(imm.m_value, ARM::S0)); + } + + void rshift32(RegisterID shift_amount, RegisterID dest) + { + m_assembler.movs_r(dest, m_assembler.asr_r(dest, shift_amount)); + } + + void rshift32(Imm32 imm, RegisterID dest) + { + m_assembler.movs_r(dest, m_assembler.asr(dest, imm.m_value & 0x1f)); + } + + void sub32(RegisterID src, RegisterID dest) + { + m_assembler.subs_r(dest, dest, src); + } + + void sub32(Imm32 imm, RegisterID dest) + { + m_assembler.subs_r(dest, dest, m_assembler.getImm(imm.m_value, ARM::S0)); + } + + void sub32(Imm32 imm, Address address) + { + load32(address, ARM::S1); + sub32(imm, ARM::S1); + store32(ARM::S1, address); + } + + void sub32(Address src, RegisterID dest) + { + load32(src, ARM::S1); + sub32(ARM::S1, dest); + } + + void xor32(RegisterID src, RegisterID dest) + { + m_assembler.eors_r(dest, dest, src); + } + + void xor32(Imm32 imm, RegisterID dest) + { + m_assembler.eors_r(dest, dest, m_assembler.getImm(imm.m_value, ARM::S0)); + } + + void load32(ImplicitAddress address, RegisterID dest) + { + m_assembler.dataTransfer32(true, dest, address.base, address.offset); + } + + void load32(BaseIndex address, RegisterID dest) + { + m_assembler.baseIndexTransfer32(true, dest, address.base, address.index, static_cast<int>(address.scale), address.offset); + } + + DataLabel32 load32WithAddressOffsetPatch(Address address, RegisterID dest) + { + DataLabel32 dataLabel(this); + m_assembler.ldr_un_imm(ARM::S0, 0); + m_assembler.dtr_ur(true, dest, address.base, ARM::S0); + return dataLabel; + } + + Label loadPtrWithPatchToLEA(Address address, RegisterID dest) + { + Label label(this); + load32(address, dest); + return label; + } + + void load16(BaseIndex address, RegisterID dest) + { + m_assembler.add_r(ARM::S0, address.base, m_assembler.lsl(address.index, address.scale)); + if (address.offset>=0) + m_assembler.ldrh_u(dest, ARM::S0, ARMAssembler::getOp2Byte(address.offset)); + else + m_assembler.ldrh_d(dest, ARM::S0, ARMAssembler::getOp2Byte(-address.offset)); + } + + DataLabel32 store32WithAddressOffsetPatch(RegisterID src, Address address) + { + DataLabel32 dataLabel(this); + m_assembler.ldr_un_imm(ARM::S0, 0); + m_assembler.dtr_ur(false, src, address.base, ARM::S0); + return dataLabel; + } + + void store32(RegisterID src, ImplicitAddress address) + { + m_assembler.dataTransfer32(false, src, address.base, address.offset); + } + + void store32(RegisterID src, BaseIndex address) + { + m_assembler.baseIndexTransfer32(false, src, address.base, address.index, static_cast<int>(address.scale), address.offset); + } + + void store32(Imm32 imm, ImplicitAddress address) + { + move(imm, ARM::S1); + store32(ARM::S1, address); + } + + void store32(RegisterID src, void* address) + { + m_assembler.moveImm(reinterpret_cast<ARMWord>(address), ARM::S0); + m_assembler.dtr_u(false, src, ARM::S0, 0); + } + + void store32(Imm32 imm, void* address) + { + m_assembler.moveImm(reinterpret_cast<ARMWord>(address), ARM::S0); + m_assembler.moveImm(imm.m_value, ARM::S1); + m_assembler.dtr_u(false, ARM::S1, ARM::S0, 0); + } + + void pop(RegisterID dest) + { + m_assembler.pop_r(dest); + } + + void push(RegisterID src) + { + m_assembler.push_r(src); + } + + void push(Address address) + { + load32(address, ARM::S1); + push(ARM::S1); + } + + void