/************************************************************************** * * Copyright 2007 Tungsten Graphics, Inc., Cedar Park, Texas. * All Rights Reserved. * * Permission is hereby granted, free of charge, to any person obtaining a * copy of this software and associated documentation files (the * "Software"), to deal in the Software without restriction, including * without limitation the rights to use, copy, modify, merge, publish, * distribute, sub license, and/or sell copies of the Software, and to * permit persons to whom the Software is furnished to do so, subject to * the following conditions: * * The above copyright notice and this permission notice (including the * next paragraph) shall be included in all copies or substantial portions * of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS * OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NON-INFRINGEMENT. * IN NO EVENT SHALL TUNGSTEN GRAPHICS AND/OR ITS SUPPLIERS BE LIABLE FOR * ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, * TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE * SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. * **************************************************************************/ /** * @file * * Wrap the cso cache & hash mechanisms in a simplified * pipe-driver-specific interface. * * @author Zack Rusin * @author Keith Whitwell */ #include "pipe/p_state.h" #include "util/u_framebuffer.h" #include "util/u_inlines.h" #include "util/u_math.h" #include "util/u_memory.h" #include "tgsi/tgsi_parse.h" #include "cso_cache/cso_context.h" #include "cso_cache/cso_cache.h" #include "cso_cache/cso_hash.h" #include "cso_context.h" /** * Info related to samplers and sampler views. * We have one of these for fragment samplers and another for vertex samplers. */ struct sampler_info { struct { void *samplers[PIPE_MAX_SAMPLERS]; unsigned nr_samplers; } hw; void *samplers[PIPE_MAX_SAMPLERS]; unsigned nr_samplers; void *samplers_saved[PIPE_MAX_SAMPLERS]; unsigned nr_samplers_saved; struct pipe_sampler_view *views[PIPE_MAX_SAMPLERS]; unsigned nr_views; struct pipe_sampler_view *views_saved[PIPE_MAX_SAMPLERS]; unsigned nr_views_saved; }; struct cso_context { struct pipe_context *pipe; struct cso_cache *cache; boolean has_geometry_shader; boolean has_streamout; struct sampler_info fragment_samplers; struct sampler_info vertex_samplers; uint nr_vertex_buffers; struct pipe_vertex_buffer vertex_buffers[PIPE_MAX_ATTRIBS]; uint nr_vertex_buffers_saved; struct pipe_vertex_buffer vertex_buffers_saved[PIPE_MAX_ATTRIBS]; unsigned nr_so_targets; struct pipe_stream_output_target *so_targets[PIPE_MAX_SO_BUFFERS]; unsigned nr_so_targets_saved; struct pipe_stream_output_target *so_targets_saved[PIPE_MAX_SO_BUFFERS]; /** Current and saved state. * The saved state is used as a 1-deep stack. */ void *blend, *blend_saved; void *depth_stencil, *depth_stencil_saved; void *rasterizer, *rasterizer_saved; void *fragment_shader, *fragment_shader_saved, *geometry_shader; void *vertex_shader, *vertex_shader_saved, *geometry_shader_saved; void *velements, *velements_saved; struct pipe_clip_state clip; struct pipe_clip_state clip_saved; struct pipe_framebuffer_state fb, fb_saved; struct pipe_viewport_state vp, vp_saved; struct pipe_blend_color blend_color; unsigned sample_mask; struct pipe_stencil_ref stencil_ref, stencil_ref_saved; }; static boolean delete_blend_state(struct cso_context *ctx, void *state) { struct cso_blend *cso = (struct cso_blend *)state; if (ctx->blend == cso->data) return FALSE; if (cso->delete_state) cso->delete_state(cso->context, cso->data); FREE(state); return TRUE; } static boolean delete_depth_stencil_state(struct cso_context *ctx, void *state) { struct cso_depth_stencil_alpha *cso = (struct cso_depth_stencil_alpha *)state; if (ctx->depth_stencil == cso->data) return FALSE; if (cso->delete_state) cso->delete_state(cso->context, cso->data); FREE(state); return TRUE; } static boolean delete_sampler_state(struct cso_context *ctx, void *state) { struct cso_sampler *cso = (struct cso_sampler *)state; if (cso->delete_state) cso->delete_state(cso->context, cso->data); FREE(state); return TRUE; } static boolean delete_rasterizer_state(struct cso_context *ctx, void *state) { struct cso_rasterizer *cso = (struct