1044 lines
29 KiB
C++
1044 lines
29 KiB
C++
// Copyright 2014 Dolphin Emulator Project
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// Licensed under GPLv2
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// Refer to the license.txt file included.
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#include <cctype>
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#include <cstring>
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#include <disasm.h> // From Bochs, fallback included in Externals.
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#include <map>
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#include <memory>
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#include <vector>
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#include <gtest/gtest.h>
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// gtest defines the TEST macro to generate test case functions. It conflicts
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// with the TEST method in the x64Emitter.
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//
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// Since we use TEST_F in this file to attach the test cases to a fixture, we
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// can get away with simply undef'ing TEST. Phew.
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#undef TEST
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#include "Common/CPUDetect.h"
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#include "Common/x64Emitter.h"
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namespace Gen
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{
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struct NamedReg
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{
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X64Reg reg;
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std::string name;
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};
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const std::vector<NamedReg> reg8names {
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{ RAX, "al" }, { RBX, "bl" }, { RCX, "cl" }, { RDX, "dl" },
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{ RSI, "sil" }, { RDI, "dil" }, { RBP, "bpl" }, { RSP, "spl" },
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{ R8, "r8b" }, { R9, "r9b" }, { R10, "r10b" }, { R11, "r11b" },
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{ R12, "r12b" }, { R13, "r13b" }, { R14, "r14b" }, { R15, "r15b" },
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};
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const std::vector<NamedReg> reg8hnames {
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{ AH, "ah" }, { BH, "bh" }, { CH, "ch" }, { DH, "dh" },
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};
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const std::vector<NamedReg> reg16names {
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{ RAX, "ax" }, { RBX, "bx" }, { RCX, "cx" }, { RDX, "dx" },
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{ RSI, "si" }, { RDI, "di" }, { RBP, "bp" }, { RSP, "sp" },
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{ R8, "r8w" }, { R9, "r9w" }, { R10, "r10w" }, { R11, "r11w" },
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{ R12, "r12w" }, { R13, "r13w" }, { R14, "r14w" }, { R15, "r15w" },
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};
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const std::vector<NamedReg> reg32names {
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{ RAX, "eax" }, { RBX, "ebx" }, { RCX, "ecx" }, { RDX, "edx" },
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{ RSI, "esi" }, { RDI, "edi" }, { RBP, "ebp" }, { RSP, "esp" },
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{ R8, "r8d" }, { R9, "r9d" }, { R10, "r10d" }, { R11, "r11d" },
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{ R12, "r12d" }, { R13, "r13d" }, { R14, "r14d" }, { R15, "r15d" },
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};
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const std::vector<NamedReg> reg64names {
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{ RAX, "rax" }, { RBX, "rbx" }, { RCX, "rcx" }, { RDX, "rdx" },
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{ RSI, "rsi" }, { RDI, "rdi" }, { RBP, "rbp" }, { RSP, "rsp" },
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{ R8, "r8" }, { R9, "r9" }, { R10, "r10" }, { R11, "r11" },
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{ R12, "r12" }, { R13, "r13" }, { R14, "r14" }, { R15, "r15" },
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};
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const std::vector<NamedReg> xmmnames {
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{ XMM0, "xmm0" }, { XMM1, "xmm1" }, { XMM2, "xmm2" }, { XMM3, "xmm3" },
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{ XMM4, "xmm4" }, { XMM5, "xmm5" }, { XMM6, "xmm6" }, { XMM7, "xmm7" },
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{ XMM8, "xmm8" }, { XMM9, "xmm9" }, { XMM10, "xmm10" }, { XMM11, "xmm11" },
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{ XMM12, "xmm12" }, { XMM13, "xmm13" }, { XMM14, "xmm14" }, { XMM15, "xmm15" },
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};
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const std::vector<NamedReg> ymmnames {
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{ YMM0, "ymm0" }, { YMM1, "ymm1" }, { YMM2, "ymm2" }, { YMM3, "ymm3" },
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{ YMM4, "ymm4" }, { YMM5, "ymm5" }, { YMM6, "ymm6" }, { YMM7, "ymm7" },
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{ YMM8, "ymm8" }, { YMM9, "ymm9" }, { YMM10, "ymm10" }, { YMM11, "ymm11" },
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{ YMM12, "ymm12" }, { YMM13, "ymm13" }, { YMM14, "ymm14" }, { YMM15, "ymm15" },
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};
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struct { CCFlags cc; std::string name; } ccnames[] = {
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{ CC_O, "o" }, { CC_NO, "no" },
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{ CC_B, "b" }, { CC_NB, "nb" },
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{ CC_Z, "z" }, { CC_NZ, "nz" },
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{ CC_BE, "be" }, { CC_NBE, "nbe" },
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{ CC_S, "s" }, { CC_NS, "ns" },
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{ CC_P, "p" }, { CC_NP, "np" },
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{ CC_L, "l" }, { CC_NL, "nl" },
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{ CC_LE, "le" }, { CC_NLE, "nle" },
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};
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class x64EmitterTest : public testing::Test
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{
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protected:
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void SetUp() override
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{
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memset(&cpu_info, 0xFF, sizeof (cpu_info));
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emitter.reset(new X64CodeBlock());
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emitter->AllocCodeSpace(4096);
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code_buffer = emitter->GetWritableCodePtr();
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disasm.reset(new disassembler);
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disasm->set_syntax_intel();
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}
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void ExpectDisassembly(const std::string& expected)
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{
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std::string disasmed;
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const u8* generated_code_iterator = code_buffer;
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while (generated_code_iterator < emitter->GetCodePtr())
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{
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char instr_buffer[1024] = "";
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generated_code_iterator += disasm->disasm64(
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(u64)generated_code_iterator,
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(u64)generated_code_iterator,
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generated_code_iterator, instr_buffer);
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disasmed += instr_buffer;
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disasmed += "\n";
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}
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auto NormalizeAssembly = [](const std::string& str) -> std::string {
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// Normalize assembly code to make it suitable for equality checks.
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// In particular:
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// * Replace all whitespace characters by a single space.
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// * Remove leading and trailing whitespaces.
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// * Lowercase everything.
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// * Remove all (0x...) addresses.
