void ApplicationCompositor::bindCursorTexture(gpu::Batch& batch, uint8_t cursorIndex) {
auto& cursorManager = Cursor::Manager::instance();
auto cursor = cursorManager.getCursor(cursorIndex);
auto iconId = cursor->getIcon();
if (!_cursors.count(iconId)) {
auto iconPath = cursorManager.getIconImage(cursor->getIcon());
_cursors[iconId] = DependencyManager::get<TextureCache>()->
getImageTexture(iconPath);
}
batch.setUniformTexture(0, _cursors[iconId]);
}
void Skybox::render(gpu::Batch& batch, const ViewFrustum& viewFrustum, const Skybox& skybox) {
if (skybox.getCubemap() && skybox.getCubemap()->isDefined()) {
static gpu::PipelinePointer thePipeline;
static gpu::BufferPointer theBuffer;
static gpu::Stream::FormatPointer theFormat;
static gpu::BufferPointer theConstants;
int SKYBOX_CONSTANTS_SLOT = 0; // need to be defined by the compilation of the shader
if (!thePipeline) {
auto skyVS = gpu::ShaderPointer(gpu::Shader::createVertex(std::string(Skybox_vert)));
auto skyFS = gpu::ShaderPointer(gpu::Shader::createPixel(std::string(Skybox_frag)));
auto skyShader = gpu::ShaderPointer(gpu::Shader::createProgram(skyVS, skyFS));
gpu::Shader::BindingSet bindings;
bindings.insert(gpu::Shader::Binding(std::string("cubeMap"), 0));
if (!gpu::Shader::makeProgram(*skyShader, bindings)) {
}
SKYBOX_CONSTANTS_SLOT = skyShader->getBuffers().findLocation("skyboxBuffer");
if (SKYBOX_CONSTANTS_SLOT == gpu::Shader::INVALID_LOCATION) {
SKYBOX_CONSTANTS_SLOT = skyShader->getUniforms().findLocation("skyboxBuffer");
}
auto skyState = gpu::StatePointer(new gpu::State());
thePipeline = gpu::PipelinePointer(gpu::Pipeline::create(skyShader, skyState));
const float CLIP = 1.0;
const glm::vec2 vertices[4] = { {-CLIP, -CLIP}, {CLIP, -CLIP}, {-CLIP, CLIP}, {CLIP, CLIP}};
theBuffer.reset(new gpu::Buffer(sizeof(vertices), (const gpu::Byte*) vertices));
theFormat.reset(new gpu::Stream::Format());
theFormat->setAttribute(gpu::Stream::POSITION, gpu::Stream::POSITION, gpu::Element(gpu::VEC2, gpu::FLOAT, gpu::XYZ));
auto color = glm::vec4(1.0f);
theConstants.reset(new gpu::Buffer(sizeof(color), (const gpu::Byte*) &color));
}
glm::mat4 projMat;
viewFrustum.evalProjectionMatrix(projMat);
Transform viewTransform;
viewFrustum.evalViewTransform(viewTransform);
if (glm::all(glm::equal(skybox.getColor(), glm::vec3(0.0f)))) {
auto color = glm::vec4(1.0f);
theConstants->setSubData(0, sizeof(color), (const gpu::Byte*) &color);
} else {
theConstants->setSubData(0, sizeof(Color), (const gpu::Byte*) &skybox.getColor());
}
batch.setProjectionTransform(projMat);
batch.setViewTransform(viewTransform);
batch.setModelTransform(Transform()); // only for Mac
batch.setPipeline(thePipeline);
batch.setInputBuffer(gpu::Stream::POSITION, theBuffer, 0, 8);
batch.setUniformBuffer(SKYBOX_CONSTANTS_SLOT, theConstants, 0, theConstants->getSize());
batch.setInputFormat(theFormat);
batch.setUniformTexture(0, skybox.getCubemap());
batch.draw(gpu::TRIANGLE_STRIP, 4);
} else {
// skybox has no cubemap, just clear the color buffer
auto color = skybox.getColor();
batch.clearFramebuffer(gpu::Framebuffer::BUFFER_COLOR0, glm::vec4(skybox.getColor(),1.0f), 0.f, 0);
}
}
