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/*
* Copyright (C) 2015 The Android Open Source Project
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#include "assembler_mips.h"
#include <map>
#include "base/stl_util.h"
#include "utils/assembler_test.h"
#define __ GetAssembler()->
namespace art {
struct MIPSCpuRegisterCompare {
bool operator()(const mips::Register& a, const mips::Register& b) const {
return a < b;
}
};
class AssemblerMIPSTest : public AssemblerTest<mips::MipsAssembler,
mips::Register,
mips::FRegister,
uint32_t> {
public:
typedef AssemblerTest<mips::MipsAssembler, mips::Register, mips::FRegister, uint32_t> Base;
protected:
// Get the typically used name for this architecture, e.g., aarch64, x86-64, ...
std::string GetArchitectureString() OVERRIDE {
return "mips";
}
std::string GetAssemblerParameters() OVERRIDE {
return " --no-warn -32 -march=mips32r2";
}
std::string GetDisassembleParameters() OVERRIDE {
return " -D -bbinary -mmips:isa32r2";
}
void SetUpHelpers() OVERRIDE {
if (registers_.size() == 0) {
registers_.push_back(new mips::Register(mips::ZERO));
registers_.push_back(new mips::Register(mips::AT));
registers_.push_back(new mips::Register(mips::V0));
registers_.push_back(new mips::Register(mips::V1));
registers_.push_back(new mips::Register(mips::A0));
registers_.push_back(new mips::Register(mips::A1));
registers_.push_back(new mips::Register(mips::A2));
registers_.push_back(new mips::Register(mips::A3));
registers_.push_back(new mips::Register(mips::T0));
registers_.push_back(new mips::Register(mips::T1));
registers_.push_back(new mips::Register(mips::T2));
registers_.push_back(new mips::Register(mips::T3));
registers_.push_back(new mips::Register(mips::T4));
registers_.push_back(new mips::Register(mips::T5));
registers_.push_back(new mips::Register(mips::T6));
registers_.push_back(new mips::Register(mips::T7));
registers_.push_back(new mips::Register(mips::S0));
registers_.push_back(new mips::Register(mips::S1));
registers_.push_back(new mips::Register(mips::S2));
registers_.push_back(new mips::Register(mips::S3));
registers_.push_back(new mips::Register(mips::S4));
registers_.push_back(new mips::Register(mips::S5));
registers_.push_back(new mips::Register(mips::S6));
registers_.push_back(new mips::Register(mips::S7));
registers_.push_back(new mips::Register(mips::T8));
registers_.push_back(new mips::Register(mips::T9));
registers_.push_back(new mips::Register(mips::K0));
registers_.push_back(new mips::Register(mips::K1));
registers_.push_back(new mips::Register(mips::GP));
registers_.push_back(new mips::Register(mips::SP));
registers_.push_back(new mips::Register(mips::FP));
registers_.push_back(new mips::Register(mips::RA));
secondary_register_names_.emplace(mips::Register(mips::ZERO), "zero");
secondary_register_names_.emplace(mips::Register(mips::AT), "at");
secondary_register_names_.emplace(mips::Register(mips::V0), "v0");
secondary_register_names_.emplace(mips::Register(mips::V1), "v1");
secondary_register_names_.emplace(mips::Register(mips::A0), "a0");
secondary_register_names_.emplace(mips::Register(mips::A1), "a1");
secondary_register_names_.emplace(mips::Register(mips::A2), "a2");
secondary_register_names_.emplace(mips::Register(mips::A3), "a3");
secondary_register_names_.emplace(mips::Register(mips::T0), "t0");
secondary_register_names_.emplace(mips::Register(mips::T1), "t1");
secondary_register_names_.emplace(mips::Register(mips::T2), "t2");
secondary_register_names_.emplace(mips::Register(mips::T3), "t3");
secondary_register_names_.emplace(mips::Register(mips::T4), "t4");
secondary_register_names_.emplace(mips::Register(mips::T5), "t5");
secondary_register_names_.emplace(mips::Register(mips::T6), "t6");
secondary_register_names_.emplace(mips::Register(mips::T7), "t7");
secondary_register_names_.emplace(mips::Register(mips::S0), "s0");
secondary_register_names_.emplace(mips::Register(mips::S1), "s1");
secondary_register_names_.emplace(mips::Register(mips::S2), "s2");
secondary_register_names_.emplace(mips::Register(mips::S3), "s3");
secondary_register_names_.emplace(mips::Register(mips::S4), "s4");
secondary_register_names_.emplace(mips::Register(mips::S5), "s5");
secondary_register_names_.emplace(mips::Register(mips::S6), "s6");
secondary_register_names_.emplace(mips::Register(mips::S7), "s7");
secondary_register_names_.emplace(mips::Register(mips::T8), "t8");
secondary_register_names_.emplace(mips::Register(mips::T9), "t9");
secondary_register_names_.emplace(mips::Register(mips::K0), "k0");
secondary_register_names_.emplace(mips::Register(mips::K1), "k1");
secondary_register_names_.emplace(mips::Register(mips::GP), "gp");
secondary_register_names_.emplace(mips::Register(mips::SP), "sp");
secondary_register_names_.emplace(mips::Register(mips::FP), "fp");
secondary_register_names_.emplace(mips::Register(mips::RA), "ra");
fp_registers_.push_back(new mips::FRegister(mips::F0));
fp_registers_.push_back(new mips::FRegister(mips::F1));
fp_registers_.push_back(new mips::FRegister(mips::F2));
fp_registers_.push_back(new mips::FRegister(mips::F3));
fp_registers_.push_back(new mips::FRegister(mips::F4));
fp_registers_.push_back(new mips::FRegister(mips::F5));
fp_registers_.push_back(new mips::FRegister(mips::F6));
fp_registers_.push_back(new mips::FRegister(mips::F7));
fp_registers_.push_back(new mips::FRegister(mips::F8));
fp_registers_.push_back(new mips::FRegister(mips::F9));
fp_registers_.push_back(new mips::FRegister(mips::F10));
fp_registers_.push_back(new mips::FRegister(mips::F11));
fp_registers_.push_back(new mips::FRegister(mips::F12));
fp_registers_.push_back(new mips::FRegister(mips::F13));
fp_registers_.push_back(new mips::FRegister(mips::F14));