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std::string out;
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bool previous_was_space = false;
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bool inside_parens = false;
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for (auto c : str)
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{
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c = tolower(c);
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if (c == '(')
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{
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inside_parens = true;
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continue;
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}
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else if (inside_parens)
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{
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if (c == ')')
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inside_parens = false;
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continue;
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}
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else if (isspace(c))
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{
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previous_was_space = true;
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continue;
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}
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else if (previous_was_space)
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{
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previous_was_space = false;
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if (!out.empty())
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out += ' ';
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}
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out += c;
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}
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return out;
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};
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std::string expected_norm = NormalizeAssembly(expected);
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std::string disasmed_norm = NormalizeAssembly(disasmed);
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EXPECT_EQ(expected_norm, disasmed_norm);
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// Reset code buffer afterwards.
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emitter->SetCodePtr(code_buffer);
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}
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std::unique_ptr<X64CodeBlock> emitter;
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std::unique_ptr<disassembler> disasm;
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u8* code_buffer;
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};
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#define TEST_INSTR_NO_OPERANDS(Name, ExpectedDisasm) \
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TEST_F(x64EmitterTest, Name) \
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{ \
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emitter->Name(); \
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ExpectDisassembly(ExpectedDisasm); \
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}
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TEST_INSTR_NO_OPERANDS(INT3, "int3")
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TEST_INSTR_NO_OPERANDS(NOP, "nop")
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TEST_INSTR_NO_OPERANDS(PAUSE, "pause")
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TEST_INSTR_NO_OPERANDS(STC, "stc")
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TEST_INSTR_NO_OPERANDS(CLC, "clc")
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TEST_INSTR_NO_OPERANDS(CMC, "cmc")
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TEST_INSTR_NO_OPERANDS(LAHF, "lahf")
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TEST_INSTR_NO_OPERANDS(SAHF, "sahf")
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TEST_INSTR_NO_OPERANDS(PUSHF, "pushf")
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TEST_INSTR_NO_OPERANDS(POPF, "popf")
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TEST_INSTR_NO_OPERANDS(RET, "ret")
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TEST_INSTR_NO_OPERANDS(RET_FAST, "rep ret")
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TEST_INSTR_NO_OPERANDS(UD2, "ud2a")
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TEST_INSTR_NO_OPERANDS(JMPself, "jmp .-2")
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TEST_INSTR_NO_OPERANDS(LFENCE, "lfence")
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TEST_INSTR_NO_OPERANDS(MFENCE, "mfence")
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TEST_INSTR_NO_OPERANDS(SFENCE, "sfence")
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TEST_INSTR_NO_OPERANDS(CWD, "cwd")
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TEST_INSTR_NO_OPERANDS(CDQ, "cdq")
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TEST_INSTR_NO_OPERANDS(CQO, "cqo")
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TEST_INSTR_NO_OPERANDS(CBW, "cbw")
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TEST_INSTR_NO_OPERANDS(CWDE, "cwde")
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TEST_INSTR_NO_OPERANDS(CDQE, "cdqe")
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TEST_INSTR_NO_OPERANDS(XCHG_AHAL, "xchg al, ah")
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TEST_INSTR_NO_OPERANDS(FWAIT, "fwait")
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TEST_INSTR_NO_OPERANDS(FNSTSW_AX, "fnstsw ax")
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TEST_INSTR_NO_OPERANDS(RDTSC, "rdtsc")
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TEST_F(x64EmitterTest, NOP_MultiByte)
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{
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// 2 bytes is "rep nop", still a simple nop.
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emitter->NOP(2);
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ExpectDisassembly("nop");
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for (int i = 3; i <= 11; ++i)
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{
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emitter->NOP(i);
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ExpectDisassembly("multibyte nop");
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}
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// Larger NOPs are split into several NOPs.
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emitter->NOP(20);
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ExpectDisassembly("multibyte nop "
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"multibyte nop");
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}
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TEST_F(x64EmitterTest, PUSH_Register)
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{
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for (const auto& r : reg64names)
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{
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emitter->PUSH(r.reg);
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ExpectDisassembly("push " + r.name);
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}
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}
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TEST_F(x64EmitterTest, PUSH_Immediate)
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{
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emitter->PUSH(64, Imm8(0xf0));
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ExpectDisassembly("push 0xfffffffffffffff0");
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// X64 is weird like that... this pushes 2 bytes, not 8 bytes with sext.
