void CARenderImage::begin()
{
kmGLMatrixMode(KM_GL_PROJECTION);
kmGLPushMatrix();
kmGLMatrixMode(KM_GL_MODELVIEW);
kmGLPushMatrix();
// Calculate the adjustment ratios based on the old and new projections
DSize size = CAApplication::getApplication()->getWinSize();
float widthRatio = size.width / m_uPixelsWide;
float heightRatio = size.height / m_uPixelsHigh;
// Adjust the orthographic projection and viewport
glViewport(0, 0, (GLsizei)m_uPixelsWide, (GLsizei)m_uPixelsHigh);
kmMat4 orthoMatrix;
kmMat4OrthographicProjection(&orthoMatrix,
(float)-1.0 / widthRatio,
(float)1.0 / widthRatio,
(float)-1.0 / heightRatio,
(float)1.0 / heightRatio,
-1,
1);
kmGLMultMatrix(&orthoMatrix);
glGetIntegerv(GL_FRAMEBUFFER_BINDING, &m_nOldFBO);
glBindFramebuffer(GL_FRAMEBUFFER, m_uFBO);
}
void CCRenderTexture::begin()
{
// Save the current matrix
kmGLPushMatrix();
const CCSize& texSize = m_pTexture->getContentSizeInPixels();
// Calculate the adjustment ratios based on the old and new projections
CCDirector *director = CCDirector::sharedDirector();
CCSize size = director->getWinSizeInPixels();
float widthRatio = size.width / texSize.width;
float heightRatio = size.height / texSize.height;
// Adjust the orthographic projection and viewport
glViewport(0, 0, (GLsizei)texSize.width, (GLsizei)texSize.height);
kmMat4 orthoMatrix;
kmMat4OrthographicProjection(&orthoMatrix, (float)-1.0 / widthRatio, (float)1.0 / widthRatio,
(float)-1.0 / heightRatio, (float)1.0 / heightRatio, -1,1 );
kmGLMultMatrix(&orthoMatrix);
glGetIntegerv(GL_FRAMEBUFFER_BINDING, &m_nOldFBO);
glBindFramebuffer(GL_FRAMEBUFFER, m_uFBO);
}
void mrgss_renderer_resize_window(mrgss_screen* window) {
kmMat4 ortho2D;
mrgss_renderer* renderer = window->renderer;
kmMat4OrthographicProjection(&ortho2D, 0.0f, window->width, window->height, 0.0f, 0.0f, 1.0f);
glUseProgram(renderer->shader);
glUniformMatrix4fv(glGetUniformLocation(renderer->shader, "orthoView"), 1, GL_FALSE, ortho2D.mat);
}
void RenderTexture::onBegin()
{
//
Director *director = Director::getInstance();
Size size = director->getWinSizeInPixels();
kmGLGetMatrix(KM_GL_PROJECTION, &_oldProjMatrix);
kmGLMatrixMode(KM_GL_PROJECTION);
kmGLLoadMatrix(&_projectionMatrix);
kmGLGetMatrix(KM_GL_MODELVIEW, &_oldTransMatrix);
kmGLMatrixMode(KM_GL_MODELVIEW);
kmGLLoadMatrix(&_transformMatrix);
const Size& texSize = _texture->getContentSizeInPixels();
if(!_keepMatrix)
{
director->setProjection(director->getProjection());
// Calculate the adjustment ratios based on the old and new projections
float widthRatio = size.width / texSize.width;
float heightRatio = size.height / texSize.height;
kmMat4 orthoMatrix;
kmMat4OrthographicProjection(&orthoMatrix, (float)-1.0 / widthRatio, (float)1.0 / widthRatio,
(float)-1.0 / heightRatio, (float)1.0 / heightRatio, -1,1 );
kmGLMultMatrix(&orthoMatrix);
}
//calculate viewport
{
Rect viewport;
