riscv_cpu_fp_template.h - emulators/tinyemu - Rivoreo Source Code Repositories

 /*
  * RISCV emulator
  *
  * Copyright (c) 2016 Fabrice Bellard
  *
  * Permission is hereby granted, free of charge, to any person obtaining a copy
  * of this software and associated documentation files (the "Software"), to deal
  * in the Software without restriction, including without limitation the rights
  * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
  * copies of the Software, and to permit persons to whom the Software is
  * furnished to do so, subject to the following conditions:
  *
  * The above copyright notice and this permission notice shall be included in
  * all copies or substantial portions of the Software.
  *
  * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
  * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
  * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL
  * THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
  * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
  * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
  * THE SOFTWARE.
  */
 #if F_SIZE == 32
 #define OPID 0
 #define F_HIGH F32_HIGH
 #elif F_SIZE == 64
 #define OPID 1
 #define F_HIGH F64_HIGH
 #elif F_SIZE == 128
 #define OPID 3
 #define F_HIGH 0
 #else
 #error unsupported F_SIZE
 #endif

 #define FSIGN_MASK glue(FSIGN_MASK, F_SIZE)

             case (0x00 << 2) | OPID:
                 rm = get_insn_rm(s, rm);
                 if (rm < 0)
                     goto illegal_insn;
                 s->fp_reg[rd] = glue(add_sf, F_SIZE)(s->fp_reg[rs1],
                                          s->fp_reg[rs2],
                                          rm, &s->fflags) | F_HIGH;
                 s->fs = 3;
                 break;
             case (0x01 << 2) | OPID:
                 rm = get_insn_rm(s, rm);
                 if (rm < 0)
                     goto illegal_insn;
                 s->fp_reg[rd] = glue(sub_sf, F_SIZE)(s->fp_reg[rs1],
                                                s->fp_reg[rs2],
                                                rm, &s->fflags) | F_HIGH;
                 s->fs = 3;
                 break;
             case (0x02 << 2) | OPID:
                 rm = get_insn_rm(s, rm);
                 if (rm < 0)
                     goto illegal_insn;
                 s->fp_reg[rd] = glue(mul_sf, F_SIZE)(s->fp_reg[rs1],
                                                s->fp_reg[rs2],
                                                rm, &s->fflags) | F_HIGH;
                 s->fs = 3;
                 break;
             case (0x03 << 2) | OPID:
                 rm = get_insn_rm(s, rm);
                 if (rm < 0)
                     goto illegal_insn;
                 s->fp_reg[rd] = glue(div_sf, F_SIZE)(s->fp_reg[rs1],
                                                s->fp_reg[rs2],
                                                rm, &s->fflags) | F_HIGH;
                 s->fs = 3;
                 break;
             case (0x0b << 2) | OPID:
                 rm = get_insn_rm(s, rm);
                 if (rm < 0 || rs2 != 0)
                     goto illegal_insn;
                 s->fp_reg[rd] = glue(sqrt_sf, F_SIZE)(s->fp_reg[rs1],
                                                 rm, &s->fflags) | F_HIGH;
                 s->fs = 3;
                 break;
             case (0x04 << 2) | OPID:
                 switch(rm) {
                 case 0: /* fsgnj */
                     s->fp_reg[rd] = (s->fp_reg[rs1] & ~FSIGN_MASK) |
                         (s->fp_reg[rs2] & FSIGN_MASK);
                     break;
                 case 1: /* fsgnjn */
                     s->fp_reg[rd] = (s->fp_reg[rs1] & ~FSIGN_MASK) |
                         ((s->fp_reg[rs2] & FSIGN_MASK) ^ FSIGN_MASK);
                     break;
                 case 2: /* fsgnjx */
                     s->fp_reg[rd] = s->fp_reg[rs1] ^
                         (s->fp_reg[rs2] & FSIGN_MASK);
                     break;
                 default:
                     goto illegal_insn;
                 }
                 s->fs = 3;
                 break;
             case (0x05 << 2) | OPID:
                 switch(rm) {
                 case 0: /* fmin */
                     s->fp_reg[rd] = glue(min_sf, F_SIZE)(s->fp_reg[rs1],
                                                    s->fp_reg[rs2],
                                                    &s->fflags,
                                                    FMINMAX_IEEE754_201X) | F_HIGH;
                     break;
                 case 1: /* fmax */
                     s->fp_reg[rd] = glue(max_sf, F_SIZE)(s->fp_reg[rs1],
                                                    s->fp_reg[rs2],
                                                    &s->fflags,
