diff --git a/src/backend/gl/blur.c b/src/backend/gl/blur.c new file mode 100644 index 00000000..0407501c --- /dev/null +++ b/src/backend/gl/blur.c @@ -0,0 +1,892 @@ +#include +#include + +#include +#include + +#include "gl_common.h" + +struct gl_blur_context { + enum blur_method method; + gl_blur_shader_t *blur_shader; + + /// Temporary textures used for blurring + GLuint *blur_textures; + int blur_texture_count; + /// Temporary fbos used for blurring + GLuint *blur_fbos; + int blur_fbo_count; + + /// Cached dimensions of each blur_texture. They are the same size as the target, + /// so they are always big enough without resizing. + /// Turns out calling glTexImage to resize is expensive, so we avoid that. + struct texture_size { + int width; + int height; + } * texture_sizes; + + /// Cached dimensions of the offscreen framebuffer. It's the same size as the + /// target but is expanded in either direction by resize_width / resize_height. + int fb_width, fb_height; + + /// How much do we need to resize the damaged region for blurring. + int resize_width, resize_height; + + int npasses; +}; + +/** + * Blur contents in a particular region. + */ +bool gl_kernel_blur(backend_t *base, double opacity, void *ctx, const rect_t *extent, + struct backend_image *mask, coord_t mask_dst, const GLuint vao[2], + const int vao_nelems[2]) { + auto bctx = (struct gl_blur_context *)ctx; + auto gd = (struct gl_data *)base; + + int dst_y_fb_coord = bctx->fb_height - extent->y2; + + int curr = 0; + for (int i = 0; i < bctx->npasses; ++i) { + const gl_blur_shader_t *p = &bctx->blur_shader[i]; + assert(p->prog); + + assert(bctx->blur_textures[curr]); + + // The origin to use when sampling from the source texture + GLint texorig_x = extent->x1, texorig_y = dst_y_fb_coord; + GLint tex_width, tex_height; + GLuint src_texture; + + if (i == 0) { + src_texture = gd->back_texture; + tex_width = gd->width; + tex_height = gd->height; + } else { + src_texture = bctx->blur_textures[curr]; + auto src_size = bctx->texture_sizes[curr]; + tex_width = src_size.width; + tex_height = src_size.height; + } + + glActiveTexture(GL_TEXTURE0); + glBindTexture(GL_TEXTURE_2D, src_texture); + glUseProgram(p->prog); + glUniform2f(p->uniform_pixel_norm, 1.0F / (GLfloat)tex_width, + 1.0F / (GLfloat)tex_height); + + glActiveTexture(GL_TEXTURE1); + glBindTexture(GL_TEXTURE_2D, gd->default_mask_texture); + + glUniform1i(p->uniform_mask_tex, 1); + glUniform2f(p->uniform_mask_offset, 0.0F, 0.0F); + glUniform1i(p->uniform_mask_inverted, 0); + glUniform1f(p->uniform_mask_corner_radius, 0.0F); + + // The number of indices in the selected vertex array + GLsizei nelems; + + if (i < bctx->npasses - 1) { + assert(bctx->blur_fbos[0]); + assert(bctx->blur_textures[!curr]); + + // not last pass, draw into framebuffer, with resized regions + glBindVertexArray(vao[1]); + nelems = vao_nelems[1]; + glBindFramebuffer(GL_DRAW_FRAMEBUFFER, bctx->blur_fbos[0]); + + glFramebufferTexture2D(GL_DRAW_FRAMEBUFFER, GL_COLOR_ATTACHMENT0, + GL_TEXTURE_2D, bctx->blur_textures[!curr], 0); + glDrawBuffer(GL_COLOR_ATTACHMENT0); + if (!gl_check_fb_complete(GL_FRAMEBUFFER)) { + return false; + } + + glUniform1f(p->uniform_opacity, 1.0F); + } else { + // last pass, draw directly into the back buffer, with origin + // regions. And apply mask if requested + if (mask) { + auto inner = (struct gl_texture *)mask->inner; + glActiveTexture(GL_TEXTURE1); + glBindTexture(GL_TEXTURE_2D, inner->texture); + glUniform1i(p->uniform_mask_inverted, mask->color_inverted); + glUniform1f(p->uniform_mask_corner_radius, + (float)mask->corner_radius); + glUniform2f( + p->uniform_mask_offset, (float)(mask_dst.x), + (float)(bctx->fb_height - mask_dst.y - inner->height)); + } + glBindVertexArray(vao[0]); + nelems = vao_nelems[0]; + glBindFramebuffer(GL_FRAMEBUFFER, gd->back_fbo); + + glUniform1f(p->uniform_opacity, (float)opacity); + } + + glUniform2f(p->texorig_loc, (GLfloat)texorig_x, (GLfloat)texorig_y); + glDrawElements(GL_TRIANGLES, nelems, GL_UNSIGNED_INT, NULL); + + // XXX use multiple draw calls is probably going to be slow than + // just simply blur the whole area. + + curr = !curr; + } + + return true; +} + +bool gl_dual_kawase_blur(backend_t *base, double opacity, void *ctx, const rect_t *extent, + struct backend_image *mask, coord_t mask_dst, + const GLuint vao[2], const int vao_nelems[2]) { + auto bctx = (struct gl_blur_context *)ctx; + auto gd = (struct gl_data *)base; + + int dst_y_fb_coord = bctx->fb_height - extent->y2; + + int iterations = bctx->blur_texture_count; + int scale_factor = 1; + + // Kawase downsample pass + const gl_blur_shader_t *down_pass = &bctx->blur_shader[0]; + assert(down_pass->prog); + glUseProgram(down_pass->prog); + + glUniform2f(down_pass->texorig_loc, (GLfloat)extent->x1, (GLfloat)dst_y_fb_coord); + + for (int i = 0; i < iterations; ++i) { + // Scale output width / height by half in each iteration + scale_factor <<= 1; + + GLuint src_texture; + int tex_width, tex_height; + + if (i == 0) { + // first pass: copy from back buffer + src_texture = gd->back_texture; + tex_width = gd->width; + tex_height = gd->height; + } else { + // copy from previous pass + src_texture = bctx->blur_textures[i - 1]; + auto src_size = bctx->texture_sizes[i - 1]; + tex_width = src_size.width; + tex_height = src_size.height; + } + + assert(src_texture); + assert(bctx->blur_fbos[i]); + + glBindTexture(GL_TEXTURE_2D, src_texture); + glBindVertexArray(vao[1]); + auto nelems = vao_nelems[1]; + glBindFramebuffer(GL_DRAW_FRAMEBUFFER, bctx->blur_fbos[i]); + glDrawBuffer(GL_COLOR_ATTACHMENT0); + + glUniform1f(down_pass->scale_loc, (GLfloat)scale_factor); + + glUniform2f(down_pass->uniform_pixel_norm, 1.0F / (GLfloat)tex_width, + 1.0F / (GLfloat)tex_height); + + glDrawElements(GL_TRIANGLES, nelems, GL_UNSIGNED_INT, NULL); + } + + // Kawase upsample pass + const gl_blur_shader_t *up_pass = &bctx->blur_shader[1]; + assert(up_pass->prog); + glUseProgram(up_pass->prog); + + glUniform2f(up_pass->texorig_loc, (GLfloat)extent->x1, (GLfloat)dst_y_fb_coord); + + for (int i = iterations - 1; i >= 0; --i) { + // Scale output width / height back by two in each iteration + scale_factor >>= 1; + + const GLuint src_texture = bctx->blur_textures[i]; + assert(src_texture); + + // Calculate normalized half-width/-height of a src pixel + auto src_size = bctx->texture_sizes[i]; + int tex_width = src_size.width; + int tex_height = src_size.height; + + // The number of indices in the selected vertex array + GLsizei nelems; + + glActiveTexture(GL_TEXTURE0); + glBindTexture(GL_TEXTURE_2D, src_texture); + glActiveTexture(GL_TEXTURE1); + glBindTexture(GL_TEXTURE_2D, gd->default_mask_texture); + + glUniform1i(up_pass->uniform_mask_tex, 1); + glUniform2f(up_pass->uniform_mask_offset, 0.0F, 0.0F); + glUniform1i(up_pass->uniform_mask_inverted, 0); + glUniform1f(up_pass->uniform_mask_corner_radius, 0.0F); + if (i > 0) { + assert(bctx->blur_fbos[i - 1]); + + // not last pass, draw into next framebuffer + glBindVertexArray(vao[1]); + nelems = vao_nelems[1]; + glBindFramebuffer(GL_DRAW_FRAMEBUFFER, bctx->blur_fbos[i - 1]); + glDrawBuffer(GL_COLOR_ATTACHMENT0); + + glUniform1f(up_pass->uniform_opacity, (GLfloat)1); + } else { + // last pass, draw directly into the back buffer + if (mask) { + auto inner = (struct gl_texture *)mask->inner; + glActiveTexture(GL_TEXTURE1); + glBindTexture(GL_TEXTURE_2D, inner->texture); + glUniform1i(up_pass->uniform_mask_inverted, + mask->color_inverted); + glUniform1f(up_pass->uniform_mask_corner_radius, + (float)mask->corner_radius); + glUniform2f( + up_pass->uniform_mask_offset, (float)(mask_dst.x), + (float)(bctx->fb_height - mask_dst.y - inner->height)); + } + glBindVertexArray(vao[0]); + nelems = vao_nelems[0]; + glBindFramebuffer(GL_FRAMEBUFFER, gd->back_fbo); + + glUniform1f(up_pass->uniform_opacity, (GLfloat)opacity); + } + + glUniform1f(up_pass->scale_loc, (GLfloat)scale_factor); + glUniform2f(up_pass->uniform_pixel_norm, 1.0F / (GLfloat)tex_width, + 1.0F / (GLfloat)tex_height); + + glDrawElements(GL_TRIANGLES, nelems, GL_UNSIGNED_INT, NULL); + } + + return true; +} + +bool gl_blur(backend_t *base, double opacity, void *ctx, void *mask, coord_t mask_dst, + const region_t *reg_blur, const region_t *reg_visible attr_unused) { + auto bctx = (struct gl_blur_context *)ctx; + auto gd = (struct gl_data *)base; + + bool ret = false; + + if (gd->width != bctx->fb_width || gd->height != bctx->fb_height) { + // Resize the temporary textures used for blur in case the root + // size changed + bctx->fb_width = gd->width; + bctx->fb_height = gd->height; + + for (int i = 0; i < bctx->blur_texture_count; ++i) { + auto tex_size = bctx->texture_sizes + i; + if (bctx->method == BLUR_METHOD_DUAL_KAWASE) { + // Use