ref: e463564ffe1d86ce13f722e88cfe1154708ed7d2
dir: /glsl_shader.c/
// This file is heavily influenced by Snes9x #include "third_party/gl_core/gl_core_3_1.h" #include "glsl_shader.h" #include "util.h" #include "config.h" #include <stdio.h> #include <assert.h> #include <string.h> #define STB_IMAGE_IMPLEMENTATION #define STBI_NO_THREAD_LOCALS #define STBI_ONLY_PNG #define STBI_MAX_DIMENSIONS 4096 #define STBI_NO_FAILURE_STRINGS #include "third_party/stb/stb_image.h" static GlslPass *ParseConfigKeyPass(GlslShader *gs, const char *key, const char *match) { char *endp; for (; *match; key++, match++) { if (*key != *match) return NULL; } if ((uint8)(*key - '0') >= 10) return NULL; uint pass = strtoul(key, &endp, 10); if (pass >= gs->n_pass || *endp != 0) return NULL; return gs->pass + pass + 1; } static uint8 ParseScaleType(const char *s) { return StringEqualsNoCase(s, "source") ? GLSL_SOURCE : StringEqualsNoCase(s, "viewport") ? GLSL_VIEWPORT : StringEqualsNoCase(s, "absolute") ? GLSL_ABSOLUTE : GLSL_NONE; } static uint ParseWrapMode(const char *s) { return StringEqualsNoCase(s, "repeat") ? GL_REPEAT : StringEqualsNoCase(s, "clamp_to_edge") ? GL_CLAMP_TO_EDGE : StringEqualsNoCase(s, "clamp") ? GL_CLAMP : GL_CLAMP_TO_BORDER; } static void GlslPass_Initialize(GlslPass *pass) { pass->scale_x = 1.0f; pass->scale_y = 1.0f; pass->wrap_mode = GL_CLAMP_TO_BORDER; } static void ParseTextures(GlslShader *gs, char *value) { char *id; GlslTexture **nextp = &gs->first_texture; for (int num = 0; (id = NextDelim(&value, ';')) != NULL && num < kGlslMaxTextures; num++) { GlslTexture *t = calloc(sizeof(GlslTexture), 1); t->id = strdup(id); t->wrap_mode = GL_CLAMP_TO_BORDER; t->filter = GL_NEAREST; *nextp = t; nextp = &t->next; } } static bool ParseTextureKeyValue(GlslShader *gs, const char *key, const char *value) { for (GlslTexture *t = gs->first_texture; t != NULL; t = t->next) { const char *key2 = SkipPrefix(key, t->id); if (!key2) continue; if (*key2 == 0) { StrSet(&t->filename, value); return true; } else if (!strcmp(key2, "_wrap_mode")) { t->wrap_mode = ParseWrapMode(value); return true; } else if (!strcmp(key2, "_mipmap")) { t->mipmap = ParseBool(value, NULL); return true; } else if (!strcmp(key2, "_linear")) { t->filter = ParseBool(value, NULL) ? GL_LINEAR : GL_NEAREST; return true; } } return false; } static GlslParam *GlslShader_GetParam(GlslShader *gs, const char *id) { GlslParam **pp = &gs->first_param; for (; (*pp) != NULL; pp = &(*pp)->next) if (!strcmp((*pp)->id, id)) return *pp; GlslParam *p = (GlslParam *)calloc(1, sizeof(GlslParam)); *pp = p; p->id = strdup(id); return p; } static void ParseParameters(GlslShader *gs, char *value) { char *id; while ((id = NextDelim(&value, ';')) != NULL) GlslShader_GetParam(gs, id); } static bool ParseParameterKeyValue(GlslShader *gs, const char *key, const char *value) { for (GlslParam *p = gs->first_param; p != NULL; p = p->next) { if (strcmp(p->id, key) == 0) { p->value = atof(value); p->has_value = true; return true; } } return false; } static void GlslShader_InitializePasses(GlslShader *gs, int