/* -*- 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_mips32_MacroAssembler_mips32_inl_h #define jit_mips32_MacroAssembler_mips32_inl_h #include "jit/mips32/MacroAssembler-mips32.h" #include "jit/mips-shared/MacroAssembler-mips-shared-inl.h" namespace js { namespace jit { //{{{ check_macroassembler_style void MacroAssembler::move64(Register64 src, Register64 dest) { move32(src.low, dest.low); move32(src.high, dest.high); } void MacroAssembler::move64(Imm64 imm, Register64 dest) { move32(Imm32(imm.value & 0xFFFFFFFFL), dest.low); move32(Imm32((imm.value >> 32) & 0xFFFFFFFFL), dest.high); } // =============================================================== // Logical instructions void MacroAssembler::andPtr(Register src, Register dest) { ma_and(dest, src); } void MacroAssembler::andPtr(Imm32 imm, Register dest) { ma_and(dest, imm); } void MacroAssembler::and64(Imm64 imm, Register64 dest) { if (imm.low().value != int32_t(0xFFFFFFFF)) and32(imm.low(), dest.low); if (imm.hi().value != int32_t(0xFFFFFFFF)) and32(imm.hi(), dest.high); } void MacroAssembler::and64(Register64 src, Register64 dest) { and32(src.low, dest.low); and32(src.high, dest.high); } void MacroAssembler::or64(Imm64 imm, Register64 dest) { if (imm.low().value) or32(imm.low(), dest.low); if (imm.hi().value) or32(imm.hi(), dest.high); } void MacroAssembler::xor64(Imm64 imm, Register64 dest) { if (imm.low().value) xor32(imm.low(), dest.low); if (imm.hi().value) xor32(imm.hi(), dest.high); } void MacroAssembler::orPtr(Register src, Register dest) { ma_or(dest, src); } void MacroAssembler::orPtr(Imm32 imm, Register dest) { ma_or(dest, imm); } void MacroAssembler::or64(Register64 src, Register64 dest) { or32(src.low, dest.low); or32(src.high, dest.high); } void MacroAssembler::xor64(Register64 src, Register64 dest) { ma_xor(dest.low, src.low); ma_xor(dest.high, src.high); } void MacroAssembler::xorPtr(Register src, Register dest) { ma_xor(dest, src); } void MacroAssembler::xorPtr(Imm32 imm, Register dest) { ma_xor(dest, imm); } // =============================================================== // Arithmetic functions void MacroAssembler::addPtr(Register src, Register dest) { ma_addu(dest, src); } void MacroAssembler::addPtr(Imm32 imm, Register dest) { ma_addu(dest, imm); } void MacroAssembler::addPtr(ImmWord imm, Register dest) { addPtr(Imm32(imm.value), dest); } void MacroAssembler::add64(Register64 src, Register64 dest) { as_addu(dest.low, dest.low, src.low); as_sltu(ScratchRegister, dest.low, src.low); as_addu(dest.high, dest.high, src.high); as_addu(dest.high, dest.high, ScratchRegister); } void MacroAssembler::add64(Imm32 imm, Register64 dest) { ma_li(ScratchRegister, imm); as_addu(dest.low, dest.low, ScratchRegister); as_sltu(ScratchRegister, dest.low, ScratchRegister); as_addu(dest.high, dest.high, ScratchRegister); } void MacroAssembler::add64(Imm64 imm, Register64 dest) { add64(imm.low(), dest); ma_addu(dest.high, dest.high, imm.hi()); } void MacroAssembler::subPtr(Register src, Register dest) { as_subu(dest, dest, src); } void MacroAssembler::subPtr(Imm32 imm, Register dest) { ma_subu(dest, dest, imm); } void MacroAssembler::sub64(Register64 src, Register64 