                                                    FMINMAX_IEEE754_201X) | F_HIGH;
                     break;
                 default:
                     goto illegal_insn;
                 }
                 s->fs = 3;
                 break;
             case (0x18 << 2) | OPID:
                 rm = get_insn_rm(s, rm);
                 if (rm < 0)
                     goto illegal_insn;
                 switch(rs2) {
                 case 0: /* fcvt.w.[sdq] */
                     val = (int32_t)glue(glue(cvt_sf, F_SIZE), _i32)(s->fp_reg[rs1], rm,
                                                           &s->fflags);
                     break;
                 case 1: /* fcvt.wu.[sdq] */
                     val = (int32_t)glue(glue(cvt_sf, F_SIZE), _u32)(s->fp_reg[rs1], rm,
                                                           &s->fflags);
                     break;
 #if XLEN >= 64
                 case 2: /* fcvt.l.[sdq] */
                     val = (int64_t)glue(glue(cvt_sf, F_SIZE), _i64)(s->fp_reg[rs1], rm,
                                                           &s->fflags);
                     break;
                 case 3: /* fcvt.lu.[sdq] */
                     val = (int64_t)glue(glue(cvt_sf, F_SIZE), _u64)(s->fp_reg[rs1], rm,
                                                           &s->fflags);
                     break;
 #endif
 #if XLEN >= 128
                 /* XXX: the index is not defined in the spec */
                 case 4: /* fcvt.t.[sdq] */
                     val = glue(glue(cvt_sf, F_SIZE), _i128)(s->fp_reg[rs1], rm,
                                                           &s->fflags);
                     break;
                 case 5: /* fcvt.tu.[sdq] */
                     val = glue(glue(cvt_sf, F_SIZE), _u128)(s->fp_reg[rs1], rm,
                                                           &s->fflags);
                     break;
 #endif
                 default:
                     goto illegal_insn;
                 }
                 if (rd != 0)
                     s->reg[rd] = val;
                 break;
             case (0x14 << 2) | OPID:
                 switch(rm) {
                 case 0: /* fle */
                     val = glue(le_sf, F_SIZE)(s->fp_reg[rs1], s->fp_reg[rs2],
                                      &s->fflags);
                     break;
                 case 1: /* flt */
                     val = glue(lt_sf, F_SIZE)(s->fp_reg[rs1], s->fp_reg[rs2],
                                      &s->fflags);
                     break;
                 case 2: /* feq */
                     val = glue(eq_quiet_sf, F_SIZE)(s->fp_reg[rs1], s->fp_reg[rs2],
                                            &s->fflags);
                     break;
                 default:
                     goto illegal_insn;
                 }
                 if (rd != 0)
                     s->reg[rd] = val;
                 break;
             case (0x1a << 2) | OPID:
                 rm = get_insn_rm(s, rm);
                 if (rm < 0)
                     goto illegal_insn;
                 switch(rs2) {
                 case 0: /* fcvt.[sdq].w */
                     s->fp_reg[rd] = glue(cvt_i32_sf, F_SIZE)(s->reg[rs1], rm,
                                                        &s->fflags) | F_HIGH;
                     break;
                 case 1: /* fcvt.[sdq].wu */
                     s->fp_reg[rd] = glue(cvt_u32_sf, F_SIZE)(s->reg[rs1], rm,
                                                        &s->fflags) | F_HIGH;
                     break;
 #if XLEN >= 64
                 case 2: /* fcvt.[sdq].l */
                     s->fp_reg[rd] = glue(cvt_i64_sf, F_SIZE)(s->reg[rs1], rm,
                                                        &s->fflags) | F_HIGH;
                     break;
                 case 3: /* fcvt.[sdq].lu */
                     s->fp_reg[rd] = glue(cvt_u64_sf, F_SIZE)(s->reg[rs1], rm,
                                                             &s->fflags) | F_HIGH;
                     break;
 #endif
 #if XLEN >= 128
                 /* XXX: the index is not defined in the spec */
                 case 4: /* fcvt.[sdq].t */
                     s->fp_reg[rd] = glue(cvt_i128_sf, F_SIZE)(s->reg[rs1], rm,
                                                        &s->fflags) | F_HIGH;
                     break;
                 case 5: /* fcvt.[sdq].tu */
                     s->fp_reg[rd] = glue(cvt_u128_sf, F_SIZE)(s->reg[rs1], rm,
                                                             &s->fflags) | F_HIGH;
                     break;
 #endif
                 default:
                     goto illegal_insn;
                 }
                 s->fs = 3;
                 break;

