1507b6a50SPeter Maydell /* 2507b6a50SPeter Maydell * M-profile MVE Operations 3507b6a50SPeter Maydell * 4507b6a50SPeter Maydell * Copyright (c) 2021 Linaro, Ltd. 5507b6a50SPeter Maydell * 6507b6a50SPeter Maydell * This library is free software; you can redistribute it and/or 7507b6a50SPeter Maydell * modify it under the terms of the GNU Lesser General Public 8507b6a50SPeter Maydell * License as published by the Free Software Foundation; either 9507b6a50SPeter Maydell * version 2.1 of the License, or (at your option) any later version. 10507b6a50SPeter Maydell * 11507b6a50SPeter Maydell * This library is distributed in the hope that it will be useful, 12507b6a50SPeter Maydell * but WITHOUT ANY WARRANTY; without even the implied warranty of 13507b6a50SPeter Maydell * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU 14507b6a50SPeter Maydell * Lesser General Public License for more details. 15507b6a50SPeter Maydell * 16507b6a50SPeter Maydell * You should have received a copy of the GNU Lesser General Public 17507b6a50SPeter Maydell * License along with this library; if not, see <http://www.gnu.org/licenses/>. 18507b6a50SPeter Maydell */ 19507b6a50SPeter Maydell 20507b6a50SPeter Maydell #include "qemu/osdep.h" 2138548747SPeter Maydell #include "qemu/int128.h" 22507b6a50SPeter Maydell #include "cpu.h" 23507b6a50SPeter Maydell #include "internals.h" 24507b6a50SPeter Maydell #include "vec_internal.h" 25507b6a50SPeter Maydell #include "exec/helper-proto.h" 26507b6a50SPeter Maydell #include "exec/cpu_ldst.h" 27507b6a50SPeter Maydell #include "exec/exec-all.h" 2859c91773SPeter Maydell #include "tcg/tcg.h" 29507b6a50SPeter Maydell 30507b6a50SPeter Maydell static uint16_t mve_element_mask(CPUARMState *env) 31507b6a50SPeter Maydell { 32507b6a50SPeter Maydell /* 33507b6a50SPeter Maydell * Return the mask of which elements in the MVE vector should be 34507b6a50SPeter Maydell * updated. This is a combination of multiple things: 35507b6a50SPeter Maydell * (1) by default, we update every lane in the vector 36507b6a50SPeter Maydell * (2) VPT predication stores its state in the VPR register; 37507b6a50SPeter Maydell * (3) low-overhead-branch tail predication will mask out part 38507b6a50SPeter Maydell * the vector on the final iteration of the loop 39507b6a50SPeter Maydell * (4) if EPSR.ECI is set then we must execute only some beats 40507b6a50SPeter Maydell * of the insn 41507b6a50SPeter Maydell * We combine all these into a 16-bit result with the same semantics 42507b6a50SPeter Maydell * as VPR.P0: 0 to mask the lane, 1 if it is active. 43507b6a50SPeter Maydell * 8-bit vector ops will look at all bits of the result; 44507b6a50SPeter Maydell * 16-bit ops will look at bits 0, 2, 4, ...; 45507b6a50SPeter Maydell * 32-bit ops will look at bits 0, 4, 8 and 12. 46507b6a50SPeter Maydell * Compare pseudocode GetCurInstrBeat(), though that only returns 47507b6a50SPeter Maydell * the 4-bit slice of the mask corresponding to a single beat. 48507b6a50SPeter Maydell */ 49507b6a50SPeter Maydell uint16_t mask = FIELD_EX32(env->v7m.vpr, V7M_VPR, P0); 50507b6a50SPeter Maydell 51507b6a50SPeter Maydell if (!(env->v7m.vpr & R_V7M_VPR_MASK01_MASK)) { 52507b6a50SPeter Maydell mask |= 0xff; 53507b6a50SPeter Maydell } 54507b6a50SPeter Maydell if (!(env->v7m.vpr & R_V7M_VPR_MASK23_MASK)) { 55507b6a50SPeter Maydell mask |= 0xff00; 56507b6a50SPeter Maydell } 57507b6a50SPeter Maydell 58507b6a50SPeter Maydell if (env->v7m.ltpsize < 4 && 59507b6a50SPeter Maydell env->regs[14] <= (1 << (4 - env->v7m.ltpsize))) { 60507b6a50SPeter Maydell /* 61507b6a50SPeter Maydell * Tail predication active, and this is the last loop iteration. 62507b6a50SPeter Maydell * The element size is (1 << ltpsize), and we only want to process 63507b6a50SPeter Maydell * loopcount elements, so we want to retain the least significant 64507b6a50SPeter Maydell * (loopcount * esize) predicate bits and zero out bits above that. 65507b6a50SPeter Maydell */ 66507b6a50SPeter Maydell int masklen = env->regs[14] << env->v7m.ltpsize; 67507b6a50SPeter Maydell assert(masklen <= 16); 68507b6a50SPeter Maydell mask &= MAKE_64BIT_MASK(0, masklen); 69507b6a50SPeter Maydell } 70507b6a50SPeter Maydell 71507b6a50SPeter Maydell if ((env->condexec_bits & 0xf) == 0) { 72507b6a50SPeter Maydell /* 73507b6a50SPeter Maydell * ECI bits indicate which beats are already executed; 74507b6a50SPeter Maydell * we handle this by effectively predicating them out. 75507b6a50SPeter Maydell */ 76507b6a50SPeter Maydell int eci = env->condexec_bits >> 4; 77507b6a50SPeter Maydell switch (eci) { 78507b6a50SPeter Maydell case ECI_NONE: 79507b6a50SPeter Maydell break; 80507b6a50SPeter Maydell case ECI_A0: 81507b6a50SPeter Maydell mask &= 0xfff0; 82507b6a50SPeter Maydell break; 83507b6a50SPeter Maydell case ECI_A0A1: 84507b6a50SPeter Maydell mask &= 0xff00; 85507b6a50SPeter Maydell break; 86507b6a50SPeter Maydell case ECI_A0A1A2: 87507b6a50SPeter Maydell case ECI_A0A1A2B0: 88507b6a50SPeter Maydell mask &= 0xf000; 89507b6a50SPeter Maydell break; 90507b6a50SPeter Maydell default: 91507b6a50SPeter Maydell g_assert_not_reached(); 92507b6a50SPeter Maydell } 93507b6a50SPeter Maydell } 94507b6a50SPeter Maydell 95507b6a50SPeter Maydell return mask; 96507b6a50SPeter Maydell } 97507b6a50SPeter Maydell 98507b6a50SPeter Maydell static void mve_advance_vpt(CPUARMState *env) 99507b6a50SPeter Maydell { 100507b6a50SPeter Maydell /* Advance the VPT and ECI state if necessary */ 101507b6a50SPeter Maydell uint32_t vpr = env->v7m.vpr; 102507b6a50SPeter Maydell unsigned mask01, mask23; 103507b6a50SPeter Maydell 104507b6a50SPeter Maydell if ((env->condexec_bits & 0xf) == 0) { 105507b6a50SPeter Maydell env->condexec_bits = (env->condexec_bits == (ECI_A0A1A2B0 << 4)) ? 