cso_rasterizer *)state; if (ctx->rasterizer == cso->data) return FALSE; if (cso->delete_state) cso->delete_state(cso->context, cso->data); FREE(state); return TRUE; } static boolean delete_fs_state(struct cso_context *ctx, void *state) { struct cso_fragment_shader *cso = (struct cso_fragment_shader *)state; if (ctx->fragment_shader == cso->data) return FALSE; if (cso->delete_state) cso->delete_state(cso->context, cso->data); FREE(state); return TRUE; } static boolean delete_vs_state(struct cso_context *ctx, void *state) { struct cso_vertex_shader *cso = (struct cso_vertex_shader *)state; if (ctx->vertex_shader == cso->data) return TRUE; if (cso->delete_state) cso->delete_state(cso->context, cso->data); FREE(state); return FALSE; } static boolean delete_vertex_elements(struct cso_context *ctx, void *state) { struct cso_velements *cso = (struct cso_velements *)state; if (ctx->velements == cso->data) return FALSE; if (cso->delete_state) cso->delete_state(cso->context, cso->data); FREE(state); return TRUE; } static INLINE boolean delete_cso(struct cso_context *ctx, void *state, enum cso_cache_type type) { switch (type) { case CSO_BLEND: return delete_blend_state(ctx, state); break; case CSO_SAMPLER: return delete_sampler_state(ctx, state); break; case CSO_DEPTH_STENCIL_ALPHA: return delete_depth_stencil_state(ctx, state); break; case CSO_RASTERIZER: return delete_rasterizer_state(ctx, state); break; case CSO_FRAGMENT_SHADER: return delete_fs_state(ctx, state); break; case CSO_VERTEX_SHADER: return delete_vs_state(ctx, state); break; case CSO_VELEMENTS: return delete_vertex_elements(ctx, state); break; default: assert(0); FREE(state); } return FALSE; } static INLINE void sanitize_hash(struct cso_hash *hash, enum cso_cache_type type, int max_size, void *user_data) { struct cso_context *ctx = (struct cso_context *)user_data; /* if we're approach the maximum size, remove fourth of the entries * otherwise every subsequent call will go through the same */ int hash_size = cso_hash_size(hash); int max_entries = (max_size > hash_size) ? max_size : hash_size; int to_remove = (max_size < max_entries) * max_entries/4; struct cso_hash_iter iter = cso_hash_first_node(hash); if (hash_size > max_size) to_remove += hash_size - max_size; while (to_remove) { /*remove elements until we're good */ /*fixme: currently we pick the nodes to remove at random*/ void *cso = cso_hash_iter_data(iter); if (delete_cso(ctx, cso, type)) { iter = cso_hash_erase(hash, iter); --to_remove; } else iter = cso_hash_iter_next(iter); } } struct cso_context *cso_create_context( struct pipe_context *pipe ) { struct cso_context *ctx = CALLOC_STRUCT(cso_context); if (ctx == NULL) goto out; assert(PIPE_MAX_SAMPLERS == PIPE_MAX_VERTEX_SAMPLERS); ctx->cache = cso_cache_create(); if (ctx->cache == NULL) goto out; cso_cache_set_sanitize_callback(ctx->cache, sanitize_hash, ctx); ctx->pipe = pipe; /* Enable for testing: */ if (0) cso_set_maximum_cache_size( ctx->cache, 4 ); if (pipe->screen->get_shader_param(pipe->screen, PIPE_SHADER_GEOMETRY, PIPE_SHADER_CAP_MAX_INSTRUCTIONS) > 0) { ctx->has_geometry_shader = TRUE; } if (pipe->screen->get_param(pipe->screen, PIPE_CAP_MAX_STREAM_OUTPUT_BUFFERS) != 0) { ctx->has_streamout = TRUE; } return ctx; out: cso_destroy_context( ctx ); return NULL; } /** * Prior to context destruction, this function unbinds all state objects. */ void cso_release_all( struct cso_context *ctx ) { unsigned i; struct sampler_info *info; if (ctx->pipe) { ctx->pipe->bind_blend_state( ctx->pipe, NULL ); ctx->pipe->bind_rasterizer_state( ctx->pipe, NULL ); ctx->pipe->bind_fragment_sampler_states( ctx->pipe, 0, NULL ); if (ctx->pipe->bind_vertex_sampler_states) ctx->pipe->bind_vertex_sampler_states(ctx->pipe, 0, NULL); ctx->pipe->bind_depth_stencil_alpha_state( ctx->pipe, NULL ); ctx->pipe->bind_fs_state( ctx->pipe, NULL ); ctx->pipe->bind_vs_state( ctx->pipe, NULL ); ctx->pipe->bind_vertex_elements_state( ctx->pipe, NULL ); ctx->pipe->set_fragment_sampler_views(ctx->pipe, 0, NULL); if (ctx->pipe->set_vertex_sampler_views) ctx->pipe->set_vertex_sampler_views(ctx->pipe, 0, NULL); if (ctx->pipe->set_stream_output_targets) ctx->pipe->set_stream_output_targets(ctx->pipe, 0, NULL, 0); } /* free fragment samplers, views */ info = &ctx->fragment_samplers; for (i = 0; i < PIPE_MAX_SAMPLERS; i++) { pipe_sampler_view_reference(&info->views[i], NULL); pipe_sampler_view_reference(&info->views_saved[i], NULL); } /* free vertex samplers, views */ info = &ctx->vertex_samplers; for (i = 0; i < PIPE_MAX_SAMPLERS; i++) { pipe_sampler_view_reference(&info->views[i], NULL); pipe_sampler_view_reference(&info->views_saved[i], NULL); } util_unreference_framebuffer_state(&ctx->fb); util_unreference_framebuffer_state(&ctx->fb_saved); util_copy_vertex_buffers(ctx->vertex_buffers, &ctx->nr_vertex_buffers, NULL, 0); util_copy_vertex_buffers(ctx->vertex_buffers_saved, &ctx->nr_vertex_buffers_saved, NULL, 0); for (i = 0; i < PIPE_MAX_SO_BUFFERS; i++) { pipe_so_target_reference(&ctx->so_targets[i], NULL); pipe_so_target_reference(&ctx->so_targets_saved[i], NULL); } if (ctx->cache) { cso_cache_delete( ctx->cache ); ctx->cache = NULL; } } /** * Free the CSO context. NOTE: the state tracker should have previously called * cso_release_all(). */ void cso_destroy_context( struct cso_context *ctx ) { if (ctx) { FREE( ctx ); } } /* Those function will either find the state of the given template * in the cache or they will create a new state from the given * template, insert it in the cache and return it. */ /* * If the driver returns 0 from the create method then they will assign * the data member of the cso to be the template itself. */ enum pipe_error cso_set_blend(struct cso_context *ctx, const struct pipe_blend_state *templ) { unsigned key_size, hash_key; struct cso_hash_iter iter; void *handle; key_size = templ->independent_blend_enable ? sizeof(struct pipe_blend_state) : (char *)&(templ->rt[1]) - (char *)templ; hash_key = cso_construct_key((void*)templ, key_size); iter = cso_find_state_template(ctx->cache, hash_key, CSO_BLEND, (void*)templ, key_size); if (cso_hash_iter_is_null(iter)) { struct cso_blend *cso = MALLOC(sizeof(struct cso_blend)); if (!cso) return PIPE_ERROR_OUT_OF_MEMORY; memset(&cso->state, 0, sizeof cso->state); memcpy(&cso->state, templ, key_size); cso->data = ctx->pipe->create_blend_state(ctx->pipe, &cso->state); cso->delete_state = (cso_state_callback)ctx->pipe->delete_blend_state; cso->context = ctx->pipe; iter = cso_insert_state(ctx->cache, hash_key, CSO_BLEND, cso); if (cso_hash_iter_is_null(iter)) { FREE(cso); return PIPE_ERROR_OUT_OF_MEMORY; } handle = cso->data; } else { handle = ((struct cso_blend *)cso_hash_iter_data(iter))->data; } if (ctx->blend != handle) { ctx->blend = handle; ctx->pipe->bind_blend_state(ctx->pipe, handle); } return PIPE_OK; } void cso_save_blend(struct cso_context *ctx) { assert(!ctx->blend_saved); ctx->blend_saved = ctx->blend; } void cso_restore_blend(struct cso_context *ctx) { if (ctx->blend != ctx->blend_saved) { ctx->blend = ctx->blend_saved; ctx->pipe->bind_blend_state(ctx->pipe, ctx->blend_saved); } ctx->blend_saved = NULL; } enum pipe_error cso_set_depth_stencil_alpha(struct cso_context *ctx, const struct pipe_depth_stencil_alpha_state *templ) { unsigned key_size = sizeof(struct pipe_depth_stencil_alpha_state); unsigned hash_key = cso_construct_key((void*)templ, key_size); struct cso_hash_iter iter = cso_find_state_template(ctx->cache, hash_key, CSO_DEPTH_STENCIL_ALPHA, (void*)templ, key_size); void *handle; if (cso_hash_iter_is_null(iter)) { struct cso_depth_stencil_alpha *cso = MALLOC(sizeof(struct cso_depth_stencil_alpha)); if (!cso) return PIPE_ERROR_OUT_OF_MEMORY; memcpy(&cso->state, templ, sizeof(*templ)); cso->data = ctx->pipe->create_depth_stencil_alpha_state(ctx->pipe, &cso->state); cso->delete_state = (cso_state_callback)ctx->pipe->delete_depth_stencil_alpha_state; cso->context = ctx->pipe; iter = cso_insert_state(ctx->cache, hash_key, CSO_DEPTH_STENCIL_ALPHA, cso); if (cso_hash_iter_is_null(iter)) { FREE(cso); return PIPE_ERROR_OUT_OF_MEMORY; } handle = cso->data; } else { handle = ((struct cso_depth_stencil_alpha *)cso_hash_iter_data(iter))->data; } if (ctx->depth_stencil != handle) { ctx->depth_stencil = handle; ctx->pipe->bind_depth_stencil_alpha_state(ctx->pipe, handle); } return PIPE_OK; } void cso_save_depth_stencil_alpha(struct cso_context *ctx) { assert(!ctx->depth_stencil_saved); ctx->depth_stencil_saved = ctx->depth_stencil; } void cso_restore_depth_stencil_alpha(struct cso_context *ctx) { if (ctx->depth_stencil != ctx->depth_stencil_saved) { ctx->depth_stencil = ctx->depth_stencil_saved; ctx->pipe->bind_depth_stencil_alpha_state(ctx->pipe, ctx->depth_stencil_saved); } ctx->depth_stencil_saved = NULL; } enum pipe_error cso_set_rasterizer(struct cso_context *ctx, const struct pipe_rasterizer_state *templ) { unsigned key_size = sizeof(struct pipe_rasterizer_state); unsigned hash_key = cso_construct_key((void*)templ, key_size); struct cso_hash_iter iter = cso_find_state_template(ctx->cache, hash_key, CSO_RASTERIZER, (void*)templ, key_size); void *handle = NULL; if (cso_hash_iter_is_null(iter)) { struct cso_rasterizer *cso = MALLOC(sizeof(struct cso_rasterizer)); if (!cso) return PIPE_ERROR_OUT_OF_MEMORY; memcpy(&cso->state, templ, sizeof(*templ)); cso->data = ctx->pipe->create_rasterizer_state(ctx->pipe, &cso->state); cso->delete_state = (cso_state_callback)ctx->pipe->delete_rasterizer_state; cso->context = ctx->pipe; iter = cso_insert_state(ctx->cache, hash_key, CSO_RASTERIZER, cso); if (cso_hash_iter_is_null(iter)) { FREE(cso); return PIPE_ERROR_OUT_OF_MEMORY; } handle = cso->data; } else { handle = ((struct cso_rasterizer *)cso_hash_iter_data(iter))->data; } if (ctx->rasterizer != handle) { ctx->rasterizer = handle; ctx->pipe->bind_rasterizer_state(ctx->pipe, handle); } return PIPE_OK; } void cso_save_rasterizer(struct cso_context *ctx) { assert(!ctx->rasterizer_saved); ctx->rasterizer_saved = ctx->rasterizer; } void cso_restore_rasterizer(struct cso_context *ctx) { if (ctx->rasterizer != ctx->rasterizer_saved) { ctx->rasterizer = ctx->rasterizer_saved; ctx->pipe->bind_rasterizer_state(ctx->pipe, ctx->rasterizer_saved); } ctx->rasterizer_saved = NULL; } enum pipe_error cso_set_fragment_shader_handle(struct cso_context *ctx, void *handle ) { if (ctx->fragment_shader != handle) { ctx->fragment_shader = handle; ctx->pipe->bind_fs_state(ctx->pipe, handle); } return PIPE_OK; } void cso_delete_fragment_shader(struct cso_context *ctx, void *handle ) { if (handle == ctx->fragment_shader) { /* unbind before deleting */ ctx->pipe->bind_fs_state(ctx->pipe, NULL); ctx->fragment_shader = NULL; } ctx->pipe->delete_fs_state(ctx->pipe, handle); } /* Not really working: */ #if 0 enum pipe_error cso_set_fragment_shader(struct cso_context *ctx, const struct pipe_shader_state *templ) { const struct tgsi_token *tokens = templ->tokens; unsigned num_tokens = tgsi_num_tokens(tokens); size_t tokens_size = num_tokens*sizeof(struct tgsi_token); unsigned hash_key = cso_construct_key((void*)tokens, tokens_size); struct cso_hash_iter iter = cso_find_state_template(ctx->cache, hash_key, CSO_FRAGMENT_SHADER, (void*)tokens, sizeof(*templ)); /* XXX correct? tokens_size? */ void *handle = NULL; if (cso_hash_iter_is_null(iter)) { struct cso_fragment_shader *cso = MALLOC(sizeof(struct cso_fragment_shader) + tokens_size); struct tgsi_token *cso_tokens = (struct tgsi_token *)((char *)cso + sizeof(*cso)); if (!cso) return PIPE_ERROR_OUT_OF_MEMORY; memcpy(cso_tokens, tokens, tokens_size); cso->state.tokens = cso_tokens; cso->data = ctx->pipe->create_fs_state(ctx->pipe, &cso->state); cso->delete_state = (cso_state_callback)ctx->pipe->delete_fs_state; cso->context = ctx->pipe; iter = cso_insert_state(ctx->cache, hash_key, CSO_FRAGMENT_SHADER, cso); if (cso_hash_iter_is_null(iter)) { FREE(cso); return PIPE_ERROR_OUT_OF_MEMORY; } handle = cso->data; } else { handle = ((struct cso_fragment_shader *)cso_hash_iter_data(iter))->data; } return cso_set_fragment_shader_handle( ctx, handle ); } #endif void cso_save_fragment_shader(struct cso_context *ctx) { assert(!ctx->fragment_shader_saved); ctx->fragment_shader_saved = ctx->fragment_shader; } void cso_restore_fragment_shader(struct cso_context *ctx) { if (ctx->fragment_shader_saved != ctx->fragment_shader) { ctx->pipe->bind_fs_state(ctx->pipe, ctx->fragment_shader_saved); ctx->fragment_shader = ctx->fragment_shader_saved; } ctx->fragment_shader_saved = NULL; } enum pipe_error cso_set_vertex_shader_handle(struct cso_context *ctx, void *handle ) { if (ctx->vertex_shader != handle) { ctx->vertex_shader = handle; ctx->pipe->bind_vs_state(ctx->pipe, handle); } return PIPE_OK; } void cso_delete_vertex_shader(struct cso_context *ctx, void *handle ) { if (handle == ctx->vertex_shader) { /* unbind