X-Git-Url: https://git.sesse.net/?p=movit;a=blobdiff_plain;f=effect_chain.cpp;h=a9d9e1e2c437da605bc2997b20f824ce6ca64ee6;hp=5c4b52246b255738b2c8b764c13c12547e215ef1;hb=65c6584f77bff0af0c8e38d1ac90298bcd55e9ac;hpb=6bf496a34a84fb14b1b3b6debfd42ba36568b879 diff --git a/effect_chain.cpp b/effect_chain.cpp index 5c4b522..a9d9e1e 100644 --- a/effect_chain.cpp +++ b/effect_chain.cpp @@ -1,5 +1,3 @@ -#define GL_GLEXT_PROTOTYPES 1 - #include #include #include @@ -34,10 +32,27 @@ using namespace std; namespace movit { +namespace { + +// An effect that does nothing. +class IdentityEffect : public Effect { +public: + IdentityEffect() {} + virtual string effect_type_id() const { return "IdentityEffect"; } + string output_fragment_shader() { return read_file("identity.frag"); } +}; + +} // namespace + EffectChain::EffectChain(float aspect_nom, float aspect_denom, ResourcePool *resource_pool) : aspect_nom(aspect_nom), aspect_denom(aspect_denom), + output_color_rgba(false), + num_output_color_ycbcr(0), dither_effect(NULL), + ycbcr_conversion_effect_node(NULL), + intermediate_format(GL_RGBA16F), + intermediate_transformation(NO_FRAMEBUFFER_TRANSFORMATION), num_dither_bits(0), output_origin(OUTPUT_ORIGIN_BOTTOM_LEFT), finalized(false), @@ -49,6 +64,14 @@ EffectChain::EffectChain(float aspect_nom, float aspect_denom, ResourcePool *res } else { owns_resource_pool = false; } + + // Generate a VBO with some data in (shared position and texture coordinate data). + float vertices[] = { + 0.0f, 2.0f, + 0.0f, 0.0f, + 2.0f, 0.0f + }; + vbo = generate_vbo(2, GL_FLOAT, sizeof(vertices), vertices); } EffectChain::~EffectChain() @@ -64,6 +87,8 @@ EffectChain::~EffectChain() if (owns_resource_pool) { delete resource_pool; } + glDeleteBuffers(1, &vbo); + check_error(); } Input *EffectChain::add_input(Input *input) @@ -77,25 +102,52 @@ Input *EffectChain::add_input(Input *input) void EffectChain::add_output(const ImageFormat &format, OutputAlphaFormat alpha_format) { assert(!finalized); + assert(!output_color_rgba); output_format = format; output_alpha_format = alpha_format; - output_color_type = OUTPUT_COLOR_RGB; + output_color_rgba = true; } void EffectChain::add_ycbcr_output(const ImageFormat &format, OutputAlphaFormat alpha_format, - const YCbCrFormat &ycbcr_format, YCbCrOutputSplitting output_splitting) + const YCbCrFormat &ycbcr_format, YCbCrOutputSplitting output_splitting, + GLenum output_type) { assert(!finalized); + assert(num_output_color_ycbcr < 2); output_format = format; output_alpha_format = alpha_format; - output_color_type = OUTPUT_COLOR_YCBCR; - output_ycbcr_format = ycbcr_format; - output_ycbcr_splitting = output_splitting; + + if (num_output_color_ycbcr == 1) { + // Check that the format is the same. + assert(output_ycbcr_format.luma_coefficients == ycbcr_format.luma_coefficients); + assert(output_ycbcr_format.full_range == ycbcr_format.full_range); + assert(output_ycbcr_format.num_levels == ycbcr_format.num_levels); + assert(output_ycbcr_format.chroma_subsampling_x == 1); + assert(output_ycbcr_format.chroma_subsampling_y == 1); + assert(output_ycbcr_type == output_type); + } else { + output_ycbcr_format = ycbcr_format; + output_ycbcr_type = output_type; + } + output_ycbcr_splitting[num_output_color_ycbcr++] = output_splitting; assert(ycbcr_format.chroma_subsampling_x == 1); assert(ycbcr_format.chroma_subsampling_y == 1); } +void EffectChain::change_ycbcr_output_format(const YCbCrFormat &ycbcr_format) +{ + assert(num_output_color_ycbcr > 0); + assert(output_ycbcr_format.chroma_subsampling_x == 1); + assert(output_ycbcr_format.chroma_subsampling_y == 1); + + output_ycbcr_format = ycbcr_format; + if (finalized) { + YCbCrConversionEffect *effect = (YCbCrConversionEffect *)(ycbcr_conversion_effect_node->effect); + effect->change_output_format(ycbcr_format); + } +} + Node *EffectChain::add_node(Effect *effect) { for (unsigned i = 0; i < nodes.size(); ++i) { @@ -180,6 +232,13 @@ GLenum EffectChain::get_input_sampler(Node *node, unsigned input_num) const return GL_TEXTURE0 + node->incoming_links[input_num]->bound_sampler_num; } +GLenum EffectChain::has_input_sampler(Node *node, unsigned input_num) const +{ + assert(input_num < node->incoming_links.size()); + return node->incoming_links[input_num]->bound_sampler_num >= 0 && + node->incoming_links[input_num]->bound_sampler_num < 8; +} + void EffectChain::find_all_nonlinear_inputs(Node *node, vector *nonlinear_inputs) { if (node->output_gamma_curve == GAMMA_LINEAR && @@ -300,7 +359,12 @@ void collect_uniform_locations(GLuint glsl_program_num, vector > *pha void EffectChain::compile_glsl_program(Phase *phase) { - string frag_shader_header = read_version_dependent_file("header", "frag"); + string frag_shader_header; + if (phase->is_compute_shader) { + frag_shader_header = read_file("header.compute"); + } else { + frag_shader_header = read_version_dependent_file("header", "frag"); + } string frag_shader = ""; // Create functions and uniforms for all the texture inputs that we need. @@ -312,7 +376,14 @@ void EffectChain::compile_glsl_program(Phase *phase) frag_shader += string("uniform sampler2D tex_") + effect_id + ";\n"; frag_shader += string("vec4 ") + effect_id + "(vec2 tc) {\n"; - frag_shader += "\treturn tex2D(tex_" + string(effect_id) + ", tc);\n"; + frag_shader += "\tvec4 tmp = tex2D(tex_" + string(effect_id) + ", tc);\n"; + + if (intermediate_transformation == SQUARE_ROOT_FRAMEBUFFER_TRANSFORMATION && + phase->inputs[i]->output_node->output_gamma_curve == GAMMA_LINEAR) { + frag_shader += "\ttmp.rgb *= tmp.rgb;\n"; + } + + frag_shader += "\treturn tmp;\n"; frag_shader += "}\n"; frag_shader += "\n"; @@ -348,8 +419,10 @@ void EffectChain::compile_glsl_program(Phase *phase) frag_shader += "\n"; frag_shader += string("#define FUNCNAME ") + effect_id + "\n"; + if (node->effect->is_compute_shader()) { + frag_shader += string("#define NORMALIZE_TEXTURE_COORDS(tc) ((tc) * ") + effect_id + "_inv_output_size + " + effect_id + "_output_texcoord_adjust)\n"; + } frag_shader += replace_prefix(node->effect->output_fragment_shader(), effect_id); - frag_shader += "#undef PREFIX\n"; frag_shader += "#undef FUNCNAME\n"; if (node->incoming_links.size() == 1) { frag_shader += "#undef INPUT\n"; @@ -365,22 +438,74 @@ void EffectChain::compile_glsl_program(Phase *phase) frag_shader += string("#define INPUT ") + phase->effect_ids[phase->effects.back()] + "\n"; // If we're the last phase, add the right #defines for Y'CbCr multi-output as needed. - if (phase->output_node->outgoing_links.empty() && output_color_type == OUTPUT_COLOR_YCBCR) { - switch (output_ycbcr_splitting) { + vector frag_shader_outputs; // In order. + if (phase->output_node->outgoing_links.empty() && num_output_color_ycbcr > 0) { + switch (output_ycbcr_splitting[0]) { case YCBCR_OUTPUT_INTERLEAVED: // No #defines set. + frag_shader_outputs.push_back("FragColor"); break; case YCBCR_OUTPUT_SPLIT_Y_AND_CBCR: frag_shader += "#define YCBCR_OUTPUT_SPLIT_Y_AND_CBCR 1\n"; + frag_shader_outputs.push_back("Y"); + frag_shader_outputs.push_back("Chroma"); break; case YCBCR_OUTPUT_PLANAR: frag_shader += "#define YCBCR_OUTPUT_PLANAR 1\n"; + frag_shader_outputs.push_back("Y"); + frag_shader_outputs.push_back("Cb"); + frag_shader_outputs.push_back("Cr"); break; default: assert(false); } + + if (num_output_color_ycbcr > 1) { + switch (output_ycbcr_splitting[1]) { + case YCBCR_OUTPUT_INTERLEAVED: + frag_shader += "#define SECOND_YCBCR_OUTPUT_INTERLEAVED 