smaller textures for each iteration (quarter of the + // previous texture) + tex_size->width = 1 + ((bctx->fb_width - 1) >> (i + 1)); + tex_size->height = 1 + ((bctx->fb_height - 1) >> (i + 1)); + } else { + tex_size->width = bctx->fb_width; + tex_size->height = bctx->fb_height; + } + + glBindTexture(GL_TEXTURE_2D, bctx->blur_textures[i]); + glTexImage2D(GL_TEXTURE_2D, 0, GL_RGBA8, tex_size->width, + tex_size->height, 0, GL_BGRA, GL_UNSIGNED_BYTE, NULL); + + if (bctx->method == BLUR_METHOD_DUAL_KAWASE) { + // Attach texture to FBO target + glBindFramebuffer(GL_DRAW_FRAMEBUFFER, bctx->blur_fbos[i]); + glFramebufferTexture2D(GL_DRAW_FRAMEBUFFER, + GL_COLOR_ATTACHMENT0, GL_TEXTURE_2D, + bctx->blur_textures[i], 0); + if (!gl_check_fb_complete(GL_FRAMEBUFFER)) { + glBindFramebuffer(GL_FRAMEBUFFER, 0); + return false; + } + } + } + glBindFramebuffer(GL_DRAW_FRAMEBUFFER, 0); + } + + // Remainder: regions are in Xorg coordinates + auto reg_blur_resized = + resize_region(reg_blur, bctx->resize_width, bctx->resize_height); + const rect_t *extent = pixman_region32_extents((region_t *)reg_blur), + *extent_resized = pixman_region32_extents(®_blur_resized); + int width = extent->x2 - extent->x1, height = extent->y2 - extent->y1; + if (width == 0 || height == 0) { + return true; + } + + int nrects, nrects_resized; + const rect_t *rects = pixman_region32_rectangles((region_t *)reg_blur, &nrects), + *rects_resized = + pixman_region32_rectangles(®_blur_resized, &nrects_resized); + if (!nrects || !nrects_resized) { + return true; + } + + auto coord = ccalloc(nrects * 16, GLint); + auto indices = ccalloc(nrects * 6, GLuint); + x_rect_to_coords(nrects, rects, + (coord_t){.x = extent_resized->x1, .y = extent_resized->y2}, + bctx->fb_height, gd->height, false, coord, indices); + + auto coord_resized = ccalloc(nrects_resized * 16, GLint); + auto indices_resized = ccalloc(nrects_resized * 6, GLuint); + x_rect_to_coords(nrects_resized, rects_resized, + (coord_t){.x = extent_resized->x1, .y = extent_resized->y2}, + bctx->fb_height, bctx->fb_height, false, coord_resized, + indices_resized); + pixman_region32_fini(®_blur_resized); + + GLuint vao[2]; + glGenVertexArrays(2, vao); + GLuint bo[4]; + glGenBuffers(4, bo); + + glBindVertexArray(vao[0]); + glBindBuffer(GL_ARRAY_BUFFER, bo[0]); + glBindBuffer(GL_ELEMENT_ARRAY_BUFFER, bo[1]); + glBufferData(GL_ARRAY_BUFFER, (long)sizeof(*coord) * nrects * 16, coord, GL_STATIC_DRAW); + glBufferData(GL_ELEMENT_ARRAY_BUFFER, (long)sizeof(*indices) * nrects * 6, + indices, GL_STATIC_DRAW); + glEnableVertexAttribArray(vert_coord_loc); + glEnableVertexAttribArray(vert_in_texcoord_loc); + glVertexAttribPointer(vert_coord_loc, 2, GL_INT, GL_FALSE, sizeof(GLint) * 4, NULL); + glVertexAttribPointer(vert_in_texcoord_loc, 2, GL_INT, GL_FALSE, + sizeof(GLint) * 4, (void *)(sizeof(GLint) * 2)); + + glBindVertexArray(vao[1]); + glBindBuffer(GL_ARRAY_BUFFER, bo[2]); + glBindBuffer(GL_ELEMENT_ARRAY_BUFFER, bo[3]); + glBufferData(GL_ARRAY_BUFFER, (long)sizeof(*coord_resized) * nrects_resized * 16, + coord_resized, GL_STATIC_DRAW); + glBufferData(GL_ELEMENT_ARRAY_BUFFER, + (long)sizeof(*indices_resized) * nrects_resized * 6, indices_resized, + GL_STATIC_DRAW); + glEnableVertexAttribArray(vert_coord_loc); + glEnableVertexAttribArray(vert_in_texcoord_loc); + glVertexAttribPointer(vert_coord_loc, 2, GL_INT, GL_FALSE, sizeof(GLint) * 4, NULL); + glVertexAttribPointer(vert_in_texcoord_loc, 2, GL_INT, GL_FALSE, + sizeof(GLint) * 4, (void *)(sizeof(GLint) * 2)); + + int vao_nelems[2] = {nrects * 6, nrects_resized * 6}; + + if (bctx->method == BLUR_METHOD_DUAL_KAWASE) { + ret = gl_dual_kawase_blur(base, opacity, ctx, extent_resized, mask, + mask_dst, vao, vao_nelems); + } else { + ret = gl_kernel_blur(base, opacity, ctx, extent_resized, mask, mask_dst, + vao, vao_nelems); + } + + glBindFramebuffer(GL_FRAMEBUFFER, 0); + glActiveTexture(GL_TEXTURE0); + glBindTexture(GL_TEXTURE_2D, 0); + glActiveTexture(GL_TEXTURE1); + glBindTexture(GL_TEXTURE_2D, 0); + glBindBuffer(GL_ARRAY_BUFFER, 0); + glBindBuffer(GL_ELEMENT_ARRAY_BUFFER, 0); + glDeleteBuffers(4, bo); + glBindVertexArray(0); + glDeleteVertexArrays(2, vao); + glUseProgram(0); + + free(indices); + free(coord); + free(indices_resized); + free(coord_resized); + + gl_check_err(); + return ret; +} + +static inline void gl_free_blur_shader(gl_blur_shader_t *shader) { + if (shader->prog) { + glDeleteProgram(shader->prog); + } + + shader->prog = 0; +} + +void gl_destroy_blur_context(backend_t *base attr_unused, void *ctx) { + auto bctx = (struct gl_blur_context *)ctx; + // Free GLSL shaders/programs + for (int i = 0; i < bctx->npasses; ++i) { + gl_free_blur_shader(&bctx->blur_shader[i]); + } + free(bctx->blur_shader); + + if (bctx->blur_texture_count && bctx->blur_textures) { + glDeleteTextures(bctx->blur_texture_count, bctx->blur_textures); + free(bctx->blur_textures); + } + if (bctx->blur_texture_count && bctx->texture_sizes) { + free(bctx->texture_sizes); + } + if (bctx->blur_fbo_count && bctx->blur_fbos) { + glDeleteFramebuffers(bctx->blur_fbo_count, bctx->blur_fbos); + free(bctx->blur_fbos); + } + + bctx->blur_texture_count = 0; + bctx->blur_fbo_count = 0; + + free(bctx); + + gl_check_err(); +} + +/** + * Initialize GL blur filters. + */ +bool gl_create_kernel_blur_context(void *blur_context, GLfloat *projection, + enum blur_method method, void *args) { + bool success = false; + auto ctx = (struct gl_blur_context *)blur_context; + + struct conv **kernels; + + int nkernels; + ctx->method = BLUR_METHOD_KERNEL; + if (method == BLUR_METHOD_KERNEL) { + nkernels = ((struct kernel_blur_args *)args)->kernel_count; + kernels = ((struct kernel_blur_args *)args)->kernels; + } else { + kernels = generate_blur_kernel(method, args, &nkernels); + } + + if (!nkernels) { + ctx->method = BLUR_METHOD_NONE; + return true; + } + + // Specify required textures and FBOs + ctx->blur_texture_count = 2; + ctx->blur_fbo_count = 1; + + ctx->blur_shader = ccalloc(max2(2, nkernels), gl_blur_shader_t); + + char *lc_numeric_old = strdup(setlocale(LC_NUMERIC, NULL)); + // Enforce LC_NUMERIC locale "C" here to make sure decimal point is sane + // Thanks to hiciu for reporting. + setlocale(LC_NUMERIC, "C"); + + // clang-format off + static const char *FRAG_SHADER_BLUR = GLSL(330, + %s\n // other extension pragmas + uniform sampler2D tex_src; + uniform vec2 pixel_norm; + uniform float opacity; + in vec2 texcoord; + out vec4 out_color; + float mask_factor(); + void main() { + vec2 uv = texcoord * pixel_norm; + vec4 sum = vec4(0.0, 0.0, 0.0, 0.0); + %s //body of the convolution + out_color = sum / float(%.7g) * opacity * mask_factor(); + } + ); + static const char *FRAG_SHADER_BLUR_ADD = QUOTE( + sum += float(%.7g) * texture2D(tex_src, uv + pixel_norm * vec2(%.7g, %.7g)); + ); + // clang-format on + + const char *shader_add = FRAG_SHADER_BLUR_ADD; + char *extension = strdup(""); + + for (int i = 0; i < nkernels; i++) { + auto kern = kernels[i]; + // Build shader + int width = kern->w, height = kern->h; + int nele = width * height; + // '%.7g' is at most 14 characters, inserted 3 times + size_t body_len = (strlen(shader_add) + 42) * (uint)nele; + char *shader_body = ccalloc(body_len, char); + char *pc = shader_body; + + // Make use of the linear interpolation hardware by sampling 2 pixels with + // one texture access by sampling between both pixels based on their + // relative weight. Easiest done in a single dimension as 2D bilinear + // filtering would raise additional constraints on the kernels. Therefore + // only use interpolation along the larger dimension. + double sum = 0.0; + if (width > height) { + // use interpolation in x dimension (width) + for (int j = 0; j < height; ++j) { + for (int k = 0; k < width; k += 2) { + double val1, val2; + val1 = kern->data[j * width + k]; + val2 = (k + 1 < width) + ? kern->data[j * width + k + 1] + : 0; + + double combined_weight = val1 + val2; + if (combined_weight == 0) { + continue; + } + sum += combined_weight; + + double offset_x = + k + (val2 / combined_weight) - (width / 2); + double offset_y = j - (height / 2); + pc += snprintf( + pc, body_len - (ulong)(pc - shader_body), + shader_add, combined_weight, offset_x, offset_y); + assert(pc < shader_body + body_len); + } + } + } else { + // use interpolation in y dimension (height) + for (int j = 0; j < height; j += 2) { + for (int k = 0; k < width; ++k) { + double val1, val2; + val1 = kern->data[j * width + k]; + val2 = (j + 1 < height) + ? kern->data[(j + 1) * width + k] + : 0; + + double combined_weight = val1 + val2; + if (combined_weight == 0) { + continue; + } + sum += combined_weight; + + double offset_x = k - (width / 2); + double offset_y = + j + (val2 / combined_weight) - (height / 2); + pc += snprintf( + pc, body_len - (ulong)(pc - shader_body), + shader_add, combined_weight, offset_x, offset_y); + assert(pc < shader_body + body_len); + } + } + } + + auto pass = ctx->blur_shader + i; + size_t shader_len = strlen(FRAG_SHADER_BLUR) + strlen(extension) + + strlen(shader_body) + 10 /* sum */ + + 1 /* null terminator */; + char *shader_str = ccalloc(shader_len, char); + auto real_shader_len = snprintf(shader_str, shader_len, FRAG_SHADER_BLUR, + extension, shader_body, sum); + CHECK(real_shader_len >= 0); + CHECK((size_t)real_shader_len < shader_len); + free(shader_body); + + // Build program + pass->prog = gl_create_program_from_strv( + (const char *[]){vertex_shader, NULL}, + (const char *[]){shader_str, masking_glsl, NULL}); + free(shader_str); + if (!pass->prog) { + log_error("Failed to create GLSL program."); + success = false; + goto out; + } + glBindFragDataLocation(pass->prog, 0, "out_color"); + + // Get uniform addresses + bind_uniform(pass, pixel_norm); + bind_uniform(pass, opacity); + + bind_uniform(pass, mask_tex); + bind_uniform(pass, mask_offset); + bind_uniform(pass, mask_inverted); + bind_uniform(pass, mask_corner_radius); + log_info("Uniform locations: %d %d %d %d %d", pass->uniform_mask_tex, + pass->uniform_mask_offset, pass->uniform_mask_inverted, + pass->uniform_mask_corner_radius, pass->uniform_opacity); + pass->texorig_loc = glGetUniformLocationChecked(pass->prog, "texorig"); + + // Setup projection matrix + glUseProgram(pass->prog); + int pml = glGetUniformLocationChecked(pass->prog, "projection"); + glUniformMatrix4fv(pml, 1, false, projection); + glUseProgram(0); + + ctx->resize_width += kern->w / 2; + ctx->resize_height += kern->h / 2; + } + + if (nkernels == 1) { + // Generate an extra null pass so we don't need special code path for + // the single pass case + auto pass = &ctx->blur_shader[1]; + pass->prog = gl_create_program_from_strv( + (const char *[]){vertex_shader, NULL}, + (const char *[]){copy_with_mask_frag, masking_glsl, NULL}); + pass->uniform_pixel_norm = -1; + pass->uniform_opacity = -1; + pass->texorig_loc = glGetUniformLocationChecked(pass->prog, "texorig"); + bind_uniform(pass, mask_tex); + bind_uniform(pass, mask_offset); + bind_uniform(pass, mask_inverted); + bind_uniform(pass, mask_corner_radius); + + // Setup projection matrix + glUseProgram(pass->prog); + int pml = glGetUniformLocationChecked(pass->prog, "projection"); + glUniformMatrix4fv(pml, 1, false, projection); + glUseProgram(0); + + ctx->npasses = 2; + } else { + ctx->npasses = nkernels; + } + + success = true; +out: + if (method != BLUR_METHOD_KERNEL) { + // We generated the blur kernels, so we need to free them + for (int i = 0; i < nkernels; i++) { + free(kernels[i]); + } + free(kernels); + } + + free(extension); + // Restore LC_NUMERIC + setlocale(LC_NUMERIC, lc_numeric_old); + free(lc_numeric_old); + + return success; +} + +bool gl_create_dual_kawase_blur_context(void *blur_context, GLfloat *projection, + enum blur_method method, void *args) { + bool success = false; + auto ctx = (struct gl_blur_context *)blur_context; + + ctx->method = method; + + auto blur_params = generate_dual_kawase_params(args); + + // Specify required textures and FBOs + ctx->blur_texture_count = blur_params->iterations; + ctx->blur_fbo_count = blur_params->iterations; + + ctx->resize_width += blur_params->expand; + ctx->resize_height += blur_params->expand; + + ctx->npasses = 2; + ctx->blur_shader = ccalloc(ctx->npasses, gl_blur_shader_t); + + char *lc_numeric_old = strdup(setlocale(LC_NUMERIC, NULL)); + // Enforce LC_NUMERIC locale "C" here to make sure decimal point is sane + // Thanks to hiciu for reporting. + setlocale(LC_NUMERIC, "C"); + + // Dual-kawase downsample shader / program + auto down_pass = ctx->blur_shader; + { + // clang-format off + static const char *FRAG_SHADER_DOWN = GLSL(330, + uniform sampler2D tex_src; + uniform float scale = 1.0; + uniform vec2 pixel_norm; + in vec2 texcoord; + out vec4 out_color; + void main() { + vec2 offset = %.7g * pixel_norm; + vec2 uv = texcoord * pixel_norm * (2.0 / scale); + vec4 sum = texture2D(tex_src, uv) * 4.0; + sum += texture2D(tex_src, uv - vec2(0.5, 0.5) * offset); + sum += texture2D(tex_src, uv + vec2(0.5, 0.5) * offset); + sum += texture2D(tex_src, uv + vec2(0.5, -0.5) * offset); + sum += texture2D(tex_src, uv - vec2(0.5, -0.5) * offset); + out_color = sum / 8.0; + } + ); + // clang-format on + + // Build shader + size_t shader_len = + strlen(FRAG_SHADER_DOWN) + 10 /* offset */ + 1 /* null terminator */; + char *shader_str = ccalloc(shader_len, char); + auto real_shader_len = + snprintf(shader_str, shader_len, FRAG_SHADER_DOWN, blur_params->offset); + CHECK(real_shader_len >= 0); + CHECK((size_t)real_shader_len < shader_len); + + // Build program + down_pass->prog = gl_create_program_from_str(vertex_shader, shader_str); + free(shader_str); + if (!down_pass->prog) { + log_error("Failed to create GLSL program."); + success = false; + goto out; + } + glBindFragDataLocation(down_pass->prog, 0, "out_color"); + + // Get uniform addresses + bind_uniform(down_pass, pixel_norm); + down_pass->texorig_loc = + glGetUniformLocationChecked(down_pass->prog, "texorig"); + down_pass->scale_loc = + glGetUniformLocationChecked(down_pass->prog, "scale"); + + // Setup projection matrix + glUseProgram(down_pass->prog); + int pml = glGetUniformLocationChecked(down_pass->prog, "projection"); + glUniformMatrix4fv(pml, 1, false, projection); + glUseProgram(0); + } + + // Dual-kawase upsample shader / program + auto up_pass = ctx->blur_shader + 1; + { + // clang-format off + static const char *FRAG_SHADER_UP = GLSL(330, + uniform sampler2D tex_src; + uniform float scale = 1.0; + uniform vec2 pixel_norm; + uniform float opacity; + in vec2 texcoord; + out vec4 out_color; + float mask_factor(); + void main() { + vec2 offset = %.7g * pixel_norm; + vec2 uv = texcoord * pixel_norm / (2 * scale); + vec4 sum = texture2D(tex_src, uv + vec2(-1.0, 0.0) * offset); + sum += texture2D(tex_src, uv + vec2(-0.5, 0.5) * offset) * 2.0; + sum += texture2D(tex_src, uv + vec2(0.0, 1.0) * offset); + sum += texture2D(tex_src, uv + vec2(0.5, 0.5) * offset) * 2.0; + sum += texture2D(tex_src, uv + vec2(1.0, 0.0) * offset); + sum += texture2D(tex_src, uv + vec2(0.5, -0.5) * offset) * 2.0; + sum += texture2D(tex_src, uv + vec2(0.0, -1.0) * offset); + sum += texture2D(tex_src, uv + vec2(-0.5, -0.5) * offset) * 2.0; + out_color = sum / 12.0 * opacity * mask_factor(); + } + ); + // clang-format on + + // Build shader + size_t shader_len = + strlen(FRAG_SHADER_UP) + 10 /* offset */ + 1 /* null terminator */; + char *shader_str = ccalloc(shader_len, char); + auto real_shader_len = + snprintf(shader_str, shader_len, FRAG_SHADER_UP, blur_params->offset); + CHECK(real_shader_len >= 0); + CHECK((size_t)real_shader_len < shader_len); + + // Build program + up_pass->prog = gl_create_program_from_strv( + (const char *[]){vertex_shader, NULL}, + (const char *[]){shader_str, masking_glsl, NULL}); + free(shader_str); + if (!up_pass->prog) { + log_error("Failed to create GLSL program."); + success = false; + goto out; + } + glBindFragDataLocation(up_pass->prog, 0, "out_color"); + + // Get uniform addresses + bind_uniform(up_pass, pixel_norm); + bind_uniform(up_pass, opacity); + + bind_uniform(up_pass, mask_tex); + bind_uniform(up_pass, mask_offset); + bind_uniform(up_pass, mask_inverted); + bind_uniform(up_pass, mask_corner_radius); + + up_pass->texorig_loc = + glGetUniformLocationChecked(up_pass->prog, "texorig"); + up_pass->scale_loc = glGetUniformLocationChecked(up_pass->prog, "scale"); + + // Setup projection matrix + glUseProgram(up_pass->prog); + int pml = glGetUniformLocationChecked(up_pass->prog, "projection"); + glUniformMatrix4fv(pml, 1, false, projection); + glUseProgram(0); + } + + success = true; +out: + free(blur_params); + + if (!success) { + ctx = NULL; + } + + // Restore LC_NUMERIC + setlocale(LC_NUMERIC, lc_numeric_old); + free(lc_numeric_old); + + return success; +} + +void *gl_create_blur_context(backend_t *base, enum blur_method method, void *args) { + bool success; + auto gd = (struct gl_data *)base; + + auto ctx = ccalloc(1, struct gl_blur_context); + + if (!method || method >= BLUR_METHOD_INVALID) { + ctx->method = BLUR_METHOD_NONE; + return ctx; + } + + // Set projection matrix to gl viewport dimensions so we can use screen + // coordinates for all vertices + // Note: OpenGL matrices are column major + GLint viewport_dimensions[2]; + glGetIntegerv(GL_MAX_VIEWPORT_DIMS, viewport_dimensions); + GLfloat projection_matrix[4][4] = {{2.0F / (GLfloat)viewport_dimensions[0], 0, 0, 0}, + {0, 2.0F / (GLfloat)viewport_dimensions[1], 0, 0}, + {0, 0, 0, 