void NormalGetterApp::normalize(gl::TextureRef _tex){
{
gl::ScopedMatrices push;
gl::ScopedFramebuffer fbo(mOutputFbo);
gl::clear();
ci::gl::setMatricesWindow( mOutputFbo->getSize() );
ci::gl::ScopedViewport view( ci::vec2(0), mOutputFbo->getSize() );
gl::ScopedGlslProg mGlsl(mNormalGlsl);
gl::ScopedTextureBind tex0(_tex);
mNormalGlsl->uniform("uSampler", 0);
mNormalGlsl->uniform("u_textureSize", vec2(_tex->getWidth(), _tex->getHeight()));
mNormalGlsl->uniform("bias", bias);
mNormalGlsl->uniform("invertR", float(invertR ? -1.0 : 1.0) );
mNormalGlsl->uniform("invertG", float(invertG ? -1.0 : 1.0));
gl::drawSolidRect(Rectf(vec2(0), _tex->getSize()));
}
if( pushFramesToBuffer){
mPreprocessedImages->pushFront(std::make_pair(mOutputFbo->getColorTexture()->createSource(), currentFrame));
if(currentFrame == mMovie->getNumFrames()){
pushFramesToBuffer = false;
mMovie->setLoop(true);
mMovie->seekToStart();
}
currentFrame++;
}
}
void srvlib::renderer::DrawTexture(ci::gl::Texture2dRef image, const glm::ivec2 &eye_size, const glm::ivec2 &draw_size, ci::gl::GlslProgRef shader){
ci::gl::disableDepthRead();
ci::gl::disableDepthWrite();
ci::gl::pushMatrices();
auto vp = ci::gl::getViewport();
ci::CameraOrtho o;
o.setOrtho(0.0f, (float)eye_size[0], 0.0f, (float)eye_size[1], (float)0, (float)1);
ci::gl::setProjectionMatrix(o.getProjectionMatrix());
ci::gl::setModelMatrix(glm::mat4());
ci::gl::setViewMatrix(glm::mat4());
image->bind();
if (shader){
shader->bind();
shader->uniform("tex0", 0);
}
else{
auto default_shader = ci::gl::getStockShader(ci::gl::ShaderDef().color().lambert());
default_shader->bind();
}
ci::Rectf bounds(0, 0, draw_size[0], draw_size[1]);
ci::gl::viewport(draw_size);
ci::gl::drawSolidRect(bounds);// , glm::vec2(0, 0), glm::vec2(1, 1));
ci::gl::viewport(vp);
image->unbind();
ci::gl::popMatrices();
ci::gl::enableDepthRead();
ci::gl::enableDepthWrite();
}
void srvlib::renderer::DrawModel(std::shared_ptr<Model> model, std::shared_ptr<StereoCamera> camera, const bool is_left, const glm::mat4 &camera_pose, ci::gl::GlslProgRef shader){
ci::gl::enableDepthWrite();
ci::gl::enableDepthRead();
ci::gl::pushMatrices();
shader->bind();
if (is_left)
camera->setupLeftCamera(shader, camera_pose);
else
camera->setupRightCamera(shader, camera_pose);
model->Draw();
camera->unsetCameras();
ci::gl::popMatrices();
}
void srvlib::renderer::DrawModel(ci::gl::VboMeshRef model, const glm::mat4 &model_transform, std::shared_ptr<StereoCamera> camera, const bool is_left, const glm::mat4 &camera_pose, ci::gl::GlslProgRef shader){
ci::gl::enableDepthWrite();
ci::gl::enableDepthRead();
ci::gl::pushMatrices();
shader->bind();
if (is_left)
camera->setupLeftCamera(shader, camera_pose);
else
camera->setupRightCamera(shader, camera_pose);
ci::gl::multModelMatrix(model_transform);
ci::gl::draw(model);
camera->unsetCameras();
ci::gl::popMatrices();
}
void GlslParams::applyUniforms( const ci::gl::GlslProgRef &glslRef )
{
for( auto &it : mBoolParams ) {
glslRef->uniform( it.first, it.second );
}
for( auto &it : mIntParams ) {
glslRef->uniform( it.first, it.second );
}
for( auto &it : mFloatParams ) {
glslRef->uniform( it.first, it.second );
}
for( auto &it : mVec2Params ) {
glslRef->uniform( it.first, it.second );
}
for( auto &it : mVec3Params ) {
glslRef->uniform( it.first, it.second );
}
for( auto &it : mVec4Params ) {
glslRef->uniform( it.first, it.second );
}
for( auto &it : mColorParams ) {
glslRef->uniform( it.first, it.second );
}
}
void GpGpuApp::draw()
{
// We're going to draw new data onto the "ping" FBO,
// using the "pong" FBO's textures as input
size_t pong = ( mFboIndex + 1 ) % 2;
// Set up OpenGL for data
gl::disableDepthRead();
gl::disableDepthWrite();
gl::setViewport( mFbo[ mFboIndex ].getBounds() );
gl::color( ColorAf::white() );
// Draw any new input onto the acceleration texture
mFbo[ pong ].bindFramebuffer();
glDrawBuffer( GL_COLOR_ATTACHMENT2 );
if ( mMouseDown ) {
Vec2f fboSize = Vec2f( mFbo[ mFboIndex ].getSize() );
Vec2f winSize = Vec2f( app::getWindowSize() );
gl::setMatricesWindow( fboSize, true );
