diff options
Diffstat (limited to 'src/gallium/drivers/softpipe/sp_setup.c')
| -rw-r--r-- | src/gallium/drivers/softpipe/sp_setup.c | 375 |
1 files changed, 303 insertions, 72 deletions
diff --git a/src/gallium/drivers/softpipe/sp_setup.c b/src/gallium/drivers/softpipe/sp_setup.c index 87336ab6e3..bc8263c33e 100644 --- a/src/gallium/drivers/softpipe/sp_setup.c +++ b/src/gallium/drivers/softpipe/sp_setup.c @@ -43,6 +43,7 @@ #include "draw/draw_private.h" #include "draw/draw_vertex.h" #include "pipe/p_shader_tokens.h" +#include "pipe/p_thread.h" #include "util/u_math.h" #include "util/u_memory.h" @@ -61,6 +62,87 @@ struct edge { int lines; /**< number of lines on this edge */ }; +#if SP_NUM_QUAD_THREADS > 1 + +/* Set to 1 if you want other threads to be instantly + * notified of pending jobs. + */ +#define INSTANT_NOTEMPTY_NOTIFY 0 + +struct thread_info +{ + struct setup_context *setup; + uint id; + pipe_thread handle; +}; + +struct quad_job; + +typedef void (* quad_job_routine)( struct setup_context *setup, uint thread, struct quad_job *job ); + +struct quad_job +{ + struct quad_header_input input; + struct quad_header_inout inout; + quad_job_routine routine; +}; + +#define NUM_QUAD_JOBS 64 + +struct quad_job_que +{ + struct quad_job jobs[NUM_QUAD_JOBS]; + uint first; + uint last; + pipe_mutex que_mutex; + pipe_condvar que_notfull_condvar; + pipe_condvar que_notempty_condvar; + uint jobs_added; + uint jobs_done; + pipe_condvar que_done_condvar; +}; + +static void +add_quad_job( struct quad_job_que *que, struct quad_header *quad, quad_job_routine routine ) +{ +#if INSTANT_NOTEMPTY_NOTIFY + boolean empty; +#endif + + /* Wait for empty slot, see if the que is empty. + */ + pipe_mutex_lock( que->que_mutex ); + while ((que->last + 1) % NUM_QUAD_JOBS == que->first) { +#if !INSTANT_NOTEMPTY_NOTIFY + pipe_condvar_broadcast( que->que_notempty_condvar ); +#endif + pipe_condvar_wait( que->que_notfull_condvar, que->que_mutex ); + } +#if INSTANT_NOTEMPTY_NOTIFY + empty = que->last == que->first; +#endif + que->jobs_added++; + pipe_mutex_unlock( que->que_mutex ); + + /* Submit new job. + */ + que->jobs[que->last].input = quad->input; + que->jobs[que->last].inout = quad->inout; + que->jobs[que->last].routine = routine; + que->last = (que->last + 1) % NUM_QUAD_JOBS; + +#if INSTANT_NOTEMPTY_NOTIFY + /* If the que was empty, notify consumers there's a job to be done. + */ + if (empty) { + pipe_mutex_lock( que->que_mutex ); + pipe_condvar_broadcast( que->que_notempty_condvar ); + pipe_mutex_unlock( que->que_mutex ); + } +#endif +} + +#endif /** * Triangle setup info (derived from draw_stage). @@ -88,6 +170,11 @@ struct setup_context { struct tgsi_interp_coef posCoef; /* For Z, W */ struct quad_header quad; +#if SP_NUM_QUAD_THREADS > 1 + struct quad_job_que que; + struct thread_info threads[SP_NUM_QUAD_THREADS]; +#endif + struct { int left[2]; /**< [0] = row0, [1] = row1 */ int right[2]; @@ -104,7 +191,67 @@ struct setup_context { unsigned winding; /* which winding to cull */ }; +#if SP_NUM_QUAD_THREADS > 1 + +static PIPE_THREAD_ROUTINE( quad_thread, param ) +{ + struct thread_info *info = (struct thread_info *) param; + struct quad_job_que *que = &info->setup->que; + + for (;;) { + struct quad_job job; + boolean full; + + /* Wait for an available job. + */ + pipe_mutex_lock( que->que_mutex ); + while (que->last == que->first) + pipe_condvar_wait( que->que_notempty_condvar, que->que_mutex ); + + /* See if the que is full. + */ + full = (que->last + 1) % NUM_QUAD_JOBS == que->first; + + /* Take a job and remove it from que. + */ + job = que->jobs[que->first]; + que->first = (que->first + 1) % NUM_QUAD_JOBS; + + /* Notify the producer if the que is not full. + */ + if (full) + pipe_condvar_signal( que->que_notfull_condvar ); + pipe_mutex_unlock( que->que_mutex ); + + job.routine( info->setup, info->id, &job ); + + /* Notify the producer if that's the last finished job. + */ + pipe_mutex_lock( que->que_mutex ); + que->jobs_done++; + if (que->jobs_added == que->jobs_done) + pipe_condvar_signal( que->que_done_condvar ); + pipe_mutex_unlock( que->que_mutex ); + } + + return NULL; +} + +#define WAIT_FOR_COMPLETION(setup) \ + do {\ + pipe_mutex_lock( setup->que.que_mutex );\ + if (!INSTANT_NOTEMPTY_NOTIFY)\ + pipe_condvar_broadcast( setup->que.que_notempty_condvar );\ + while (setup->que.jobs_added != setup->que.jobs_done)\ + pipe_condvar_wait( setup->que.que_done_condvar, setup->que.que_mutex );\ + pipe_mutex_unlock( setup->que.que_mutex );\ + } while (0) + +#else + +#define WAIT_FOR_COMPLETION(setup) ((void) 0) +#endif /** * Test if x is NaN or +/- infinity. @@ -143,7 +290,7 @@ static boolean cull_tri( struct setup_context *setup, * Clip setup->quad against the scissor/surface bounds. */ static INLINE void -quad_clip(struct setup_context *setup) +quad_clip( struct setup_context *setup, struct quad_header *quad ) { const struct pipe_scissor_state *cliprect = &setup->softpipe->cliprect; const int minx = (int) cliprect->minx; @@ -151,22 +298,22 @@ quad_clip(struct setup_context *setup) const int miny = (int) cliprect->miny; const int maxy = (int) cliprect->maxy; - if (setup->quad.x0 >= maxx || - setup->quad.y0 >= maxy || - setup->quad.x0 + 1 < minx || - setup->quad.y0 + 1 < miny) { + if (quad->input.x0 >= maxx || + quad->input.y0 >= maxy || + quad->input.x0 + 1 < minx || + quad->input.y0 + 1 < miny) { /* totally clipped */ - setup->quad.mask = 0x0; + quad->inout.mask = 0x0; return; } - if (setup->quad.x0 < minx) - setup->quad.mask &= (MASK_BOTTOM_RIGHT | MASK_TOP_RIGHT); - if (setup->quad.y0 < miny) - setup->quad.mask &= (MASK_BOTTOM_LEFT | MASK_BOTTOM_RIGHT); - if (setup->quad.x0 == maxx - 1) - setup->quad.mask &= (MASK_BOTTOM_LEFT | MASK_TOP_LEFT); - if (setup->quad.y0 == maxy - 1) - setup->quad.mask &= (MASK_TOP_LEFT | MASK_TOP_RIGHT); + if (quad->input.x0 < minx) + quad->inout.mask &= (MASK_BOTTOM_RIGHT | MASK_TOP_RIGHT); + if (quad->input.y0 < miny) + quad->inout.mask &= (MASK_BOTTOM_LEFT | MASK_BOTTOM_RIGHT); + if (quad->input.x0 == maxx - 1) + quad->inout.mask &= (MASK_BOTTOM_LEFT | MASK_TOP_LEFT); + if (quad->input.y0 == maxy - 1) + quad->inout.mask &= (MASK_TOP_LEFT | MASK_TOP_RIGHT); } @@ -174,35 +321,59 @@ quad_clip(struct setup_context *setup) * Emit a quad (pass to next stage) with clipping. */ static INLINE void -clip_emit_quad(struct setup_context *setup) +clip_emit_quad( struct setup_context *setup, struct quad_header *quad, uint thread ) { - quad_clip(setup); - if (setup->quad.mask) { + quad_clip( setup, quad ); + if (quad->inout.mask) { struct softpipe_context *sp = setup->softpipe; - sp->quad.first->run(sp->quad.first, &setup->quad); + + sp->quad[thread].first->run( sp->quad[thread].first, quad ); } } +#if SP_NUM_QUAD_THREADS > 1 + +static void +clip_emit_quad_job( struct setup_context *setup, uint thread, struct quad_job *job ) +{ + struct quad_header quad; + + quad.input = job->input; + quad.inout = job->inout; + quad.coef = setup->quad.coef; + quad.posCoef = setup->quad.posCoef; + quad.nr_attrs = setup->quad.nr_attrs; + clip_emit_quad( setup, &quad, thread ); +} + +#define CLIP_EMIT_QUAD(setup) add_quad_job( &setup->que, &setup->quad, clip_emit_quad_job ) + +#else + +#define CLIP_EMIT_QUAD(setup) clip_emit_quad( setup, &setup->quad, 0 ) + +#endif /** * Emit a quad (pass to next stage). No clipping is done. */ static INLINE void -emit_quad( struct setup_context *setup, int x, int y, unsigned mask ) +emit_quad( struct setup_context *setup, struct quad_header *quad, uint thread ) { struct softpipe_context *sp = setup->softpipe; - setup->quad.x0 = x; - setup->quad.y0 = y; - setup->quad.mask = mask; +#if DEBUG_FRAGS + uint mask = quad->inout.mask; +#endif + #if DEBUG_FRAGS if (mask & 1) setup->numFragsEmitted++; if (mask & 2) setup->numFragsEmitted++; if (mask & 4) setup->numFragsEmitted++; if (mask & 8) setup->numFragsEmitted++; #endif - sp->quad.first->run(sp->quad.first, &setup->quad); + sp->quad[thread].first->run( sp->quad[thread].first, quad ); #if DEBUG_FRAGS - mask = setup->quad.mask; + mask = quad->inout.mask; if (mask & 1) setup->numFragsWritten++; if (mask & 2) setup->numFragsWritten++; if (mask & 4) setup->numFragsWritten++; @@ -210,6 +381,38 @@ emit_quad( struct setup_context *setup, int x, int y, unsigned mask ) #endif } +#if SP_NUM_QUAD_THREADS > 1 + +static void +emit_quad_job( struct setup_context *setup, uint thread, struct quad_job *job ) +{ + struct quad_header quad; + + quad.input = job->input; + quad.inout = job->inout; + quad.coef = setup->quad.coef; + quad.posCoef = setup->quad.posCoef; + quad.nr_attrs = setup->quad.nr_attrs; + emit_quad( setup, &quad, thread ); +} + +#define EMIT_QUAD(setup,x,y,mask) do {\ + setup->quad.input.x0 = x;\ + setup->quad.input.y0 = y;\ + setup->quad.inout.mask = mask;\ + add_quad_job( &setup->que, &setup->quad, emit_quad_job );\ + } while (0) + +#else + +#define