target/i386: rename zext0/zext2 and make them closer to the manual

X86_SPECIAL_ZExtOp0 and X86_SPECIAL_ZExtOp2 are poorly named; they are a hack
that is needed by scalar insertion and extraction instructions, and not really
related to zero extension: for PEXTR the zero extension is done by the generation
functions, for PINSR the high bits are not used at all and in fact are *not*
filled with zeroes when loaded into s->T1.

Rename the values to match the effect described in the manual, and explain
better in the comments.

Reviewed-by: Richard Henderson <richard.henderson@linaro.org>
Signed-off-by: Paolo Bonzini <pbonzini@redhat.com>
This commit is contained in:
Paolo Bonzini 2023-10-19 23:14:34 +02:00
parent 6dd2afed55
commit 5baf5641cc
2 changed files with 21 additions and 12 deletions

View File

@ -153,8 +153,8 @@
#define xchg .special = X86_SPECIAL_Locked, #define xchg .special = X86_SPECIAL_Locked,
#define lock .special = X86_SPECIAL_HasLock, #define lock .special = X86_SPECIAL_HasLock,
#define mmx .special = X86_SPECIAL_MMX, #define mmx .special = X86_SPECIAL_MMX,
#define zext0 .special = X86_SPECIAL_ZExtOp0, #define op0_Rd .special = X86_SPECIAL_Op0_Rd,
#define zext2 .special = X86_SPECIAL_ZExtOp2, #define op2_Ry .special = X86_SPECIAL_Op2_Ry,
#define avx_movx .special = X86_SPECIAL_AVXExtMov, #define avx_movx .special = X86_SPECIAL_AVXExtMov,
#define vex1 .vex_class = 1, #define vex1 .vex_class = 1,
@ -632,13 +632,13 @@ static const X86OpEntry opcodes_0F3A[256] = {
[0x05] = X86_OP_ENTRY3(VPERMILPD_i, V,x, W,x, I,b, vex6 chk(W0) cpuid(AVX) p_66), [0x05] = X86_OP_ENTRY3(VPERMILPD_i, V,x, W,x, I,b, vex6 chk(W0) cpuid(AVX) p_66),
[0x06] = X86_OP_ENTRY4(VPERM2x128, V,qq, H,qq, W,qq, vex6 chk(W0) cpuid(AVX) p_66), [0x06] = X86_OP_ENTRY4(VPERM2x128, V,qq, H,qq, W,qq, vex6 chk(W0) cpuid(AVX) p_66),
[0x14] = X86_OP_ENTRY3(PEXTRB, E,b, V,dq, I,b, vex5 cpuid(SSE41) zext0 p_66), [0x14] = X86_OP_ENTRY3(PEXTRB, E,b, V,dq, I,b, vex5 cpuid(SSE41) op0_Rd p_66),
[0x15] = X86_OP_ENTRY3(PEXTRW, E,w, V,dq, I,b, vex5 cpuid(SSE41) zext0 p_66), [0x15] = X86_OP_ENTRY3(PEXTRW, E,w, V,dq, I,b, vex5 cpuid(SSE41) op0_Rd p_66),
[0x16] = X86_OP_ENTRY3(PEXTR, E,y, V,dq, I,b, vex5 cpuid(SSE41) p_66), [0x16] = X86_OP_ENTRY3(PEXTR, E,y, V,dq, I,b, vex5 cpuid(SSE41) p_66),
[0x17] = X86_OP_ENTRY3(VEXTRACTPS, E,d, V,dq, I,b, vex5 cpuid(SSE41) p_66), [0x17] = X86_OP_ENTRY3(VEXTRACTPS, E,d, V,dq, I,b, vex5 cpuid(SSE41) p_66),
[0x1d] = X86_OP_ENTRY3(VCVTPS2PH, W,xh, V,x, I,b, vex11 chk(W0) cpuid(F16C) p_66), [0x1d] = X86_OP_ENTRY3(VCVTPS2PH, W,xh, V,x, I,b, vex11 chk(W0) cpuid(F16C) p_66),
[0x20] = X86_OP_ENTRY4(PINSRB, V,dq, H,dq, E,b, vex5 cpuid(SSE41) zext2 p_66), [0x20] = X86_OP_ENTRY4(PINSRB, V,dq, H,dq, E,b, vex5 cpuid(SSE41) op2_Ry p_66),
[0x21] = X86_OP_GROUP0(VINSERTPS), [0x21] = X86_OP_GROUP0(VINSERTPS),
[0x22] = X86_OP_ENTRY4(PINSR, V,dq, H,dq, E,y, vex5 cpuid(SSE41) p_66), [0x22] = X86_OP_ENTRY4(PINSR, V,dq, H,dq, E,y, vex5 cpuid(SSE41) p_66),
@ -1883,17 +1883,17 @@ static void disas_insn_new(DisasContext *s, CPUState *cpu, int b)
case X86_SPECIAL_HasLock: case X86_SPECIAL_HasLock:
break; break;
case X86_SPECIAL_ZExtOp0: case X86_SPECIAL_Op0_Rd:
assert(decode.op[0].unit == X86_OP_INT); assert(decode.op[0].unit == X86_OP_INT);
if (!decode.op[0].has_ea) { if (!decode.op[0].has_ea) {
decode.op[0].ot = MO_32; decode.op[0].ot = MO_32;
} }
break; break;
case X86_SPECIAL_ZExtOp2: case X86_SPECIAL_Op2_Ry:
assert(decode.op[2].unit == X86_OP_INT); assert(decode.op[2].unit == X86_OP_INT);
if (!decode.op[2].has_ea) { if (!decode.op[2].has_ea) {
decode.op[2].ot = MO_32; decode.op[2].ot = s->dflag == MO_16 ? MO_32 : s->dflag;
} }
break; break;

View File

@ -165,11 +165,20 @@ typedef enum X86InsnSpecial {
X86_SPECIAL_Locked, X86_SPECIAL_Locked,
/* /*
* Register operand 0/2 is zero extended to 32 bits. Rd/Mb or Rd/Mw * Rd/Mb or Rd/Mw in the manual: register operand 0 is treated as 32 bits
* in the manual. * (and writeback zero-extends it to 64 bits if applicable). PREFIX_DATA
* does not trigger 16-bit writeback and, as a side effect, high-byte
* registers are never used.
*/ */
X86_SPECIAL_ZExtOp0, X86_SPECIAL_Op0_Rd,
X86_SPECIAL_ZExtOp2,
/*
* Ry/Mb in the manual (PINSRB). However, the high bits are never used by
* the instruction in either the register or memory cases; the *real* effect
* of this modifier is that high-byte registers are never used, even without
* a REX prefix. Therefore, PINSRW does not need it despite having Ry/Mw.
*/
X86_SPECIAL_Op2_Ry,
/* /*
* Register operand 2 is extended to full width, while a memory operand * Register operand 2 is extended to full width, while a memory operand