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emitter->PUSH(64, Imm16(0xe0f0));
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ExpectDisassembly("push 0xe0f0");
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emitter->PUSH(64, Imm32(0xc0d0e0f0));
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ExpectDisassembly("push 0xffffffffc0d0e0f0");
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}
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TEST_F(x64EmitterTest, PUSH_MComplex)
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{
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emitter->PUSH(64, MComplex(RAX, RBX, SCALE_2, 4));
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ExpectDisassembly("push qword ptr ds:[rax+rbx*2+4]");
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}
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TEST_F(x64EmitterTest, POP_Register)
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{
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for (const auto& r : reg64names)
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{
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emitter->POP(r.reg);
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ExpectDisassembly("pop " + r.name);
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}
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}
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TEST_F(x64EmitterTest, JMP)
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{
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emitter->NOP(6);
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emitter->JMP(code_buffer);
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ExpectDisassembly("multibyte nop "
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"jmp .-8");
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emitter->NOP(6);
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emitter->JMP(code_buffer, true);
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ExpectDisassembly("multibyte nop "
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"jmp .-11");
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}
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TEST_F(x64EmitterTest, JMPptr_Register)
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{
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for (const auto& r : reg64names)
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{
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emitter->JMPptr(R(r.reg));
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ExpectDisassembly("jmp " + r.name);
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}
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}
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// TODO: J/SetJumpTarget
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// TODO: CALL
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// TODO: J_CC
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TEST_F(x64EmitterTest, SETcc)
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{
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for (const auto& cc : ccnames)
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{
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for (const auto& r : reg8names)
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{
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emitter->SETcc(cc.cc, R(r.reg));
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ExpectDisassembly("set" + cc.name + " " + r.name);
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}
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for (const auto& r : reg8hnames)
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{
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emitter->SETcc(cc.cc, R(r.reg));
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ExpectDisassembly("set" + cc.name + " " + r.name);
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}
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}
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}
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TEST_F(x64EmitterTest, CMOVcc_Register)
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{
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for (const auto& cc : ccnames)
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{
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emitter->CMOVcc(64, RAX, R(R12), cc.cc);
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emitter->CMOVcc(32, RAX, R(R12), cc.cc);
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emitter->CMOVcc(16, RAX, R(R12), cc.cc);
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ExpectDisassembly("cmov" + cc.name + " rax, r12 "
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"cmov" + cc.name + " eax, r12d "
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"cmov" + cc.name + " ax, r12w");
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}
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}
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#define BITSEARCH_TEST(Name) \
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TEST_F(x64EmitterTest, Name) \
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{ \
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struct { \
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int bits; \
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std::vector<NamedReg> regs; \
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std::string size; \
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std::string rax_name; \
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} regsets[] = { \
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{ 16, reg16names, "word", "ax" }, \
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{ 32, reg32names, "dword", "eax" }, \
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{ 64, reg64names, "qword", "rax" }, \
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}; \
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for (const auto& regset : regsets) \
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for (const auto& r : regset.regs) \
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{ \
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emitter->Name(regset.bits, r.reg, R(RAX)); \
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emitter->Name(regset.bits, RAX, R(r.reg)); \
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emitter->Name(regset.bits, r.reg, MatR(RAX)); \
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ExpectDisassembly(#Name " " + r.name + ", " + regset.rax_name + " " \
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#Name " " + regset.rax_name + ", " + r.name + " " \
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#Name " " + r.name + ", " + regset.size + " ptr ds:[rax] " ); \
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} \
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}
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BITSEARCH_TEST(BSR);
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BITSEARCH_TEST(BSF);
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BITSEARCH_TEST(LZCNT);
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BITSEARCH_TEST(TZCNT);
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TEST_F(x64EmitterTest, PREFETCH)
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{
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emitter->PREFETCH(XEmitter::PF_NTA, MatR(R12));
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emitter->PREFETCH(XEmitter::PF_T0, MatR(R12));
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emitter->PREFETCH(XEmitter::PF_T1, MatR(R12));
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emitter->PREFETCH(XEmitter::PF_T2, MatR(R12));
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ExpectDisassembly("prefetchnta byte ptr ds:[r12] "
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"prefetcht0 byte ptr ds:[r12] "
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"prefetcht1 byte ptr ds:[r12] "
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"prefetcht2 byte ptr ds:[r12]");
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}
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TEST_F(x64EmitterTest, MOVNTI)
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{
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emitter->MOVNTI(32, MatR(RAX), R12);
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emitter->MOVNTI(32, M(code_buffer), R12);
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emitter->MOVNTI(64, MatR(RAX), R12);
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emitter->MOVNTI(64, M(code_buffer), R12);
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ExpectDisassembly("movnti dword ptr ds:[rax], r12d "
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"movnti dword ptr ds:[rip-12], r12d "
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"movnti qword ptr ds:[rax], r12 "
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"movnti qword ptr ds:[rip-24], r12");
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}
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// Grouped together since these 3 instructions do exactly the same thing.
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TEST_F(x64EmitterTest, MOVNT_DQ_PS_PD)
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{
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for (const auto& r : xmmnames)
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{
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emitter->MOVNTDQ(MatR(RAX), r.reg);
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emitter->MOVNTPS(MatR(RAX), r.reg);
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emitter->MOVNTPD(MatR(RAX), r.reg);
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ExpectDisassembly("movntdq dqword ptr ds:[rax], " + r.name + " "
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"movntps dqword ptr ds:[rax], " + r.name + " "
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"movntpd dqword ptr ds:[rax], " + r.name);
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}
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}
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#define MUL_DIV_TEST(Name) \
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TEST_F(x64EmitterTest, Name) \
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{ \
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struct { \
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int bits; \
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std::vector<NamedReg> regs; \
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std::string out_name; \
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} regsets[] = { \
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{ 8, reg8names, "al" }, \
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{ 8, reg8hnames, "al" }, \
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{ 16, reg16names, "ax" }, \
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{ 32, reg32names, "eax" }, \
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{ 64, reg64names, "rax" }, \
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}; \
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for (const auto& regset : regsets) \
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for (const auto& r : regset.regs) \
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{ \
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emitter->Name(regset.bits, R(r.reg)); \
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ExpectDisassembly(#Name " " + regset.out_name + ", " + r.name); \
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} \
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}
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MUL_DIV_TEST(MUL)
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MUL_DIV_TEST(IMUL)
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MUL_DIV_TEST(DIV)
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MUL_DIV_TEST(IDIV)
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// TODO: More complex IMUL variants.