fp_registers_.push_back(new mips::FRegister(mips::F15));
fp_registers_.push_back(new mips::FRegister(mips::F16));
fp_registers_.push_back(new mips::FRegister(mips::F17));
fp_registers_.push_back(new mips::FRegister(mips::F18));
fp_registers_.push_back(new mips::FRegister(mips::F19));
fp_registers_.push_back(new mips::FRegister(mips::F20));
fp_registers_.push_back(new mips::FRegister(mips::F21));
fp_registers_.push_back(new mips::FRegister(mips::F22));
fp_registers_.push_back(new mips::FRegister(mips::F23));
fp_registers_.push_back(new mips::FRegister(mips::F24));
fp_registers_.push_back(new mips::FRegister(mips::F25));
fp_registers_.push_back(new mips::FRegister(mips::F26));
fp_registers_.push_back(new mips::FRegister(mips::F27));
fp_registers_.push_back(new mips::FRegister(mips::F28));
fp_registers_.push_back(new mips::FRegister(mips::F29));
fp_registers_.push_back(new mips::FRegister(mips::F30));
fp_registers_.push_back(new mips::FRegister(mips::F31));
}
}
void TearDown() OVERRIDE {
AssemblerTest::TearDown();
STLDeleteElements(&registers_);
STLDeleteElements(&fp_registers_);
}
std::vector<mips::Register*> GetRegisters() OVERRIDE {
return registers_;
}
std::vector<mips::FRegister*> GetFPRegisters() OVERRIDE {
return fp_registers_;
}
uint32_t CreateImmediate(int64_t imm_value) OVERRIDE {
return imm_value;
}
std::string GetSecondaryRegisterName(const mips::Register& reg) OVERRIDE {
CHECK(secondary_register_names_.find(reg) != secondary_register_names_.end());
return secondary_register_names_[reg];
}
std::string RepeatInsn(size_t count, const std::string& insn) {
std::string result;
for (; count != 0u; --count) {
result += insn;
}
return result;
}
void BranchCondOneRegHelper(void (mips::MipsAssembler::*f)(mips::Register,
mips::MipsLabel*),
std::string instr_name) {
mips::MipsLabel label;
(Base::GetAssembler()->*f)(mips::A0, &label);
constexpr size_t kAdduCount1 = 63;
for (size_t i = 0; i != kAdduCount1; ++i) {
__ Addu(mips::ZERO, mips::ZERO, mips::ZERO);
}
__ Bind(&label);
constexpr size_t kAdduCount2 = 64;
for (size_t i = 0; i != kAdduCount2; ++i) {
__ Addu(mips::ZERO, mips::ZERO, mips::ZERO);
}
(Base::GetAssembler()->*f)(mips::A1, &label);
std::string expected =
".set noreorder\n" +
instr_name + " $a0, 1f\n"
"nop\n" +
RepeatInsn(kAdduCount1, "addu $zero, $zero, $zero\n") +
"1:\n" +
RepeatInsn(kAdduCount2, "addu $zero, $zero, $zero\n") +
instr_name + " $a1, 1b\n"
"nop\n";
DriverStr(expected, instr_name);
}
void BranchCondTwoRegsHelper(void (mips::MipsAssembler::*f)(mips::Register,
mips::Register,
mips::MipsLabel*),
std::string instr_name) {
mips::MipsLabel label;
(Base::GetAssembler()->*f)(mips::A0, mips::A1, &label);
constexpr size_t kAdduCount1 = 63;
for (size_t i = 0; i != kAdduCount1; ++i) {
__ Addu(mips::ZERO, mips::ZERO, mips::ZERO);
}
__ Bind(&label);
constexpr size_t kAdduCount2 = 64;
for (size_t i = 0; i != kAdduCount2; ++i) {
__ Addu(mips::ZERO, mips::ZERO, mips::ZERO);
}
(Base::GetAssembler()->*f)(mips::A2, mips::A3, &label);
std::string expected =
".set noreorder\n" +
instr_name + " $a0, $a1, 1f\n"
"nop\n" +
RepeatInsn(kAdduCount1, "addu $zero, $zero, $zero\n") +
"1:\n" +
RepeatInsn(kAdduCount2, "addu $zero, $zero, $zero\n") +
instr_name + " $a2, $a3, 1b\n"
"nop\n";
DriverStr(expected, instr_name);
}
private:
std::vector<mips::Register*> registers_;
std::map<mips::Register, std::string, MIPSCpuRegisterCompare> secondary_register_names_;
std::vector<mips::FRegister*> fp_registers_;
};
TEST_F(AssemblerMIPSTest, Toolchain) {
EXPECT_TRUE(CheckTools());
}
TEST_F(AssemblerMIPSTest, Addu) {
DriverStr(RepeatRRR(&mips::MipsAssembler::Addu, "addu ${reg1}, ${reg2}, ${reg3}"), "Addu");
}
TEST_F(AssemblerMIPSTest, Addiu) {
DriverStr(RepeatRRIb(&mips::MipsAssembler::Addiu, -16, "addiu ${reg1}, ${reg2}, {imm}"), "Addiu");
}
TEST_F(AssemblerMIPSTest, Subu) {
DriverStr(RepeatRRR(&mips::MipsAssembler::Subu, "subu ${reg1}, ${reg2}, ${reg3}"), "Subu");
}
TEST_F(AssemblerMIPSTest, MultR2) {
DriverStr(RepeatRR(&mips::MipsAssembler::MultR2, "mult ${reg1}, ${reg2}"), "MultR2");
}
TEST_F(AssemblerMIPSTest, MultuR2) {
DriverStr(RepeatRR(&mips::MipsAssembler::MultuR2, "multu ${reg1}, ${reg2}"), "MultuR2");
}
TEST_F(AssemblerMIPSTest, DivR2Basic) {
DriverStr(RepeatRR(&mips::MipsAssembler::DivR2, "div $zero, ${reg1}, ${reg2}"), "DivR2Basic");
}
TEST_F(AssemblerMIPSTest, DivuR2Basic) {
DriverStr(RepeatRR(&mips::MipsAssembler::DivuR2, "divu $zero, ${reg1}, ${reg2}"), "DivuR2Basic");
}
TEST_F(AssemblerMIPSTest, MulR2) {
DriverStr(RepeatRRR(&mips::MipsAssembler::MulR2, "mul ${reg1}, ${reg2}, ${reg3}"), "MulR2");
}
TEST_F(AssemblerMIPSTest, DivR2) {
DriverStr(RepeatRRR(&mips::MipsAssembler::DivR2, "div $zero, ${reg2}, ${reg3}\nmflo ${reg1}"),
"DivR2");
}
TEST_F(AssemblerMIPSTest, ModR2) {
DriverStr(RepeatRRR(&mips::MipsAssembler::ModR2, "div $zero, ${reg2}, ${reg3}\nmfhi ${reg1}"),
"ModR2");
}
TEST_F(AssemblerMIPSTest, DivuR2) {
DriverStr(RepeatRRR(&mips::MipsAssembler::DivuR2, "divu $zero, ${reg2}, ${reg3}\nmflo ${reg1}"),
"DivuR2");
}
TEST_F(AssemblerMIPSTest, ModuR2) {
DriverStr(RepeatRRR(&mips::MipsAssembler::ModuR2, "divu $zero, ${reg2}, ${reg3}\nmfhi ${reg1}"),
"ModuR2");
}
TEST_F(AssemblerMIPSTest, And) {
DriverStr(RepeatRRR(&mips::MipsAssembler::And, "and ${reg1}, ${reg2}, ${reg3}"), "And");
}
TEST_F(AssemblerMIPSTest, Andi) {
DriverStr(RepeatRRIb(&mips::MipsAssembler::Andi, 16, "andi ${reg1}, ${reg2}, {imm}"), "Andi");
}
TEST_F(AssemblerMIPSTest, Or) {
DriverStr(RepeatRRR(&mips::MipsAssembler::Or, "or ${reg1}, ${reg2}, ${reg3}"), "Or");
}
TEST_F(AssemblerMIPSTest, Ori) {
DriverStr(RepeatRRIb(&mips::MipsAssembler::Ori, 16, "ori ${reg1}, ${reg2}, {imm}"), "Ori");
}
