/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -*- * vim: set ts=8 sts=2 et sw=2 tw=80: * 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_loong64_MacroAssembler_loong64_inl_h #define jit_loong64_MacroAssembler_loong64_inl_h #include "jit/loong64/MacroAssembler-loong64.h" namespace js { namespace jit { //{{{ check_macroassembler_style void MacroAssembler::move64(Register64 src, Register64 dest) { movePtr(src.reg, dest.reg); } void MacroAssembler::move64(Imm64 imm, Register64 dest) { movePtr(ImmWord(imm.value), dest.reg); } void MacroAssembler::moveDoubleToGPR64(FloatRegister src, Register64 dest) { moveFromDouble(src, dest.reg); } void MacroAssembler::moveGPR64ToDouble(Register64 src, FloatRegister dest) { moveToDouble(src.reg, dest); } void MacroAssembler::move64To32(Register64 src, Register dest) { as_slli_w(dest, src.reg, 0); } void MacroAssembler::move32To64ZeroExtend(Register src, Register64 dest) { as_bstrpick_d(dest.reg, src, 31, 0); } void MacroAssembler::move8To64SignExtend(Register src, Register64 dest) { move32To64SignExtend(src, dest); move8SignExtend(dest.reg, dest.reg); } void MacroAssembler::move16To64SignExtend(Register src, Register64 dest) { move32To64SignExtend(src, dest); move16SignExtend(dest.reg, dest.reg); } void MacroAssembler::move32To64SignExtend(Register src, Register64 dest) { as_slli_w(dest.reg, src, 0); } void MacroAssembler::moveFloat32ToGPR(FloatRegister src, Register dest) { moveFromFloat32(src, dest); } void MacroAssembler::moveGPRToFloat32(Register src, FloatRegister dest) { moveToFloat32(src, dest); } void MacroAssembler::move8SignExtend(Register src, Register dest) { as_ext_w_b(dest, src); } void MacroAssembler::move16SignExtend(Register src, Register dest) { as_ext_w_h(dest, src); } void MacroAssembler::move32SignExtendToPtr(Register src, Register dest) { as_slli_w(dest, src, 0); } void MacroAssembler::move32ZeroExtendToPtr(Register src, Register dest) { as_bstrpick_d(dest, src, 31, 0); } // =============================================================== // Load instructions void MacroAssembler::load32SignExtendToPtr(const Address& src, Register dest) { load32(src, dest); } void MacroAssembler::loadAbiReturnAddress(Register dest) { movePtr(ra, dest); } // =============================================================== // Logical instructions void MacroAssembler::not32(Register reg) { as_nor(reg, reg, zero); } void MacroAssembler::notPtr(Register reg) { as_nor(reg, reg, zero); } void MacroAssembler::andPtr(Register src, Register dest) { as_and(dest, dest, src); } void MacroAssembler::andPtr(Imm32 imm, Register dest) { ma_and(dest, dest, imm); } void MacroAssembler::and64(Imm64 imm, Register64 dest) { ScratchRegisterScope scratch(asMasm()); ma_li(scratch, ImmWord(imm.value)); as_and(dest.reg, dest.reg, scratch); } void MacroAssembler::and64(Register64 src, Register64 dest) { as_and(dest.reg, dest.reg, src.reg); } void MacroAssembler::and64(const Operand& src, Register64 dest) { if (src.getTag() == Operand::MEM) { ScratchRegisterScope scratch(*this); Register64 scratch64(scratch); load64(src.toAddress(), scratch64); and64(scratch64, dest); } else { and64(Register64(src.toReg()), dest); } } void MacroAssembler::and32(Register src, Register dest) { as_and(dest, dest, src); } void MacroAssembler::and32(Imm32 imm, Register dest) { ma_and(dest, dest, imm); } void MacroAssembler::and32(Imm32 imm, const Address& dest) { SecondScratchRegisterScope scratch2(asMasm()); load32(dest, scratch2); and32(imm, scratch2); store32(scratch2, dest); } void MacroAssembler::and32(const Address& src, Register dest) { SecondScratchRegisterScope scratch2(asMasm()); load32(src, scratch2); as_and(dest, dest, scratch2); } void MacroAssembler::or64(Imm64 imm, Register64 dest) { ScratchRegisterScope scratch(asMasm()); ma_li(scratch, ImmWord(imm.value)); as_or(dest.reg, dest.reg, scratch); } void MacroAssembler::or32(Register src, Register dest) { as_or(dest, dest, src); } void MacroAssembler::or32(Imm32 imm, Register dest) { ma_or(dest, dest, imm); } void MacroAssembler::or32(Imm32 imm, const Address& dest) { SecondScratchRegisterScope scratch2(asMasm()); load32(dest, scratch2); or32(imm, scratch2); store32(scratch2, dest); } void MacroAssembler::xor64(Imm64 imm, Register64 dest) { ScratchRegisterScope scratch(asMasm()); ma_li(scratch, ImmWord(imm.value)); as_xor(dest.reg, dest.reg, scratch); } void MacroAssembler::orPtr(Register src, Register dest) { as_or(dest, dest, src); } void MacroAssembler::orPtr(Imm32 imm, Register dest) { ma_or(dest, dest, imm); } void MacroAssembler::or64(Register64 src, Register64 dest) { as_or(dest.reg, dest.reg, src.reg); } void MacroAssembler::or64(const Operand& src, Register64 dest) { if (src.getTag() == Operand::MEM) { ScratchRegisterScope scratch(asMasm()); Register64 scratch64(scratch); load64(src.toAddress(), scratch64); or64(scratch64, dest); } else { or64(Register64(src.toReg()), dest); } } void MacroAssembler::xor64(Register64 src, Register64 dest) { as_xor(dest.reg, dest.reg, src.reg); } void MacroAssembler::xor64(const Operand& src, Register64 dest) { if (src.getTag() == Operand::MEM) { ScratchRegisterScope scratch(asMasm()); Register64 scratch64(scratch); load64(src.toAddress(), scratch64); xor64(scratch64, dest); } else { xor64(Register64(src.toReg()), dest); } } void MacroAssembler::xorPtr(Register src, Register dest) { as_xor(dest, dest, src); } void MacroAssembler::xorPtr(Imm32 imm, Register dest) { ma_xor(dest, dest, imm); } void MacroAssembler::xor32(Register src, Register dest) { as_xor(dest, dest, src); } void MacroAssembler::xor32(Imm32 imm, Register dest) { ma_xor(dest, dest, imm); } void MacroAssembler::xor32(Imm32 imm, const Address& dest) { SecondScratchRegisterScope scratch2(asMasm()); load32(dest, scratch2); xor32(imm, scratch2); store32(scratch2, dest); } void MacroAssembler::xor32(const Address& src, Register dest) { SecondScratchRegisterScope scratch2(asMasm()); load32(src, scratch2); xor32(scratch2, dest); } // =============================================================== // Swap instructions void MacroAssembler::byteSwap16SignExtend(Register reg) { as_revb_2h(reg, reg); as_ext_w_h(reg, reg); } void MacroAssembler::byteSwap16ZeroExtend(Register reg) { as_revb_2h(reg, reg); as_bstrpick_d(reg, reg, 15, 0); } void MacroAssembler::byteSwap32(Register reg) { as_revb_2w(reg, reg); as_slli_w(reg, reg, 0); } void MacroAssembler::byteSwap64(Register64 reg64) { as_revb_d(reg64.reg, reg64.reg); } // =============================================================== // Arithmetic functions void MacroAssembler::addPtr(Register src, Register dest) { as_add_d(dest, dest, src); } void MacroAssembler::addPtr(Imm32 imm, Register dest) { ma_add_d(dest, dest, imm); } void MacroAssembler::addPtr(ImmWord imm, Register dest) { ScratchRegisterScope scratch(asMasm()); movePtr(imm, scratch); addPtr(scratch, dest); } void MacroAssembler::add64(Register64 src, Register64 dest) { addPtr(src.reg, dest.reg); } void MacroAssembler::add64(const Operand& src, Register64 dest) { if (src.getTag() == Operand::MEM) { ScratchRegisterScope scratch(asMasm()); Register64 scratch64(scratch); load64(src.toAddress(), scratch64); add64(scratch64, dest); } else { add64(Register64(src.toReg()), dest); } } void MacroAssembler::add64(Imm32 imm, Register64 dest) { ma_add_d(dest.reg, dest.reg, imm); } void MacroAssembler::add64(Imm64 imm, Register64 dest) { ScratchRegisterScope