0}, + {-1, -1, 0, 1}}; + + if (method == BLUR_METHOD_DUAL_KAWASE) { + success = gl_create_dual_kawase_blur_context(ctx, projection_matrix[0], + method, args); + } else { + success = + gl_create_kernel_blur_context(ctx, projection_matrix[0], method, args); + } + if (!success || ctx->method == BLUR_METHOD_NONE) { + goto out; + } + + // Texture size will be defined by gl_blur + ctx->blur_textures = ccalloc(ctx->blur_texture_count, GLuint); + ctx->texture_sizes = ccalloc(ctx->blur_texture_count, struct texture_size); + glGenTextures(ctx->blur_texture_count, ctx->blur_textures); + + for (int i = 0; i < ctx->blur_texture_count; ++i) { + glBindTexture(GL_TEXTURE_2D, ctx->blur_textures[i]); + glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_MIN_FILTER, GL_LINEAR); + glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_MAG_FILTER, GL_LINEAR); + glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_WRAP_S, GL_CLAMP_TO_EDGE); + glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_WRAP_T, GL_CLAMP_TO_EDGE); + } + + // Generate FBO and textures when needed + ctx->blur_fbos = ccalloc(ctx->blur_fbo_count, GLuint); + glGenFramebuffers(ctx->blur_fbo_count, ctx->blur_fbos); + + for (int i = 0; i < ctx->blur_fbo_count; ++i) { + if (!ctx->blur_fbos[i]) { + log_error("Failed to generate framebuffer objects for blur"); + success = false; + goto out; + } + } + +out: + if (!success) { + gl_destroy_blur_context(&gd->base, ctx); + ctx = NULL; + } + + gl_check_err(); + return ctx; +} + +void gl_get_blur_size(void *blur_context, int *width, int *height) { + auto ctx = (struct gl_blur_context *)blur_context; + *width = ctx->resize_width; + *height = ctx->resize_height; +} diff --git a/src/backend/gl/gl_common.c b/src/backend/gl/gl_common.c index 07c75be5..d7840d86 100644 --- a/src/backend/gl/gl_common.c +++ b/src/backend/gl/gl_common.c @@ -2,7 +2,6 @@ // Copyright (c) Yuxuan Shui #include #include -#include #include #include #include @@ -23,41 +22,6 @@ #include "backend/backend_common.h" #include "backend/gl/gl_common.h" -#define GLSL(version, ...) "#version " #version "\n" #__VA_ARGS__ -#define QUOTE(...) #__VA_ARGS__ - -static const GLuint vert_coord_loc = 0; -static const GLuint vert_in_texcoord_loc = 1; - -struct gl_blur_context { - enum blur_method method; - gl_blur_shader_t *blur_shader; - - /// Temporary textures used for blurring - GLuint *blur_textures; - int blur_texture_count; - /// Temporary fbos used for blurring - GLuint *blur_fbos; - int blur_fbo_count; - - /// Cached dimensions of each blur_texture. They are the same size as the target, - /// so they are always big enough without resizing. - /// Turns out calling glTexImage to resize is expensive, so we avoid that. - struct texture_size { - int width; - int height; - } * texture_sizes; - - /// Cached dimensions of the offscreen framebuffer. It's the same size as the - /// target but is expanded in either direction by resize_width / resize_height. - int fb_width, fb_height; - - /// How much do we need to resize the damaged region for blurring. - int resize_width, resize_height; - - int npasses; -}; - GLuint gl_create_shader(GLenum shader_type, const char *shader_str) { log_trace("===\n%s\n===", shader_str); @@ -522,9 +486,8 @@ static void _gl_compose(backend_t *base, struct backend_image *img, GLuint targe /// @param[in] root_height height of the back buffer /// @param[in] y_inverted whether the texture is y inverted /// @param[out] coord, indices output -static void -x_rect_to_coords(int nrects, const rect_t *rects, coord_t image_dst, int texture_height, - int root_height, bool y_inverted, GLint *coord, GLuint *indices) { +void x_rect_to_coords(int nrects, const rect_t *rects, coord_t image_dst, int texture_height, + int root_height, bool y_inverted, GLint *coord, GLuint *indices) { image_dst.y = root_height - image_dst.y; if (y_inverted) { image_dst.y -= texture_height; @@ -613,387 +576,6 @@ void gl_compose(backend_t *base, void *image_data, coord_t image_dst, void *mask free(coord); } -/** - * Blur contents in a particular region. - */ -bool gl_kernel_blur(backend_t *base, double opacity, void *ctx, const rect_t *extent, - struct backend_image *mask, coord_t mask_dst, const GLuint vao[2], - const int vao_nelems[2]) { - auto bctx = (struct gl_blur_context *)ctx; - auto gd = (struct gl_data *)base; - - int dst_y_fb_coord = bctx->fb_height - extent->y2; - - int curr = 0; - for (int i = 0; i < bctx->npasses; ++i) { - const gl_blur_shader_t *p = &bctx->blur_shader[i]; - assert(p->prog); - - assert(bctx->blur_textures[curr]); - - // The origin to use when sampling from the source texture - GLint texorig_x = extent->x1, texorig_y = dst_y_fb_coord; - GLint tex_width, tex_height; - GLuint src_texture; - - if (i == 0) { - src_texture = gd->back_texture; - tex_width = gd->width; - tex_height = gd->height; - } else { - src_texture = bctx->blur_textures[curr]; - auto src_size = bctx->texture_sizes[curr]; - tex_width = src_size.width; - tex_height = src_size.height; - } - - glActiveTexture(GL_TEXTURE0); - glBindTexture(GL_TEXTURE_2D, src_texture); - glUseProgram(p->prog); - glUniform2f(p->uniform_pixel_norm, 1.0F / (GLfloat)tex_width, - 1.0F / (GLfloat)tex_height); - - glActiveTexture(GL_TEXTURE1); - glBindTexture(GL_TEXTURE_2D, gd->default_mask_texture); - - glUniform1i(p->uniform_mask_tex, 1); - glUniform2f(p->uniform_mask_offset, 0.0F, 0.0F); - glUniform1i(p->uniform_mask_inverted, 0); - glUniform1f(p->uniform_mask_corner_radius, 0.0F); - - // The number of indices in the selected vertex array - GLsizei nelems; - - if (i < bctx->npasses - 1) { - assert(bctx->blur_fbos[0]); - assert(bctx->blur_textures[!curr]); - - // not last pass, draw into framebuffer, with resized regions - glBindVertexArray(vao[1]); - nelems = vao_nelems[1]; - glBindFramebuffer(GL_DRAW_FRAMEBUFFER, bctx->blur_fbos[0]); - - glFramebufferTexture2D(GL_DRAW_FRAMEBUFFER, GL_COLOR_ATTACHMENT0, - GL_TEXTURE_2D, bctx->blur_textures[!curr], 0); - glDrawBuffer(GL_COLOR_ATTACHMENT0); - if (!gl_check_fb_complete(GL_FRAMEBUFFER)) { - return false; - } - - glUniform1f(p->uniform_opacity, 1.0F); - } else { - // last pass, draw directly into the back buffer, with origin - // regions. And apply mask if requested - if (mask) { - auto inner = (struct gl_texture *)mask->inner; - glActiveTexture(GL_TEXTURE1); - glBindTexture(GL_TEXTURE_2D, inner->texture); - glUniform1i(p->uniform_mask_inverted, mask->color_inverted); - glUniform1f(p->uniform_mask_corner_radius, - (float)mask->corner_radius); - glUniform2f( - p->uniform_mask_offset, (float)(mask_dst.x), - (float)(bctx->fb_height - mask_dst.y - inner->height)); - } - glBindVertexArray(vao[0]); - nelems = vao_nelems[0]; - glBindFramebuffer(GL_FRAMEBUFFER, gd->back_fbo); - - glUniform1f(p->uniform_opacity, (float)opacity); - } - - glUniform2f(p->texorig_loc, (GLfloat)texorig_x, (GLfloat)texorig_y); - glDrawElements(GL_TRIANGLES, nelems, GL_UNSIGNED_INT, NULL); - - // XXX use multiple draw calls is probably going to be slow than - // just simply blur the whole area. - - curr = !curr; - } - - return true; -} - -bool gl_dual_kawase_blur(backend_t *base, double opacity, void *ctx, const rect_t *extent, - struct backend_image *mask, coord_t mask_dst, - const GLuint vao[2], const int vao_nelems[2]) { - auto bctx = (struct gl_blur_context *)ctx; - auto gd = (struct gl_data *)base; - - int dst_y_fb_coord = bctx->fb_height - extent->y2; - - int iterations = bctx->blur_texture_count; - int scale_factor = 1; - - // Kawase downsample pass - const gl_blur_shader_t *down_pass = &bctx->blur_shader[0]; - assert(down_pass->prog); - glUseProgram(down_pass->prog); - - glUniform2f(down_pass->texorig_loc, (GLfloat)extent->x1, (GLfloat)dst_y_fb_coord); - - for (int i = 0; i < iterations; ++i) { - // Scale output width / height by half in each iteration - scale_factor <<= 1; - - GLuint src_texture; - int tex_width, tex_height; - - if (i == 0) { - // first pass: copy from back buffer - src_texture = gd->back_texture; - tex_width = gd->width; - tex_height = gd->height; - } else { - // copy from previous pass - src_texture = bctx->blur_textures[i - 1]; - auto src_size = bctx->texture_sizes[i - 1]; - tex_width = src_size.width; - tex_height = src_size.height; - } - - assert(src_texture); - assert(bctx->blur_fbos[i]); - - glBindTexture(GL_TEXTURE_2D, src_texture); - glBindVertexArray(vao[1]); - auto nelems = vao_nelems[1]; - glBindFramebuffer(GL_DRAW_FRAMEBUFFER, bctx->blur_fbos[i]); - glDrawBuffer(GL_COLOR_ATTACHMENT0); - - glUniform1f(down_pass->scale_loc, (GLfloat)scale_factor); - - glUniform2f(down_pass->uniform_pixel_norm, 1.0F / (GLfloat)tex_width, - 1.0F / (GLfloat)tex_height); - - glDrawElements(GL_TRIANGLES, nelems, GL_UNSIGNED_INT, NULL); - } - - // Kawase upsample