TEST_F(AssemblerMIPSTest, Xor) {
DriverStr(RepeatRRR(&mips::MipsAssembler::Xor, "xor ${reg1}, ${reg2}, ${reg3}"), "Xor");
}
TEST_F(AssemblerMIPSTest, Xori) {
DriverStr(RepeatRRIb(&mips::MipsAssembler::Xori, 16, "xori ${reg1}, ${reg2}, {imm}"), "Xori");
}
TEST_F(AssemblerMIPSTest, Nor) {
DriverStr(RepeatRRR(&mips::MipsAssembler::Nor, "nor ${reg1}, ${reg2}, ${reg3}"), "Nor");
}
//////////
// MISC //
//////////
TEST_F(AssemblerMIPSTest, Movz) {
DriverStr(RepeatRRR(&mips::MipsAssembler::Movz, "movz ${reg1}, ${reg2}, ${reg3}"), "Movz");
}
TEST_F(AssemblerMIPSTest, Movn) {
DriverStr(RepeatRRR(&mips::MipsAssembler::Movn, "movn ${reg1}, ${reg2}, ${reg3}"), "Movn");
}
TEST_F(AssemblerMIPSTest, Seb) {
DriverStr(RepeatRR(&mips::MipsAssembler::Seb, "seb ${reg1}, ${reg2}"), "Seb");
}
TEST_F(AssemblerMIPSTest, Seh) {
DriverStr(RepeatRR(&mips::MipsAssembler::Seh, "seh ${reg1}, ${reg2}"), "Seh");
}
TEST_F(AssemblerMIPSTest, Sll) {
DriverStr(RepeatRRIb(&mips::MipsAssembler::Sll, 5, "sll ${reg1}, ${reg2}, {imm}"), "Sll");
}
TEST_F(AssemblerMIPSTest, Srl) {
DriverStr(RepeatRRIb(&mips::MipsAssembler::Srl, 5, "srl ${reg1}, ${reg2}, {imm}"), "Srl");
}
TEST_F(AssemblerMIPSTest, Sra) {
DriverStr(RepeatRRIb(&mips::MipsAssembler::Sra, 5, "sra ${reg1}, ${reg2}, {imm}"), "Sra");
}
TEST_F(AssemblerMIPSTest, Sllv) {
DriverStr(RepeatRRR(&mips::MipsAssembler::Sllv, "sllv ${reg1}, ${reg2}, ${reg3}"), "Sllv");
}
TEST_F(AssemblerMIPSTest, Srlv) {
DriverStr(RepeatRRR(&mips::MipsAssembler::Srlv, "srlv ${reg1}, ${reg2}, ${reg3}"), "Srlv");
}
TEST_F(AssemblerMIPSTest, Rotrv) {
DriverStr(RepeatRRR(&mips::MipsAssembler::Rotrv, "rotrv ${reg1}, ${reg2}, ${reg3}"), "rotrv");
}
TEST_F(AssemblerMIPSTest, Srav) {
DriverStr(RepeatRRR(&mips::MipsAssembler::Srav, "srav ${reg1}, ${reg2}, ${reg3}"), "Srav");
}
TEST_F(AssemblerMIPSTest, Ins) {
std::vector<mips::Register*> regs = GetRegisters();
WarnOnCombinations(regs.size() * regs.size() * 33 * 16);
std::string expected;
for (mips::Register* reg1 : regs) {
for (mips::Register* reg2 : regs) {
for (int32_t pos = 0; pos < 32; pos++) {
for (int32_t size = 1; pos + size <= 32; size++) {
__ Ins(*reg1, *reg2, pos, size);
std::ostringstream instr;
instr << "ins $" << *reg1 << ", $" << *reg2 << ", " << pos << ", " << size << "\n";
expected += instr.str();
}
}
}
}
DriverStr(expected, "Ins");
}
TEST_F(AssemblerMIPSTest, Ext) {
std::vector<mips::Register*> regs = GetRegisters();
WarnOnCombinations(regs.size() * regs.size() * 33 * 16);
std::string expected;
for (mips::Register* reg1 : regs) {
for (mips::Register* reg2 : regs) {
for (int32_t pos = 0; pos < 32; pos++) {
for (int32_t size = 1; pos + size <= 32; size++) {
__ Ext(*reg1, *reg2, pos, size);
std::ostringstream instr;
instr << "ext $" << *reg1 << ", $" << *reg2 << ", " << pos << ", " << size << "\n";
expected += instr.str();
}
}
}
}
DriverStr(expected, "Ext");
}
TEST_F(AssemblerMIPSTest, ClzR2) {
DriverStr(RepeatRR(&mips::MipsAssembler::ClzR2, "clz ${reg1}, ${reg2}"), "clzR2");
}
TEST_F(AssemblerMIPSTest, CloR2) {
DriverStr(RepeatRR(&mips::MipsAssembler::CloR2, "clo ${reg1}, ${reg2}"), "cloR2");
}
TEST_F(AssemblerMIPSTest, Lb) {
DriverStr(RepeatRRIb(&mips::MipsAssembler::Lb, -16, "lb ${reg1}, {imm}(${reg2})"), "Lb");
}
TEST_F(AssemblerMIPSTest, Lh) {
DriverStr(RepeatRRIb(&mips::MipsAssembler::Lh, -16, "lh ${reg1}, {imm}(${reg2})"), "Lh");
}
TEST_F(AssemblerMIPSTest, Lwl) {
DriverStr(RepeatRRIb(&mips::MipsAssembler::Lwl, -16, "lwl ${reg1}, {imm}(${reg2})"), "Lwl");
}
TEST_F(AssemblerMIPSTest, Lw) {
DriverStr(RepeatRRIb(&mips::MipsAssembler::Lw, -16, "lw ${reg1}, {imm}(${reg2})"), "Lw");
}
TEST_F(AssemblerMIPSTest, Lwr) {
DriverStr(RepeatRRIb(&mips::MipsAssembler::Lwr, -16, "lwr ${reg1}, {imm}(${reg2})"), "Lwr");
}
TEST_F(AssemblerMIPSTest, Lbu) {
DriverStr(RepeatRRIb(&mips::MipsAssembler::Lbu, -16, "lbu ${reg1}, {imm}(${reg2})"), "Lbu");
}
TEST_F(AssemblerMIPSTest, Lhu) {
DriverStr(RepeatRRIb(&mips::MipsAssembler::Lhu, -16, "lhu ${reg1}, {imm}(${reg2})"), "Lhu");
}
TEST_F(AssemblerMIPSTest, Lui) {
DriverStr(RepeatRIb(&mips::MipsAssembler::Lui, 16, "lui ${reg}, {imm}"), "Lui");
}
TEST_F(AssemblerMIPSTest, Mfhi) {
DriverStr(RepeatR(&mips::MipsAssembler::Mfhi, "mfhi ${reg}"), "Mfhi");
}
TEST_F(AssemblerMIPSTest, Mflo) {
DriverStr(RepeatR(&mips::MipsAssembler::Mflo, "mflo ${reg}"), "Mflo");
}
TEST_F(AssemblerMIPSTest, Sb) {
DriverStr(RepeatRRIb(&mips::MipsAssembler::Sb, -16, "sb ${reg1}, {imm}(${reg2})"), "Sb");
}
TEST_F(AssemblerMIPSTest, Sh) {
DriverStr(RepeatRRIb(&mips::MipsAssembler::Sh, -16, "sh ${reg1}, {imm}(${reg2})"), "Sh");
}
TEST_F(AssemblerMIPSTest, Swl) {
DriverStr(RepeatRRIb(&mips::MipsAssembler::Swl, -16, "swl ${reg1}, {imm}(${reg2})"), "Swl");
}
TEST_F(AssemblerMIPSTest, Sw) {
DriverStr(RepeatRRIb(&mips::MipsAssembler::Sw, -16, "sw ${reg1}, {imm}(${reg2})"), "Sw");
}
TEST_F(AssemblerMIPSTest, Swr) {
DriverStr(RepeatRRIb(&mips::MipsAssembler::Swr, -16, "swr ${reg1}, {imm}(${reg2})"), "Swr");
}
TEST_F(AssemblerMIPSTest, Slt) {
DriverStr(RepeatRRR(&mips::MipsAssembler::Slt, "slt ${reg1}, ${reg2}, ${reg3}"), "Slt");
}
TEST_F(AssemblerMIPSTest, Sltu) {
DriverStr(RepeatRRR(&mips::MipsAssembler::Sltu, "sltu ${reg1}, ${reg2}, ${reg3}"), "Sltu");
}
TEST_F(AssemblerMIPSTest, Slti) {
DriverStr(RepeatRRIb(&mips::MipsAssembler::Slti, -16, "slti ${reg1}, ${reg2}, {imm}"), "Slti");
}
TEST_F(AssemblerMIPSTest, Sltiu) {
DriverStr(RepeatRRIb(&mips::MipsAssembler::Sltiu, -16, "sltiu ${reg1}, ${reg2}, {imm}"), "Sltiu");
}
TEST_F(AssemblerMIPSTest, AddS) {
DriverStr(RepeatFFF(&mips::MipsAssembler::AddS, "add.s ${reg1}, ${reg2}, ${reg3}"), "AddS");
}
TEST_F(AssemblerMIPSTest, AddD) {
DriverStr(RepeatFFF(&mips::MipsAssembler::AddD, "add.d ${reg1}, ${reg2}, ${reg3}"), "AddD");