scratch(asMasm()); MOZ_ASSERT(dest.reg != scratch); mov(ImmWord(imm.value), scratch); as_add_d(dest.reg, dest.reg, scratch); } void MacroAssembler::add32(Register src, Register dest) { as_add_w(dest, dest, src); } void MacroAssembler::add32(Imm32 imm, Register dest) { ma_add_w(dest, dest, imm); } void MacroAssembler::add32(Imm32 imm, const Address& dest) { SecondScratchRegisterScope scratch2(asMasm()); load32(dest, scratch2); ma_add_w(scratch2, scratch2, imm); store32(scratch2, dest); } void MacroAssembler::addPtr(Imm32 imm, const Address& dest) { ScratchRegisterScope scratch(asMasm()); loadPtr(dest, scratch); addPtr(imm, scratch); storePtr(scratch, dest); } void MacroAssembler::addPtr(const Address& src, Register dest) { ScratchRegisterScope scratch(asMasm()); loadPtr(src, scratch); addPtr(scratch, dest); } void MacroAssembler::addDouble(FloatRegister src, FloatRegister dest) { as_fadd_d(dest, dest, src); } void MacroAssembler::addFloat32(FloatRegister src, FloatRegister dest) { as_fadd_s(dest, dest, src); } CodeOffset MacroAssembler::sub32FromStackPtrWithPatch(Register dest) { CodeOffset offset = CodeOffset(currentOffset()); MacroAssemblerLOONG64::ma_liPatchable(dest, Imm32(0)); as_sub_d(dest, StackPointer, dest); return offset; } void MacroAssembler::patchSub32FromStackPtr(CodeOffset offset, Imm32 imm) { // TODO: by wangqing Instruction* inst0 = (Instruction*)m_buffer.getInst(BufferOffset(offset.offset())); InstImm* i0 = (InstImm*)inst0; InstImm* i1 = (InstImm*)i0->next(); MOZ_ASSERT((i0->extractBitField(31, 25)) == ((uint32_t)op_lu12i_w >> 25)); MOZ_ASSERT((i1->extractBitField(31, 22)) == ((uint32_t)op_ori >> 22)); *i0 = InstImm(op_lu12i_w, (int32_t)((imm.value >> 12) & 0xfffff), Register::FromCode(i0->extractRD()), false); *i1 = InstImm(op_ori, (int32_t)(imm.value & 0xfff), Register::FromCode(i1->extractRJ()), Register::FromCode(i1->extractRD()), 12); } void MacroAssembler::subPtr(Register src, Register dest) { as_sub_d(dest, dest, src); } void MacroAssembler::subPtr(Imm32 imm, Register dest) { ma_sub_d(dest, dest, imm); } void MacroAssembler::sub64(Register64 src, Register64 dest) { as_sub_d(dest.reg, dest.reg, src.reg); } void MacroAssembler::sub64(const Operand& src, Register64 dest) { if (src.getTag() == Operand::MEM) { ScratchRegisterScope scratch(asMasm()); Register64 scratch64(scratch); load64(src.toAddress(), scratch64); sub64(scratch64, dest); } else { sub64(Register64(src.toReg()), dest); } } void MacroAssembler::sub64(Imm64 imm, Register64 dest) { ScratchRegisterScope scratch(asMasm()); MOZ_ASSERT(dest.reg != scratch); mov(ImmWord(imm.value), scratch); as_sub_d(dest.reg, dest.reg, scratch); } void MacroAssembler::sub32(Register src, Register dest) { as_sub_w(dest, dest, src); } void MacroAssembler::sub32(Imm32 imm, Register dest) { ma_sub_w(dest, dest, imm); } void MacroAssembler::sub32(const Address& src, Register dest) { SecondScratchRegisterScope scratch2(asMasm()); load32(src, scratch2); as_sub_w(dest, dest, scratch2); } void MacroAssembler::subPtr(Register src, const Address& dest) { SecondScratchRegisterScope scratch2(asMasm()); loadPtr(dest, scratch2); subPtr(src, scratch2); storePtr(scratch2, dest); } void MacroAssembler::subPtr(const Address& addr, Register dest) { SecondScratchRegisterScope scratch2(asMasm()); loadPtr(addr, scratch2); subPtr(scratch2, dest); } void MacroAssembler::subDouble(FloatRegister src, FloatRegister dest) { as_fsub_d(dest, dest, src); } void MacroAssembler::subFloat32(FloatRegister src, FloatRegister dest) { as_fsub_s(dest, dest, src); } void MacroAssembler::mul64(Imm64 imm, const Register64& dest) { ScratchRegisterScope scratch(asMasm()); MOZ_ASSERT(dest.reg != scratch); mov(ImmWord(imm.value), scratch); as_mul_d(dest.reg, dest.reg, scratch); } void MacroAssembler::mul64(Imm64 imm, const Register64& dest, const Register temp) { MOZ_ASSERT(temp == Register::Invalid()); mul64(imm, dest); } void MacroAssembler::mul64(const Register64& src, const Register64& dest, const Register temp) { MOZ_ASSERT(temp == Register::Invalid()); as_mul_d(dest.reg, dest.reg, src.reg); } void MacroAssembler::mul64(const Operand& src, const Register64& dest, const Register temp) { if (src.getTag() == Operand::MEM) { ScratchRegisterScope scratch(asMasm()); Register64 scratch64(scratch); load64(src.toAddress(), scratch64); mul64(scratch64, dest, temp); } else { mul64(Register64(src.toReg()), dest, temp); } } void MacroAssembler::mulPtr(Register rhs, Register srcDest) { as_mul_d(srcDest, srcDest, rhs); } void MacroAssembler::mulBy3(Register src, Register dest) { ScratchRegisterScope scratch(asMasm()); MOZ_ASSERT(src != scratch); as_add_d(scratch, src, src); as_add_d(dest, scratch, src); } void MacroAssembler::mul32(Register rhs, Register srcDest) { as_mul_w(srcDest, srcDest, rhs); } void MacroAssembler::mul32(Imm32 imm, Register srcDest) { ScratchRegisterScope scratch(asMasm()); move32(imm, scratch); mul32(scratch, srcDest); } void MacroAssembler::mulHighUnsigned32(Imm32 imm, Register src, Register dest) { ScratchRegisterScope scratch(asMasm()); MOZ_ASSERT(src != scratch); move32(imm, scratch); as_mulh_wu(dest, src, scratch); } void MacroAssembler::mulFloat32(FloatRegister src, FloatRegister dest) { as_fmul_s(dest, dest, src); } void MacroAssembler::mulDouble(FloatRegister src, FloatRegister dest) { as_fmul_d(dest, dest, src); } void MacroAssembler::mulDoublePtr(ImmPtr imm, Register temp, FloatRegister dest) { ScratchRegisterScope scratch(asMasm()); ScratchDoubleScope fpscratch(asMasm()); movePtr(imm, scratch); loadDouble(Address(scratch, 0), fpscratch); mulDouble(fpscratch, dest); } void MacroAssembler::inc64(AbsoluteAddress dest) { ScratchRegisterScope scratch(asMasm()); SecondScratchRegisterScope scratch2(asMasm()); ma_li(scratch, ImmWord(uintptr_t(dest.addr))); as_ld_d(scratch2, scratch, 0); as_addi_d(scratch2, scratch2, 1); as_st_d(scratch2, scratch, 0); } void MacroAssembler::quotient32(Register rhs, Register srcDest, bool isUnsigned) { if (isUnsigned) { as_div_wu(srcDest, srcDest, rhs); } else { as_div_w(srcDest, srcDest, rhs); } } void MacroAssembler::remainder32(Register rhs, Register srcDest, bool isUnsigned) { if (isUnsigned) { as_mod_wu(srcDest, srcDest, rhs); } else { as_mod_w(srcDest, srcDest, rhs); } } void MacroAssembler::divFloat32(FloatRegister src, FloatRegister dest) { as_fdiv_s(dest, dest, src); } void MacroAssembler::divDouble(FloatRegister src, FloatRegister dest) { as_fdiv_d(dest, dest, src); } void MacroAssembler::neg64(Register64 reg) { as_sub_d(reg.reg, zero, reg.reg); } void MacroAssembler::negPtr(Register reg) { as_sub_d(reg, zero, reg); } void MacroAssembler::neg32(Register reg) { as_sub_w(reg, zero, reg); } void MacroAssembler::negateDouble(FloatRegister reg) { as_fneg_d(reg, reg); } void MacroAssembler::negateFloat(FloatRegister reg) { as_fneg_s(reg, reg); } void MacroAssembler::abs32(Register src, Register dest) { ScratchRegisterScope scratch(asMasm()); as_srai_w(scratch, src, 31); as_xor(dest, src, scratch); as_sub_w(dest, dest, scratch); } void MacroAssembler::absFloat32(FloatRegister src, FloatRegister dest) { as_fabs_s(dest, src); } void MacroAssembler::absDouble(FloatRegister src, FloatRegister dest) { as_fabs_d(dest, src); } void MacroAssembler::sqrtFloat32(FloatRegister src, FloatRegister dest) { as_fsqrt_s(dest, src); } void MacroAssembler::sqrtDouble(FloatRegister src, FloatRegister dest) { as_fsqrt_d(dest, src); } void MacroAssembler::minFloat32(FloatRegister other, FloatRegister