passes) { gs->n_pass = passes; gs->pass = (GlslPass *)calloc(gs->n_pass + 1, sizeof(GlslPass)); for (int i = 0; i < gs->n_pass; i++) GlslPass_Initialize(gs->pass + i + 1); } static bool GlslShader_ReadPresetFile(GlslShader *gs, const char *filename) { char *data = (char *)ReadWholeFile(filename, NULL), *data_org = data, *line; GlslPass *pass; if (data == NULL) return false; for (int lineno = 1; (line = NextLineStripComments(&data)) != NULL; lineno++) { char *value = SplitKeyValue(line), *t; if (value == NULL) { if (*line) fprintf(stderr, "%s:%d: Expecting key=value\n", filename, lineno); continue; } if (*value == '"') { for (t = ++value; *t && *t != '"'; t++); if (*t) *t = 0; } if (gs->n_pass == 0) { if (strcmp(line, "shaders") != 0) { fprintf(stderr, "%s:%d: Expecting 'shaders'\n", filename, lineno); break; } int passes = strtoul(value, NULL, 10); if (passes < 1 || passes > kGlslMaxPasses) break; GlslShader_InitializePasses(gs, passes); continue; } if ((pass = ParseConfigKeyPass(gs, line, "filter_linear")) != NULL) pass->filter = ParseBool(value, NULL) ? GL_LINEAR : GL_NEAREST; else if ((pass = ParseConfigKeyPass(gs, line, "scale_type")) != NULL) pass->scale_type_x = pass->scale_type_y = ParseScaleType(value); else if ((pass = ParseConfigKeyPass(gs, line, "scale_type_x")) != NULL) pass->scale_type_x = ParseScaleType(value); else if ((pass = ParseConfigKeyPass(gs, line, "scale_type_y")) != NULL) pass->scale_type_y = ParseScaleType(value); else if ((pass = ParseConfigKeyPass(gs, line, "scale")) != NULL) pass->scale_x = pass->scale_y = atof(value); else if ((pass = ParseConfigKeyPass(gs, line, "scale_x")) != NULL) pass->scale_x = atof(value); else if ((pass = ParseConfigKeyPass(gs, line, "scale_y")) != NULL) pass->scale_y = atof(value); else if ((pass = ParseConfigKeyPass(gs, line, "shader")) != NULL) StrSet(&pass->filename, value); else if ((pass = ParseConfigKeyPass(gs, line, "wrap_mode")) != NULL) pass->wrap_mode = ParseWrapMode(value); else if ((pass = ParseConfigKeyPass(gs, line, "mipmap_input")) != NULL) pass->mipmap_input = ParseBool(value, NULL); else if ((pass = ParseConfigKeyPass(gs, line, "frame_count_mod")) != NULL) pass->frame_count_mod = atoi(value); else if ((pass = ParseConfigKeyPass(gs, line, "float_framebuffer")) != NULL) pass->float_framebuffer = ParseBool(value, NULL); else if ((pass = ParseConfigKeyPass(gs, line, "srgb_framebuffer")) != NULL) pass->srgb_framebuffer = ParseBool(value, NULL); else if ((pass = ParseConfigKeyPass(gs, line, "alias")) != NULL) ; else if (strcmp(line, "textures") == 0 && gs->first_texture == NULL) ParseTextures(gs, value); else if (strcmp(line, "parameters") == 0) ParseParameters(gs, value); else if (!ParseTextureKeyValue(gs, line, value) && !ParseParameterKeyValue(gs, line, value)) fprintf(stderr, "%s:%d: Unknown key '%s'\n", filename, lineno, line); } free(data_org); return gs->n_pass != 0; } void GlslShader_ReadShaderFile(GlslShader *gs, const char *filename, ByteArray *result) { char *data = (char *)ReadWholeFile(filename, NULL), *data_org = data, *line; if (data == NULL) { fprintf(stderr, "Unable