void TextureListModel::setHighlight(DAVA::Entity *node) { beginResetModel(); textureDescriptorsHighlight.clear(); DAVA::Map<DAVA::String, DAVA::Texture *> texturesInNode; SceneDataManager::EnumerateTextures(node, texturesInNode); for(DAVA::Map<DAVA::String, DAVA::Texture *>::iterator t = texturesInNode.begin(); t != texturesInNode.end(); ++t) { const DAVA::String descPath = t->first; for(int i = 0; i < textureDescriptorsAll.size(); ++i) { if(textureDescriptorsAll[i]->pathname == descPath) { textureDescriptorsHighlight.push_back(textureDescriptorsAll[i]); } } } if(curFilterBySelectedNode) { applyFilterAndSort(); } endResetModel(); }
void TextureListModel::setScene(DAVA::Scene *scene) { beginResetModel(); clear(); DAVA::Map<DAVA::String, DAVA::Texture *> texturesInNode; SceneDataManager::EnumerateTextures(scene, texturesInNode); for(DAVA::Map<DAVA::String, DAVA::Texture *>::iterator t = texturesInNode.begin(); t != texturesInNode.end(); ++t) { const DAVA::String descPath = t->first; // if there is no the same descriptor and this file exists if(DAVA::FileSystem::Instance()->IsFile(descPath)) { DAVA::TextureDescriptor * descriptor = DAVA::TextureDescriptor::CreateFromFile(descPath); if(NULL != descriptor) { textureDescriptorsAll.push_back(descriptor); texturesAll[descriptor] = t->second; } } } applyFilterAndSort(); endResetModel(); }
bool QtPropertyDataDavaKeyedArcive::UpdateValueInternal() { // update children { QSet<QtPropertyData *> dataToRemove; // at first step of sync we mark (placing to vector) items to remove for(int i = 0; i < ChildCount(); ++i) { QPair<QString, QtPropertyData *> pair = ChildGet(i); if(NULL != pair.second) { dataToRemove.insert(pair.second); } } // as second step we go throught keyed archive and add new data items, // and remove deleting mark from items that are still in archive if(NULL != curArchive) { DAVA::Map<DAVA::String, DAVA::VariantType*> data = curArchive->GetArchieveData(); DAVA::Map<DAVA::String, DAVA::VariantType*>::iterator i = data.begin(); for(; i != data.end(); ++i) { QtPropertyData *childData = ChildGet(i->first.c_str()); // this key already in items list if(NULL != childData) { // remove deleting mark dataToRemove.remove(childData); } // create new child data else { ChildCreate(i->first.c_str(), i->second); } } } // delete all marked items QSetIterator<QtPropertyData *> it(dataToRemove); while(it.hasNext()) { ChildRemove(it.next()); } } return false; }
void TextureDescriptorUtils::SetCompressionParams( const FilePath &descriptorPathname, const DAVA::Map<DAVA::eGPUFamily, DAVA::TextureDescriptor::Compression> & compressionParams, bool convertionEnabled, bool force) { TextureDescriptor *descriptor = TextureDescriptor::CreateFromFile(descriptorPathname); if(!descriptor) return; auto endIt = compressionParams.end(); for(auto it = compressionParams.begin(); it != endIt; ++it) { eGPUFamily gpu = it->first; if(force || (descriptor->compression[gpu].format == FORMAT_INVALID)) { descriptor->compression[gpu] = it->second; if(convertionEnabled) { ImageTools::ConvertImage(descriptor, gpu, (PixelFormat)descriptor->compression[gpu].format); } } } descriptor->Save(); SafeRelease(descriptor); }
void QtPropertyDataDavaVariant::ChildsCreate() { switch(curVariantValue.type) { case DAVA::VariantType::TYPE_KEYED_ARCHIVE: { DAVA::KeyedArchive *archive = curVariantValue.AsKeyedArchive(); DAVA::Map<DAVA::String, DAVA::VariantType*> data = archive->GetArchieveData(); DAVA::Map<DAVA::String, DAVA::VariantType*>::iterator i = data.begin(); for(; i != data.end(); ++i) { ChildAdd(i->first.c_str(), new QtPropertyDataDavaVariant(*(i->second))); } } break; case DAVA::VariantType::TYPE_MATRIX2: break; case DAVA::VariantType::TYPE_MATRIX3: break; case DAVA::VariantType::TYPE_MATRIX4: break; case DAVA::VariantType::TYPE_VECTOR2: { DAVA::Vector2 vec = curVariantValue.AsVector2(); ChildAdd("X", vec.x); ChildAdd("Y", vec.y); } break; case DAVA::VariantType::TYPE_VECTOR3: { DAVA::Vector3 vec = curVariantValue.AsVector3(); ChildAdd("X", vec.x); ChildAdd("Y", vec.y); ChildAdd("Z", vec.z); } break; case DAVA::VariantType::TYPE_VECTOR4: { DAVA::Vector4 vec = curVariantValue.AsVector4(); ChildAdd("X", vec.x); ChildAdd("Y", vec.y); ChildAdd("Z", vec.z); ChildAdd("W", vec.w); } break; case DAVA::VariantType::TYPE_COLOR: { // DAVA::Color color = curVariantValue.AsColor(); // ChildAdd("R", color.r); // ChildAdd("G", color.g); // ChildAdd("B", color.b); // ChildAdd("A", color.a); } break; case DAVA::VariantType::TYPE_AABBOX3: { DAVA::AABBox3 box = curVariantValue.AsAABBox3(); ChildAdd("min", FromVector3(box.min)); ChildAdd("max", FromVector3(box.max)); QtPropertyData* min = ChildGet("min"); min->SetFlags(FLAG_IS_NOT_EDITABLE); min->ChildAdd("X", box.min.x); min->ChildAdd("Y", box.min.y); min->ChildAdd("Z", box.min.z); QtPropertyData* max = ChildGet("max"); max->SetFlags(FLAG_IS_NOT_EDITABLE); max->ChildAdd("X", box.max.x); max->ChildAdd("Y", box.max.y); max->ChildAdd("Z", box.max.z); } break; } }