/* * Cogl * * An object oriented GL/GLES Abstraction/Utility Layer * * Copyright (C) 2008,2009 Intel Corporation. * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation; either * version 2 of the License, or (at your option) any later version. * * This library is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with this library. If not, see . * * */ #if !defined(__COGL_H_INSIDE__) && !defined(CLUTTER_COMPILATION) #error "Only can be included directly." #endif #ifndef __COGL_SHADER_H__ #define __COGL_SHADER_H__ #include #include G_BEGIN_DECLS /** * SECTION:cogl-shaders * @short_description: Fuctions for accessing the programmable GL pipeline * * Cogl allows accessing the GL programmable pipeline in order to create * vertex and fragment shaders. * * The shader source code can either be GLSL or ARBfp. If the source * code is ARBfp, it must begin with the string “!!ARBfp1.0”. The * application should check for the %COGL_FEATURE_SHADERS_GLSL or * %COGL_FEATURE_SHADERS_ARBFP features before using shaders. * * When using GLSL Cogl provides replacement names for most of the * builtin varyings and uniforms. It is recommended to use these names * wherever possible to increase portability between OpenGL 2.0 and * GLES 2.0. GLES 2.0 does not have most of the builtins under their * original names so they will only work with the Cogl names. * * For use in all GLSL shaders, the Cogl builtins are as follows: * * * * * uniform mat4 * cogl_modelview_matrix * * The current modelview matrix. This is equivalent to * #gl_ModelViewMatrix. * * * * uniform mat4 * cogl_projection_matrix * * The current projection matrix. This is equivalent to * #gl_ProjectionMatrix. * * * * uniform mat4 * cogl_modelview_projection_matrix * * The combined modelview and projection matrix. A vertex shader * would typically use this to transform the incoming vertex * position. The separate modelview and projection matrices are * usually only needed for lighting calculations. This is * equivalent to #gl_ModelViewProjectionMatrix. * * * * uniform mat4 * cogl_texture_matrix[] * * An array of matrices for transforming the texture * coordinates. This is equivalent to #gl_TextureMatrix. * * * * * * In a vertex shader, the following are also available: * * * * * attribute vec4 * cogl_position_in * * The incoming vertex position. This is equivalent to #gl_Vertex. * * * * attribute vec4 * cogl_color_in * * The incoming vertex color. This is equivalent to #gl_Color. * * * * attribute vec4 * cogl_tex_coord_in * * The texture coordinate for the first texture unit. This is * equivalent to #gl_MultiTexCoord0. * * * * attribute vec4 * cogl_tex_coord0_in * * The texture coordinate for the first texture unit. This is * equivalent to #gl_MultiTexCoord0. There is also * #cogl_tex_coord1_in and so on. * * * * attribute vec3 * cogl_normal_in * * The normal of the vertex. This is equivalent to #gl_Normal. * * * * vec4 * cogl_position_out * * The calculated position of the vertex. This must be written to * in all vertex shaders. This is equivalent to #gl_Position. * * * * float * cogl_point_size_out * * The calculated size of a point. This is equivalent to #gl_PointSize. * * * * varying vec4 * cogl_color_out * * The calculated color of a vertex. This is equivalent to #gl_FrontColor. * * * * varying vec4 * cogl_tex_coord_out[] * * An array of calculated texture coordinates for a vertex. This is * equivalent to #gl_TexCoord. * * * * * * In a fragment shader, the following are also available: * * * * * varying vec4 cogl_color_in * * The calculated color of a vertex. This is equivalent to #gl_FrontColor. * * * * varying vec4 * cogl_tex_coord_in[] * * An array of calculated texture coordinates for a vertex. This is * equivalent to #gl_TexCoord. * * * * vec4 cogl_color_out * * The final calculated color of the fragment. All fragment shaders * must write to this variable. This is equivalent to * #gl_FrontColor. * * * * float cogl_depth_out * * An optional output variable specifying