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#define SHIFT_TEST(Name) \
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TEST_F(x64EmitterTest, Name) \
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{ \
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struct { \
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int bits; \
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std::vector<NamedReg> regs; \
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} regsets[] = { \
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{ 8, reg8names }, \
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{ 8, reg8hnames }, \
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{ 16, reg16names }, \
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{ 32, reg32names }, \
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{ 64, reg64names }, \
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}; \
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for (const auto& regset : regsets) \
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for (const auto& r : regset.regs) \
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{ \
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emitter->Name(regset.bits, R(r.reg), Imm8(1)); \
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emitter->Name(regset.bits, R(r.reg), Imm8(4)); \
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emitter->Name(regset.bits, R(r.reg), R(CL)); \
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ExpectDisassembly(#Name " " + r.name + ", 1 " \
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#Name " " + r.name + ", 0x04 " \
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#Name " " + r.name + ", cl"); \
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} \
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}
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SHIFT_TEST(ROL)
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SHIFT_TEST(ROR)
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SHIFT_TEST(RCL)
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SHIFT_TEST(RCR)
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SHIFT_TEST(SHL)
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SHIFT_TEST(SHR)
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SHIFT_TEST(SAR)
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#define BT_TEST(Name) \
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TEST_F(x64EmitterTest, Name) \
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{ \
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struct { \
|
|
int bits; \
|
|
std::vector<NamedReg> regs; \
|
|
std::string out_name; \
|
|
std::string size; \
|
|
} regsets[] = { \
|
|
{ 16, reg16names, "ax", "word" }, \
|
|
{ 32, reg32names, "eax", "dword" }, \
|
|
{ 64, reg64names, "rax", "qword" }, \
|
|
}; \
|
|
for (const auto& regset : regsets) \
|
|
for (const auto& r : regset.regs) \
|
|
{ \
|
|
emitter->Name(regset.bits, R(r.reg), R(RAX)); \
|
|
emitter->Name(regset.bits, R(RAX), R(r.reg)); \
|
|
emitter->Name(regset.bits, R(r.reg), Imm8(0x42)); \
|
|
emitter->Name(regset.bits, MatR(R12), R(r.reg)); \
|
|
ExpectDisassembly(#Name " " + r.name + ", " + regset.out_name + " " \
|
|
#Name " " + regset.out_name + ", " + r.name + " " \
|
|
#Name " " + r.name + ", 0x42 " \
|
|
#Name " " + regset.size + " ptr ds:[r12], " + r.name); \
|
|
} \
|
|
}
|
|
|
|
BT_TEST(BT)
|
|
BT_TEST(BTS)
|
|
BT_TEST(BTR)
|
|
BT_TEST(BTC)
|
|
|
|
// TODO: LEA tests
|
|
|
|
#define ONE_OP_ARITH_TEST(Name) \
|
|
TEST_F(x64EmitterTest, Name) \
|
|
{ \
|
|
struct { \
|
|
int bits; \
|
|
std::vector<NamedReg> regs; \
|
|
std::string size; \
|
|
} regsets[] = { \
|
|
{ 8, reg8names, "byte" }, \
|
|
{ 8, reg8hnames, "byte" }, \
|
|
{ 16, reg16names, "word" }, \
|
|
{ 32, reg32names, "dword" }, \
|
|
{ 64, reg64names, "qword" }, \
|
|
}; \
|
|
for (const auto& regset : regsets) \
|
|
for (const auto& r : regset.regs) \
|
|
{ \
|
|
emitter->Name(regset.bits, R(r.reg)); \
|
|
emitter->Name(regset.bits, MatR(RAX)); \
|
|
emitter->Name(regset.bits, MatR(R12)); \
|
|
ExpectDisassembly(#Name " " + r.name + " " \
|
|
#Name " " + regset.size + " ptr ds:[rax] " \
|
|
#Name " " + regset.size + " ptr ds:[r12]"); \
|
|
} \
|
|
}
|
|
|
|
ONE_OP_ARITH_TEST(NOT)
|
|
ONE_OP_ARITH_TEST(NEG)
|
|
|
|
#define TWO_OP_ARITH_TEST(Name) \
|
|
TEST_F(x64EmitterTest, Name) \
|
|
{ \
|
|
struct { \
|
|
int bits; \
|
|
std::vector<NamedReg> regs; \
|
|
std::string size; \
|
|
std::string rax_name; \
|
|
Gen::OpArg imm; \
|
|
std::string immname; \
|
|
} regsets[] = { \
|
|
{ 8, reg8names, "byte", "al", Imm8(0xEF), "0xef" }, \
|
|
{ 8, reg8hnames, "byte", "al", Imm8(0xEF), "0xef" }, \
|
|
{ 16, reg16names, "word", "ax", Imm16(0xBEEF), "0xbeef" }, \
|
|
{ 32, reg32names, "dword", "eax", Imm32(0xDEADBEEF), "0xdeadbeef" }, \
|
|
{ 64, reg64names, "qword", "rax", Imm32(0xDEADBEEF), "0xffffffffdeadbeef" }, \
|
|
}; \
|
|
for (const auto& regset : regsets) \
|
|
for (const auto& r : regset.regs) \
|
|
{ \
|
|
emitter->Name(regset.bits, R(r.reg), R(RAX)); \
|
|
emitter->Name(regset.bits, R(RAX), R(r.reg)); \
|
|
emitter->Name(regset.bits, R(r.reg), MatR(RAX)); \
|
|
emitter->Name(regset.bits, MatR(RAX), R(r.reg)); \
|
|
emitter->Name(regset.bits, R(r.reg), regset.imm); \
|
|
ExpectDisassembly(#Name " " + r.name + ", " + regset.rax_name + " " \
|
|
#Name " " + regset.rax_name + ", " + r.name + " " \
|
|
#Name " " + r.name + ", " + regset.size + " ptr ds:[rax] " \
|
|
#Name " " + regset.size + " ptr ds:[rax], " + r.name + " " \
|
|
#Name " " + r.name + ", " + regset.immname ); \
|
|
} \
|
|
}
|
|
|
|
TWO_OP_ARITH_TEST(ADD)
|
|
TWO_OP_ARITH_TEST(ADC)
|
|
TWO_OP_ARITH_TEST(SUB)
|
|
TWO_OP_ARITH_TEST(SBB)
|
|
TWO_OP_ARITH_TEST(AND)
|
|
TWO_OP_ARITH_TEST(CMP)
|
|
TWO_OP_ARITH_TEST(OR)
|
|
TWO_OP_ARITH_TEST(XOR)
|
|
TWO_OP_ARITH_TEST(MOV)
|
|
|
|
// TODO: Disassembler inverts operands here.
