【cocos2d-x 2.x 学习与应用总结】11: 理解CCGLProgram
发布时间:2020-12-14 16:51:19 所属栏目:百科 来源:网络整理
导读:前言 本文介绍了cocos2d-x中CCGLProgram这个类,这篇文章假设读者已经了解OpenGL ES程序的基本渲染流程:顶点和片段着色器的源代码的编写、着色器的创建、program的创建、源代码绑定、编译、链接、OpenGL客户端-服务端传值等。CCGLProgram这个类正是对OpenGL
前言本文介绍了cocos2d-x中CCGLProgram这个类,这篇文章假设读者已经了解OpenGL ES程序的基本渲染流程:顶点和片段着色器的源代码的编写、着色器的创建、program的创建、源代码绑定、编译、链接、OpenGL客户端-服务端传值等。CCGLProgram这个类正是对OpenGL ES渲染流程中涉及到着色器的编译、链接、传值等部分的抽象。 本文先总起介绍CCGLProgram所做的工作,然后分析其源代码中的关键实现,最后给出CCGLProgram的使用实例。 总体上认识CCGLProgramCCGLProgram,人如其名,它是一个OpenGL Program,通过一个顶点着色器和一个片段着色器代码(对于不支持shader即时编译功能的显卡,传入编译好的二进制着色器数据)来创建一个CCGLProgram. CCGLProgram内部做下面这些工作:
#define kCCUniformPMatrix_s "CC_PMatrix"
#define kCCUniformMVMatrix_s "CC_MVMatrix"
#define kCCUniformMVPMatrix_s "CC_MVPMatrix"
#define kCCUniformTime_s "CC_Time"
#define kCCUniformSinTime_s "CC_SinTime"
#define kCCUniformCosTime_s "CC_CosTime"
#define kCCUniformRandom01_s "CC_Random01"
#define kCCUniformSampler_s "CC_Texture0"
#define kCCUniformAlphaTestValue "CC_alpha_value"
CCGLProgram关键代码分析成员变量GLuint m_uProgram; // 着色器程序,glCreateProgram()的返回值
GLuint m_uVertShader; // 顶点着色器,glCreateShader(GL_VERTEX_SHADER)返回值
GLuint m_uFragShader; // 片段着色器,glCreateShader(GL_FRAGMENT_SHADER)返回值
GLint m_uUniforms[kCCUniform_MAX]; // 预定以的8个uniform常量
struct _hashUniformEntry* m_pHashForUniforms; // 着色器程序中uniform常量的缓存
bool m_bUsesTime; // 是否在着色器程序中使用时间
bool m_hasShaderCompiler; // GPU是否支持online compile,即是否有shader的编译功能
构造类方法// 1. 使用字节数组来初始化
bool initWithVertexShaderByteArray(const GLchar* vShaderByteArray,const GLchar* fShaderByteArray);
// 2. 使用两个着色器文件名字来初始化
bool initWithVertexShaderFilename(const char* vShaderFilename,const char* fShaderFilename);
// 3. 在不支持即时编译的平台上,使用预编译的shader字节数组来初始化
#if (CC_TARGET_PLATFORM == CC_PLATFORM_WINRT) || (CC_TARGET_PLATFORM == CC_PLATFORM_WP8)
/** Initializes the CCGLProgram with precompiled shader program */
bool initWithPrecompiledProgramByteArray(const GLchar* vShaderByteArray,const GLchar* fShaderByteArray);
#endif
我还没搞过预编译的shader,主要来说说前两种初始化方法的实现: // 使用文件名的初始化方式内部调用了第一种初始化方式。
bool CCGLProgram::initWithVertexShaderFilename(const char* vShaderFilename,const char* fShaderFilename)
{
const GLchar * vertexSource = (GLchar*) CCString::createWithContentsOfFile(CCFileUtils::sharedFileUtils()->fullPathForFilename(vShaderFilename).c_str())->getCString();
const GLchar * fragmentSource = (GLchar*) CCString::createWithContentsOfFile(CCFileUtils::sharedFileUtils()->fullPathForFilename(fShaderFilename).c_str())->getCString();
return initWithVertexShaderByteArray(vertexSource,fragmentSource);
}
bool CCGLProgram::initWithVertexShaderByteArray(const GLchar* vShaderByteArray,const GLchar* fShaderByteArray)
{
// 在不支持即时编译的平台使用initWithPrecompiledProgramByteArray方法。
#if (CC_TARGET_PLATFORM == CC_PLATFORM_WINRT) || (CC_TARGET_PLATFORM == CC_PLATFORM_WP8)
