static PyObject *meth_QSGMaterialShader_updateState(PyObject *sipSelf, PyObject *sipArgs)
{
PyObject *sipParseErr = NULL;
bool sipSelfWasArg = (!sipSelf || sipIsDerived((sipSimpleWrapper *)sipSelf));
{
const QSGMaterialShader::RenderState* a0;
QSGMaterial* a1;
QSGMaterial* a2;
QSGMaterialShader *sipCpp;
if (sipParseArgs(&sipParseErr, sipArgs, "BJ9J8J8", &sipSelf, sipType_QSGMaterialShader, &sipCpp, sipType_QSGMaterialShader_RenderState, &a0, sipType_QSGMaterial, &a1, sipType_QSGMaterial, &a2))
{
(sipSelfWasArg ? sipCpp->QSGMaterialShader::updateState(*a0,a1,a2) : sipCpp->updateState(*a0,a1,a2));
Py_INCREF(Py_None);
return Py_None;
}
}
/* Raise an exception if the arguments couldn't be parsed. */
sipNoMethod(sipParseErr, sipName_QSGMaterialShader, sipName_updateState, doc_QSGMaterialShader_updateState);
return NULL;
}
void QSGDefaultRenderer::buildLists(QSGNode *node)
{
if (node->isSubtreeBlocked())
return;
if (node->type() == QSGNode::GeometryNodeType) {
QSGGeometryNode *geomNode = static_cast<QSGGeometryNode *>(node);
qreal opacity = geomNode->inheritedOpacity();
QSGMaterial *m = geomNode->activeMaterial();
#ifdef FORCE_NO_REORDER
if (true) {
#else
if ((m->flags() & QSGMaterial::Blending) || opacity < 1) {
#endif
geomNode->setRenderOrder(m_currentRenderOrder - 1);
m_transparentNodes.add(geomNode);
} else {
geomNode->setRenderOrder(m_currentRenderOrder);
m_opaqueNodes.add(geomNode);
m_currentRenderOrder += 2;
}
}
if (!node->firstChild())
return;
#ifdef FORCE_NO_REORDER
static bool reorder = false;
#else
static bool reorder = !qApp->arguments().contains(QLatin1String("--no-reorder"));
#endif
if (reorder && node->firstChild() != node->lastChild() && (node->flags() & QSGNode::ChildrenDoNotOverlap)) {
QVarLengthArray<int, 16> beginIndices;
QVarLengthArray<int, 16> endIndices;
int baseCount = m_transparentNodes.size();
int count = 0;
for (QSGNode *c = node->firstChild(); c; c = c->nextSibling()) {
beginIndices.append(m_transparentNodes.size());
buildLists(c);
endIndices.append(m_transparentNodes.size());
++count;
}
int childNodeCount = m_transparentNodes.size() - baseCount;
if (childNodeCount) {
m_tempNodes.reset();
m_tempNodes.reserve(childNodeCount);
while (childNodeCount) {
for (int i = 0; i < count; ++i) {
if (beginIndices[i] != endIndices[i])
m_heap.insert(IndexGeometryNodePair(i, m_transparentNodes.at(beginIndices[i]++)));
}
while (!m_heap.isEmpty()) {
IndexGeometryNodePair pair = m_heap.pop();
m_tempNodes.add(pair.second);
--childNodeCount;
int i = pair.first;
if (beginIndices[i] != endIndices[i] && !nodeLessThan(m_transparentNodes.at(beginIndices[i]), pair.second))
m_heap.insert(IndexGeometryNodePair(i, m_transparentNodes.at(beginIndices[i]++)));
}
}
Q_ASSERT(m_tempNodes.size() == m_transparentNodes.size() - baseCount);
qMemCopy(&m_transparentNodes.at(baseCount), &m_tempNodes.at(0), m_tempNodes.size() * sizeof(QSGGeometryNode *));
}
} else {
for (QSGNode *c = node->firstChild(); c; c = c->nextSibling())
buildLists(c);
}
}
void QSGDefaultRenderer::renderNodes(const QDataBuffer<QSGGeometryNode *> &list)
{
