virtual void OnUpdateUIOverlay(vks::UIOverlay *overlay)
{
if (overlay->header("Scene")) {
overlay->text("Quad type");
if (overlay->comboBox("##quadtype", &quadType, { "VK (y negative)", "GL (y positive)" })) {
buildCommandBuffers();
}
}
if (overlay->header("Viewport")) {
if (overlay->checkBox("Negative viewport height", &negativeViewport)) {
buildCommandBuffers();
}
if (overlay->sliderInt("offfset x", &offsetx, -(int32_t)width, (int32_t)width)) {
buildCommandBuffers();
}
if (overlay->sliderInt("offfset y", &offsety, -(int32_t)height, (int32_t)height)) {
buildCommandBuffers();
}
}
if (overlay->header("Pipeline")) {
overlay->text("Winding order");
if (overlay->comboBox("##windingorder", &windingOrder, { "clock wise", "counter clock wise" })) {
preparePipelines();
}
overlay->text("Cull mode");
if (overlay->comboBox("##cullmode", &cullMode, { "none", "front face", "back face" })) {
preparePipelines();
}
}
}
void initVulkan()
{
VulkanAndroidExampleBase::initVulkan();
loadTexture(
"textures/android_robot.ktx",
VK_FORMAT_R8G8B8A8_UNORM,
&texture,
false);
createCommandBuffers();
// Compute stuff
getComputeQueue();
createComputeCommandBuffer();
prepareStorageBuffers();
prepareUniformBuffers();
setupDescriptorSetLayout();
preparePipelines();
setupDescriptorPool();
setupDescriptorSet();
prepareCompute();
buildCommandBuffers();
buildComputeCommandBuffer();
state.zoom = -5.0f;
state.rotation = glm::vec3();
prepared = true;
}
virtual void OnUpdateUIOverlay(vks::UIOverlay *overlay)
{
if (overlay->header("Settings")) {
if (overlay->comboBox("Object type", &models.objectIndex, models.names)) {
updateUniformBuffers();
buildCommandBuffers();
}
if (overlay->sliderInt("Grid size", &gridSize, 1, 10)) {
buildCommandBuffers();
}
std::vector<std::string> cullModeNames = { "None", "Front", "Back", "Back and front" };
if (overlay->comboBox("Cull mode", &cullMode, cullModeNames)) {
preparePipelines();
buildCommandBuffers();
}
if (overlay->checkBox("Blending", &blending)) {
preparePipelines();
buildCommandBuffers();
}
if (deviceFeatures.fillModeNonSolid) {
if (overlay->checkBox("Wireframe", &wireframe)) {
preparePipelines();
buildCommandBuffers();
}
}
if (deviceFeatures.tessellationShader) {
if (overlay->checkBox("Tessellation", &tessellation)) {
preparePipelines();
buildCommandBuffers();
}
}
if (overlay->checkBox("Discard", &discard)) {
preparePipelines();
buildCommandBuffers();
}
}
if (!pipelineStats.empty()) {
if (overlay->header("Pipeline statistics")) {
for (auto i = 0; i < pipelineStats.size(); i++) {
std::string caption = pipelineStatNames[i] + ": %d";
overlay->text(caption.c_str(), pipelineStats[i]);
}
}
}
}
void prepare()
{
VulkanExampleBase::prepare();
loadAssets();
setupDescriptors();
preparePipelines();
buildCommandBuffers();
prepared = true;
}
void prepare()
{
gl_base::prepare();
prepareSynchronizationPrimitives();
prepareVertices(USE_STAGING);
prepareUniformBuffers();
preparePipelines();
prepared = true;
}
void prepare()
{
VulkanExampleBase::prepare();
loadAssets();
prepareConditionalRendering();
prepareUniformBuffers();
setupDescriptorSets();
preparePipelines();
buildCommandBuffers();
prepared = true;
}
void prepare()
{
VulkanExampleBase::prepare();
loadAssets();
prepareUniformBuffers();
setupDescriptorSetLayout();
preparePipelines();
setupDescriptorPool();
setupDescriptorSet();
buildCommandBuffers();