the depth value to use * for this fragment. This is equivalent to #gl_FragDepth. * * * * bool cogl_front_facing * * A readonly variable that will be true if the current primitive * is front facing. This can be used to implement two-sided * coloring algorithms. This is equivalent to #gl_FrontFacing. * * * * * * It's worth nothing that this API isn't what Cogl would like to have * in the long term and it may be removed in Cogl 2.0. The * experimental #CoglShader API is the proposed replacement. */ /** * CoglShaderType: * @COGL_SHADER_TYPE_VERTEX: A program for proccessing vertices * @COGL_SHADER_TYPE_FRAGMENT: A program for processing fragments * * Types of shaders * * Since: 1.0 */ typedef enum { COGL_SHADER_TYPE_VERTEX, COGL_SHADER_TYPE_FRAGMENT } CoglShaderType; /** * cogl_create_shader: * @shader_type: COGL_SHADER_TYPE_VERTEX or COGL_SHADER_TYPE_FRAGMENT. * * Create a new shader handle, use cogl_shader_source() to set the * source code to be used on it. * * Returns: a new shader handle. */ CoglHandle cogl_create_shader (CoglShaderType shader_type); #ifndef COGL_DISABLE_DEPRECATED /** * cogl_shader_ref: * @handle: A #CoglHandle to a shader. * * Add an extra reference to a shader. * * Deprecated: 1.0: Please use cogl_handle_ref() instead. * * Returns: @handle */ CoglHandle cogl_shader_ref (CoglHandle handle) G_GNUC_DEPRECATED; /** * cogl_shader_unref: * @handle: A #CoglHandle to a shader. * * Removes a reference to a shader. If it was the last reference the * shader object will be destroyed. * * Deprecated: 1.0: Please use cogl_handle_unref() instead. */ void cogl_shader_unref (CoglHandle handle) G_GNUC_DEPRECATED; #endif /* COGL_DISABLE_DEPRECATED */ /** * cogl_is_shader: * @handle: A CoglHandle * * Gets whether the given handle references an existing shader object. * * Returns: %TRUE if the handle references a shader, * %FALSE otherwise */ CoglBool cogl_is_shader (CoglHandle handle); /** * cogl_shader_source: * @shader: #CoglHandle for a shader. * @source: Shader source. * * Replaces the current source associated with a shader with a new * one. * * Please see above * for a description of the recommended format for the shader code. */ void cogl_shader_source (CoglHandle shader, const char *source); /** * cogl_shader_compile: * @handle: #CoglHandle for a shader. * * Compiles the shader, no return value, but the shader is now ready * for linking into a program. Note that calling this function is * optional. If it is not called then the shader will be automatically * compiled when it is linked. */ void cogl_shader_compile (CoglHandle handle); /** * cogl_shader_get_info_log: * @handle: #CoglHandle for a shader. * * Retrieves the information log for a coglobject, can be used in conjunction * with cogl_shader_get_parameteriv() to retrieve the compiler warnings/error * messages that caused a shader to not compile correctly, mainly useful for * debugging purposes. * * Return value: a newly allocated string containing the info log. Use * g_free() to free it */ char * cogl_shader_get_info_log (CoglHandle handle); /** * cogl_shader_get_type: * @handle: #CoglHandle for a shader. * * Retrieves the type of a shader #CoglHandle * * Return value: %COGL_SHADER_TYPE_VERTEX if the shader is a vertex processor * or %COGL_SHADER_TYPE_FRAGMENT if the shader is a frament processor */ CoglShaderType cogl_shader_get_type (CoglHandle handle); /** * cogl_shader_is_compiled: * @handle: #CoglHandle for a shader. * * Retrieves whether a shader #CoglHandle has been compiled * * Return value: %TRUE if the shader object has sucessfully be compiled */ CoglBool cogl_shader_is_compiled (CoglHandle handle); /** * cogl_create_program: * * Create a new cogl program object that can be used to replace parts of the GL * rendering pipeline with custom code. * * Returns: a new cogl program. */ CoglHandle cogl_create_program (void); #ifndef COGL_DISABLE_DEPRECATED /** * cogl_program_ref: * @handle: A #CoglHandle to a program. * * Add an extra reference