|
|
// TWO_OP_ARITH_TEST(XCHG)
|
|
// TWO_OP_ARITH_TEST(TEST)
|
|
|
|
TEST_F(x64EmitterTest, BSWAP)
|
|
{
|
|
struct {
|
|
int bits;
|
|
std::vector<NamedReg> regs;
|
|
} regsets[] = {
|
|
{ 32, reg32names },
|
|
{ 64, reg64names },
|
|
};
|
|
for (const auto& regset : regsets)
|
|
for (const auto& r : regset.regs)
|
|
{
|
|
emitter->BSWAP(regset.bits, r.reg);
|
|
ExpectDisassembly("bswap " + r.name);
|
|
}
|
|
}
|
|
|
|
TEST_F(x64EmitterTest, MOVSX)
|
|
{
|
|
emitter->MOVSX(16, 8, RAX, R(AH));
|
|
emitter->MOVSX(32, 8, RAX, R(R12));
|
|
emitter->MOVSX(32, 16, R12, R(RBX));
|
|
emitter->MOVSX(64, 8, R12, R(RBX));
|
|
emitter->MOVSX(64, 16, RAX, R(R12));
|
|
emitter->MOVSX(64, 32, R12, R(RSP));
|
|
ExpectDisassembly("movsx ax, ah "
|
|
"movsx eax, r12b "
|
|
"movsx r12d, bx "
|
|
"movsx r12, bl "
|
|
"movsx rax, r12w "
|
|
"movsxd r12, esp");
|
|
}
|
|
|
|
TEST_F(x64EmitterTest, MOVZX)
|
|
{
|
|
emitter->MOVZX(16, 8, RAX, R(AH));
|
|
emitter->MOVZX(32, 8, R12, R(RBP));
|
|
emitter->MOVZX(64, 8, R12, R(RDI));
|
|
emitter->MOVZX(32, 16, RAX, R(R12));
|
|
emitter->MOVZX(64, 16, RCX, R(RSI));
|
|
ExpectDisassembly("movzx ax, ah "
|
|
"movzx r12d, bpl "
|
|
"movzx r12d, dil " // Generates 32 bit movzx
|
|
"movzx eax, r12w "
|
|
"movzx ecx, si");
|
|
}
|
|
|
|
TEST_F(x64EmitterTest, MOVBE)
|
|
{
|
|
emitter->MOVBE(16, RAX, MatR(R12));
|
|
emitter->MOVBE(16, MatR(RAX), R12);
|
|
emitter->MOVBE(32, RAX, MatR(R12));
|
|
emitter->MOVBE(32, MatR(RAX), R12);
|
|
emitter->MOVBE(64, RAX, MatR(R12));
|
|
emitter->MOVBE(64, MatR(RAX), R12);
|
|
ExpectDisassembly("movbe ax, word ptr ds:[r12] "
|
|
"movbe word ptr ds:[rax], r12w "
|
|
"movbe eax, dword ptr ds:[r12] "
|
|
"movbe dword ptr ds:[rax], r12d "
|
|
"movbe rax, qword ptr ds:[r12] "
|
|
"movbe qword ptr ds:[rax], r12");
|
|
}
|
|
|
|
TEST_F(x64EmitterTest, STMXCSR)
|
|
{
|
|
emitter->STMXCSR(MatR(R12));
|
|
ExpectDisassembly("stmxcsr dword ptr ds:[r12]");
|
|
}
|
|
|
|
TEST_F(x64EmitterTest, LDMXCSR)
|
|
{
|
|
emitter->LDMXCSR(MatR(R12));
|
|
ExpectDisassembly("ldmxcsr dword ptr ds:[r12]");
|
|
}
|
|
|
|
TEST_F(x64EmitterTest, FLD_FST_FSTP)
|
|
{
|
|
emitter->FLD(32, MatR(RBP));
|
|
emitter->FLD(64, MatR(RBP));
|
|
emitter->FLD(80, MatR(RBP));
|
|
|
|
emitter->FST(32, MatR(RBP));
|
|
emitter->FST(64, MatR(RBP));
|
|
// No 80 bit version of FST
|
|
|
|
emitter->FSTP(32, MatR(RBP));
|
|
emitter->FSTP(64, MatR(RBP));
|
|
emitter->FSTP(80, MatR(RBP));
|
|
|
|
ExpectDisassembly("fld dword ptr ss:[rbp] "
|
|
"fld qword ptr ss:[rbp] "
|
|
"fld tbyte ptr ss:[rbp] "
|
|
"fst dword ptr ss:[rbp] "
|
|
"fst qword ptr ss:[rbp] "
|
|
"fstp dword ptr ss:[rbp] "
|
|
"fstp qword ptr ss:[rbp] "
|
|
"fstp tbyte ptr ss:[rbp]");
|
|
}
|
|
|
|
#define TWO_OP_SSE_TEST(Name, MemBits) \
|
|
TEST_F(x64EmitterTest, Name) \
|
|
{ \
|
|
for (const auto& r1 : xmmnames) \
|
|
{ \
|
|
for (const auto& r2 : xmmnames) \
|
|
{ \
|
|
emitter->Name(r1.reg, R(r2.reg)); \
|
|
ExpectDisassembly(#Name " " + r1.name + ", " + r2.name); \
|
|
} \
|
|
emitter->Name(r1.reg, MatR(R12)); \
|
|
ExpectDisassembly(#Name " " + r1.name + ", " MemBits " ptr ds:[r12]"); \
|
|
} \
|
|
}
|
|
|
|
TWO_OP_SSE_TEST(ADDSS, "dword")
|
|
TWO_OP_SSE_TEST(SUBSS, "dword")
|
|
TWO_OP_SSE_TEST(MULSS, "dword")
|
|
TWO_OP_SSE_TEST(DIVSS, "dword")
|
|
TWO_OP_SSE_TEST(MINSS, "dword")
|
|
TWO_OP_SSE_TEST(MAXSS, "dword")
|
|
TWO_OP_SSE_TEST(SQRTSS, "dword")
|
|
TWO_OP_SSE_TEST(RSQRTSS, "dword")
|
|
|
|
TWO_OP_SSE_TEST(ADDSD, "qword")
|
|
TWO_OP_SSE_TEST(SUBSD, "qword")
|
|
TWO_OP_SSE_TEST(MULSD, "qword")
|
|
TWO_OP_SSE_TEST(DIVSD, "qword")
|
|
TWO_OP_SSE_TEST(MINSD, "qword")
|
|
TWO_OP_SSE_TEST(MAXSD, "qword")
|
|
TWO_OP_SSE_TEST(SQRTSD, "qword")
|
|
|
|
TWO_OP_SSE_TEST(ADDPS, "dqword")
|
|
TWO_OP_SSE_TEST(SUBPS, "dqword")
|
|
TWO_OP_SSE_TEST(MULPS, "dqword")
|
|
TWO_OP_SSE_TEST(DIVPS, "dqword")
|
|
TWO_OP_SSE_TEST(MINPS, "dqword")
|
|
TWO_OP_SSE_TEST(MAXPS, "dqword")
|
|
TWO_OP_SSE_TEST(SQRTPS, "dqword")
|
|
TWO_OP_SSE_TEST(RSQRTPS, "dqword")
|
|
TWO_OP_SSE_TEST(ANDPS, "dqword")
|
|
TWO_OP_SSE_TEST(ANDNPS, "dqword")
|
|
TWO_OP_SSE_TEST(ORPS, "dqword")
|
|
TWO_OP_SSE_TEST(XORPS, "dqword")
|
|
|
|
TWO_OP_SSE_TEST(ADDPD, "dqword")
|
|
TWO_OP_SSE_TEST(SUBPD, "dqword")
|
|
TWO_OP_SSE_TEST(MULPD, "dqword")
|
|
TWO_OP_SSE_TEST(DIVPD, "dqword")
|
|
TWO_OP_SSE_TEST(MINPD, "dqword")
|
|
TWO_OP_SSE_TEST(MAXPD, "dqword")
|
|
TWO_OP_SSE_TEST(SQRTPD, "dqword")
|
|
TWO_OP_SSE_TEST(ANDPD, "dqword")
|
|
TWO_OP_SSE_TEST(ANDNPD, "dqword")
|
|
TWO_OP_SSE_TEST(ORPD, "dqword")
|
|
TWO_OP_SSE_TEST(XORPD, "dqword")
|
|
|
|
TWO_OP_SSE_TEST(MOVDDUP, "qword")
|
|
|
|
TWO_OP_SSE_TEST(UNPCKLPS, "dqword")
|
|
TWO_OP_SSE_TEST(UNPCKHPS, "dqword")
|
|
TWO_OP_SSE_TEST(UNPCKLPD, "dqword")
|
|
TWO_OP_SSE_TEST(UNPCKHPD, "dqword")
|
|
|
|
TWO_OP_SSE_TEST(COMISS, "dword")
|
|
TWO_OP_SSE_TEST(UCOMISS, "dword")
|
|
TWO_OP_SSE_TEST(COMISD, "qword")
|
|
TWO_OP_SSE_TEST(UCOMISD, "qword")
|
|
|
|
// register-only instructions
|
|
#define TWO_OP_SSE_REG_TEST(Name, MemBits) \
|
|
TEST_F(x64EmitterTest, Name) \
|
|
{ \
|
|
for (const auto& r1 : xmmnames) \
|
|
{ \
|
|
for (const auto& r2 : xmmnames) \
|
|
{ \
|
|
emitter->Name(r1.reg, r2.reg); \
|
|
ExpectDisassembly(#Name " " + r1.name + ", " + r2.name); \
|
|
} \
|
|
} \
|
|
}
|
|
|
|
TWO_OP_SSE_REG_TEST(MOVHLPS, "qword")
|
|
TWO_OP_SSE_REG_TEST(MOVLHPS, "qword")
|
|
|
|
// "register + memory"-only instructions
|
|
#define TWO_OP_SSE_MEM_TEST(Name, MemBits) \
|
|
TEST_F(x64EmitterTest, Name) \
|
|
{ \
|
|
for (const auto& r1 : xmmnames) \
|
|
{ \
|
|
emitter->Name(r1.reg, MatR(R12)); \
|
|
ExpectDisassembly(#Name " " + r1.name + ", " MemBits " ptr ds:[r12]"); \
|
|
emitter->Name(MatR(R12), r1.reg); \
|
|
ExpectDisassembly(#Name " " MemBits " ptr ds:[r12], " + r1.name); \
|
|