GLboolean hasCompiler = false;
glGetBooleanv(GL_SHADER_COMPILER,&hasCompiler);
m_hasShaderCompiler = (hasCompiler == GL_TRUE);
if(!m_hasShaderCompiler)
{
return initWithPrecompiledProgramByteArray(vShaderByteArray,fShaderByteArray);
}
#endif
// 创建program
m_uProgram = glCreateProgram();
CHECK_GL_ERROR_DEBUG();
m_uVertShader = m_uFragShader = 0;
if (vShaderByteArray)
{
// 创建并编译顶点着色器
if (!compileShader(&m_uVertShader,GL_VERTEX_SHADER,vShaderByteArray))
{
CCLOG("cocos2d: ERROR: Failed to compile vertex shader");
return false;
}
}
// Create and compile fragment shader
if (fShaderByteArray)
{
// 创建并编译片段着色器
if (!compileShader(&m_uFragShader,GL_FRAGMENT_SHADER,fShaderByteArray))
{
CCLOG("cocos2d: ERROR: Failed to compile fragment shader");
return false;
}
}
if (m_uVertShader)
{
// 顶点着色器关联到program
glAttachShader(m_uProgram,m_uVertShader);
}
CHECK_GL_ERROR_DEBUG();
if (m_uFragShader)
{
// 片段着色器关联到program
glAttachShader(m_uProgram,m_uFragShader);
}
m_pHashForUniforms = NULL;
CHECK_GL_ERROR_DEBUG();
#if (CC_TARGET_PLATFORM == CC_PLATFORM_WINRT)
m_shaderId = CCPrecompiledShaders::sharedPrecompiledShaders()->addShaders(vShaderByteArray,fShaderByteArray);
#endif
return true;
}
辅助类方法1. 着色器的编译 bool CCGLProgram::compileShader(GLuint * shader,GLenum type,const GLchar* source)
{
GLint status;
if (!source)
{
return false;
}
// 为着色器添加全局的uniform常量
const GLchar *sources[] = {
#if (CC_TARGET_PLATFORM != CC_PLATFORM_WIN32 && CC_TARGET_PLATFORM != CC_PLATFORM_LINUX && CC_TARGET_PLATFORM != CC_PLATFORM_MAC)
(type == GL_VERTEX_SHADER ? "precision highp float;n" : "precision mediump float;n"),#endif
"uniform mat4 CC_PMatrix;n"
"uniform mat4 CC_MVMatrix;n"
"uniform mat4 CC_MVPMatrix;n"
"uniform vec4 CC_Time;n"
"uniform vec4 CC_SinTime;n"
"uniform vec4 CC_CosTime;n"
"uniform vec4 CC_Random01;n"
"//CC INCLUDES ENDnn",source,};
// 创建shader,上传源码,编译
*shader = glCreateShader(type);
glShaderSource(*shader,sizeof(sources)/sizeof(*sources),sources,NULL);
glCompileShader(*shader);
glGetShaderiv(*shader,GL_COMPILE_STATUS,&status);
if (! status)
{
GLsizei length;
glGetShaderiv(*shader,GL_SHADER_SOURCE_LENGTH,&length);
GLchar* src = (GLchar *)malloc(sizeof(GLchar) * length);
glGetShaderSource(*shader,length,NULL,src);
CCLOG("cocos2d: ERROR: Failed to compile shader:n%s",src);
if (type == GL_VERTEX_SHADER)
{
CCLOG("cocos2d: %s",vertexShaderLog());
}
else
{
CCLOG("cocos2d: %s",fragmentShaderLog());
}
free(src);
#if (CC_TARGET_PLATFORM == CC_PLATFORM_WINRT)
return false;
#else
abort();
#endif
}
return (status == GL_TRUE);
}
2. 链接程序 bool CCGLProgram::link()
{
CCAssert(m_uProgram != 0,"Cannot link invalid program");
#if (CC_TARGET_PLATFORM == CC_PLATFORM_WINRT) || (CC_TARGET_PLATFORM == CC_PLATFORM_WP8)
if(!m_hasShaderCompiler)
{
// precompiled shader program is already linked
