src/third_party/angle/samples/gles2_book/Simple_VertexShader/Simple_VertexShader.c - cobalt - Git at Google

 //
 // Book:      OpenGL(R) ES 2.0 Programming Guide
 // Authors:   Aaftab Munshi, Dan Ginsburg, Dave Shreiner
 // ISBN-10:   0321502795
 // ISBN-13:   9780321502797
 // Publisher: Addison-Wesley Professional
 // URLs:      http://safari.informit.com/9780321563835
 //            http://www.opengles-book.com
 //

 // Simple_VertexShader.c
 //
 //    This is a simple example that draws a rotating cube in perspective
 //    using a vertex shader to transform the object
 //
 #include <stdlib.h>
 #include "esUtil.h"

 typedef struct
 {
    // Handle to a program object
    GLuint programObject;

    // Attribute locations
    GLint  positionLoc;

    // Uniform locations
    GLint  mvpLoc;

    // Vertex daata
    GLfloat  *vertices;
    GLushort   *indices;
    int       numIndices;

    // Rotation angle
    GLfloat   angle;

    // MVP matrix
    ESMatrix  mvpMatrix;
 } UserData;

 ///
 // Initialize the shader and program object
 //
 int Init ( ESContext *esContext )
 {
    UserData *userData = esContext->userData;
    GLbyte vShaderStr[] =
       "uniform mat4 u_mvpMatrix;                   \n"
       "attribute vec4 a_position;                  \n"
       "void main()                                 \n"
       "{                                           \n"
       "   gl_Position = u_mvpMatrix * a_position;  \n"
       "}                                           \n";

    GLbyte fShaderStr[] =
       "precision mediump float;                            \n"
       "void main()                                         \n"
       "{                                                   \n"
       "  gl_FragColor = vec4( 1.0, 0.0, 0.0, 1.0 );        \n"
       "}                                                   \n";

    // Load the shaders and get a linked program object
    userData->programObject = esLoadProgram ( vShaderStr, fShaderStr );

    // Get the attribute locations
    userData->positionLoc = glGetAttribLocation ( userData->programObject, "a_position" );

    // Get the uniform locations
    userData->mvpLoc = glGetUniformLocation( userData->programObject, "u_mvpMatrix" );

    // Generate the vertex data
    userData->numIndices = esGenCube( 1.0, &userData->vertices,
                                      NULL, NULL, &userData->indices );

    // Starting rotation angle for the cube
    userData->angle = 45.0f;

    glClearColor ( 0.0f, 0.0f, 0.0f, 0.0f );
    return TRUE;
 }


 ///
 // Update MVP matrix based on time
 //
 void Update ( ESContext *esContext, float deltaTime )
 {
    UserData *userData = (UserData*) esContext->userData;
    ESMatrix perspective;
    ESMatrix modelview;
    float    aspect;

    // Compute a rotation angle based on time to rotate the cube
    userData->angle += ( deltaTime * 40.0f );
    if( userData->angle >= 360.0f )
       userData->angle -= 360.0f;

    // Compute the window aspect ratio
    aspect = (GLfloat) esContext->width / (GLfloat) esContext->height;

    // Generate a perspective matrix with a 60 degree FOV
    esMatrixLoadIdentity( &perspective );
    esPerspective( &perspective, 60.0f, aspect, 1.0f, 20.0f );

    // Generate a model view matrix to rotate/translate the cube
    esMatrixLoadIdentity( &modelview );

    // Translate away from the viewer
    esTranslate( &modelview, 0.0, 0.0, -2.0 );

    // Rotate the cube
    esRotate( &modelview, userData->angle, 1.0, 0.0, 1.0 );

    // Compute the final MVP by multiplying the
    // modevleiw and perspective matrices together
    esMatrixMultiply( &userData->mvpMatrix, &modelview, &perspective );
 }

 ///
 // Draw a triangle using the shader pair created in Init()
 //
 void Draw ( ESContext *esContext )
 {
    UserData *userData = esContext->userData;

    // Set the viewport
    glViewport ( 0, 0, esContext->width, esContext->height );


    // Clear the color buffer
    glClear ( GL_COLOR_BUFFER_BIT );

    // Use the program object
    glUseProgram ( userData->programObject );

    // Load the vertex position
    glVertexAttribPointer ( userData->positionLoc, 3, GL_FLOAT,
                            GL_FALSE, 3 * sizeof(GLfloat), userData->vertices );

    glEnableVertexAttribArray ( userData->positionLoc );


    // Load the MVP matrix
    glUniformMatrix4fv( userData->mvpLoc, 1, GL_FALSE, (GLfloat*) &userData->mvpMatrix.m[0][0] );

    // Draw the cube
    glDrawElements ( GL_TRIANGLES, userData->numIndices, GL_UNSIGNED_SHORT, userData->indices );

    eglSwapBuffers ( esContext->eglDisplay, esContext->eglSurface );
 }

 ///
 // Cleanup
 //
 void ShutDown ( ESContext *esContext )
 {
    UserData *userData = esContext->userData;

    if ( userData->vertices != NULL )
    {
       free ( userData->vertices );
    }

    if ( userData->indices != NULL )
    {
       free ( userData->indices );
    }

    // Delete program object
    glDeleteProgram ( userData->programObject );
 }


 int main ( int argc, char *argv[] )
 {
    ESContext esContext;
    UserData  userData;

    esInitContext ( &esContext );
    esContext.userData = &userData;

    esCreateWindow ( &esContext, TEXT("Simple Vertex Shader"), 320, 240, ES_WINDOW_RGB );

    if ( !Init ( &esContext ) )
       return 0;

    esRegisterDrawFunc ( &esContext, Draw );
    esRegisterUpdateFunc ( &esContext, Update );

    esMainLoop ( &esContext );