srcDest, bool handleNaN) { minMaxFloat32(srcDest, other, handleNaN, false); } void MacroAssembler::minDouble(FloatRegister other, FloatRegister srcDest, bool handleNaN) { minMaxDouble(srcDest, other, handleNaN, false); } void MacroAssembler::maxFloat32(FloatRegister other, FloatRegister srcDest, bool handleNaN) { minMaxFloat32(srcDest, other, handleNaN, true); } void MacroAssembler::maxDouble(FloatRegister other, FloatRegister srcDest, bool handleNaN) { minMaxDouble(srcDest, other, handleNaN, true); } // =============================================================== // Shift functions void MacroAssembler::lshift32(Register src, Register dest) { as_sll_w(dest, dest, src); } void MacroAssembler::lshift32(Imm32 imm, Register dest) { as_slli_w(dest, dest, imm.value % 32); } void MacroAssembler::flexibleLshift32(Register src, Register dest) { lshift32(src, dest); } void MacroAssembler::lshift64(Register shift, Register64 dest) { as_sll_d(dest.reg, dest.reg, shift); } void MacroAssembler::lshift64(Imm32 imm, Register64 dest) { MOZ_ASSERT(0 <= imm.value && imm.value < 64); as_slli_d(dest.reg, dest.reg, imm.value); } void MacroAssembler::lshiftPtr(Register shift, Register dest) { as_sll_d(dest, dest, shift); } void MacroAssembler::lshiftPtr(Imm32 imm, Register dest) { MOZ_ASSERT(0 <= imm.value && imm.value < 64); as_slli_d(dest, dest, imm.value); } void MacroAssembler::rshift32(Register src, Register dest) { as_srl_w(dest, dest, src); } void MacroAssembler::rshift32(Imm32 imm, Register dest) { as_srli_w(dest, dest, imm.value % 32); } void MacroAssembler::flexibleRshift32(Register src, Register dest) { rshift32(src, dest); } void MacroAssembler::rshift32Arithmetic(Register src, Register dest) { as_sra_w(dest, dest, src); } void MacroAssembler::rshift32Arithmetic(Imm32 imm, Register dest) { as_srai_w(dest, dest, imm.value % 32); } void MacroAssembler::flexibleRshift32Arithmetic(Register src, Register dest) { rshift32Arithmetic(src, dest); } void MacroAssembler::rshift64(Register shift, Register64 dest) { as_srl_d(dest.reg, dest.reg, shift); } void MacroAssembler::rshift64(Imm32 imm, Register64 dest) { MOZ_ASSERT(0 <= imm.value && imm.value < 64); as_srli_d(dest.reg, dest.reg, imm.value); } void MacroAssembler::rshift64Arithmetic(Imm32 imm, Register64 dest) { MOZ_ASSERT(0 <= imm.value && imm.value < 64); as_srai_d(dest.reg, dest.reg, imm.value); } void MacroAssembler::rshift64Arithmetic(Register shift, Register64 dest) { as_sra_d(dest.reg, dest.reg, shift); } void MacroAssembler::rshiftPtr(Register shift, Register dest) { as_srl_d(dest, dest, shift); } void MacroAssembler::rshiftPtr(Imm32 imm, Register dest) { MOZ_ASSERT(0 <= imm.value && imm.value < 64); as_srli_d(dest, dest, imm.value); } void MacroAssembler::rshiftPtrArithmetic(Imm32 imm, Register dest) { MOZ_ASSERT(0 <= imm.value && imm.value < 64); as_srai_d(dest, dest, imm.value); } // =============================================================== // Rotation functions void MacroAssembler::rotateLeft(Register count, Register input, Register dest) { ScratchRegisterScope scratch(asMasm()); as_sub_w(scratch, zero, count); as_rotr_w(dest, input, scratch); } void MacroAssembler::rotateLeft(Imm32 count, Register input, Register dest) { as_rotri_w(dest, input, (32 - count.value) & 31); } void MacroAssembler::rotateLeft64(Register count, Register64 src, Register64 dest, Register temp) { MOZ_ASSERT(temp == Register::Invalid()); ScratchRegisterScope scratch(asMasm()); as_sub_d(scratch, zero, count); as_rotr_d(dest.reg, src.reg, scratch); } void MacroAssembler::rotateLeft64(Imm32 count, Register64 src, Register64 dest, Register temp) { MOZ_ASSERT(temp == Register::Invalid()); as_rotri_d(dest.reg, src.reg, (64 - count.value) & 63); } void MacroAssembler::rotateRight(Register count, Register input, Register dest) { as_rotr_w(dest, input, count); } void MacroAssembler::rotateRight(Imm32 count, Register input, Register dest) { as_rotri_w(dest, input, count.value & 31); } void MacroAssembler::rotateRight64(Register count, Register64 src, Register64 dest, Register temp) { MOZ_ASSERT(temp == Register::Invalid()); as_rotr_d(dest.reg, src.reg, count); } void MacroAssembler::rotateRight64(Imm32 count, Register64 src, Register64 dest, Register temp) { MOZ_ASSERT(temp == Register::Invalid()); as_rotri_d(dest.reg, src.reg, count.value & 63); } // Bit counting functions void MacroAssembler::clz64(Register64 src, Register dest) { as_clz_d(dest, src.reg); } void MacroAssembler::ctz64(Register64 src, Register dest) { as_ctz_d(dest, src.reg); } void MacroAssembler::popcnt64(Register64 input, Register64 output, Register tmp) { ScratchRegisterScope scratch(asMasm()); as_or(output.reg, input.reg, zero); as_srai_d(tmp, input.reg, 1); ma_li(scratch, Imm32(0x55555555)); as_bstrins_d(scratch, scratch, 63, 32); as_and(tmp, tmp, scratch); as_sub_d(output.reg, output.reg, tmp); as_srai_d(tmp, output.reg, 2); ma_li(scratch, Imm32(0x33333333)); as_bstrins_d(scratch, scratch, 63, 32); as_and(output.reg, output.reg, scratch); as_and(tmp, tmp, scratch); as_add_d(output.reg, output.reg, tmp); as_srli_d(tmp, output.reg, 4); as_add_d(output.reg, output.reg, tmp); ma_li(scratch, Imm32(0xF0F0F0F)); as_bstrins_d(scratch, scratch, 63, 32); as_and(output.reg, output.reg, scratch); ma_li(tmp, Imm32(0x1010101)); as_bstrins_d(tmp, tmp, 63, 32); as_mul_d(output.reg, output.reg, tmp); as_srai_d(output.reg, output.reg, 56); } void MacroAssembler::clz32(Register src, Register dest, bool knownNotZero) { as_clz_w(dest, src); } void MacroAssembler::ctz32(Register src, Register dest, bool knownNotZero) { as_ctz_w(dest, src); } void MacroAssembler::popcnt32(Register input, Register output, Register tmp) { // Equivalent to GCC output of mozilla::CountPopulation32() as_or(output, input, zero); as_srai_w(tmp, input, 1); ma_and(tmp, tmp, Imm32(0x55555555)); as_sub_w(output, output, tmp); as_srai_w(tmp, output, 2); ma_and(output, output, Imm32(0x33333333)); ma_and(tmp, tmp, Imm32(0x33333333)); as_add_w(output, output, tmp); as_srli_w(tmp, output, 4); as_add_w(output, output, tmp); ma_and(output, output, Imm32(0xF0F0F0F)); as_slli_w(tmp, output, 8); as_add_w(output, output, tmp); as_slli_w(tmp, output, 16); as_add_w(output, output, tmp); as_srai_w(output, output, 24); } // =============================================================== // Condition functions void MacroAssembler::cmp8Set(Condition cond, Address lhs, Imm32 rhs, Register dest) { SecondScratchRegisterScope scratch2(*this); MOZ_ASSERT(scratch2 != lhs.base); switch (cond) { case Assembler::Equal: case Assembler::NotEqual: case Assembler::Above: case Assembler::AboveOrEqual: case Assembler::Below: case Assembler::BelowOrEqual: load8ZeroExtend(lhs, scratch2); ma_cmp_set(dest, scratch2, Imm32(uint8_t(rhs.value)), cond); break; case Assembler::GreaterThan: case Assembler::GreaterThanOrEqual: case Assembler::LessThan: case Assembler::LessThanOrEqual: load8SignExtend(lhs, scratch2); ma_cmp_set(dest, scratch2, Imm32(int8_t(rhs.value)), cond); break; default: MOZ_CRASH("unexpected condition"); } } void MacroAssembler::cmp16Set(Condition cond, Address lhs, Imm32 rhs, Register dest) { SecondScratchRegisterScope scratch2(*this); MOZ_ASSERT(scratch2 != lhs.base); switch (cond) { case Assembler::Equal: case Assembler::NotEqual: case Assembler::Above: case Assembler::AboveOrEqual: case Assembler::Below: case Assembler::BelowOrEqual: load16ZeroExtend(lhs, scratch2); ma_cmp_set(dest, scratch2, Imm32(uint16_t(rhs.value)), cond); break; case