dest) { as_sltu(ScratchRegister, dest.low, src.low); as_subu(dest.high, dest.high, ScratchRegister); as_subu(dest.low, dest.low, src.low); as_subu(dest.high, dest.high, src.high); } void MacroAssembler::sub64(Imm64 imm, Register64 dest) { ma_li(ScratchRegister, imm.low()); as_sltu(ScratchRegister, dest.low, ScratchRegister); as_subu(dest.high, dest.high, ScratchRegister); ma_subu(dest.low, dest.low, imm.low()); ma_subu(dest.high, dest.high, imm.hi()); } void MacroAssembler::mul64(Imm64 imm, const Register64& dest) { // LOW32 = LOW(LOW(dest) * LOW(imm)); // HIGH32 = LOW(HIGH(dest) * LOW(imm)) [multiply imm into upper bits] // + LOW(LOW(dest) * HIGH(imm)) [multiply dest into upper bits] // + HIGH(LOW(dest) * LOW(imm)) [carry] // HIGH(dest) = LOW(HIGH(dest) * LOW(imm)); ma_li(ScratchRegister, Imm32(imm.value & LOW_32_MASK)); as_multu(dest.high, ScratchRegister); as_mflo(dest.high); // mfhi:mflo = LOW(dest) * LOW(imm); as_multu(dest.low, ScratchRegister); // HIGH(dest) += mfhi; as_mfhi(ScratchRegister); as_addu(dest.high, dest.high, ScratchRegister); if (((imm.value >> 32) & LOW_32_MASK) == 5) { // Optimized case for Math.random(). // HIGH(dest) += LOW(LOW(dest) * HIGH(imm)); as_sll(ScratchRegister, dest.low, 2); as_addu(ScratchRegister, ScratchRegister, dest.low); as_addu(dest.high, dest.high, ScratchRegister); // LOW(dest) = mflo; as_mflo(dest.low); } else { // tmp = mflo as_mflo(SecondScratchReg); // HIGH(dest) += LOW(LOW(dest) * HIGH(imm)); ma_li(ScratchRegister, Imm32((imm.value >> 32) & LOW_32_MASK)); as_multu(dest.low, ScratchRegister); as_mflo(ScratchRegister); as_addu(dest.high, dest.high, ScratchRegister); // LOW(dest) = tmp; ma_move(dest.low, SecondScratchReg); } } void MacroAssembler::mul64(Imm64 imm, const Register64& dest, const Register temp) { // LOW32 = LOW(LOW(dest) * LOW(imm)); // HIGH32 = LOW(HIGH(dest) * LOW(imm)) [multiply imm into upper bits] // + LOW(LOW(dest) * HIGH(imm)) [multiply dest into upper bits] // + HIGH(LOW(dest) * LOW(imm)) [carry] // HIGH(dest) = LOW(HIGH(dest) * LOW(imm)); MOZ_ASSERT(temp != dest.high && temp != dest.low); ma_li(ScratchRegister, imm.firstHalf()); as_multu(dest.high, ScratchRegister); as_mflo(dest.high); ma_li(ScratchRegister, imm.secondHalf()); as_multu(dest.low, ScratchRegister); as_mflo(temp); as_addu(temp, dest.high, temp); ma_li(ScratchRegister, imm.firstHalf()); as_multu(dest.low, ScratchRegister); as_mfhi(dest.high); as_mflo(dest.low); as_addu(dest.high, dest.high, temp); } void MacroAssembler::mul64(const Register64& src, const Register64& dest, const Register temp) { // LOW32 = LOW(LOW(dest) * LOW(imm)); // HIGH32 = LOW(HIGH(dest) * LOW(imm)) [multiply imm into upper bits] // + LOW(LOW(dest) * HIGH(imm)) [multiply dest into upper bits] // + HIGH(LOW(dest) * LOW(imm)) [carry] // HIGH(dest) = LOW(HIGH(dest) * LOW(imm)); MOZ_ASSERT(dest != src); MOZ_ASSERT(dest.low != src.high && dest.high != src.low); as_multu(dest.high, src.low); // (2) as_mflo(dest.high); as_multu(dest.low, src.high); // (3) as_mflo(temp); as_addu(temp, dest.high, temp); as_multu(dest.low, src.low); // (4) + (1) as_mfhi(dest.high); as_mflo(dest.low); as_addu(dest.high, dest.high, temp); } void MacroAssembler::neg64(Register64 reg) { ma_li(ScratchRegister, Imm32(1)); as_movz(ScratchRegister, zero, reg.low); ma_negu(reg.low, reg.low); as_addu(reg.high, reg.high, ScratchRegister); ma_negu(reg.high, reg.high); } void