pass - const gl_blur_shader_t *up_pass = &bctx->blur_shader[1]; - assert(up_pass->prog); - glUseProgram(up_pass->prog); - - glUniform2f(up_pass->texorig_loc, (GLfloat)extent->x1, (GLfloat)dst_y_fb_coord); - - for (int i = iterations - 1; i >= 0; --i) { - // Scale output width / height back by two in each iteration - scale_factor >>= 1; - - const GLuint src_texture = bctx->blur_textures[i]; - assert(src_texture); - - // Calculate normalized half-width/-height of a src pixel - auto src_size = bctx->texture_sizes[i]; - int tex_width = src_size.width; - int tex_height = src_size.height; - - // The number of indices in the selected vertex array - GLsizei nelems; - - glActiveTexture(GL_TEXTURE0); - glBindTexture(GL_TEXTURE_2D, src_texture); - glActiveTexture(GL_TEXTURE1); - glBindTexture(GL_TEXTURE_2D, gd->default_mask_texture); - - glUniform1i(up_pass->uniform_mask_tex, 1); - glUniform2f(up_pass->uniform_mask_offset, 0.0F, 0.0F); - glUniform1i(up_pass->uniform_mask_inverted, 0); - glUniform1f(up_pass->uniform_mask_corner_radius, 0.0F); - if (i > 0) { - assert(bctx->blur_fbos[i - 1]); - - // not last pass, draw into next framebuffer - glBindVertexArray(vao[1]); - nelems = vao_nelems[1]; - glBindFramebuffer(GL_DRAW_FRAMEBUFFER, bctx->blur_fbos[i - 1]); - glDrawBuffer(GL_COLOR_ATTACHMENT0); - - glUniform1f(up_pass->uniform_opacity, (GLfloat)1); - } else { - // last pass, draw directly into the back buffer - if (mask) { - auto inner = (struct gl_texture *)mask->inner; - glActiveTexture(GL_TEXTURE1); - glBindTexture(GL_TEXTURE_2D, inner->texture); - glUniform1i(up_pass->uniform_mask_inverted, - mask->color_inverted); - glUniform1f(up_pass->uniform_mask_corner_radius, - (float)mask->corner_radius); - glUniform2f( - up_pass->uniform_mask_offset, (float)(mask_dst.x), - (float)(bctx->fb_height - mask_dst.y - inner->height)); - } - glBindVertexArray(vao[0]); - nelems = vao_nelems[0]; - glBindFramebuffer(GL_FRAMEBUFFER, gd->back_fbo); - - glUniform1f(up_pass->uniform_opacity, (GLfloat)opacity); - } - - glUniform1f(up_pass->scale_loc, (GLfloat)scale_factor); - glUniform2f(up_pass->uniform_pixel_norm, 1.0F / (GLfloat)tex_width, - 1.0F / (GLfloat)tex_height); - - glDrawElements(GL_TRIANGLES, nelems, GL_UNSIGNED_INT, NULL); - } - - return true; -} - -bool gl_blur(backend_t *base, double opacity, void *ctx, void *mask, coord_t mask_dst, - const region_t *reg_blur, const region_t *reg_visible attr_unused) { - auto bctx = (struct gl_blur_context *)ctx; - auto gd = (struct gl_data *)base; - - bool ret = false; - - if (gd->width != bctx->fb_width || gd->height != bctx->fb_height) { - // Resize the temporary textures used for blur in case the root - // size changed - bctx->fb_width = gd->width; - bctx->fb_height = gd->height; - - for (int i = 0; i < bctx->blur_texture_count; ++i) { - auto tex_size = bctx->texture_sizes + i; - if (bctx->method == BLUR_METHOD_DUAL_KAWASE) { - // Use smaller textures for each iteration (quarter of the - // previous texture) - tex_size->width = 1 + ((bctx->fb_width - 1) >> (i + 1)); - tex_size->height = 1 + ((bctx->fb_height - 1) >> (i + 1)); - } else { - tex_size->width = bctx->fb_width; - tex_size->height = bctx->fb_height; - } - - glBindTexture(GL_TEXTURE_2D, bctx->blur_textures[i]); - glTexImage2D(GL_TEXTURE_2D, 0, GL_RGBA8, tex_size->width, - tex_size->height, 0, GL_BGRA, GL_UNSIGNED_BYTE, NULL); - - if (bctx->method == BLUR_METHOD_DUAL_KAWASE) { - // Attach texture to FBO target - glBindFramebuffer(GL_DRAW_FRAMEBUFFER, bctx->blur_fbos[i]); - glFramebufferTexture2D(GL_DRAW_FRAMEBUFFER, - GL_COLOR_ATTACHMENT0, GL_TEXTURE_2D, - bctx->blur_textures[i], 0); - if (!gl_check_fb_complete(GL_FRAMEBUFFER)) { - glBindFramebuffer(GL_FRAMEBUFFER, 0); - return false; - } - } - } - glBindFramebuffer(GL_DRAW_FRAMEBUFFER, 0); - } - - // Remainder: regions are in Xorg coordinates - auto reg_blur_resized = - resize_region(reg_blur, bctx->resize_width, bctx->resize_height); - const rect_t *extent = pixman_region32_extents((region_t *)reg_blur), - *extent_resized = pixman_region32_extents(®_blur_resized); - int width = extent->x2 - extent->x1, height = extent->y2 - extent->y1; - if (width == 0 || height == 0) { - return true; - } - - int nrects, nrects_resized; - const rect_t *rects = pixman_region32_rectangles((region_t *)reg_blur, &nrects), - *rects_resized = - pixman_region32_rectangles(®_blur_resized, &nrects_resized); - if (!nrects || !nrects_resized) { - return true; - } - - auto coord = ccalloc(nrects * 16, GLint); - auto indices = ccalloc(nrects * 6, GLuint); - x_rect_to_coords(nrects, rects, - (coord_t){.x = extent_resized->x1, .y = extent_resized->y2}, - bctx->fb_height, gd->height, false, coord, indices); - - auto coord_resized = ccalloc(nrects_resized * 16, GLint); - auto indices_resized = ccalloc(nrects_resized * 6, GLuint); - x_rect_to_coords(nrects_resized, rects_resized, - (coord_t){.x = extent_resized->x1, .y = extent_resized->y2}, - bctx->fb_height, bctx->fb_height, false, coord_resized, - indices_resized); - pixman_region32_fini(®_blur_resized); - - GLuint vao[2]; - glGenVertexArrays(2, vao); - GLuint bo[4]; - glGenBuffers(4, bo); - - glBindVertexArray(vao[0]); - glBindBuffer(GL_ARRAY_BUFFER, bo[0]); - glBindBuffer(GL_ELEMENT_ARRAY_BUFFER, bo[1]); - glBufferData(GL_ARRAY_BUFFER, (long)sizeof(*coord) * nrects * 16, coord, GL_STATIC_DRAW); - glBufferData(GL_ELEMENT_ARRAY_BUFFER, (long)sizeof(*indices) * nrects * 6, - indices, GL_STATIC_DRAW); - glEnableVertexAttribArray(vert_coord_loc); - glEnableVertexAttribArray(vert_in_texcoord_loc); - glVertexAttribPointer(vert_coord_loc, 2, GL_INT, GL_FALSE, sizeof(GLint) * 4, NULL); - glVertexAttribPointer(vert_in_texcoord_loc, 2, GL_INT, GL_FALSE, - sizeof(GLint) * 4, (void *)(sizeof(GLint) * 2)); - - glBindVertexArray(vao[1]); - glBindBuffer(GL_ARRAY_BUFFER, bo[2]); - glBindBuffer(GL_ELEMENT_ARRAY_BUFFER, bo[3]); - glBufferData(GL_ARRAY_BUFFER, (long)sizeof(*coord_resized) * nrects_resized * 16, - coord_resized, GL_STATIC_DRAW); - glBufferData(GL_ELEMENT_ARRAY_BUFFER, - (long)sizeof(*indices_resized) * nrects_resized * 6, indices_resized, - GL_STATIC_DRAW); - glEnableVertexAttribArray(vert_coord_loc); - glEnableVertexAttribArray(vert_in_texcoord_loc); - glVertexAttribPointer(vert_coord_loc, 2, GL_INT, GL_FALSE, sizeof(GLint) * 4, NULL); - glVertexAttribPointer(vert_in_texcoord_loc, 2, GL_INT, GL_FALSE, - sizeof(GLint) * 4, (void *)(sizeof(GLint) * 2)); - - int vao_nelems[2] = {nrects * 6, nrects_resized * 6}; - - if (bctx->method == BLUR_METHOD_DUAL_KAWASE) { - ret = gl_dual_kawase_blur(base, opacity, ctx, extent_resized, mask, - mask_dst, vao, vao_nelems); - } else { - ret = gl_kernel_blur(base, opacity, ctx, extent_resized, mask, mask_dst, - vao, vao_nelems); - } - - glBindFramebuffer(GL_FRAMEBUFFER, 0); - glActiveTexture(GL_TEXTURE0); - glBindTexture(GL_TEXTURE_2D, 0); - glActiveTexture(GL_TEXTURE1); - glBindTexture(GL_TEXTURE_2D, 0); - glBindBuffer(GL_ARRAY_BUFFER, 0); - glBindBuffer(GL_ELEMENT_ARRAY_BUFFER, 0); - glDeleteBuffers(4, bo); - glBindVertexArray(0); - glDeleteVertexArrays(2, vao); - glUseProgram(0); - - free(indices); - free(coord); - free(indices_resized); - free(coord_resized); - - gl_check_err(); - return ret; -} - -// clang-format off -const char *vertex_shader = GLSL(330, - uniform mat4 projection; - uniform float scale = 1.0; - uniform vec2 texorig; - layout(location = 0) in vec2 coord; - layout(location = 1) in vec2 in_texcoord; - out vec2 texcoord; - void main() { - gl_Position = projection * vec4(coord, 0, scale); - texcoord = in_texcoord + texorig; - } -); -// clang-format on - /** * Load a GLSL main program from shader strings. */ @@ -1048,60 +630,6 @@ void gl_resize(struct gl_data *gd, int width, int height) { gl_check_err(); } -// clang-format off -static const char dummy_frag[] = GLSL(330, - uniform sampler2D tex; - in vec2 texcoord; - void main() { - gl_FragColor = texelFetch(tex, ivec2(texcoord.xy), 0); - } -); - -static const char copy_with_mask_frag[] = GLSL(330, - uniform sampler2D tex; - in vec2 texcoord; - float mask_factor(); - void main() { - gl_FragColor = texelFetch(tex, ivec2(texcoord.xy), 0) * mask_factor(); - } -); - -static const char fill_frag[] = GLSL(330, - uniform vec4 color; - void main() { - gl_FragColor = color; - } -); - -static const char fill_vert[] = GLSL(330, - layout(location = 0) in vec2 in_coord; - uniform mat4 projection; - void main() { - gl_Position = projection * vec4(in_coord, 0, 1); - } -); - -static const char interpolating_frag[] = GLSL(330, - uniform sampler2D tex; - in vec2 texcoord; - void main() { - gl_FragColor = vec4(texture2D(tex, vec2(texcoord.xy), 0).rgb, 1); - } -); - -static const char interpolating_vert[] = GLSL(330, - uniform mat4 projection; - uniform