} \
|
|
}
|
|
|
|
TWO_OP_SSE_MEM_TEST(MOVLPS, "qword")
|
|
TWO_OP_SSE_MEM_TEST(MOVHPS, "qword")
|
|
TWO_OP_SSE_MEM_TEST(MOVLPD, "qword")
|
|
TWO_OP_SSE_MEM_TEST(MOVHPD, "qword")
|
|
|
|
// TODO: CMPSS/SD
|
|
// TODO: SHUFPS/PD
|
|
// TODO: more SSE MOVs
|
|
// TODO: MOVMSK
|
|
|
|
TEST_F(x64EmitterTest, MASKMOVDQU)
|
|
{
|
|
for (const auto& r1 : xmmnames)
|
|
{
|
|
for (const auto& r2 : xmmnames)
|
|
{
|
|
emitter->MASKMOVDQU(r1.reg, r2.reg);
|
|
ExpectDisassembly("maskmovdqu " + r1.name + ", " + r2.name + ", dqword ptr ds:[rdi]");
|
|
}
|
|
}
|
|
}
|
|
|
|
TEST_F(x64EmitterTest, LDDQU)
|
|
{
|
|
for (const auto& r : xmmnames)
|
|
{
|
|
emitter->LDDQU(r.reg, MatR(R12));
|
|
ExpectDisassembly("lddqu " + r.name + ", dqword ptr ds:[r12]");
|
|
}
|
|
}
|
|
|
|
TWO_OP_SSE_TEST(CVTPS2PD, "dqword")
|
|
TWO_OP_SSE_TEST(CVTPD2PS, "dqword")
|
|
TWO_OP_SSE_TEST(CVTSS2SD, "dword")
|
|
TWO_OP_SSE_TEST(CVTSD2SS, "qword")
|
|
TWO_OP_SSE_TEST(CVTDQ2PD, "qword")
|
|
TWO_OP_SSE_TEST(CVTPD2DQ, "dqword")
|
|
TWO_OP_SSE_TEST(CVTDQ2PS, "dqword")
|
|
TWO_OP_SSE_TEST(CVTPS2DQ, "dqword")
|
|
TWO_OP_SSE_TEST(CVTTPS2DQ, "dqword")
|
|
TWO_OP_SSE_TEST(CVTTPD2DQ, "dqword")
|
|
|
|
// TODO: CVT2SI
|
|
|
|
TWO_OP_SSE_TEST(PACKSSDW, "dqword")
|
|
TWO_OP_SSE_TEST(PACKSSWB, "dqword")
|
|
TWO_OP_SSE_TEST(PACKUSDW, "dqword")
|
|
TWO_OP_SSE_TEST(PACKUSWB, "dqword")
|
|
|
|
TWO_OP_SSE_TEST(PUNPCKLBW, "dqword")
|
|
TWO_OP_SSE_TEST(PUNPCKLWD, "dqword")
|
|
TWO_OP_SSE_TEST(PUNPCKLDQ, "dqword")
|
|
TWO_OP_SSE_TEST(PUNPCKLQDQ, "dqword")
|
|
|
|
TWO_OP_SSE_TEST(PTEST, "dqword")
|
|
TWO_OP_SSE_TEST(PAND, "dqword")
|
|
TWO_OP_SSE_TEST(PANDN, "dqword")
|
|
TWO_OP_SSE_TEST(POR, "dqword")
|
|
TWO_OP_SSE_TEST(PXOR, "dqword")
|
|
TWO_OP_SSE_TEST(PADDB, "dqword")
|
|
TWO_OP_SSE_TEST(PADDW, "dqword")
|
|
TWO_OP_SSE_TEST(PADDD, "dqword")
|
|
TWO_OP_SSE_TEST(PADDQ, "dqword")
|
|
TWO_OP_SSE_TEST(PADDSB, "dqword")
|
|
TWO_OP_SSE_TEST(PADDSW, "dqword")
|
|
TWO_OP_SSE_TEST(PADDUSB, "dqword")
|
|
TWO_OP_SSE_TEST(PADDUSW, "dqword")
|
|
TWO_OP_SSE_TEST(PSUBB, "dqword")
|
|
TWO_OP_SSE_TEST(PSUBW, "dqword")
|
|
TWO_OP_SSE_TEST(PSUBD, "dqword")
|
|
TWO_OP_SSE_TEST(PSUBQ, "dqword")
|
|
TWO_OP_SSE_TEST(PSUBUSB, "dqword")
|
|
TWO_OP_SSE_TEST(PSUBUSW, "dqword")
|
|
TWO_OP_SSE_TEST(PAVGB, "dqword")
|
|
TWO_OP_SSE_TEST(PAVGW, "dqword")
|
|
TWO_OP_SSE_TEST(PCMPEQB, "dqword")
|
|
TWO_OP_SSE_TEST(PCMPEQW, "dqword")
|
|
TWO_OP_SSE_TEST(PCMPEQD, "dqword")
|
|
TWO_OP_SSE_TEST(PCMPGTB, "dqword")
|
|
TWO_OP_SSE_TEST(PCMPGTW, "dqword")
|
|
TWO_OP_SSE_TEST(PCMPGTD, "dqword")
|
|
TWO_OP_SSE_TEST(PMADDWD, "dqword")
|
|
TWO_OP_SSE_TEST(PSADBW, "dqword")
|
|
TWO_OP_SSE_TEST(PMAXSW, "dqword")
|
|
TWO_OP_SSE_TEST(PMAXUB, "dqword")
|
|
TWO_OP_SSE_TEST(PMINSW, "dqword")
|
|
TWO_OP_SSE_TEST(PMINUB, "dqword")
|
|
TWO_OP_SSE_TEST(PSHUFB, "dqword")
|
|
|
|
// TODO: PEXT/INS/SHUF/MOVMSK
|
|
|
|
TWO_OP_SSE_TEST(PMOVSXBW, "qword")
|
|
TWO_OP_SSE_TEST(PMOVSXBD, "dword")
|
|
TWO_OP_SSE_TEST(PMOVSXBQ, "word")
|
|
TWO_OP_SSE_TEST(PMOVSXWD, "qword")
|
|
TWO_OP_SSE_TEST(PMOVSXWQ, "dword")
|
|
TWO_OP_SSE_TEST(PMOVSXDQ, "qword")
|
|
|
|
TWO_OP_SSE_TEST(PMOVZXBW, "qword")
|
|
TWO_OP_SSE_TEST(PMOVZXBD, "dword")
|
|
TWO_OP_SSE_TEST(PMOVZXBQ, "word")
|
|
TWO_OP_SSE_TEST(PMOVZXWD, "qword")
|
|
TWO_OP_SSE_TEST(PMOVZXWQ, "dword")
|
|
TWO_OP_SSE_TEST(PMOVZXDQ, "qword")
|
|
|
|
// TODO: BLEND
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// TODO: AVX
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// for VEX GPR instructions that take the form op reg, r/m, reg
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#define VEX_RMR_TEST(Name) \
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TEST_F(x64EmitterTest, Name) \
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{ \
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struct { \
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int bits; \
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std::vector<NamedReg> regs; \
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std::string out_name; \
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std::string size; \
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} regsets[] = { \
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{ 32, reg32names, "eax", "dword" }, \
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{ 64, reg64names, "rax", "qword" }, \
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}; \
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for (const auto& regset : regsets) \
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for (const auto& r : regset.regs) \
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{ \
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emitter->Name(regset.bits, r.reg, R(RAX), RAX); \
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emitter->Name(regset.bits, RAX, R(r.reg), RAX); \
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emitter->Name(regset.bits, RAX, MatR(R12), r.reg); \
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ExpectDisassembly(#Name " " + r.name + ", " + regset.out_name + ", " + regset.out_name + " " \
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#Name " " + regset.out_name + ", " + r.name + ", " + regset.out_name + " " \
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#Name " " + regset.out_name + ", " + regset.size + " ptr ds:[r12], " + r.name + " "); \
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} \
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}
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VEX_RMR_TEST(SHRX)
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VEX_RMR_TEST(SARX)
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VEX_RMR_TEST(SHLX)
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VEX_RMR_TEST(BEXTR)