to read file '%s'\n", filename); return; } while ((line = NextDelim(&data, '\n')) != NULL) { size_t linelen = strlen(line); if (linelen >= 8 && memcmp(line, "#include", 8) == 0) { char *tt = line + 8; char *new_filename = ReplaceFilenameWithNewPath(filename, NextPossiblyQuotedString(&tt)); GlslShader_ReadShaderFile(gs, new_filename, result); free(new_filename); } else if (linelen >= 17 && memcmp(line, "#pragma parameter", 17) == 0) { char *tt = line + 17; GlslParam *param = GlslShader_GetParam(gs, NextPossiblyQuotedString(&tt)); NextPossiblyQuotedString(&tt); // skip name float value = atof(NextPossiblyQuotedString(&tt)); if (!param->has_value) param->value = value; param->min = atof(NextPossiblyQuotedString(&tt)); param->max = atof(NextPossiblyQuotedString(&tt)); // skip step } else { line[linelen] = '\n'; ByteArray_AppendData(result, (uint8 *)line, linelen + 1); } } free(data_org); } static bool GlslPass_Compile(GlslPass *p, uint type, const uint8 *data, size_t size, bool use_opengl_es) { static const char kVertexPrefix[] = "#define VERTEX\n#define PARAMETER_UNIFORM\n"; static const char kFragmentPrefixCore[] = "#define FRAGMENT\n#define PARAMETER_UNIFORM\n"; static const char kFragmentPrefixEs[] = "#define FRAGMENT\n#define PARAMETER_UNIFORM\n" \ "precision mediump float;"; const GLchar *strings[3]; GLint lengths[3]; char buffer[256]; GLint compile_status = 0; size_t skip = 0; if (size < 8 || memcmp(data, "#version", 8) != 0) { if (!use_opengl_es) { strings[0] = "#version 330\n"; lengths[0] = sizeof("#version 330\n") - 1; } else { strings[0] = "#version 300 es\n"; lengths[0] = sizeof("#version 300 es\n") - 1; } } else { while (skip < size && data[skip++] != '\n') {} strings[0] = (char*)data; lengths[0] = (int)skip; } if (type == GL_VERTEX_SHADER) { strings[1] = (char *)kVertexPrefix; lengths[1] = sizeof(kVertexPrefix) - 1; } else { strings[1] = (use_opengl_es) ? (char *)kFragmentPrefixEs : kFragmentPrefixCore; lengths[1] = (use_opengl_es) ? sizeof(kFragmentPrefixEs) - 1 : sizeof(kFragmentPrefixCore) - 1; } strings[2] = (GLchar *)data + skip; lengths[2] = (int)(size - skip); uint shader = glCreateShader(type); glShaderSource(shader, 3, strings, lengths); glCompileShader(shader); glGetShaderiv(shader, GL_COMPILE_STATUS, &compile_status); buffer[0] = 0; glGetShaderInfoLog(shader, sizeof(buffer), NULL, buffer); if (compile_status != GL_TRUE || buffer[0]) { fprintf(stderr, "%s compiling %s shader in file '%s':\n%s\n", compile_status != GL_TRUE ? "Error" : "While", type == GL_VERTEX_SHADER ? "vertex" : "fragment", p->filename, buffer); } if (compile_status == GL_TRUE) glAttachShader(p->gl_program, shader); glDeleteShader(shader); return (compile_status == GL_TRUE); } static void GlslTextureUniform_Read(uint program, const char *prefix, int i, GlslTextureUniform *result) { char buf[40]; char *e = &buf[snprintf(buf, sizeof(buf), i >= 0 ? "%s%u" : "%s", prefix, i)]; memcpy(e, "Texture", 8); result->Texture = glGetUniformLocation(program, buf); memcpy(e, "InputSize", 10); result->InputSize = glGetUniformLocation(program, buf); memcpy(e, "TextureSize", 