             case (0x08 << 2) | OPID:
                 rm = get_insn_rm(s, rm);
                 if (rm < 0)
                     goto illegal_insn;
                 switch(rs2) {
 #if F_SIZE == 32 && FLEN >= 64
                 case 1: /* cvt.s.d */
                     s->fp_reg[rd] = cvt_sf64_sf32(s->fp_reg[rs1], rm, &s->fflags) | F32_HIGH;
                     break;
 #if FLEN >= 128
                 case 3: /* cvt.s.q */
                     s->fp_reg[rd] = cvt_sf128_sf32(s->fp_reg[rs1], rm, &s->fflags) | F32_HIGH;
                     break;
 #endif
 #endif /* F_SIZE == 32 */
 #if F_SIZE == 64
                 case 0: /* cvt.d.s */
                     s->fp_reg[rd] = cvt_sf32_sf64(s->fp_reg[rs1], &s->fflags) | F64_HIGH;
                     break;
 #if FLEN >= 128
                 case 1: /* cvt.d.q */
                     s->fp_reg[rd] = cvt_sf128_sf64(s->fp_reg[rs1], rm, &s->fflags) | F64_HIGH;
                     break;
 #endif
 #endif /* F_SIZE == 64 */
 #if F_SIZE == 128
                 case 0: /* cvt.q.s */
                     s->fp_reg[rd] = cvt_sf32_sf128(s->fp_reg[rs1], &s->fflags);
                     break;
                 case 1: /* cvt.q.d */
                     s->fp_reg[rd] = cvt_sf64_sf128(s->fp_reg[rs1], &s->fflags);
                     break;
 #endif /* F_SIZE == 128 */

                 default:
                     goto illegal_insn;
                 }
                 s->fs = 3;
                 break;

             case (0x1c << 2) | OPID:
                 if (rs2 != 0)
                     goto illegal_insn;
                 switch(rm) {
 #if F_SIZE <= XLEN
                 case 0: /* fmv.x.s */
 #if F_SIZE == 32
                     val = (int32_t)s->fp_reg[rs1];
 #elif F_SIZE == 64
                     val = (int64_t)s->fp_reg[rs1];
 #else
                     val = (int128_t)s->fp_reg[rs1];
 #endif
                     break;
 #endif /* F_SIZE <= XLEN */
                 case 1: /* fclass */
                     val = glue(fclass_sf, F_SIZE)(s->fp_reg[rs1]);
                     break;
                 default:
                     goto illegal_insn;
                 }
                 if (rd != 0)
                     s->reg[rd] = val;
                 break;

 #if F_SIZE <= XLEN
             case (0x1e << 2) | OPID: /* fmv.s.x */
                 if (rs2 != 0 || rm != 0)
                     goto illegal_insn;
 #if F_SIZE == 32
                 s->fp_reg[rd] = (int32_t)s->reg[rs1];
 #elif F_SIZE == 64
                 s->fp_reg[rd] = (int64_t)s->reg[rs1];
 #else
                 s->fp_reg[rd] = (int128_t)s->reg[rs1];
 #endif
                 s->fs = 3;
                 break;
 #endif /* F_SIZE <= XLEN */