Assembler::GreaterThan: case Assembler::GreaterThanOrEqual: case Assembler::LessThan: case Assembler::LessThanOrEqual: load16SignExtend(lhs, scratch2); ma_cmp_set(dest, scratch2, Imm32(int16_t(rhs.value)), cond); break; default: MOZ_CRASH("unexpected condition"); } } // Also see below for specializations of cmpPtrSet. template void MacroAssembler::cmp32Set(Condition cond, T1 lhs, T2 rhs, Register dest) { ma_cmp_set(dest, lhs, rhs, cond); } void MacroAssembler::cmp64Set(Condition cond, Address lhs, Imm64 rhs, Register dest) { ma_cmp_set(dest, lhs, ImmWord(uint64_t(rhs.value)), cond); } template void MacroAssembler::cmpPtrSet(Condition cond, T1 lhs, T2 rhs, Register dest) { ma_cmp_set(dest, lhs, rhs, cond); } // =============================================================== // Branch functions void MacroAssembler::branch8(Condition cond, const Address& lhs, Imm32 rhs, Label* label) { SecondScratchRegisterScope scratch2(*this); MOZ_ASSERT(scratch2 != lhs.base); switch (cond) { case Assembler::Equal: case Assembler::NotEqual: case Assembler::Above: case Assembler::AboveOrEqual: case Assembler::Below: case Assembler::BelowOrEqual: load8ZeroExtend(lhs, scratch2); branch32(cond, scratch2, Imm32(uint8_t(rhs.value)), label); break; case Assembler::GreaterThan: case Assembler::GreaterThanOrEqual: case Assembler::LessThan: case Assembler::LessThanOrEqual: load8SignExtend(lhs, scratch2); branch32(cond, scratch2, Imm32(int8_t(rhs.value)), label); break; default: MOZ_CRASH("unexpected condition"); } } void MacroAssembler::branch8(Condition cond, const BaseIndex& lhs, Register rhs, Label* label) { SecondScratchRegisterScope scratch2(*this); MOZ_ASSERT(scratch2 != lhs.base); computeScaledAddress(lhs, scratch2); switch (cond) { case Assembler::Equal: case Assembler::NotEqual: case Assembler::Above: case Assembler::AboveOrEqual: case Assembler::Below: case Assembler::BelowOrEqual: load8ZeroExtend(Address(scratch2, lhs.offset), scratch2); branch32(cond, scratch2, rhs, label); break; case Assembler::GreaterThan: case Assembler::GreaterThanOrEqual: case Assembler::LessThan: case Assembler::LessThanOrEqual: load8SignExtend(Address(scratch2, lhs.offset), scratch2); branch32(cond, scratch2, rhs, label); break; default: MOZ_CRASH("unexpected condition"); } } void MacroAssembler::branch16(Condition cond, const Address& lhs, Imm32 rhs, Label* label) { SecondScratchRegisterScope scratch2(*this); MOZ_ASSERT(scratch2 != lhs.base); switch (cond) { case Assembler::Equal: case Assembler::NotEqual: case Assembler::Above: case Assembler::AboveOrEqual: case Assembler::Below: case Assembler::BelowOrEqual: load16ZeroExtend(lhs, scratch2); branch32(cond, scratch2, Imm32(uint16_t(rhs.value)), label); break; case Assembler::GreaterThan: case Assembler::GreaterThanOrEqual: case Assembler::LessThan: case Assembler::LessThanOrEqual: load16SignExtend(lhs, scratch2); branch32(cond, scratch2, Imm32(int16_t(rhs.value)), label); break; default: MOZ_CRASH("unexpected condition"); } } template void MacroAssembler::branch32(Condition cond, Register lhs, Register rhs, L label) { ma_b(lhs, rhs, label, cond); } template void MacroAssembler::branch32(Condition cond, Register lhs, Imm32 imm, L label) { ma_b(lhs, imm, label, cond); } void MacroAssembler::branch32(Condition cond, const Address& lhs, Register rhs, Label* label) { SecondScratchRegisterScope scratch2(asMasm()); load32(lhs, scratch2); ma_b(scratch2, rhs, label, cond); } void MacroAssembler::branch32(Condition cond, const Address& lhs, Imm32 rhs, Label* label) { SecondScratchRegisterScope scratch2(asMasm()); load32(lhs, scratch2); ma_b(scratch2, rhs, label, cond); } void MacroAssembler::branch32(Condition cond, const AbsoluteAddress& lhs, Register rhs, Label* label) { SecondScratchRegisterScope scratch2(asMasm()); load32(lhs, scratch2); ma_b(scratch2, rhs, label, cond); } void MacroAssembler::branch32(Condition cond, const AbsoluteAddress& lhs, Imm32 rhs, Label* label) { SecondScratchRegisterScope scratch2(asMasm()); load32(lhs, scratch2); ma_b(scratch2, rhs, label, cond); } void MacroAssembler::branch32(Condition cond, const BaseIndex& lhs, Imm32 rhs, Label* label) { SecondScratchRegisterScope scratch2(asMasm()); load32(lhs, scratch2); ma_b(scratch2, rhs, label, cond); } void MacroAssembler::branch32(Condition cond, wasm::SymbolicAddress addr, Imm32 imm, Label* label) { SecondScratchRegisterScope scratch2(asMasm()); load32(addr, scratch2); ma_b(scratch2, imm, label, cond); } void MacroAssembler::branch64(Condition cond, Register64 lhs, Imm64 val, Label* success, Label* fail) { MOZ_ASSERT(cond == Assembler::NotEqual || cond == Assembler::Equal || cond == Assembler::LessThan || cond == Assembler::LessThanOrEqual || cond == Assembler::GreaterThan || cond == Assembler::GreaterThanOrEqual || cond == Assembler::Below || cond == Assembler::BelowOrEqual || cond == Assembler::Above || cond == Assembler::AboveOrEqual, "other condition codes not supported"); branchPtr(cond, lhs.reg, ImmWord(val.value), success); if (fail) { jump(fail); } } void MacroAssembler::branch64(Condition cond, Register64 lhs, Register64 rhs, Label* success, Label* fail) { MOZ_ASSERT(cond == Assembler::NotEqual || cond == Assembler::Equal || cond == Assembler::LessThan || cond == Assembler::LessThanOrEqual || cond == Assembler::GreaterThan || cond == Assembler::GreaterThanOrEqual || cond == Assembler::Below || cond == Assembler::BelowOrEqual || cond == Assembler::Above || cond == Assembler::AboveOrEqual, "other condition codes not supported"); branchPtr(cond, lhs.reg, rhs.reg, success); if (fail) { jump(fail); } } void MacroAssembler::branch64(Condition cond, const Address& lhs, Imm64 val, Label* label) { MOZ_ASSERT(cond == Assembler::NotEqual || cond == Assembler::Equal, "other condition codes not supported"); branchPtr(cond, lhs, ImmWord(val.value), label); } void MacroAssembler::branch64(Condition cond, const Address& lhs, Register64 rhs, Label* label) { MOZ_ASSERT(cond == Assembler::NotEqual || cond == Assembler::Equal, "other condition codes not supported"); branchPtr(cond, lhs, rhs.reg, label); } void MacroAssembler::branch64(Condition cond, const Address& lhs, const Address& rhs, Register scratch, Label* label) { MOZ_ASSERT(cond == Assembler::NotEqual || cond == Assembler::Equal, "other condition codes not supported"); MOZ_ASSERT(lhs.base != scratch); MOZ_ASSERT(rhs.base != scratch); loadPtr(rhs, scratch); branchPtr(cond, lhs, scratch, label); } template void MacroAssembler::branchPtr(Condition cond, Register lhs, Register rhs, L label) { ma_b(lhs, rhs, label, cond); } void MacroAssembler::branchPtr(Condition cond, Register lhs, Imm32 rhs, Label* label) { ma_b(lhs, rhs, label, cond); } void MacroAssembler::branchPtr(Condition cond, Register lhs, ImmPtr rhs, Label* label) { ma_b(lhs, rhs, label, cond); } void MacroAssembler::branchPtr(Condition cond, Register lhs, ImmGCPtr rhs, Label* label) { ma_b(lhs, rhs, label, cond); } void MacroAssembler::branchPtr(Condition cond, Register lhs, ImmWord rhs, Label* label) { ma_b(lhs, rhs, label, cond); } template void MacroAssembler::branchPtr(Condition cond, const Address& lhs, Register rhs, L label) { SecondScratchRegisterScope scratch2(asMasm()); loadPtr(lhs, scratch2); branchPtr(cond, scratch2, rhs, label); } void MacroAssembler::branchPtr(Condition cond, const Address& lhs, ImmPtr rhs, Label* label) { SecondScratchRegisterScope