}
TEST_F(AssemblerMIPSTest, SubS) {
DriverStr(RepeatFFF(&mips::MipsAssembler::SubS, "sub.s ${reg1}, ${reg2}, ${reg3}"), "SubS");
}
TEST_F(AssemblerMIPSTest, SubD) {
DriverStr(RepeatFFF(&mips::MipsAssembler::SubD, "sub.d ${reg1}, ${reg2}, ${reg3}"), "SubD");
}
TEST_F(AssemblerMIPSTest, MulS) {
DriverStr(RepeatFFF(&mips::MipsAssembler::MulS, "mul.s ${reg1}, ${reg2}, ${reg3}"), "MulS");
}
TEST_F(AssemblerMIPSTest, MulD) {
DriverStr(RepeatFFF(&mips::MipsAssembler::MulD, "mul.d ${reg1}, ${reg2}, ${reg3}"), "MulD");
}
TEST_F(AssemblerMIPSTest, DivS) {
DriverStr(RepeatFFF(&mips::MipsAssembler::DivS, "div.s ${reg1}, ${reg2}, ${reg3}"), "DivS");
}
TEST_F(AssemblerMIPSTest, DivD) {
DriverStr(RepeatFFF(&mips::MipsAssembler::DivD, "div.d ${reg1}, ${reg2}, ${reg3}"), "DivD");
}
TEST_F(AssemblerMIPSTest, MovS) {
DriverStr(RepeatFF(&mips::MipsAssembler::MovS, "mov.s ${reg1}, ${reg2}"), "MovS");
}
TEST_F(AssemblerMIPSTest, MovD) {
DriverStr(RepeatFF(&mips::MipsAssembler::MovD, "mov.d ${reg1}, ${reg2}"), "MovD");
}
TEST_F(AssemblerMIPSTest, NegS) {
DriverStr(RepeatFF(&mips::MipsAssembler::NegS, "neg.s ${reg1}, ${reg2}"), "NegS");
}
TEST_F(AssemblerMIPSTest, NegD) {
DriverStr(RepeatFF(&mips::MipsAssembler::NegD, "neg.d ${reg1}, ${reg2}"), "NegD");
}
TEST_F(AssemblerMIPSTest, CunS) {
DriverStr(RepeatIbFF(&mips::MipsAssembler::CunS, 3, "c.un.s $fcc{imm}, ${reg1}, ${reg2}"),
"CunS");
}
TEST_F(AssemblerMIPSTest, CeqS) {
DriverStr(RepeatIbFF(&mips::MipsAssembler::CeqS, 3, "c.eq.s $fcc{imm}, ${reg1}, ${reg2}"),
"CeqS");
}
TEST_F(AssemblerMIPSTest, CueqS) {
DriverStr(RepeatIbFF(&mips::MipsAssembler::CueqS, 3, "c.ueq.s $fcc{imm}, ${reg1}, ${reg2}"),
"CueqS");
}
TEST_F(AssemblerMIPSTest, ColtS) {
DriverStr(RepeatIbFF(&mips::MipsAssembler::ColtS, 3, "c.olt.s $fcc{imm}, ${reg1}, ${reg2}"),
"ColtS");
}
TEST_F(AssemblerMIPSTest, CultS) {
DriverStr(RepeatIbFF(&mips::MipsAssembler::CultS, 3, "c.ult.s $fcc{imm}, ${reg1}, ${reg2}"),
"CultS");
}
TEST_F(AssemblerMIPSTest, ColeS) {
DriverStr(RepeatIbFF(&mips::MipsAssembler::ColeS, 3, "c.ole.s $fcc{imm}, ${reg1}, ${reg2}"),
"ColeS");
}
TEST_F(AssemblerMIPSTest, CuleS) {
DriverStr(RepeatIbFF(&mips::MipsAssembler::CuleS, 3, "c.ule.s $fcc{imm}, ${reg1}, ${reg2}"),
"CuleS");
}
TEST_F(AssemblerMIPSTest, CunD) {
DriverStr(RepeatIbFF(&mips::MipsAssembler::CunD, 3, "c.un.d $fcc{imm}, ${reg1}, ${reg2}"),
"CunD");
}
TEST_F(AssemblerMIPSTest, CeqD) {
DriverStr(RepeatIbFF(&mips::MipsAssembler::CeqD, 3, "c.eq.d $fcc{imm}, ${reg1}, ${reg2}"),
"CeqD");
}
TEST_F(AssemblerMIPSTest, CueqD) {
DriverStr(RepeatIbFF(&mips::MipsAssembler::CueqD, 3, "c.ueq.d $fcc{imm}, ${reg1}, ${reg2}"),
"CueqD");
}
TEST_F(AssemblerMIPSTest, ColtD) {
DriverStr(RepeatIbFF(&mips::MipsAssembler::ColtD, 3, "c.olt.d $fcc{imm}, ${reg1}, ${reg2}"),
"ColtD");
}
TEST_F(AssemblerMIPSTest, CultD) {
DriverStr(RepeatIbFF(&mips::MipsAssembler::CultD, 3, "c.ult.d $fcc{imm}, ${reg1}, ${reg2}"),
"CultD");
}
TEST_F(AssemblerMIPSTest, ColeD) {
DriverStr(RepeatIbFF(&mips::MipsAssembler::ColeD, 3, "c.ole.d $fcc{imm}, ${reg1}, ${reg2}"),
"ColeD");
}
TEST_F(AssemblerMIPSTest, CuleD) {
DriverStr(RepeatIbFF(&mips::MipsAssembler::CuleD, 3, "c.ule.d $fcc{imm}, ${reg1}, ${reg2}"),
"CuleD");
}
TEST_F(AssemblerMIPSTest, Movf) {
DriverStr(RepeatRRIb(&mips::MipsAssembler::Movf, 3, "movf ${reg1}, ${reg2}, $fcc{imm}"), "Movf");
}
TEST_F(AssemblerMIPSTest, Movt) {
DriverStr(RepeatRRIb(&mips::MipsAssembler::Movt, 3, "movt ${reg1}, ${reg2}, $fcc{imm}"), "Movt");
}
TEST_F(AssemblerMIPSTest, CvtSW) {
DriverStr(RepeatFF(&mips::MipsAssembler::Cvtsw, "cvt.s.w ${reg1}, ${reg2}"), "CvtSW");
}
TEST_F(AssemblerMIPSTest, CvtDW) {
DriverStr(RepeatFF(&mips::MipsAssembler::Cvtdw, "cvt.d.w ${reg1}, ${reg2}"), "CvtDW");
}
TEST_F(AssemblerMIPSTest, CvtSL) {
DriverStr(RepeatFF(&mips::MipsAssembler::Cvtsl, "cvt.s.l ${reg1}, ${reg2}"), "CvtSL");
}
TEST_F(AssemblerMIPSTest, CvtDL) {
DriverStr(RepeatFF(&mips::MipsAssembler::Cvtdl, "cvt.d.l ${reg1}, ${reg2}"), "CvtDL");
}
TEST_F(AssemblerMIPSTest, CvtSD) {
DriverStr(RepeatFF(&mips::MipsAssembler::Cvtsd, "cvt.s.d ${reg1}, ${reg2}"), "CvtSD");
}
TEST_F(AssemblerMIPSTest, CvtDS) {
DriverStr(RepeatFF(&mips::MipsAssembler::Cvtds, "cvt.d.s ${reg1}, ${reg2}"), "CvtDS");
}
TEST_F(AssemblerMIPSTest, TruncWS) {
DriverStr(RepeatFF(&mips::MipsAssembler::TruncWS, "trunc.w.s ${reg1}, ${reg2}"), "TruncWS");
}
TEST_F(AssemblerMIPSTest, TruncWD) {
DriverStr(RepeatFF(&mips::MipsAssembler::TruncWD, "trunc.w.d ${reg1}, ${reg2}"), "TruncWD");
}
TEST_F(AssemblerMIPSTest, TruncLS) {
DriverStr(RepeatFF(&mips::MipsAssembler::TruncLS, "trunc.l.s ${reg1}, ${reg2}"), "TruncLS");
}
TEST_F(AssemblerMIPSTest, TruncLD) {
DriverStr(RepeatFF(&mips::MipsAssembler::TruncLD, "trunc.l.d ${reg1}, ${reg2}"), "TruncLD");
}
TEST_F(AssemblerMIPSTest, Mfc1) {
DriverStr(RepeatRF(&mips::MipsAssembler::Mfc1, "mfc1 ${reg1}, ${reg2}"), "Mfc1");
}
TEST_F(AssemblerMIPSTest, Mtc1) {
DriverStr(RepeatRF(&mips::MipsAssembler::Mtc1, "mtc1 ${reg1}, ${reg2}"), "Mtc1");
}
TEST_F(AssemblerMIPSTest, Mfhc1) {
DriverStr(RepeatRF(&mips::MipsAssembler::Mfhc1, "mfhc1 ${reg1}, ${reg2}"), "Mfhc1");
}
TEST_F(AssemblerMIPSTest, Mthc1) {
DriverStr(RepeatRF(&mips::MipsAssembler::Mthc1, "mthc1 ${reg1}, ${reg2}"), "Mthc1");
}
TEST_F(AssemblerMIPSTest, Lwc1) {
DriverStr(RepeatFRIb(&mips::MipsAssembler::Lwc1, -16, "lwc1 ${reg1}, {imm}(${reg2})"), "Lwc1");
}
TEST_F(AssemblerMIPSTest, Ldc1) {
DriverStr(RepeatFRIb(&mips::MipsAssembler::Ldc1, -16, "ldc1 ${reg1}, {imm}(${reg2})"), "Ldc1");
}
TEST_F(AssemblerMIPSTest, Swc1) {
DriverStr(RepeatFRIb(&mips::MipsAssembler::Swc1, -16, "swc1 ${reg1}, {imm}(${reg2})"), "Swc1");
}
TEST_F(AssemblerMIPSTest, Sdc1) {