MacroAssembler::mulBy3(Register src, Register dest) { as_addu(dest, src, src); as_addu(dest, dest, src); } void MacroAssembler::inc64(AbsoluteAddress dest) { ma_li(ScratchRegister, Imm32((int32_t)dest.addr)); as_lw(SecondScratchReg, ScratchRegister, 0); as_addiu(SecondScratchReg, SecondScratchReg, 1); as_sw(SecondScratchReg, ScratchRegister, 0); as_sltiu(SecondScratchReg, SecondScratchReg, 1); as_lw(ScratchRegister, ScratchRegister, 4); as_addu(SecondScratchReg, ScratchRegister, SecondScratchReg); ma_li(ScratchRegister, Imm32((int32_t)dest.addr)); as_sw(SecondScratchReg, ScratchRegister, 4); } // =============================================================== // Shift functions void MacroAssembler::lshiftPtr(Imm32 imm, Register dest) { MOZ_ASSERT(0 <= imm.value && imm.value < 32); ma_sll(dest, dest, imm); } void MacroAssembler::lshift64(Imm32 imm, Register64 dest) { MOZ_ASSERT(0 <= imm.value && imm.value < 64); ScratchRegisterScope scratch(*this); if (imm.value == 0) { return; } else if (imm.value < 32) { as_sll(dest.high, dest.high, imm.value); as_srl(scratch, dest.low, 32 - imm.value); as_or(dest.high, dest.high, scratch); as_sll(dest.low, dest.low, imm.value); } else { as_sll(dest.high, dest.low, imm.value - 32); move32(Imm32(0), dest.low); } } void MacroAssembler::lshift64(Register unmaskedShift, Register64 dest) { Label done, less; ScratchRegisterScope shift(*this); ma_and(shift, unmaskedShift, Imm32(0x3f)); ma_b(shift, Imm32(0), &done, Equal); ma_sll(dest.high, dest.high, shift); ma_subu(shift, shift, Imm32(32)); ma_b(shift, Imm32(0), &less, LessThan); ma_sll(dest.high, dest.low, shift); move32(Imm32(0), dest.low); ma_b(&done); bind(&less); ma_li(SecondScratchReg, Imm32(0)); as_subu(shift, SecondScratchReg, shift); ma_srl(SecondScratchReg, dest.low, shift); as_or(dest.high, dest.high, SecondScratchReg); ma_and(shift, unmaskedShift, Imm32(0x3f)); ma_sll(dest.low, dest.low, shift); bind(&done); } void MacroAssembler::rshiftPtr(Imm32 imm, Register dest) { MOZ_ASSERT(0 <= imm.value && imm.value < 32); ma_srl(dest, dest, imm); } void MacroAssembler::rshiftPtrArithmetic(Imm32 imm, Register dest) { MOZ_ASSERT(0 <= imm.value && imm.value < 32); ma_sra(dest, dest, imm); } void MacroAssembler::rshift64(Imm32 imm, Register64 dest) { MOZ_ASSERT(0 <= imm.value && imm.value < 64); ScratchRegisterScope scratch(*this); if (imm.value < 32) { as_srl(dest.low, dest.low, imm.value); as_sll(scratch, dest.high, 32 - imm.value); as_or(dest.low, dest.low, scratch); as_srl(dest.high, dest.high, imm.value); } else if (imm.value == 32) { ma_move(dest.low, dest.high); move32(Imm32(0), dest.high); } else { ma_srl(dest.low, dest.high, Imm32(imm.value - 32)); move32(Imm32(0), dest.high); } } void MacroAssembler::rshift64(Register unmaskedShift, Register64 dest) { Label done, less; ScratchRegisterScope shift(*this); ma_and(shift, unmaskedShift, Imm32(0x3f)); ma_srl(dest.low, dest.low, shift); ma_subu(shift, shift, Imm32(32)); ma_b(shift, Imm32(0), &less, LessThan); ma_srl(dest.low, dest.high, shift); move32(Imm32(0), dest.high); ma_b(&done); bind(&less); ma_li(SecondScratchReg, Imm32(0)); as_subu(shift, SecondScratchReg, shift); ma_sll(SecondScratchReg, dest.high, shift); as_or(dest.low, dest.low, SecondScratchReg); ma_and(shift, unmaskedShift, Imm32(0x3f)); ma_srl(dest.high, dest.high, shift); bind(&done); } void