prepared = true;
}
void prepare()
{
VulkanExampleBase::prepare();
generateCube();
setupVertexDescriptions();
prepareUniformBuffers();
setupDescriptorSetLayout();
preparePipelines();
setupDescriptorPool();
setupDescriptorSet();
buildCommandBuffers();
prepared = true;
}
void prepare()
{
VulkanExampleBase::prepare();
// Create a fence for synchronization
VkFenceCreateInfo fenceCreateInfo = vkTools::initializers::fenceCreateInfo(VK_FLAGS_NONE);
vkCreateFence(device, &fenceCreateInfo, NULL, &renderFence);
loadMeshes();
setupVertexDescriptions();
setupPipelineLayout();
preparePipelines();
prepareMultiThreadedRenderer();
updateMatrices();
prepared = true;
}
void prepare()
{
sampleCount = getMaxUsableSampleCount();
VulkanExampleBase::prepare();
loadAssets();
setupVertexDescriptions();
prepareUniformBuffers();
setupDescriptorSetLayout();
preparePipelines();
setupDescriptorPool();
setupDescriptorSet();
buildCommandBuffers();
prepared = true;
}
void prepare()
{
VulkanExampleBase::prepare();
loadTextures();
loadMeshes();
setupVertexDescriptions();
prepareUniformBuffers();
setupDescriptorSetLayout();
preparePipelines();
setupDescriptorPool();
setupDescriptorSets();
buildCommandBuffers();
prepared = true;
}
void prepare()
{
VulkanExampleBase::prepare();
loadTextures();
getComputeQueue();
prepareStorageBuffers();
prepareUniformBuffers();
setupDescriptorSetLayout();
preparePipelines();
setupDescriptorPool();
setupDescriptorSet();
prepareCompute();
buildCommandBuffers();
prepared = true;
}
VK_IMAGE_LAYOUT_TRANSFER_DST_OPTIMAL,
VK_IMAGE_LAYOUT_SHADER_READ_ONLY_OPTIMAL);
}
void prepare()
{
VulkanExampleBase::prepare();
generateQuad();
loadMeshes();
setupVertexDescriptions();
prepareUniformBuffers();
prepareTextureTarget(TEX_DIM, TEX_DIM, DEPTH_FORMAT);
setupDescriptorSetLayout();
preparePipelines();
setupDescriptorPool();
setupDescriptorSets();
prepareOffscreenFramebuffer();
void prepare()
{
VulkanExampleBase::prepare();
loadMeshes();
setupVertexDescriptions();
prepareUniformBuffers();
loadTexture(
"./../data/textures/cubemap_yokohama.ktx",
VK_FORMAT_BC3_UNORM_BLOCK,
false);
setupDescriptorSetLayout();
preparePipelines();
setupDescriptorPool();
setupDescriptorSets();
buildCommandBuffers();
prepared = true;
}
void initVulkan()
{
VulkanAndroidExampleBase::initVulkan();
prepareVertices();
prepareUniformBuffers();
setupDescriptorSetLayout();
preparePipelines();
setupDescriptorPool();
setupDescriptorSet();
buildCommandBuffers();
state.zoom = -5.0f;
state.rotation = glm::vec3();
prepared = true;
}
void prepare()
{
// Check if device supports tessellation shaders
if (!deviceFeatures.tessellationShader)
{
vkTools::exitFatal("Selected GPU does not support tessellation shaders!", "Feature not supported");
}
VulkanExampleBase::prepare();
loadTextures();
loadMeshes();
setupVertexDescriptions();
prepareUniformBuffers();
setupDescriptorSetLayout();
preparePipelines();
setupDescriptorPool();
setupDescriptorSet();
buildCommandBuffers();
prepared = true;
}
void initVulkan()
{
VulkanAndroidExampleBase::initVulkan();
loadTexture(
"textures/vulkan_android_robot.ktx",
VK_FORMAT_R8G8B8A8_UNORM,
false);
prepareVertices();
prepareUniformBuffers();
setupDescriptorSetLayout();
preparePipelines();
setupDescriptorPool();
setupDescriptorSet();
buildCommandBuffers();
state.zoom = -5.0f;
state.rotation = glm::vec3();
prepared = true;
}