 #undef F_SIZE
 #undef F_HIGH
 #undef OPID
 #undef FSIGN_MASK
	/*
	* RISCV emulator
	*
	* Copyright (c) 2016 Fabrice Bellard
	*
	* Permission is hereby granted, free of charge, to any person obtaining a copy
	* of this software and associated documentation files (the "Software"), to deal
	* in the Software without restriction, including without limitation the rights
	* to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
	* copies of the Software, and to permit persons to whom the Software is
	* furnished to do so, subject to the following conditions:
	*
	* The above copyright notice and this permission notice shall be included in
	* all copies or substantial portions of the Software.
	*
	* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
	* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
	* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL
	* THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
	* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
	* OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
	* THE SOFTWARE.
	*/
	#if F_SIZE == 32
	#define OPID 0
	#define F_HIGH F32_HIGH
	#elif F_SIZE == 64
	#define OPID 1
	#define F_HIGH F64_HIGH
	#elif F_SIZE == 128
	#define OPID 3
	#define F_HIGH 0
	#else
	#error unsupported F_SIZE
	#endif

	#define FSIGN_MASK glue(FSIGN_MASK, F_SIZE)

	case (0x00 << 2) \| OPID:
	rm = get_insn_rm(s, rm);
	if (rm < 0)
	goto illegal_insn;
	s->fp_reg[rd] = glue(add_sf, F_SIZE)(s->fp_reg[rs1],
	s->fp_reg[rs2],
	rm, &s->fflags) \| F_HIGH;
	s->fs = 3;
	break;
	case (0x01 << 2) \| OPID:
	rm = get_insn_rm(s, rm);
	if (rm < 0)
	goto illegal_insn;
	s->fp_reg[rd] = glue(sub_sf, F_SIZE)(s->fp_reg[rs1],
	s->fp_reg[rs2],
	rm, &s->fflags) \| F_HIGH;
	s->fs = 3;
	break;
	case (0x02 << 2) \| OPID:
	rm = get_insn_rm(s, rm);
	if (rm < 0)
	goto illegal_insn;
	s->fp_reg[rd] = glue(mul_sf, F_SIZE)(s->fp_reg[rs1],
	s->fp_reg[rs2],
	rm, &s->fflags) \| F_HIGH;
	s->fs = 3;
	break;
	case (0x03 << 2) \| OPID:
	rm = get_insn_rm(s, rm);
	if (rm < 0)
	goto illegal_insn;
	s->fp_reg[rd] = glue(div_sf, F_SIZE)(s->fp_reg[rs1],
	s->fp_reg[rs2],
	rm, &s->fflags) \| F_HIGH;
	s->fs = 3;
	break;
	case (0x0b << 2) \| OPID:
	rm = get_insn_rm(s, rm);
	if (rm < 0 \|\| rs2 != 0)
	goto illegal_insn;
	s->fp_reg[rd] = glue(sqrt_sf, F_SIZE)(s->fp_reg[rs1],
	rm, &s->fflags) \| F_HIGH;
	s->fs = 3;
	break;
	case (0x04 << 2) \| OPID:
	switch(rm) {
	case 0: /* fsgnj */
	s->fp_reg[rd] = (s->fp_reg[rs1] & ~FSIGN_MASK) \|
	(s->fp_reg[rs2] & FSIGN_MASK);
	break;
	case 1: /* fsgnjn */
	s->fp_reg[rd] = (s->fp_reg[rs1] & ~FSIGN_MASK) \|
	((s->fp_reg[rs2] & FSIGN_MASK) ^ FSIGN_MASK);
	break;
	case 2: /* fsgnjx */
	s->fp_reg[rd] = s->fp_reg[rs1] ^
	(s->fp_reg[rs2] & FSIGN_MASK);
	break;
	default:
	goto illegal_insn;
	}
	s->fs = 3;