MacroAssembler::rshift64Arithmetic(Imm32 imm, Register64 dest) { MOZ_ASSERT(0 <= imm.value && imm.value < 64); ScratchRegisterScope scratch(*this); if (imm.value < 32) { as_srl(dest.low, dest.low, imm.value); as_sll(scratch, dest.high, 32 - imm.value); as_or(dest.low, dest.low, scratch); as_sra(dest.high, dest.high, imm.value); } else if (imm.value == 32) { ma_move(dest.low, dest.high); as_sra(dest.high, dest.high, 31); } else { as_sra(dest.low, dest.high, imm.value - 32); as_sra(dest.high, dest.high, 31); } } void MacroAssembler::rshift64Arithmetic(Register unmaskedShift, Register64 dest) { Label done, less; ScratchRegisterScope shift(*this); ma_and(shift, unmaskedShift, Imm32(0x3f)); ma_srl(dest.low, dest.low, shift); ma_subu(shift, shift, Imm32(32)); ma_b(shift, Imm32(0), &less, LessThan); ma_sra(dest.low, dest.high, shift); as_sra(dest.high, dest.high, 31); ma_b(&done); bind(&less); ma_li(SecondScratchReg, Imm32(0)); as_subu(shift, SecondScratchReg, shift); ma_sll(SecondScratchReg, dest.high, shift); as_or(dest.low, dest.low, SecondScratchReg); ma_and(shift, unmaskedShift, Imm32(0x3f)); ma_sra(dest.high, dest.high, shift); bind(&done); } // =============================================================== // Rotation functions void MacroAssembler::rotateLeft64(Imm32 count, Register64 input, Register64 dest, Register temp) { MOZ_ASSERT(temp == InvalidReg); MOZ_ASSERT(input.low != dest.high && input.high != dest.low); int32_t amount = count.value & 0x3f; if (amount > 32) { rotateRight64(Imm32(64 - amount), input, dest, temp); } else { ScratchRegisterScope scratch(*this); if (amount == 0) { ma_move(dest.low, input.low); ma_move(dest.high, input.high); } else if (amount == 32) { ma_move(scratch, input.low); ma_move(dest.low, input.high); ma_move(dest.high, scratch); } else { MOZ_ASSERT(0 < amount && amount < 32); ma_move(scratch, input.high); ma_sll(dest.high, input.high, Imm32(amount)); ma_srl(SecondScratchReg, input.low, Imm32(32 - amount)); as_or(dest.high, dest.high, SecondScratchReg); ma_sll(dest.low, input.low, Imm32(amount)); ma_srl(SecondScratchReg, scratch, Imm32(32 - amount)); as_or(dest.low, dest.low, SecondScratchReg); } } } void MacroAssembler::rotateLeft64(Register shift, Register64 src, Register64 dest, Register temp) { MOZ_ASSERT(temp != src.low && temp != src.high); MOZ_ASSERT(shift != src.low && shift != src.high); MOZ_ASSERT(temp != InvalidReg); ScratchRegisterScope shift_value(*this); Label high, done, zero; ma_and(temp, shift, Imm32(0x3f)); ma_b(temp, Imm32(32), &high, GreaterThanOrEqual); // high = high << shift | low >> 32 - shift // low = low << shift | high >> 32 - shift ma_sll(dest.high, src.high, temp); ma_b(temp, Imm32(0), &zero, Equal); ma_li(SecondScratchReg, Imm32(32)); as_subu(shift_value, SecondScratchReg, temp); ma_srl(SecondScratchReg, src.low, shift_value); as_or(dest.high, dest.high, SecondScratchReg); ma_sll(dest.low, src.low, temp); ma_srl(SecondScratchReg, src.high, shift_value); as_or(dest.low, dest.low, SecondScratchReg); ma_b(&done); bind(&zero); ma_move(dest.low, src.low); ma_move(dest.high, src.high); ma_b(&done); // A 