scratch2(asMasm()); loadPtr(lhs, scratch2); branchPtr(cond, scratch2, rhs, label); } void MacroAssembler::branchPtr(Condition cond, const Address& lhs, ImmGCPtr rhs, Label* label) { SecondScratchRegisterScope scratch2(asMasm()); loadPtr(lhs, scratch2); branchPtr(cond, scratch2, rhs, label); } void MacroAssembler::branchPtr(Condition cond, const Address& lhs, ImmWord rhs, Label* label) { SecondScratchRegisterScope scratch2(asMasm()); loadPtr(lhs, scratch2); branchPtr(cond, scratch2, rhs, label); } void MacroAssembler::branchPtr(Condition cond, const AbsoluteAddress& lhs, Register rhs, Label* label) { SecondScratchRegisterScope scratch2(asMasm()); loadPtr(lhs, scratch2); branchPtr(cond, scratch2, rhs, label); } void MacroAssembler::branchPtr(Condition cond, const AbsoluteAddress& lhs, ImmWord rhs, Label* label) { SecondScratchRegisterScope scratch2(asMasm()); loadPtr(lhs, scratch2); branchPtr(cond, scratch2, rhs, label); } void MacroAssembler::branchPtr(Condition cond, wasm::SymbolicAddress lhs, Register rhs, Label* label) { SecondScratchRegisterScope scratch2(asMasm()); loadPtr(lhs, scratch2); branchPtr(cond, scratch2, rhs, label); } void MacroAssembler::branchPtr(Condition cond, const BaseIndex& lhs, Register rhs, Label* label) { SecondScratchRegisterScope scratch2(asMasm()); loadPtr(lhs, scratch2); branchPtr(cond, scratch2, rhs, label); } void MacroAssembler::branchPtr(Condition cond, const BaseIndex& lhs, ImmWord rhs, Label* label) { SecondScratchRegisterScope scratch2(asMasm()); loadPtr(lhs, scratch2); branchPtr(cond, scratch2, rhs, label); } void MacroAssembler::branchPrivatePtr(Condition cond, const Address& lhs, Register rhs, Label* label) { branchPtr(cond, lhs, rhs, label); } void MacroAssembler::branchFloat(DoubleCondition cond, FloatRegister lhs, FloatRegister rhs, Label* label) { ma_bc_s(lhs, rhs, label, cond); } void MacroAssembler::branchTruncateFloat32MaybeModUint32(FloatRegister src, Register dest, Label* fail) { ScratchRegisterScope scratch(asMasm()); ScratchDoubleScope fpscratch(asMasm()); as_ftintrz_l_s(fpscratch, src); as_movfcsr2gr(scratch); moveFromDouble(fpscratch, dest); MOZ_ASSERT(Assembler::CauseV < 32); as_bstrpick_w(scratch, scratch, Assembler::CauseV, Assembler::CauseV); ma_b(scratch, Imm32(0), fail, Assembler::NotEqual); as_slli_w(dest, dest, 0); } void MacroAssembler::branchTruncateFloat32ToInt32(FloatRegister src, Register dest, Label* fail) { convertFloat32ToInt32(src, dest, fail, false); } void MacroAssembler::branchDouble(DoubleCondition cond, FloatRegister lhs, FloatRegister rhs, Label* label) { ma_bc_d(lhs, rhs, label, cond); } void MacroAssembler::branchTruncateDoubleMaybeModUint32(FloatRegister src, Register dest, Label* fail) { ScratchRegisterScope scratch(asMasm()); ScratchDoubleScope fpscratch(asMasm()); as_ftintrz_l_d(fpscratch, src); as_movfcsr2gr(scratch); moveFromDouble(fpscratch, dest); MOZ_ASSERT(Assembler::CauseV < 32); as_bstrpick_w(scratch, scratch, Assembler::CauseV, Assembler::CauseV); ma_b(scratch, Imm32(0), fail, Assembler::NotEqual); as_slli_w(dest, dest, 0); } void MacroAssembler::branchTruncateDoubleToInt32(FloatRegister src, Register dest, Label* fail) { ScratchRegisterScope scratch(asMasm()); ScratchDoubleScope fpscratch(asMasm()); // Convert scalar to signed 64-bit fixed-point, rounding toward zero. // In the case of overflow, the output is saturated. // In the case of NaN and -0, the output is zero. as_ftintrz_l_d(fpscratch, src); moveFromDouble(fpscratch, dest); // Fail on overflow cases. as_slli_w(scratch, dest, 0); ma_b(dest, scratch, fail, Assembler::NotEqual); } template void MacroAssembler::branchAdd32(Condition cond, T src, Register dest, Label* overflow) { switch (cond) { case Overflow: ma_add32TestOverflow(dest, dest, src, overflow); break; case CarryClear: case CarrySet: ma_add32TestCarry(cond, dest, dest, src, overflow); break; default: MOZ_CRASH("NYI"); } } // the type of 'T src' maybe a Register, maybe a Imm32,depends on who call it. template void MacroAssembler::branchSub32(Condition cond, T src, Register dest, Label* overflow) { switch (cond) { case Overflow: ma_sub32TestOverflow(dest, dest, src, overflow); break; case NonZero: case Zero: case Signed: case NotSigned: ma_sub_w(dest, dest, src); ma_b(dest, dest, overflow, cond); break; default: MOZ_CRASH("NYI"); } } template void MacroAssembler::branchMul32(Condition cond, T src, Register dest, Label* overflow) { MOZ_ASSERT(cond == Assembler::Overflow); ma_mul32TestOverflow(dest, dest, src, overflow); } template void MacroAssembler::branchRshift32(Condition cond, T src, Register dest, Label* label) { MOZ_ASSERT(cond == Zero || cond == NonZero); rshift32(src, dest); branch32(cond == Zero ? Equal : NotEqual, dest, Imm32(0), label); } void MacroAssembler::branchNeg32(Condition cond, Register reg, Label* label) { MOZ_ASSERT(cond == Overflow); neg32(reg); branch32(Assembler::Equal, reg, Imm32(INT32_MIN), label); } template void MacroAssembler::branchAddPtr(Condition cond, T src, Register dest, Label* label) { switch (cond) { case Overflow: ma_addPtrTestOverflow(dest, dest, src, label); break; case CarryClear: case CarrySet: ma_addPtrTestCarry(cond, dest, dest, src, label); break; default: MOZ_CRASH("NYI"); } } template void MacroAssembler::branchSubPtr(Condition cond, T src, Register dest, Label* label) { switch (cond) { case Overflow: ma_subPtrTestOverflow(dest, dest, src, label); break; case NonZero: case Zero: case Signed: case NotSigned: subPtr(src, dest); ma_b(dest, dest, label, cond); break; default: MOZ_CRASH("NYI"); } } void MacroAssembler::branchMulPtr(Condition cond, Register src, Register dest, Label* label) { MOZ_ASSERT(cond == Assembler::Overflow); ma_mulPtrTestOverflow(dest, dest, src, label); } void MacroAssembler::decBranchPtr(Condition cond, Register lhs, Imm32 rhs, Label* label) { subPtr(rhs, lhs); branchPtr(cond, lhs, Imm32(0), label); } template void MacroAssembler::branchTest32(Condition cond, Register lhs, Register rhs, L label) { MOZ_ASSERT(cond == Zero || cond == NonZero || cond == Signed || cond == NotSigned); if (lhs == rhs) { ma_b(lhs, rhs, label, cond); } else { ScratchRegisterScope scratch(asMasm()); as_and(scratch, lhs, rhs); ma_b(scratch, scratch, label, cond); } } template void MacroAssembler::branchTest32(Condition cond, Register lhs, Imm32 rhs, L label) { MOZ_ASSERT(cond == Zero || cond == NonZero || cond == Signed || cond == NotSigned); SecondScratchRegisterScope scratch2(asMasm()); ma_and(scratch2, lhs, rhs); ma_b(scratch2, scratch2, label, cond); } void MacroAssembler::branchTest32(Condition cond, const Address& lhs, Imm32 rhs, Label* label) { MOZ_ASSERT(cond == Zero || cond == NonZero || cond == Signed || cond == NotSigned); SecondScratchRegisterScope scratch2(asMasm()); load32(lhs, scratch2); and32(rhs, scratch2); ma_b(scratch2, scratch2, label, cond); } void MacroAssembler::branchTest32(Condition cond, const AbsoluteAddress& lhs, Imm32 rhs, Label* label) { MOZ_ASSERT(cond == Zero || cond == NonZero || cond == Signed || cond == NotSigned); SecondScratchRegisterScope scratch2(asMasm()); load32(lhs, scratch2); and32(rhs, scratch2); ma_b(scratch2, scratch2, label, cond); } template void MacroAssembler::branchTestPtr(Condition cond, Register lhs, Register rhs, L label) { MOZ_ASSERT(cond == Zero || cond == NonZero || cond == Signed || cond == NotSigned); if (lhs == rhs) { ma_b(lhs, rhs, label, cond); } else { ScratchRegisterScope scratch(asMasm()); as_and(scratch, lhs, rhs); ma_b(scratch, scratch, label, cond); } } void