before deleting */ ctx->pipe->bind_vs_state(ctx->pipe, NULL); ctx->vertex_shader = NULL; } ctx->pipe->delete_vs_state(ctx->pipe, handle); } /* Not really working: */ #if 0 enum pipe_error cso_set_vertex_shader(struct cso_context *ctx, const struct pipe_shader_state *templ) { unsigned hash_key = cso_construct_key((void*)templ, sizeof(struct pipe_shader_state)); struct cso_hash_iter iter = cso_find_state_template(ctx->cache, hash_key, CSO_VERTEX_SHADER, (void*)templ, sizeof(*templ)); void *handle = NULL; if (cso_hash_iter_is_null(iter)) { struct cso_vertex_shader *cso = MALLOC(sizeof(struct cso_vertex_shader)); if (!cso) return PIPE_ERROR_OUT_OF_MEMORY; memcpy(cso->state, templ, sizeof(*templ)); cso->data = ctx->pipe->create_vs_state(ctx->pipe, &cso->state); cso->delete_state = (cso_state_callback)ctx->pipe->delete_vs_state; cso->context = ctx->pipe; iter = cso_insert_state(ctx->cache, hash_key, CSO_VERTEX_SHADER, cso); if (cso_hash_iter_is_null(iter)) { FREE(cso); return PIPE_ERROR_OUT_OF_MEMORY; } handle = cso->data; } else { handle = ((struct cso_vertex_shader *)cso_hash_iter_data(iter))->data; } return cso_set_vertex_shader_handle( ctx, handle ); } #endif void cso_save_vertex_shader(struct cso_context *ctx) { assert(!ctx->vertex_shader_saved); ctx->vertex_shader_saved = ctx->vertex_shader; } void cso_restore_vertex_shader(struct cso_context *ctx) { if (ctx->vertex_shader_saved != ctx->vertex_shader) { ctx->pipe->bind_vs_state(ctx->pipe, ctx->vertex_shader_saved); ctx->vertex_shader = ctx->vertex_shader_saved; } ctx->vertex_shader_saved = NULL; } enum pipe_error cso_set_framebuffer(struct cso_context *ctx, const struct pipe_framebuffer_state *fb) { if (memcmp(&ctx->fb, fb, sizeof(*fb)) != 0) { util_copy_framebuffer_state(&ctx->fb, fb); ctx->pipe->set_framebuffer_state(ctx->pipe, fb); } return PIPE_OK; } void cso_save_framebuffer(struct cso_context *ctx) { util_copy_framebuffer_state(&ctx->fb_saved, &ctx->fb); } void cso_restore_framebuffer(struct cso_context *ctx) { if (memcmp(&ctx->fb, &ctx->fb_saved, sizeof(ctx->fb))) { util_copy_framebuffer_state(&ctx->fb, &ctx->fb_saved); ctx->pipe->set_framebuffer_state(ctx->pipe, &ctx->fb); util_unreference_framebuffer_state(&ctx->fb_saved); } } enum pipe_error cso_set_viewport(struct cso_context *ctx, const struct pipe_viewport_state *vp) { if (memcmp(&ctx->vp, vp, sizeof(*vp))) { ctx->vp = *vp; ctx->pipe->set_viewport_state(ctx->pipe, vp); } return PIPE_OK; } void cso_save_viewport(struct cso_context *ctx) { ctx->vp_saved = ctx->vp; } void cso_restore_viewport(struct cso_context *ctx) { if (memcmp(&ctx->vp, &ctx->vp_saved, sizeof(ctx->vp))) { ctx->vp = ctx->vp_saved; ctx->pipe->set_viewport_state(ctx->pipe, &ctx->vp); } } enum pipe_error cso_set_blend_color(struct cso_context *ctx, const struct pipe_blend_color *bc) { if (memcmp(&ctx->blend_color, bc, sizeof(ctx->blend_color))) { ctx->blend_color = *bc; ctx->pipe->set_blend_color(ctx->pipe, bc); } return PIPE_OK; } enum pipe_error cso_set_sample_mask(struct cso_context *ctx, unsigned sample_mask) { if (ctx->sample_mask != sample_mask) { ctx->sample_mask = sample_mask; ctx->pipe->set_sample_mask(ctx->pipe, sample_mask); } return PIPE_OK; } enum pipe_error cso_set_stencil_ref(struct cso_context *ctx, const struct pipe_stencil_ref *sr) { if (memcmp(&ctx->stencil_ref, sr, sizeof(ctx->stencil_ref))) { ctx->stencil_ref = *sr; ctx->pipe->set_stencil_ref(ctx->pipe, sr); } return PIPE_OK; } void cso_save_stencil_ref(struct cso_context *ctx) { ctx->stencil_ref_saved = ctx->stencil_ref; } void cso_restore_stencil_ref(struct cso_context *ctx) { if (memcmp(&ctx->stencil_ref, &ctx->stencil_ref_saved, sizeof(ctx->stencil_ref))) { ctx->stencil_ref = ctx->stencil_ref_saved; ctx->pipe->set_stencil_ref(ctx->pipe, &ctx->stencil_ref); } } enum pipe_error cso_set_geometry_shader_handle(struct cso_context *ctx, void *handle) { assert(ctx->has_geometry_shader || !handle); if (ctx->has_geometry_shader && ctx->geometry_shader != handle) { ctx->geometry_shader = handle; ctx->pipe->bind_gs_state(ctx->pipe, handle); } return PIPE_OK; } void cso_delete_geometry_shader(struct cso_context *ctx, void *handle) { if (handle == ctx->geometry_shader) { /* unbind before deleting */ ctx->pipe->bind_gs_state(ctx->pipe, NULL); ctx->geometry_shader = NULL; } ctx->pipe->delete_gs_state(ctx->pipe, handle); } void cso_save_geometry_shader(struct cso_context *ctx) { if (!ctx->has_geometry_shader) { return; } assert(!ctx->geometry_shader_saved); ctx->geometry_shader_saved = ctx->geometry_shader; } void cso_restore_geometry_shader(struct cso_context *ctx) { if (!ctx->has_geometry_shader) { return; } if (ctx->geometry_shader_saved != ctx->geometry_shader) { ctx->pipe->bind_gs_state(ctx->pipe, ctx->geometry_shader_saved); ctx->geometry_shader = ctx->geometry_shader_saved; } ctx->geometry_shader_saved = NULL; } /* clip state */ static INLINE void clip_state_cpy(struct pipe_clip_state *dst, const struct pipe_clip_state *src) { memcpy(dst->ucp, src->ucp, sizeof(dst->ucp)); } static INLINE int clip_state_cmp(const struct pipe_clip_state *a, const struct pipe_clip_state *b) { return memcmp(a->ucp, b->ucp, sizeof(a->ucp)); } void cso_set_clip(struct cso_context *ctx, const struct pipe_clip_state *clip) { if (clip_state_cmp(&ctx->clip, clip)) { clip_state_cpy(&ctx->clip, clip); ctx->pipe->set_clip_state(ctx->pipe, clip); } } void cso_save_clip(struct cso_context *ctx) { clip_state_cpy(&ctx->clip_saved, &ctx->clip); } void cso_restore_clip(struct cso_context *ctx) { if (clip_state_cmp(&ctx->clip, &ctx->clip_saved)) { clip_state_cpy(&ctx->clip, &ctx->clip_saved); ctx->pipe->set_clip_state(ctx->pipe, &ctx->clip_saved); } } enum pipe_error cso_set_vertex_elements(struct cso_context *ctx, unsigned count, const struct pipe_vertex_element *states) { unsigned key_size, hash_key; struct cso_hash_iter iter; void *handle; struct cso_velems_state velems_state; /* need to include the count into the stored state data too. Otherwise first few count pipe_vertex_elements could be identical even if count is different, and there's no guarantee the hash would be different in that case neither */ key_size = sizeof(struct pipe_vertex_element) * count + sizeof(unsigned); velems_state.count = count; memcpy(velems_state.velems, states, sizeof(struct pipe_vertex_element) * count); hash_key = cso_construct_key((void*)&velems_state, key_size); iter = cso_find_state_template(ctx->cache, hash_key, CSO_VELEMENTS, (void*)&velems_state, key_size); if (cso_hash_iter_is_null(iter)) { struct cso_velements *cso = MALLOC(sizeof(struct cso_velements)); if (!cso) return PIPE_ERROR_OUT_OF_MEMORY; memcpy(&cso->state, &velems_state, key_size); cso->data = ctx->pipe->create_vertex_elements_state(ctx->pipe, count, &cso->state.velems[0]); cso->delete_state = (cso_state_callback)ctx->pipe->delete_vertex_elements_state; cso->context = ctx->pipe; iter = cso_insert_state(ctx->cache, hash_key, CSO_VELEMENTS, cso); if (cso_hash_iter_is_null(iter)) { FREE(cso); return PIPE_ERROR_OUT_OF_MEMORY; } handle = cso->data; } else { handle = ((struct cso_velements *)cso_hash_iter_data(iter))->data; } if (ctx->velements != handle) { ctx->velements = handle; ctx->pipe->bind_vertex_elements_state(ctx->pipe, handle); } return PIPE_OK; } void cso_save_vertex_elements(struct cso_context *ctx) { assert(!ctx->velements_saved); ctx->velements_saved = ctx->velements; } void cso_restore_vertex_elements(struct cso_context *ctx) { if (ctx->velements != ctx->velements_saved) { ctx->velements = ctx->velements_saved; ctx->pipe->bind_vertex_elements_state(ctx->pipe, ctx->velements_saved); } ctx->velements_saved = NULL; } /* vertex buffers */ void cso_set_vertex_buffers(struct cso_context *ctx, unsigned count, const struct pipe_vertex_buffer *buffers) { if (count != ctx->nr_vertex_buffers || memcmp(buffers, ctx->vertex_buffers, sizeof(struct pipe_vertex_buffer) * count) != 0) { util_copy_vertex_buffers(ctx->vertex_buffers, &ctx->nr_vertex_buffers, buffers, count); ctx->pipe->set_vertex_buffers(ctx->pipe, count, buffers); } } void cso_save_vertex_buffers(struct cso_context *ctx) { util_copy_vertex_buffers(ctx->vertex_buffers_saved, &ctx->nr_vertex_buffers_saved, ctx->vertex_buffers, ctx->nr_vertex_buffers); } void cso_restore_vertex_buffers(struct cso_context *ctx) { util_copy_vertex_buffers(ctx->vertex_buffers, &ctx->nr_vertex_buffers, ctx->vertex_buffers_saved, ctx->nr_vertex_buffers_saved); ctx->pipe->set_vertex_buffers(ctx->pipe, ctx->nr_vertex_buffers, ctx->vertex_buffers); } /**************** fragment/vertex sampler view