32 - 64 shift is a 0 - 32 shift in the other direction. bind(&high); ma_and(shift, shift, Imm32(0x3f)); ma_li(SecondScratchReg, Imm32(64)); as_subu(temp, SecondScratchReg, shift); ma_srl(dest.high, src.high, temp); ma_li(SecondScratchReg, Imm32(32)); as_subu(shift_value, SecondScratchReg, temp); ma_sll(SecondScratchReg, src.low, shift_value); as_or(dest.high, dest.high, SecondScratchReg); ma_srl(dest.low, src.low, temp); ma_sll(SecondScratchReg, src.high, shift_value); as_or(dest.low, dest.low, SecondScratchReg); bind(&done); } void MacroAssembler::rotateRight64(Imm32 count, Register64 input, Register64 dest, Register temp) { MOZ_ASSERT(temp == InvalidReg); MOZ_ASSERT(input.low != dest.high && input.high != dest.low); int32_t amount = count.value & 0x3f; if (amount > 32) { rotateLeft64(Imm32(64 - amount), input, dest, temp); } else { ScratchRegisterScope scratch(*this); if (amount == 0) { ma_move(dest.low, input.low); ma_move(dest.high, input.high); } else if (amount == 32) { ma_move(scratch, input.low); ma_move(dest.low, input.high); ma_move(dest.high, scratch); } else { MOZ_ASSERT(0 < amount && amount < 32); ma_move(scratch, input.high); ma_srl(dest.high, input.high, Imm32(amount)); ma_sll(SecondScratchReg, input.low, Imm32(32 - amount)); as_or(dest.high, dest.high, SecondScratchReg); ma_srl(dest.low, input.low, Imm32(amount)); ma_sll(SecondScratchReg, scratch, Imm32(32 - amount)); as_or(dest.low, dest.low, SecondScratchReg); } } } void MacroAssembler::rotateRight64(Register shift, Register64 src, Register64 dest, Register temp) { MOZ_ASSERT(temp != src.low && temp != src.high); MOZ_ASSERT(shift != src.low && shift != src.high); MOZ_ASSERT(temp != InvalidReg); ScratchRegisterScope shift_value(*this); Label high, done, zero; ma_and(temp, shift, Imm32(0x3f)); ma_b(temp, Imm32(32), &high, GreaterThanOrEqual); // high = high >> shift | low << 32 - shift // low = low >> shift | high << 32 - shift ma_srl(dest.high, src.high, temp); ma_b(temp, Imm32(0), &zero, Equal); ma_li(SecondScratchReg, Imm32(32)); as_subu(shift_value, SecondScratchReg, temp); ma_sll(SecondScratchReg, src.low, shift_value); as_or(dest.high, dest.high, SecondScratchReg); ma_srl(dest.low, src.low, temp); //ma_li(SecondScratchReg, Imm32(32)); //as_subu(shift_value, SecondScratchReg, shift_value); ma_sll(SecondScratchReg, src.high, shift_value); as_or(dest.low, dest.low, SecondScratchReg); ma_b(&done); bind(&zero); ma_move(dest.low, src.low); ma_move(dest.high, src.high); ma_b(&done); // A 32 - 64 shift is a 0 - 32 shift in the other direction. bind(&high); ma_and(shift, shift, Imm32(0x3f)); ma_li(SecondScratchReg, Imm32(64)); as_subu(temp, SecondScratchReg, shift); ma_sll(dest.high, src.high, temp); ma_li(SecondScratchReg, Imm32(32)); as_subu(shift_value, SecondScratchReg, temp); ma_srl(SecondScratchReg, src.low, shift_value); as_or(dest.high, dest.high, SecondScratchReg); ma_sll(dest.low, src.low, temp); ma_srl(SecondScratchReg, src.high, shift_value); as_or(dest.low, dest.low, SecondScratchReg); bind(&done); } template void MacroAssembler::cmpPtrSet(Condition cond, T1 lhs, T2 rhs, Register dest) { ma_cmp_set(dest, lhs, rhs, cond); } template void