target/i386: provide 3-operand versions of unary scalar helpers
Compared to Paul's implementation, the new decoder will use a different approach to implement AVX's merging of dst with src1 on scalar operations. Adjust the old SSE decoder to be compatible with new-style helpers. The affected instructions are CVTSx2Sx, ROUNDSx, RSQRTSx, SQRTSx, RCPSx. Reviewed-by: Richard Henderson <richard.henderson@linaro.org> Signed-off-by: Paolo Bonzini <pbonzini@redhat.com>
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@ -617,14 +617,22 @@ void glue(helper_sqrtpd, SUFFIX)(CPUX86State *env, Reg *d, Reg *s)
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}
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#if SHIFT == 1
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void helper_sqrtss(CPUX86State *env, Reg *d, Reg *s)
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void helper_sqrtss(CPUX86State *env, Reg *d, Reg *v, Reg *s)
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{
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int i;
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d->ZMM_S(0) = float32_sqrt(s->ZMM_S(0), &env->sse_status);
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for (i = 1; i < 2 << SHIFT; i++) {
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d->ZMM_L(i) = v->ZMM_L(i);
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}
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}
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void helper_sqrtsd(CPUX86State *env, Reg *d, Reg *s)
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void helper_sqrtsd(CPUX86State *env, Reg *d, Reg *v, Reg *s)
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{
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int i;
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d->ZMM_D(0) = float64_sqrt(s->ZMM_D(0), &env->sse_status);
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for (i = 1; i < 1 << SHIFT; i++) {
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d->ZMM_Q(i) = v->ZMM_Q(i);
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}
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}
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#endif
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@ -649,14 +657,22 @@ void glue(helper_cvtpd2ps, SUFFIX)(CPUX86State *env, Reg *d, Reg *s)
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}
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#if SHIFT == 1
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void helper_cvtss2sd(CPUX86State *env, Reg *d, Reg *s)
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void helper_cvtss2sd(CPUX86State *env, Reg *d, Reg *v, Reg *s)
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{
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int i;
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d->ZMM_D(0) = float32_to_float64(s->ZMM_S(0), &env->sse_status);
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for (i = 1; i < 1 << SHIFT; i++) {
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d->ZMM_Q(i) = v->ZMM_Q(i);
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}
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}
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void helper_cvtsd2ss(CPUX86State *env, Reg *d, Reg *s)
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void helper_cvtsd2ss(CPUX86State *env, Reg *d, Reg *v, Reg *s)
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{
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int i;
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d->ZMM_S(0) = float64_to_float32(s->ZMM_D(0), &env->sse_status);
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for (i = 1; i < 2 << SHIFT; i++) {
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d->ZMM_L(i) = v->ZMM_L(i);
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}
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}
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#endif
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@ -876,13 +892,17 @@ void glue(helper_rsqrtps, SUFFIX)(CPUX86State *env, ZMMReg *d, ZMMReg *s)
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}
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#if SHIFT == 1
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void helper_rsqrtss(CPUX86State *env, ZMMReg *d, ZMMReg *s)
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void helper_rsqrtss(CPUX86State *env, ZMMReg *d, ZMMReg *v, ZMMReg *s)
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{
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uint8_t old_flags = get_float_exception_flags(&env->sse_status);
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int i;
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d->ZMM_S(0) = float32_div(float32_one,
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float32_sqrt(s->ZMM_S(0), &env->sse_status),
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&env->sse_status);
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set_float_exception_flags(old_flags, &env->sse_status);