EMIT_QUAD(setup,x,y,mask) do {\ + setup->quad.input.x0 = x;\ + setup->quad.input.y0 = y;\ + setup->quad.inout.mask = mask;\ + emit_quad( setup, &setup->quad, 0 );\ + } while (0) + +#endif /** * Given an X or Y coordinate, return the block/quad coordinate that it @@ -249,7 +452,7 @@ static void flush_spans( struct setup_context *setup ) mask |= MASK_TOP_RIGHT; if (x+1 >= xleft1 && x+1 < xright1) mask |= MASK_BOTTOM_RIGHT; - emit_quad( setup, x, setup->span.y, mask ); + EMIT_QUAD( setup, x, setup->span.y, mask ); } break; @@ -263,7 +466,7 @@ static void flush_spans( struct setup_context *setup ) mask |= MASK_TOP_LEFT; if (x+1 >= xleft0 && x+1 < xright0) mask |= MASK_TOP_RIGHT; - emit_quad( setup, x, setup->span.y, mask ); + EMIT_QUAD( setup, x, setup->span.y, mask ); } break; @@ -277,7 +480,7 @@ static void flush_spans( struct setup_context *setup ) mask |= MASK_BOTTOM_LEFT; if (x+1 >= xleft1 && x+1 < xright1) mask |= MASK_BOTTOM_RIGHT; - emit_quad( setup, x, setup->span.y, mask ); + EMIT_QUAD( setup, x, setup->span.y, mask ); } break; @@ -398,7 +601,7 @@ static boolean setup_sort_vertices( struct setup_context *setup, * - the GLSL gl_FrontFacing fragment attribute (bool) * - two-sided stencil test */ - setup->quad.facing = (det > 0.0) ^ (setup->softpipe->rasterizer->front_winding == PIPE_WINDING_CW); + setup->quad.input.facing = (det > 0.0) ^ (setup->softpipe->rasterizer->front_winding == PIPE_WINDING_CW); return TRUE; } @@ -595,7 +798,7 @@ static void setup_tri_coefficients( struct setup_context *setup ) if (spfs->info.input_semantic_name[fragSlot] == TGSI_SEMANTIC_FOG) { /* FOG.y = front/back facing XXX fix this */ - setup->coef[fragSlot].a0[1] = 1.0f - setup->quad.facing; + setup->coef[fragSlot].a0[1] = 1.0f - setup->quad.input.facing; setup->coef[fragSlot].dadx[1] = 0.0; setup->coef[fragSlot].dady[1] = 0.0; } @@ -765,7 +968,7 @@ void setup_tri( struct setup_context *setup, setup_tri_coefficients( setup ); setup_tri_edges( setup ); - setup->quad.prim = PRIM_TRI; + setup->quad.input.prim = PRIM_TRI; setup->span.y = 0; setup->span.y_flags = 0; @@ -790,6 +993,8 @@ void setup_tri( struct setup_context *setup, flush_spans( setup ); + WAIT_FOR_COMPLETION(setup); + #if DEBUG_FRAGS printf("Tri: %u frags emitted, %u written\n", setup->numFragsEmitted, @@ -904,7 +1109,7 @@ setup_line_coefficients(struct setup_context *setup, if (spfs->info.input_semantic_name[fragSlot] == TGSI_SEMANTIC_FOG) { /* FOG.y = front/back facing XXX fix this */ - setup->coef[fragSlot].a0[1] = 1.0f - setup->quad.facing; + setup->coef[fragSlot].a0[1] = 1.0f - setup->quad.input.facing; setup->coef[fragSlot].dadx[1] = 0.0; setup->coef[fragSlot].dady[1] = 0.0; } @@ -925,20 +1130,20 @@ plot(struct setup_context *setup, int x, int y) const int quadY = y - iy; const int mask = (1 << ix) << (2 * iy); - if (quadX != setup->quad.x0 || - quadY != setup->quad.y0) + if (quadX != setup->quad.input.x0 || + quadY != setup->quad.input.y0) { /* flush prev quad, start