12); result->TextureSize = glGetUniformLocation(program, buf); memcpy(e, "TexCoord", 9); result->TexCoord = glGetAttribLocation(program, buf); } static const float kMvpMatrixOrtho[16] = { 2.0f, 0.0f, 0.0f, 0.0f, 0.0f, 2.0f, 0.0f, 0.0f, 0.0f, 0.0f, -1.0f, 0.0f, -1.0f, -1.0f, 0.0f, 1.0f }; static void GlslShader_GetUniforms(GlslShader *gs) { int pass_idx = 1; gs->max_prev_frame = 0; for (GlslPass *p = gs->pass + 1, *p_end = p + gs->n_pass; p < p_end; p++, pass_idx++) { uint program = p->gl_program; glUseProgram(program); GLint MVPMatrix = glGetUniformLocation(program, "MVPMatrix"); if (MVPMatrix >= 0) glUniformMatrix4fv(MVPMatrix, 1, GL_FALSE, kMvpMatrixOrtho); GlslTextureUniform_Read(program, "", -1, &p->unif.Top); p->unif.OutputSize = glGetUniformLocation(program, "OutputSize"); p->unif.FrameCount = glGetUniformLocation(program, "FrameCount"); p->unif.FrameDirection = glGetUniformLocation(program, "FrameDirection"); p->unif.LUTTexCoord = glGetAttribLocation(program, "LUTTexCoord"); p->unif.VertexCoord = glGetAttribLocation(program, "VertexCoord"); GlslTextureUniform_Read(program, "Orig", -1, &p->unif.Orig); for (int j = 0; j < 7; j++) { GlslTextureUniform_Read(program, "Prev", j ? j : -1, &p->unif.Prev[j]); if (p->unif.Prev[j].Texture >= 0) gs->max_prev_frame = j + 1; } for (int j = 0; j < gs->n_pass; j++) { GlslTextureUniform_Read(program, "Pass", j, &p->unif.Pass[j]); GlslTextureUniform_Read(program, "PassPrev", j, &p->unif.PassPrev[j]); } GlslTexture *t = gs->first_texture; for (int j = 0; t != NULL; t = t->next, j++) p->unif.Texture[j] = glGetUniformLocation(program, t->id); for (GlslParam *pa = gs->first_param; pa != NULL; pa = pa->next) pa->uniform[pass_idx] = glGetUniformLocation(program, pa->id); } glUseProgram(0); } static bool IsGlslFilename(const char *filename) { size_t len = strlen(filename); return len >= 5 && memcmp(filename + len - 5, ".glsl", 5) == 0; } GlslShader *GlslShader_CreateFromFile(const char *filename, bool opengl_es) { char buffer[256]; GLint link_status; ByteArray shader_code = { 0 }; bool success = false; GlslShader *gs = (GlslShader *)calloc(sizeof(GlslShader), 1); if (!gs) return gs; if (IsGlslFilename(filename)) { GlslShader_InitializePasses(gs, 1); gs->pass[1].filename = strdup(filename); filename = ""; } else { if (!GlslShader_ReadPresetFile(gs, filename)) { fprintf(stderr, "Unable to read file '%s'\n", filename); goto FAIL; } } for (int i = 1; i <= gs->n_pass; i++) { GlslPass *p = gs->pass + i; shader_code.size = 0; if (p->filename == NULL) { fprintf(stderr, "shader%d attribute missing\n", i - 1); goto FAIL; } char *new_filename = ReplaceFilenameWithNewPath(filename, p->filename); GlslShader_ReadShaderFile(gs, new_filename, &shader_code); free(new_filename); if (shader_code.size == 0) { fprintf(stderr, "Couldn't read shader in file '%s'\n", p->filename); goto FAIL; } p->gl_program = glCreateProgram(); if (!GlslPass_Compile(p, GL_VERTEX_SHADER, shader_code.data, shader_code.size, opengl_es) || !GlslPass_Compile(p, GL_FRAGMENT_SHADER, shader_code.data, shader_code.size, opengl_es)) { goto