106507b6a50SPeter Maydell (ECI_A0 << 4) : (ECI_NONE << 4); 107507b6a50SPeter Maydell } 108507b6a50SPeter Maydell 109507b6a50SPeter Maydell if (!(vpr & (R_V7M_VPR_MASK01_MASK | R_V7M_VPR_MASK23_MASK))) { 110507b6a50SPeter Maydell /* VPT not enabled, nothing to do */ 111507b6a50SPeter Maydell return; 112507b6a50SPeter Maydell } 113507b6a50SPeter Maydell 114507b6a50SPeter Maydell mask01 = FIELD_EX32(vpr, V7M_VPR, MASK01); 115507b6a50SPeter Maydell mask23 = FIELD_EX32(vpr, V7M_VPR, MASK23); 116507b6a50SPeter Maydell if (mask01 > 8) { 117507b6a50SPeter Maydell /* high bit set, but not 0b1000: invert the relevant half of P0 */ 118507b6a50SPeter Maydell vpr ^= 0xff; 119507b6a50SPeter Maydell } 120507b6a50SPeter Maydell if (mask23 > 8) { 121507b6a50SPeter Maydell /* high bit set, but not 0b1000: invert the relevant half of P0 */ 122507b6a50SPeter Maydell vpr ^= 0xff00; 123507b6a50SPeter Maydell } 124507b6a50SPeter Maydell vpr = FIELD_DP32(vpr, V7M_VPR, MASK01, mask01 << 1); 125507b6a50SPeter Maydell vpr = FIELD_DP32(vpr, V7M_VPR, MASK23, mask23 << 1); 126507b6a50SPeter Maydell env->v7m.vpr = vpr; 127507b6a50SPeter Maydell } 128507b6a50SPeter Maydell 129507b6a50SPeter Maydell 130507b6a50SPeter Maydell #define DO_VLDR(OP, MSIZE, LDTYPE, ESIZE, TYPE) \ 131507b6a50SPeter Maydell void HELPER(mve_##OP)(CPUARMState *env, void *vd, uint32_t addr) \ 132507b6a50SPeter Maydell { \ 133507b6a50SPeter Maydell TYPE *d = vd; \ 134507b6a50SPeter Maydell uint16_t mask = mve_element_mask(env); \ 135507b6a50SPeter Maydell unsigned b, e; \ 136507b6a50SPeter Maydell /* \ 137507b6a50SPeter Maydell * R_SXTM allows the dest reg to become UNKNOWN for abandoned \ 138507b6a50SPeter Maydell * beats so we don't care if we update part of the dest and \ 139507b6a50SPeter Maydell * then take an exception. \ 140507b6a50SPeter Maydell */ \ 141507b6a50SPeter Maydell for (b = 0, e = 0; b < 16; b += ESIZE, e++) { \ 142507b6a50SPeter Maydell if (mask & (1 << b)) { \ 143507b6a50SPeter Maydell d[H##ESIZE(e)] = cpu_##LDTYPE##_data_ra(env, addr, GETPC()); \ 144507b6a50SPeter Maydell } \ 145507b6a50SPeter Maydell addr += MSIZE; \ 146507b6a50SPeter Maydell } \ 147507b6a50SPeter Maydell mve_advance_vpt(env); \ 148507b6a50SPeter Maydell } 149507b6a50SPeter Maydell 150507b6a50SPeter Maydell #define DO_VSTR(OP, MSIZE, STTYPE, ESIZE, TYPE) \ 151507b6a50SPeter Maydell void HELPER(mve_##OP)(CPUARMState *env, void *vd, uint32_t addr) \ 152507b6a50SPeter Maydell { \ 153507b6a50SPeter Maydell TYPE *d = vd; \ 154507b6a50SPeter Maydell uint16_t mask = mve_element_mask(env); \ 155507b6a50SPeter Maydell unsigned b, e; \ 156507b6a50SPeter Maydell for (b = 0, e = 0; b < 16; b += ESIZE, e++) { \ 157507b6a50SPeter Maydell if (mask & (1 << b)) { \ 158507b6a50SPeter Maydell cpu_##STTYPE##_data_ra(env, addr, d[H##ESIZE(e)], GETPC()); \ 159507b6a50SPeter Maydell } \ 160507b6a50SPeter Maydell addr += MSIZE; \ 161507b6a50SPeter Maydell } \ 162507b6a50SPeter Maydell mve_advance_vpt(env); \ 163507b6a50SPeter Maydell } 164507b6a50SPeter Maydell 165507b6a50SPeter Maydell DO_VLDR(vldrb, 1, ldub, 1, uint8_t) 166507b6a50SPeter Maydell DO_VLDR(vldrh, 2, lduw, 2, uint16_t) 167507b6a50SPeter Maydell DO_VLDR(vldrw, 4, ldl, 4, uint32_t) 168507b6a50SPeter Maydell 169507b6a50SPeter Maydell DO_VSTR(vstrb, 1, stb, 1, uint8_t) 170507b6a50SPeter Maydell DO_VSTR(vstrh, 2, stw, 2, uint16_t) 171507b6a50SPeter Maydell DO_VSTR(vstrw, 4, stl, 4, uint32_t) 172507b6a50SPeter Maydell 1732fc6b751SPeter Maydell DO_VLDR(vldrb_sh, 1, ldsb, 2, int16_t) 1742fc6b751SPeter Maydell DO_VLDR(vldrb_sw, 1, ldsb, 4, int32_t) 1752fc6b751SPeter Maydell DO_VLDR(vldrb_uh, 1, ldub, 2, uint16_t) 1762fc6b751SPeter Maydell DO_VLDR(vldrb_uw, 1, ldub, 4, uint32_t) 1772fc6b751SPeter Maydell DO_VLDR(vldrh_sw, 2, ldsw, 4, int32_t) 1782fc6b751SPeter Maydell DO_VLDR(vldrh_uw, 2, lduw, 4, uint32_t) 1792fc6b751SPeter Maydell 1802fc6b751SPeter Maydell DO_VSTR(vstrb_h, 1, stb, 2, int16_t) 1812fc6b751SPeter Maydell DO_VSTR(vstrb_w, 1, stb, 4, int32_t) 1822fc6b751SPeter Maydell DO_VSTR(vstrh_w, 2, stw, 4, int32_t) 1832fc6b751SPeter Maydell 184507b6a50SPeter Maydell #undef DO_VLDR 185507b6a50SPeter Maydell #undef DO_VSTR 1860f0f2bd5SPeter Maydell 1870f0f2bd5SPeter Maydell /* 1880f0f2bd5SPeter Maydell * The mergemask(D, R, M) macro performs the operation "*D = R" but 1890f0f2bd5SPeter Maydell * storing only the bytes which correspond to 1 bits in M, 1900f0f2bd5SPeter Maydell * leaving other bytes in *D unchanged. We use _Generic 1910f0f2bd5SPeter Maydell * to select the correct implementation based on the type of D. 1920f0f2bd5SPeter Maydell */ 1930f0f2bd5SPeter Maydell 1940f0f2bd5SPeter Maydell static void mergemask_ub(uint8_t *d, uint8_t r, uint16_t mask) 1950f0f2bd5SPeter Maydell { 1960f0f2bd5SPeter Maydell if (mask & 1) { 1970f0f2bd5SPeter Maydell *d = r; 1980f0f2bd5SPeter Maydell } 1990f0f2bd5SPeter Maydell } 2000f0f2bd5SPeter Maydell 2010f0f2bd5SPeter Maydell static void mergemask_sb(int8_t *d, int8_t r, uint16_t mask) 2020f0f2bd5SPeter Maydell { 2030f0f2bd5SPeter Maydell mergemask_ub((uint8_t *)d, r, mask); 2040f0f2bd5SPeter Maydell } 2050f0f2bd5SPeter Maydell 2060f0f2bd5SPeter Maydell static void mergemask_uh(uint16_t *d, uint16_t r, uint16_t mask) 2070f0f2bd5SPeter Maydell { 2080f0f2bd5SPeter Maydell uint16_t bmask = expand_pred_b_data[mask & 3]; 2090f0f2bd5SPeter Maydell *d = (*d & ~bmask) | (r & bmask); 2100f0f2bd5SPeter Maydell } 2110f0f2bd5SPeter Maydell 2120f0f2bd5SPeter Maydell static void mergemask_sh(int16_t *d, int16_t r, uint16_t mask) 2130f0f2bd5SPeter Maydell { 2140f0f2bd5SPeter Maydell mergemask_uh((uint16_t *)d, r, mask); 2150f0f2bd5SPeter Maydell } 2160f0f2bd5SPeter Maydell 2170f0f2bd5SPeter Maydell static void mergemask_uw(uint32_t *d, uint32_t r, uint16_t mask) 2180f0f2bd5SPeter Maydell { 2190f0f2bd5SPeter Maydell uint32_t bmask = expand_pred_b_data[mask & 0xf]; 2200f0f2bd5SPeter Maydell *d = (*d & ~bmask) | (r & bmask); 2210f0f2bd5SPeter Maydell } 2220f0f2bd5SPeter Maydell 2230f0f2bd5SPeter Maydell static void mergemask_sw(int32_t *d, int32_t r, uint16_t mask) 2240f0f2bd5SPeter Maydell { 2250f0f2bd5SPeter Maydell mergemask_uw((uint32_t *)d, r, mask); 2260f0f2bd5SPeter Maydell } 2270f0f2bd5SPeter Maydell 2280f0f2bd5SPeter Maydell static void mergemask_uq(uint64_t *d, uint64_t r, uint16_t mask) 2290f0f2bd5SPeter Maydell { 2300f0f2bd5SPeter Maydell uint64_t bmask = expand_pred_b_data[mask & 0xff]; 2310f0f2bd5SPeter Maydell *d = (*d & ~bmask) | (r & bmask); 2320f0f2bd5SPeter Maydell } 2330f0f2bd5SPeter Maydell 2340f0f2bd5SPeter Maydell static void mergemask_sq(int64_t *d, int64_t r, uint16_t mask) 2350f0f2bd5SPeter Maydell { 2360f0f2bd5SPeter Maydell mergemask_uq((uint64_t *)d, r, mask); 2370f0f2bd5SPeter Maydell } 2380f0f2bd5SPeter Maydell 2390f0f2bd5SPeter Maydell #define mergemask(D, R, M) \ 2400f0f2bd5SPeter Maydell _Generic(D, \ 2410f0f2bd5SPeter Maydell uint8_t *: mergemask_ub, \ 2420f0f2bd5SPeter Maydell int8_t *: mergemask_sb, \ 2430f0f2bd5SPeter Maydell uint16_t *: mergemask_uh, \ 2440f0f2bd5SPeter Maydell int16_t *: mergemask_sh, \ 2450f0f2bd5SPeter Maydell uint32_t *: mergemask_uw, \ 2460f0f2bd5SPeter Maydell int32_t *: mergemask_sw, \ 2470f0f2bd5SPeter Maydell uint64_t *: mergemask_uq, \ 2480f0f2bd5SPeter Maydell int64_t *: mergemask_sq)(D, R, M) 2490f0f2bd5SPeter Maydell 250ab59362fSPeter Maydell void HELPER(mve_vdup)(CPUARMState *env, void *vd, uint32_t val) 251ab59362fSPeter Maydell { 252ab59362fSPeter Maydell /* 253ab59362fSPeter Maydell * The generated code already replicated an 8 or 16 bit constant 254ab59362fSPeter Maydell * into the 32-bit value, so we only need to write the 32-bit 255ab59362fSPeter Maydell * value to all elements of the Qreg, allowing for predication. 256ab59362fSPeter Maydell */ 257ab59362fSPeter Maydell uint32_t *d = vd; 258ab59362fSPeter Maydell uint16_t mask = mve_element_mask(env); 259ab59362fSPeter Maydell unsigned e; 260ab59362fSPeter Maydell for (e = 0; e < 16 / 4; e++, mask >>= 4) { 261ab59362fSPeter Maydell mergemask(&d[H4(e)], val, mask); 262ab59362fSPeter Maydell } 263ab59362fSPeter Maydell mve_advance_vpt(env); 264ab59362fSPeter Maydell } 265ab59362fSPeter Maydell 2660f0f2bd5SPeter Maydell #define DO_1OP(OP, ESIZE, TYPE, FN) \ 2670f0f2bd5SPeter Maydell void HELPER(mve_##OP)(CPUARMState *env, void *vd, void *vm) \ 2680f0f2bd5SPeter Maydell { \ 2690f0f2bd5SPeter Maydell TYPE *d = vd, *m = vm; \ 2700f0f2bd5SPeter Maydell uint16_t mask = mve_element_mask(env); \ 2710f0f2bd5SPeter Maydell unsigned e; \ 2720f0f2bd5SPeter Maydell for (e = 0; e < 16 / ESIZE; e++, mask >>= ESIZE) { \ 2730f0f2bd5SPeter Maydell mergemask(&d[H##ESIZE(e)], FN(m[H##ESIZE(e)]), mask); \ 2740f0f2bd5SPeter Maydell } \ 2750f0f2bd5SPeter Maydell mve_advance_vpt(env); \ 2760f0f2bd5SPeter Maydell } 2770f0f2bd5SPeter Maydell 2786437f1f7SPeter Maydell #define DO_CLS_B(N) (clrsb32(N) - 24) 2796437f1f7SPeter Maydell #define DO_CLS_H(N) (clrsb32(N) - 16) 2806437f1f7SPeter Maydell 2816437f1f7SPeter Maydell DO_1OP(vclsb, 1, int8_t, DO_CLS_B) 2826437f1f7SPeter Maydell DO_1OP(vclsh, 2, int16_t, DO_CLS_H) 2836437f1f7SPeter Maydell DO_1OP(vclsw, 4, int32_t, clrsb32) 2846437f1f7SPeter Maydell 2850f0f2bd5SPeter Maydell #define DO_CLZ_B(N) (clz32(N) - 24) 2860f0f2bd5SPeter Maydell #define DO_CLZ_H(N) (clz32(N) - 16) 2870f0f2bd5SPeter Maydell 2880f0f2bd5SPeter Maydell DO_1OP(vclzb, 1, uint8_t, DO_CLZ_B) 2890f0f2bd5SPeter Maydell DO_1OP(vclzh, 2, uint16_t, DO_CLZ_H) 2900f0f2bd5SPeter Maydell DO_1OP(vclzw, 4, uint32_t, clz32) 291249b5309SPeter Maydell 292249b5309SPeter Maydell DO_1OP(vrev16b, 2, uint16_t, bswap16) 293249b5309SPeter Maydell DO_1OP(vrev32b, 4, uint32_t, bswap32) 294249b5309SPeter Maydell DO_1OP(vrev32h, 4, uint32_t, hswap32) 295249b5309SPeter Maydell DO_1OP(vrev64b, 8, uint64_t, bswap64) 296249b5309SPeter Maydell DO_1OP(vrev64h, 8, uint64_t, hswap64) 297249b5309SPeter Maydell DO_1OP(vrev64w, 8, uint64_t, wswap64) 2988abd3c80SPeter Maydell 2998abd3c80SPeter Maydell #define DO_NOT(N) (~(N)) 3008abd3c80SPeter Maydell 3018abd3c80SPeter Maydell DO_1OP(vmvn, 8, uint64_t, DO_NOT) 30259c91773SPeter Maydell 30359c91773SPeter Maydell #define DO_ABS(N) ((N) < 0 ? -(N) : (N)) 30459c91773SPeter Maydell #define DO_FABSH(N) ((N) & dup_const(MO_16, 0x7fff)) 30559c91773SPeter Maydell #define DO_FABSS(N) ((N) & dup_const(MO_32, 0x7fffffff)) 30659c91773SPeter Maydell 30759c91773SPeter Maydell DO_1OP(vabsb, 1, int8_t, DO_ABS) 30859c91773SPeter Maydell DO_1OP(vabsh, 2, int16_t, DO_ABS) 30959c91773SPeter Maydell DO_1OP(vabsw, 4, int32_t, DO_ABS) 31059c91773SPeter Maydell 31159c91773SPeter Maydell /* We can do these 64 bits at a time */ 31259c91773SPeter Maydell DO_1OP(vfabsh, 8, uint64_t, DO_FABSH) 31359c91773SPeter Maydell DO_1OP(vfabss, 8, uint64_t, DO_FABSS) 314399a8c76SPeter Maydell 315399a8c76SPeter Maydell #define DO_NEG(N) (-(N)) 316399a8c76SPeter Maydell #define DO_FNEGH(N) ((N) ^ dup_const(MO_16, 0x8000)) 317399a8c76SPeter Maydell #define DO_FNEGS(N) ((N) ^ dup_const(MO_32, 0x80000000)) 318399a8c76SPeter Maydell 319399a8c76SPeter Maydell DO_1OP(vnegb, 1, int8_t, DO_NEG) 320399a8c76SPeter Maydell DO_1OP(vnegh, 2, int16_t, DO_NEG) 321399a8c76SPeter Maydell DO_1OP(vnegw, 4, int32_t, DO_NEG) 322399a8c76SPeter Maydell 323399a8c76SPeter Maydell /* We can