return true;
}
#endif
GLint status = GL_TRUE;
// 链接
glLinkProgram(m_uProgram);
// 删除掉两个着色器程序,
if (m_uVertShader)
{
glDeleteShader(m_uVertShader);
}
if (m_uFragShader)
{
glDeleteShader(m_uFragShader);
}
// 这里对应了CCGLProgram的析构函数里的两个assert,在析构CCGLProgram的时候,不需要删除着色器程序了
m_uVertShader = m_uFragShader = 0;
#if DEBUG || (CC_TARGET_PLATFORM == CC_PLATFORM_WINRT) || (CC_TARGET_PLATFORM == CC_PLATFORM_WP8)
glGetProgramiv(m_uProgram,GL_LINK_STATUS,&status);
// 如果链接失败,删除program
if (status == GL_FALSE)
{
CCLOG("cocos2d: ERROR: Failed to link program: %i",m_uProgram);
ccGLDeleteProgram(m_uProgram);
m_uProgram = 0;
}
#endif
#if (CC_TARGET_PLATFORM == CC_PLATFORM_WINRT)
if (status == GL_TRUE)
{
CCPrecompiledShaders::sharedPrecompiledShaders()->addProgram(m_uProgram,m_shaderId);
}
#endif
return (status == GL_TRUE);
}
3. use. 在进行绘制之前进行调用 void CCGLProgram::use()
{
ccGLUseProgram(m_uProgram);
}
4. uniform缓存检查,返回false代表不要更新uniform的值 bool CCGLProgram::updateUniformLocation(GLint location,GLvoid* data,unsigned int bytes)
{
if (location < 0)
{
return false;
}
bool updated = true;
tHashUniformEntry *element = NULL;
HASH_FIND_INT(m_pHashForUniforms,&location,element);
if (! element)
{
element = (tHashUniformEntry*)malloc( sizeof(*element) );
// key
element->location = location;
// value
element->value = malloc( bytes );
memcpy(element->value,data,bytes );
HASH_ADD_INT(m_pHashForUniforms,location,element);
}
else
{
if (memcmp(element->value,bytes) == 0)
{
updated = false;
}
else
{
memcpy(element->value,bytes);
}
}
return updated;
}
5. log函数 // 顶点着色器的log
const char* CCGLProgram::vertexShaderLog()
{
return this->logForOpenGLObject(m_uVertShader,(GLInfoFunction)&glGetShaderiv,(GLLogFunction)&glGetShaderInfoLog);
}
// 片段着色器的log
const char* CCGLProgram::fragmentShaderLog()
{
return this->logForOpenGLObject(m_uFragShader,(GLLogFunction)&glGetShaderInfoLog);
}
// program的log
const char* CCGLProgram::programLog()
{
return this->logForOpenGLObject(m_uProgram,(GLInfoFunction)&glGetProgramiv,(GLLogFunction)&glGetProgramInfoLog);
}
绘制过程相关1. 预定义的8个uniform的赋值 void CCGLProgram::setUniformsForBuiltins()
{
kmMat4 matrixP;
kmMat4 matrixMV;
kmMat4 matrixMVP;
kmGLGetMatrix(KM_GL_PROJECTION,&matrixP);
kmGLGetMatrix(KM_GL_MODELVIEW,&matrixMV);
kmMat4Multiply(&matrixMVP,&matrixP,&matrixMV);
// 给投影矩阵传值
setUniformLocationWithMatrix4fv(m_uUniforms[kCCUniformPMatrix],matrixP.mat,1);
setUniformLocationWithMatrix4fv(m_uUniforms[kCCUniformMVMatrix],matrixMV.mat,1);
setUniformLocationWithMatrix4fv(m_uUniforms[kCCUniformMVPMatrix],matrixMVP.mat,1);
// 如果使用time,给time uniform传值
if(m_bUsesTime)
{
CCDirector *director = CCDirector::sharedDirector();
// This doesn't give the most accurate global time value. // Cocos2D doesn't store a high precision time value,so this will have to do.