viewport.size.width = _fullviewPort.size.width;
viewport.size.height = _fullviewPort.size.height;
float viewPortRectWidthRatio = float(viewport.size.width)/_fullRect.size.width;
float viewPortRectHeightRatio = float(viewport.size.height)/_fullRect.size.height;
viewport.origin.x = (_fullRect.origin.x - _rtTextureRect.origin.x) * viewPortRectWidthRatio;
viewport.origin.y = (_fullRect.origin.y - _rtTextureRect.origin.y) * viewPortRectHeightRatio;
//glViewport(_fullviewPort.origin.x, _fullviewPort.origin.y, (GLsizei)_fullviewPort.size.width, (GLsizei)_fullviewPort.size.height);
glViewport(viewport.origin.x, viewport.origin.y, (GLsizei)texSize.width, (GLsizei)texSize.height);
}
// Adjust the orthographic projection and viewport
glGetIntegerv(GL_FRAMEBUFFER_BINDING, &_oldFBO);
glBindFramebuffer(GL_FRAMEBUFFER, _FBO);
//TODO move this to configration, so we don't check it every time
/* Certain Qualcomm Andreno gpu's will retain data in memory after a frame buffer switch which corrupts the render to the texture. The solution is to clear the frame buffer before rendering to the texture. However, calling glClear has the unintended result of clearing the current texture. Create a temporary texture to overcome this. At the end of RenderTexture::begin(), switch the attached texture to the second one, call glClear, and then switch back to the original texture. This solution is unnecessary for other devices as they don't have the same issue with switching frame buffers.
*/
if (Configuration::getInstance()->checkForGLExtension("GL_QCOM"))
{
// -- bind a temporary texture so we can clear the render buffer without losing our texture
glFramebufferTexture2D(GL_FRAMEBUFFER, GL_COLOR_ATTACHMENT0, GL_TEXTURE_2D, _textureCopy->getName(), 0);
CHECK_GL_ERROR_DEBUG();
glClear(GL_COLOR_BUFFER_BIT | GL_DEPTH_BUFFER_BIT);
glFramebufferTexture2D(GL_FRAMEBUFFER, GL_COLOR_ATTACHMENT0, GL_TEXTURE_2D, _texture->getName(), 0);
}
}
/* \brief set 2D projection matrix, and identity view matrx
* 2D projection matrix sets screen coordinates where (0,0) == TOP LEFT (W,H) == BOTTOM RIGHT
*
* TEXT WORLD/3D
* -y y
* -x | x -x | x
* y -y
*
*/
GLHCKAPI void glhckRenderProjection2D(int width, int height, kmScalar near, kmScalar far)
{
kmMat4 ortho;
GLHCK_INITIALIZED();
CALL(2, "%d, %d, %f, %f", width, height, near, far);
assert(width > 0 && height > 0);
kmMat4OrthographicProjection(&ortho, 0, (kmScalar)width, (kmScalar)height, 0, near, far);
glhckRenderProjectionOnly(&ortho);
glhckRenderFlip(1);
}
void EGLView::setProjection(ccDirectorProjection kProjection)
{
CCSize size = m_obDesignResolutionSize;
setViewPortInPoints(0, 0, m_obDesignResolutionSize.width, m_obDesignResolutionSize.height);
switch (kProjection)
{
case kCCDirectorProjection2D:
{
kmGLMatrixMode(KM_GL_PROJECTION);
kmGLLoadIdentity();
kmMat4 orthoMatrix;
kmMat4OrthographicProjection(&orthoMatrix, 0, size.width, size.height, 0, -1024, 1024 );
