From: Keith Whitwell Date: Wed, 17 Feb 2010 11:53:31 +0000 (+0000) Subject: llvmpipe: use ffs technique for full tiles also X-Git-Url: https://git.libre-soc.org/?a=commitdiff_plain;h=0c938143db71b2753c97a8fb4c96aeb266f97a0e;p=mesa.git llvmpipe: use ffs technique for full tiles also Need to compute two masks here for full and partial 16x16 blocks. Gives a further good improvement for isosurf particularly: isosurf 97 -> 108 gears 597 -> 611 --- diff --git a/src/gallium/drivers/llvmpipe/lp_rast_tri.c b/src/gallium/drivers/llvmpipe/lp_rast_tri.c index 82ff2d9c89d..0334705ef79 100644 --- a/src/gallium/drivers/llvmpipe/lp_rast_tri.c +++ b/src/gallium/drivers/llvmpipe/lp_rast_tri.c @@ -168,13 +168,12 @@ do_block_16( struct lp_rasterizer_task *rast_task, for (j = 0; j < 3; j++) { const int *step = tri->inputs.step[j]; - int cx = c[j]; - int eox = eo[j]; + const int cx = c[j] + eo[j]; /* Mask has bits set whenever we are outside any of the edges. */ for (i = 0; i < 16; i++) { - int out = cx + step[i] * 4 + eox; + int out = cx + step[i] * 4; mask |= (out >> 31) & (1 << i); } } @@ -213,53 +212,79 @@ lp_rast_triangle( struct lp_rasterizer *rast, int x = rast_task->x; int y = rast_task->y; - unsigned i; + int ei[3], eo[3], c[3]; + unsigned outmask, inmask, partial_mask; + unsigned i, j; - int c1 = tri->c1 + tri->dx12 * y - tri->dy12 * x; - int c2 = tri->c2 + tri->dx23 * y - tri->dy23 * x; - int c3 = tri->c3 + tri->dx31 * y - tri->dy31 * x; + c[0] = tri->c1 + tri->dx12 * y - tri->dy12 * x; + c[1] = tri->c2 + tri->dx23 * y - tri->dy23 * x; + c[2] = tri->c3 + tri->dx31 * y - tri->dy31 * x; - int ei1 = tri->ei1 * 16; - int ei2 = tri->ei2 * 16; - int ei3 = tri->ei3 * 16; + eo[0] = tri->eo1 * 16; + eo[1] = tri->eo2 * 16; + eo[2] = tri->eo3 * 16; - int eo1 = tri->eo1 * 16; - int eo2 = tri->eo2 * 16; - int eo3 = tri->eo3 * 16; + ei[0] = tri->ei1 * 16; + ei[1] = tri->ei2 * 16; + ei[2] = tri->ei3 * 16; - LP_DBG(DEBUG_RAST, "lp_rast_triangle\n"); + outmask = 0; + inmask = 0xffff; - /* Walk over the tile to build a list of 4x4 pixel blocks which will - * be filled/shaded. We do this at two granularities: 16x16 blocks - * and then 4x4 blocks. - */ - for (i = 0; i < 16; i++) { - int cx1 = c1 + (tri->inputs.step[0][i] * 16); - int cx2 = c2 + (tri->inputs.step[1][i] * 16); - int cx3 = c3 + (tri->inputs.step[2][i] * 16); - - if (cx1 + eo1 < 0 || - cx2 + eo2 < 0 || - cx3 + eo3 < 0) { - /* the block is completely outside the triangle - nop */ - LP_COUNT(nr_empty_16); - } - else { - int px = x + pos_table16[i][0]; - int py = y + pos_table16[i][1]; - - if (cx1 + ei1 > 0 && - cx2 + ei2 > 0 && - cx3 + ei3 > 0) { - /* the block is completely inside the triangle */ - LP_COUNT(nr_fully_covered_16); - block_full_16(rast_task, tri, px, py); - } - else { - /* the block is partially in/out of the triangle */ - LP_COUNT(nr_partially_covered_16); - do_block_16(rast_task, tri, px, py, cx1, cx2, cx3); - } + for (j = 0; j < 3; j++) { + const int *step = tri->inputs.step[j]; + const int cox = c[j] + eo[j]; + const int cio = ei[j]- eo[j]; + + /* Outmask has bits set whenever we are outside any of the + * edges. + */ + /* Inmask has bits set whenever we are inside all of the edges. + */ + for (i = 0; i < 16; i++) { + int out = cox + step[i] * 16; + int in = out + cio; + outmask |= (out >> 31) & (1 << i); + inmask &= ~((in >> 31) & (1 << i)); } } + + assert((outmask & inmask) == 0); + + if (outmask == 0xffff) + return; + + /* Invert mask, so that bits are set whenever we are at least + * partially inside all of the edges: + */ + partial_mask = ~inmask & ~outmask & 0xffff; + + /* Iterate over partials: + */ + while (partial_mask) { + int i = ffs(partial_mask) - 1; + int px = x + pos_table16[i][0]; + int py = y + pos_table16[i][1]; + int cx1 = c[0] + tri->inputs.step[0][i] * 16; + int cx2 = c[1] + tri->inputs.step[1][i] * 16; + int cx3 = c[2] + tri->inputs.step[2][i] * 16; + + partial_mask &= ~(1 << i); + + LP_COUNT(nr_partially_covered_16); + do_block_16(rast_task, tri, px, py, cx1, cx2, cx3); + } + + /* Iterate over fulls: + */ + while (inmask) { + int i = ffs(inmask) - 1; + int px = x + pos_table16[i][0]; + int py = y + pos_table16[i][1]; + + inmask &= ~(1 << i); + + LP_COUNT(nr_fully_covered_16); + block_full_16(rast_task, tri, px, py); + } }