do these 64 bits at a time */ 324399a8c76SPeter Maydell DO_1OP(vfnegh, 8, uint64_t, DO_FNEGH) 325399a8c76SPeter Maydell DO_1OP(vfnegs, 8, uint64_t, DO_FNEGS) 32668245e44SPeter Maydell 32768245e44SPeter Maydell #define DO_2OP(OP, ESIZE, TYPE, FN) \ 32868245e44SPeter Maydell void HELPER(glue(mve_, OP))(CPUARMState *env, \ 32968245e44SPeter Maydell void *vd, void *vn, void *vm) \ 33068245e44SPeter Maydell { \ 33168245e44SPeter Maydell TYPE *d = vd, *n = vn, *m = vm; \ 33268245e44SPeter Maydell uint16_t mask = mve_element_mask(env); \ 33368245e44SPeter Maydell unsigned e; \ 33468245e44SPeter Maydell for (e = 0; e < 16 / ESIZE; e++, mask >>= ESIZE) { \ 33568245e44SPeter Maydell mergemask(&d[H##ESIZE(e)], \ 33668245e44SPeter Maydell FN(n[H##ESIZE(e)], m[H##ESIZE(e)]), mask); \ 33768245e44SPeter Maydell } \ 33868245e44SPeter Maydell mve_advance_vpt(env); \ 33968245e44SPeter Maydell } 34068245e44SPeter Maydell 3419333fe4dSPeter Maydell /* provide unsigned 2-op helpers for all sizes */ 3429333fe4dSPeter Maydell #define DO_2OP_U(OP, FN) \ 3439333fe4dSPeter Maydell DO_2OP(OP##b, 1, uint8_t, FN) \ 3449333fe4dSPeter Maydell DO_2OP(OP##h, 2, uint16_t, FN) \ 3459333fe4dSPeter Maydell DO_2OP(OP##w, 4, uint32_t, FN) 3469333fe4dSPeter Maydell 347cd367ff3SPeter Maydell /* provide signed 2-op helpers for all sizes */ 348cd367ff3SPeter Maydell #define DO_2OP_S(OP, FN) \ 349cd367ff3SPeter Maydell DO_2OP(OP##b, 1, int8_t, FN) \ 350cd367ff3SPeter Maydell DO_2OP(OP##h, 2, int16_t, FN) \ 351cd367ff3SPeter Maydell DO_2OP(OP##w, 4, int32_t, FN) 352cd367ff3SPeter Maydell 353ac6ad1dcSPeter Maydell /* 354ac6ad1dcSPeter Maydell * "Long" operations where two half-sized inputs (taken from either the 355ac6ad1dcSPeter Maydell * top or the bottom of the input vector) produce a double-width result. 356ac6ad1dcSPeter Maydell * Here ESIZE, TYPE are for the input, and LESIZE, LTYPE for the output. 357ac6ad1dcSPeter Maydell */ 358ac6ad1dcSPeter Maydell #define DO_2OP_L(OP, TOP, ESIZE, TYPE, LESIZE, LTYPE, FN) \ 359ac6ad1dcSPeter Maydell void HELPER(glue(mve_, OP))(CPUARMState *env, void *vd, void *vn, void *vm) \ 360ac6ad1dcSPeter Maydell { \ 361ac6ad1dcSPeter Maydell LTYPE *d = vd; \ 362ac6ad1dcSPeter Maydell TYPE *n = vn, *m = vm; \ 363ac6ad1dcSPeter Maydell uint16_t mask = mve_element_mask(env); \ 364ac6ad1dcSPeter Maydell unsigned le; \ 365ac6ad1dcSPeter Maydell for (le = 0; le < 16 / LESIZE; le++, mask >>= LESIZE) { \ 366ac6ad1dcSPeter Maydell LTYPE r = FN((LTYPE)n[H##ESIZE(le * 2 + TOP)], \ 367ac6ad1dcSPeter Maydell m[H##ESIZE(le * 2 + TOP)]); \ 368ac6ad1dcSPeter Maydell mergemask(&d[H##LESIZE(le)], r, mask); \ 369ac6ad1dcSPeter Maydell } \ 370ac6ad1dcSPeter Maydell mve_advance_vpt(env); \ 371ac6ad1dcSPeter Maydell } 372ac6ad1dcSPeter Maydell 373380caf6cSPeter Maydell #define DO_2OP_SAT(OP, ESIZE, TYPE, FN) \ 374380caf6cSPeter Maydell void HELPER(glue(mve_, OP))(CPUARMState *env, void *vd, void *vn, void *vm) \ 375380caf6cSPeter Maydell { \ 376380caf6cSPeter Maydell TYPE *d = vd, *n = vn, *m = vm; \ 377380caf6cSPeter Maydell uint16_t mask = mve_element_mask(env); \ 378380caf6cSPeter Maydell unsigned e; \ 379380caf6cSPeter Maydell bool qc = false; \ 380380caf6cSPeter Maydell for (e = 0; e < 16 / ESIZE; e++, mask >>= ESIZE) { \ 381380caf6cSPeter Maydell bool sat = false; \ 382380caf6cSPeter Maydell TYPE r = FN(n[H##ESIZE(e)], m[H##ESIZE(e)], &sat); \ 383380caf6cSPeter Maydell mergemask(&d[H##ESIZE(e)], r, mask); \ 384380caf6cSPeter Maydell qc |= sat & mask & 1; \ 385380caf6cSPeter Maydell } \ 386380caf6cSPeter Maydell if (qc) { \ 387380caf6cSPeter Maydell env->vfp.qc[0] = qc; \ 388380caf6cSPeter Maydell } \ 389380caf6cSPeter Maydell mve_advance_vpt(env); \ 390380caf6cSPeter Maydell } 391380caf6cSPeter Maydell 39268245e44SPeter Maydell #define DO_AND(N, M) ((N) & (M)) 39368245e44SPeter Maydell #define DO_BIC(N, M) ((N) & ~(M)) 39468245e44SPeter Maydell #define DO_ORR(N, M) ((N) | (M)) 39568245e44SPeter Maydell #define DO_ORN(N, M) ((N) | ~(M)) 39668245e44SPeter Maydell #define DO_EOR(N, M) ((N) ^ (M)) 39768245e44SPeter Maydell 39868245e44SPeter Maydell DO_2OP(vand, 8, uint64_t, DO_AND) 39968245e44SPeter Maydell DO_2OP(vbic, 8, uint64_t, DO_BIC) 40068245e44SPeter Maydell DO_2OP(vorr, 8, uint64_t, DO_ORR) 40168245e44SPeter Maydell DO_2OP(vorn, 8, uint64_t, DO_ORN) 40268245e44SPeter Maydell DO_2OP(veor, 8, uint64_t, DO_EOR) 4039333fe4dSPeter Maydell 4049333fe4dSPeter Maydell #define DO_ADD(N, M) ((N) + (M)) 4059333fe4dSPeter Maydell #define DO_SUB(N, M) ((N) - (M)) 4069333fe4dSPeter Maydell #define DO_MUL(N, M) ((N) * (M)) 4079333fe4dSPeter Maydell 4089333fe4dSPeter Maydell DO_2OP_U(vadd, DO_ADD) 4099333fe4dSPeter Maydell DO_2OP_U(vsub, DO_SUB) 4109333fe4dSPeter Maydell DO_2OP_U(vmul, DO_MUL) 411ba62cc56SPeter Maydell 412ac6ad1dcSPeter Maydell DO_2OP_L(vmullbsb, 0, 1, int8_t, 2, int16_t, DO_MUL) 413ac6ad1dcSPeter Maydell DO_2OP_L(vmullbsh, 0, 2, int16_t, 4, int32_t, DO_MUL) 414ac6ad1dcSPeter Maydell DO_2OP_L(vmullbsw, 0, 4, int32_t, 8, int64_t, DO_MUL) 415ac6ad1dcSPeter Maydell DO_2OP_L(vmullbub, 0, 1, uint8_t, 2, uint16_t, DO_MUL) 416ac6ad1dcSPeter Maydell DO_2OP_L(vmullbuh, 0, 2, uint16_t, 4, uint32_t, DO_MUL) 417ac6ad1dcSPeter Maydell DO_2OP_L(vmullbuw, 0, 4, uint32_t, 8, uint64_t, DO_MUL) 418ac6ad1dcSPeter Maydell 419ac6ad1dcSPeter Maydell DO_2OP_L(vmulltsb, 1, 1, int8_t, 2, int16_t, DO_MUL) 420ac6ad1dcSPeter Maydell DO_2OP_L(vmulltsh, 1, 2, int16_t, 4, int32_t, DO_MUL) 421ac6ad1dcSPeter Maydell DO_2OP_L(vmulltsw, 1, 4, int32_t, 8, int64_t, DO_MUL) 422ac6ad1dcSPeter Maydell DO_2OP_L(vmulltub, 1, 1, uint8_t, 2, uint16_t, DO_MUL) 423ac6ad1dcSPeter Maydell DO_2OP_L(vmulltuh, 1, 2, uint16_t, 4, uint32_t, DO_MUL) 424ac6ad1dcSPeter Maydell DO_2OP_L(vmulltuw, 1, 4, uint32_t, 8, uint64_t, DO_MUL) 425ac6ad1dcSPeter Maydell 426ba62cc56SPeter Maydell /* 427ba62cc56SPeter Maydell * Because the computation type is at least twice as large as required, 428ba62cc56SPeter Maydell * these work for both signed and unsigned source types. 