vec2 texsize; - layout(location = 0) in vec2 in_coord; - layout(location = 1) in vec2 in_texcoord; - out vec2 texcoord; - void main() { - gl_Position = projection * vec4(in_coord, 0, 1); - texcoord = in_texcoord / texsize; - } -); -// clang-format on - /// Fill a given region in bound framebuffer. /// @param[in] y_inverted whether the y coordinates in `clip` should be inverted static void _gl_fill(backend_t *base, struct color c, const region_t *clip, GLuint target, @@ -1229,610 +757,6 @@ void gl_release_image(backend_t *base, void *image_data) { free(wd); } -static inline void gl_free_blur_shader(gl_blur_shader_t *shader) { - if (shader->prog) { - glDeleteProgram(shader->prog); - } - - shader->prog = 0; -} - -void gl_destroy_blur_context(backend_t *base attr_unused, void *ctx) { - auto bctx = (struct gl_blur_context *)ctx; - // Free GLSL shaders/programs - for (int i = 0; i < bctx->npasses; ++i) { - gl_free_blur_shader(&bctx->blur_shader[i]); - } - free(bctx->blur_shader); - - if (bctx->blur_texture_count && bctx->blur_textures) { - glDeleteTextures(bctx->blur_texture_count, bctx->blur_textures); - free(bctx->blur_textures); - } - if (bctx->blur_texture_count && bctx->texture_sizes) { - free(bctx->texture_sizes); - } - if (bctx->blur_fbo_count && bctx->blur_fbos) { - glDeleteFramebuffers(bctx->blur_fbo_count, bctx->blur_fbos); - free(bctx->blur_fbos); - } - - bctx->blur_texture_count = 0; - bctx->blur_fbo_count = 0; - - free(bctx); - - gl_check_err(); -} - -const char *masking_glsl; -/** - * Initialize GL blur filters. - */ -bool gl_create_kernel_blur_context(void *blur_context, GLfloat *projection, - enum blur_method method, void *args) { - bool success = false; - auto ctx = (struct gl_blur_context *)blur_context; - - struct conv **kernels; - - int nkernels; - ctx->method = BLUR_METHOD_KERNEL; - if (method == BLUR_METHOD_KERNEL) { - nkernels = ((struct kernel_blur_args *)args)->kernel_count; - kernels = ((struct kernel_blur_args *)args)->kernels; - } else { - kernels = generate_blur_kernel(method, args, &nkernels); - } - - if (!nkernels) { - ctx->method = BLUR_METHOD_NONE; - return true; - } - - // Specify required textures and FBOs - ctx->blur_texture_count = 2; - ctx->blur_fbo_count = 1; - - ctx->blur_shader = ccalloc(max2(2, nkernels), gl_blur_shader_t); - - char *lc_numeric_old = strdup(setlocale(LC_NUMERIC, NULL)); - // Enforce LC_NUMERIC locale "C" here to make sure decimal point is sane - // Thanks to hiciu for reporting. - setlocale(LC_NUMERIC, "C"); - - // clang-format off - static const char *FRAG_SHADER_BLUR = GLSL(330, - %s\n // other extension pragmas - uniform sampler2D tex_src; - uniform vec2 pixel_norm; - uniform float opacity; - in vec2 texcoord; - out vec4 out_color; - float mask_factor(); - void main() { - vec2 uv = texcoord * pixel_norm; - vec4 sum = vec4(0.0, 0.0, 0.0, 0.0); - %s //body of the convolution - out_color = sum / float(%.7g) * opacity * mask_factor(); - } - ); - static const char *FRAG_SHADER_BLUR_ADD = QUOTE( - sum += float(%.7g) * texture2D(tex_src, uv + pixel_norm * vec2(%.7g, %.7g)); - ); - // clang-format on - - const char *shader_add = FRAG_SHADER_BLUR_ADD; - char *extension = strdup(""); - - for (int i = 0; i < nkernels; i++) { - auto kern = kernels[i]; - // Build shader - int width = kern->w, height = kern->h; - int nele = width * height; - // '%.7g' is at most 14 characters, inserted 3 times - size_t body_len = (strlen(shader_add) + 42) * (uint)nele; - char *shader_body = ccalloc(body_len, char); - char *pc = shader_body; - - // Make use of the linear interpolation hardware by sampling 2 pixels with - // one texture access by sampling between both pixels based on their - // relative weight. Easiest done in a single dimension as 2D bilinear - // filtering would raise additional constraints on the kernels. Therefore - // only use interpolation along the larger dimension. - double sum = 0.0; - if (width > height) { - // use interpolation in x dimension (width) - for (int j = 0; j < height; ++j) { - for (int k = 0; k < width; k += 2) { - double val1, val2; - val1 = kern->data[j * width + k]; - val2 = (k + 1 < width) - ? kern->data[j * width + k + 1] - : 0; - - double combined_weight = val1 + val2; - if (combined_weight == 0) { - continue; - } - sum += combined_weight; - - double offset_x = - k + (val2 / combined_weight) - (width / 2); - double offset_y = j - (height / 2); - pc += snprintf( - pc, body_len - (ulong)(pc - shader_body), - shader_add, combined_weight, offset_x, offset_y); - assert(pc < shader_body + body_len); - } - } - } else { - // use interpolation in y dimension (height) - for (int j = 0; j < height; j += 2) { - for (int k = 0; k < width; ++k) { - double val1, val2; - val1 = kern->data[j * width + k]; - val2 = (j + 1 < height) - ? kern->data[(j + 1) * width + k] - : 0; - - double combined_weight = val1 + val2; - if (combined_weight == 0) { - continue; - } - sum += combined_weight; - - double offset_x = k - (width / 2); - double offset_y = - j + (val2 / combined_weight) - (height / 2); - pc += snprintf( - pc, body_len - (ulong)(pc - shader_body), - shader_add, combined_weight, offset_x, offset_y); - assert(pc < shader_body + body_len); - } - } - } - - auto pass = ctx->blur_shader + i; - size_t shader_len = strlen(FRAG_SHADER_BLUR) + strlen(extension) + - strlen(shader_body) + 10 /* sum */ + - 1 /* null terminator */; - char *shader_str = ccalloc(shader_len, char); - auto real_shader_len = snprintf(shader_str, shader_len, FRAG_SHADER_BLUR, - extension, shader_body, sum); - CHECK(real_shader_len >= 0); - CHECK((size_t)real_shader_len < shader_len); - free(shader_body); - - // Build program - pass->prog = gl_create_program_from_strv( - (const char *[]){vertex_shader, NULL}, - (const char *[]){shader_str, masking_glsl, NULL}); - free(shader_str); - if (!pass->prog) { - log_error("Failed to create GLSL program."); - success = false; - goto out; - } - glBindFragDataLocation(pass->prog, 0, "out_color"); - - // Get uniform addresses - bind_uniform(pass, pixel_norm); - bind_uniform(pass, opacity); - - bind_uniform(pass, mask_tex); - bind_uniform(pass, mask_offset); - bind_uniform(pass, mask_inverted); - bind_uniform(pass, mask_corner_radius); - log_info("Uniform locations: %d %d %d %d %d", pass->uniform_mask_tex, - pass->uniform_mask_offset, pass->uniform_mask_inverted, - pass->uniform_mask_corner_radius, pass->uniform_opacity); - pass->texorig_loc = glGetUniformLocationChecked(pass->prog, "texorig"); - - // Setup projection matrix - glUseProgram(pass->prog); - int pml = glGetUniformLocationChecked(pass->prog, "projection"); - glUniformMatrix4fv(pml, 1, false, projection); - glUseProgram(0); - - ctx->resize_width += kern->w / 2; - ctx->resize_height += kern->h / 2; - } - - if (nkernels == 1) { - // Generate an extra null pass so we don't need special code path for - // the single pass case - auto pass = &ctx->blur_shader[1]; - pass->prog = gl_create_program_from_strv( - (const char *[]){vertex_shader, NULL}, - (const char *[]){copy_with_mask_frag, masking_glsl, NULL}); - pass->uniform_pixel_norm = -1; - pass->uniform_opacity = -1; - pass->texorig_loc = glGetUniformLocationChecked(pass->prog, "texorig"); - bind_uniform(pass, mask_tex); - bind_uniform(pass, mask_offset); - bind_uniform(pass, mask_inverted); - bind_uniform(pass, mask_corner_radius); - - // Setup projection matrix - glUseProgram(pass->prog); - int pml = glGetUniformLocationChecked(pass->prog, "projection"); - glUniformMatrix4fv(pml, 1, false, projection); - glUseProgram(0); - - ctx->npasses = 2; - } else { - ctx->npasses = nkernels; - } - - success = true; -out: - if (method != BLUR_METHOD_KERNEL) { - // We generated the blur kernels, so we need to free them - for (int i = 0; i < nkernels; i++) { - free(kernels[i]); - } - free(kernels); - } - - free(extension); - // Restore LC_NUMERIC - setlocale(LC_NUMERIC, lc_numeric_old); - free(lc_numeric_old); - - return success; -} - -bool gl_create_dual_kawase_blur_context(void *blur_context, GLfloat *projection, - enum blur_method method, void *args) { - bool success = false; - auto ctx = (struct gl_blur_context *)blur_context; - - ctx->method = method; - - auto blur_params = generate_dual_kawase_params(args); - - // Specify required textures and FBOs - ctx->blur_texture_count = blur_params->iterations; - ctx->blur_fbo_count = blur_params->iterations; - - ctx->resize_width += blur_params->expand; - ctx->resize_height += blur_params->expand; - - ctx->npasses = 2; - ctx->blur_shader = ccalloc(ctx->npasses, gl_blur_shader_t); - - char *lc_numeric_old = strdup(setlocale(LC_NUMERIC, NULL)); - // Enforce LC_NUMERIC locale "C" here to make sure decimal point is sane - // Thanks to hiciu for reporting. - setlocale(LC_NUMERIC, "C"); - - // Dual-kawase