FAIL; } glLinkProgram(p->gl_program); glGetProgramiv(p->gl_program, GL_LINK_STATUS, &link_status); buffer[0] = 0; glGetProgramInfoLog(p->gl_program, sizeof(buffer), NULL, buffer); if (link_status != GL_TRUE || buffer[0]) fprintf(stderr, "%s linking shader in file '%s':\n%s\n", link_status != GL_TRUE ? "Error" : "While", p->filename, buffer); if (link_status != GL_TRUE) goto FAIL; glGenFramebuffers(1, &p->gl_fbo); glGenTextures(1, &p->gl_texture); } for (GlslTexture *t = gs->first_texture; t; t = t->next) { glGenTextures(1, &t->gl_texture); glBindTexture(GL_TEXTURE_2D, t->gl_texture); glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_WRAP_S, t->wrap_mode); glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_WRAP_T, t->wrap_mode); glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_MAG_FILTER, t->filter); glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_MIN_FILTER, t->mipmap ? (t->filter == GL_LINEAR ? GL_LINEAR_MIPMAP_LINEAR : GL_NEAREST_MIPMAP_NEAREST) : t->filter); if (t->filename) { char *new_filename = ReplaceFilenameWithNewPath(filename, t->filename); int imw, imh, imn; unsigned char *data = stbi_load(new_filename, &imw, &imh, &imn, 0); if (!data) { fprintf(stderr, "Unable to read PNG '%s'\n", new_filename); } else { glTexImage2D(GL_TEXTURE_2D, 0, GL_RGBA, imw, imh, 0, (imn == 4) ? GL_RGBA : (imn == 3) ? GL_RGB : GL_LUMINANCE, GL_UNSIGNED_BYTE, data); } free(data); free(new_filename); } if (t->mipmap) glGenerateMipmap(GL_TEXTURE_2D); } for (GlslParam *p = gs->first_param; p; p = p->next) p->value = (p->value < p->min) ? p->min : (p->value > p->max) ? p->max : p->value; GlslShader_GetUniforms(gs); for (int i = 0; i < gs->max_prev_frame; i++) glGenTextures(1, &gs->prev_frame[-i - 1 & 7].gl_texture); static const GLfloat kTexCoords[16] = { 0.0f, 0.0f, 1.0f, 0.0f, 0.0f, 1.0f, 1.0f, 1.0f, 0.0f, 1.0f, 1.0f, 1.0f, 0.0f, 0.0f, 1.0f, 0.0f }; glGenBuffers(1, &gs->gl_vbo); glBindBuffer(GL_ARRAY_BUFFER, gs->gl_vbo); glBufferData(GL_ARRAY_BUFFER, sizeof(kTexCoords), kTexCoords, GL_STATIC_DRAW); glBindBuffer(GL_ARRAY_BUFFER, 0); success = true; FAIL: if (!success) { GlslShader_Destroy(gs); gs = NULL; } ByteArray_Destroy(&shader_code); return gs; } void GlslShader_Destroy(GlslShader *gs) { for (GlslPass *p = gs->pass + 1, *p_end = p + gs->n_pass; p < p_end; p++) { glDeleteProgram(p->gl_program); glDeleteTextures(1, &p->gl_texture); glDeleteFramebuffers(1, &p->gl_fbo); free(p->filename); } free(gs->pass); GlslTexture *t; while ((t = gs->first_texture) != NULL) { gs->first_texture = t->next; glDeleteTextures(1, &t->gl_texture); free(t->id); free(t->filename); free(t); } GlslParam *pp; while ((pp = gs->first_param) != NULL) { gs->first_param = pp->next; free(pp->id); free(pp); } for (int i = 0; i < 8; i++) glDeleteTextures(1, &gs->prev_frame[i].gl_texture); glDeleteBuffers(1, &gs->gl_vbo); free(gs); } enum { kMaxVaosInRenderCtx = 11 + kGlslMaxPasses * 2 }; typedef struct RenderCtx { uint texture_unit; uint offset; uint num_vaos; uint vaos[kMaxVaosInRenderCtx]; } RenderCtx; static void RenderCtx_SetTexture(RenderCtx *ctx, int