new quad */ - if (setup->quad.x0 != -1) - clip_emit_quad(setup); + if (setup->quad.input.x0 != -1) + CLIP_EMIT_QUAD(setup); - setup->quad.x0 = quadX; - setup->quad.y0 = quadY; - setup->quad.mask = 0x0; + setup->quad.input.x0 = quadX; + setup->quad.input.y0 = quadY; + setup->quad.inout.mask = 0x0; } - setup->quad.mask |= mask; + setup->quad.inout.mask |= mask; } @@ -999,16 +1204,16 @@ setup_line(struct setup_context *setup, assert(dx >= 0); assert(dy >= 0); - setup->quad.x0 = setup->quad.y0 = -1; - setup->quad.mask = 0x0; - setup->quad.prim = PRIM_LINE; + setup->quad.input.x0 = setup->quad.input.y0 = -1; + setup->quad.inout.mask = 0x0; + setup->quad.input.prim = PRIM_LINE; /* XXX temporary: set coverage to 1.0 so the line appears * if AA mode happens to be enabled. */ - setup->quad.coverage[0] = - setup->quad.coverage[1] = - setup->quad.coverage[2] = - setup->quad.coverage[3] = 1.0; + setup->quad.input.coverage[0] = + setup->quad.input.coverage[1] = + setup->quad.input.coverage[2] = + setup->quad.input.coverage[3] = 1.0; if (dx > dy) { /*** X-major line ***/ @@ -1052,9 +1257,11 @@ setup_line(struct setup_context *setup, } /* draw final quad */ - if (setup->quad.mask) { - clip_emit_quad(setup); + if (setup->quad.inout.mask) { + CLIP_EMIT_QUAD(setup); } + + WAIT_FOR_COMPLETION(setup); } @@ -1148,22 +1355,22 @@ setup_point( struct setup_context *setup, if (spfs->info.input_semantic_name[fragSlot] == TGSI_SEMANTIC_FOG) { /* FOG.y = front/back facing XXX fix this */ - setup->coef[fragSlot].a0[1] = 1.0f - setup->quad.facing; + setup->coef[fragSlot].a0[1] = 1.0f - setup->quad.input.facing; setup->coef[fragSlot].dadx[1] = 0.0; setup->coef[fragSlot].dady[1] = 0.0; } } - setup->quad.prim = PRIM_POINT; + setup->quad.input.prim = PRIM_POINT; if (halfSize <= 0.5 && !round) { /* special case for 1-pixel points */ const int ix = ((int) x) & 1; const int iy = ((int) y) & 1; - setup->quad.x0 = (int) x - ix; - setup->quad.y0 = (int) y - iy; - setup->quad.mask = (1 << ix) << (2 * iy); - clip_emit_quad(setup); + setup->quad.input.x0 = (int) x - ix; + setup->quad.input.y0 = (int) y - iy; + setup->quad.inout.mask = (1 << ix) << (2 * iy); + CLIP_EMIT_QUAD(setup); } else { if (round) { @@ -1183,15 +1390,15 @@ setup_point( struct setup_context *setup, for (ix = ixmin; ix <= ixmax; ix += 2) { float dx, dy, dist2, cover; - setup->quad.mask = 0x0; + setup->quad.inout.mask = 0x0; dx = (ix + 0.5f) - x; dy = (iy + 0.5f) - y; dist2 = dx * dx + dy * dy; if (dist2 <= rmax2) { cover = 1.0F - (dist2 - rmin2) * cscale; - setup->quad.coverage[QUAD_TOP_LEFT] = MIN2(cover, 1.0f); - setup->quad.mask |= MASK_TOP_LEFT; + setup->quad.input.coverage[QUAD_TOP_LEFT] = MIN2(cover, 1.0f); + setup->quad.inout.mask |= MASK_TOP_LEFT; } dx = (ix + 1.5f) - x; @@ -1199,8 +1406,8 @@ setup_point( struct setup_context *setup, dist2 = dx * dx + dy * dy; if (dist2 <= rmax2) { cover = 1.0F - (dist2 - rmin2) * cscale; - setup->quad.coverage[QUAD_TOP_RIGHT] = MIN2(cover, 