void OculusHud::Render()
{
if(show) {
// If render function defined, use it to render left / right images
// to framebuffer
if(this->extern_draw_function) {
framebuffer.Bind();
glClearColor(1,1,1,0);
glClear(GL_COLOR_BUFFER_BIT | GL_DEPTH_BUFFER_BIT);
for(int i=0; i<2; ++i) {
eyeview[i].Activate();
default_cam.ApplyNView(i);
this->extern_draw_function(*this);
}
framebuffer.Unbind();
}
if(common.IsShown() && common.NumChildren()) {
framebuffer.Bind();
RenderChildren();
for(int i=0; i<2; ++i) {
Viewport v = eyeview[i].v;
v.l += 160 -i*120;
v.w -= 160;
v.h -= 220;
common.Resize(v);
common.Render();
}
framebuffer.Unbind();
}
RenderFramebuffer();
}
}
void MatrixTransform::Render(Graphics::Renderer *renderer, const matrix4x4f &trans, RenderData *rd)
{
const matrix4x4f t = trans * m_transform;
//renderer->SetTransform(t);
//DrawAxes(renderer);
RenderChildren(renderer, t, rd);
}
void View::Render()
{
if(extern_draw_function && show) {
extern_draw_function(*this);
}
RenderChildren();
}
void MatrixTransform::Render(const std::vector<matrix4x4f> &trans, const RenderData *rd)
{
PROFILE_SCOPED();
if (0 == memcmp(&m_transform, &s_ident, sizeof(matrix4x4f))) {
// m_transform is identity so avoid performing all multiplications
RenderChildren(trans, rd);
} else {
// m_transform is valid, modify all positions by it
const size_t transSize = trans.size();
std::vector<matrix4x4f> t;
t.resize(transSize);
for (size_t tIdx = 0; tIdx < transSize; tIdx++) {
t[tIdx] = trans[tIdx] * m_transform;
}
RenderChildren(t, rd);
}
}
void RootNode::Render(Scene *scene, Renderer *renderer)
{
// first sort children before rendering based on depth (shader|material)
std::sort(m_Children.begin(), m_Children.end(), SortSceneNodes);
// configure all render passes here
// - render all children into post-processing framebuffer
renderer->PrePostProcessRender();
RenderChildren(scene, renderer);
renderer->PostPostProcessRender();
// - render quad with post-processing effect enabled
renderer->PostProcessQuadRender();
}
void Widget::Render(RenderTarget& target, RenderQueue& queue) const
{
OnPaint(target, queue);
if (mUseScissor)
{
Area& area = ResourceManager::Get()->WidgetArea;
area.PushArea(GetRect(true));
const FloatRect& top = area.GetTopArea();
target.Flush();
RenderChildren(target, queue);
queue.SetScissor(true, Vector2f(top.Left, target.GetHeight() - top.Bottom), Vector2f(top.GetSize().x, top.GetSize().y));
target.Flush();
area.PopArea();
}
else
{
queue.SetScissor(false);
RenderChildren(target, queue);
}
}
void Group::Render(Graphics::Renderer *renderer, const matrix4x4f &trans, RenderData *rd)
{
RenderChildren(renderer, trans, rd);
}
void MatrixTransform::Render(const matrix4x4f &trans, const RenderData *rd)
{
PROFILE_SCOPED();
const matrix4x4f t = trans * m_transform;
RenderChildren(t, rd);
}
void MatrixTransform::Render(const matrix4x4f &trans, const RenderData *rd)
{
const matrix4x4f t = trans * m_transform;
RenderChildren(t, rd);
}
void Group::Render(const matrix4x4f &trans, RenderData *rd)
{
RenderChildren(trans, rd);
}
void Object::OnRender() {
RenderChildren();
}
void Actor::Render(D3DRenderer* renderer)
{
RenderComponents(renderer);
RenderChildren(renderer);
}
void EntityManager::Render(TCODConsole* console)
{
RenderChildren(console);
}
void Effect::Render(Matrix* in_parentMatrix, float in_parentAlpha)
{
if (!m_visible)
{
return;
}
// generate our matrix
Matrix transform = Matrix::Identity;
transform *= Matrix::CreateScale(m_scale.get().x, m_scale.get().y, 1.f);
transform *= Matrix::CreateRotationZ(DirectX::XMConvertToRadians(m_angle));
transform *= Matrix::CreateTranslation(m_position.get().x, m_position.get().y, 0);
if (in_parentMatrix)
{
transform = transform * *in_parentMatrix;
}
bool hasEffect = m_blurEnabled || m_sepiaEnabled || m_crtEnabled || m_cartoonEnabled || m_vignetteEnabled;
if (!m_effectTarget && hasEffect)
{
m_effectTarget = OTexture::createScreenRenderTarget(true);
}
if (m_effectTarget && !hasEffect)
{
delete m_effectTarget;
m_effectTarget = nullptr;
}
bool scissorEnabled = ORenderer->getScissorEnabled();
Rect scissorRect = ORenderer->getScissor();
if (hasEffect)
{
OSB->end();
const Matrix& spriteBatchTransform = OSB->getTransform();
m_effectTarget->bindRenderTarget();
m_effectTarget->clearRenderTarget(Color::Transparent);
OSB->begin(spriteBatchTransform);
if (scissorEnabled)
{
ORenderer->setScissor(scissorEnabled, scissorRect);
}
}
// render bg children
RenderChildren(m_bgChildren, &transform, m_color.get().w * in_parentAlpha);
// render fg children
RenderChildren(m_fgChildren, &transform, m_color.get().w * in_parentAlpha);
if (hasEffect)
{
OSB->end();
Matrix spriteBatchTransform = OSB->getTransform();
m_effectTarget->unbindRenderTarget();
// Apply the effects
if (m_cartoonEnabled)
{
m_effectTarget->cartoon(m_cartoonTone);
}
if (m_sepiaEnabled)
{
m_effectTarget->sepia(m_sepiaTone, m_sepiaSaturation, m_sepiaAmount);
}
if (m_blurEnabled)
{
m_effectTarget->blur(m_blurAmount);
}
if (m_vignetteEnabled)
{
m_effectTarget->vignette(m_vignetteAmount);
}
if (m_crtEnabled)
{
m_effectTarget->crt();
}
OSB->begin();
if (scissorEnabled)
{
ORenderer->setScissor(scissorEnabled, scissorRect);
}
OSB->drawRect(m_effectTarget, ORectFullScreen);
OSB->end();
OSB->begin(spriteBatchTransform);
if (scissorEnabled)
{
ORenderer->setScissor(scissorEnabled, scissorRect);
}
}
}
void Group::Render(const matrix4x4f &trans, const RenderData *rd)
{
PROFILE_SCOPED()
RenderChildren(trans, rd);
}