1\n"; + frag_shader_outputs.push_back("YCbCr2"); + break; + case YCBCR_OUTPUT_SPLIT_Y_AND_CBCR: + frag_shader += "#define SECOND_YCBCR_OUTPUT_SPLIT_Y_AND_CBCR 1\n"; + frag_shader_outputs.push_back("Y2"); + frag_shader_outputs.push_back("Chroma2"); + break; + case YCBCR_OUTPUT_PLANAR: + frag_shader += "#define SECOND_YCBCR_OUTPUT_PLANAR 1\n"; + frag_shader_outputs.push_back("Y2"); + frag_shader_outputs.push_back("Cb2"); + frag_shader_outputs.push_back("Cr2"); + break; + default: + assert(false); + } + } + + if (output_color_rgba) { + // Note: Needs to come in the header, because not only the + // output needs to see it (YCbCrConversionEffect and DitherEffect + // do, too). + frag_shader_header += "#define YCBCR_ALSO_OUTPUT_RGBA 1\n"; + frag_shader_outputs.push_back("RGBA"); + } + } + + // If we're bouncing to a temporary texture, signal transformation if desired. + if (!phase->output_node->outgoing_links.empty()) { + if (intermediate_transformation == SQUARE_ROOT_FRAMEBUFFER_TRANSFORMATION && + phase->output_node->output_gamma_curve == GAMMA_LINEAR) { + frag_shader += "#define SQUARE_ROOT_TRANSFORMATION 1\n"; + } + } + + if (phase->is_compute_shader) { + frag_shader.append(read_file("footer.compute")); + phase->output_node->effect->register_uniform_vec2("inv_output_size", (float *)&phase->inv_output_size); + phase->output_node->effect->register_uniform_vec2("output_texcoord_adjust", (float *)&phase->output_texcoord_adjust); + } else { + frag_shader.append(read_file("footer.frag")); } - frag_shader.append(read_version_dependent_file("footer", "frag")); // Collect uniforms from all effects and output them. Note that this needs // to happen after output_fragment_shader(), even though the uniforms come @@ -393,6 +518,7 @@ void EffectChain::compile_glsl_program(Phase *phase) Node *node = phase->effects[i]; Effect *effect = node->effect; const string effect_id = phase->effect_ids[node]; + extract_uniform_declarations(effect->uniforms_image2d, "image2D", effect_id, &phase->uniforms_image2d, &frag_shader_uniforms); extract_uniform_declarations(effect->uniforms_sampler2d, "sampler2D", effect_id, &phase->uniforms_sampler2d, &frag_shader_uniforms); extract_uniform_declarations(effect->uniforms_bool, "bool", effect_id, &phase->uniforms_bool, &frag_shader_uniforms); extract_uniform_declarations(effect->uniforms_int, "int", effect_id, &phase->uniforms_int, &frag_shader_uniforms); @@ -400,7 +526,9 @@ void EffectChain::compile_glsl_program(Phase *phase) extract_uniform_declarations(effect->uniforms_vec2, "vec2", effect_id, &phase->uniforms_vec2, &frag_shader_uniforms); extract_uniform_declarations(effect->uniforms_vec3, "vec3", effect_id, &phase->uniforms_vec3, &frag_shader_uniforms); extract_uniform_declarations(effect->uniforms_vec4, "vec4", effect_id, &phase->uniforms_vec4, &frag_shader_uniforms); + extract_uniform_array_declarations(effect->uniforms_float_array, "float", effect_id, &phase->uniforms_float, &frag_shader_uniforms); extract_uniform_array_declarations(effect->uniforms_vec2_array, "vec2", effect_id, &phase->uniforms_vec2, &frag_shader_uniforms); + extract_uniform_array_declarations(effect->uniforms_vec3_array, "vec3", effect_id, &phase->uniforms_vec3, &frag_shader_uniforms); extract_uniform_array_declarations(effect->uniforms_vec4_array, "vec4", effect_id, &phase->uniforms_vec4, &frag_shader_uniforms); extract_uniform_declarations(effect->uniforms_mat3, "mat3", effect_id, &phase->uniforms_mat3, &frag_shader_uniforms); } @@ -419,9 +547,30 @@ void EffectChain::compile_glsl_program(Phase *phase) vert_shader[pos + needle.size() - 1] = '1'; } - phase->glsl_program_num = resource_pool->compile_glsl_program(vert_shader, frag_shader); + if (phase->is_compute_shader) { + phase->glsl_program_num = resource_pool->compile_glsl_compute_program(frag_shader); + + Uniform uniform; + uniform.name = "outbuf"; + uniform.value = &phase->outbuf_image_unit; + uniform.prefix = "tex"; + uniform.num_values = 1; + uniform.location = -1; + phase->uniforms_image2d.push_back(uniform); + } else { + phase->glsl_program_num = resource_pool->compile_glsl_program(vert_shader, frag_shader, frag_shader_outputs); + } + GLint position_attribute_index = glGetAttribLocation(phase->glsl_program_num, "position"); + GLint texcoord_attribute_index = glGetAttribLocation(phase->glsl_program_num, "texcoord"); + if (position_attribute_index != -1) { + phase->attribute_indexes.insert(position_attribute_index); + } + if (texcoord_attribute_index != -1) { + phase->attribute_indexes.insert(texcoord_attribute_index); + } // Collect the resulting location numbers for each uniform. + collect_uniform_locations(phase->glsl_program_num, &phase->uniforms_image2d); collect_uniform_locations(phase->glsl_program_num, &phase->uniforms_sampler2d); collect_uniform_locations(phase->glsl_program_num, &phase->uniforms_bool); collect_uniform_locations(phase->glsl_program_num, &phase->uniforms_int); @@ -448,6 +597,7 @@ Phase *EffectChain::construct_phase(Node *output, map *complete Phase *phase = new Phase; phase->output_node = output; + phase->is_compute_shader = output->effect->is_compute_shader(); // If the output effect has one-to-one sampling, we try to trace this // status down through the dependency chain. This is important in case @@ -489,7 +639,14 @@ Phase *EffectChain::construct_phase(Node *output, map *complete bool start_new_phase = false; if (node->effect->needs_texture_bounce() && - !deps[i]->effect->is_single_texture()) { + !deps[i]->effect->is_single_texture() && + !deps[i]->effect->override_disable_bounce()) { + start_new_phase = true; + } + + // Compute shaders currently always end phases. + // (We might loosen this up in some cases in the future.) + if (deps[i]->effect->is_compute_shader()) { start_new_phase = true; } @@ -560,9 +717,17 @@ Phase *EffectChain::construct_phase(Node *output, map *complete // and create a GLSL program for it. assert(!phase->effects.empty()); - // Deduplicate the inputs. - sort(phase->inputs.begin(), phase->inputs.end()); - phase->inputs.erase(unique(phase->inputs.begin(), phase->inputs.end()), phase->inputs.end()); + // Deduplicate the inputs, but don't change the ordering e.g. by sorting; + // that would be nondeterministic and thus reduce cacheability. + // TODO: Make this even more deterministic. + vector dedup_inputs; + set seen_inputs; + for (size_t i = 0; i < phase->inputs.size(); ++i) { + if (seen_inputs.insert(phase->inputs[i]).second) { + dedup_inputs.push_back(phase->inputs[i]); + } + } + swap(phase->inputs, dedup_inputs); // Allocate samplers for each input. phase->input_samplers.resize(phase->inputs.size()); @@ -597,9 +762,8 @@ Phase *EffectChain::construct_phase(Node *output, map *complete // Actually make the shader for this phase. compile_glsl_program(phase); - // Initialize timer objects. + // Initialize timers. if (movit_timer_queries_supported) { - glGenQueries(1, &phase->timer_query_object); phase->time_elapsed_ns = 0; phase->num_measured_iterations = 0; } @@ -1123,6 +1287,11 @@ void EffectChain::propagate_alpha() if (alpha_handling == Effect::INPUT_AND_OUTPUT_PREMULTIPLIED_ALPHA || alpha_handling == Effect::INPUT_PREMULTIPLIED_ALPHA_KEEP_BLANK) { + // This combination (requiring premultiplied alpha, but _not_ requiring + // linear light) is illegal, since the combination of premultiplied alpha + // and nonlinear inputs is meaningless. + assert(node->effect->needs_linear_light()); + // If the effect has asked for premultiplied