to a program. * * Deprecated: 1.0: Please use cogl_handle_ref() instead. * * Returns: @handle */ CoglHandle cogl_program_ref (CoglHandle handle) G_GNUC_DEPRECATED; /** * cogl_program_unref: * @handle: A #CoglHandle to a program. * * Removes a reference to a program. If it was the last reference the * program object will be destroyed. * * Deprecated: 1.0: Please use cogl_handle_unref() instead. */ void cogl_program_unref (CoglHandle handle) G_GNUC_DEPRECATED; #endif /* COGL_DISABLE_DEPRECATED */ /** * cogl_is_program: * @handle: A CoglHandle * * Gets whether the given handle references an existing program object. * * Returns: %TRUE if the handle references a program, * %FALSE otherwise */ CoglBool cogl_is_program (CoglHandle handle); /** * cogl_program_attach_shader: * @program_handle: a #CoglHandle for a shdaer program. * @shader_handle: a #CoglHandle for a vertex of fragment shader. * * Attaches a shader to a program object. A program can have multiple * vertex or fragment shaders but only one of them may provide a * main() function. It is allowed to use a program with only a vertex * shader or only a fragment shader. */ void cogl_program_attach_shader (CoglHandle program_handle, CoglHandle shader_handle); /** * cogl_program_link: * @handle: a #CoglHandle for a shader program. * * Links a program making it ready for use. Note that calling this * function is optional. If it is not called the program will * automatically be linked the first time it is used. */ void cogl_program_link (CoglHandle handle); /** * cogl_program_use: * @handle: a #CoglHandle for a shader program or %COGL_INVALID_HANDLE. * * Activate a specific shader program replacing that part of the GL * rendering pipeline, if passed in %COGL_INVALID_HANDLE the default * behavior of GL is reinstated. * * This function affects the global state of the current Cogl * context. It is much more efficient to attach the shader to a * specific material used for rendering instead by calling * cogl_material_set_user_program(). */ void cogl_program_use (CoglHandle handle); /** * cogl_program_get_uniform_location: * @handle: a #CoglHandle for a shader program. * @uniform_name: the name of a uniform. * * Retrieve the location (offset) of a uniform variable in a shader program, * a uniform is a variable that is constant for all vertices/fragments for a * shader object and is possible to modify as an external parameter. * * Return value: the offset of a uniform in a specified program. * This uniform can be set using cogl_program_uniform_1f() when the * program is in use. */ int cogl_program_get_uniform_location (CoglHandle handle, const char *uniform_name); /** * cogl_program_set_uniform_1f: * @program: A #CoglHandle for a linked program * @uniform_location: the uniform location retrieved from * cogl_program_get_uniform_location(). * @value: the new value of the uniform. * * Changes the value of a floating point uniform for the given linked * @program. * * Since: 1.4 */ void cogl_program_set_uniform_1f (CoglHandle program, int uniform_location, float value); /** * cogl_program_set_uniform_1i: * @program: A #CoglHandle for a linked program * @uniform_location: the uniform location retrieved from * cogl_program_get_uniform_location(). * @value: the new value of the uniform. * * Changes the value of an integer uniform for the given linked * @program. * * Since: 1.4 */ void cogl_program_set_uniform_1i (CoglHandle program, int uniform_location, int value); /** * cogl_program_set_uniform_float: * @program: A #CoglHandle for a linked program * @uniform_location: the uniform location retrieved from * cogl_program_get_uniform_location(). * @n_components: The number of components for the uniform. For * example with glsl you'd use 3 for a vec3 or 4 for a vec4. * @count: For uniform arrays this is the array length otherwise just * pass 1 * @value: (array length=count): the new value of the uniform[s]. * * Changes the value of a float vector uniform, or uniform array for * the