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for (i = 1; i < 2 << SHIFT; i++) {
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d->ZMM_L(i) = v->ZMM_L(i);
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}
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}
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#endif
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@ -897,10 +917,14 @@ void glue(helper_rcpps, SUFFIX)(CPUX86State *env, ZMMReg *d, ZMMReg *s)
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}
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#if SHIFT == 1
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void helper_rcpss(CPUX86State *env, ZMMReg *d, ZMMReg *s)
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void helper_rcpss(CPUX86State *env, ZMMReg *d, ZMMReg *v, ZMMReg *s)
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{
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uint8_t old_flags = get_float_exception_flags(&env->sse_status);
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int i;
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d->ZMM_S(0) = float32_div(float32_one, s->ZMM_S(0), &env->sse_status);
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for (i = 1; i < 2 << SHIFT; i++) {
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d->ZMM_L(i) = v->ZMM_L(i);
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}
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set_float_exception_flags(old_flags, &env->sse_status);
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}
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#endif
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@ -1798,11 +1822,12 @@ void glue(helper_roundpd, SUFFIX)(CPUX86State *env, Reg *d, Reg *s,
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}
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#if SHIFT == 1
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void glue(helper_roundss, SUFFIX)(CPUX86State *env, Reg *d, Reg *s,
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void glue(helper_roundss, SUFFIX)(CPUX86State *env, Reg *d, Reg *v, Reg *s,
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uint32_t mode)
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{
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uint8_t old_flags = get_float_exception_flags(&env->sse_status);
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signed char prev_rounding_mode;
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int i;
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prev_rounding_mode = env->sse_status.float_rounding_mode;
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if (!(mode & (1 << 2))) {
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@ -1823,6 +1848,9 @@ void glue(helper_roundss, SUFFIX)(CPUX86State *env, Reg *d, Reg *s,
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}
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d->ZMM_S(0) = float32_round_to_int(s->ZMM_S(0), &env->sse_status);
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for (i = 1; i < 2 << SHIFT; i++) {
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d->ZMM_L(i) = v->ZMM_L(i);
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}
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if (mode & (1 << 3) && !(old_flags & float_flag_inexact)) {
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set_float_exception_flags(get_float_exception_flags(&env->sse_status) &
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@ -1832,11 +1860,12 @@ void glue(helper_roundss, SUFFIX)(CPUX86State *env, Reg *d, Reg *s,
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env->sse_status.float_rounding_mode = prev_rounding_mode;
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}
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void glue(helper_roundsd, SUFFIX)(CPUX86State *env, Reg *d, Reg *s,
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void glue(helper_roundsd, SUFFIX)(CPUX86State *env, Reg *d, Reg *v, Reg *s,
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uint32_t mode)
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{
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uint8_t old_flags = get_float_exception_flags(&env->sse_status);
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signed char prev_rounding_mode;
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int i;
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prev_rounding_mode = env->sse_status.float_rounding_mode;
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if (!(mode & (1 << 2))) {
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@ -1857,6 +1886,9 @@ void glue(helper_roundsd, SUFFIX)(CPUX86State *env, Reg *d, Reg *s,
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}
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d->ZMM_D(0) = float64_round_to_int(s->ZMM_D(0), &env->sse_status);
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for (i = 1; i < 1 << SHIFT; i++) {
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d->ZMM_Q(i) = v->ZMM_Q(i);
