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#include <stdio.h>
#include <stdlib.h>
#include <stddef.h>
#include <errno.h>
#include "debug.h"
#include "box64context.h"
#include "dynarec.h"
#include "emu/x64emu_private.h"
#include "emu/x64run_private.h"
#include "x64run.h"
#include "x64emu.h"
#include "box64stack.h"
#include "callback.h"
#include "emu/x64run_private.h"
#include "x64trace.h"
#include "dynarec_native.h"
#include "my_cpuid.h"
#include "emu/x87emu_private.h"
#include "emu/x64shaext.h"
#include "arm64_printer.h"
#include "dynarec_arm64_private.h"
#include "dynarec_arm64_functions.h"
#include "dynarec_arm64_helper.h"
uintptr_t dynarec64_AVX_F3_0F(dynarec_arm_t* dyn, uintptr_t addr, uintptr_t ip, int ninst, vex_t vex, int* ok, int* need_epilog)
{
(void)ip; (void)need_epilog;
uint8_t opcode = F8;
uint8_t nextop, u8;
uint8_t gd, ed, vd;
uint8_t wback, wb1, wb2;
uint8_t eb1, eb2, gb1, gb2;
int32_t i32, i32_;
int cacheupd = 0;
int v0, v1, v2;
int q0, q1, q2;
int d0, d1, d2;
int s0;
uint64_t tmp64u, u64;
int64_t j64;
int64_t fixedaddress;
int unscaled;
MAYUSE(wb1);
MAYUSE(wb2);
MAYUSE(eb1);
MAYUSE(eb2);
MAYUSE(gb1);
MAYUSE(gb2);
MAYUSE(q0);
MAYUSE(q1);
MAYUSE(d0);
MAYUSE(d1);
MAYUSE(s0);
MAYUSE(j64);
MAYUSE(cacheupd);
rex_t rex = vex.rex;
switch(opcode) {
case 0x10:
INST_NAME("VMOVSS Gx, Ex [,Vx]");
nextop = F8;
GETG;
if(MODREG) {
GETGX_empty_VXEX(v0, v2, v1, 0);
if((v0!=v2) && (v0!=v1)) VMOVQ(v0, v2);
if(v0!=v1) VMOVeS(v0, 0, v1, 0);
if((v0!=v2) && (v0==v1)) { VMOVeS(v0, 1, v2, 1); VMOVeD(v0, 1, v2, 1);}
} else {
GETGX_empty(v0);
SMREAD();
addr = geted(dyn, addr, ninst, nextop, &ed, x1, &fixedaddress, &unscaled, 0xfff<<2, 3, rex, NULL, 0, 0);
VLD32(v0, ed, fixedaddress);
}
YMM0(gd);
break;
case 0x11:
INST_NAME("VMOVSS Ex, Gx [,Vx]");
nextop = F8;
GETG;
if(MODREG) {
GETGXVXEX_empty(v0, v2, v1, 0);
if((v2!=v1) && (v2!=v0)) VMOVQ(v2, v1);
if(v2!=v0) VMOVeS(v2, 0, v0, 0);
if((v2!=v1) && (v2==v0)) { VMOVeS(v2, 1, v0, 1); VMOVeD(v2, 1, v0, 1);}
YMM0((nextop&7)+(rex.b<<3));
} else {
v0 = sse_get_reg(dyn, ninst, x1, gd, 0);
addr = geted(dyn, addr, ninst, nextop, &ed, x1, &fixedaddress, &unscaled, 0xfff<<2, 3, rex, NULL, 0, 0);
VST32(v0, ed, fixedaddress);
SMWRITE2();
}
break;