kmGLMultMatrix(&orthoMatrix);
kmGLMatrixMode(KM_GL_MODELVIEW);
kmGLLoadIdentity();
}
break;
case kCCDirectorProjection3D:
{
float zeye = m_obDesignResolutionSize.height / 1.1566f;
kmMat4 matrixPerspective, matrixLookup;
kmGLMatrixMode(KM_GL_PROJECTION);
kmGLLoadIdentity();
// issue #1334
kmMat4PerspectiveProjection( &matrixPerspective, 60, (GLfloat)size.width/size.height, 0.1f, zeye*2);
// kmMat4PerspectiveProjection( &matrixPerspective, 60, (GLfloat)size.width/size.height, 0.1f, 1500);
kmGLMultMatrix(&matrixPerspective);
kmGLMatrixMode(KM_GL_MODELVIEW);
kmGLLoadIdentity();
kmVec3 eye, center, up;
kmVec3Fill( &eye, size.width/2, size.height/2, zeye );
kmVec3Fill( ¢er, size.width/2, size.height/2, 0.0f );
kmVec3Fill( &up, 0.0f, 1.0f, 0.0f);
kmMat4LookAt(&matrixLookup, &eye, ¢er, &up);
kmGLMultMatrix(&matrixLookup);
}
break;
default:
CCLOG("cocos2d: Director: unrecognized projection");
break;
}
m_eProjection = kProjection;
ccSetProjectionMatrixDirty();
}
void CCRenderTexture::begin()
{
kmGLMatrixMode(KM_GL_PROJECTION);
kmGLPushMatrix();
kmGLMatrixMode(KM_GL_MODELVIEW);
kmGLPushMatrix();
CCDirector *director = CCDirector::sharedDirector();
director->setProjection(director->getProjection());
#if CC_TARGET_PLATFORM == CC_PLATFORM_WP8
kmMat4 modifiedProjection;
kmGLGetMatrix(KM_GL_PROJECTION, &modifiedProjection);
kmMat4Multiply(&modifiedProjection, CCEGLView::sharedOpenGLView()->getReverseOrientationMatrix(), &modifiedProjection);
kmGLMatrixMode(KM_GL_PROJECTION);
kmGLLoadMatrix(&modifiedProjection);
kmGLMatrixMode(KM_GL_MODELVIEW);
#endif
const CCSize& texSize = m_pTexture->getContentSizeInPixels();
// Calculate the adjustment ratios based on the old and new projections
CCSize size = director->getWinSizeInPixels();
float widthRatio = size.width / texSize.width;
float heightRatio = size.height / texSize.height;
// Adjust the orthographic projection and viewport
glViewport(0, 0, (GLsizei)texSize.width, (GLsizei)texSize.height);
kmMat4 orthoMatrix;
kmMat4OrthographicProjection(&orthoMatrix, (float)-1.0 / widthRatio, (float)1.0 / widthRatio,
(float)-1.0 / heightRatio, (float)1.0 / heightRatio, -1,1 );
kmGLMultMatrix(&orthoMatrix);
glGetIntegerv(GL_FRAMEBUFFER_BINDING, &m_nOldFBO);
glBindFramebuffer(GL_FRAMEBUFFER, m_uFBO);
/* Certain Qualcomm Andreno gpu's will retain data in memory after a frame buffer switch which corrupts the render to the texture. The solution is to clear the frame buffer before rendering to the texture. However, calling glClear has the unintended result of clearing the current texture. Create a temporary texture to overcome this. At the end of CCRenderTexture::begin(), switch the attached texture to the second one, call glClear, and then switch back to the original texture. This solution is unnecessary for other devices as they don't have the same issue with switching frame buffers.