DriverStr(RepeatFRIb(&mips::MipsAssembler::Sdc1, -16, "sdc1 ${reg1}, {imm}(${reg2})"), "Sdc1");
}
TEST_F(AssemblerMIPSTest, Move) {
DriverStr(RepeatRR(&mips::MipsAssembler::Move, "or ${reg1}, ${reg2}, $zero"), "Move");
}
TEST_F(AssemblerMIPSTest, Clear) {
DriverStr(RepeatR(&mips::MipsAssembler::Clear, "or ${reg}, $zero, $zero"), "Clear");
}
TEST_F(AssemblerMIPSTest, Not) {
DriverStr(RepeatRR(&mips::MipsAssembler::Not, "nor ${reg1}, ${reg2}, $zero"), "Not");
}
TEST_F(AssemblerMIPSTest, LoadFromOffset) {
__ LoadFromOffset(mips::kLoadSignedByte, mips::A0, mips::A0, 0);
__ LoadFromOffset(mips::kLoadSignedByte, mips::A0, mips::A1, 0);
__ LoadFromOffset(mips::kLoadSignedByte, mips::A0, mips::A1, 256);
__ LoadFromOffset(mips::kLoadSignedByte, mips::A0, mips::A1, 1000);
__ LoadFromOffset(mips::kLoadSignedByte, mips::A0, mips::A1, 0x8000);
__ LoadFromOffset(mips::kLoadSignedByte, mips::A0, mips::A1, 0x10000);
__ LoadFromOffset(mips::kLoadSignedByte, mips::A0, mips::A1, 0x12345678);
__ LoadFromOffset(mips::kLoadSignedByte, mips::A0, mips::A1, -256);
__ LoadFromOffset(mips::kLoadSignedByte, mips::A0, mips::A1, 0xFFFF8000);
__ LoadFromOffset(mips::kLoadSignedByte, mips::A0, mips::A1, 0xABCDEF00);
__ LoadFromOffset(mips::kLoadUnsignedByte, mips::A0, mips::A0, 0);
__ LoadFromOffset(mips::kLoadUnsignedByte, mips::A0, mips::A1, 0);
__ LoadFromOffset(mips::kLoadUnsignedByte, mips::A0, mips::A1, 256);
__ LoadFromOffset(mips::kLoadUnsignedByte, mips::A0, mips::A1, 1000);
__ LoadFromOffset(mips::kLoadUnsignedByte, mips::A0, mips::A1, 0x8000);
__ LoadFromOffset(mips::kLoadUnsignedByte, mips::A0, mips::A1, 0x10000);
__ LoadFromOffset(mips::kLoadUnsignedByte, mips::A0, mips::A1, 0x12345678);
__ LoadFromOffset(mips::kLoadUnsignedByte, mips::A0, mips::A1, -256);
__ LoadFromOffset(mips::kLoadUnsignedByte, mips::A0, mips::A1, 0xFFFF8000);
__ LoadFromOffset(mips::kLoadUnsignedByte, mips::A0, mips::A1, 0xABCDEF00);
__ LoadFromOffset(mips::kLoadSignedHalfword, mips::A0, mips::A0, 0);
__ LoadFromOffset(mips::kLoadSignedHalfword, mips::A0, mips::A1, 0);
__ LoadFromOffset(mips::kLoadSignedHalfword, mips::A0, mips::A1, 256);
__ LoadFromOffset(mips::kLoadSignedHalfword, mips::A0, mips::A1, 1000);
__ LoadFromOffset(mips::kLoadSignedHalfword, mips::A0, mips::A1, 0x8000);
__ LoadFromOffset(mips::kLoadSignedHalfword, mips::A0, mips::A1, 0x10000);
__ LoadFromOffset(mips::kLoadSignedHalfword, mips::A0, mips::A1, 0x12345678);
__ LoadFromOffset(mips::kLoadSignedHalfword, mips::A0, mips::A1, -256);
__ LoadFromOffset(mips::kLoadSignedHalfword, mips::A0, mips::A1, 0xFFFF8000);
__ LoadFromOffset(mips::kLoadSignedHalfword, mips::A0, mips::A1, 0xABCDEF00);
__ LoadFromOffset(mips::kLoadUnsignedHalfword, mips::A0, mips::A0, 0);
__ LoadFromOffset(mips::kLoadUnsignedHalfword, mips::A0, mips::A1, 0);
__ LoadFromOffset(mips::kLoadUnsignedHalfword, mips::A0, mips::A1, 256);
__ LoadFromOffset(mips::kLoadUnsignedHalfword, mips::A0, mips::A1, 1000);
__ LoadFromOffset(mips::kLoadUnsignedHalfword, mips::A0, mips::A1, 0x8000);
__ LoadFromOffset(mips::kLoadUnsignedHalfword, mips::A0, mips::A1, 0x10000);
__ LoadFromOffset(mips::kLoadUnsignedHalfword, mips::A0, mips::A1, 0x12345678);
__ LoadFromOffset(mips::kLoadUnsignedHalfword, mips::A0, mips::A1, -256);
__ LoadFromOffset(mips::kLoadUnsignedHalfword, mips::A0, mips::A1, 0xFFFF8000);
__ LoadFromOffset(mips::kLoadUnsignedHalfword, mips::A0, mips::A1, 0xABCDEF00);
__ LoadFromOffset(mips::kLoadWord, mips::A0, mips::A0, 0);
__ LoadFromOffset(mips::kLoadWord, mips::A0, mips::A1, 0);
__ LoadFromOffset(mips::kLoadWord, mips::A0, mips::A1, 256);
__ LoadFromOffset(mips::kLoadWord, mips::A0, mips::A1, 1000);
__ LoadFromOffset(mips::kLoadWord, mips::A0, mips::A1, 0x8000);
__ LoadFromOffset(mips::kLoadWord, mips::A0, mips::A1, 0x10000);
__ LoadFromOffset(mips::kLoadWord, mips::A0, mips::A1, 0x12345678);
__ LoadFromOffset(mips::kLoadWord, mips::A0, mips::A1, -256);
__ LoadFromOffset(mips::kLoadWord, mips::A0, mips::A1, 0xFFFF8000);
__ LoadFromOffset(mips::kLoadWord, mips::A0, mips::A1, 0xABCDEF00);
__ LoadFromOffset(mips::kLoadDoubleword, mips::A0, mips::A0, 0);
__ LoadFromOffset(mips::kLoadDoubleword, mips::A0, mips::A1, 0);
__ LoadFromOffset(mips::kLoadDoubleword, mips::A1, mips::A0, 0);
__ LoadFromOffset(mips::kLoadDoubleword, mips::A0, mips::A2, 0);
__ LoadFromOffset(mips::kLoadDoubleword, mips::A0, mips::A2, 256);
__ LoadFromOffset(mips::kLoadDoubleword, mips::A0, mips::A2, 1000);
__ LoadFromOffset(mips::kLoadDoubleword, mips::A0, mips::A2, 0x8000);
__ LoadFromOffset(mips::kLoadDoubleword, mips::A0, mips::A2, 0x10000);
__ LoadFromOffset(mips::kLoadDoubleword, mips::A0, mips::A2, 0x12345678);
__ LoadFromOffset(mips::kLoadDoubleword, mips::A0, mips::A2, -256);
__ LoadFromOffset(mips::kLoadDoubleword, mips::A0, mips::A2, 0xFFFF8000);
__ LoadFromOffset(mips::kLoadDoubleword, mips::A0, mips::A2, 0xABCDEF00);
const char* expected =
"lb $a0, 0($a0)\n"
"lb $a0, 0($a1)\n"
"lb $a0, 256($a1)\n"
"lb $a0, 1000($a1)\n"
"ori $at, $zero, 0x8000\n"
"addu $at, $at, $a1\n"
"lb $a0, 0($at)\n"
"lui $at, 1\n"
"addu $at, $at, $a1\n"
"lb $a0, 0($at)\n"
"lui $at, 0x1234\n"
"ori $at, 0x5678\n"
"addu $at, $at, $a1\n"
"lb $a0, 0($at)\n"
"lb $a0, -256($a1)\n"
"lb $a0, 0xFFFF8000($a1)\n"
"lui $at, 0xABCD\n"
"ori $at, 0xEF00\n"
"addu $at, $at, $a1\n"
"lb $a0, 0($at)\n"
"lbu $a0, 0($a0)\n"
"lbu $a0, 0($a1)\n"
"lbu $a0, 256($a1)\n"
"lbu $a0, 1000($a1)\n"
"ori $at, $zero, 0x8000\n"
"addu $at, $at, $a1\n"
"lbu $a0, 0($at)\n"
"lui $at, 1\n"
"addu $at, $at, $a1\n"
"lbu $a0, 0($at)\n"
"lui $at, 0x1234\n"
"ori $at, 0x5678\n"
"addu $at, $at, $a1\n"
"lbu $a0, 0($at)\n"
"lbu $a0, -256($a1)\n"
"lbu $a0, 0xFFFF8000($a1)\n"
"lui $at, 0xABCD\n"