case 0x12:
INST_NAME("VMOVSLDUP Gx, Ex");
nextop = F8;
GETEX_Y(q1, 0, 0);
GETGX_empty(q0);
VTRNQ1_32(q0, q1, q1);
if(vex.l) {
GETGY_empty_EY(q0, q1);
VTRNQ1_32(q0, q1, q1);
} else YMM0(gd);
break;
case 0x16:
INST_NAME("MOVSHDUP Gx, Ex");
nextop = F8;
GETEX_Y(q1, 0, 0);
GETGX_empty(q0);
VTRNQ2_32(q0, q1, q1);
if(vex.l) {
GETGY_empty_EY(q0, q1);
VTRNQ2_32(q0, q1, q1);
} else YMM0(gd);
break;
case 0x2A:
INST_NAME("VCVTSI2SS Gx, Vx, Ed");
nextop = F8;
d1 = fpu_get_scratch(dyn, ninst);
GETGX_empty_VX(v0, v1);
GETED(0);
if(rex.w) {
SCVTFSx(d1, ed);
} else {
SCVTFSw(d1, ed);
}
if(v0!=v1) VMOVQ(v0, v1);
VMOVeS(v0, 0, d1, 0);
YMM0(gd);
break;
case 0x2C:
INST_NAME("VCVTTSS2SI Gd, Ex");
nextop = F8;
GETGD;
GETEXSS(d0, 0, 0);
if(!box64_dynarec_fastround) {
MRS_fpsr(x5);
BFCw(x5, FPSR_IOC, 1); // reset IOC bit
MSR_fpsr(x5);
}
FCVTZSxwS(gd, d0);
if(!box64_dynarec_fastround) {
MRS_fpsr(x5); // get back FPSR to check the IOC bit
TBZ_NEXT(x5, FPSR_IOC);
if(rex.w) {
ORRx_mask(gd, xZR, 1, 1, 0); //0x8000000000000000
} else {
ORRw_mask(gd, xZR, 1, 0); //0x80000000
}
}
break;
case 0x2D:
INST_NAME("VCVTSS2SI Gd, Ex");
nextop = F8;
GETGD;
GETEXSS(q0, 0, 0);
if(!box64_dynarec_fastround) {
MRS_fpsr(x5);
BFCw(x5, FPSR_IOC, 1); // reset IOC bit
MSR_fpsr(x5);
}
u8 = sse_setround(dyn, ninst, x1, x2, x3);
d1 = fpu_get_scratch(dyn, ninst);
FRINTIS(d1, q0);
x87_restoreround(dyn, ninst, u8);
FCVTZSxwS(gd, d1);
if(!box64_dynarec_fastround) {
MRS_fpsr(x5); // get back FPSR to check the IOC bit
TBZ_NEXT(x5, FPSR_IOC);
if(rex.w) {
ORRx_mask(gd, xZR, 1, 1, 0); //0x8000000000000000
} else {
ORRw_mask(gd, xZR, 1, 0); //0x80000000
}
}
break;
case 0x51:
INST_NAME("SQRTSS Gx, Ex");
nextop = F8;
GETEXSS(d0, 0, 0);
GETGX_empty_VX(v0, v2);
d1 = fpu_get_scratch(dyn, ninst);
FSQRTS(d1, d0);
if(v0!=v2) VMOVQ(v0, v2);
VMOVeS(v0, 0, d1, 0);
YMM0(gd);
break;
case 0x52:
INST_NAME("VRSQRTSS Gx, Vx Ex");
nextop = F8;
GETGX(v0, 1);
GETVX(v2, 0);
GETEXSS(v1, 0, 0);
d0 = fpu_get_scratch(dyn, ninst);
d1 = fpu_get_scratch(dyn, ninst);
// so here: F32: Imm8 = abcd efgh that gives => aBbbbbbc defgh000 00000000 00000000
// and want 1.0f = 0x3f800000
// so 00111111 10000000 00000000 00000000
// a = 0, b = 1, c = 1, d = 1, efgh=0
// 0b01110000