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}
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if (mode & (1 << 3) && !(old_flags & float_flag_inexact)) {
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set_float_exception_flags(get_float_exception_flags(&env->sse_status) &
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@ -148,8 +148,8 @@ DEF_HELPER_3(glue(pshufhw, SUFFIX), void, Reg, Reg, int)
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DEF_HELPER_4(name ## sd, void, env, Reg, Reg, Reg)
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#define SSE_HELPER_S3(name) \
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SSE_HELPER_P3(name) \
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DEF_HELPER_3(name ## ss, void, env, Reg, Reg) \
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DEF_HELPER_3(name ## sd, void, env, Reg, Reg)
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DEF_HELPER_4(name ## ss, void, env, Reg, Reg, Reg) \
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DEF_HELPER_4(name ## sd, void, env, Reg, Reg, Reg)
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#else
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#define SSE_HELPER_S4(name, ...) SSE_HELPER_P4(name)
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#define SSE_HELPER_S3(name, ...) SSE_HELPER_P3(name)
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@ -179,8 +179,8 @@ DEF_HELPER_3(glue(cvttps2dq, SUFFIX), void, env, ZMMReg, ZMMReg)
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DEF_HELPER_3(glue(cvttpd2dq, SUFFIX), void, env, ZMMReg, ZMMReg)
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#if SHIFT == 1
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DEF_HELPER_3(cvtss2sd, void, env, Reg, Reg)
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DEF_HELPER_3(cvtsd2ss, void, env, Reg, Reg)
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DEF_HELPER_4(cvtss2sd, void, env, Reg, Reg, Reg)
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DEF_HELPER_4(cvtsd2ss, void, env, Reg, Reg, Reg)
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DEF_HELPER_3(cvtpi2ps, void, env, ZMMReg, MMXReg)
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DEF_HELPER_3(cvtpi2pd, void, env, ZMMReg, MMXReg)
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DEF_HELPER_3(cvtsi2ss, void, env, ZMMReg, i32)
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@ -214,8 +214,8 @@ DEF_HELPER_3(glue(rsqrtps, SUFFIX), void, env, ZMMReg, ZMMReg)
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DEF_HELPER_3(glue(rcpps, SUFFIX), void, env, ZMMReg, ZMMReg)
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#if SHIFT == 1
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DEF_HELPER_3(rsqrtss, void, env, ZMMReg, ZMMReg)
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DEF_HELPER_3(rcpss, void, env, ZMMReg, ZMMReg)
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DEF_HELPER_4(rsqrtss, void, env, ZMMReg, ZMMReg, ZMMReg)
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DEF_HELPER_4(rcpss, void, env, ZMMReg, ZMMReg, ZMMReg)
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DEF_HELPER_3(extrq_r, void, env, ZMMReg, ZMMReg)
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DEF_HELPER_4(extrq_i, void, env, ZMMReg, int, int)
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DEF_HELPER_3(insertq_r, void, env, ZMMReg, ZMMReg)
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@ -342,8 +342,8 @@ DEF_HELPER_3(glue(phminposuw, SUFFIX), void, env, Reg, Reg)
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DEF_HELPER_4(glue(roundps, SUFFIX), void, env, Reg, Reg, i32)
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DEF_HELPER_4(glue(roundpd, SUFFIX), void, env, Reg, Reg, i32)
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#if SHIFT == 1
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DEF_HELPER_4(roundss_xmm, void, env, Reg, Reg, i32)
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DEF_HELPER_4(roundsd_xmm, void, env, Reg, Reg, i32)
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DEF_HELPER_5(roundss_xmm, void, env, Reg, Reg, Reg, i32)
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DEF_HELPER_5(roundsd_xmm, void, env, Reg, Reg, Reg, i32)
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#endif
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DEF_HELPER_5(glue(blendps, SUFFIX), void, env, Reg, Reg, Reg, i32)
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DEF_HELPER_5(glue(blendpd, SUFFIX), void, env, Reg, Reg, Reg, i32)
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@ -3011,6 +3011,9 @@ static bool first = true; static unsigned long limit;
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#define SSE_OP(sname, dname, op, flags) OP(op, flags, \
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gen_helper_##sname##_xmm, gen_helper_##dname##_xmm, NULL, NULL)
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#define SSE_OP_UNARY(a, b, c, d) \
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{SSE_OPF_SCALAR | SSE_OPF_V0, {{.op1 = a}, {.op1 = b}, {.op2 = c}, {.op2 = d} } }