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VEX_RMR_TEST(BZHI)
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// for VEX GPR instructions that take the form op reg, reg, r/m
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#define VEX_RRM_TEST(Name) \
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TEST_F(x64EmitterTest, Name) \
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{ \
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struct { \
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int bits; \
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std::vector<NamedReg> regs; \
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std::string out_name; \
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std::string size; \
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} regsets[] = { \
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{ 32, reg32names, "eax", "dword" }, \
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{ 64, reg64names, "rax", "qword" }, \
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}; \
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for (const auto& regset : regsets) \
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for (const auto& r : regset.regs) \
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{ \
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emitter->Name(regset.bits, r.reg, RAX, R(RAX)); \
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emitter->Name(regset.bits, RAX, RAX, R(r.reg)); \
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emitter->Name(regset.bits, RAX, r.reg, MatR(R12)); \
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ExpectDisassembly(#Name " " + r.name+ ", " + regset.out_name + ", " + regset.out_name + " " \
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#Name " " + regset.out_name + ", " + regset.out_name + ", " + r.name + " " \
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#Name " " + regset.out_name + ", " + r.name + ", " + regset.size + " ptr ds:[r12] "); \
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} \
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}
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VEX_RRM_TEST(PEXT)
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VEX_RRM_TEST(PDEP)
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VEX_RRM_TEST(MULX)
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VEX_RRM_TEST(ANDN)
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// for VEX GPR instructions that take the form op reg, r/m
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#define VEX_RM_TEST(Name) \
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TEST_F(x64EmitterTest, Name) \
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{ \
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struct { \
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int bits; \
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std::vector<NamedReg> regs; \
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std::string out_name; \
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std::string size; \
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} regsets[] = { \
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{ 32, reg32names, "eax", "dword" }, \
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{ 64, reg64names, "rax", "qword" }, \
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}; \
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for (const auto& regset : regsets) \
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for (const auto& r : regset.regs) \
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{ \
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emitter->Name(regset.bits, r.reg, R(RAX)); \
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emitter->Name(regset.bits, RAX, R(r.reg)); \
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emitter->Name(regset.bits, r.reg, MatR(R12)); \
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ExpectDisassembly(#Name " " + r.name+ ", " + regset.out_name + " " \
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#Name " " + regset.out_name + ", " + r.name + " " \
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#Name " " + r.name + ", " + regset.size + " ptr ds:[r12] "); \
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} \
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}
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VEX_RM_TEST(BLSR)
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VEX_RM_TEST(BLSMSK)
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VEX_RM_TEST(BLSI)
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// for VEX GPR instructions that take the form op reg, r/m, imm
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#define VEX_RMI_TEST(Name) \
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TEST_F(x64EmitterTest, Name) \
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{ \
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struct { \
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int bits; \
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std::vector<NamedReg> regs; \
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std::string out_name; \
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std::string size; \
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} regsets[] = { \
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{ 32, reg32names, "eax", "dword" }, \
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{ 64, reg64names, "rax", "qword" }, \
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}; \