const float scale = 1.0f / m_currentRenderOrder;
int count = list.size();
int currentRenderOrder = 0x80000000;
m_current_projection_matrix.setColumn(2, scale * projectionMatrix().column(2));
//int clipChangeCount = 0;
//int programChangeCount = 0;
//int materialChangeCount = 0;
for (int i = 0; i < count; ++i) {
QSGGeometryNode *geomNode = list.at(i);
QSGMaterialShader::RenderState::DirtyStates updates;
#if defined (QML_RUNTIME_TESTING)
static bool dumpTree = qApp->arguments().contains(QLatin1String("--dump-tree"));
if (dumpTree)
qDebug() << geomNode;
#endif
bool changeMatrix = m_currentMatrix != geomNode->matrix();
if (changeMatrix) {
m_currentMatrix = geomNode->matrix();
if (m_currentMatrix)
m_current_model_view_matrix = *m_currentMatrix;
else
m_current_model_view_matrix.setToIdentity();
updates |= QSGMaterialShader::RenderState::DirtyMatrix;
}
bool changeOpacity = m_current_opacity != geomNode->inheritedOpacity();
if (changeOpacity) {
updates |= QSGMaterialShader::RenderState::DirtyOpacity;
m_current_opacity = geomNode->inheritedOpacity();
}
Q_ASSERT(geomNode->activeMaterial());
QSGMaterial *material = geomNode->activeMaterial();
QSGMaterialShader *program = m_context->prepareMaterial(material);
Q_ASSERT(program->program()->isLinked());
bool changeClip = geomNode->clipList() != m_currentClip;
QSGRenderer::ClipType clipType = QSGRenderer::NoClip;
if (changeClip) {
clipType = updateStencilClip(geomNode->clipList());
m_currentClip = geomNode->clipList();
#ifdef FORCE_NO_REORDER
glDepthMask(false);
#else
glDepthMask((material->flags() & QSGMaterial::Blending) == 0 && m_current_opacity == 1);
#endif
//++clipChangeCount;
}
bool changeProgram = (changeClip && clipType == QSGRenderer::StencilClip) || m_currentProgram != program;
if (changeProgram) {
if (m_currentProgram)
m_currentProgram->deactivate();
m_currentProgram = program;
m_currentProgram->activate();
//++programChangeCount;
updates |= (QSGMaterialShader::RenderState::DirtyMatrix | QSGMaterialShader::RenderState::DirtyOpacity);
#ifdef RENDERER_DEBUG
materialChanges++;
#endif
}
bool changeRenderOrder = currentRenderOrder != geomNode->renderOrder();
if (changeRenderOrder) {
currentRenderOrder = geomNode->renderOrder();
m_current_projection_matrix.setColumn(3, projectionMatrix().column(3)
+ currentRenderOrder
* m_current_projection_matrix.column(2));
updates |= QSGMaterialShader::RenderState::DirtyMatrix;
}
if (changeProgram || m_currentMaterial != material) {
program->updateState(state(updates), material, changeProgram ? 0 : m_currentMaterial);
m_currentMaterial = material;
//++materialChangeCount;
}
//glDepthRange((geomNode->renderOrder() + 0.1) * scale, (geomNode->renderOrder() + 0.9) * scale);
const QSGGeometry *g = geomNode->geometry();
bindGeometry(program, g);
draw(geomNode);
#ifdef RENDERER_DEBUG
geometryNodesDrawn++;
#endif
}
//qDebug("Clip: %i, shader program: %i, material: %i times changed while drawing %s items",
// clipChangeCount, programChangeCount, materialChangeCount,
// &list == &m_transparentNodes ? "transparent" : "opaque");
}
QT_END_NAMESPACE