Vec2f brushSize = Vec2f::one() * mBrushSize * fboSize;
Vec2f pos = ( mMouse / winSize );
pos.y = 1.0f - pos.y;
pos *= fboSize;
mGlslProgGpGpu0->bind();
mGlslProgGpGpu0->uniform( "color", ColorAf( mMouseVelocity.x, 0.0f, 1.0f - mMouseVelocity.y, 1.0f ) );
mGlslProgGpGpu0->uniform( "tex", 0 );
gl::enable( GL_TEXTURE_2D );
mTextureBrush->bind();
gl::drawSolidRect( Rectf( pos - brushSize, pos + brushSize ) );
mTextureBrush->unbind();
gl::disable( GL_TEXTURE_2D );
mGlslProgGpGpu0->unbind();
}
mFbo[ pong ].unbindFramebuffer();
// Now let's do an update pass in GLSL
mFbo[ mFboIndex ].bindFramebuffer();
gl::setMatricesWindow( mFbo[ mFboIndex ].getSize(), false );
// Bind the "pong" textures to use as input data
for ( int32_t i = 0; i < 3; ++i ) {
mFbo[ pong ].bindTexture( i, i );
}
// Set up shader to read data textures
mGlslProgGpGpu1->bind();
mGlslProgGpGpu1->uniform( "offsets", 0 );
mGlslProgGpGpu1->uniform( "velocities", 1 );
mGlslProgGpGpu1->uniform( "acceleration", 2 );
// Draw a rect to process data
glDrawBuffers( 3, kColorAttachments );
gl::drawSolidRect( mFbo[ pong ].getBounds() );
// Unbind everything
mFbo[ pong ].unbindTexture();
mGlslProgGpGpu1->unbind();
mFbo[ mFboIndex ].unbindFramebuffer();
// Swap FBOs
mFboIndex = pong;
/////////////////////////////////
// Make sure we have data to work with before we draw geometry
if ( mFbo[ mFboIndex ] &&
mFbo[ mFboIndex ].getTexture( 0 ) &&
mFbo[ mFboIndex ].getTexture( 1 ) ) {
// Set up window for 3D drawing
gl::clear( Colorf( 0.5f, 0.45f, 0.4f ) );
gl::setViewport( getWindowBounds() );
gl::setMatrices( mCamera );
gl::enableDepthRead();
gl::enableDepthWrite();
gl::multModelView( mArcball.getQuat() );
gl::color( ColorAf::black() );
// Set up shader to render scene
mGlslProgDraw->bind();
mGlslProgDraw->uniform( "Ax", mLightAmbient );
mGlslProgDraw->uniform( "Ac", mLightAttenuationConstant );
mGlslProgDraw->uniform( "Al", mLightAttenuationLinear );
mGlslProgDraw->uniform( "Aq", mLightAttenuationQuadratic );
mGlslProgDraw->uniform( "Dx", mLightDiffuse );
mGlslProgDraw->uniform( "eyePoint", mEyePoint );
mGlslProgDraw->uniform( "Ka", mMaterialAmbient );
mGlslProgDraw->uniform( "Kd", mMaterialDiffuse );
mGlslProgDraw->uniform( "Ke", mMaterialEmissive );
mGlslProgDraw->uniform( "Ks", mMaterialSpecular );
mGlslProgDraw->uniform( "lightPos", mLightPosition );
mGlslProgDraw->uniform( "n", mLightShine );
mGlslProgDraw->uniform( "offsets", 0 );
mGlslProgDraw->uniform( "projection", mCamera.getProjectionMatrix() );
mGlslProgDraw->uniform( "size", Vec2f( mSize ) );
mGlslProgDraw->uniform( "Sx", mLightSpecular );
mGlslProgDraw->uniform( "t", (float)getElapsedSeconds() );
// Bind textures to use as input data
for ( int32_t i = 0; i <= 2; ++i ) {
mFbo[ mFboIndex ].bindTexture( i, i );
}
// Draw instanced
drawInstanced( mMesh, mSize.x * mSize.y );
// Finished drawing
mFbo[ mFboIndex ].unbindTexture();
mGlslProgDraw->unbind();
// Draw textures so we can see what's going on under the hood
gl::setMatricesWindow( getWindowSize() );
gl::disableDepthRead();
gl::disableDepthWrite();
gl::color( ColorAf::white() );
gl::pushMatrices();
float x = 20.0f;
float y = 440.0f;
float width = 64.0f;
Area srcArea( Vec2i::zero(), mSize );
Rectf destRect( x, y, x + width, y + width );
gl::draw( mFbo[ 0 ].getTexture( 0 ), srcArea, destRect );
destRect.x1 += width;
destRect.x2 += width;
gl::draw( mFbo[ 1 ].getTexture( 0 ), srcArea, destRect );
destRect.y1 += width;
destRect.y2 += width;
destRect.x1 = x;
destRect.x2 = x + width;
gl::draw( mFbo[ 0 ].getTexture( 1 ), srcArea, destRect );
destRect.x1 += width;
destRect.x2 += width;
gl::draw( mFbo[ 1 ].getTexture( 1 ), srcArea, destRect );
destRect.y1 += width;
destRect.y2 += width;
destRect.x1 = x;
destRect.x2 = x + width;
gl::draw( mFbo[ 0 ].getTexture( 2 ), srcArea, destRect );
destRect.x1 += width;
destRect.x2 += width;
gl::draw( mFbo[ 1 ].getTexture( 2 ), srcArea, destRect );
gl::popMatrices();
}
// Draw parameters
if ( getElapsedFrames() > 1 ) { // This condition prevents a memory leak
mParams->draw();
}
}
