A32: Implement ASIMD VMAX, VMIN (floating-point)
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7 changed files with 100 additions and 52 deletions
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@ -828,16 +828,19 @@ void EmitX64::EmitFPVectorGreaterEqual64(EmitContext& ctx, IR::Inst* inst) {
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template<size_t fsize, bool is_max>
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template<size_t fsize, bool is_max>
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static void EmitFPVectorMinMax(BlockOfCode& code, EmitContext& ctx, IR::Inst* inst) {
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static void EmitFPVectorMinMax(BlockOfCode& code, EmitContext& ctx, IR::Inst* inst) {
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if (ctx.FPCR().DN()) {
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const bool fpcr_controlled = inst->GetArg(2).GetU1();
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if (ctx.FPCR(fpcr_controlled).DN()) {
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auto args = ctx.reg_alloc.GetArgumentInfo(inst);
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auto args = ctx.reg_alloc.GetArgumentInfo(inst);
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const Xbyak::Xmm result = ctx.reg_alloc.UseScratchXmm(args[0]);
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const Xbyak::Xmm result = ctx.reg_alloc.UseScratchXmm(args[0]);
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const Xbyak::Xmm xmm_b = ctx.FPCR().FZ() ? ctx.reg_alloc.UseScratchXmm(args[1]) : ctx.reg_alloc.UseXmm(args[1]);
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const Xbyak::Xmm xmm_b = ctx.FPCR(fpcr_controlled).FZ() ? ctx.reg_alloc.UseScratchXmm(args[1]) : ctx.reg_alloc.UseXmm(args[1]);
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const Xbyak::Xmm mask = xmm0;
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const Xbyak::Xmm mask = xmm0;
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const Xbyak::Xmm eq = ctx.reg_alloc.ScratchXmm();
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const Xbyak::Xmm eq = ctx.reg_alloc.ScratchXmm();
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const Xbyak::Xmm nan_mask = ctx.reg_alloc.ScratchXmm();
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const Xbyak::Xmm nan_mask = ctx.reg_alloc.ScratchXmm();
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DenormalsAreZero<fsize>(code, ctx.FPCR(), {result, xmm_b}, mask);
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MaybeStandardFPSCRValue(code, ctx, fpcr_controlled, [&]{
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DenormalsAreZero<fsize>(code, ctx.FPCR(fpcr_controlled), {result, xmm_b}, mask);
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if (code.HasAVX()) {
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if (code.HasAVX()) {
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FCODE(vcmpeqp)(mask, result, xmm_b);
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FCODE(vcmpeqp)(mask, result, xmm_b);
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@ -874,6 +877,7 @@ static void EmitFPVectorMinMax(BlockOfCode& code, EmitContext& ctx, IR::Inst* in
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code.andnps(nan_mask, GetNaNVector<fsize>(code));
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code.andnps(nan_mask, GetNaNVector<fsize>(code));
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code.orps(result, nan_mask);
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code.orps(result, nan_mask);
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}
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}
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});
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ctx.reg_alloc.DefineValue(inst, result);
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ctx.reg_alloc.DefineValue(inst, result);
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@ -884,11 +888,11 @@ static void EmitFPVectorMinMax(BlockOfCode& code, EmitContext& ctx, IR::Inst* in
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const Xbyak::Xmm mask = xmm0;
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const Xbyak::Xmm mask = xmm0;
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const Xbyak::Xmm eq = ctx.reg_alloc.ScratchXmm();
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const Xbyak::Xmm eq = ctx.reg_alloc.ScratchXmm();
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if (ctx.FPCR().FZ()) {
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if (ctx.FPCR(fpcr_controlled).FZ()) {
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const Xbyak::Xmm prev_xmm_b = xmm_b;
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const Xbyak::Xmm prev_xmm_b = xmm_b;
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xmm_b = ctx.reg_alloc.ScratchXmm();
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xmm_b = ctx.reg_alloc.ScratchXmm();
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code.movaps(xmm_b, prev_xmm_b);
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code.movaps(xmm_b, prev_xmm_b);
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DenormalsAreZero<fsize>(code, ctx.FPCR(), {result, xmm_b}, mask);
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DenormalsAreZero<fsize>(code, ctx.FPCR(fpcr_controlled), {result, xmm_b}, mask);
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}
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}
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// What we are doing here is handling the case when the inputs are differently signed zeros.
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// What we are doing here is handling the case when the inputs are differently signed zeros.