*/
if (CCConfiguration::sharedConfiguration()->checkForGLExtension("GL_QCOM"))
{
// -- bind a temporary texture so we can clear the render buffer without losing our texture
glFramebufferTexture2D(GL_FRAMEBUFFER, GL_COLOR_ATTACHMENT0, GL_TEXTURE_2D, m_pTextureCopy->getName(), 0);
CHECK_GL_ERROR_DEBUG();
glClear(GL_COLOR_BUFFER_BIT | GL_DEPTH_BUFFER_BIT);
glFramebufferTexture2D(GL_FRAMEBUFFER, GL_COLOR_ATTACHMENT0, GL_TEXTURE_2D, m_pTexture->getName(), 0);
}
}
/* \brief set renderer's viewport */
GLHCKAPI void glhckRenderViewport(const glhckRect *viewport)
{
kmMat4 ortho;
GLHCK_INITIALIZED();
CALL(1, RECTS, RECT(viewport));
assert(viewport->x >= 0 && viewport->y >= 0 && viewport->w > 0 && viewport->h > 0);
if (!_glhckRenderInitialized()) return;
/* set viewport on render */
GLHCKRA()->viewport(viewport->x, viewport->y, viewport->w, viewport->h);
memcpy(&GLHCKRP()->viewport, viewport, sizeof(glhckRect));
/* update orthographic matrix */
kmMat4OrthographicProjection(&ortho, viewport->x, viewport->w, viewport->h, viewport->y, -1.0f, 1.0f);
GLHCKRA()->setOrthographic(&ortho);
memcpy(&GLHCKRD()->view.orthographic, &ortho, sizeof(kmMat4));
}
void GridBase::set2DProjection()
{
Director *director = Director::getInstance();
Size size = director->getWinSizeInPixels();
glViewport(0, 0, (GLsizei)(size.width), (GLsizei)(size.height) );
kmGLMatrixMode(KM_GL_PROJECTION);
kmGLLoadIdentity();
kmMat4 orthoMatrix;
kmMat4OrthographicProjection(&orthoMatrix, 0, size.width, 0, size.height, -1, 1);
kmGLMultMatrix( &orthoMatrix );
kmGLMatrixMode(KM_GL_MODELVIEW);
kmGLLoadIdentity();
GL::setProjectionMatrixDirty();
}
void CCGridBase::set2DProjection()
{
CCDirector *director = CCDirector::sharedDirector();
CCSize size = director->getWinSizeInPixels();
glViewport(0, 0, (GLsizei)(size.width * CC_CONTENT_SCALE_FACTOR()), (GLsizei)(size.height * CC_CONTENT_SCALE_FACTOR()) );
kmGLMatrixMode(KM_GL_PROJECTION);
kmGLLoadIdentity();
kmMat4 orthoMatrix;
kmMat4OrthographicProjection(&orthoMatrix, 0, size.width * CC_CONTENT_SCALE_FACTOR(), 0, size.height * CC_CONTENT_SCALE_FACTOR(), -1, 1);
kmGLMultMatrix( &orthoMatrix );
kmGLMatrixMode(KM_GL_MODELVIEW);
kmGLLoadIdentity();
ccSetProjectionMatrixDirty();
}
void RenderTexture::begin()
{
kmGLMatrixMode(KM_GL_PROJECTION);
kmGLPushMatrix();
kmGLGetMatrix(KM_GL_PROJECTION, &_projectionMatrix);
kmGLMatrixMode(KM_GL_MODELVIEW);
kmGLPushMatrix();
kmGLGetMatrix(KM_GL_MODELVIEW, &_transformMatrix);
if(!_keepMatrix)
{
Director *director = Director::getInstance();
director->setProjection(director->getProjection());
const Size& texSize = _texture->getContentSizeInPixels();
// Calculate the adjustment ratios based on the old and new projections
Size size = director->getWinSizeInPixels();
float widthRatio = size.width / texSize.width;
float heightRatio = size.height / texSize.height;
kmMat4 orthoMatrix;
kmMat4OrthographicProjection(&orthoMatrix, (float)-1.0 / widthRatio, (float)1.0 / widthRatio,
(float)-1.0 / heightRatio, (float)1.0 / heightRatio, -1,1 );
kmGLMultMatrix(&orthoMatrix);