429ba62cc56SPeter Maydell */ 430ba62cc56SPeter Maydell static inline uint8_t do_mulh_b(int32_t n, int32_t m) 431ba62cc56SPeter Maydell { 432ba62cc56SPeter Maydell return (n * m) >> 8; 433ba62cc56SPeter Maydell } 434ba62cc56SPeter Maydell 435ba62cc56SPeter Maydell static inline uint16_t do_mulh_h(int32_t n, int32_t m) 436ba62cc56SPeter Maydell { 437ba62cc56SPeter Maydell return (n * m) >> 16; 438ba62cc56SPeter Maydell } 439ba62cc56SPeter Maydell 440ba62cc56SPeter Maydell static inline uint32_t do_mulh_w(int64_t n, int64_t m) 441ba62cc56SPeter Maydell { 442ba62cc56SPeter Maydell return (n * m) >> 32; 443ba62cc56SPeter Maydell } 444ba62cc56SPeter Maydell 445fca87b78SPeter Maydell static inline uint8_t do_rmulh_b(int32_t n, int32_t m) 446fca87b78SPeter Maydell { 447fca87b78SPeter Maydell return (n * m + (1U << 7)) >> 8; 448fca87b78SPeter Maydell } 449fca87b78SPeter Maydell 450fca87b78SPeter Maydell static inline uint16_t do_rmulh_h(int32_t n, int32_t m) 451fca87b78SPeter Maydell { 452fca87b78SPeter Maydell return (n * m + (1U << 15)) >> 16; 453fca87b78SPeter Maydell } 454fca87b78SPeter Maydell 455fca87b78SPeter Maydell static inline uint32_t do_rmulh_w(int64_t n, int64_t m) 456fca87b78SPeter Maydell { 457fca87b78SPeter Maydell return (n * m + (1U << 31)) >> 32; 458fca87b78SPeter Maydell } 459fca87b78SPeter Maydell 460ba62cc56SPeter Maydell DO_2OP(vmulhsb, 1, int8_t, do_mulh_b) 461ba62cc56SPeter Maydell DO_2OP(vmulhsh, 2, int16_t, do_mulh_h) 462ba62cc56SPeter Maydell DO_2OP(vmulhsw, 4, int32_t, do_mulh_w) 463ba62cc56SPeter Maydell DO_2OP(vmulhub, 1, uint8_t, do_mulh_b) 464ba62cc56SPeter Maydell DO_2OP(vmulhuh, 2, uint16_t, do_mulh_h) 465ba62cc56SPeter Maydell DO_2OP(vmulhuw, 4, uint32_t, do_mulh_w) 466fca87b78SPeter Maydell 467fca87b78SPeter Maydell DO_2OP(vrmulhsb, 1, int8_t, do_rmulh_b) 468fca87b78SPeter Maydell DO_2OP(vrmulhsh, 2, int16_t, do_rmulh_h) 469fca87b78SPeter Maydell DO_2OP(vrmulhsw, 4, int32_t, do_rmulh_w) 470fca87b78SPeter Maydell DO_2OP(vrmulhub, 1, uint8_t, do_rmulh_b) 471fca87b78SPeter Maydell DO_2OP(vrmulhuh, 2, uint16_t, do_rmulh_h) 472fca87b78SPeter Maydell DO_2OP(vrmulhuw, 4, uint32_t, do_rmulh_w) 473cd367ff3SPeter Maydell 474cd367ff3SPeter Maydell #define DO_MAX(N, M) ((N) >= (M) ? (N) : (M)) 475cd367ff3SPeter Maydell #define DO_MIN(N, M) ((N) >= (M) ? (M) : (N)) 476cd367ff3SPeter Maydell 477cd367ff3SPeter Maydell DO_2OP_S(vmaxs, DO_MAX) 478cd367ff3SPeter Maydell DO_2OP_U(vmaxu, DO_MAX) 479cd367ff3SPeter Maydell DO_2OP_S(vmins, DO_MIN) 480cd367ff3SPeter Maydell DO_2OP_U(vminu, DO_MIN) 481bc67aa8dSPeter Maydell 482bc67aa8dSPeter Maydell #define DO_ABD(N, M) ((N) >= (M) ? (N) - (M) : (M) - (N)) 483bc67aa8dSPeter Maydell 484bc67aa8dSPeter Maydell DO_2OP_S(vabds, DO_ABD) 485bc67aa8dSPeter Maydell DO_2OP_U(vabdu, DO_ABD) 486abc48e31SPeter Maydell 487abc48e31SPeter Maydell static inline uint32_t do_vhadd_u(uint32_t n, uint32_t m) 488abc48e31SPeter Maydell { 489abc48e31SPeter Maydell return ((uint64_t)n + m) >> 1; 490abc48e31SPeter Maydell } 491abc48e31SPeter Maydell 492abc48e31SPeter Maydell static inline int32_t do_vhadd_s(int32_t n, int32_t m) 493abc48e31SPeter Maydell { 494abc48e31SPeter Maydell return ((int64_t)n + m) >> 1; 495abc48e31SPeter Maydell } 496abc48e31SPeter Maydell 497abc48e31SPeter Maydell static inline uint32_t do_vhsub_u(uint32_t n, uint32_t m) 498abc48e31SPeter Maydell { 499abc48e31SPeter Maydell return ((uint64_t)n - m) >> 1; 500abc48e31SPeter Maydell } 501abc48e31SPeter Maydell 502abc48e31SPeter Maydell static inline int32_t do_vhsub_s(int32_t n, int32_t m) 503abc48e31SPeter Maydell { 504abc48e31SPeter Maydell return ((int64_t)n - m) >> 1; 505abc48e31SPeter Maydell } 506abc48e31SPeter Maydell 507abc48e31SPeter Maydell DO_2OP_S(vhadds, do_vhadd_s) 508abc48e31SPeter Maydell DO_2OP_U(vhaddu, do_vhadd_u) 509abc48e31SPeter Maydell DO_2OP_S(vhsubs, do_vhsub_s) 510abc48e31SPeter Maydell DO_2OP_U(vhsubu, do_vhsub_u) 5111d2386f7SPeter Maydell 51239f2ec85SPeter Maydell static inline int32_t do_sat_bhw(int64_t val, int64_t min, int64_t max, bool *s) 51339f2ec85SPeter Maydell { 51439f2ec85SPeter Maydell if (val > max) { 51539f2ec85SPeter Maydell *s = true; 51639f2ec85SPeter Maydell return max; 51739f2ec85SPeter Maydell } else if (val < min) { 51839f2ec85SPeter Maydell *s = true; 51939f2ec85SPeter Maydell return min; 52039f2ec85SPeter Maydell } 52139f2ec85SPeter Maydell return val; 52239f2ec85SPeter Maydell } 52339f2ec85SPeter Maydell 52439f2ec85SPeter Maydell #define DO_SQADD_B(n, m, s) do_sat_bhw((int64_t)n + m, INT8_MIN, INT8_MAX, s) 52539f2ec85SPeter Maydell #define DO_SQADD_H(n, m, s) do_sat_bhw((int64_t)n + m, INT16_MIN, INT16_MAX, s) 52639f2ec85SPeter Maydell #define DO_SQADD_W(n, m, s) do_sat_bhw((int64_t)n + m, INT32_MIN, INT32_MAX, s) 52739f2ec85SPeter Maydell 52839f2ec85SPeter Maydell #define DO_UQADD_B(n, m, s) do_sat_bhw((int64_t)n + m, 0, UINT8_MAX, s) 52939f2ec85SPeter Maydell #define DO_UQADD_H(n, m, s) do_sat_bhw((int64_t)n + m, 0, UINT16_MAX, s) 53039f2ec85SPeter Maydell #define DO_UQADD_W(n, m, s) do_sat_bhw((int64_t)n + m, 0, UINT32_MAX, s) 53139f2ec85SPeter Maydell 53239f2ec85SPeter Maydell #define DO_SQSUB_B(n, m, s) do_sat_bhw((int64_t)n - m, INT8_MIN, INT8_MAX, s) 53339f2ec85SPeter Maydell #define DO_SQSUB_H(n, m, s) do_sat_bhw((int64_t)n - m, INT16_MIN, INT16_MAX, s) 53439f2ec85SPeter Maydell #define DO_SQSUB_W(n, m, s) do_sat_bhw((int64_t)n - m, INT32_MIN, INT32_MAX, s) 53539f2ec85SPeter Maydell 53639f2ec85SPeter Maydell #define DO_UQSUB_B(n, m, s) do_sat_bhw((int64_t)n - m, 0, UINT8_MAX, s) 53739f2ec85SPeter Maydell #define DO_UQSUB_H(n, m, s) do_sat_bhw((int64_t)n - m, 0, UINT16_MAX, s) 53839f2ec85SPeter Maydell #define DO_UQSUB_W(n, m, s) do_sat_bhw((int64_t)n - m, 0, UINT32_MAX, s) 5391d2386f7SPeter Maydell 54066c05767SPeter Maydell /* 54166c05767SPeter Maydell * For QDMULH and QRDMULH we simplify "double and shift by esize" into 54266c05767SPeter Maydell * "shift by esize-1", adjusting the QRDMULH rounding constant to match. 