"ori $at, 0xEF00\n"
"addu $at, $at, $a1\n"
"lbu $a0, 0($at)\n"
"lh $a0, 0($a0)\n"
"lh $a0, 0($a1)\n"
"lh $a0, 256($a1)\n"
"lh $a0, 1000($a1)\n"
"ori $at, $zero, 0x8000\n"
"addu $at, $at, $a1\n"
"lh $a0, 0($at)\n"
"lui $at, 1\n"
"addu $at, $at, $a1\n"
"lh $a0, 0($at)\n"
"lui $at, 0x1234\n"
"ori $at, 0x5678\n"
"addu $at, $at, $a1\n"
"lh $a0, 0($at)\n"
"lh $a0, -256($a1)\n"
"lh $a0, 0xFFFF8000($a1)\n"
"lui $at, 0xABCD\n"
"ori $at, 0xEF00\n"
"addu $at, $at, $a1\n"
"lh $a0, 0($at)\n"
"lhu $a0, 0($a0)\n"
"lhu $a0, 0($a1)\n"
"lhu $a0, 256($a1)\n"
"lhu $a0, 1000($a1)\n"
"ori $at, $zero, 0x8000\n"
"addu $at, $at, $a1\n"
"lhu $a0, 0($at)\n"
"lui $at, 1\n"
"addu $at, $at, $a1\n"
"lhu $a0, 0($at)\n"
"lui $at, 0x1234\n"
"ori $at, 0x5678\n"
"addu $at, $at, $a1\n"
"lhu $a0, 0($at)\n"
"lhu $a0, -256($a1)\n"
"lhu $a0, 0xFFFF8000($a1)\n"
"lui $at, 0xABCD\n"
"ori $at, 0xEF00\n"
"addu $at, $at, $a1\n"
"lhu $a0, 0($at)\n"
"lw $a0, 0($a0)\n"
"lw $a0, 0($a1)\n"
"lw $a0, 256($a1)\n"
"lw $a0, 1000($a1)\n"
"ori $at, $zero, 0x8000\n"
"addu $at, $at, $a1\n"
"lw $a0, 0($at)\n"
"lui $at, 1\n"
"addu $at, $at, $a1\n"
"lw $a0, 0($at)\n"
"lui $at, 0x1234\n"
"ori $at, 0x5678\n"
"addu $at, $at, $a1\n"
"lw $a0, 0($at)\n"
"lw $a0, -256($a1)\n"
"lw $a0, 0xFFFF8000($a1)\n"
"lui $at, 0xABCD\n"
"ori $at, 0xEF00\n"
"addu $at, $at, $a1\n"
"lw $a0, 0($at)\n"
"lw $a1, 4($a0)\n"
"lw $a0, 0($a0)\n"
"lw $a0, 0($a1)\n"
"lw $a1, 4($a1)\n"
"lw $a1, 0($a0)\n"
"lw $a2, 4($a0)\n"
"lw $a0, 0($a2)\n"
"lw $a1, 4($a2)\n"
"lw $a0, 256($a2)\n"
"lw $a1, 260($a2)\n"
"lw $a0, 1000($a2)\n"
"lw $a1, 1004($a2)\n"
"ori $at, $zero, 0x8000\n"
"addu $at, $at, $a2\n"
"lw $a0, 0($at)\n"
"lw $a1, 4($at)\n"
"lui $at, 1\n"
"addu $at, $at, $a2\n"
"lw $a0, 0($at)\n"
"lw $a1, 4($at)\n"
"lui $at, 0x1234\n"
"ori $at, 0x5678\n"
"addu $at, $at, $a2\n"
"lw $a0, 0($at)\n"
"lw $a1, 4($at)\n"
"lw $a0, -256($a2)\n"
"lw $a1, -252($a2)\n"
"lw $a0, 0xFFFF8000($a2)\n"
"lw $a1, 0xFFFF8004($a2)\n"
"lui $at, 0xABCD\n"
"ori $at, 0xEF00\n"
"addu $at, $at, $a2\n"
"lw $a0, 0($at)\n"
"lw $a1, 4($at)\n";
DriverStr(expected, "LoadFromOffset");
}
TEST_F(AssemblerMIPSTest, LoadSFromOffset) {
__ LoadSFromOffset(mips::F0, mips::A0, 0);
__ LoadSFromOffset(mips::F0, mips::A0, 4);
__ LoadSFromOffset(mips::F0, mips::A0, 256);
__ LoadSFromOffset(mips::F0, mips::A0, 0x8000);
__ LoadSFromOffset(mips::F0, mips::A0, 0x10000);
__ LoadSFromOffset(mips::F0, mips::A0, 0x12345678);
__ LoadSFromOffset(mips::F0, mips::A0, -256);
__ LoadSFromOffset(mips::F0, mips::A0, 0xFFFF8000);
__ LoadSFromOffset(mips::F0, mips::A0, 0xABCDEF00);
const char* expected =
"lwc1 $f0, 0($a0)\n"
"lwc1 $f0, 4($a0)\n"
"lwc1 $f0, 256($a0)\n"
"ori $at, $zero, 0x8000\n"
"addu $at, $at, $a0\n"
"lwc1 $f0, 0($at)\n"
"lui $at, 1\n"
"addu $at, $at, $a0\n"
"lwc1 $f0, 0($at)\n"
"lui $at, 0x1234\n"
"ori $at, 0x5678\n"
"addu $at, $at, $a0\n"
"lwc1 $f0, 0($at)\n"
"lwc1 $f0, -256($a0)\n"
"lwc1 $f0, 0xFFFF8000($a0)\n"
"lui $at, 0xABCD\n"
"ori $at, 0xEF00\n"
"addu $at, $at, $a0\n"
"lwc1 $f0, 0($at)\n";
DriverStr(expected, "LoadSFromOffset");
}
TEST_F(AssemblerMIPSTest, LoadDFromOffset) {
__ LoadDFromOffset(mips::F0, mips::A0, 0);
__ LoadDFromOffset(mips::F0, mips::A0, 4);
__ LoadDFromOffset(mips::F0, mips::A0, 256);
__ LoadDFromOffset(mips::F0, mips::A0, 0x8000);
__ LoadDFromOffset(mips::F0, mips::A0, 0x10000);
__ LoadDFromOffset(mips::F0, mips::A0, 0x12345678);
__ LoadDFromOffset(mips::F0, mips::A0, -256);
__ LoadDFromOffset(mips::F0, mips::A0, 0xFFFF8000);
__ LoadDFromOffset(mips::F0, mips::A0, 0xABCDEF00);
const char* expected =
"ldc1 $f0, 0($a0)\n"
"lwc1 $f0, 4($a0)\n"
"lwc1 $f1, 8($a0)\n"
"ldc1 $f0, 256($a0)\n"
"ori $at, $zero, 0x8000\n"
"addu $at, $at, $a0\n"
"ldc1 $f0, 0($at)\n"
"lui $at, 1\n"
"addu $at, $at, $a0\n"
"ldc1 $f0, 0($at)\n"
"lui $at, 0x1234\n"
"ori $at, 0x5678\n"
"addu $at, $at, $a0\n"
"ldc1 $f0, 0($at)\n"
"ldc1 $f0, -256($a0)\n"
"ldc1 $f0, 0xFFFF8000($a0)\n"
"lui $at, 0xABCD\n"
"ori $at, 0xEF00\n"
"addu $at, $at, $a0\n"
"ldc1 $f0, 0($at)\n";
DriverStr(expected, "LoadDFromOffset");
}
TEST_F(AssemblerMIPSTest, StoreToOffset) {
__ StoreToOffset(mips::kStoreByte, mips::A0, mips::A0, 0);
__ StoreToOffset(mips::kStoreByte, mips::A0, mips::A1, 0);
__ StoreToOffset(mips::kStoreByte, mips::A0, mips::A1, 256);
__ StoreToOffset(mips::kStoreByte, mips::A0, mips::A1, 1000);
__ StoreToOffset(mips::kStoreByte, mips::A0, mips::A1, 0x8000);
__ StoreToOffset(mips::kStoreByte, mips::A0, mips::A1, 0x10000);
__ StoreToOffset(mips::kStoreByte, mips::A0, mips::A1, 0x12345678);
__ StoreToOffset(mips::kStoreByte, mips::A0, mips::A1, -256);
__ StoreToOffset(mips::kStoreByte, mips::A0, mips::A1, 0xFFFF8000);
__ StoreToOffset(mips::kStoreByte, mips::A0, mips::A1, 0xABCDEF00);
__ StoreToOffset(mips::kStoreHalfword, mips::A0, mips::A0, 0);
__ StoreToOffset(mips::kStoreHalfword, mips::A0, mips::A1, 0);
__ StoreToOffset(mips::kStoreHalfword, mips::A0, mips::A1, 256);
__ StoreToOffset(mips::kStoreHalfword, mips::A0, mips::A1, 1000);
__ StoreToOffset(mips::kStoreHalfword, mips::A0, mips::A1, 0x8000);
__ StoreToOffset(mips::kStoreHalfword, mips::A0, mips::A1, 0x10000);
__ StoreToOffset(mips::kStoreHalfword, mips::A0, mips::A1, 0x12345678);
__ StoreToOffset(mips::kStoreHalfword, mips::A0, mips::A1, -256);
__ StoreToOffset(mips::kStoreHalfword, mips::A0, mips::A1, 0xFFFF8000);
__ StoreToOffset(mips::kStoreHalfword, mips::A0, mips::A1, 0xABCDEF00);
__ StoreToOffset(mips::kStoreWord, mips::A0, mips::A0, 0);
__ StoreToOffset(mips::kStoreWord, mips::A0, mips::A1, 0);
__ StoreToOffset(mips::kStoreWord, mips::A0, mips::A1, 256);
__ StoreToOffset(mips::kStoreWord, mips::A0, mips::A1, 1000);
__ StoreToOffset(mips::kStoreWord, mips::A0, mips::A1, 0x8000);
