dynarmic/externals/xbyak/test/cvt_test.cpp

125 lines
2.6 KiB
C++

#include <xbyak/xbyak.h>
using namespace Xbyak;
using namespace Xbyak::util;
#ifdef XBYAK64
const struct Ptn {
const Reg8 *reg8;
Reg16 reg16;
Reg32 reg32;
Reg64 reg64;
} tbl[] = {
{ &al, ax, eax, rax },
{ &bl, bx, ebx, rbx },
{ &cl, cx, ecx, rcx },
{ &dl, dx, edx, rdx },
{ &sil, si, esi, rsi },
{ &dil, di, edi, rdi },
{ &bpl, bp, ebp, rbp },
{ &spl, sp, esp, rsp },
{ &r8b, r8w, r8d, r8 },
{ &r9b, r9w, r9d, r9 },
{ &r10b, r10w, r10d, r10 },
{ &r11b, r11w, r11d, r11 },
{ &r12b, r12w, r12d, r12 },
{ &r13b, r13w, r13d, r13 },
{ &r14b, r14w, r14d, r14 },
{ &r15b, r15w, r15d, r15 },
};
#else
const struct Ptn {
const Reg8 *reg8;
Reg16 reg16;
Reg32 reg32;
} tbl[] = {
{ &al, ax, eax },
{ &bl, bx, ebx },
{ &cl, cx, ecx },
{ &dl, dx, edx },
{ 0, si, esi },
{ 0, di, edi },
{ 0, bp, ebp },
{ 0, sp, esp },
};
#endif
int errNum = 0;
int testNum = 0;
template<class T>
void verify(const T& x, const T& y)
{
if (x != y) {
printf("ERR %s %s\n", x.toString(), y.toString());
errNum++;
}
testNum++;
}
#define verifyExp(state) \
{ \
bool isOK = false; \
try { \
state; \
} catch (const Xbyak::Error& e) { \
if ((int)e == ERR_CANT_CONVERT) { \
isOK = true; \
} \
} \
if (!isOK) { \
printf("ERR " #state "\n"); \
errNum++; \
} \
testNum++; \
}
int main()
try
{
for (size_t i = 0; i < sizeof(tbl) / sizeof(tbl[0]); i++) {
if (tbl[i].reg8) {
verify(tbl[i].reg8->cvt8(), *tbl[i].reg8);
verify(tbl[i].reg8->cvt16(), tbl[i].reg16);
verify(tbl[i].reg8->cvt32(), tbl[i].reg32);
verify(tbl[i].reg16.cvt8(), *tbl[i].reg8);
verify(tbl[i].reg32.cvt8(), *tbl[i].reg8);
}
verify(tbl[i].reg16.cvt16(), tbl[i].reg16);
verify(tbl[i].reg16.cvt32(), tbl[i].reg32);
verify(tbl[i].reg32.cvt16(), tbl[i].reg16);
verify(tbl[i].reg32.cvt32(), tbl[i].reg32);
#ifdef XBYAK64
if (tbl[i].reg8) {
verify(tbl[i].reg64.cvt8(), *tbl[i].reg8);
verify(tbl[i].reg8->cvt64(), tbl[i].reg64);
}
verify(tbl[i].reg64.cvt16(), tbl[i].reg16);
verify(tbl[i].reg64.cvt32(), tbl[i].reg32);
verify(tbl[i].reg64.cvt64(), tbl[i].reg64);
verify(tbl[i].reg16.cvt64(), tbl[i].reg64);
verify(tbl[i].reg32.cvt64(), tbl[i].reg64);
#endif
}
{
const Reg8 errTbl[] = {
ah, bh, ch, dh
};
for (size_t i = 0; i < sizeof(errTbl) / sizeof(errTbl[0]); i++) {
verifyExp(errTbl[i].cvt16());
}
}
#ifdef XBYAK32
{
const Reg16 errTbl[] = {
si, di, bp, sp
};
for (size_t i = 0; i < sizeof(errTbl) / sizeof(errTbl[0]); i++) {
verifyExp(errTbl[i].cvt8());
}
}
#endif
printf("test=%d(err=%d)\n", testNum, errNum);
} catch (std::exception& e) {
printf("ERR %s\n", e.what());
}