54366c05767SPeter Maydell */ 54466c05767SPeter Maydell #define DO_QDMULH_B(n, m, s) do_sat_bhw(((int64_t)n * m) >> 7, \ 54566c05767SPeter Maydell INT8_MIN, INT8_MAX, s) 54666c05767SPeter Maydell #define DO_QDMULH_H(n, m, s) do_sat_bhw(((int64_t)n * m) >> 15, \ 54766c05767SPeter Maydell INT16_MIN, INT16_MAX, s) 54866c05767SPeter Maydell #define DO_QDMULH_W(n, m, s) do_sat_bhw(((int64_t)n * m) >> 31, \ 54966c05767SPeter Maydell INT32_MIN, INT32_MAX, s) 55066c05767SPeter Maydell 55166c05767SPeter Maydell #define DO_QRDMULH_B(n, m, s) do_sat_bhw(((int64_t)n * m + (1 << 6)) >> 7, \ 55266c05767SPeter Maydell INT8_MIN, INT8_MAX, s) 55366c05767SPeter Maydell #define DO_QRDMULH_H(n, m, s) do_sat_bhw(((int64_t)n * m + (1 << 14)) >> 15, \ 55466c05767SPeter Maydell INT16_MIN, INT16_MAX, s) 55566c05767SPeter Maydell #define DO_QRDMULH_W(n, m, s) do_sat_bhw(((int64_t)n * m + (1 << 30)) >> 31, \ 55666c05767SPeter Maydell INT32_MIN, INT32_MAX, s) 55766c05767SPeter Maydell 558380caf6cSPeter Maydell DO_2OP_SAT(vqdmulhb, 1, int8_t, DO_QDMULH_B) 559380caf6cSPeter Maydell DO_2OP_SAT(vqdmulhh, 2, int16_t, DO_QDMULH_H) 560380caf6cSPeter Maydell DO_2OP_SAT(vqdmulhw, 4, int32_t, DO_QDMULH_W) 561380caf6cSPeter Maydell 562380caf6cSPeter Maydell DO_2OP_SAT(vqrdmulhb, 1, int8_t, DO_QRDMULH_B) 563380caf6cSPeter Maydell DO_2OP_SAT(vqrdmulhh, 2, int16_t, DO_QRDMULH_H) 564380caf6cSPeter Maydell DO_2OP_SAT(vqrdmulhw, 4, int32_t, DO_QRDMULH_W) 565380caf6cSPeter Maydell 566*f741707bSPeter Maydell DO_2OP_SAT(vqaddub, 1, uint8_t, DO_UQADD_B) 567*f741707bSPeter Maydell DO_2OP_SAT(vqadduh, 2, uint16_t, DO_UQADD_H) 568*f741707bSPeter Maydell DO_2OP_SAT(vqadduw, 4, uint32_t, DO_UQADD_W) 569*f741707bSPeter Maydell DO_2OP_SAT(vqaddsb, 1, int8_t, DO_SQADD_B) 570*f741707bSPeter Maydell DO_2OP_SAT(vqaddsh, 2, int16_t, DO_SQADD_H) 571*f741707bSPeter Maydell DO_2OP_SAT(vqaddsw, 4, int32_t, DO_SQADD_W) 572*f741707bSPeter Maydell 573*f741707bSPeter Maydell DO_2OP_SAT(vqsubub, 1, uint8_t, DO_UQSUB_B) 574*f741707bSPeter Maydell DO_2OP_SAT(vqsubuh, 2, uint16_t, DO_UQSUB_H) 575*f741707bSPeter Maydell DO_2OP_SAT(vqsubuw, 4, uint32_t, DO_UQSUB_W) 576*f741707bSPeter Maydell DO_2OP_SAT(vqsubsb, 1, int8_t, DO_SQSUB_B) 577*f741707bSPeter Maydell DO_2OP_SAT(vqsubsh, 2, int16_t, DO_SQSUB_H) 578*f741707bSPeter Maydell DO_2OP_SAT(vqsubsw, 4, int32_t, DO_SQSUB_W) 579*f741707bSPeter Maydell 580e51896b3SPeter Maydell #define DO_2OP_SCALAR(OP, ESIZE, TYPE, FN) \ 581e51896b3SPeter Maydell void HELPER(glue(mve_, OP))(CPUARMState *env, void *vd, void *vn, \ 582e51896b3SPeter Maydell uint32_t rm) \ 583e51896b3SPeter Maydell { \ 584e51896b3SPeter Maydell TYPE *d = vd, *n = vn; \ 585e51896b3SPeter Maydell TYPE m = rm; \ 586e51896b3SPeter Maydell uint16_t mask = mve_element_mask(env); \ 587e51896b3SPeter Maydell unsigned e; \ 588e51896b3SPeter Maydell for (e = 0; e < 16 / ESIZE; e++, mask >>= ESIZE) { \ 589e51896b3SPeter Maydell mergemask(&d[H##ESIZE(e)], FN(n[H##ESIZE(e)], m), mask); \ 590e51896b3SPeter Maydell } \ 591e51896b3SPeter Maydell mve_advance_vpt(env); \ 592e51896b3SPeter Maydell } 593e51896b3SPeter Maydell 59439f2ec85SPeter Maydell #define DO_2OP_SAT_SCALAR(OP, ESIZE, TYPE, FN) \ 59539f2ec85SPeter Maydell void HELPER(glue(mve_, OP))(CPUARMState *env, void *vd, void *vn, \ 59639f2ec85SPeter Maydell uint32_t rm) \ 59739f2ec85SPeter Maydell { \ 59839f2ec85SPeter Maydell TYPE *d = vd, *n = vn; \ 59939f2ec85SPeter Maydell TYPE m = rm; \ 60039f2ec85SPeter Maydell uint16_t mask = mve_element_mask(env); \ 60139f2ec85SPeter Maydell unsigned e; \ 60239f2ec85SPeter Maydell bool qc = false; \ 60339f2ec85SPeter Maydell for (e = 0; e < 16 / ESIZE; e++, mask >>= ESIZE) { \ 60439f2ec85SPeter Maydell bool sat = false; \ 60539f2ec85SPeter Maydell mergemask(&d[H##ESIZE(e)], FN(n[H##ESIZE(e)], m, &sat), \ 60639f2ec85SPeter Maydell mask); \ 60739f2ec85SPeter Maydell qc |= sat & mask & 1; \ 60839f2ec85SPeter Maydell } \ 60939f2ec85SPeter Maydell if (qc) { \ 61039f2ec85SPeter Maydell env->vfp.qc[0] = qc; \ 61139f2ec85SPeter Maydell } \ 61239f2ec85SPeter Maydell mve_advance_vpt(env); \ 61339f2ec85SPeter Maydell } 61439f2ec85SPeter Maydell 615e51896b3SPeter Maydell /* provide unsigned 2-op scalar helpers for all sizes */ 616e51896b3SPeter Maydell #define DO_2OP_SCALAR_U(OP, FN) \ 617e51896b3SPeter Maydell DO_2OP_SCALAR(OP##b, 1, uint8_t, FN) \ 618e51896b3SPeter Maydell DO_2OP_SCALAR(OP##h, 2, uint16_t, FN) \ 619e51896b3SPeter Maydell DO_2OP_SCALAR(OP##w, 4, uint32_t, FN) 620644f717cSPeter Maydell #define DO_2OP_SCALAR_S(OP, FN) \ 621644f717cSPeter Maydell DO_2OP_SCALAR(OP##b, 1, int8_t, FN) \ 622644f717cSPeter Maydell DO_2OP_SCALAR(OP##h, 2, int16_t, FN) \ 623644f717cSPeter Maydell DO_2OP_SCALAR(OP##w, 4, int32_t, FN) 624e51896b3SPeter Maydell 625e51896b3SPeter Maydell DO_2OP_SCALAR_U(vadd_scalar, DO_ADD) 62691a358fdSPeter Maydell DO_2OP_SCALAR_U(vsub_scalar, DO_SUB) 62791a358fdSPeter Maydell DO_2OP_SCALAR_U(vmul_scalar, DO_MUL) 628644f717cSPeter Maydell DO_2OP_SCALAR_S(vhadds_scalar, do_vhadd_s) 