MacroAssembler::branchTestPtr(Condition cond, Register lhs, Imm32 rhs, Label* label) { MOZ_ASSERT(cond == Zero || cond == NonZero || cond == Signed || cond == NotSigned); ScratchRegisterScope scratch(asMasm()); ma_and(scratch, lhs, rhs); ma_b(scratch, scratch, label, cond); } void MacroAssembler::branchTestPtr(Condition cond, const Address& lhs, Imm32 rhs, Label* label) { SecondScratchRegisterScope scratch2(asMasm()); loadPtr(lhs, scratch2); branchTestPtr(cond, scratch2, rhs, label); } template void MacroAssembler::branchTest64(Condition cond, Register64 lhs, Register64 rhs, Register temp, L label) { branchTestPtr(cond, lhs.reg, rhs.reg, label); } void MacroAssembler::branchTestUndefined(Condition cond, Register tag, Label* label) { MOZ_ASSERT(cond == Equal || cond == NotEqual); ma_b(tag, ImmTag(JSVAL_TAG_UNDEFINED), label, cond); } void MacroAssembler::branchTestUndefined(Condition cond, const ValueOperand& value, Label* label) { SecondScratchRegisterScope scratch2(*this); splitTag(value, scratch2); branchTestUndefined(cond, scratch2, label); } void MacroAssembler::branchTestUndefined(Condition cond, const Address& address, Label* label) { SecondScratchRegisterScope scratch2(*this); Register tag = extractTag(address, scratch2); branchTestUndefined(cond, tag, label); } void MacroAssembler::branchTestUndefined(Condition cond, const BaseIndex& address, Label* label) { SecondScratchRegisterScope scratch2(*this); Register tag = extractTag(address, scratch2); branchTestUndefined(cond, tag, label); } void MacroAssembler::branchTestInt32(Condition cond, Register tag, Label* label) { MOZ_ASSERT(cond == Equal || cond == NotEqual); ma_b(tag, ImmTag(JSVAL_TAG_INT32), label, cond); } void MacroAssembler::branchTestInt32(Condition cond, const ValueOperand& value, Label* label) { SecondScratchRegisterScope scratch2(*this); splitTag(value, scratch2); branchTestInt32(cond, scratch2, label); } void MacroAssembler::branchTestInt32(Condition cond, const Address& address, Label* label) { SecondScratchRegisterScope scratch2(*this); Register tag = extractTag(address, scratch2); branchTestInt32(cond, tag, label); } void MacroAssembler::branchTestInt32(Condition cond, const BaseIndex& address, Label* label) { SecondScratchRegisterScope scratch2(*this); Register tag = extractTag(address, scratch2); branchTestInt32(cond, tag, label); } void MacroAssembler::branchTestInt32Truthy(bool b, const ValueOperand& value, Label* label) { ScratchRegisterScope scratch(*this); as_bstrpick_d(scratch, value.valueReg(), 31, 0); ma_b(scratch, scratch, label, b ? NonZero : Zero); } void MacroAssembler::branchTestDouble(Condition cond, Register tag, Label* label) { MOZ_ASSERT(cond == Equal || cond == NotEqual); Condition actual = (cond == Equal) ? BelowOrEqual : Above; ma_b(tag, ImmTag(JSVAL_TAG_MAX_DOUBLE), label, actual); } void MacroAssembler::branchTestDouble(Condition cond, const ValueOperand& value, Label* label) { SecondScratchRegisterScope scratch2(*this); splitTag(value, scratch2); branchTestDouble(cond, scratch2, label); } void MacroAssembler::branchTestDouble(Condition cond, const Address& address, Label* label) { SecondScratchRegisterScope scratch2(*this); Register tag = extractTag(address, scratch2); branchTestDouble(cond, tag, label); } void MacroAssembler::branchTestDouble(Condition cond, const BaseIndex& address, Label* label) { SecondScratchRegisterScope scratch2(*this); Register tag = extractTag(address, scratch2); branchTestDouble(cond, tag, label); } void MacroAssembler::branchTestDoubleTruthy(bool b, FloatRegister value, Label* label) { ScratchDoubleScope fpscratch(*this); ma_lid(fpscratch, 0.0); DoubleCondition cond = b ? DoubleNotEqual : DoubleEqualOrUnordered; ma_bc_d(value, fpscratch, label, cond); } void MacroAssembler::branchTestNumber(Condition cond, Register tag, Label* label) { MOZ_ASSERT(cond == Equal || cond == NotEqual); Condition actual = cond == Equal ? BelowOrEqual : Above; ma_b(tag, ImmTag(JS::detail::ValueUpperInclNumberTag), label, actual); } void MacroAssembler::branchTestNumber(Condition cond, const ValueOperand& value, Label* label) { SecondScratchRegisterScope scratch2(*this); splitTag(value, scratch2); branchTestNumber(cond, scratch2, label); } void MacroAssembler::branchTestBoolean(Condition cond, Register tag, Label* label) { MOZ_ASSERT(cond == Equal || cond == NotEqual); ma_b(tag, ImmTag(JSVAL_TAG_BOOLEAN), label, cond); } void MacroAssembler::branchTestBoolean(Condition cond, const ValueOperand& value, Label* label) { SecondScratchRegisterScope scratch2(*this); splitTag(value, scratch2); branchTestBoolean(cond, scratch2, label); } void MacroAssembler::branchTestBoolean(Condition cond, const Address& address, Label* label) { SecondScratchRegisterScope scratch2(*this); Register tag = extractTag(address, scratch2); branchTestBoolean(cond, tag, label); } void MacroAssembler::branchTestBoolean(Condition cond, const BaseIndex& address, Label* label) { SecondScratchRegisterScope scratch2(*this); Register tag = extractTag(address, scratch2); branchTestBoolean(cond, tag, label); } void MacroAssembler::branchTestBooleanTruthy(bool b, const ValueOperand& value, Label* label) { SecondScratchRegisterScope scratch2(*this); unboxBoolean(value, scratch2); ma_b(scratch2, scratch2, label, b ? NonZero : Zero); } void MacroAssembler::branchTestString(Condition cond, Register tag, Label* label) { MOZ_ASSERT(cond == Equal || cond == NotEqual); ma_b(tag, ImmTag(JSVAL_TAG_STRING), label, cond); } void MacroAssembler::branchTestString(Condition cond, const ValueOperand& value, Label* label) { SecondScratchRegisterScope scratch2(*this); splitTag(value, scratch2); branchTestString(cond, scratch2, label); } void MacroAssembler::branchTestString(Condition cond, const Address& address, Label* label) { SecondScratchRegisterScope scratch2(*this); Register tag = extractTag(address, scratch2); branchTestString(cond, tag, label); } void MacroAssembler::branchTestString(Condition cond, const BaseIndex& address, Label* label) { SecondScratchRegisterScope scratch2(*this); Register tag = extractTag(address, scratch2); branchTestString(cond, tag, label); } void MacroAssembler::branchTestStringTruthy(bool b, const ValueOperand& value, Label* label) { SecondScratchRegisterScope scratch2(*this); unboxString(value, scratch2); load32(Address(scratch2, JSString::offsetOfLength()), scratch2); ma_b(scratch2, Imm32(0), label, b ? NotEqual : Equal); } void MacroAssembler::branchTestSymbol(Condition cond, Register tag, Label* label) { MOZ_ASSERT(cond == Equal || cond == NotEqual); ma_b(tag, ImmTag(JSVAL_TAG_SYMBOL), label, cond); } void MacroAssembler::branchTestSymbol(Condition cond, const ValueOperand& value, Label* label) { SecondScratchRegisterScope scratch2(*this); splitTag(value, scratch2); branchTestSymbol(cond, scratch2, label); } void MacroAssembler::branchTestSymbol(Condition cond, const BaseIndex& address, Label* label) { SecondScratchRegisterScope scratch2(*this); Register tag = extractTag(address, scratch2); branchTestSymbol(cond, tag, label); } void MacroAssembler::branchTestSymbol(Condition cond, const Address& address, Label* label) { SecondScratchRegisterScope scratch2(*this); Register tag = extractTag(address, scratch2); branchTestSymbol(cond, tag, label); } void MacroAssembler::branchTestBigInt(Condition cond, Register tag, Label* label) { MOZ_ASSERT(cond == Equal || cond == NotEqual); ma_b(tag, ImmTag(JSVAL_TAG_BIGINT), label, cond); } void