// Getting Mach time per frame per shader using time could be extremely expensive.
float time = director->getTotalFrames() * director->getAnimationInterval();
setUniformLocationWith4f(m_uUniforms[kCCUniformTime],time/10.0,time,time*2,time*4);
setUniformLocationWith4f(m_uUniforms[kCCUniformSinTime],time/8.0,time/4.0,time/2.0,sinf(time));
setUniformLocationWith4f(m_uUniforms[kCCUniformCosTime],cosf(time));
}
// 随机数
if (m_uUniforms[kCCUniformRandom01] != -1)
{
setUniformLocationWith4f(m_uUniforms[kCCUniformRandom01],CCRANDOM_0_1(),CCRANDOM_0_1());
}
}
2. 更新uniform的位置。在创建完program,并且在使用其进行绘制之前,调用此函数来绑定shader中预定义的8个uniform常量 void CCGLProgram::updateUniforms()
{
m_uUniforms[kCCUniformPMatrix] = glGetUniformLocation(m_uProgram,kCCUniformPMatrix_s);
m_uUniforms[kCCUniformMVMatrix] = glGetUniformLocation(m_uProgram,kCCUniformMVMatrix_s);
m_uUniforms[kCCUniformMVPMatrix] = glGetUniformLocation(m_uProgram,kCCUniformMVPMatrix_s);
m_uUniforms[kCCUniformTime] = glGetUniformLocation(m_uProgram,kCCUniformTime_s);
m_uUniforms[kCCUniformSinTime] = glGetUniformLocation(m_uProgram,kCCUniformSinTime_s);
m_uUniforms[kCCUniformCosTime] = glGetUniformLocation(m_uProgram,kCCUniformCosTime_s);
m_bUsesTime = (
m_uUniforms[kCCUniformTime] != -1 ||
m_uUniforms[kCCUniformSinTime] != -1 ||
m_uUniforms[kCCUniformCosTime] != -1
);
m_uUniforms[kCCUniformRandom01] = glGetUniformLocation(m_uProgram,kCCUniformRandom01_s);
m_uUniforms[kCCUniformSampler] = glGetUniformLocation(m_uProgram,kCCUniformSampler_s);
this->use();
// Since sample most probably won't change,set it to 0 now.
this->setUniformLocationWith1i(m_uUniforms[kCCUniformSampler],0);
}
3. 绑定属性变量 void CCGLProgram::addAttribute(const char* attributeName,GLuint index)
{
glBindAttribLocation(m_uProgram,index,attributeName);
}
4. 上传uniform值 这类函数都是以 setUniformLocationWith开头,先检查uniform缓存,再决定是否需要上传新的uniform值。 void CCGLProgram::setUniformLocationWith1f(GLint location,GLfloat f1)
{
bool updated = updateUniformLocation(location,&f1,sizeof(f1)*1);
if( updated )
{
glUniform1f( (GLint)location,f1);
}
}
void CCGLProgram::setUniformLocationWith2f(GLint location,GLfloat f1,GLfloat f2)
{
GLfloat floats[2] = {f1,f2};
bool updated = updateUniformLocation(location,floats,sizeof(floats));
if( updated )
{
glUniform2f( (GLint)location,f1,f2);
}
}
void CCGLProgram::setUniformLocationWith3f(GLint location,GLfloat f2,GLfloat f3)
{
GLfloat floats[3] = {f1,f2,f3};
bool updated = updateUniformLocation(location,sizeof(floats));
if( updated )
{
glUniform3f( (GLint)location,f3);
}
}
// ...... 还有很多这种函数,不再列举。
CCGLProgram使用实例在cocos引擎自身中,有一个类对CCGLProgram用的最多,它就是:CCShaderCache 从名字就能知道,这个类专门就是用来缓存shader的,这个shader就是CCGLProgram类型的对象实例。 在第一次获取CCShaderCache这个单例类的示例的时候,会调用下面这个方法:loadDefaultShader(),它会往字典里存放一些预定以的shader program。 void CCShaderCache::loadDefaultShaders()
{
// Position Texture Color shader
CCGLProgram *p = new CCGLProgram(); // 创建一个CCGLProgram对象
loadDefaultShader(p,kCCShaderType_PositionTextureColor); // 初始化program
m_pPrograms->setObject(p,kCCShader_PositionTextureColor); // 放入字典
p->release(); // 仅在字典里维持一个引用计数
// 下面省略了其他的默认shader program的创建过程
// Position Texture Color alpha test
//
// Position,Color shader
//
//
// Position Texture shader
//
//
// Position,Texture attribs,1 Color as uniform shader
//
//
// Position Texture A8 Color shader
//
//
// Position and 1 color passed as a uniform (to simulate glColor4ub )
//
//
// Position,Legth(TexCoords,Color (used by Draw Node basically )
//
//
// ControlSwitch
//
}
// 下面是初始化CCGLProgram的过程
void CCShaderCache::loadDefaultShader(CCGLProgram *p,int type)
{
switch (type) {
case kCCShaderType_PositionTextureColor:
// 使用自带的shader源代码来初始化program.