state *************************/ static enum pipe_error single_sampler(struct cso_context *ctx, struct sampler_info *info, unsigned idx, const struct pipe_sampler_state *templ) { void *handle = NULL; if (templ != NULL) { unsigned key_size = sizeof(struct pipe_sampler_state); unsigned hash_key = cso_construct_key((void*)templ, key_size); struct cso_hash_iter iter = cso_find_state_template(ctx->cache, hash_key, CSO_SAMPLER, (void *) templ, key_size); if (cso_hash_iter_is_null(iter)) { struct cso_sampler *cso = MALLOC(sizeof(struct cso_sampler)); if (!cso) return PIPE_ERROR_OUT_OF_MEMORY; memcpy(&cso->state, templ, sizeof(*templ)); cso->data = ctx->pipe->create_sampler_state(ctx->pipe, &cso->state); cso->delete_state = (cso_state_callback)ctx->pipe->delete_sampler_state; cso->context = ctx->pipe; iter = cso_insert_state(ctx->cache, hash_key, CSO_SAMPLER, cso); if (cso_hash_iter_is_null(iter)) { FREE(cso); return PIPE_ERROR_OUT_OF_MEMORY; } handle = cso->data; } else { handle = ((struct cso_sampler *)cso_hash_iter_data(iter))->data; } } info->samplers[idx] = handle; return PIPE_OK; } enum pipe_error cso_single_sampler(struct cso_context *ctx, unsigned idx, const struct pipe_sampler_state *templ) { return single_sampler(ctx, &ctx->fragment_samplers, idx, templ); } enum pipe_error cso_single_vertex_sampler(struct cso_context *ctx, unsigned idx, const struct pipe_sampler_state *templ) { return single_sampler(ctx, &ctx->vertex_samplers, idx, templ); } static void single_sampler_done(struct cso_context *ctx, struct sampler_info *info) { unsigned i; /* find highest non-null sampler */ for (i = PIPE_MAX_SAMPLERS; i > 0; i--) { if (info->samplers[i - 1] != NULL) break; } info->nr_samplers = i; if (info->hw.nr_samplers != info->nr_samplers || memcmp(info->hw.samplers, info->samplers, info->nr_samplers * sizeof(void *)) != 0) { memcpy(info->hw.samplers, info->samplers, info->nr_samplers * sizeof(void *)); info->hw.nr_samplers = info->nr_samplers; if (info == &ctx->fragment_samplers) { ctx->pipe->bind_fragment_sampler_states(ctx->pipe, info->nr_samplers, info->samplers); } else if (info == &ctx->vertex_samplers) { ctx->pipe->bind_vertex_sampler_states(ctx->pipe, info->nr_samplers, info->samplers); } else { assert(0); } } } void cso_single_sampler_done( struct cso_context *ctx ) { single_sampler_done(ctx, &ctx->fragment_samplers); } void cso_single_vertex_sampler_done(struct cso_context *ctx) { single_sampler_done(ctx, &ctx->vertex_samplers); } /* * If the function encouters any errors it will return the * last one. Done to always try to set as many samplers * as possible. */ static enum pipe_error set_samplers(struct cso_context *ctx, struct sampler_info *info, unsigned nr, const struct pipe_sampler_state **templates) { unsigned i; enum pipe_error temp, error = PIPE_OK; /* TODO: fastpath */ for (i = 0; i < nr; i++) { temp = single_sampler(ctx, info, i, templates[i]); if (temp != PIPE_OK) error = temp; } for ( ; i < info->nr_samplers; i++) { temp = single_sampler(ctx, info, i, NULL); if (temp != PIPE_OK) error = temp; } single_sampler_done(ctx, info); return error; } enum pipe_error cso_set_samplers(struct cso_context *ctx, unsigned nr, const struct pipe_sampler_state **templates) { return set_samplers(ctx, &ctx->fragment_samplers, nr, templates); } enum pipe_error cso_set_vertex_samplers(struct cso_context *ctx, unsigned nr, const struct pipe_sampler_state **templates) { return set_samplers(ctx, &ctx->vertex_samplers, nr, templates); } static void save_samplers(struct cso_context *ctx, struct sampler_info *info) { info->nr_samplers_saved = info->nr_samplers; memcpy(info->samplers_saved, info->samplers, sizeof(info->samplers)); } void cso_save_samplers(struct cso_context *ctx) { save_samplers(ctx, &ctx->fragment_samplers); } void cso_save_vertex_samplers(struct cso_context *ctx) { save_samplers(ctx, &ctx->vertex_samplers); } static void restore_samplers(struct cso_context *ctx, struct sampler_info *info) { info->nr_samplers = info->nr_samplers_saved; memcpy(info->samplers, info->samplers_saved, sizeof(info->samplers)); single_sampler_done(ctx, info); } void cso_restore_samplers(struct cso_context *ctx) { restore_samplers(ctx, &ctx->fragment_samplers); } void cso_restore_vertex_samplers(struct cso_context *ctx) { restore_samplers(ctx, &ctx->vertex_samplers); } static void set_sampler_views(struct cso_context *ctx, struct sampler_info *info, void (*set_views)(struct pipe_context *, unsigned num_views, struct pipe_sampler_view **), uint count, struct pipe_sampler_view **views) { uint i; /* reference new views */ for (i = 0; i < count; i++) { pipe_sampler_view_reference(&info->views[i], views[i]); } /* unref extra old views, if any */ for (; i < info->nr_views; i++) { pipe_sampler_view_reference(&info->views[i], NULL); } info->nr_views = count; /* bind the new sampler views */ set_views(ctx->pipe, count, info->views); } void cso_set_fragment_sampler_views(struct cso_context *ctx, uint count, struct pipe_sampler_view **views) { set_sampler_views(ctx, &ctx->fragment_samplers, ctx->pipe->set_fragment_sampler_views, count, views); } void cso_set_vertex_sampler_views(struct cso_context *ctx, uint count, struct pipe_sampler_view **views) { set_sampler_views(ctx, &ctx->vertex_samplers, ctx->pipe->set_vertex_sampler_views, count, views); } static void save_sampler_views(struct cso_context *ctx, struct sampler_info *info) { uint i; info->nr_views_saved = info->nr_views; for (i = 0; i < info->nr_views; i++) { assert(!info->views_saved[i]); pipe_sampler_view_reference(&info->views_saved[i], info->views[i]); } } void cso_save_fragment_sampler_views(struct cso_context *ctx) { save_sampler_views(ctx, &ctx->fragment_samplers); } void cso_save_vertex_sampler_views(struct cso_context *ctx) { save_sampler_views(ctx, &ctx->vertex_samplers); } static void restore_sampler_views(struct cso_context *ctx, struct sampler_info *info, void (*set_views)(struct pipe_context *, unsigned num_views, struct pipe_sampler_view **)) { uint i; for (i = 0; i < info->nr_views_saved; i++) { pipe_sampler_view_reference(&info->views[i], NULL); /* move the reference from one pointer to another */ info->views[i] = info->views_saved[i]; info->views_saved[i] = NULL; } for (; i < info->nr_views; i++) { pipe_sampler_view_reference(&info->views[i], NULL); } /* bind the old/saved sampler views */ set_views(ctx->pipe, info->nr_views_saved, info->views); info->nr_views = info->nr_views_saved; info->nr_views_saved = 0; } void cso_restore_fragment_sampler_views(struct cso_context *ctx) { restore_sampler_views(ctx, &ctx->fragment_samplers, ctx->pipe->set_fragment_sampler_views); } void cso_restore_vertex_sampler_views(struct cso_context *ctx) { restore_sampler_views(ctx, &ctx->vertex_samplers, ctx->pipe->set_vertex_sampler_views); } void cso_set_stream_outputs(struct cso_context *ctx, unsigned num_targets, struct pipe_stream_output_target **targets, unsigned append_bitmask) { struct pipe_context *pipe = ctx->pipe; uint i; if (!ctx->has_streamout) { assert(num_targets == 0); return; } if (ctx->nr_so_targets == 0 && num_targets == 0) { /* Nothing to do. */ return; } /* reference new targets */ for (i = 0; i < num_targets; i++) { pipe_so_target_reference(&ctx->so_targets[i], targets[i]); } /* unref extra old targets, if any */ for (; i < ctx->nr_so_targets; i++) { pipe_so_target_reference(&ctx->so_targets[i], NULL); } pipe->set_stream_output_targets(pipe, num_targets, targets, append_bitmask); ctx->nr_so_targets = num_targets; } void cso_save_stream_outputs(struct cso_context *ctx) { uint i; if (!ctx->has_streamout) { return; } ctx->nr_so_targets_saved = ctx->nr_so_targets; for (i = 0; i < ctx->nr_so_targets; i++) { assert(!ctx->so_targets_saved[i]); pipe_so_target_reference(&ctx->so_targets_saved[i], ctx->so_targets[i]); } } void cso_restore_stream_outputs(struct cso_context *ctx) { struct pipe_context *pipe = ctx->pipe; uint i; if (!ctx->has_streamout) { return; } if (ctx->nr_so_targets == 0 && ctx->nr_so_targets_saved == 0) { /* Nothing to do. */ return; } for (i = 0; i < ctx->nr_so_targets_saved; i++) { pipe_so_target_reference(&ctx->so_targets[i], NULL); /* move the reference from one pointer to another */ ctx->so_targets[i] = ctx->so_targets_saved[i]; ctx->so_targets_saved[i] = NULL; } for (; i < ctx->nr_so_targets; i++) { pipe_so_target_reference(&ctx->so_targets[i], NULL); } /* ~0 means append */ pipe->set_stream_output_targets(pipe, ctx->nr_so_targets_saved, ctx->so_targets, ~0); ctx->nr_so_targets = ctx->nr_so_targets_saved; ctx->nr_so_targets_saved = 0; }