FMOVS_8(d0, 0b01110000);
FSQRTS(d1, v1);
FDIVS(d0, d0, d1);
if(v0!=v2) {
VMOVQ(v0, v2);
}
VMOVeS(v0, 0, d0, 0);
YMM0(gd);
break;
case 0x58:
INST_NAME("VADDSS Gx, Vx, Ex");
nextop = F8;
d1 = fpu_get_scratch(dyn, ninst);
GETEXSS(v1, 0, 0);
GETGX_empty_VX(v0, v2);
if(v0!=v2) {
if(v0==v1) {
VMOV(d1, v1);
v1 = d1;
}
VMOVQ(v0, v2);
}
FADDS(d1, v0, v1);
VMOVeS(v0, 0, d1, 0);
YMM0(gd)
break;
case 0x59:
INST_NAME("VMULSS Gx, Vx, Ex");
nextop = F8;
d1 = fpu_get_scratch(dyn, ninst);
GETEXSS(v1, 0, 0);
GETGX_empty_VX(v0, v2);
if(v0!=v2) {
if(v0==v1) {
VMOV(d1, v1);
v1 = d1;
}
VMOVQ(v0, v2);
}
FMULS(d1, v0, v1);
VMOVeS(v0, 0, d1, 0);
YMM0(gd)
break;
case 0x5A:
INST_NAME("VCVTSS2SD Gx, Vx, Ex");
nextop = F8;
d1 = fpu_get_scratch(dyn, ninst);
GETEXSS(v1, 0, 0);
GETGX_empty_VX(v0, v2);
if(v0!=v2) {
if(v0==v1) {
VMOV(d1, v1);
v1 = d1;
}
VMOVQ(v0, v2);
}
FCVT_D_S(d1, v1);
VMOVeD(v0, 0, d1, 0);
YMM0(gd);
break;
case 0x5B:
INST_NAME("VCVTTPS2DQ Gx, Ex");
nextop = F8;
d0 = fpu_get_scratch(dyn, ninst);
if(!box64_dynarec_fastround) {
MRS_fpsr(x5);
ORRw_mask(x4, xZR, 1, 0); //0x80000000
}
for(int l=0; l<1+vex.l; ++l) {
if(!l) { GETGX_empty_EX(v0, v1, 0); } else { GETGY_empty_EY(v0, v1); }
if(box64_dynarec_fastround) {
VFCVTZSQS(v0, v1);
} else {
BFCw(x5, FPSR_IOC, 1); // reset IOC bit
MSR_fpsr(x5);
for(int i=0; i<4; ++i) {
BFCw(x5, FPSR_IOC, 1); // reset IOC bit
MSR_fpsr(x5);
VMOVeS(d0, 0, v1, i);
VFCVTZSs(d0, d0);
MRS_fpsr(x5); // get back FPSR to check the IOC bit
TBZ(x5, FPSR_IOC, 4+4);
VMOVQSfrom(d0, 0, x4);
VMOVeS(v0, i, d0, 0);
}
}
}
if(!vex.l) YMM0(gd);
break;
case 0x5C:
INST_NAME("VSUBSS Gx, Vx, Ex");
nextop = F8;
d1 = fpu_get_scratch(dyn, ninst);
GETEXSS(v1, 0, 0);
GETGX_empty_VX(v0, v2);
FSUBS(d1, v2, v1);
if(v0!=v2) {
VMOVQ(v0, v2);
}
VMOVeS(v0, 0, d1, 0);
YMM0(gd)
break;
case 0x5D:
INST_NAME("VMINSS Gx, Vx, Ex");
nextop = F8;
d1 = fpu_get_scratch(dyn, ninst);
GETEXSS(v1, 0, 0);
GETGX_empty_VX(v0, v2);
FCMPS(v2, v1);
FCSELS(d1, v1, v2, cCS);
if(v0!=v2) {
VMOVQ(v0, v2);
}
VMOVeS(v0, 0, d1, 0); // to not erase uper part
YMM0(gd)
break;
case 0x5E:
INST_NAME("VDIVSS Gx, Vx, Ex");
nextop = F8;
d1 = fpu_get_scratch(dyn, ninst);
GETEXSS(v1, 0, 0);
GETGX_empty_VX(v0, v2);
FDIVS(d1, v2, v1);