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for (const auto& regset : regsets) \
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for (const auto& r : regset.regs) \
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{ \
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emitter->Name(regset.bits, r.reg, R(RAX), 4); \
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emitter->Name(regset.bits, RAX, R(r.reg), 4); \
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emitter->Name(regset.bits, r.reg, MatR(R12), 4); \
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ExpectDisassembly(#Name " " + r.name+ ", " + regset.out_name + ", 0x04 " \
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#Name " " + regset.out_name + ", " + r.name + ", 0x04 " \
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#Name " " + r.name + ", " + regset.size + " ptr ds:[r12], 0x04 "); \
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} \
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}
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VEX_RMI_TEST(RORX)
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// for AVX instructions that take the form op reg, reg, r/m
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#define AVX_RRM_TEST(Name, sizename) \
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TEST_F(x64EmitterTest, Name) \
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{ \
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struct { \
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int bits; \
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std::vector<NamedReg> regs; \
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std::string out_name; \
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std::string size; \
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} regsets[] = { \
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{ 64, xmmnames, "xmm0", sizename }, \
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}; \
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for (const auto& regset : regsets) \
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for (const auto& r : regset.regs) \
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{ \
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emitter->Name(r.reg, XMM0, R(XMM0)); \
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emitter->Name(XMM0, XMM0, R(r.reg)); \
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emitter->Name(XMM0, r.reg, MatR(R12)); \
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ExpectDisassembly(#Name " " + r.name+ ", " + regset.out_name + ", " + regset.out_name + " " \
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#Name " " + regset.out_name + ", " + regset.out_name + ", " + r.name + " " \
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#Name " " + regset.out_name + ", " + r.name + ", " + regset.size + " ptr ds:[r12] "); \
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} \
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}
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AVX_RRM_TEST(VANDPS, "dqword")
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AVX_RRM_TEST(VANDPD, "dqword")
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AVX_RRM_TEST(VANDNPS, "dqword")
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AVX_RRM_TEST(VANDNPD, "dqword")
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AVX_RRM_TEST(VORPS, "dqword")
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AVX_RRM_TEST(VORPD, "dqword")
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AVX_RRM_TEST(VXORPS, "dqword")
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AVX_RRM_TEST(VXORPD, "dqword")
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AVX_RRM_TEST(VPAND, "dqword")
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AVX_RRM_TEST(VPANDN, "dqword")
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AVX_RRM_TEST(VPOR, "dqword")
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AVX_RRM_TEST(VPXOR, "dqword")
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#define FMA_TEST(Name, P, packed) \
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AVX_RRM_TEST(Name ## 132 ## P ## S, packed ? "dqword" : "dword") \
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AVX_RRM_TEST(Name ## 213 ## P ## S, packed ? "dqword" : "dword") \
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AVX_RRM_TEST(Name ## 231 ## P ## S, packed ? "dqword" : "dword") \
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AVX_RRM_TEST(Name ## 132 ## P ## D, packed ? "dqword" : "qword") \
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AVX_RRM_TEST(Name ## 213 ## P ## D, packed ? "dqword" : "qword") \
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AVX_RRM_TEST(Name ## 231 ## P ## D, packed ? "dqword" : "qword")
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FMA_TEST(VFMADD, P, true)
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FMA_TEST(VFMADD, S, false)
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FMA_TEST(VFMSUB, P, true)
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FMA_TEST(VFMSUB, S, false)
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FMA_TEST(VFNMADD, P, true)
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FMA_TEST(VFNMADD, S, false)
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FMA_TEST(VFNMSUB, P, true)
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FMA_TEST(VFNMSUB, S, false)
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FMA_TEST(VFMADDSUB, P, true)
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FMA_TEST(VFMSUBADD, P, true)
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} // namespace Gen
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