given linked @program. * * Since: 1.4 */ void cogl_program_set_uniform_float (CoglHandle program, int uniform_location, int n_components, int count, const float *value); /** * cogl_program_set_uniform_int: * @program: A #CoglHandle for a linked program * @uniform_location: the uniform location retrieved from * cogl_program_get_uniform_location(). * @n_components: The number of components for the uniform. For * example with glsl you'd use 3 for a vec3 or 4 for a vec4. * @count: For uniform arrays this is the array length otherwise just * pass 1 * @value: (array length=count): the new value of the uniform[s]. * * Changes the value of a int vector uniform, or uniform array for * the given linked @program. * * Since: 1.4 */ void cogl_program_set_uniform_int (CoglHandle program, int uniform_location, int n_components, int count, const int *value); /** * cogl_program_set_uniform_matrix: * @program: A #CoglHandle for a linked program * @uniform_location: the uniform location retrieved from * cogl_program_get_uniform_location(). * @dimensions: The dimensions of the matrix. So for for example pass * 2 for a 2x2 matrix or 3 for 3x3. * @count: For uniform arrays this is the array length otherwise just * pass 1 * @transpose: Whether to transpose the matrix when setting the uniform. * @value: (array length=count): the new value of the uniform. * * Changes the value of a matrix uniform, or uniform array in the * given linked @program. * * Since: 1.4 */ void cogl_program_set_uniform_matrix (CoglHandle program, int uniform_location, int dimensions, int count, CoglBool transpose, const float *value); #ifndef COGL_DISABLE_DEPRECATED /** * cogl_program_uniform_1f: * @uniform_no: the uniform to set. * @value: the new value of the uniform. * * Changes the value of a floating point uniform in the currently * used (see cogl_program_use()) shader program. * * Deprecated: 1.4: Use cogl_program_set_uniform_1f() instead. */ void cogl_program_uniform_1f (int uniform_no, float value) G_GNUC_DEPRECATED; /** * cogl_program_uniform_1i: * @uniform_no: the uniform to set. * @value: the new value of the uniform. * * Changes the value of an integer uniform in the currently * used (see cogl_program_use()) shader program. * * Deprecated: 1.4: Use cogl_program_set_uniform_1i() instead. */ void cogl_program_uniform_1i (int uniform_no, int value) G_GNUC_DEPRECATED; /** * cogl_program_uniform_float: * @uniform_no: the uniform to set. * @size: Size of float vector. * @count: Size of array of uniforms. * @value: (array length=count): the new value of the uniform. * * Changes the value of a float vector uniform, or uniform array in the * currently used (see cogl_program_use()) shader program. * * Deprecated: 1.4: Use cogl_program_set_uniform_float() instead. */ void cogl_program_uniform_float (int uniform_no, int size, int count, const float *value) G_GNUC_DEPRECATED; /** * cogl_program_uniform_int: * @uniform_no: the uniform to set. * @size: Size of int vector. * @count: Size of array of uniforms. * @value: (array length=count): the new value of the uniform. * * Changes the value of a int vector uniform, or uniform array in the * currently used (see cogl_program_use()) shader program. */ void cogl_program_uniform_int (int uniform_no, int size, int count, const int *value) G_GNUC_DEPRECATED; /** * cogl_program_uniform_matrix: * @uniform_no: the uniform to set. * @size: Size of matrix. * @count: Size of array of uniforms. * @transpose: Whether to transpose the matrix when setting the uniform. * @value: (array length=count): the new value of the uniform. * * Changes the value of a matrix uniform, or uniform array in the * currently used (see cogl_program_use()) shader program. The @size * parameter is used to determine the square size of the matrix. */ void cogl_program_uniform_matrix (int uniform_no, int size, int count, CoglBool transpose, const float *value) G_GNUC_DEPRECATED; #endif /* COGL_DISABLE_DEPRECATED */ G_END_DECLS #endif /* __COGL_SHADER_H__ */