if(v0!=v2) {
VMOVQ(v0, v2);
}
VMOVeS(v0, 0, d1, 0);
YMM0(gd)
break;
case 0x5F:
INST_NAME("VMAXSS Gx, Vx, Ex");
nextop = F8;
d1 = fpu_get_scratch(dyn, ninst);
GETEXSS(v1, 0, 0);
GETGX_empty_VX(v0, v2);
FCMPS(v1, v2);
FCSELS(d1, v1, v2, cCS);
if(v0!=v2) {
VMOVQ(v0, v2);
}
VMOVeS(v0, 0, d1, 0); // to not erase uper part
YMM0(gd)
break;
case 0x6F:
INST_NAME("VMOVDQU Gx, Ex");// no alignment constraint on NEON here, so same as MOVDQA
nextop = F8;
if(MODREG) {
v1 = sse_get_reg(dyn, ninst, x1, (nextop&7)+(rex.b<<3), 0);
GETGX_empty(v0);
VMOVQ(v0, v1);
if(vex.l) {
v1 = ymm_get_reg(dyn, ninst, x1, (nextop&7)+(rex.b<<3), 0, gd, -12, -1);
GETGY_empty(v0, (nextop&7)+(rex.b<<3), -1, -1);
VMOVQ(v0, v1);
}
} else {
GETGX_empty(v0);
SMREAD();
addr = geted(dyn, addr, ninst, nextop, &ed, x1, &fixedaddress, NULL, 0xffe<<4, 15, rex, NULL, 0, 0);
VLDR128_U12(v0, ed, fixedaddress);
if(vex.l) {
GETGY_empty(v0, -1, -1, -1);
VLDR128_U12(v0, ed, fixedaddress+16);
}
}
if(!vex.l) YMM0(gd);
break;
case 0x70:
INST_NAME("VPSHUFHW Gx, Ex, Ib");
nextop = F8;
d0 = fpu_get_scratch(dyn, ninst);
for(int l=0; l<1+vex.l; ++l) {
if(!l) { GETEX(v1, 0, 1); GETGX(v0, 1); u8 = F8; } else { GETGY(v0, 1, MODREG?((nextop&7)+(rex.b<<3)):-1, -1, -1); GETEY(v1); }
if(u8==0b00000000 || u8==0b01010101 || u8==0b10101010 || u8==0b11111111) {
VDUP_16(d0, v1, 4+(u8&3));
} else {
// only high part need to be suffled. VTBL only handle 8bits value, so the 16bits suffles need to be changed in 8bits
if(!l) {
u64 = 0;
for (int i=0; i<4; ++i) {
u64 |= ((uint64_t)((u8>>(i*2))&3)*2+8)<<(i*16+0);
u64 |= ((uint64_t)((u8>>(i*2))&3)*2+9)<<(i*16+8);
}
MOV64x(x2, u64);
}
VMOVQDfrom(d0, 0, x2);
VTBL1_8(d0, v1, d0);
}
VMOVeD(v0, 1, d0, 0);
if(v0!=v1) {
VMOVeD(v0, 0, v1, 0);
}
}
if(!vex.l) YMM0(gd);
break;
case 0x7E:
INST_NAME("MOVQ Gx, Ex");
nextop = F8;
if(MODREG) {
v1 = sse_get_reg(dyn, ninst, x1, (nextop&7) + (rex.b<<3), 0);
GETGX_empty(v0);
FMOVD(v0, v1);
} else {
GETGX_empty(v0);
SMREAD();
addr = geted(dyn, addr, ninst, nextop, &ed, x1, &fixedaddress, &unscaled, 0xfff<<3, 7, rex, NULL, 0, 0);
VLD64(v0, ed, fixedaddress);
}
YMM0(gd);
break;
case 0x7F:
INST_NAME("VMOVDQU Ex, Gx");
nextop = F8;
GETGX(v0, 0);
if(MODREG) {