MacroAssembler::cmp32Set(Condition cond, T1 lhs, T2 rhs, Register dest) { ma_cmp_set(dest, lhs, rhs, cond); } // =============================================================== // Bit counting functions void MacroAssembler::clz64(Register64 src, Register dest) { Label done, low; ma_b(src.high, Imm32(0), &low, Equal); as_clz(dest, src.high); ma_b(&done); bind(&low); as_clz(dest, src.low); ma_addu(dest, Imm32(32)); bind(&done); } void MacroAssembler::ctz64(Register64 src, Register dest) { Label done, high; ma_b(src.low, Imm32(0), &high, Equal); ma_ctz(dest, src.low); ma_b(&done); bind(&high); ma_ctz(dest, src.high); ma_addu(dest, Imm32(32)); bind(&done); } void MacroAssembler::popcnt64(Register64 src, Register64 dest, Register tmp) { MOZ_ASSERT(dest.low != tmp); MOZ_ASSERT(dest.high != tmp); MOZ_ASSERT(dest.low != dest.high); if (dest.low != src.high) { popcnt32(src.low, dest.low, tmp); popcnt32(src.high, dest.high, tmp); } else { MOZ_ASSERT(dest.high != src.high); popcnt32(src.low, dest.high, tmp); popcnt32(src.high, dest.low, tmp); } ma_addu(dest.low, dest.high); move32(Imm32(0), dest.high); } // =============================================================== // Branch functions void MacroAssembler::branch64(Condition cond, const Address& lhs, Imm64 val, Label* label) { MOZ_ASSERT(cond == Assembler::NotEqual, "other condition codes not supported"); branch32(cond, lhs, val.firstHalf(), label); branch32(cond, Address(lhs.base, lhs.offset + sizeof(uint32_t)), val.secondHalf(), label); } void MacroAssembler::branch64(Condition cond, const Address& lhs, const Address& rhs, Register scratch, Label* label) { MOZ_ASSERT(cond == Assembler::NotEqual, "other condition codes not supported"); MOZ_ASSERT(lhs.base != scratch); MOZ_ASSERT(rhs.base != scratch); load32(rhs, scratch); branch32(cond, lhs, scratch, label); load32(Address(rhs.base, rhs.offset + sizeof(uint32_t)), scratch); branch32(cond, Address(lhs.base, lhs.offset + sizeof(uint32_t)), scratch, label); } void MacroAssembler::branch64(Condition cond, Register64 lhs, Imm64 val, Label* success, Label* fail) { bool fallthrough = false; Label fallthroughLabel; if (!fail) { fail = &fallthroughLabel; fallthrough = true; } switch(cond) { case Assembler::Equal: branch32(Assembler::NotEqual, lhs.low, val.low(), fail); branch32(Assembler::Equal, lhs.high, val.hi(), success); if (!fallthrough) jump(fail); break; case Assembler::NotEqual: branch32(Assembler::NotEqual, lhs.low, val.low(), success); branch32(Assembler::NotEqual, lhs.high, val.hi(), success); if (!fallthrough) jump(fail); break; case Assembler::LessThan: case Assembler::LessThanOrEqual: case Assembler::GreaterThan: case Assembler::GreaterThanOrEqual: case Assembler::Below: case Assembler::BelowOrEqual: case Assembler::Above: case Assembler::AboveOrEqual: { Assembler::Condition invert_cond = Assembler::InvertCondition(cond); Assembler::Condition cond1 = Assembler::ConditionWithoutEqual(cond); Assembler::Condition cond2 = Assembler::ConditionWithoutEqual(invert_cond); Assembler::Condition cond3 = Assembler::UnsignedCondition(cond); ma_b(lhs.high, val.hi(), success, cond1); ma_b(lhs.high, val.hi(), fail, cond2); ma_b(lhs.low, val.low(), success, cond3); if (!fallthrough) jump(fail); break; } default: MOZ_CRASH("Condition