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@ -43,8 +43,8 @@ INST(asimd_VMUL, "VMUL", "1111001P0Dzznnnndddd100
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//INST(asimd_VCGE_reg, "VCGE (register)", "111100110-0C--------1110---0----") // ASIMD
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//INST(asimd_VCGE_reg, "VCGE (register)", "111100110-0C--------1110---0----") // ASIMD
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//INST(asimd_VCGT_reg, "VCGT (register)", "111100110-1C--------1110---0----") // ASIMD
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//INST(asimd_VCGT_reg, "VCGT (register)", "111100110-1C--------1110---0----") // ASIMD
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//INST(asimd_VACGE, "VACGE", "111100110-CC--------1110---1----") // ASIMD
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//INST(asimd_VACGE, "VACGE", "111100110-CC--------1110---1----") // ASIMD
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//INST(asimd_VMAX_float, "VMAX (floating-point)", "111100100-CC--------1111---0----") // ASIMD
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INST(asimd_VMAX_float, "VMAX (floating-point)", "111100100D0znnnndddd1111NQM0mmmm") // ASIMD
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//INST(asimd_VPMAX_float, "VMIN (floating-point)", "111100110-CC--------1111---0----") // ASIMD
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INST(asimd_VMIN_float, "VMIN (floating-point)", "111100100D1znnnndddd1111NQM0mmmm") // ASIMD
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//INST(asimd_VRECPS, "VRECPS", "111100100-0C--------1111---1----") // ASIMD
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//INST(asimd_VRECPS, "VRECPS", "111100100-0C--------1111---1----") // ASIMD
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//INST(asimd_VRSQRTS, "VRSQRTS", "111100100-1C--------1111---1----") // ASIMD
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//INST(asimd_VRSQRTS, "VRSQRTS", "111100100-1C--------1111---1----") // ASIMD
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@ -333,4 +333,46 @@ bool ArmTranslatorVisitor::asimd_VMUL(bool P, bool D, size_t sz, size_t Vn, size
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return true;
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return true;
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}
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}
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bool ArmTranslatorVisitor::asimd_VMAX_float(bool D, bool sz, size_t Vn, size_t Vd, bool N, bool Q, bool M, size_t Vm) {
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if (Q && (Common::Bit<0>(Vd) || Common::Bit<0>(Vn) || Common::Bit<0>(Vm))) {
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return UndefinedInstruction();
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}
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if (sz == 0b1) {
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return UndefinedInstruction();
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}
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const auto d = ToVector(Q, Vd, D);
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const auto m = ToVector(Q, Vm, M);
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const auto n = ToVector(Q, Vn, N);
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const auto reg_n = ir.GetVector(n);
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const auto reg_m = ir.GetVector(m);
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const auto result = ir.FPVectorMax(32, reg_m, reg_n, false);
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ir.SetVector(d, result);
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return true;
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}
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bool ArmTranslatorVisitor::asimd_VMIN_float(bool D, bool sz, size_t Vn, size_t Vd, bool N, bool Q, bool M, size_t Vm) {
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if (Q && (Common::Bit<0>(Vd) || Common::Bit<0>(Vn) || Common::Bit<0>(Vm))) {
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return UndefinedInstruction();
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}
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if (sz == 0b1) {
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return UndefinedInstruction();
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}
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const auto d = ToVector(Q, Vd, D);
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const auto m = ToVector(Q, Vm, M);
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const auto n = ToVector(Q, Vn, N);
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const auto reg_n = ir.GetVector(n);
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const auto reg_m = ir.GetVector(m);
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const auto result = ir.FPVectorMin(32, reg_m, reg_n, false);
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ir.SetVector(d, result);
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return true;
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}
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} // namespace Dynarmic::A32
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} // namespace Dynarmic::A32
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@ -462,6 +462,8 @@ struct ArmTranslatorVisitor final {
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bool asimd_VRSHL(bool U, bool D, size_t sz, size_t Vn, size_t Vd, bool N, bool Q, bool M, size_t Vm);
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bool asimd_VRSHL(bool U, bool D, size_t sz, size_t Vn, size_t Vd, bool N, bool Q, bool M, size_t Vm);
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bool asimd_VTST(bool D, size_t sz, size_t Vn, size_t Vd, bool N, bool Q, bool M, size_t Vm);
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bool asimd_VTST(bool D, size_t sz, size_t Vn, size_t Vd, bool N, bool Q, bool M, size_t Vm);
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bool asimd_VMUL(bool P, bool D, size_t sz, size_t Vn, size_t Vd, bool N, bool Q, bool M, size_t Vm);
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bool asimd_VMUL(bool P, bool D, size_t sz, size_t Vn, size_t Vd, bool N, bool Q, bool M, size_t Vm);
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bool asimd_VMAX_float(bool D, bool sz, size_t Vn, size_t Vd, bool N, bool Q, bool M, size_t Vm);
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bool asimd_VMIN_float(bool D, bool sz, size_t Vn, size_t Vd, bool N, bool Q, bool M, size_t Vm);
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// Two registers and a shift amount
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// Two registers and a shift amount
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bool asimd_SHR(bool U, bool D, size_t imm6, size_t Vd, bool L, bool Q, bool M, size_t Vm);
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bool asimd_SHR(bool U, bool D, size_t imm6, size_t Vd, bool L, bool Q, bool M, size_t Vm);
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@ -2356,22 +2356,22 @@ U128 IREmitter::FPVectorGreaterEqual(size_t esize, const U128& a, const U128& b,
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UNREACHABLE();
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UNREACHABLE();
