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altivec accelerated v-resample patch by (Brian Foley <bfoley at compsoc dot nuigalway dot ie>)
Originally committed as revision 1283 to svn://svn.ffmpeg.org/ffmpeg/trunk
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@ -190,6 +190,10 @@ void dsputil_init_alpha(DSPContext* c, unsigned mask);
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#elif defined(ARCH_POWERPC)
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#define MM_ALTIVEC 0x0001 /* standard AltiVec */
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extern int mm_flags;
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#define __align8 __attribute__ ((aligned (16)))
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void dsputil_init_ppc(DSPContext* c, unsigned mask);
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@ -22,7 +22,7 @@
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#ifdef USE_FASTMEMCPY
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#include "fastmemcpy.h"
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#endif
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extern int mm_flags;
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#define NB_COMPONENTS 3
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@ -264,6 +264,133 @@ static void v_resample4_mmx(UINT8 *dst, int dst_width, UINT8 *src, int wrap,
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}
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#endif
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#ifdef HAVE_ALTIVEC
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typedef union {
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vector unsigned char v;
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unsigned char c[16];
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} vec_uc_t;
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typedef union {
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vector signed short v;
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signed short s[8];
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} vec_ss_t;
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void v_resample16_altivec(UINT8 *dst, int dst_width, UINT8 *src, int wrap,
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INT16 *filter)
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{
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int sum, i;
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uint8_t *s;
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vector unsigned char *tv, tmp, dstv, zero;
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vec_ss_t srchv[4], srclv[4], fv[4];
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vector signed short zeros, sumhv, sumlv;
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s = src;
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for(i=0;i<4;i++)
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{
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/*
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The vec_madds later on does an implicit >>15 on the result.
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Since FILTER_BITS is 8, and we have 15 bits of magnitude in
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a signed short, we have just enough bits to pre-shift our
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filter constants <<7 to compensate for vec_madds.
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*/
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fv[i].s[0] = filter[i] << (15-FILTER_BITS);
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fv[i].v = vec_splat(fv[i].v, 0);
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}
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zero = vec_splat_u8(0);
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zeros = vec_splat_s16(0);
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/*
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When we're resampling, we'd ideally like both our input buffers,
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and output buffers to be 16-byte aligned, so we can do both aligned
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reads and writes. Sadly we can't always have this at the moment, so
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we opt for aligned writes, as unaligned writes have a huge overhead.
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To do this, do enough scalar resamples to get dst 16-byte aligned.
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*/
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i = (16-((int)dst) & 0xf) & 0xf;
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while(i>0) {
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sum = s[0 * wrap] * filter[0] +
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s[1 * wrap] * filter[1] +
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s[2 * wrap] * filter[2] +
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s[3 * wrap] * filter[3];
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sum = sum >> FILTER_BITS;
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if (sum<0) sum = 0; else if (sum>255) sum=255;
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dst[0] = sum;
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dst++;
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s++;
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dst_width--;
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i--;
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}
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/* Do our altivec resampling on 16 pixels at once. */
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while(dst_width>=16) {
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/*
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Read 16 (potentially unaligned) bytes from each of
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4 lines into 4 vectors, and split them into shorts.
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Interleave the multipy/accumulate for the resample
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filter with the loads to hide the 3 cycle latency
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the vec_madds have.
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*/
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tv = (vector unsigned char *) &s[0 * wrap];
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tmp = vec_perm(tv[0], tv[1], vec_lvsl(0, &s[i * wrap]));
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srchv[0].v = (vector signed short) vec_mergeh(zero, tmp);
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srclv[0].v = (vector signed short) vec_mergel(zero, tmp);
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sumhv = vec_madds(srchv[0].v, fv[0].v, zeros);
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sumlv = vec_madds(srclv[0].v, fv[0].v, zeros);
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tv = (vector unsigned char *) &s[1 * wrap];
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tmp = vec_perm(tv[0], tv[1], vec_lvsl(0, &s[1 * wrap]));
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srchv[1].v = (vector signed short) vec_mergeh(zero, tmp);
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srclv[1].v = (vector signed short) vec_mergel(zero, tmp);
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sumhv = vec_madds(srchv[1].v, fv[1].v, sumhv);
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sumlv = vec_madds(srclv[1].v, fv[1].v, sumlv);
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tv = (vector unsigned char *) &s[2 * wrap];
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tmp = vec_perm(tv[0], tv[1], vec_lvsl(0, &s[2 * wrap]));
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srchv[2].v = (vector signed short) vec_mergeh(zero, tmp);
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srclv[2].v = (vector signed short) vec_mergel(zero, tmp);
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sumhv = vec_madds(srchv[2].v, fv[2].v, sumhv);
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sumlv = vec_madds(srclv[2].v, fv[2].v, sumlv);
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tv = (vector unsigned char *) &s[3 * wrap];
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tmp = vec_perm(tv[0], tv[1], vec_lvsl(0, &s[3 * wrap]));
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srchv[3].v = (vector signed short) vec_mergeh(zero, tmp);
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srclv[3].v = (vector signed short) vec_mergel(zero, tmp);
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sumhv = vec_madds(srchv[3].v, fv[3].v, sumhv);
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sumlv = vec_madds(srclv[3].v, fv[3].v, sumlv);
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/*
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Pack the results into our destination vector,
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and do an aligned write of that back to memory.
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*/
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dstv = vec_packsu(sumhv, sumlv) ;
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vec_st(dstv, 0, (vector unsigned char *) dst);
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dst+=16;
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s+=16;
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dst_width-=16;
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}
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/*
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If there are any leftover pixels, resample them
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with the slow scalar method.
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*/
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while(dst_width>0) {
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sum = s[0 * wrap] * filter[0] +
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s[1 * wrap] * filter[1] +
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s[2 * wrap] * filter[2] +
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s[3 * wrap] * filter[3];
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sum = sum >> FILTER_BITS;
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if (sum<0) sum = 0; else if (sum>255) sum=255;
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dst[0] = sum;
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dst++;
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s++;
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dst_width--;
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}
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}
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#endif
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/* slow version to handle limit cases. Does not need optimisation */
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static void h_resample_slow(UINT8 *dst, int dst_width, UINT8 *src, int src_width,
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int src_start, int src_incr, INT16 *filters)
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@ -383,6 +510,13 @@ static void component_resample(ImgReSampleContext *s,
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s->line_buf + (ring_y - NB_TAPS + 1) * owidth, owidth,
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&s->v_filters[phase_y][0]);
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else
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#endif
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#ifdef HAVE_ALTIVEC
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if ((mm_flags & MM_ALTIVEC) && NB_TAPS == 4 && FILTER_BITS == 8)
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v_resample16_altivec(output, owidth,
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s->line_buf + (ring_y - NB_TAPS + 1) * owidth, owidth,
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&s->v_filters[phase_y][0]);
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else
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#endif
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v_resample(output, owidth,
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s->line_buf + (ring_y - NB_TAPS + 1) * owidth, owidth,
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@ -23,6 +23,8 @@
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#include "dsputil_altivec.h"
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#endif
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int mm_flags = 0;
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void dsputil_init_ppc(DSPContext* c, unsigned mask)
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{
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// Common optimisations whether Altivec or not
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@ -31,6 +33,8 @@ void dsputil_init_ppc(DSPContext* c, unsigned mask)
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#if HAVE_ALTIVEC
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if (has_altivec()) {
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mm_flags |= MM_ALTIVEC;
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// Altivec specific optimisations
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c->pix_abs16x16_x2 = pix_abs16x16_x2_altivec;
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c->pix_abs16x16_y2 = pix_abs16x16_y2_altivec;
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