code not supported"); break; } if (fallthrough) bind(fail); } void MacroAssembler::branch64(Condition cond, Register64 lhs, Register64 rhs, Label* success, Label* fail) { bool fallthrough = false; Label fallthroughLabel; if (!fail) { fail = &fallthroughLabel; fallthrough = true; } switch(cond) { case Assembler::Equal: branch32(Assembler::NotEqual, lhs.low, rhs.low, fail); branch32(Assembler::Equal, lhs.high, rhs.high, success); if (!fallthrough) jump(fail); break; case Assembler::NotEqual: branch32(Assembler::NotEqual, lhs.low, rhs.low, success); branch32(Assembler::NotEqual, lhs.high, rhs.high, success); if (!fallthrough) jump(fail); break; case Assembler::LessThan: case Assembler::LessThanOrEqual: case Assembler::GreaterThan: case Assembler::GreaterThanOrEqual: case Assembler::Below: case Assembler::BelowOrEqual: case Assembler::Above: case Assembler::AboveOrEqual: { Assembler::Condition invert_cond = Assembler::InvertCondition(cond); Assembler::Condition cond1 = Assembler::ConditionWithoutEqual(cond); Assembler::Condition cond2 = Assembler::ConditionWithoutEqual(invert_cond); Assembler::Condition cond3 = Assembler::UnsignedCondition(cond); ma_b(lhs.high, rhs.high, success, cond1); ma_b(lhs.high, rhs.high, fail, cond2); ma_b(lhs.low, rhs.low, success, cond3); if (!fallthrough) jump(fail); break; } default: MOZ_CRASH("Condition code not supported"); break; } if (fallthrough) bind(fail); } void MacroAssembler::branchPrivatePtr(Condition cond, const Address& lhs, Register rhs, Label* label) { branchPtr(cond, lhs, rhs, label); } template void MacroAssembler::branchTest64(Condition cond, Register64 lhs, Register64 rhs, Register temp, L label) { if (cond == Assembler::Zero) { MOZ_ASSERT(lhs.low == rhs.low); MOZ_ASSERT(lhs.high == rhs.high); as_or(ScratchRegister, lhs.low, lhs.high); branchTestPtr(cond, ScratchRegister, ScratchRegister, label); } else { MOZ_CRASH("Unsupported condition"); } } void MacroAssembler::branchTestUndefined(Condition cond, const ValueOperand& value, Label* label) { branchTestUndefined(cond, value.typeReg(), label); } void MacroAssembler::branchTestInt32(Condition cond, const ValueOperand& value, Label* label) { branchTestInt32(cond, value.typeReg(), label); } void MacroAssembler::branchTestInt32Truthy(bool b, const ValueOperand& value, Label* label) { ScratchRegisterScope scratch(*this); as_and(scratch, value.payloadReg(), value.payloadReg()); 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) ? Below : AboveOrEqual; ma_b(tag, ImmTag(JSVAL_TAG_CLEAR), label, actual); } void MacroAssembler::branchTestDouble(Condition cond, const ValueOperand& value, Label* label) { branchTestDouble(cond, value.typeReg(), label); } void MacroAssembler::branchTestNumber(Condition cond, const ValueOperand& value, Label* label) { branchTestNumber(cond, value.typeReg(), label); } void MacroAssembler::branchTestBoolean(Condition cond, const ValueOperand& value, Label* label) { MOZ_ASSERT(cond == Equal || cond == NotEqual); ma_b(value.typeReg(), ImmType(JSVAL_TYPE_BOOLEAN), label, cond); } void MacroAssembler::branchTestBooleanTruthy(bool b, const ValueOperand& value, Label* label) { ma_b(value.payloadReg(), value.payloadReg(), label, b ? NonZero : Zero); } void