mirror of
https://github.com/rn10950/RetroZilla.git
synced 2024-11-16 04:20:32 +01:00
221 lines
5.1 KiB
C
221 lines
5.1 KiB
C
/* This Source Code Form is subject to the terms of the Mozilla Public
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* License, v. 2.0. If a copy of the MPL was not distributed with this
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* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
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#include "vis_proto.h"
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/***************************************************************/
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typedef int t_s32;
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typedef unsigned int t_u32;
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#if defined(__sparcv9)
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typedef long t_s64;
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typedef unsigned long t_u64;
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#else
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typedef long long t_s64;
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typedef unsigned long long t_u64;
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#endif
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typedef double t_d64;
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/***************************************************************/
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typedef union {
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t_d64 d64;
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struct {
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t_s32 i0;
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t_s32 i1;
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} i32s;
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} d64_2_i32;
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/***************************************************************/
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#define BUFF_SIZE 256
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#define A_BITS 19
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#define A_MASK ((1 << A_BITS) - 1)
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/***************************************************************/
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static t_u64 mask_cnst[] = {
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0x8000000080000000ull
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};
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/***************************************************************/
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#define DEF_VARS(N) \
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t_d64 *py = (t_d64*)y; \
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t_d64 mask = *((t_d64*)mask_cnst); \
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t_d64 ca = (1u << 31) - 1; \
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t_d64 da = (t_d64)a; \
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t_s64 buff[N], s; \
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d64_2_i32 dy
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/***************************************************************/
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#define MUL_U32_S64_2(i) \
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dy.d64 = vis_fxnor(mask, py[i]); \
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buff[2*(i) ] = (ca - (t_d64)dy.i32s.i0) * da; \
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buff[2*(i)+1] = (ca - (t_d64)dy.i32s.i1) * da
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#define MUL_U32_S64_2_D(i) \
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dy.d64 = vis_fxnor(mask, py[i]); \
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d0 = ca - (t_d64)dy.i32s.i0; \
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d1 = ca - (t_d64)dy.i32s.i1; \
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buff[4*(i) ] = (t_s64)(d0 * da); \
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buff[4*(i)+1] = (t_s64)(d0 * db); \
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buff[4*(i)+2] = (t_s64)(d1 * da); \
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buff[4*(i)+3] = (t_s64)(d1 * db)
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/***************************************************************/
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#define ADD_S64_U32(i) \
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s = buff[i] + x[i] + c; \
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z[i] = s; \
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c = (s >> 32)
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#define ADD_S64_U32_D(i) \
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s = buff[2*(i)] +(((t_s64)(buff[2*(i)+1]))<<A_BITS) + x[i] + uc; \
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z[i] = s; \
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uc = ((t_u64)s >> 32)
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/***************************************************************/
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#define MUL_U32_S64_8(i) \
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MUL_U32_S64_2(i); \
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MUL_U32_S64_2(i+1); \
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MUL_U32_S64_2(i+2); \
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MUL_U32_S64_2(i+3)
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#define MUL_U32_S64_D_8(i) \
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MUL_U32_S64_2_D(i); \
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MUL_U32_S64_2_D(i+1); \
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MUL_U32_S64_2_D(i+2); \
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MUL_U32_S64_2_D(i+3)
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/***************************************************************/
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#define ADD_S64_U32_8(i) \
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ADD_S64_U32(i); \
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ADD_S64_U32(i+1); \
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ADD_S64_U32(i+2); \
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ADD_S64_U32(i+3); \
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ADD_S64_U32(i+4); \
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ADD_S64_U32(i+5); \
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ADD_S64_U32(i+6); \
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ADD_S64_U32(i+7)
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#define ADD_S64_U32_D_8(i) \
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ADD_S64_U32_D(i); \
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ADD_S64_U32_D(i+1); \
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ADD_S64_U32_D(i+2); \
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ADD_S64_U32_D(i+3); \
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ADD_S64_U32_D(i+4); \
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ADD_S64_U32_D(i+5); \
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ADD_S64_U32_D(i+6); \
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ADD_S64_U32_D(i+7)
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/***************************************************************/
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t_u32 mul_add(t_u32 *z, t_u32 *x, t_u32 *y, int n, t_u32 a)
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{
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if (a < (1 << A_BITS)) {
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if (n == 8) {
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DEF_VARS(8);
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t_s32 c = 0;
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MUL_U32_S64_8(0);
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ADD_S64_U32_8(0);
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return c;
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} else if (n == 16) {
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DEF_VARS(16);
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t_s32 c = 0;
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MUL_U32_S64_8(0);
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MUL_U32_S64_8(4);
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ADD_S64_U32_8(0);
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ADD_S64_U32_8(8);
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return c;
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} else {
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DEF_VARS(BUFF_SIZE);
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t_s32 i, c = 0;
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#pragma pipeloop(0)
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for (i = 0; i < (n+1)/2; i ++) {
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MUL_U32_S64_2(i);
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}
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#pragma pipeloop(0)
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for (i = 0; i < n; i ++) {
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ADD_S64_U32(i);
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}
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return c;
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}
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} else {
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if (n == 8) {
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DEF_VARS(2*8);
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t_d64 d0, d1, db;
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t_u32 uc = 0;
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da = (t_d64)(a & A_MASK);
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db = (t_d64)(a >> A_BITS);
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MUL_U32_S64_D_8(0);
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ADD_S64_U32_D_8(0);
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return uc;
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} else if (n == 16) {
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DEF_VARS(2*16);
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t_d64 d0, d1, db;
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t_u32 uc = 0;
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da = (t_d64)(a & A_MASK);
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db = (t_d64)(a >> A_BITS);
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MUL_U32_S64_D_8(0);
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MUL_U32_S64_D_8(4);
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ADD_S64_U32_D_8(0);
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ADD_S64_U32_D_8(8);
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return uc;
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} else {
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DEF_VARS(2*BUFF_SIZE);
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t_d64 d0, d1, db;
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t_u32 i, uc = 0;
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da = (t_d64)(a & A_MASK);
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db = (t_d64)(a >> A_BITS);
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#pragma pipeloop(0)
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for (i = 0; i < (n+1)/2; i ++) {
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MUL_U32_S64_2_D(i);
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}
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#pragma pipeloop(0)
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for (i = 0; i < n; i ++) {
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ADD_S64_U32_D(i);
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}
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return uc;
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}
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}
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}
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/***************************************************************/
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t_u32 mul_add_inp(t_u32 *x, t_u32 *y, int n, t_u32 a)
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{
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return mul_add(x, x, y, n, a);
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}
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/***************************************************************/
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