alpha, check that it has got it. if (any_postmultiplied) { node->output_alpha_type = ALPHA_INVALID; @@ -1519,13 +1688,13 @@ void EffectChain::fix_output_gamma() // gamma-encoded data. void EffectChain::add_ycbcr_conversion_if_needed() { - assert(output_color_type == OUTPUT_COLOR_RGB || output_color_type == OUTPUT_COLOR_YCBCR); - if (output_color_type != OUTPUT_COLOR_YCBCR) { + assert(output_color_rgba || num_output_color_ycbcr > 0); + if (num_output_color_ycbcr == 0) { return; } Node *output = find_output_node(); - Node *ycbcr = add_node(new YCbCrConversionEffect(output_ycbcr_format)); - connect_nodes(output, ycbcr); + ycbcr_conversion_effect_node = add_node(new YCbCrConversionEffect(output_ycbcr_format, output_ycbcr_type)); + connect_nodes(output, ycbcr_conversion_effect_node); } // If the user has requested dither, add a DitherEffect right at the end @@ -1544,6 +1713,21 @@ void EffectChain::add_dither_if_needed() dither_effect = dither->effect; } +// Compute shaders can't output to the framebuffer, so if the last +// phase ends in a compute shader, add a dummy phase at the end that +// only blits directly from the temporary texture. +// +// TODO: Add an API for rendering directly to textures, for the cases +// where we're only rendering to an FBO anyway. +void EffectChain::add_dummy_effect_if_needed() +{ + Node *output = find_output_node(); + if (output->effect->is_compute_shader()) { + Node *dummy = add_node(new IdentityEffect()); + connect_nodes(output, dummy); + } +} + // Find the output node. This is, simply, one that has no outgoing links. // If there are multiple ones, the graph is malformed (we do not support // multiple outputs right now). @@ -1615,7 +1799,10 @@ void EffectChain::finalize() output_dot("step18-before-dither.dot"); add_dither_if_needed(); - output_dot("step19-final.dot"); + output_dot("step19-before-dummy-effect.dot"); + add_dummy_effect_if_needed(); + + output_dot("step20-final.dot"); // Construct all needed GLSL programs, starting at the output. // We need to keep track of which effects have already been computed, @@ -1624,7 +1811,7 @@ void EffectChain::finalize() map completed_effects; construct_phase(find_output_node(), &completed_effects); - output_dot("step20-split-to-phases.dot"); + output_dot("step21-split-to-phases.dot"); assert(phases[0]->inputs.empty()); @@ -1635,6 +1822,16 @@ void EffectChain::render_to_fbo(GLuint dest_fbo, unsigned width, unsigned height { assert(finalized); + // This needs to be set anew, in case we are coming from a different context + // from when we initialized. + check_error(); + glDisable(GL_DITHER); + check_error(); + + const bool final_srgb = glIsEnabled(GL_FRAMEBUFFER_SRGB); + check_error(); + bool current_srgb = final_srgb; + // Save original viewport. GLuint x = 0, y = 0; @@ -1648,6 +1845,7 @@ void EffectChain::render_to_fbo(GLuint dest_fbo, unsigned width, unsigned height } // Basic state. + check_error(); glDisable(GL_BLEND); check_error(); glDisable(GL_DEPTH_TEST); @@ -1655,23 +1853,6 @@ void EffectChain::render_to_fbo(GLuint dest_fbo, unsigned width, unsigned height glDepthMask(GL_FALSE); check_error(); - // Generate a VAO. All the phases should have exactly the same vertex attributes, - // so it's safe to reuse this. - float vertices[] = { - 0.0f, 2.0f, - 0.0f, 0.0f, - 2.0f, 0.0f - }; - - GLuint vao; - glGenVertexArrays(1, &vao); - check_error(); - glBindVertexArray(vao); - check_error(); - - GLuint position_vbo = fill_vertex_attribute(phases[0]->glsl_program_num, "position", 2, GL_FLOAT, sizeof(vertices), vertices); - GLuint texcoord_vbo = fill_vertex_attribute(phases[0]->glsl_program_num, "texcoord", 2, GL_FLOAT, sizeof(vertices), vertices); // Same as vertices. - set generated_mipmaps; // We