push(Imm32 imm) + { + move(imm, ARM::S0); + push(ARM::S0); + } + + void move(Imm32 imm, RegisterID dest) + { + m_assembler.moveImm(imm.m_value, dest); + } + + void move(RegisterID src, RegisterID dest) + { + m_assembler.mov_r(dest, src); + } + + void move(ImmPtr imm, RegisterID dest) + { + m_assembler.mov_r(dest, m_assembler.getImm(reinterpret_cast<ARMWord>(imm.m_value), ARM::S0)); + } + + void swap(RegisterID reg1, RegisterID reg2) + { + m_assembler.mov_r(ARM::S0, reg1); + m_assembler.mov_r(reg1, reg2); + m_assembler.mov_r(reg2, ARM::S0); + } + + void signExtend32ToPtr(RegisterID src, RegisterID dest) + { + if (src != dest) + move(src, dest); + } + + void zeroExtend32ToPtr(RegisterID src, RegisterID dest) + { + if (src != dest) + move(src, dest); + } + + Jump branch32(Condition cond, RegisterID left, RegisterID right) + { + m_assembler.cmp_r(left, right); + return Jump(m_assembler.jmp(ARMCondition(cond))); + } + + Jump branch32(Condition cond, RegisterID left, Imm32 right) + { + m_assembler.cmp_r(left, m_assembler.getImm(right.m_value, ARM::S0)); + return Jump(m_assembler.jmp(ARMCondition(cond))); + } + + Jump branch32(Condition cond, RegisterID left, Address right) + { + load32(right, ARM::S1); + return branch32(cond, left, ARM::S1); + } + + Jump branch32(Condition cond, Address left, RegisterID right) + { + load32(left, ARM::S1); + return branch32(cond, ARM::S1, right); + } + + Jump branch32(Condition cond, Address left, Imm32 right) + { + load32(left, ARM::S1); + return branch32(cond, ARM::S1, right); + } + + Jump branch32(Condition cond, BaseIndex left, Imm32 right) + { + load32(left, ARM::S1); + return branch32(cond, ARM::S1, right); + } + + Jump branch16(Condition cond, BaseIndex left, RegisterID right) + { + UNUSED_PARAM(cond); + UNUSED_PARAM(left); + UNUSED_PARAM(right); + ASSERT_NOT_REACHED(); + return jump(); + } + + Jump branch16(Condition cond, BaseIndex left, Imm32 right) + { + load16(left, ARM::S0); + move(right, ARM::S1); + m_assembler.cmp_r(ARM::S0, ARM::S1); + return m_assembler.jmp(ARMCondition(cond)); + } + + Jump branchTest32(Condition cond, RegisterID reg, RegisterID mask) + { + ASSERT((cond == Zero) || (cond == NonZero)); + m_assembler.tst_r(reg, mask); + return Jump(m_assembler.jmp(ARMCondition(cond))); + } + + Jump branchTest32(Condition cond, RegisterID reg, Imm32 mask = Imm32(-1)) + { + ASSERT((cond == Zero) || (cond == NonZero)); + ARMWord w = m_assembler.getImm(mask.m_value, ARM::S0, true); + if (w & ARMAssembler::OP2_INV_IMM) + m_assembler.bics_r(ARM::S0, reg, w & ~ARMAssembler::OP2_INV_IMM); + else + m_assembler.tst_r(reg, w); + return Jump(m_assembler.jmp(ARMCondition(cond))); + } + + Jump branchTest32(Condition cond, Address address, Imm32 mask = Imm32(-1)) + { + load32(address, ARM::S1); + return branchTest32(cond, ARM::S1, mask); + } + + Jump branchTest32(Condition cond, BaseIndex address, Imm32 mask = Imm32(-1)) + { + load32(address, ARM::S1); + return branchTest32(cond, ARM::S1, mask); + } + + Jump jump() + { + return Jump(m_assembler.jmp()); + } + + void jump(RegisterID target) + { + move(target, ARM::pc); + } + + void jump(Address address) + { + load32(address, ARM::pc); + } + + Jump branchAdd32(Condition cond, RegisterID