__ StoreToOffset(mips::kStoreWord, mips::A0, mips::A1, 0x10000);
__ StoreToOffset(mips::kStoreWord, mips::A0, mips::A1, 0x12345678);
__ StoreToOffset(mips::kStoreWord, mips::A0, mips::A1, -256);
__ StoreToOffset(mips::kStoreWord, mips::A0, mips::A1, 0xFFFF8000);
__ StoreToOffset(mips::kStoreWord, mips::A0, mips::A1, 0xABCDEF00);
__ StoreToOffset(mips::kStoreDoubleword, mips::A0, mips::A2, 0);
__ StoreToOffset(mips::kStoreDoubleword, mips::A0, mips::A2, 256);
__ StoreToOffset(mips::kStoreDoubleword, mips::A0, mips::A2, 1000);
__ StoreToOffset(mips::kStoreDoubleword, mips::A0, mips::A2, 0x8000);
__ StoreToOffset(mips::kStoreDoubleword, mips::A0, mips::A2, 0x10000);
__ StoreToOffset(mips::kStoreDoubleword, mips::A0, mips::A2, 0x12345678);
__ StoreToOffset(mips::kStoreDoubleword, mips::A0, mips::A2, -256);
__ StoreToOffset(mips::kStoreDoubleword, mips::A0, mips::A2, 0xFFFF8000);
__ StoreToOffset(mips::kStoreDoubleword, mips::A0, mips::A2, 0xABCDEF00);
const char* expected =
"sb $a0, 0($a0)\n"
"sb $a0, 0($a1)\n"
"sb $a0, 256($a1)\n"
"sb $a0, 1000($a1)\n"
"ori $at, $zero, 0x8000\n"
"addu $at, $at, $a1\n"
"sb $a0, 0($at)\n"
"lui $at, 1\n"
"addu $at, $at, $a1\n"
"sb $a0, 0($at)\n"
"lui $at, 0x1234\n"
"ori $at, 0x5678\n"
"addu $at, $at, $a1\n"
"sb $a0, 0($at)\n"
"sb $a0, -256($a1)\n"
"sb $a0, 0xFFFF8000($a1)\n"
"lui $at, 0xABCD\n"
"ori $at, 0xEF00\n"
"addu $at, $at, $a1\n"
"sb $a0, 0($at)\n"
"sh $a0, 0($a0)\n"
"sh $a0, 0($a1)\n"
"sh $a0, 256($a1)\n"
"sh $a0, 1000($a1)\n"
"ori $at, $zero, 0x8000\n"
"addu $at, $at, $a1\n"
"sh $a0, 0($at)\n"
"lui $at, 1\n"
"addu $at, $at, $a1\n"
"sh $a0, 0($at)\n"
"lui $at, 0x1234\n"
"ori $at, 0x5678\n"
"addu $at, $at, $a1\n"
"sh $a0, 0($at)\n"
"sh $a0, -256($a1)\n"
"sh $a0, 0xFFFF8000($a1)\n"
"lui $at, 0xABCD\n"
"ori $at, 0xEF00\n"
"addu $at, $at, $a1\n"
"sh $a0, 0($at)\n"
"sw $a0, 0($a0)\n"
"sw $a0, 0($a1)\n"
"sw $a0, 256($a1)\n"
"sw $a0, 1000($a1)\n"
"ori $at, $zero, 0x8000\n"
"addu $at, $at, $a1\n"
"sw $a0, 0($at)\n"
"lui $at, 1\n"
"addu $at, $at, $a1\n"
"sw $a0, 0($at)\n"
"lui $at, 0x1234\n"
"ori $at, 0x5678\n"
"addu $at, $at, $a1\n"
"sw $a0, 0($at)\n"
"sw $a0, -256($a1)\n"
"sw $a0, 0xFFFF8000($a1)\n"
"lui $at, 0xABCD\n"
"ori $at, 0xEF00\n"
"addu $at, $at, $a1\n"
"sw $a0, 0($at)\n"
"sw $a0, 0($a2)\n"
"sw $a1, 4($a2)\n"
"sw $a0, 256($a2)\n"
"sw $a1, 260($a2)\n"
"sw $a0, 1000($a2)\n"
"sw $a1, 1004($a2)\n"
"ori $at, $zero, 0x8000\n"
"addu $at, $at, $a2\n"
"sw $a0, 0($at)\n"
"sw $a1, 4($at)\n"
"lui $at, 1\n"
"addu $at, $at, $a2\n"
"sw $a0, 0($at)\n"
"sw $a1, 4($at)\n"
"lui $at, 0x1234\n"
"ori $at, 0x5678\n"
"addu $at, $at, $a2\n"
"sw $a0, 0($at)\n"
"sw $a1, 4($at)\n"
"sw $a0, -256($a2)\n"
"sw $a1, -252($a2)\n"
"sw $a0, 0xFFFF8000($a2)\n"
"sw $a1, 0xFFFF8004($a2)\n"
"lui $at, 0xABCD\n"
"ori $at, 0xEF00\n"
"addu $at, $at, $a2\n"
"sw $a0, 0($at)\n"
"sw $a1, 4($at)\n";
DriverStr(expected, "StoreToOffset");
}
TEST_F(AssemblerMIPSTest, StoreSToOffset) {
__ StoreSToOffset(mips::F0, mips::A0, 0);
__ StoreSToOffset(mips::F0, mips::A0, 4);
__ StoreSToOffset(mips::F0, mips::A0, 256);
__ StoreSToOffset(mips::F0, mips::A0, 0x8000);
__ StoreSToOffset(mips::F0, mips::A0, 0x10000);
__ StoreSToOffset(mips::F0, mips::A0, 0x12345678);
__ StoreSToOffset(mips::F0, mips::A0, -256);
__ StoreSToOffset(mips::F0, mips::A0, 0xFFFF8000);
__ StoreSToOffset(mips::F0, mips::A0, 0xABCDEF00);
const char* expected =
"swc1 $f0, 0($a0)\n"
"swc1 $f0, 4($a0)\n"
"swc1 $f0, 256($a0)\n"
"ori $at, $zero, 0x8000\n"
"addu $at, $at, $a0\n"
"swc1 $f0, 0($at)\n"
"lui $at, 1\n"
"addu $at, $at, $a0\n"
"swc1 $f0, 0($at)\n"
"lui $at, 0x1234\n"
"ori $at, 0x5678\n"
"addu $at, $at, $a0\n"
"swc1 $f0, 0($at)\n"
"swc1 $f0, -256($a0)\n"
"swc1 $f0, 0xFFFF8000($a0)\n"
"lui $at, 0xABCD\n"
"ori $at, 0xEF00\n"
"addu $at, $at, $a0\n"
"swc1 $f0, 0($at)\n";
DriverStr(expected, "StoreSToOffset");
}
TEST_F(AssemblerMIPSTest, StoreDToOffset) {
__ StoreDToOffset(mips::F0, mips::A0, 0);
__ StoreDToOffset(mips::F0, mips::A0, 4);
__ StoreDToOffset(mips::F0, mips::A0, 256);
__ StoreDToOffset(mips::F0, mips::A0, 0x8000);
__ StoreDToOffset(mips::F0, mips::A0, 0x10000);
__ StoreDToOffset(mips::F0, mips::A0, 0x12345678);
__ StoreDToOffset(mips::F0, mips::A0, -256);
__ StoreDToOffset(mips::F0, mips::A0, 0xFFFF8000);
__ StoreDToOffset(mips::F0, mips::A0, 0xABCDEF00);
const char* expected =
"sdc1 $f0, 0($a0)\n"
"swc1 $f0, 4($a0)\n"
"swc1 $f1, 8($a0)\n"
"sdc1 $f0, 256($a0)\n"
"ori $at, $zero, 0x8000\n"
"addu $at, $at, $a0\n"
"sdc1 $f0, 0($at)\n"
"lui $at, 1\n"
"addu $at, $at, $a0\n"
"sdc1 $f0, 0($at)\n"
"lui $at, 0x1234\n"
"ori $at, 0x5678\n"
"addu $at, $at, $a0\n"
"sdc1 $f0, 0($at)\n"
"sdc1 $f0, -256($a0)\n"
"sdc1 $f0, 0xFFFF8000($a0)\n"
"lui $at, 0xABCD\n"
"ori $at, 0xEF00\n"
"addu $at, $at, $a0\n"
"sdc1 $f0, 0($at)\n";
DriverStr(expected, "StoreDToOffset");
}
TEST_F(AssemblerMIPSTest, B) {
mips::MipsLabel label1, label2;
__ B(&label1);
constexpr size_t kAdduCount1 = 63;
for (size_t i = 0; i != kAdduCount1; ++i) {
__ Addu(mips::ZERO, mips::ZERO, mips::ZERO);
}
__ Bind(&label1);
__ B(&label2);
constexpr size_t kAdduCount2 = 64;
for (size_t i = 0; i != kAdduCount2; ++i) {
__ Addu(mips::ZERO, mips::ZERO, mips::ZERO);
}
__ Bind(&label2);
__ B(&label1);
std::string expected =
".set noreorder\n"
"b 1f\n"
"nop\n" +
RepeatInsn(kAdduCount1, "addu $zero, $zero, $zero\n") +
"1:\n"
"b 2f\n"
"nop\n" +
RepeatInsn(kAdduCount2, "addu $zero, $zero, $zero\n") +
"2:\n"
"b 1b\n"
"nop\n";
DriverStr(expected, "B");
}
TEST_F(AssemblerMIPSTest, Beq) {
BranchCondTwoRegsHelper(&mips::MipsAssembler::Beq, "Beq");
}
TEST_F(AssemblerMIPSTest, Bne) {
BranchCondTwoRegsHelper(&mips::MipsAssembler::Bne, "Bne");
}
TEST_F(AssemblerMIPSTest, Beqz) {
mips::MipsLabel label;