}
_groupCommand.init(_globalZOrder);
Renderer *renderer = Director::getInstance()->getRenderer();
renderer->addCommand(&_groupCommand);
renderer->pushGroup(_groupCommand.getRenderQueueID());
_beginCommand.init(_globalZOrder);
_beginCommand.func = CC_CALLBACK_0(RenderTexture::onBegin, this);
Director::getInstance()->getRenderer()->addCommand(&_beginCommand);
}
//------------------------------------------------------------------------------
bool AppDelegate::applicationDidFinishLaunching()
{
// initialize director
CCDirector *pDirector = CCDirector::sharedDirector();
pDirector->setOpenGLView(CCEGLView::sharedOpenGLView());
#ifdef _WIN32
pDirector->setProjection(kCCDirectorProjection2D);
// Set EGLView frame size to *device* w,h
float w = WINDOW_ACTUAL_W;
float h = WINDOW_ACTUAL_H;
CCEGLView::sharedOpenGLView()->setFrameSize(w, h);
kmGLMatrixMode(KM_GL_PROJECTION);
kmGLLoadIdentity();
// New code: rotate to achieve landscape orientation
int angle = 0;
kmGLRotatef((float)angle, 0, 0, 1);
kmMat4 orthoMatrix;
kmMat4OrthographicProjection(&orthoMatrix, 0, w, 0, h, -1024, 1024 );
kmGLMultMatrix(&orthoMatrix);
kmGLMatrixMode(KM_GL_MODELVIEW);
kmGLLoadIdentity();
#endif
// set FPS. the default value is 1.0/60 if you don't call this
pDirector->setAnimationInterval(1.0 / 60);
// OpenQuick stuff
InitLuaSystem();
InitLuaMiddleware();
InitLuaApp();
return true;
}
/* \brief calculate projection matrix */
static void _glhckCameraProjectionMatrix(glhckCamera *object)
{
kmScalar w, h, distanceFromTarget;
kmVec3 toTarget;
CALL(2, "%p", object);
assert(object);
assert(object->view.viewport.w > 0.0f && object->view.viewport.h > 0.0f);
switch(object->view.projectionType) {
case GLHCK_PROJECTION_ORTHOGRAPHIC:
w = object->view.viewport.w > object->view.viewport.h ? 1 :
object->view.viewport.w / object->view.viewport.h;
h = object->view.viewport.w < object->view.viewport.h ? 1 :
object->view.viewport.h / object->view.viewport.w;
kmVec3Subtract(&toTarget, &object->object->view.translation, &object->object->view.target);
distanceFromTarget = kmVec3Length(&toTarget);
w *= (distanceFromTarget+object->view.near)/2;
h *= (distanceFromTarget+object->view.near)/2;
kmMat4OrthographicProjection(&object->view.projection,
-w, w, -h, h, object->view.near, object->view.far);
break;
case GLHCK_PROJECTION_PERSPECTIVE:
default:
kmMat4PerspectiveProjection(
&object->view.projection,
object->view.fov,
(float)object->view.viewport.w/(float)object->view.viewport.h,
object->view.near, object->view.far);
break;
}
}
void Camera::set_orthographic_projection(double left, double right, double bottom, double top, double near, double far) {
kmMat4OrthographicProjection(&projection_matrix_, left, right, bottom, top, near, far);
update_frustum();
}
void initSprite(int w, int h)
{
const GLfloat quadVertices[] = {
-.5, -.5, 0,
.5, .5, 0,
.5, -.5, 0,
.5, .5, 0,
-.5, -.5, 0,
-.5, .5, 0
};
const GLfloat texCoord[] = {
0, 0,
1., 1,
1., 0,
1., 1.,
0, 0,
0, 1.
};
kmMat4OrthographicProjection(&__spr.opm, 0, w, h, 0, -10, 10); // support layers ?