downsample shader / program - auto down_pass = ctx->blur_shader; - { - // clang-format off - static const char *FRAG_SHADER_DOWN = GLSL(330, - uniform sampler2D tex_src; - uniform float scale = 1.0; - uniform vec2 pixel_norm; - in vec2 texcoord; - out vec4 out_color; - void main() { - vec2 offset = %.7g * pixel_norm; - vec2 uv = texcoord * pixel_norm * (2.0 / scale); - vec4 sum = texture2D(tex_src, uv) * 4.0; - sum += texture2D(tex_src, uv - vec2(0.5, 0.5) * offset); - sum += texture2D(tex_src, uv + vec2(0.5, 0.5) * offset); - sum += texture2D(tex_src, uv + vec2(0.5, -0.5) * offset); - sum += texture2D(tex_src, uv - vec2(0.5, -0.5) * offset); - out_color = sum / 8.0; - } - ); - // clang-format on - - // Build shader - size_t shader_len = - strlen(FRAG_SHADER_DOWN) + 10 /* offset */ + 1 /* null terminator */; - char *shader_str = ccalloc(shader_len, char); - auto real_shader_len = - snprintf(shader_str, shader_len, FRAG_SHADER_DOWN, blur_params->offset); - CHECK(real_shader_len >= 0); - CHECK((size_t)real_shader_len < shader_len); - - // Build program - down_pass->prog = gl_create_program_from_str(vertex_shader, shader_str); - free(shader_str); - if (!down_pass->prog) { - log_error("Failed to create GLSL program."); - success = false; - goto out; - } - glBindFragDataLocation(down_pass->prog, 0, "out_color"); - - // Get uniform addresses - bind_uniform(down_pass, pixel_norm); - down_pass->texorig_loc = - glGetUniformLocationChecked(down_pass->prog, "texorig"); - down_pass->scale_loc = - glGetUniformLocationChecked(down_pass->prog, "scale"); - - // Setup projection matrix - glUseProgram(down_pass->prog); - int pml = glGetUniformLocationChecked(down_pass->prog, "projection"); - glUniformMatrix4fv(pml, 1, false, projection); - glUseProgram(0); - } - - // Dual-kawase upsample shader / program - auto up_pass = ctx->blur_shader + 1; - { - // clang-format off - static const char *FRAG_SHADER_UP = GLSL(330, - uniform sampler2D tex_src; - uniform float scale = 1.0; - uniform vec2 pixel_norm; - uniform float opacity; - in vec2 texcoord; - out vec4 out_color; - float mask_factor(); - void main() { - vec2 offset = %.7g * pixel_norm; - vec2 uv = texcoord * pixel_norm / (2 * scale); - vec4 sum = texture2D(tex_src, uv + vec2(-1.0, 0.0) * offset); - sum += texture2D(tex_src, uv + vec2(-0.5, 0.5) * offset) * 2.0; - sum += texture2D(tex_src, uv + vec2(0.0, 1.0) * offset); - sum += texture2D(tex_src, uv + vec2(0.5, 0.5) * offset) * 2.0; - sum += texture2D(tex_src, uv + vec2(1.0, 0.0) * offset); - sum += texture2D(tex_src, uv + vec2(0.5, -0.5) * offset) * 2.0; - sum += texture2D(tex_src, uv + vec2(0.0, -1.0) * offset); - sum += texture2D(tex_src, uv + vec2(-0.5, -0.5) * offset) * 2.0; - out_color = sum / 12.0 * opacity * mask_factor(); - } - ); - // clang-format on - - // Build shader - size_t shader_len = - strlen(FRAG_SHADER_UP) + 10 /* offset */ + 1 /* null terminator */; - char *shader_str = ccalloc(shader_len, char); - auto real_shader_len = - snprintf(shader_str, shader_len, FRAG_SHADER_UP, blur_params->offset); - CHECK(real_shader_len >= 0); - CHECK((size_t)real_shader_len < shader_len); - - // Build program - up_pass->prog = gl_create_program_from_strv( - (const char *[]){vertex_shader, NULL}, - (const char *[]){shader_str, masking_glsl, NULL}); - free(shader_str); - if (!up_pass->prog) { - log_error("Failed to create GLSL program."); - success = false; - goto out; - } - glBindFragDataLocation(up_pass->prog, 0, "out_color"); - - // Get uniform addresses - bind_uniform(up_pass, pixel_norm); - bind_uniform(up_pass, opacity); - - bind_uniform(up_pass, mask_tex); - bind_uniform(up_pass, mask_offset); - bind_uniform(up_pass, mask_inverted); - bind_uniform(up_pass, mask_corner_radius); - - up_pass->texorig_loc = - glGetUniformLocationChecked(up_pass->prog, "texorig"); - up_pass->scale_loc = glGetUniformLocationChecked(up_pass->prog, "scale"); - - // Setup projection matrix - glUseProgram(up_pass->prog); - int pml = glGetUniformLocationChecked(up_pass->prog, "projection"); - glUniformMatrix4fv(pml, 1, false, projection); - glUseProgram(0); - } - - success = true; -out: - free(blur_params); - - if (!success) { - ctx = NULL; - } - - // Restore LC_NUMERIC - setlocale(LC_NUMERIC, lc_numeric_old); - free(lc_numeric_old); - - return success; -} - -void *gl_create_blur_context(backend_t *base, enum blur_method method, void *args) { - bool success; - auto gd = (struct gl_data *)base; - - auto ctx = ccalloc(1, struct gl_blur_context); - - if (!method || method >= BLUR_METHOD_INVALID) { - ctx->method = BLUR_METHOD_NONE; - return ctx; - } - - // Set projection matrix to gl viewport dimensions so we can use screen - // coordinates for all vertices - // Note: OpenGL matrices are column major - GLint viewport_dimensions[2]; - glGetIntegerv(GL_MAX_VIEWPORT_DIMS, viewport_dimensions); - GLfloat projection_matrix[4][4] = {{2.0F / (GLfloat)viewport_dimensions[0], 0, 0, 0}, - {0, 2.0F / (GLfloat)viewport_dimensions[1], 0, 0}, - {0, 0, 0, 0}, - {-1, -1, 0, 1}}; - - if (method == BLUR_METHOD_DUAL_KAWASE) { - success = gl_create_dual_kawase_blur_context(ctx, projection_matrix[0], - method, args); - } else { - success = - gl_create_kernel_blur_context(ctx, projection_matrix[0], method, args); - } - if (!success || ctx->method == BLUR_METHOD_NONE) { - goto out; - } - - // Texture size will be defined by gl_blur - ctx->blur_textures = ccalloc(ctx->blur_texture_count, GLuint); - ctx->texture_sizes = ccalloc(ctx->blur_texture_count, struct texture_size); - glGenTextures(ctx->blur_texture_count, ctx->blur_textures); - - for (int i = 0; i < ctx->blur_texture_count; ++i) { - glBindTexture(GL_TEXTURE_2D, ctx->blur_textures[i]); - glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_MIN_FILTER, GL_LINEAR); - glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_MAG_FILTER, GL_LINEAR); - glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_WRAP_S, GL_CLAMP_TO_EDGE); - glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_WRAP_T, GL_CLAMP_TO_EDGE); - } - - // Generate FBO and textures when needed - ctx->blur_fbos = ccalloc(ctx->blur_fbo_count, GLuint); - glGenFramebuffers(ctx->blur_fbo_count, ctx->blur_fbos); - - for (int i = 0; i < ctx->blur_fbo_count; ++i) { - if (!ctx->blur_fbos[i]) { - log_error("Failed to generate framebuffer objects for blur"); - success = false; - goto out; - } - } - -out: - if (!success) { - gl_destroy_blur_context(&gd->base, ctx); - ctx = NULL; - } - - gl_check_err(); - return ctx; -} - -void gl_get_blur_size(void *blur_context, int *width, int *height) { - auto ctx = (struct gl_blur_context *)blur_context; - *width = ctx->resize_width; - *height = ctx->resize_height; -} - -// clang-format off -const char *masking_glsl = GLSL(330, - uniform sampler2D mask_tex; - uniform vec2 mask_offset; - uniform float mask_corner_radius; - uniform bool mask_inverted; - in vec2 texcoord; - float mask_rectangle_sdf(vec2 point, vec2 half_size) { - vec2 d = abs(point) - half_size; - return length(max(d, 0.0)); - } - float mask_factor() { - vec2 mask_size = textureSize(mask_tex, 0); - vec2 maskcoord = texcoord - mask_offset; - vec4 mask = texture2D(mask_tex, maskcoord / mask_size); - if (mask_corner_radius != 0) { - vec2 inner_size = mask_size - vec2(mask_corner_radius) * 2.0f; - float dist = mask_rectangle_sdf(maskcoord - mask_size / 2.0f, - inner_size / 2.0f) - mask_corner_radius; - if (dist > 0.0f) { - mask.r = (1.0f - clamp(dist, 0.0f, 1.0f)); - } - } - if (mask_inverted) { - mask.rgb = 1.0 - mask.rgb; - } - return mask.r; - } -); -const char *win_shader_glsl = GLSL(330, - uniform float opacity; - uniform float dim; - uniform float corner_radius; - uniform float border_width; - uniform bool invert_color; - in vec2 texcoord; - uniform sampler2D tex; - uniform sampler2D brightness; - uniform float max_brightness; - // Signed distance field for rectangle center at (0, 0), with size of - // half_size * 2 - float rectangle_sdf(vec2 point, vec2 half_size) { - vec2 d = abs(point) - half_size; - return length(max(d, 0.0)); - } - - vec4 default_post_processing(vec4 c) { - vec4 border_color = texture(tex, vec2(0.0, 0.5)); - if (invert_color) { - c = vec4(c.aaa - c.rgb, c.a); - border_color = vec4(border_color.aaa - border_color.rgb, border_color.a); - } - c = vec4(c.rgb * (1.0 - dim), c.a) * opacity; - border_color = vec4(border_color.rgb * (1.0 - dim), border_color.a) * opacity; - - vec3 rgb_brightness = texelFetch(brightness, ivec2(0, 0), 0).rgb; - // Ref: https://en.wikipedia.org/wiki/Relative_luminance - float brightness = rgb_brightness.r * 0.21 + - rgb_brightness.g * 0.72 + - rgb_brightness.b * 0.07; - if (brightness > max_brightness) { - c.rgb = c.rgb * (max_brightness / brightness); - border_color.rgb = border_color.rgb * (max_brightness / brightness); - } - - // Rim color is the color of the outer rim of the window, if there is no - // border, it's the color of the window itself, otherwise it's the border. - // Using mix() to avoid a branch here. - vec4 rim_color = mix(c, border_color, clamp(border_width, 0.0f, 1.0f)); - - vec2 outer_size = vec2(textureSize(tex, 0)); - vec2 inner_size = outer_size - vec2(corner_radius) * 2.0f; - float rect_distance = rectangle_sdf(texcoord - outer_size / 2.0f, - inner_size / 2.0f) - corner_radius; - if (rect_distance > 0.0f) { - c = (1.0f - clamp(rect_distance, 0.0f, 1.0f)) * rim_color; - } else { - float factor = clamp(rect_distance + border_width, 0.0f, 1.0f); - c = (1.0f - factor) * c + factor * border_color; - } - - return c; - } - - vec4 window_shader(); - float mask_factor(); - - void main() { - gl_FragColor = window_shader() * mask_factor(); - } -); - -const char *win_shader_default = GLSL(330, - in vec2 texcoord; - uniform sampler2D tex; - vec4 default_post_processing(vec4 c); - vec4 window_shader() { - vec4 c = texelFetch(tex, ivec2(texcoord), 0); - return default_post_processing(c); - } -); - -const char *present_vertex_shader = GLSL(330, - uniform mat4 projection; - layout(location = 0) in vec2 coord; - out vec2 texcoord; - void main() { - gl_Position = projection * vec4(coord, 0, 1); - texcoord = coord; - } -); -// clang-format on - void *gl_create_window_shader(backend_t *backend_data attr_unused, const char *source) { auto win_shader = (gl_win_shader_t *)ccalloc(1, gl_win_shader_t); diff --git a/src/backend/gl/gl_common.h b/src/backend/gl/gl_common.h index 8066c102..5638be3c 100644 --- a/src/backend/gl/gl_common.h +++ b/src/backend/gl/gl_common.h @@ -117,9 +117,13 @@ typedef struct session session_t; #define GL_PROG_MAIN_INIT \ { .prog = 0, .unifm_opacity = -1, .unifm_invert_color = -1, .unifm_tex = -1, } +void x_rect_to_coords(int nrects, const rect_t *rects, coord_t image_dst, int texture_height, + int root_height, bool y_inverted, GLint *coord, GLuint *indices); + GLuint gl_create_shader(GLenum shader_type, const char *shader_str); GLuint gl_create_program(const GLuint *const shaders, int nshaders); GLuint gl_create_program_from_str(const char *vert_shader_str, const char *frag_shader_str); +GLuint gl_create_program_from_strv(const char **vert_shaders, const char **frag_shaders); void *gl_create_window_shader(backend_t *backend_data, const char *source); void gl_destroy_window_shader(backend_t *backend_data, void *shader); uint64_t gl_get_shader_attributes(backend_t *backend_data, void *shader); @@ -258,3 +262,13 @@ static inline bool gl_has_extension(const char *ext) { log_info("Missing GL extension %s.", ext); return false; } + +static const GLuint vert_coord_loc = 0; +static const GLuint vert_in_texcoord_loc = 1; + +#define GLSL(version, ...) "#version " #version "\n" #__VA_ARGS__ +#define QUOTE(...) #__VA_ARGS__ + +extern const char vertex_shader[], copy_with_mask_frag[], masking_glsl[], dummy_frag[], + fill_frag[], fill_vert[], interpolating_frag[], interpolating_vert[], + win_shader_glsl[], win_shader_default[], present_vertex_shader[]; diff --git a/src/backend/gl/shaders.c b/src/backend/gl/shaders.c new file mode 100644 index 00000000..7439cd33 --- /dev/null +++ b/src/backend/gl/shaders.c @@ -0,0 +1,177 @@ +#include "gl_common.h" + +// clang-format off +const char dummy_frag[] = GLSL(330, + uniform sampler2D tex; + in vec2 texcoord; + void main() { + gl_FragColor = texelFetch(tex, ivec2(texcoord.xy), 0); + } +); + +const char copy_with_mask_frag[] = GLSL(330, + uniform sampler2D tex; + in vec2 texcoord; + float mask_factor(); + void main() { + gl_FragColor = texelFetch(tex, ivec2(texcoord.xy), 0) * mask_factor(); + } +); + +const char fill_frag[] = GLSL(330, + uniform vec4 color; + void main() { + gl_FragColor = color; + } +); + +const char fill_vert[] = GLSL(330, + layout(location = 0) in vec2 in_coord; + uniform mat4 projection; + void main() { + gl_Position = projection * vec4(in_coord, 0, 1); + } +); + +const char interpolating_frag[] = GLSL(330, + uniform sampler2D tex; + in vec2 texcoord; + void main() { + gl_FragColor = vec4(texture2D(tex, vec2(texcoord.xy), 0).rgb, 1); + } +); + +const char interpolating_vert[] = GLSL(330, + uniform mat4 projection; + uniform vec2 texsize; + layout(location = 0) in vec2 in_coord; + layout(location = 1) in vec2 in_texcoord; + out vec2 texcoord; + void main() { + gl_Position = projection * vec4(in_coord, 0, 1); + texcoord = in_texcoord / texsize; + } +); +const char masking_glsl[] = GLSL(330, + uniform sampler2D mask_tex; + uniform vec2 mask_offset; + uniform float mask_corner_radius; + uniform bool mask_inverted; + in vec2 texcoord; + float mask_rectangle_sdf(vec2 point, vec2 half_size) { + vec2 d = abs(point) - half_size; + return length(max(d, 0.0)); + } + float mask_factor() { + vec2 mask_size = textureSize(mask_tex, 0); + vec2 maskcoord = texcoord - mask_offset; + vec4 mask = texture2D(mask_tex, maskcoord / mask_size); + if (mask_corner_radius != 0) { + vec2 inner_size = mask_size - vec2(mask_corner_radius) * 2.0f; + float dist = mask_rectangle_sdf(maskcoord - mask_size / 2.0f, + inner_size / 2.0f) - mask_corner_radius; + if (dist > 0.0f) { + mask.r = (1.0f - clamp(dist, 0.0f, 1.0f)); + } + } + if (mask_inverted) { + mask.rgb = 1.0 - mask.rgb; + } + return mask.r; + } +); +const char win_shader_glsl[] = GLSL(330, + uniform float opacity; + uniform float dim; + uniform float corner_radius; + uniform float border_width; + uniform bool invert_color; + in vec2 texcoord; + uniform sampler2D tex; + uniform sampler2D brightness; + uniform float max_brightness; + // Signed distance field for rectangle center at (0, 0), with size of + // half_size * 2 + float rectangle_sdf(vec2 point, vec2 half_size) { + vec2 d = abs(point) - half_size; + return length(max(d, 0.0)); + } + + vec4 default_post_processing(vec4 c) { + vec4 border_color = texture(tex, vec2(0.0, 0.5)); + if (invert_color) { + c = vec4(c.aaa - c.rgb, c.a); + border_color = vec4(border_color.aaa - border_color.rgb, border_color.a); + } + c = vec4(c.rgb * (1.0 - dim), c.a) * opacity; + border_color = vec4(border_color.rgb * (1.0 - dim), border_color.a) * opacity; + + vec3 rgb_brightness = texelFetch(brightness, ivec2(0, 0), 0).rgb; + // Ref: https://en.wikipedia.org/wiki/Relative_luminance + float brightness = rgb_brightness.r * 0.21 + + rgb_brightness.g * 0.72 + + rgb_brightness.b * 0.07; + if (brightness > max_brightness) { + c.rgb = c.rgb * (max_brightness / brightness); + border_color.rgb = border_color.rgb * (max_brightness / brightness); + } + + // Rim color is the color of the outer rim of the window, if there is no + // border, it's the color of the window itself, otherwise it's the border. + // Using mix() to avoid a branch here. + vec4 rim_color = mix(c, border_color, clamp(border_width, 0.0f, 1.0f)); + + vec2 outer_size = vec2(textureSize(tex, 0)); + vec2 inner_size = outer_size - vec2(corner_radius) * 2.0f; + float rect_distance = rectangle_sdf(texcoord - outer_size / 2.0f, + inner_size / 2.0f) - corner_radius; + if (rect_distance > 0.0f) { + c = (1.0f - clamp(rect_distance, 0.0f, 1.0f)) * rim_color; + } else { + float factor = clamp(rect_distance + border_width, 0.0f, 1.0f); + c = (1.0f - factor) * c + factor * border_color; + } + + return c; + } + + vec4 window_shader(); + float mask_factor(); + + void main() { + gl_FragColor = window_shader() * mask_factor(); + } +); + +const char win_shader_default[] = GLSL(330, + in vec2 texcoord; + uniform sampler2D tex; + vec4 default_post_processing(vec4 c); + vec4 window_shader() { + vec4 c = texelFetch(tex, ivec2(texcoord), 0); + return default_post_processing(c); + } +); + +const char present_vertex_shader[] = GLSL(330, + uniform mat4 projection; + layout(location = 0) in vec2 coord; + out vec2 texcoord; + void main() { + gl_Position = projection * vec4(coord, 0, 1); + texcoord = coord; + } +); +const char vertex_shader[] = GLSL(330, + uniform mat4 projection; + uniform float scale = 1.0; + uniform vec2 texorig; + layout(location = 0) in vec2 coord; + layout(location = 1) in vec2 in_texcoord; + out vec2 texcoord; + void main() { + gl_Position = projection * vec4(coord, 0, scale); + texcoord = in_texcoord + texorig; + } +); +// clang-format on diff --git a/src/backend/meson.build b/src/backend/meson.build index b8f0ad9a..511394b8 100644 --- a/src/backend/meson.build +++ b/src/backend/meson.build @@ -3,5 +3,5 @@ srcs += [ files('backend_common.c', 'xrender/xrender.c', 'dummy/dummy.c', 'backe # enable opengl if get_option('opengl') - srcs += [ files('gl/gl_common.c', 'gl/glx.c') ] + srcs += [ files('gl/gl_common.c', 'gl/glx.c', 'gl/blur.c', 'gl/shaders.c') ] endif