MacroAssembler::branchTestString(Condition cond, const ValueOperand& value, Label* label) { branchTestString(cond, value.typeReg(), label); } void MacroAssembler::branchTestStringTruthy(bool b, const ValueOperand& value, Label* label) { Register string = value.payloadReg(); SecondScratchRegisterScope scratch2(*this); ma_lw(scratch2, Address(string, JSString::offsetOfLength())); ma_b(scratch2, Imm32(0), label, b ? NotEqual : Equal); } void MacroAssembler::branchTestSymbol(Condition cond, const ValueOperand& value, Label* label) { branchTestSymbol(cond, value.typeReg(), label); } void MacroAssembler::branchTestNull(Condition cond, const ValueOperand& value, Label* label) { branchTestNull(cond, value.typeReg(), label); } void MacroAssembler::branchTestObject(Condition cond, const ValueOperand& value, Label* label) { branchTestObject(cond, value.typeReg(), label); } void MacroAssembler::branchTestPrimitive(Condition cond, const ValueOperand& value, Label* label) { branchTestPrimitive(cond, value.typeReg(), label); } template void MacroAssembler::branchTestMagic(Condition cond, const ValueOperand& value, L label) { ma_b(value.typeReg(), ImmTag(JSVAL_TAG_MAGIC), label, cond); } void MacroAssembler::branchTestMagic(Condition cond, const Address& valaddr, JSWhyMagic why, Label* label) { branchTestMagic(cond, valaddr, label); branch32(cond, ToPayload(valaddr), Imm32(why), label); } // ======================================================================== // Memory access primitives. void MacroAssembler::storeUncanonicalizedDouble(FloatRegister src, const Address& addr) { ma_sd(src, addr); } void MacroAssembler::storeUncanonicalizedDouble(FloatRegister src, const BaseIndex& addr) { MOZ_ASSERT(addr.offset == 0); ma_sd(src, addr); } void MacroAssembler::storeUncanonicalizedFloat32(FloatRegister src, const Address& addr) { ma_ss(src, addr); } void MacroAssembler::storeUncanonicalizedFloat32(FloatRegister src, const BaseIndex& addr) { MOZ_ASSERT(addr.offset == 0); ma_ss(src, addr); } // ======================================================================== // wasm support template void MacroAssembler::wasmBoundsCheck(Condition cond, Register index, L label) { BufferOffset bo = ma_BoundsCheck(ScratchRegister); append(wasm::BoundsCheck(bo.getOffset())); ma_b(index, ScratchRegister, label, cond); } void MacroAssembler::wasmPatchBoundsCheck(uint8_t* patchAt, uint32_t limit) { Instruction* inst = (Instruction*) patchAt; InstImm* i0 = (InstImm*) inst; InstImm* i1 = (InstImm*) i0->next(); // Replace with new value Assembler::UpdateLuiOriValue(i0, i1, limit); } //}}} check_macroassembler_style // =============================================================== void MacroAssemblerMIPSCompat::incrementInt32Value(const Address& addr) { asMasm().add32(Imm32(1), ToPayload(addr)); } void MacroAssemblerMIPSCompat::computeEffectiveAddress(const BaseIndex& address, Register dest) { computeScaledAddress(address, dest); if (address.offset) asMasm().addPtr(Imm32(address.offset), dest); } void MacroAssemblerMIPSCompat::retn(Imm32 n) { // pc <- [sp]; sp += n loadPtr(Address(StackPointer, 0), ra); asMasm().addPtr(n, StackPointer); as_jr(ra); as_nop(); } } // namespace jit } // namespace js #endif /* jit_mips32_MacroAssembler_mips32_inl_h */