src, RegisterID dest) + { + ASSERT((cond == Overflow) || (cond == Signed) || (cond == Zero) || (cond == NonZero)); + add32(src, dest); + return Jump(m_assembler.jmp(ARMCondition(cond))); + } + + Jump branchAdd32(Condition cond, Imm32 imm, RegisterID dest) + { + ASSERT((cond == Overflow) || (cond == Signed) || (cond == Zero) || (cond == NonZero)); + add32(imm, dest); + return Jump(m_assembler.jmp(ARMCondition(cond))); + } + + void mull32(RegisterID src1, RegisterID src2, RegisterID dest) + { + if (src1 == dest) { + move(src1, ARM::S0); + src1 = ARM::S0; + } + m_assembler.mull_r(ARM::S1, dest, src2, src1); + m_assembler.cmp_r(ARM::S1, m_assembler.asr(dest, 31)); + } + + Jump branchMul32(Condition cond, RegisterID src, RegisterID dest) + { + ASSERT((cond == Overflow) || (cond == Signed) || (cond == Zero) || (cond == NonZero)); + if (cond == Overflow) { + mull32(src, dest, dest); + cond = NonZero; + } + else + mul32(src, dest); + return Jump(m_assembler.jmp(ARMCondition(cond))); + } + + Jump branchMul32(Condition cond, Imm32 imm, RegisterID src, RegisterID dest) + { + ASSERT((cond == Overflow) || (cond == Signed) || (cond == Zero) || (cond == NonZero)); + if (cond == Overflow) { + move(imm, ARM::S0); + mull32(ARM::S0, src, dest); + cond = NonZero; + } + else + mul32(imm, src, dest); + return Jump(m_assembler.jmp(ARMCondition(cond))); + } + + Jump branchSub32(Condition cond, RegisterID src, RegisterID dest) + { + ASSERT((cond == Overflow) || (cond == Signed) || (cond == Zero) || (cond == NonZero)); + sub32(src, dest); + return Jump(m_assembler.jmp(ARMCondition(cond))); + } + + Jump branchSub32(Condition cond, Imm32 imm, RegisterID dest) + { + ASSERT((cond == Overflow) || (cond == Signed) || (cond == Zero) || (cond == NonZero)); + sub32(imm, dest); + return Jump(m_assembler.jmp(ARMCondition(cond))); + } + + void breakpoint() + { + m_assembler.bkpt(0); + } + + Call nearCall() + { + prepareCall(); + return Call(m_assembler.jmp(), Call::LinkableNear); + } + + Call call(RegisterID target) + { + prepareCall(); + move(ARM::pc, target); + JmpSrc jmpSrc; + return Call(jmpSrc, Call::None); + } + + void call(Address address) + { + call32(address.base, address.offset); + } + + void ret() + { + pop(ARM::pc); + } + + void set32(Condition cond, RegisterID left, RegisterID right, RegisterID dest) + { + m_assembler.cmp_r(left, right); + m_assembler.mov_r(dest, ARMAssembler::getOp2(0)); + m_assembler.mov_r(dest, ARMAssembler::getOp2(1), ARMCondition(cond)); + } + + void set32(Condition cond, RegisterID left, Imm32 right, RegisterID dest) + { + m_assembler.cmp_r(left, m_assembler.getImm(right.m_value, ARM::S0)); + m_assembler.mov_r(dest, ARMAssembler::getOp2(0)); + m_assembler.mov_r(dest, ARMAssembler::getOp2(1), ARMCondition(cond)); + } + + void setTest32(Condition cond, Address address, Imm32 mask, RegisterID dest) + { + load32(address, ARM::S1); + if (mask.m_value == -1) + m_assembler.cmp_r(0, ARM::S1); + else + m_assembler.tst_r(ARM::S1, m_assembler.getImm(mask.m_value, ARM::S0)); + m_assembler.mov_r(dest, ARMAssembler::getOp2(0)); + m_assembler.mov_r(dest, ARMAssembler::getOp2(1), ARMCondition(cond)); + } + + void add32(Imm32 imm, RegisterID src, RegisterID