__ Beqz(mips::A0, &label);
constexpr size_t kAdduCount1 = 63;
for (size_t i = 0; i != kAdduCount1; ++i) {
__ Addu(mips::ZERO, mips::ZERO, mips::ZERO);
}
__ Bind(&label);
constexpr size_t kAdduCount2 = 64;
for (size_t i = 0; i != kAdduCount2; ++i) {
__ Addu(mips::ZERO, mips::ZERO, mips::ZERO);
}
__ Beqz(mips::A1, &label);
std::string expected =
".set noreorder\n"
"beq $zero, $a0, 1f\n"
"nop\n" +
RepeatInsn(kAdduCount1, "addu $zero, $zero, $zero\n") +
"1:\n" +
RepeatInsn(kAdduCount2, "addu $zero, $zero, $zero\n") +
"beq $zero, $a1, 1b\n"
"nop\n";
DriverStr(expected, "Beqz");
}
TEST_F(AssemblerMIPSTest, Bnez) {
mips::MipsLabel label;
__ Bnez(mips::A0, &label);
constexpr size_t kAdduCount1 = 63;
for (size_t i = 0; i != kAdduCount1; ++i) {
__ Addu(mips::ZERO, mips::ZERO, mips::ZERO);
}
__ Bind(&label);
constexpr size_t kAdduCount2 = 64;
for (size_t i = 0; i != kAdduCount2; ++i) {
__ Addu(mips::ZERO, mips::ZERO, mips::ZERO);
}
__ Bnez(mips::A1, &label);
std::string expected =
".set noreorder\n"
"bne $zero, $a0, 1f\n"
"nop\n" +
RepeatInsn(kAdduCount1, "addu $zero, $zero, $zero\n") +
"1:\n" +
RepeatInsn(kAdduCount2, "addu $zero, $zero, $zero\n") +
"bne $zero, $a1, 1b\n"
"nop\n";
DriverStr(expected, "Bnez");
}
TEST_F(AssemblerMIPSTest, Bltz) {
BranchCondOneRegHelper(&mips::MipsAssembler::Bltz, "Bltz");
}
TEST_F(AssemblerMIPSTest, Bgez) {
BranchCondOneRegHelper(&mips::MipsAssembler::Bgez, "Bgez");
}
TEST_F(AssemblerMIPSTest, Blez) {
BranchCondOneRegHelper(&mips::MipsAssembler::Blez, "Blez");
}
TEST_F(AssemblerMIPSTest, Bgtz) {
BranchCondOneRegHelper(&mips::MipsAssembler::Bgtz, "Bgtz");
}
TEST_F(AssemblerMIPSTest, Blt) {
mips::MipsLabel label;
__ Blt(mips::A0, mips::A1, &label);
constexpr size_t kAdduCount1 = 63;
for (size_t i = 0; i != kAdduCount1; ++i) {
__ Addu(mips::ZERO, mips::ZERO, mips::ZERO);
}
__ Bind(&label);
constexpr size_t kAdduCount2 = 64;
for (size_t i = 0; i != kAdduCount2; ++i) {
__ Addu(mips::ZERO, mips::ZERO, mips::ZERO);
}
__ Blt(mips::A2, mips::A3, &label);
std::string expected =
".set noreorder\n"
"slt $at, $a0, $a1\n"
"bne $zero, $at, 1f\n"
"nop\n" +
RepeatInsn(kAdduCount1, "addu $zero, $zero, $zero\n") +
"1:\n" +
RepeatInsn(kAdduCount2, "addu $zero, $zero, $zero\n") +
"slt $at, $a2, $a3\n"
"bne $zero, $at, 1b\n"
"nop\n";
DriverStr(expected, "Blt");
}
TEST_F(AssemblerMIPSTest, Bge) {
mips::MipsLabel label;
__ Bge(mips::A0, mips::A1, &label);
constexpr size_t kAdduCount1 = 63;
for (size_t i = 0; i != kAdduCount1; ++i) {
__ Addu(mips::ZERO, mips::ZERO, mips::ZERO);
}
__ Bind(&label);
constexpr size_t kAdduCount2 = 64;
for (size_t i = 0; i != kAdduCount2; ++i) {
__ Addu(mips::ZERO, mips::ZERO, mips::ZERO);
}
__ Bge(mips::A2, mips::A3, &label);
std::string expected =
".set noreorder\n"
"slt $at, $a0, $a1\n"
"beq $zero, $at, 1f\n"
"nop\n" +
RepeatInsn(kAdduCount1, "addu $zero, $zero, $zero\n") +
"1:\n" +
RepeatInsn(kAdduCount2, "addu $zero, $zero, $zero\n") +
"slt $at, $a2, $a3\n"
"beq $zero, $at, 1b\n"
"nop\n";
DriverStr(expected, "Bge");
}
TEST_F(AssemblerMIPSTest, Bltu) {
mips::MipsLabel label;
__ Bltu(mips::A0, mips::A1, &label);
constexpr size_t kAdduCount1 = 63;
for (size_t i = 0; i != kAdduCount1; ++i) {
__ Addu(mips::ZERO, mips::ZERO, mips::ZERO);
}
__ Bind(&label);
constexpr size_t kAdduCount2 = 64;
for (size_t i = 0; i != kAdduCount2; ++i) {
__ Addu(mips::ZERO, mips::ZERO, mips::ZERO);
}
__ Bltu(mips::A2, mips::A3, &label);
std::string expected =
".set noreorder\n"
"sltu $at, $a0, $a1\n"
"bne $zero, $at, 1f\n"
"nop\n" +
RepeatInsn(kAdduCount1, "addu $zero, $zero, $zero\n") +
"1:\n" +
RepeatInsn(kAdduCount2, "addu $zero, $zero, $zero\n") +
"sltu $at, $a2, $a3\n"
"bne $zero, $at, 1b\n"
"nop\n";
DriverStr(expected, "Bltu");
}
TEST_F(AssemblerMIPSTest, Bgeu) {
mips::MipsLabel label;
__ Bgeu(mips::A0, mips::A1, &label);
constexpr size_t kAdduCount1 = 63;
for (size_t i = 0; i != kAdduCount1; ++i) {
__ Addu(mips::ZERO, mips::ZERO, mips::ZERO);
}
__ Bind(&label);
constexpr size_t kAdduCount2 = 64;
for (size_t i = 0; i != kAdduCount2; ++i) {
__ Addu(mips::ZERO, mips::ZERO, mips::ZERO);
}
__ Bgeu(mips::A2, mips::A3, &label);
std::string expected =
".set noreorder\n"
"sltu $at, $a0, $a1\n"
"beq $zero, $at, 1f\n"
"nop\n" +
RepeatInsn(kAdduCount1, "addu $zero, $zero, $zero\n") +
"1:\n" +
RepeatInsn(kAdduCount2, "addu $zero, $zero, $zero\n") +
"sltu $at, $a2, $a3\n"
"beq $zero, $at, 1b\n"
"nop\n";
DriverStr(expected, "Bgeu");
}
TEST_F(AssemblerMIPSTest, Bc1f) {
mips::MipsLabel label;
__ Bc1f(0, &label);
constexpr size_t kAdduCount1 = 63;
for (size_t i = 0; i != kAdduCount1; ++i) {
__ Addu(mips::ZERO, mips::ZERO, mips::ZERO);
}
__ Bind(&label);
constexpr size_t kAdduCount2 = 64;
for (size_t i = 0; i != kAdduCount2; ++i) {
__ Addu(mips::ZERO, mips::ZERO, mips::ZERO);
}
__ Bc1f(7, &label);
std::string expected =
".set noreorder\n"
"bc1f $fcc0, 1f\n"
"nop\n" +
RepeatInsn(kAdduCount1, "addu $zero, $zero, $zero\n") +
"1:\n" +
RepeatInsn(kAdduCount2, "addu $zero, $zero, $zero\n") +
"bc1f $fcc7, 1b\n"
"nop\n";
DriverStr(expected, "Bc1f");
}
TEST_F(AssemblerMIPSTest, Bc1t) {
mips::MipsLabel label;
__ Bc1t(0, &label);
constexpr size_t kAdduCount1 = 63;
for (size_t i = 0; i != kAdduCount1; ++i) {
__ Addu(mips::ZERO, mips::ZERO, mips::ZERO);
}
__ Bind(&label);
constexpr size_t kAdduCount2 = 64;
for (size_t i = 0; i != kAdduCount2; ++i) {
__ Addu(mips::ZERO, mips::ZERO, mips::ZERO);
}
__ Bc1t(7, &label);
std::string expected =
".set noreorder\n"
"bc1t $fcc0, 1f\n"
"nop\n" +
RepeatInsn(kAdduCount1, "addu $zero, $zero, $zero\n") +
"1:\n" +
RepeatInsn(kAdduCount2, "addu $zero, $zero, $zero\n") +
"bc1t $fcc7, 1b\n"
"nop\n";
DriverStr(expected, "Bc1t");
}
#undef __
} // namespace art