GLuint vs, fs;
vs = create_shader("resources/shaders/sprite.vert", GL_VERTEX_SHADER);
fs = create_shader("resources/shaders/sprite.frag", GL_FRAGMENT_SHADER);
__spr.spriteProg = glCreateProgram();
glAttachShader(__spr.spriteProg, vs);
glAttachShader(__spr.spriteProg, fs);
glLinkProgram(__spr.spriteProg);
int link_ok;
glGetProgramiv(__spr.spriteProg, GL_LINK_STATUS, &link_ok);
if (!link_ok) {
printf("glLinkProgram:");
print_log(__spr.spriteProg);
printf("\n");
}
__spr.u_size = getShaderLocation(shaderUniform, __spr.spriteProg, "u_size");
__spr.opm_uniform =
getShaderLocation(shaderUniform, __spr.spriteProg, "opm_uniform");
__spr.texture_uniform =
getShaderLocation(shaderUniform, __spr.spriteProg, "texture_uniform");
__spr.vert_attrib = getShaderLocation(shaderAttrib, __spr.spriteProg, "vert_attrib");
__spr.uv_attrib = getShaderLocation(shaderAttrib, __spr.spriteProg, "uv_attrib");
glGenBuffers(1, &__spr.quadvbo);
glBindBuffer(GL_ARRAY_BUFFER, __spr.quadvbo);
glBufferData(GL_ARRAY_BUFFER, sizeof(float) * 3 * 6, quadVertices,
GL_STATIC_DRAW);
glGenBuffers(1, &__spr.texvbo);
glBindBuffer(GL_ARRAY_BUFFER, __spr.texvbo);
glBufferData(GL_ARRAY_BUFFER, sizeof(float) * 2 * 6, texCoord,
GL_STATIC_DRAW);
}
void initGlPrint(int w, int h)
{
const GLfloat quadVertices[] = {
0, 0, 0,
16, 16, 0,
16, 0, 0,
16, 16, 0,
0, 0, 0,
0, 16, 0
};
const GLfloat texCoord[] = {
0, 0,
1. / 16, 1. / 16,
1. / 16, 0,
1. / 16, 1. / 16,
0, 0,
0, 1. / 16
};
kmMat4OrthographicProjection(&__glp.opm, 0, w, h, 0, -10, 10);
GLuint vs, fs;
vs = create_shader("resources/shaders/glprint.vert", GL_VERTEX_SHADER);
fs = create_shader("resources/shaders/glprint.frag", GL_FRAGMENT_SHADER);
__glp.printProg = glCreateProgram();
glAttachShader(__glp.printProg, vs);
glAttachShader(__glp.printProg, fs);
glLinkProgram(__glp.printProg);
int link_ok;
glGetProgramiv(__glp.printProg, GL_LINK_STATUS, &link_ok);
if (!link_ok) {
printf("glLinkProgram:");
print_log(__glp.printProg);
printf("\n");
}
__glp.cx_uniform = getShaderLocation(shaderUniform, __glp.printProg, "cx");
__glp.cy_uniform = getShaderLocation(shaderUniform, __glp.printProg, "cy");
__glp.opm_uniform =
getShaderLocation(shaderUniform, __glp.printProg, "opm_uniform");
__glp.texture_uniform =
getShaderLocation(shaderUniform, __glp.printProg, "texture_uniform");
__glp.vert_attrib = getShaderLocation(shaderAttrib, __glp.printProg, "vert_attrib");
__glp.uv_attrib = getShaderLocation(shaderAttrib, __glp.printProg, "uv_attrib");
__glp.fonttex = loadPNG("resources/textures/font.png");
glGenBuffers(1, &__glp.quadvbo);
glBindBuffer(GL_ARRAY_BUFFER, __glp.quadvbo);
glBufferData(GL_ARRAY_BUFFER, sizeof(float) * 3 * 6, quadVertices,
GL_STATIC_DRAW);
glGenBuffers(1, &__glp.texvbo);
glBindBuffer(GL_ARRAY_BUFFER, __glp.texvbo);
glBufferData(GL_ARRAY_BUFFER, sizeof(float) * 2 * 6, texCoord,
GL_STATIC_DRAW);
}