    ShutDown ( &esContext );
 }
	//
	// Book: OpenGL(R) ES 2.0 Programming Guide
	// Authors: Aaftab Munshi, Dan Ginsburg, Dave Shreiner
	// ISBN-10: 0321502795
	// ISBN-13: 9780321502797
	// Publisher: Addison-Wesley Professional
	// URLs: http://safari.informit.com/9780321563835
	// http://www.opengles-book.com
	//

	// Simple_VertexShader.c
	//
	// This is a simple example that draws a rotating cube in perspective
	// using a vertex shader to transform the object
	//
	#include <stdlib.h>
	#include "esUtil.h"

	typedef struct
	{
	// Handle to a program object
	GLuint programObject;

	// Attribute locations
	GLint positionLoc;

	// Uniform locations
	GLint mvpLoc;

	// Vertex daata
	GLfloat *vertices;
	GLushort *indices;
	int numIndices;

	// Rotation angle
	GLfloat angle;

	// MVP matrix
	ESMatrix mvpMatrix;
	} UserData;

	///
	// Initialize the shader and program object
	//
	int Init ( ESContext *esContext )
	{
	UserData *userData = esContext->userData;
	GLbyte vShaderStr[] =
	"uniform mat4 u_mvpMatrix; \n"
	"attribute vec4 a_position; \n"
	"void main() \n"
	"{ \n"
	" gl_Position = u_mvpMatrix * a_position; \n"
	"} \n";

	GLbyte fShaderStr[] =
	"precision mediump float; \n"
	"void main() \n"
	"{ \n"
	" gl_FragColor = vec4( 1.0, 0.0, 0.0, 1.0 ); \n"
	"} \n";

	// Load the shaders and get a linked program object
	userData->programObject = esLoadProgram ( vShaderStr, fShaderStr );

	// Get the attribute locations
	userData->positionLoc = glGetAttribLocation ( userData->programObject, "a_position" );

	// Get the uniform locations
	userData->mvpLoc = glGetUniformLocation( userData->programObject, "u_mvpMatrix" );

	// Generate the vertex data
	userData->numIndices = esGenCube( 1.0, &userData->vertices,
	NULL, NULL, &userData->indices );

	// Starting rotation angle for the cube
	userData->angle = 45.0f;

	glClearColor ( 0.0f, 0.0f, 0.0f, 0.0f );
	return TRUE;
	}


	///
	// Update MVP matrix based on time
	//
	void Update ( ESContext *esContext, float deltaTime )
	{
	UserData userData = (UserData) esContext->userData;
	ESMatrix perspective;
	ESMatrix modelview;
	float aspect;

	// Compute a rotation angle based on time to rotate the cube
	userData->angle += ( deltaTime * 40.0f );
	if( userData->angle >= 360.0f )
	userData->angle -= 360.0f;

	// Compute the window aspect ratio
	aspect = (GLfloat) esContext->width / (GLfloat) esContext->height;

	// Generate a perspective matrix with a 60 degree FOV
	esMatrixLoadIdentity( &perspective );
	esPerspective( &perspective, 60.0f, aspect, 1.0f, 20.0f );

	// Generate a model view matrix to rotate/translate the cube
	esMatrixLoadIdentity( &modelview );

	// Translate away from the viewer
	esTranslate( &modelview, 0.0, 0.0, -2.0 );

	// Rotate the cube
	esRotate( &modelview, userData->angle, 1.0, 0.0, 1.0 );

	// Compute the final MVP by multiplying the
	// modevleiw and perspective matrices together
	esMatrixMultiply( &userData->mvpMatrix, &modelview, &perspective );
	}

	///
	// Draw a triangle using the shader pair created in Init()
	//
	void Draw ( ESContext *esContext )
	{
	UserData *userData = esContext->userData;

	// Set the viewport
	glViewport ( 0, 0, esContext->width, esContext->height );


	// Clear the color buffer
	glClear ( GL_COLOR_BUFFER_BIT );

	// Use the program object
	glUseProgram ( userData->programObject );

	// Load the vertex position
	glVertexAttribPointer ( userData->positionLoc, 3, GL_FLOAT,
	GL_FALSE, 3 * sizeof(GLfloat), userData->vertices );

	glEnableVertexAttribArray ( userData->positionLoc );


	// Load the MVP matrix
	glUniformMatrix4fv( userData->mvpLoc, 1, GL_FALSE, (GLfloat*) &userData->mvpMatrix.m[0][0] );

	// Draw the cube
	glDrawElements ( GL_TRIANGLES, userData->numIndices, GL_UNSIGNED_SHORT, userData->indices );

	eglSwapBuffers ( esContext->eglDisplay, esContext->eglSurface );
	}

	///
	// Cleanup
	//
	void ShutDown ( ESContext *esContext )
	{
	UserData *userData = esContext->userData;

	if ( userData->vertices != NULL )
	{
	free ( userData->vertices );
	}

	if ( userData->indices != NULL )
	{
	free ( userData->indices );
	}

	// Delete program object
	glDeleteProgram ( userData->programObject );
	}


	int main ( int argc, char *argv[] )
	{
	ESContext esContext;
	UserData userData;

	esInitContext ( &esContext );
	esContext.userData = &userData;

	esCreateWindow ( &esContext, TEXT("Simple Vertex Shader"), 320, 240, ES_WINDOW_RGB );

	if ( !Init ( &esContext ) )
	return 0;

	esRegisterDrawFunc ( &esContext, Draw );
	esRegisterUpdateFunc ( &esContext, Update );

	esMainLoop ( &esContext );

	ShutDown ( &esContext );
	}