	break;
	case (0x05 << 2) \| OPID:
	switch(rm) {
	case 0: /* fmin */
	s->fp_reg[rd] = glue(min_sf, F_SIZE)(s->fp_reg[rs1],
	s->fp_reg[rs2],
	&s->fflags,
	FMINMAX_IEEE754_201X) \| F_HIGH;
	break;
	case 1: /* fmax */
	s->fp_reg[rd] = glue(max_sf, F_SIZE)(s->fp_reg[rs1],
	s->fp_reg[rs2],
	&s->fflags,
	FMINMAX_IEEE754_201X) \| F_HIGH;
	break;
	default:
	goto illegal_insn;
	}
	s->fs = 3;
	break;
	case (0x18 << 2) \| OPID:
	rm = get_insn_rm(s, rm);
	if (rm < 0)
	goto illegal_insn;
	switch(rs2) {
	case 0: /* fcvt.w.[sdq] */
	val = (int32_t)glue(glue(cvt_sf, F_SIZE), _i32)(s->fp_reg[rs1], rm,
	&s->fflags);
	break;
	case 1: /* fcvt.wu.[sdq] */
	val = (int32_t)glue(glue(cvt_sf, F_SIZE), _u32)(s->fp_reg[rs1], rm,
	&s->fflags);
	break;
	#if XLEN >= 64
	case 2: /* fcvt.l.[sdq] */
	val = (int64_t)glue(glue(cvt_sf, F_SIZE), _i64)(s->fp_reg[rs1], rm,
	&s->fflags);
	break;
	case 3: /* fcvt.lu.[sdq] */
	val = (int64_t)glue(glue(cvt_sf, F_SIZE), _u64)(s->fp_reg[rs1], rm,
	&s->fflags);
	break;
	#endif
	#if XLEN >= 128
	/* XXX: the index is not defined in the spec */
	case 4: /* fcvt.t.[sdq] */
	val = glue(glue(cvt_sf, F_SIZE), _i128)(s->fp_reg[rs1], rm,
	&s->fflags);
	break;
	case 5: /* fcvt.tu.[sdq] */
	val = glue(glue(cvt_sf, F_SIZE), _u128)(s->fp_reg[rs1], rm,
	&s->fflags);
	break;
	#endif
	default:
	goto illegal_insn;
	}
	if (rd != 0)
	s->reg[rd] = val;
	break;
	case (0x14 << 2) \| OPID:
	switch(rm) {
	case 0: /* fle */
	val = glue(le_sf, F_SIZE)(s->fp_reg[rs1], s->fp_reg[rs2],
	&s->fflags);
	break;
	case 1: /* flt */
	val = glue(lt_sf, F_SIZE)(s->fp_reg[rs1], s->fp_reg[rs2],
	&s->fflags);
	break;
	case 2: /* feq */
	val = glue(eq_quiet_sf, F_SIZE)(s->fp_reg[rs1], s->fp_reg[rs2],
	&s->fflags);
	break;
	default:
	goto illegal_insn;
	}
	if (rd != 0)
	s->reg[rd] = val;
	break;
	case (0x1a << 2) \| OPID:
	rm = get_insn_rm(s, rm);
	if (rm < 0)
	goto illegal_insn;
	switch(rs2) {
	case 0: /* fcvt.[sdq].w */
	s->fp_reg[rd] = glue(cvt_i32_sf, F_SIZE)(s->reg[rs1], rm,
	&s->fflags) \| F_HIGH;
	break;
	case 1: /* fcvt.[sdq].wu */
	s->fp_reg[rd] = glue(cvt_u32_sf, F_SIZE)(s->reg[rs1], rm,
	&s->fflags) \| F_HIGH;
	break;
	#if XLEN >= 64
	case 2: /* fcvt.[sdq].l */
	s->fp_reg[rd] = glue(cvt_i64_sf, F_SIZE)(s->reg[rs1], rm,
	&s->fflags) \| F_HIGH;
	break;
	case 3: /* fcvt.[sdq].lu */
	s->fp_reg[rd] = glue(cvt_u64_sf, F_SIZE)(s->reg[rs1], rm,
	&s->fflags) \| F_HIGH;
	break;
	#endif
	#if XLEN >= 128
	/* XXX: the index is not defined in the spec */
	case 4: /* fcvt.[sdq].t */
	s->fp_reg[rd] = glue(cvt_i128_sf, F_SIZE)(s->reg[rs1], rm,
	&s->fflags) \| F_HIGH;
	break;
	case 5: /* fcvt.[sdq].tu */
	s->fp_reg[rd] = glue(cvt_u128_sf, F_SIZE)(s->reg[rs1], rm,
	&s->fflags) \| F_HIGH;
	break;
	#endif
	default:
	goto illegal_insn;
	}
	s->fs = 3;
	break;