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typedef union SSEFuncs {
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SSEFunc_0_epp op1;
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SSEFunc_0_ppi op1i;
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@ -3053,12 +3056,12 @@ static const struct SSEOpHelper_table1 sse_op_table1[256] = {
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[0x2f] = OP(op1, SSE_OPF_CMP | SSE_OPF_SCALAR | SSE_OPF_V0,
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gen_helper_comiss, gen_helper_comisd, NULL, NULL),
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[0x50] = SSE_SPECIAL, /* movmskps, movmskpd */
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[0x51] = OP(op1, SSE_OPF_SCALAR | SSE_OPF_V0,
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[0x51] = SSE_OP_UNARY(
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gen_helper_sqrtps_xmm, gen_helper_sqrtpd_xmm,
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gen_helper_sqrtss, gen_helper_sqrtsd),
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[0x52] = OP(op1, SSE_OPF_SCALAR | SSE_OPF_V0,
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[0x52] = SSE_OP_UNARY(
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gen_helper_rsqrtps_xmm, NULL, gen_helper_rsqrtss, NULL),
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[0x53] = OP(op1, SSE_OPF_SCALAR | SSE_OPF_V0,
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[0x53] = SSE_OP_UNARY(
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gen_helper_rcpps_xmm, NULL, gen_helper_rcpss, NULL),
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[0x54] = SSE_OP(pand, pand, op2, 0), /* andps, andpd */
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[0x55] = SSE_OP(pandn, pandn, op2, 0), /* andnps, andnpd */
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@ -3066,9 +3069,9 @@ static const struct SSEOpHelper_table1 sse_op_table1[256] = {
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[0x57] = SSE_OP(pxor, pxor, op2, 0), /* xorps, xorpd */
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[0x58] = SSE_FOP(add),
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[0x59] = SSE_FOP(mul),
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[0x5a] = OP(op1, SSE_OPF_SCALAR | SSE_OPF_V0,
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gen_helper_cvtps2pd_xmm, gen_helper_cvtpd2ps_xmm,
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gen_helper_cvtss2sd, gen_helper_cvtsd2ss),
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[0x5a] = SSE_OP_UNARY(
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gen_helper_cvtps2pd_xmm, gen_helper_cvtpd2ps_xmm,
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gen_helper_cvtss2sd, gen_helper_cvtsd2ss),
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[0x5b] = OP(op1, SSE_OPF_V0,
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gen_helper_cvtdq2ps_xmm, gen_helper_cvtps2dq_xmm,
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gen_helper_cvttps2dq_xmm, NULL),
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@ -3364,8 +3367,8 @@ static const struct SSEOpHelper_table6 sse_op_table6[256] = {
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static const struct SSEOpHelper_table7 sse_op_table7[256] = {
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[0x08] = UNARY_OP(roundps, SSE41, 0),
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[0x09] = UNARY_OP(roundpd, SSE41, 0),
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[0x0a] = UNARY_OP(roundss, SSE41, SSE_OPF_SCALAR),
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[0x0b] = UNARY_OP(roundsd, SSE41, SSE_OPF_SCALAR),
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[0x0a] = BINARY_OP(roundss, SSE41, SSE_OPF_SCALAR),
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[0x0b] = BINARY_OP(roundsd, SSE41, SSE_OPF_SCALAR),
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[0x0c] = BINARY_OP(blendps, SSE41, 0),
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[0x0d] = BINARY_OP(blendpd, SSE41, 0),
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[0x0e] = BINARY_OP(pblendw, SSE41, SSE_OPF_MMX),
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@ -4640,7 +4643,8 @@ static void gen_sse(CPUX86State *env, DisasContext *s, int b)
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tcg_gen_addi_ptr(s->ptr0, cpu_env, op1_offset);
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tcg_gen_addi_ptr(s->ptr1, cpu_env, op2_offset);
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if (sse_op_flags & SSE_OPF_V0) {
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if ((sse_op_flags & SSE_OPF_V0) &&
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!((sse_op_flags & SSE_OPF_SCALAR) && b1 >= 2)) {
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if (sse_op_flags & SSE_OPF_SHUF) {
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val = x86_ldub_code(env, s);
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sse_op_fn.op1i(s->ptr0, s->ptr1, tcg_const_i32(val));
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