v1 = sse_get_reg_empty(dyn, ninst, x1, (nextop&7) + (rex.b<<3));
VMOVQ(v1, v0);
if(vex.l) {
GETGY(v0, 0, (nextop&7) + (rex.b<<3), -1, -1);
v1 = ymm_get_reg_empty(dyn, ninst, x1, (nextop&7) + (rex.b<<3), gd, -1, -1);
VMOVQ(v1, v0);
} // no ymm raz here it seems
} else {
addr = geted(dyn, addr, ninst, nextop, &ed, x1, &fixedaddress, NULL, 0xffe<<4, 15, rex, NULL, 0, 0);
VSTR128_U12(v0, ed, fixedaddress);
if(vex.l) {
GETGY(v0, 0, -1, -1, -1);
VSTR128_U12(v0, ed, fixedaddress+16);
}
SMWRITE2();
}
break;
case 0xC2:
INST_NAME("VCMPSS Gx, Vx, Ex, Ib");
nextop = F8;
GETEXSS(v1, 0, 1);
GETGX_empty_VX(v0, v2);
u8 = F8;
if(((u8&15)!=11) && ((u8&15)!=15)) {
if((u8&15)>7)
FCMPS(v1, v2);
else
FCMPS(v2, v1);
}
// TODO: create a test for this one, there might be an issue with cases 9, 10 and 13
if(v0!=v2) VMOVQ(v0, v2);
switch(u8&15) {
case 0x00: CSETMw(x2, cEQ); break; // Equal
case 0x01: CSETMw(x2, cCC); break; // Less than
case 0x02: CSETMw(x2, cLS); break; // Less or equal
case 0x03: CSETMw(x2, cVS); break; // NaN
case 0x04: CSETMw(x2, cNE); break; // Not Equal or unordered
case 0x05: CSETMw(x2, cCS); break; // Greater or equal or unordered
case 0x06: CSETMw(x2, cHI); break; // Greater or unordered
case 0x07: CSETMw(x2, cVC); break; // not NaN
case 0x08: CSETMw(x2, cEQ); CSETMw(x3, cVS); ORRw_REG(x2, x2, x3); break; // Equal or unordered
case 0x09: CSETMw(x2, cHI); break; // Less than or unordered
case 0x0a: CSETMw(x2, cCS); break; // Less or equal or unordered
case 0x0b: MOV32w(x2, 0); break; // false
case 0x0c: CSETMw(x2, cNE); CSETMw(x3, cVS); BICw(x2, x2, x3); break; // Not Equal not unordered
case 0x0d: CSETMw(x2, cLS); break; // Greater or equal not unordered
case 0x0e: CSETMw(x2, cCC); break; // Greater not unordered
case 0x0f: MOV32w(x2, 0xffffffff); break; // true
}
VMOVQSfrom(v0, 0, x2);
YMM0(gd);
break;
case 0xE6:
INST_NAME("VCVTDQ2PD Gx, Ex");
nextop = F8;
if(vex.l) {
GETEX_Y(v1, 0, 0);
} else {
GETEXSD(v1, 0, 0);
}
GETGX_empty(v0);
d0 = fpu_get_scratch(dyn, ninst);
if(vex.l) {
q0 = ymm_get_reg_empty(dyn, ninst, x1, gd, -1, -1, -1);
SXTL2_32(q0, v1);
SCVTQFD(q0, q0);
} else YMM0(gd);
SXTL_32(v0, v1);
SCVTQFD(v0, v0);
break;
default:
DEFAULT;
}
return addr;
}
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