p->initWithVertexShaderByteArray(ccPositionTextureColor_vert,ccPositionTextureColor_frag);
// 绑定三个顶点属性,三个顶点属性分别对应顶点着色器中的三个attribute
/* attribute vec4 a_position; attribute vec2 a_texCoord; attribute vec4 a_color; #ifdef GL_ES varying lowp vec4 v_fragmentColor; varying mediump vec2 v_texCoord; #else varying vec4 v_fragmentColor; varying vec2 v_texCoord; #endif void main() { gl_Position = CC_MVPMatrix * a_position; v_fragmentColor = a_color; v_texCoord = a_texCoord; } */
p->addAttribute(kCCAttributeNamePosition,kCCVertexAttrib_Position);
p->addAttribute(kCCAttributeNameColor,kCCVertexAttrib_Color);
p->addAttribute(kCCAttributeNameTexCoord,kCCVertexAttrib_TexCoords);
break;
// 省略了其他默认shader的初始化过程
case kCCShaderType_PositionTextureColorAlphaTest:
case kCCShaderType_PositionColor:
case kCCShaderType_PositionTexture:
case kCCShaderType_PositionTexture_uColor:
case kCCShaderType_PositionTextureA8Color:
case kCCShaderType_Position_uColor:
case kCCShaderType_PositionLengthTexureColor:
case kCCShaderType_ControlSwitch:
default:
CCLOG("cocos2d: %s:%d,error shader type",__FUNCTION__,__LINE__);
return;
}
// 链接program
p->link();
// 绑定shader中预定义的8个uniform
p->updateUniforms();
CHECK_GL_ERROR_DEBUG();
}
经过:initWithVertexShaderByteArray,link,updateUniforms这三个步骤,CCGLProgram就已经进入就绪状态,可以被用来进行绘制了。 下面来看CCGLProgram在绘制时候的使用,以CCSprite的绘制为例,因为它使用了刚才CCShaderCache中的第一个default shader: kCCShader_PositionTextureColor. void CCSprite::draw(void) { // 省略掉了无关代码...... // 涉及到CCGLProgram的使用的就这一句,这个宏的定义在下面 CC_NODE_DRAW_SETUP();
glDrawArrays(GL_TRIANGLE_STRIP,0,4);
// 省略掉了无关代码......
CC_INCREMENT_GL_DRAWS(1);
}
// defined in ccMacros.h
#define CC_NODE_DRAW_SETUP()
do {
ccGLEnable(m_eGLServerState);
CCAssert(getShaderProgram(),"No shader program set for this node");
{
getShaderProgram()->use();
getShaderProgram()->setUniformsForBuiltins();
}
} while(0)
可以看到,在绘制的时候,调用了CCGLProgram的use()和setUniformsForBuiltins()这两个方法。 因此,对CCGLProgram的使用过程可以总结如下: 创建阶段 1. new CCGLProgram() 绘制使用阶段 7. setShaderProgram(program) 设置为活动的program 开始绘制 8. use() 使用program 作者水平有限,对相关知识的理解和总结难免有错误,还望给予指正,非常感谢! 在这里也能看到这篇文章:github博客,CSDN博客,欢迎访问 (编辑:李大同) 【声明】本站内容均来自网络,其相关言论仅代表作者个人观点,不代表本站立场。若无意侵犯到您的权利,请及时与联系站长删除相关内容! |