629644f717cSPeter Maydell DO_2OP_SCALAR_U(vhaddu_scalar, do_vhadd_u) 630644f717cSPeter Maydell DO_2OP_SCALAR_S(vhsubs_scalar, do_vhsub_s) 631644f717cSPeter Maydell DO_2OP_SCALAR_U(vhsubu_scalar, do_vhsub_u) 632e51896b3SPeter Maydell 63339f2ec85SPeter Maydell DO_2OP_SAT_SCALAR(vqaddu_scalarb, 1, uint8_t, DO_UQADD_B) 63439f2ec85SPeter Maydell DO_2OP_SAT_SCALAR(vqaddu_scalarh, 2, uint16_t, DO_UQADD_H) 63539f2ec85SPeter Maydell DO_2OP_SAT_SCALAR(vqaddu_scalarw, 4, uint32_t, DO_UQADD_W) 63639f2ec85SPeter Maydell DO_2OP_SAT_SCALAR(vqadds_scalarb, 1, int8_t, DO_SQADD_B) 63739f2ec85SPeter Maydell DO_2OP_SAT_SCALAR(vqadds_scalarh, 2, int16_t, DO_SQADD_H) 63839f2ec85SPeter Maydell DO_2OP_SAT_SCALAR(vqadds_scalarw, 4, int32_t, DO_SQADD_W) 63939f2ec85SPeter Maydell 64039f2ec85SPeter Maydell DO_2OP_SAT_SCALAR(vqsubu_scalarb, 1, uint8_t, DO_UQSUB_B) 64139f2ec85SPeter Maydell DO_2OP_SAT_SCALAR(vqsubu_scalarh, 2, uint16_t, DO_UQSUB_H) 64239f2ec85SPeter Maydell DO_2OP_SAT_SCALAR(vqsubu_scalarw, 4, uint32_t, DO_UQSUB_W) 64339f2ec85SPeter Maydell DO_2OP_SAT_SCALAR(vqsubs_scalarb, 1, int8_t, DO_SQSUB_B) 64439f2ec85SPeter Maydell DO_2OP_SAT_SCALAR(vqsubs_scalarh, 2, int16_t, DO_SQSUB_H) 64539f2ec85SPeter Maydell DO_2OP_SAT_SCALAR(vqsubs_scalarw, 4, int32_t, DO_SQSUB_W) 64639f2ec85SPeter Maydell 64766c05767SPeter Maydell DO_2OP_SAT_SCALAR(vqdmulh_scalarb, 1, int8_t, DO_QDMULH_B) 64866c05767SPeter Maydell DO_2OP_SAT_SCALAR(vqdmulh_scalarh, 2, int16_t, DO_QDMULH_H) 64966c05767SPeter Maydell DO_2OP_SAT_SCALAR(vqdmulh_scalarw, 4, int32_t, DO_QDMULH_W) 65066c05767SPeter Maydell DO_2OP_SAT_SCALAR(vqrdmulh_scalarb, 1, int8_t, DO_QRDMULH_B) 65166c05767SPeter Maydell DO_2OP_SAT_SCALAR(vqrdmulh_scalarh, 2, int16_t, DO_QRDMULH_H) 65266c05767SPeter Maydell DO_2OP_SAT_SCALAR(vqrdmulh_scalarw, 4, int32_t, DO_QRDMULH_W) 65366c05767SPeter Maydell 654a8890353SPeter Maydell /* 655a8890353SPeter Maydell * Long saturating scalar ops. As with DO_2OP_L, TYPE and H are for the 656a8890353SPeter Maydell * input (smaller) type and LESIZE, LTYPE, LH for the output (long) type. 657a8890353SPeter Maydell * SATMASK specifies which bits of the predicate mask matter for determining 658a8890353SPeter Maydell * whether to propagate a saturation indication into FPSCR.QC -- for 659a8890353SPeter Maydell * the 16x16->32 case we must check only the bit corresponding to the T or B 660a8890353SPeter Maydell * half that we used, but for the 32x32->64 case we propagate if the mask 661a8890353SPeter Maydell * bit is set for either half. 662a8890353SPeter Maydell */ 663a8890353SPeter Maydell #define DO_2OP_SAT_SCALAR_L(OP, TOP, ESIZE, TYPE, LESIZE, LTYPE, FN, SATMASK) \ 664a8890353SPeter Maydell void HELPER(glue(mve_, OP))(CPUARMState *env, void *vd, void *vn, \ 665a8890353SPeter Maydell uint32_t rm) \ 666a8890353SPeter Maydell { \ 667a8890353SPeter Maydell LTYPE *d = vd; \ 668a8890353SPeter Maydell TYPE *n = vn; \ 669a8890353SPeter Maydell TYPE m = rm; \ 670a8890353SPeter Maydell uint16_t mask = mve_element_mask(env); \ 671a8890353SPeter Maydell unsigned le; \ 672a8890353SPeter Maydell bool qc = false; \ 673a8890353SPeter Maydell for (le = 0; le < 16 / LESIZE; le++, mask >>= LESIZE) { \ 674a8890353SPeter Maydell bool sat = false; \ 675a8890353SPeter Maydell LTYPE r = FN((LTYPE)n[H##ESIZE(le * 2 + TOP)], m, &sat); \ 676a8890353SPeter Maydell mergemask(&d[H##LESIZE(le)], r, mask); \ 677a8890353SPeter Maydell qc |= sat && (mask & SATMASK); \ 678a8890353SPeter Maydell } \ 679a8890353SPeter Maydell if (qc) { \ 680a8890353SPeter Maydell env->vfp.qc[0] = qc; \ 681a8890353SPeter Maydell } \ 682a8890353SPeter Maydell mve_advance_vpt(env); \ 683a8890353SPeter Maydell } 684a8890353SPeter Maydell 685a8890353SPeter Maydell static inline int32_t do_qdmullh(int16_t n, int16_t m, bool *sat) 686a8890353SPeter Maydell { 687a8890353SPeter Maydell int64_t r = ((int64_t)n * m) * 2; 688a8890353SPeter Maydell return do_sat_bhw(r, INT32_MIN, INT32_MAX, sat); 689a8890353SPeter Maydell } 690a8890353SPeter Maydell 691a8890353SPeter Maydell static inline int64_t do_qdmullw(int32_t n, int32_t m, bool *sat) 692a8890353SPeter Maydell { 693a8890353SPeter Maydell /* The multiply can't overflow, but the doubling might */ 694a8890353SPeter Maydell int64_t r = (int64_t)n * m; 695a8890353SPeter Maydell if (r > INT64_MAX / 2) { 696a8890353SPeter Maydell *sat = true; 697a8890353SPeter Maydell return INT64_MAX; 698a8890353SPeter Maydell } else if (r < INT64_MIN / 2) { 699a8890353SPeter Maydell *sat = true; 700a8890353SPeter Maydell return INT64_MIN; 701a8890353SPeter Maydell } else { 702a8890353SPeter Maydell return r * 2; 703a8890353SPeter Maydell } 704a8890353SPeter Maydell } 705a8890353SPeter Maydell 706a8890353SPeter Maydell #define SATMASK16B 1 707a8890353SPeter Maydell #define SATMASK16T (1 << 2) 708a8890353SPeter Maydell #define SATMASK32 ((1 << 4) | 1) 709a8890353SPeter Maydell 710a8890353SPeter Maydell DO_2OP_SAT_SCALAR_L(vqdmullb_scalarh, 0, 2, int16_t, 4, int32_t, \ 711a8890353SPeter Maydell do_qdmullh, SATMASK16B) 712a8890353SPeter Maydell DO_2OP_SAT_SCALAR_L(vqdmullb_scalarw, 0, 4, int32_t, 8, int64_t, \ 713a8890353SPeter Maydell do_qdmullw, SATMASK32) 714a8890353SPeter Maydell DO_2OP_SAT_SCALAR_L(vqdmullt_scalarh, 1, 2, int16_t, 4, int32_t, \ 715a8890353SPeter Maydell do_qdmullh, SATMASK16T) 716a8890353SPeter Maydell DO_2OP_SAT_SCALAR_L(vqdmullt_scalarw, 1, 4, int32_t, 8, int64_t, \ 717a8890353SPeter Maydell do_qdmullw, SATMASK32) 718a8890353SPeter Maydell 719b050543bSPeter Maydell static inline uint32_t do_vbrsrb(uint32_t n, uint32_t m) 720b050543bSPeter Maydell { 721b050543bSPeter Maydell m &= 0xff; 722b050543bSPeter Maydell if (m == 0) { 