MacroAssembler::branchTestBigInt(Condition cond, const ValueOperand& value, Label* label) { SecondScratchRegisterScope scratch2(*this); splitTag(value, scratch2); branchTestBigInt(cond, scratch2, label); } void MacroAssembler::branchTestBigInt(Condition cond, const Address& address, Label* label) { SecondScratchRegisterScope scratch2(*this); Register tag = extractTag(address, scratch2); branchTestBigInt(cond, tag, label); } void MacroAssembler::branchTestBigInt(Condition cond, const BaseIndex& address, Label* label) { SecondScratchRegisterScope scratch2(*this); computeEffectiveAddress(address, scratch2); splitTag(scratch2, scratch2); branchTestBigInt(cond, scratch2, label); } void MacroAssembler::branchTestBigIntTruthy(bool b, const ValueOperand& value, Label* label) { SecondScratchRegisterScope scratch2(*this); unboxBigInt(value, scratch2); load32(Address(scratch2, BigInt::offsetOfDigitLength()), scratch2); ma_b(scratch2, Imm32(0), label, b ? NotEqual : Equal); } void MacroAssembler::branchTestNull(Condition cond, Register tag, Label* label) { MOZ_ASSERT(cond == Equal || cond == NotEqual); ma_b(tag, ImmTag(JSVAL_TAG_NULL), label, cond); } void MacroAssembler::branchTestNull(Condition cond, const ValueOperand& value, Label* label) { SecondScratchRegisterScope scratch2(*this); splitTag(value, scratch2); branchTestNull(cond, scratch2, label); } void MacroAssembler::branchTestNull(Condition cond, const Address& address, Label* label) { SecondScratchRegisterScope scratch2(*this); Register tag = extractTag(address, scratch2); branchTestNull(cond, tag, label); } void MacroAssembler::branchTestNull(Condition cond, const BaseIndex& address, Label* label) { SecondScratchRegisterScope scratch2(*this); Register tag = extractTag(address, scratch2); branchTestNull(cond, tag, label); } void MacroAssembler::branchTestObject(Condition cond, Register tag, Label* label) { MOZ_ASSERT(cond == Equal || cond == NotEqual); ma_b(tag, ImmTag(JSVAL_TAG_OBJECT), label, cond); } void MacroAssembler::branchTestObject(Condition cond, const ValueOperand& value, Label* label) { SecondScratchRegisterScope scratch2(*this); splitTag(value, scratch2); branchTestObject(cond, scratch2, label); } void MacroAssembler::branchTestObject(Condition cond, const Address& address, Label* label) { SecondScratchRegisterScope scratch2(*this); Register tag = extractTag(address, scratch2); branchTestObject(cond, tag, label); } void MacroAssembler::branchTestObject(Condition cond, const BaseIndex& address, Label* label) { SecondScratchRegisterScope scratch2(*this); Register tag = extractTag(address, scratch2); branchTestObject(cond, tag, label); } void MacroAssembler::branchTestPrimitive(Condition cond, const ValueOperand& value, Label* label) { SecondScratchRegisterScope scratch2(*this); splitTag(value, scratch2); branchTestPrimitive(cond, scratch2, label); } void MacroAssembler::branchTestGCThing(Condition cond, const Address& address, Label* label) { branchTestGCThingImpl(cond, address, label); } void MacroAssembler::branchTestGCThing(Condition cond, const BaseIndex& address, Label* label) { branchTestGCThingImpl(cond, address, label); } void MacroAssembler::branchTestGCThing(Condition cond, const ValueOperand& address, Label* label) { branchTestGCThingImpl(cond, address, label); } template void MacroAssembler::branchTestGCThingImpl(Condition cond, const T& address, Label* label) { MOZ_ASSERT(cond == Equal || cond == NotEqual); SecondScratchRegisterScope scratch2(*this); Register tag = extractTag(address, scratch2); ma_b(tag, ImmTag(JS::detail::ValueLowerInclGCThingTag), label, (cond == Equal) ? AboveOrEqual : Below); } void MacroAssembler::branchTestPrimitive(Condition cond, Register tag, Label* label) { MOZ_ASSERT(cond == Equal || cond == NotEqual); ma_b(tag, ImmTag(JS::detail::ValueUpperExclPrimitiveTag), label, (cond == Equal) ? Below : AboveOrEqual); } void MacroAssembler::branchTestMagic(Condition cond, Register tag, Label* label) { MOZ_ASSERT(cond == Equal || cond == NotEqual); ma_b(tag, ImmTag(JSVAL_TAG_MAGIC), label, cond); } void MacroAssembler::branchTestMagic(Condition cond, const Address& address, Label* label) { SecondScratchRegisterScope scratch2(*this); Register tag = extractTag(address, scratch2); branchTestMagic(cond, tag, label); } void MacroAssembler::branchTestMagic(Condition cond, const BaseIndex& address, Label* label) { SecondScratchRegisterScope scratch2(*this); Register tag = extractTag(address, scratch2); branchTestMagic(cond, tag, label); } template void MacroAssembler::branchTestMagic(Condition cond, const ValueOperand& value, L label) { SecondScratchRegisterScope scratch2(*this); splitTag(value, scratch2); ma_b(scratch2, ImmTag(JSVAL_TAG_MAGIC), label, cond); } void MacroAssembler::branchTestMagic(Condition cond, const Address& valaddr, JSWhyMagic why, Label* label) { uint64_t magic = MagicValue(why).asRawBits(); SecondScratchRegisterScope scratch(*this); loadPtr(valaddr, scratch); ma_b(scratch, ImmWord(magic), label, cond); } void MacroAssembler::branchTestValue(Condition cond, const BaseIndex& lhs, const ValueOperand& rhs, Label* label) { MOZ_ASSERT(cond == Assembler::Equal || cond == Assembler::NotEqual); branchPtr(cond, lhs, rhs.valueReg(), label); } template void MacroAssembler::testNumberSet(Condition cond, const T& src, Register dest) { MOZ_ASSERT(cond == Equal || cond == NotEqual); SecondScratchRegisterScope scratch2(*this); Register tag = extractTag(src, scratch2); ma_cmp_set(dest, tag, ImmTag(JS::detail::ValueUpperInclNumberTag), cond == Equal ? BelowOrEqual : Above); } template void MacroAssembler::testBooleanSet(Condition cond, const T& src, Register dest) { MOZ_ASSERT(cond == Equal || cond == NotEqual); SecondScratchRegisterScope scratch2(*this); Register tag = extractTag(src, scratch2); ma_cmp_set(dest, tag, ImmTag(JSVAL_TAG_BOOLEAN), cond); } template void MacroAssembler::testStringSet(Condition cond, const T& src, Register dest) { MOZ_ASSERT(cond == Equal || cond == NotEqual); SecondScratchRegisterScope scratch2(*this); Register tag = extractTag(src, scratch2); ma_cmp_set(dest, tag, ImmTag(JSVAL_TAG_STRING), cond); } template void MacroAssembler::testSymbolSet(Condition cond, const T& src, Register dest) { MOZ_ASSERT(cond == Equal || cond == NotEqual); SecondScratchRegisterScope scratch2(*this); Register tag = extractTag(src, scratch2); ma_cmp_set(dest, tag, ImmTag(JSVAL_TAG_SYMBOL), cond); } template void MacroAssembler::testBigIntSet(Condition cond, const T& src, Register dest) { MOZ_ASSERT(cond == Equal || cond == NotEqual); SecondScratchRegisterScope scratch2(*this); Register tag = extractTag(src, scratch2); ma_cmp_set(dest, tag, ImmTag(JSVAL_TAG_BIGINT), cond); } void MacroAssembler::branchToComputedAddress(const BaseIndex& addr) { SecondScratchRegisterScope scratch2(asMasm()); loadPtr(addr, scratch2); branch(scratch2); } void MacroAssembler::cmp32Move32(Condition cond, Register lhs, Register rhs, Register src, Register dest) { SecondScratchRegisterScope scratch2(asMasm()); cmp32Set(cond, lhs, rhs, scratch2); moveIfNotZero(dest, src, scratch2); } void MacroAssembler::cmp32Move32(Condition cond, Register lhs, const Address& rhs, Register src, Register dest) { SecondScratchRegisterScope scratch2(*this); MOZ_ASSERT(lhs != scratch2 && src != scratch2 && dest != scratch2); load32(rhs, scratch2); cmp32Move32(cond, lhs, scratch2, src, dest); } void MacroAssembler::cmp32MovePtr(Condition cond, Register