// SPDX-License-Identifier: MPL-2.0 // Copyright (c) Yuxuan Shui #pragma once #include #include #include #include #include "backend/backend.h" #include "log.h" #include "region.h" #define CASESTRRET(s) \ case s: return #s static inline GLint glGetUniformLocationChecked(GLuint p, const char *name) { auto ret = glGetUniformLocation(p, name); if (ret < 0) { log_info("Failed to get location of uniform '%s'. This is normal when " "using custom shaders.", name); } return ret; } #define bind_uniform(shader, uniform) \ (shader)->uniform_##uniform = glGetUniformLocationChecked((shader)->prog, #uniform) // Program and uniforms for window shader typedef struct { UT_hash_handle hh; uint32_t id; GLuint prog; GLint uniform_opacity; GLint uniform_invert_color; GLint uniform_tex; GLint uniform_dim; GLint uniform_brightness; GLint uniform_max_brightness; GLint uniform_corner_radius; GLint uniform_border_width; GLint uniform_time; GLint uniform_mask_tex; GLint uniform_mask_offset; GLint uniform_mask_corner_radius; GLint uniform_mask_inverted; } gl_win_shader_t; // Program and uniforms for brightness shader typedef struct { GLuint prog; } gl_brightness_shader_t; // Program and uniforms for blur shader typedef struct { GLuint prog; GLint uniform_pixel_norm; GLint uniform_opacity; GLint texorig_loc; GLint scale_loc; GLint uniform_mask_tex; GLint uniform_mask_offset; GLint uniform_mask_corner_radius; GLint uniform_mask_inverted; } gl_blur_shader_t; typedef struct { GLuint prog; GLint color_loc; } gl_fill_shader_t; /// @brief Wrapper of a binded GLX texture. struct gl_texture { int refcount; bool has_alpha; GLuint texture; int width, height; bool y_inverted; // Textures for auxiliary uses. GLuint auxiliary_texture[2]; gl_win_shader_t *shader; void *user_data; }; struct gl_data { backend_t base; // If we are using proprietary NVIDIA driver bool is_nvidia; // If ARB_robustness extension is present bool has_robustness; // Height and width of the root window int height, width; // Hash-table of window shaders gl_win_shader_t *default_shader; gl_brightness_shader_t brightness_shader; gl_fill_shader_t fill_shader; GLuint back_texture, back_fbo; GLuint present_prog; GLuint default_mask_texture; /// Called when an gl_texture is decoupled from the texture it refers. Returns /// the decoupled user_data void *(*decouple_texture_user_data)(backend_t *base, void *user_data); /// Release the user data attached to a gl_texture void (*release_user_data)(backend_t *base, struct gl_texture *); struct log_target *logger; }; 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); bool gl_set_image_property(backend_t *backend_data, enum image_properties prop, void *image_data, void *args); /** * @brief Render a region with texture data. */ void gl_compose(backend_t *, void *image_data, coord_t image_dst, void *mask, coord_t mask_dst, const region_t *reg_tgt, const region_t *reg_visible); void gl_resize(struct gl_data *, int width, int height); bool gl_init(struct gl_data *gd, session_t *); void gl_deinit(struct gl_data *gd); GLuint gl_new_texture(GLenum target); bool gl_image_op(backend_t *base, enum image_operations op, void *image_data, const region_t *reg_op, const region_t *reg_visible, void *arg); void gl_release_image(backend_t *base, void *image_data); void *gl_make_mask(backend_t *base, geometry_t size, const region_t *reg); void *gl_clone(backend_t *base, const void *image_data, const region_t *reg_visible); 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); void *gl_create_blur_context(backend_t *base, enum blur_method, void *args); void gl_destroy_blur_context(backend_t *base, void *ctx); void gl_get_blur_size(void *blur_context, int *width, int *height); void gl_fill(backend_t *base, struct color, const region_t *clip); void gl_present(backend_t *base, const region_t *); bool gl_read_pixel(backend_t *base, void *image_data, int x, int y, struct color *output); enum device_status gl_device_status(backend_t *base); static inline void gl_delete_texture(GLuint texture) { glDeleteTextures(1, &texture); } /** * Get a textual representation of an OpenGL error. */ static inline const char *gl_get_err_str(GLenum err) { switch (err) { CASESTRRET(GL_NO_ERROR); CASESTRRET(GL_INVALID_ENUM); CASESTRRET(GL_INVALID_VALUE); CASESTRRET(GL_INVALID_OPERATION); CASESTRRET(GL_INVALID_FRAMEBUFFER_OPERATION); CASESTRRET(GL_OUT_OF_MEMORY); CASESTRRET(GL_STACK_UNDERFLOW); CASESTRRET(GL_STACK_OVERFLOW); CASESTRRET(GL_FRAMEBUFFER_UNDEFINED); CASESTRRET(GL_FRAMEBUFFER_INCOMPLETE_ATTACHMENT); CASESTRRET(GL_FRAMEBUFFER_INCOMPLETE_MISSING_ATTACHMENT); CASESTRRET(GL_FRAMEBUFFER_INCOMPLETE_DRAW_BUFFER); CASESTRRET(GL_FRAMEBUFFER_INCOMPLETE_READ_BUFFER); CASESTRRET(GL_FRAMEBUFFER_UNSUPPORTED); CASESTRRET(GL_FRAMEBUFFER_INCOMPLETE_MULTISAMPLE); CASESTRRET(GL_FRAMEBUFFER_INCOMPLETE_LAYER_TARGETS); } return NULL; } /** * Check for GLX error. * * http://blog.nobel-joergensen.com/2013/01/29/debugging-opengl-using-glgeterror/ */ static inline void gl_check_err_(const char *func, int line) { GLenum err = GL_NO_ERROR; while (GL_NO_ERROR != (err = glGetError())) { const char *errtext = gl_get_err_str(err); if (errtext) { log_printf(tls_logger, LOG_LEVEL_ERROR, func, "GLX error at line %d: %s", line, errtext); } else { log_printf(tls_logger, LOG_LEVEL_ERROR, func, "GLX error at line %d: %d", line, err); } } } static inline void gl_clear_err(void) { while (glGetError() != GL_NO_ERROR) ; } #define gl_check_err() gl_check_err_(__func__, __LINE__) /** * Check for GL framebuffer completeness. */ static inline bool gl_check_fb_complete_(const char *func, int line, GLenum fb) { GLenum status = glCheckFramebufferStatus(fb); if (status == GL_FRAMEBUFFER_COMPLETE) { return true; } const char *stattext = gl_get_err_str(status); if (stattext) { log_printf(tls_logger, LOG_LEVEL_ERROR, func, "Framebuffer attachment failed at line %d: %s", line, stattext); } else { log_printf(tls_logger, LOG_LEVEL_ERROR, func, "Framebuffer attachment failed at line %d: %d", line, status); } return false; } #define gl_check_fb_complete(fb) gl_check_fb_complete_(__func__, __LINE__, (fb)) /** * Check if a GLX extension exists. */ static inline bool gl_has_extension(const char *ext) { int nexts = 0; glGetIntegerv(GL_NUM_EXTENSIONS, &nexts); for (int i = 0; i < nexts || !nexts; i++) { const char *exti = (const char *)glGetStringi(GL_EXTENSIONS, (GLuint)i); if (exti == NULL) { break; } if (strcmp(ext, exti) == 0) { return true; } } gl_clear_err(); 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[];