choose the simplest option of having one texture per output, @@ -1682,7 +1863,15 @@ void EffectChain::render_to_fbo(GLuint dest_fbo, unsigned width, unsigned height Phase *phase = phases[phase_num]; if (do_phase_timing) { - glBeginQuery(GL_TIME_ELAPSED, phase->timer_query_object); + GLuint timer_query_object; + if (phase->timer_query_objects_free.empty()) { + glGenQueries(1, &timer_query_object); + } else { + timer_query_object = phase->timer_query_objects_free.front(); + phase->timer_query_objects_free.pop_front(); + } + glBeginQuery(GL_TIME_ELAPSED, timer_query_object); + phase->timer_query_objects_running.push_back(timer_query_object); } if (phase_num == phases.size() - 1) { // Last phase goes to the output the user specified. @@ -1696,7 +1885,22 @@ void EffectChain::render_to_fbo(GLuint dest_fbo, unsigned width, unsigned height CHECK(dither_effect->set_int("output_height", height)); } } - execute_phase(phase, phase_num == phases.size() - 1, &output_textures, &generated_mipmaps); + bool last_phase = (phase_num == phases.size() - 1); + + // Enable sRGB rendering for intermediates in case we are + // rendering to an sRGB format. + bool needs_srgb = last_phase ? final_srgb : true; + if (needs_srgb && !current_srgb) { + glEnable(GL_FRAMEBUFFER_SRGB); + check_error(); + current_srgb = true; + } else if (!needs_srgb && current_srgb) { + glDisable(GL_FRAMEBUFFER_SRGB); + check_error(); + current_srgb = true; + } + + execute_phase(phase, last_phase, &output_textures, &generated_mipmaps); if (do_phase_timing) { glEndQuery(GL_TIME_ELAPSED); } @@ -1713,24 +1917,31 @@ void EffectChain::render_to_fbo(GLuint dest_fbo, unsigned width, unsigned height glUseProgram(0); check_error(); - cleanup_vertex_attribute(phases[0]->glsl_program_num, "position", position_vbo); - cleanup_vertex_attribute(phases[0]->glsl_program_num, "texcoord", texcoord_vbo); - - glDeleteVertexArrays(1, &vao); + glBindBuffer(GL_ARRAY_BUFFER, 0); + check_error(); + glBindVertexArray(0); check_error(); if (do_phase_timing) { // Get back the timer queries. for (unsigned phase_num = 0; phase_num < phases.size(); ++phase_num) { Phase *phase = phases[phase_num]; - GLint available = 0; - while (!available) { - glGetQueryObjectiv(phase->timer_query_object, GL_QUERY_RESULT_AVAILABLE, &available); + for (std::list::iterator timer_it = phase->timer_query_objects_running.begin(); + timer_it != phase->timer_query_objects_running.end(); ) { + GLint timer_query_object = *timer_it; + GLint available; + glGetQueryObjectiv(timer_query_object, GL_QUERY_RESULT_AVAILABLE, &available); + if (available) { + GLuint64 time_elapsed; + glGetQueryObjectui64v(timer_query_object, GL_QUERY_RESULT, &time_elapsed); + phase->time_elapsed_ns += time_elapsed; + ++phase->num_measured_iterations; + phase->timer_query_objects_free.push_back(timer_query_object); + phase->timer_query_objects_running.erase(timer_it++); + } else { + ++timer_it; + } } - GLuint64 time_elapsed; - glGetQueryObjectui64v(phase->timer_query_object, GL_QUERY_RESULT, &time_elapsed); - phase->time_elapsed_ns += time_elapsed; - ++phase->num_measured_iterations; } } } @@ -1771,7 +1982,9 @@ void EffectChain::print_phase_timing() printf("Total: %5.1f ms\n", total_time_ms); } -void EffectChain::execute_phase(Phase *phase, bool last_phase, map *output_textures, set *generated_mipmaps) +void EffectChain::execute_phase(Phase *phase, bool last_phase, + map *output_textures, + set *generated_mipmaps) { GLuint fbo = 0; @@ -1780,15 +1993,10 @@ void EffectChain::execute_phase(Phase *phase, bool last_phase, mapcreate_2d_texture(GL_RGBA16F, phase->output_width, phase->output_height); + GLuint tex_num = resource_pool->create_2d_texture(intermediate_format, phase->output_width, phase->output_height); output_textures->insert(make_pair(phase, tex_num)); } - const GLuint glsl_program_num = phase->glsl_program_num; - check_error(); - glUseProgram(glsl_program_num); - check_error(); - // Set up RTT inputs for this phase. for (unsigned sampler = 0; sampler < phase->inputs.size(); ++sampler) { glActiveTexture(GL_TEXTURE0 + sampler); @@ -1805,11 +2013,27 @@ void EffectChain::execute_phase(Phase *phase, bool last_phase, mapinput_samplers[sampler] = sampler; // Bind the sampler to the right uniform. } - // And now the output. (Already set up for us if it is the last phase.) - if (!last_phase) { - fbo = resource_pool->create_fbo((*output_textures)[phase]); - glBindFramebuffer(GL_FRAMEBUFFER, fbo); - glViewport(0, 0, phase->output_width, phase->output_height); + GLuint instance_program_num = resource_pool->use_glsl_program(phase->glsl_program_num); + check_error(); + + // And now the output. + if (phase->is_compute_shader) { + // This is currently the only place where we use image units, + // so we can always use 0. + phase->outbuf_image_unit = 0; + glBindImageTexture(phase->outbuf_image_unit, (*output_textures)[phase], 0, GL_FALSE, 0, GL_WRITE_ONLY, GL_RGBA16F); + check_error(); + phase->inv_output_size.x = 1.0f / phase->output_width; + phase->inv_output_size.y = 1.0f / phase->output_height; + phase->output_texcoord_adjust.x = 0.5f / phase->output_width; + phase->output_texcoord_adjust.y = 0.5f / phase->output_height; + } else { + // (Already set up for us if it is the last phase.) + if (!last_phase) { + fbo = resource_pool->create_fbo((*output_textures)[phase]); + glBindFramebuffer(GL_FRAMEBUFFER, fbo); + glViewport(0, 0, phase->output_width, phase->output_height); + } } // Give the required parameters to all the effects. @@ -1817,7 +2041,7 @@ void EffectChain::execute_phase(Phase *phase, bool last_phase, mapeffects.size(); ++i) { Node *node = phase->effects[i]; unsigned old_sampler_num = sampler_num; - node->effect->set_gl_state(glsl_program_num, phase->effect_ids[node], &sampler_num); + node->effect->set_gl_state(instance_program_num, phase->effect_ids[node], &sampler_num); check_error(); if (node->effect->is_single_texture()) { @@ -1828,22 +2052,38 @@ void EffectChain::execute_phase(Phase *phase, bool last_phase, mapis_compute_shader) { + unsigned x, y, z; + phase->output_node->effect->get_compute_dimensions(phase->output_width, phase->output_height, &x, &y, &z); - glUseProgram(0); - check_error(); + // Uniforms need to come after set_gl_state() _and_ get_compute_dimensions(), + // since they can be updated from there. + setup_uniforms(phase); + glDispatchCompute(x, y, z); + } else { + // Uniforms need to come after set_gl_state(), since they can be updated + // from there. + setup_uniforms(phase); + // Bind the vertex data. + GLuint vao = resource_pool->create_vec2_vao(phase->attribute_indexes, vbo); + glBindVertexArray(vao); + + glDrawArrays(GL_TRIANGLES, 0, 3); + check_error(); + + resource_pool->release_vec2_vao(vao); + } + for (unsigned i = 0; i < phase->effects.size(); ++i) { Node *node = phase->effects[i]; node->effect->clear_gl_state(); } - if (!last_phase) { + resource_pool->unuse_glsl_program(instance_program_num); + + if (!last_phase && !phase->is_compute_shader) { resource_pool->release_fbo(fbo); } } @@ -1851,6 +2091,12 @@ void EffectChain::execute_phase(Phase *phase, bool last_phase, mapuniforms_image2d.size(); ++i) { + const Uniform &uniform = phase->uniforms_image2d[i]; + if (uniform.location != -1) { + glUniform1iv(uniform.location, uniform.num_values, uniform.value); + } + } for (size_t i = 0; i < phase->uniforms_sampler2d.size(); ++i) { const Uniform &uniform = phase->uniforms_sampler2d[i]; if (uniform.location != -1) {