	case (0x08 << 2) \| OPID:
	rm = get_insn_rm(s, rm);
	if (rm < 0)
	goto illegal_insn;
	switch(rs2) {
	#if F_SIZE == 32 && FLEN >= 64
	case 1: /* cvt.s.d */
	s->fp_reg[rd] = cvt_sf64_sf32(s->fp_reg[rs1], rm, &s->fflags) \| F32_HIGH;
	break;
	#if FLEN >= 128
	case 3: /* cvt.s.q */
	s->fp_reg[rd] = cvt_sf128_sf32(s->fp_reg[rs1], rm, &s->fflags) \| F32_HIGH;
	break;
	#endif
	#endif /* F_SIZE == 32 */
	#if F_SIZE == 64
	case 0: /* cvt.d.s */
	s->fp_reg[rd] = cvt_sf32_sf64(s->fp_reg[rs1], &s->fflags) \| F64_HIGH;
	break;
	#if FLEN >= 128
	case 1: /* cvt.d.q */
	s->fp_reg[rd] = cvt_sf128_sf64(s->fp_reg[rs1], rm, &s->fflags) \| F64_HIGH;
	break;
	#endif
	#endif /* F_SIZE == 64 */
	#if F_SIZE == 128
	case 0: /* cvt.q.s */
	s->fp_reg[rd] = cvt_sf32_sf128(s->fp_reg[rs1], &s->fflags);
	break;
	case 1: /* cvt.q.d */
	s->fp_reg[rd] = cvt_sf64_sf128(s->fp_reg[rs1], &s->fflags);
	break;
	#endif /* F_SIZE == 128 */

	default:
	goto illegal_insn;
	}
	s->fs = 3;
	break;

	case (0x1c << 2) \| OPID:
	if (rs2 != 0)
	goto illegal_insn;
	switch(rm) {
	#if F_SIZE <= XLEN
	case 0: /* fmv.x.s */
	#if F_SIZE == 32
	val = (int32_t)s->fp_reg[rs1];
	#elif F_SIZE == 64
	val = (int64_t)s->fp_reg[rs1];
	#else
	val = (int128_t)s->fp_reg[rs1];
	#endif
	break;
	#endif /* F_SIZE <= XLEN */
	case 1: /* fclass */
	val = glue(fclass_sf, F_SIZE)(s->fp_reg[rs1]);
	break;
	default:
	goto illegal_insn;
	}
	if (rd != 0)
	s->reg[rd] = val;
	break;

	#if F_SIZE <= XLEN
	case (0x1e << 2) \| OPID: /* fmv.s.x */
	if (rs2 != 0 \|\| rm != 0)
	goto illegal_insn;
	#if F_SIZE == 32
	s->fp_reg[rd] = (int32_t)s->reg[rs1];
	#elif F_SIZE == 64
	s->fp_reg[rd] = (int64_t)s->reg[rs1];
	#else
	s->fp_reg[rd] = (int128_t)s->reg[rs1];
	#endif
	s->fs = 3;
	break;
	#endif /* F_SIZE <= XLEN */

	#undef F_SIZE
	#undef F_HIGH
	#undef OPID
	#undef FSIGN_MASK