723b050543bSPeter Maydell return 0; 724b050543bSPeter Maydell } 725b050543bSPeter Maydell n = revbit8(n); 726b050543bSPeter Maydell if (m < 8) { 727b050543bSPeter Maydell n >>= 8 - m; 728b050543bSPeter Maydell } 729b050543bSPeter Maydell return n; 730b050543bSPeter Maydell } 731b050543bSPeter Maydell 732b050543bSPeter Maydell static inline uint32_t do_vbrsrh(uint32_t n, uint32_t m) 733b050543bSPeter Maydell { 734b050543bSPeter Maydell m &= 0xff; 735b050543bSPeter Maydell if (m == 0) { 736b050543bSPeter Maydell return 0; 737b050543bSPeter Maydell } 738b050543bSPeter Maydell n = revbit16(n); 739b050543bSPeter Maydell if (m < 16) { 740b050543bSPeter Maydell n >>= 16 - m; 741b050543bSPeter Maydell } 742b050543bSPeter Maydell return n; 743b050543bSPeter Maydell } 744b050543bSPeter Maydell 745b050543bSPeter Maydell static inline uint32_t do_vbrsrw(uint32_t n, uint32_t m) 746b050543bSPeter Maydell { 747b050543bSPeter Maydell m &= 0xff; 748b050543bSPeter Maydell if (m == 0) { 749b050543bSPeter Maydell return 0; 750b050543bSPeter Maydell } 751b050543bSPeter Maydell n = revbit32(n); 752b050543bSPeter Maydell if (m < 32) { 753b050543bSPeter Maydell n >>= 32 - m; 754b050543bSPeter Maydell } 755b050543bSPeter Maydell return n; 756b050543bSPeter Maydell } 757b050543bSPeter Maydell 758b050543bSPeter Maydell DO_2OP_SCALAR(vbrsrb, 1, uint8_t, do_vbrsrb) 759b050543bSPeter Maydell DO_2OP_SCALAR(vbrsrh, 2, uint16_t, do_vbrsrh) 760b050543bSPeter Maydell DO_2OP_SCALAR(vbrsrw, 4, uint32_t, do_vbrsrw) 761b050543bSPeter Maydell 7621d2386f7SPeter Maydell /* 7631d2386f7SPeter Maydell * Multiply add long dual accumulate ops. 7641d2386f7SPeter Maydell */ 7651d2386f7SPeter Maydell #define DO_LDAV(OP, ESIZE, TYPE, XCHG, EVENACC, ODDACC) \ 7661d2386f7SPeter Maydell uint64_t HELPER(glue(mve_, OP))(CPUARMState *env, void *vn, \ 7671d2386f7SPeter Maydell void *vm, uint64_t a) \ 7681d2386f7SPeter Maydell { \ 7691d2386f7SPeter Maydell uint16_t mask = mve_element_mask(env); \ 7701d2386f7SPeter Maydell unsigned e; \ 7711d2386f7SPeter Maydell TYPE *n = vn, *m = vm; \ 7721d2386f7SPeter Maydell for (e = 0; e < 16 / ESIZE; e++, mask >>= ESIZE) { \ 7731d2386f7SPeter Maydell if (mask & 1) { \ 7741d2386f7SPeter Maydell if (e & 1) { \ 7751d2386f7SPeter Maydell a ODDACC \ 7761d2386f7SPeter Maydell (int64_t)n[H##ESIZE(e - 1 * XCHG)] * m[H##ESIZE(e)]; \ 7771d2386f7SPeter Maydell } else { \ 7781d2386f7SPeter Maydell a EVENACC \ 7791d2386f7SPeter Maydell (int64_t)n[H##ESIZE(e + 1 * XCHG)] * m[H##ESIZE(e)]; \ 7801d2386f7SPeter Maydell } \ 7811d2386f7SPeter Maydell } \ 7821d2386f7SPeter Maydell } \ 7831d2386f7SPeter Maydell mve_advance_vpt(env); \ 7841d2386f7SPeter Maydell return a; \ 7851d2386f7SPeter Maydell } 7861d2386f7SPeter Maydell 7871d2386f7SPeter Maydell DO_LDAV(vmlaldavsh, 2, int16_t, false, +=, +=) 7881d2386f7SPeter Maydell DO_LDAV(vmlaldavxsh, 2, int16_t, true, +=, +=) 7891d2386f7SPeter Maydell DO_LDAV(vmlaldavsw, 4, int32_t, false, +=, +=) 7901d2386f7SPeter Maydell DO_LDAV(vmlaldavxsw, 4, int32_t, true, +=, +=) 7911d2386f7SPeter Maydell 7921d2386f7SPeter Maydell DO_LDAV(vmlaldavuh, 2, uint16_t, false, +=, +=) 7931d2386f7SPeter Maydell DO_LDAV(vmlaldavuw, 4, uint32_t, false, +=, +=) 794181cd971SPeter Maydell 795181cd971SPeter Maydell DO_LDAV(vmlsldavsh, 2, int16_t, false, +=, -=) 796181cd971SPeter Maydell DO_LDAV(vmlsldavxsh, 2, int16_t, true, +=, -=) 797181cd971SPeter Maydell DO_LDAV(vmlsldavsw, 4, int32_t, false, +=, -=) 798181cd971SPeter Maydell DO_LDAV(vmlsldavxsw, 4, int32_t, true, +=, -=) 79938548747SPeter Maydell 80038548747SPeter Maydell /* 80138548747SPeter Maydell * Rounding multiply add long dual accumulate high: we must keep 80238548747SPeter Maydell * a 72-bit internal accumulator value and return the top 64 bits. 80338548747SPeter Maydell */ 80438548747SPeter Maydell #define DO_LDAVH(OP, ESIZE, TYPE, XCHG, EVENACC, ODDACC, TO128) \ 80538548747SPeter Maydell uint64_t HELPER(glue(mve_, OP))(CPUARMState *env, void *vn, \ 80638548747SPeter Maydell void *vm, uint64_t a) \ 80738548747SPeter Maydell { \ 80838548747SPeter Maydell uint16_t mask = mve_element_mask(env); \ 80938548747SPeter Maydell unsigned e; \ 81038548747SPeter Maydell TYPE *n = vn, *m = vm; \ 81138548747SPeter Maydell Int128 acc = int128_lshift(TO128(a), 8); \ 81238548747SPeter Maydell for (e = 0; e < 16 / ESIZE; e++, mask >>= ESIZE) { \ 81338548747SPeter Maydell if (mask & 1) { \ 81438548747SPeter Maydell if (e & 1) { \ 81538548747SPeter Maydell acc = ODDACC(acc, TO128(n[H##ESIZE(e - 1 * XCHG)] * \ 81638548747SPeter Maydell m[H##ESIZE(e)])); \ 81738548747SPeter Maydell } else { \ 81838548747SPeter Maydell acc = EVENACC(acc, TO128(n[H##ESIZE(e + 1 * XCHG)] * \ 81938548747SPeter Maydell m[H##ESIZE(e)])); \ 82038548747SPeter Maydell } \ 82138548747SPeter Maydell acc = int128_add(acc, int128_make64(1 << 7)); \ 82238548747SPeter Maydell } \ 82338548747SPeter Maydell } \ 82438548747SPeter Maydell mve_advance_vpt(env); \ 82538548747SPeter Maydell return int128_getlo(int128_rshift(acc, 8)); \ 82638548747SPeter Maydell } 82738548747SPeter Maydell 82838548747SPeter Maydell DO_LDAVH(vrmlaldavhsw, 4, int32_t, false, int128_add, int128_add, int128_makes64) 82938548747SPeter Maydell DO_LDAVH(vrmlaldavhxsw, 4, int32_t, true, int128_add, int128_add, int128_makes64) 83038548747SPeter Maydell 83138548747SPeter Maydell DO_LDAVH(vrmlaldavhuw, 4, uint32_t, false, int128_add, int128_add, int128_make64) 83238548747SPeter Maydell 83338548747SPeter Maydell DO_LDAVH(vrmlsldavhsw, 4, int32_t, false, int128_add, int128_sub, int128_makes64) 83438548747SPeter Maydell DO_LDAVH(vrmlsldavhxsw, 4, int32_t, true, int128_add, int128_sub, int128_makes64) 835