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}
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}
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U128 IREmitter::FPVectorMax(size_t esize, const U128& a, const U128& b) {
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U128 IREmitter::FPVectorMax(size_t esize, const U128& a, const U128& b, bool fpcr_controlled) {
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switch (esize) {
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switch (esize) {
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case 32:
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case 32:
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return Inst<U128>(Opcode::FPVectorMax32, a, b);
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return Inst<U128>(Opcode::FPVectorMax32, a, b, Imm1(fpcr_controlled));
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case 64:
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case 64:
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return Inst<U128>(Opcode::FPVectorMax64, a, b);
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return Inst<U128>(Opcode::FPVectorMax64, a, b, Imm1(fpcr_controlled));
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}
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}
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UNREACHABLE();
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UNREACHABLE();
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}
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}
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U128 IREmitter::FPVectorMin(size_t esize, const U128& a, const U128& b) {
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U128 IREmitter::FPVectorMin(size_t esize, const U128& a, const U128& b, bool fpcr_controlled) {
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switch (esize) {
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switch (esize) {
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case 32:
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case 32:
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return Inst<U128>(Opcode::FPVectorMin32, a, b);
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return Inst<U128>(Opcode::FPVectorMin32, a, b, Imm1(fpcr_controlled));
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case 64:
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case 64:
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return Inst<U128>(Opcode::FPVectorMin64, a, b);
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return Inst<U128>(Opcode::FPVectorMin64, a, b, Imm1(fpcr_controlled));
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}
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}
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UNREACHABLE();
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UNREACHABLE();
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}
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}
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@ -352,8 +352,8 @@ public:
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U128 FPVectorFromUnsignedFixed(size_t esize, const U128& a, size_t fbits, FP::RoundingMode rounding);
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U128 FPVectorFromUnsignedFixed(size_t esize, const U128& a, size_t fbits, FP::RoundingMode rounding);
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U128 FPVectorGreater(size_t esize, const U128& a, const U128& b, bool fpcr_controlled = true);
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U128 FPVectorGreater(size_t esize, const U128& a, const U128& b, bool fpcr_controlled = true);
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U128 FPVectorGreaterEqual(size_t esize, const U128& a, const U128& b, bool fpcr_controlled = true);
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U128 FPVectorGreaterEqual(size_t esize, const U128& a, const U128& b, bool fpcr_controlled = true);
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U128 FPVectorMax(size_t esize, const U128& a, const U128& b);
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U128 FPVectorMax(size_t esize, const U128& a, const U128& b, bool fpcr_controlled = true);
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U128 FPVectorMin(size_t esize, const U128& a, const U128& b);
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U128 FPVectorMin(size_t esize, const U128& a, const U128& b, bool fpcr_controlled = true);
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U128 FPVectorMul(size_t esize, const U128& a, const U128& b);
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U128 FPVectorMul(size_t esize, const U128& a, const U128& b);
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U128 FPVectorMulAdd(size_t esize, const U128& addend, const U128& op1, const U128& op2);
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U128 FPVectorMulAdd(size_t esize, const U128& addend, const U128& op1, const U128& op2);
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U128 FPVectorMulX(size_t esize, const U128& a, const U128& b);
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U128 FPVectorMulX(size_t esize, const U128& a, const U128& b);
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@ -595,10 +595,10 @@ OPCODE(FPVectorGreater32, U128, U128
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OPCODE(FPVectorGreater64, U128, U128, U128, U1 )
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OPCODE(FPVectorGreater64, U128, U128, U128, U1 )
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OPCODE(FPVectorGreaterEqual32, U128, U128, U128, U1 )
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OPCODE(FPVectorGreaterEqual32, U128, U128, U128, U1 )
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OPCODE(FPVectorGreaterEqual64, U128, U128, U128, U1 )
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OPCODE(FPVectorGreaterEqual64, U128, U128, U128, U1 )
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OPCODE(FPVectorMax32, U128, U128, U128 )
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OPCODE(FPVectorMax32, U128, U128, U128, U1 )
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OPCODE(FPVectorMax64, U128, U128, U128 )
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OPCODE(FPVectorMax64, U128, U128, U128, U1 )
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OPCODE(FPVectorMin32, U128, U128, U128 )
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OPCODE(FPVectorMin32, U128, U128, U128, U1 )
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OPCODE(FPVectorMin64, U128, U128, U128 )
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OPCODE(FPVectorMin64, U128, U128, U128, U1 )
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OPCODE(FPVectorMul32, U128, U128, U128 )
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OPCODE(FPVectorMul32, U128, U128, U128 )
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OPCODE(FPVectorMul64, U128, U128, U128 )
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OPCODE(FPVectorMul64, U128, U128, U128 )
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OPCODE(FPVectorMulAdd16, U128, U128, U128, U128 )
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OPCODE(FPVectorMulAdd16, U128, U128, U128, U128 )
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