dest) + { + m_assembler.add_r(dest, src, m_assembler.getImm(imm.m_value, ARM::S0)); + } + + void add32(Imm32 imm, AbsoluteAddress address) + { + m_assembler.moveImm(reinterpret_cast<ARMWord>(address.m_ptr), ARM::S1); + m_assembler.dtr_u(true, ARM::S1, ARM::S1, 0); + add32(imm, ARM::S1); + m_assembler.moveImm(reinterpret_cast<ARMWord>(address.m_ptr), ARM::S0); + m_assembler.dtr_u(false, ARM::S1, ARM::S0, 0); + } + + void sub32(Imm32 imm, AbsoluteAddress address) + { + m_assembler.moveImm(reinterpret_cast<ARMWord>(address.m_ptr), ARM::S1); + m_assembler.dtr_u(true, ARM::S1, ARM::S1, 0); + sub32(imm, ARM::S1); + m_assembler.moveImm(reinterpret_cast<ARMWord>(address.m_ptr), ARM::S0); + m_assembler.dtr_u(false, ARM::S1, ARM::S0, 0); + } + + void load32(void* address, RegisterID dest) + { + m_assembler.moveImm(reinterpret_cast<ARMWord>(address), ARM::S0); + m_assembler.dtr_u(true, dest, ARM::S0, 0); + } + + Jump branch32(Condition cond, AbsoluteAddress left, RegisterID right) + { + load32(left.m_ptr, ARM::S1); + return branch32(cond, ARM::S1, right); + } + + Jump branch32(Condition cond, AbsoluteAddress left, Imm32 right) + { + load32(left.m_ptr, ARM::S1); + return branch32(cond, ARM::S1, right); + } + + Call call() + { + prepareCall(); + return Call(m_assembler.jmp(), Call::Linkable); + } + + Call tailRecursiveCall() + { + return Call::fromTailJump(jump()); + } + + Call makeTailRecursiveCall(Jump oldJump) + { + return Call::fromTailJump(oldJump); + } + + DataLabelPtr moveWithPatch(ImmPtr initialValue, RegisterID dest) + { + DataLabelPtr dataLabel(this); + m_assembler.ldr_un_imm(dest, reinterpret_cast<ARMWord>(initialValue.m_value)); + return dataLabel; + } + + Jump branchPtrWithPatch(Condition cond, RegisterID left, DataLabelPtr& dataLabel, ImmPtr initialRightValue = ImmPtr(0)) + { + dataLabel = moveWithPatch(initialRightValue, ARM::S1); + Jump jump = branch32(cond, left, ARM::S1); + jump.enableLatePatch(); + return jump; + } + + Jump branchPtrWithPatch(Condition cond, Address left, DataLabelPtr& dataLabel, ImmPtr initialRightValue = ImmPtr(0)) + { + load32(left, ARM::S1); + dataLabel = moveWithPatch(initialRightValue, ARM::S0); + Jump jump = branch32(cond, ARM::S0, ARM::S1); + jump.enableLatePatch(); + return jump; + } + + DataLabelPtr storePtrWithPatch(ImmPtr initialValue, ImplicitAddress address) + { + DataLabelPtr dataLabel = moveWithPatch(initialValue, ARM::S1); + store32(ARM::S1, address); + return dataLabel; + } + + DataLabelPtr storePtrWithPatch(ImplicitAddress address) + { + return storePtrWithPatch(ImmPtr(0), address); + } + + // Floating point operators + bool supportsFloatingPoint() const + { + return false; + } + + bool supportsFloatingPointTruncate() const + { + return false; + } + + void loadDouble(ImplicitAddress address, FPRegisterID dest) + { + UNUSED_PARAM(address); + UNUSED_PARAM(dest); + ASSERT_NOT_REACHED(); + } + + void storeDouble(FPRegisterID src, ImplicitAddress address) + { + UNUSED_PARAM(src); + UNUSED_PARAM(address); + ASSERT_NOT_REACHED(); + } + + void addDouble(FPRegisterID src, FPRegisterID dest) + { + UNUSED_PARAM(src); + UNUSED_PARAM(dest); + ASSERT_NOT_REACHED(); + } + + void addDouble(Address src, FPRegisterID dest) + { + UNUSED_PARAM(src); + UNUSED_PARAM(dest); + ASSERT_NOT_REACHED(); + } + + void