textureu, uint texture_id) { if (textureu >= 0) { glActiveTexture(GL_TEXTURE0 + ctx->texture_unit); glBindTexture(GL_TEXTURE_2D, texture_id); glUniform1i(textureu, ctx->texture_unit++); } } static void RenderCtx_SetTexCoords(RenderCtx *ctx, int tex_coord, uintptr_t offset) { if (tex_coord >= 0) { assert(ctx->num_vaos < kMaxVaosInRenderCtx); ctx->vaos[ctx->num_vaos++] = tex_coord; glVertexAttribPointer(tex_coord, 2, GL_FLOAT, GL_FALSE, 0, (void *)offset); glEnableVertexAttribArray(tex_coord); } } static void RenderCtx_SetGlslTextureUniform(RenderCtx *ctx, GlslTextureUniform *u, int width, int height, uint texture) { float size[2] = { width, height }; RenderCtx_SetTexture(ctx, u->Texture, texture); if (u->InputSize >= 0) glUniform2fv(u->InputSize, 1, size); if (u->TextureSize >= 0) glUniform2fv(u->TextureSize, 1, size); RenderCtx_SetTexCoords(ctx, u->TexCoord, ctx->offset); } static void GlslShader_SetShaderVars(GlslShader *gs, RenderCtx *ctx, int pass) { GlslPass *p = &gs->pass[pass]; RenderCtx_SetGlslTextureUniform(ctx, &p->unif.Top, p[-1].width, p[-1].height, p[-1].gl_texture); if (p->unif.OutputSize >= 0) { float output_size[2] = { (float)p[0].width, (float)p[0].height }; glUniform2fv(p->unif.OutputSize, 1, output_size); } if (p->unif.FrameCount >= 0) glUniform1i(p->unif.FrameCount, p->frame_count_mod ? gs->frame_count % p->frame_count_mod : gs->frame_count); if (p->unif.FrameDirection >= 0) glUniform1i(p->unif.FrameDirection, 1); RenderCtx_SetTexCoords(ctx, p->unif.LUTTexCoord, ctx->offset); RenderCtx_SetTexCoords(ctx, p->unif.VertexCoord, 0); RenderCtx_SetGlslTextureUniform(ctx, &p->unif.Orig, gs->pass[0].width, gs->pass[0].height, gs->pass[0].gl_texture); // Prev, Prev1-Prev6 uniforms for (int i = 0; i < gs->max_prev_frame; i++) { GlTextureWithSize *t = &gs->prev_frame[(gs->frame_count - 1 - i) & 7]; assert(t->gl_texture != 0); if (t->width) RenderCtx_SetGlslTextureUniform(ctx, &p->unif.Prev[i], t->width, t->height, t->gl_texture); } // Texture uniforms int tctr = 0; for (GlslTexture *t = gs->first_texture; t; t = t->next, tctr++) RenderCtx_SetTexture(ctx, p->unif.Texture[tctr], t->gl_texture); // PassX uniforms for (int i = 1; i < pass; i++) RenderCtx_SetGlslTextureUniform(ctx, &p->unif.Pass[i], gs->pass[i].width, gs->pass[i].height, gs->pass[i].gl_texture); // PassPrevX uniforms for (int i = 1; i < pass; i++) RenderCtx_SetGlslTextureUniform(ctx, &p->unif.PassPrev[pass - i], gs->pass[i].width, gs->pass[i].height, gs->pass[i].gl_texture); // #parameter uniforms for (GlslParam *pa = gs->first_param; pa != NULL; pa = pa->next) if (pa->uniform[pass] >= 0) glUniform1f(pa->uniform[pass], pa->value); glActiveTexture(GL_TEXTURE0); } void GlslShader_Render(GlslShader *gs, GlTextureWithSize *tex, int viewport_x, int viewport_y, int viewport_width, int viewport_height) { gs->pass[0].gl_texture = tex->gl_texture; gs->pass[0].width = tex->width; gs->pass[0].height = tex->height; GLint previous_framebuffer; glGetIntegerv(GL_FRAMEBUFFER_BINDING, &previous_framebuffer); glBindBuffer(GL_ARRAY_BUFFER, gs->gl_vbo); for (int pass = 1; pass <= gs->n_pass; pass++) { bool last_pass = pass == gs->n_pass; GlslPass *p = gs->pass + pass; switch (p->scale_type_x) { case GLSL_ABSOLUTE: p->width = (uint16)p->scale_x; break; case GLSL_SOURCE: p->width = (uint16)(p[-1].width * p->scale_x); break; case GLSL_VIEWPORT: p->width = (uint16)(viewport_width * p->scale_x); break; default: p->width = (uint16)(last_pass ? viewport_width : (p[-1].width * p->scale_x)); break; } switch (p->scale_type_y) { case GLSL_ABSOLUTE: p->height = (uint16)p->scale_y; break; case GLSL_SOURCE: p->height = (uint16)(p[-1].height * p->scale_y); break; case GLSL_VIEWPORT: p->height = (uint16)(viewport_height * p->scale_y); break; default: p->height = (uint16)(last_pass ? viewport_height : (p[-1].height * p->scale_y)); break; } if (!last_pass) { // output to a texture glBindTexture(GL_TEXTURE_2D, p->gl_texture); if (p->srgb_framebuffer) { glEnable(GL_FRAMEBUFFER_SRGB); glTexImage2D(GL_TEXTURE_2D, 0, GL_SRGB8_ALPHA8, p->width, p->height, 0, GL_RGBA, GL_UNSIGNED_INT_8_8_8_8, NULL); } else { glTexImage2D(GL_TEXTURE_2D, 0, p->float_framebuffer ? GL_RGBA32F : GL_RGBA, p->width, p->height, 0, GL_RGBA, p->float_framebuffer ? GL_FLOAT : GL_UNSIGNED_INT_8_8_8_8, NULL); } glViewport(0, 0, p->width, p->height); glBindFramebuffer(GL_FRAMEBUFFER, p->gl_fbo); glFramebufferTexture2D(GL_FRAMEBUFFER, GL_COLOR_ATTACHMENT0, GL_TEXTURE_2D, p->gl_texture, 0); } else { // output to screen glBindFramebuffer(GL_FRAMEBUFFER, previous_framebuffer); glViewport(viewport_x, viewport_y, viewport_width, viewport_height); } glBindTexture(GL_TEXTURE_2D, p[-1].gl_texture); uint filter = p->filter ? p->filter : (last_pass && g_config.linear_filtering) ? GL_LINEAR : GL_NEAREST; glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_MAG_FILTER, filter); glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_MIN_FILTER, p->mipmap_input ? (filter == GL_LINEAR ? GL_LINEAR_MIPMAP_LINEAR : GL_NEAREST_MIPMAP_NEAREST) : filter); glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_WRAP_S, p->wrap_mode); glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_WRAP_T, p->wrap_mode); if (p->mipmap_input) glGenerateMipmap(GL_TEXTURE_2D); glUseProgram(p->gl_program); RenderCtx ctx; ctx.texture_unit = ctx.num_vaos = 0; ctx.offset = last_pass ? sizeof(float) * 8 : 0; GlslShader_SetShaderVars(gs, &ctx, pass); glDrawArrays(GL_TRIANGLE_STRIP, 0, 4); for(int i = 0; i < ctx.num_vaos; i++) glDisableVertexAttribArray(ctx.vaos[i]); if (p->srgb_framebuffer) glDisable(GL_FRAMEBUFFER_SRGB); } glBindFramebuffer(GL_FRAMEBUFFER, previous_framebuffer); glUseProgram(0); glBindTexture(GL_TEXTURE_2D, 0); glBindBuffer(GL_ARRAY_BUFFER, 0); // Store the input frame in the prev array, and extract the next one. if (gs->max_prev_frame != 0) { // 01234567 // 43210 // ^-- store pos // ^-- load pos GlTextureWithSize *store_pos = &gs->prev_frame[gs->frame_count & 7]; GlTextureWithSize *load_pos = &gs->prev_frame[gs->frame_count - gs->max_prev_frame & 7]; assert(store_pos->gl_texture == 0); *store_pos = *tex; *tex = *load_pos; memset(load_pos, 0, sizeof(GlTextureWithSize)); } gs->frame_count++; }