1.0f); - setup->quad.mask |= MASK_TOP_RIGHT; + setup->quad.input.coverage[QUAD_TOP_RIGHT] = MIN2(cover, 1.0f); + setup->quad.inout.mask |= MASK_TOP_RIGHT; } dx = (ix + 0.5f) - x; @@ -1208,8 +1415,8 @@ setup_point( struct setup_context *setup, dist2 = dx * dx + dy * dy; if (dist2 <= rmax2) { cover = 1.0F - (dist2 - rmin2) * cscale; - setup->quad.coverage[QUAD_BOTTOM_LEFT] = MIN2(cover, 1.0f); - setup->quad.mask |= MASK_BOTTOM_LEFT; + setup->quad.input.coverage[QUAD_BOTTOM_LEFT] = MIN2(cover, 1.0f); + setup->quad.inout.mask |= MASK_BOTTOM_LEFT; } dx = (ix + 1.5f) - x; @@ -1217,14 +1424,14 @@ setup_point( struct setup_context *setup, dist2 = dx * dx + dy * dy; if (dist2 <= rmax2) { cover = 1.0F - (dist2 - rmin2) * cscale; - setup->quad.coverage[QUAD_BOTTOM_RIGHT] = MIN2(cover, 1.0f); - setup->quad.mask |= MASK_BOTTOM_RIGHT; + setup->quad.input.coverage[QUAD_BOTTOM_RIGHT] = MIN2(cover, 1.0f); + setup->quad.inout.mask |= MASK_BOTTOM_RIGHT; } - if (setup->quad.mask) { - setup->quad.x0 = ix; - setup->quad.y0 = iy; - clip_emit_quad(setup); + if (setup->quad.inout.mask) { + setup->quad.input.x0 = ix; + setup->quad.input.y0 = iy; + CLIP_EMIT_QUAD(setup); } } } @@ -1268,14 +1475,16 @@ setup_point( struct setup_context *setup, mask &= (MASK_BOTTOM_LEFT | MASK_TOP_LEFT); } - setup->quad.mask = mask; - setup->quad.x0 = ix; - setup->quad.y0 = iy; - clip_emit_quad(setup); + setup->quad.inout.mask = mask; + setup->quad.input.x0 = ix; + setup->quad.input.y0 = iy; + CLIP_EMIT_QUAD(setup); } } } } + + WAIT_FOR_COMPLETION(setup); } void setup_prepare( struct setup_context *setup ) @@ -1300,7 +1509,9 @@ void setup_prepare( struct setup_context *setup ) /* Note: nr_attrs is only used for debugging (vertex printing) */ setup->quad.nr_attrs = draw_num_vs_outputs(sp->draw); - sp->quad.first->begin(sp->quad.first); + for (i = 0; i < SP_NUM_QUAD_THREADS; i++) { + sp->quad[i].first->begin( sp->quad[i].first ); + } if (sp->reduced_api_prim == PIPE_PRIM_TRIANGLES && sp->rasterizer->fill_cw == PIPE_POLYGON_MODE_FILL && @@ -1328,11 +1539,31 @@ void setup_destroy_context( struct setup_context *setup ) struct setup_context *setup_create_context( struct softpipe_context *softpipe ) { struct setup_context *setup = CALLOC_STRUCT(setup_context); +#if SP_NUM_QUAD_THREADS > 1 + uint i; +#endif setup->softpipe = softpipe; setup->quad.coef = setup->coef; setup->quad.posCoef = &setup->posCoef; +#if SP_NUM_QUAD_THREADS > 1 + setup->que.first = 0; + setup->que.last = 0; + pipe_mutex_init( setup->que.que_mutex ); + pipe_condvar_init( setup->que.que_notfull_condvar ); + pipe_condvar_init( setup->que.que_notempty_condvar ); + setup->que.jobs_added = 0; + setup->que.jobs_done = 0; + pipe_condvar_init( setup->que.que_done_condvar ); + for (i = 0; i < SP_NUM_QUAD_THREADS; i++) { + setup->threads[i].setup = setup; + setup->threads[i].id = i; + setup->threads[i].handle = pipe_thread_create( quad_thread, &setup->threads[i] ); + } +#endif + return setup; } + |