subDouble(FPRegisterID src, FPRegisterID dest) + { + UNUSED_PARAM(src); + UNUSED_PARAM(dest); + ASSERT_NOT_REACHED(); + } + + void subDouble(Address src, FPRegisterID dest) + { + UNUSED_PARAM(src); + UNUSED_PARAM(dest); + ASSERT_NOT_REACHED(); + } + + void mulDouble(FPRegisterID src, FPRegisterID dest) + { + UNUSED_PARAM(src); + UNUSED_PARAM(dest); + ASSERT_NOT_REACHED(); + } + + void mulDouble(Address src, FPRegisterID dest) + { + UNUSED_PARAM(src); + UNUSED_PARAM(dest); + ASSERT_NOT_REACHED(); + } + + void convertInt32ToDouble(RegisterID src, FPRegisterID dest) + { + UNUSED_PARAM(src); + UNUSED_PARAM(dest); + ASSERT_NOT_REACHED(); + } + + Jump branchDouble(DoubleCondition cond, FPRegisterID left, FPRegisterID right) + { + UNUSED_PARAM(cond); + UNUSED_PARAM(left); + UNUSED_PARAM(right); + ASSERT_NOT_REACHED(); + return jump(); + } + + // Truncates 'src' to an integer, and places the resulting 'dest'. + // If the result is not representable as a 32 bit value, branch. + // May also branch for some values that are representable in 32 bits + // (specifically, in this case, INT_MIN). + Jump branchTruncateDoubleToInt32(FPRegisterID src, RegisterID dest) + { + UNUSED_PARAM(src); + UNUSED_PARAM(dest); + ASSERT_NOT_REACHED(); + return jump(); + } + +protected: + ARMAssembler::Condition ARMCondition(Condition cond) + { + return static_cast<ARMAssembler::Condition>(cond); + } + + void prepareCall() + { + m_assembler.ensureSpace(3 * sizeof(ARMWord), sizeof(ARMWord)); + + // S0 might be used for parameter passing + m_assembler.add_r(ARM::S1, ARM::pc, ARMAssembler::OP2_IMM | 0x4); + m_assembler.push_r(ARM::S1); + } + + void call32(RegisterID base, int32_t offset) + { + if (base == ARM::sp) + offset += 4; + + if (offset >= 0) { + if (offset <= 0xfff) { + prepareCall(); + m_assembler.dtr_u(true, ARM::pc, base, offset); + } else if (offset <= 0xfffff) { + m_assembler.add_r(ARM::S0, base, ARMAssembler::OP2_IMM | (offset >> 12) | (10 << 8)); + prepareCall(); + m_assembler.dtr_u(true, ARM::pc, ARM::S0, offset & 0xfff); + } else { + ARMWord reg = m_assembler.getImm(offset, ARM::S0); + prepareCall(); + m_assembler.dtr_ur(true, ARM::pc, base, reg); + } + } else { + offset = -offset; + if (offset <= 0xfff) { + prepareCall(); + m_assembler.dtr_d(true, ARM::pc, base, offset); + } else if (offset <= 0xfffff) { + m_assembler.sub_r(ARM::S0, base, ARMAssembler::OP2_IMM | (offset >> 12) | (10 << 8)); + prepareCall(); + m_assembler.dtr_d(true, ARM::pc, ARM::S0, offset & 0xfff); + } else { + ARMWord reg = m_assembler.getImm(offset, ARM::S0); + prepareCall(); + m_assembler.dtr_dr(true, ARM::pc, base, reg); + } + } + } + +private: + friend class LinkBuffer; + friend class RepatchBuffer; + + static void linkCall(void* code, Call call, FunctionPtr function) + { + ARMAssembler::linkCall(code, call.m_jmp, function.value()); + } + + static void repatchCall(CodeLocationCall call, CodeLocationLabel destination) + { + ARMAssembler::relinkCall(call.dataLocation(), destination.executableAddress()); + } + + static void repatchCall(CodeLocationCall call, FunctionPtr destination) + { + ARMAssembler::relinkCall(call.dataLocation(), destination.executableAddress()); + } + +}; + +} + +#endif + +#endif // MacroAssemblerARM_h |