lhs, Imm32 rhs, Register src, Register dest) { SecondScratchRegisterScope scratch2(asMasm()); cmp32Set(cond, lhs, rhs, scratch2); moveIfNotZero(dest, src, scratch2); } void MacroAssembler::cmpPtrMovePtr(Condition cond, Register lhs, Register rhs, Register src, Register dest) { SecondScratchRegisterScope scratch2(asMasm()); cmpPtrSet(cond, lhs, rhs, scratch2); moveIfNotZero(dest, src, scratch2); } void MacroAssembler::cmpPtrMovePtr(Condition cond, Register lhs, const Address& rhs, Register src, Register dest) { MOZ_CRASH("NYI"); } void MacroAssembler::cmp32Load32(Condition cond, Register lhs, const Address& rhs, const Address& src, Register dest) { ScratchRegisterScope scratch(*this); MOZ_ASSERT(lhs != scratch && dest != scratch); load32(rhs, scratch); cmp32Load32(cond, lhs, scratch, src, dest); } void MacroAssembler::cmp32Load32(Condition cond, Register lhs, Register rhs, const Address& src, Register dest) { Label skip; branch32(Assembler::InvertCondition(cond), lhs, rhs, &skip); load32(src, dest); bind(&skip); } void MacroAssembler::cmp32LoadPtr(Condition cond, const Address& lhs, Imm32 rhs, const Address& src, Register dest) { Label skip; branch32(Assembler::InvertCondition(cond), lhs, rhs, &skip); loadPtr(src, dest); bind(&skip); } void MacroAssembler::test32LoadPtr(Condition cond, const Address& addr, Imm32 mask, const Address& src, Register dest) { MOZ_RELEASE_ASSERT(!JitOptions.spectreStringMitigations); Label skip; branchTest32(Assembler::InvertCondition(cond), addr, mask, &skip); loadPtr(src, dest); bind(&skip); } void MacroAssembler::test32MovePtr(Condition cond, const Address& addr, Imm32 mask, Register src, Register dest) { MOZ_CRASH(); } void MacroAssembler::spectreMovePtr(Condition cond, Register src, Register dest) { MOZ_CRASH(); } void MacroAssembler::spectreZeroRegister(Condition cond, Register scratch, Register dest) { MOZ_CRASH(); } void MacroAssembler::spectreBoundsCheck32(Register index, Register length, Register maybeScratch, Label* failure) { MOZ_RELEASE_ASSERT(!JitOptions.spectreIndexMasking); branch32(Assembler::BelowOrEqual, length, index, failure); } void MacroAssembler::spectreBoundsCheck32(Register index, const Address& length, Register maybeScratch, Label* failure) { MOZ_RELEASE_ASSERT(!JitOptions.spectreIndexMasking); branch32(Assembler::BelowOrEqual, length, index, failure); } void MacroAssembler::spectreBoundsCheckPtr(Register index, Register length, Register maybeScratch, Label* failure) { MOZ_RELEASE_ASSERT(!JitOptions.spectreIndexMasking); branchPtr(Assembler::BelowOrEqual, length, index, failure); } void MacroAssembler::spectreBoundsCheckPtr(Register index, const Address& length, Register maybeScratch, Label* failure) { MOZ_RELEASE_ASSERT(!JitOptions.spectreIndexMasking); branchPtr(Assembler::BelowOrEqual, length, index, failure); } // ======================================================================== // Memory access primitives. void MacroAssembler::storeUncanonicalizedFloat32(FloatRegister src, const Address& addr) { ma_fst_s(src, addr); } void MacroAssembler::storeUncanonicalizedFloat32(FloatRegister src, const BaseIndex& addr) { ma_fst_s(src, addr); } void MacroAssembler::storeUncanonicalizedDouble(FloatRegister src, const Address& addr) { ma_fst_d(src, addr); } void MacroAssembler::storeUncanonicalizedDouble(FloatRegister src, const BaseIndex& addr) { ma_fst_d(src, addr); } void MacroAssembler::memoryBarrier(MemoryBarrierBits barrier) { if (barrier) { as_dbar(0); } } // =============================================================== // Clamping functions. void MacroAssembler::clampIntToUint8(Register reg) { ScratchRegisterScope scratch(*this); // If reg is < 0, then we want to clamp to 0. as_slti(scratch, reg, 0); as_masknez(reg, reg, scratch); // If reg is >= 255, then we want to clamp to 255. as_addi_d(reg, reg, -255); as_slt(scratch, reg, zero); as_maskeqz(reg, reg, scratch); as_addi_d(reg, reg, 255); } void MacroAssembler::fallibleUnboxPtr(const ValueOperand& src, Register dest, JSValueType type, Label* fail) { MOZ_ASSERT(type == JSVAL_TYPE_OBJECT || type == JSVAL_TYPE_STRING || type == JSVAL_TYPE_SYMBOL || type == JSVAL_TYPE_BIGINT); // dest := src XOR mask // scratch := dest >> JSVAL_TAG_SHIFT // fail if scratch != 0 // // Note: src and dest can be the same register ScratchRegisterScope scratch(asMasm()); MOZ_ASSERT(src.valueReg() != scratch); mov(ImmWord(JSVAL_TYPE_TO_SHIFTED_TAG(type)), scratch); as_xor(dest, src.valueReg(), scratch); as_srli_d(scratch, dest, JSVAL_TAG_SHIFT); ma_b(scratch, Imm32(0), fail, Assembler::NotEqual); } void MacroAssembler::fallibleUnboxPtr(const Address& src, Register dest, JSValueType type, Label* fail) { loadValue(src, ValueOperand(dest)); fallibleUnboxPtr(ValueOperand(dest), dest, type, fail); } void MacroAssembler::fallibleUnboxPtr(const BaseIndex& src, Register dest, JSValueType type, Label* fail) { loadValue(src, ValueOperand(dest)); fallibleUnboxPtr(ValueOperand(dest), dest, type, fail); } //}}} check_macroassembler_style // =============================================================== // The specializations for cmpPtrSet are outside the braces because // check_macroassembler_style can't yet deal with specializations. template <> inline void MacroAssembler::cmpPtrSet(Assembler::Condition cond, Address lhs, ImmPtr rhs, Register dest) { SecondScratchRegisterScope scratch2(asMasm()); loadPtr(lhs, scratch2); cmpPtrSet(cond, Register(scratch2), rhs, dest); } template <> inline void MacroAssembler::cmpPtrSet(Assembler::Condition cond, Register lhs, Address rhs, Register dest) { ScratchRegisterScope scratch(asMasm()); MOZ_ASSERT(lhs != scratch); loadPtr(rhs, scratch); cmpPtrSet(cond, lhs, Register(scratch), dest); } template <> inline void MacroAssembler::cmpPtrSet(Assembler::Condition cond, Address lhs, Register rhs, Register dest) { SecondScratchRegisterScope scratch2(asMasm()); MOZ_ASSERT(rhs != scratch2); loadPtr(lhs, scratch2); cmpPtrSet(cond, Register(scratch2), rhs, dest); } template <> inline void MacroAssembler::cmp32Set(Assembler::Condition cond, Register lhs, Address rhs, Register dest) { ScratchRegisterScope scratch(asMasm()); MOZ_ASSERT(lhs != scratch); load32(rhs, scratch); cmp32Set(cond, lhs, Register(scratch), dest); } template <> inline void MacroAssembler::cmp32Set(Assembler::Condition cond, Address lhs, Register rhs, Register dest) { SecondScratchRegisterScope scratch2(asMasm()); MOZ_ASSERT(rhs != scratch2); load32(lhs, scratch2); cmp32Set(cond, Register(scratch2), rhs, dest); } void MacroAssemblerLOONG64Compat::incrementInt32Value(const Address& addr) { asMasm().add32(Imm32(1), addr); } void MacroAssemblerLOONG64Compat::retn(Imm32 n) { // pc <- [sp]; sp += n loadPtr(Address(StackPointer, 0), ra); asMasm().addPtr(n, StackPointer); as_jirl(zero, ra, BOffImm16(0)); } // If source is a double, load into dest. // If source is int32, convert to double and store in dest. // Else, branch to failure. void MacroAssemblerLOONG64Compat::ensureDouble(const ValueOperand& source, FloatRegister dest, Label* failure) { Label isDouble, done; { ScratchTagScope tag(asMasm(), source); splitTagForTest(source, tag); asMasm().branchTestDouble(Assembler::Equal, tag, &isDouble); asMasm().branchTestInt32(Assembler::NotEqual, tag, failure); } convertInt32ToDouble(source.valueReg(), dest); jump(&done); bind(&isDouble); unboxDouble(source, dest); bind(&done); } } // namespace jit } // namespace js #endif /* jit_loong64_MacroAssembler_loong64_inl_h */