void InventoryModule::OpenItemPropertiesWindow(const QString &inventory_id) { boost::shared_ptr<UiServices::UiModule> ui_module = GetFramework()->GetModuleManager()->GetModule<UiServices::UiModule>(Foundation::Module::MT_UiServices).lock(); if (!ui_module.get()) return; // Check that item properties window for this item doesn't already exists. // If it does, bring it to front and set focus to it. QMap<QString, ItemPropertiesWindow *>::iterator it = itemPropertiesWindows_.find(inventory_id); if (it != itemPropertiesWindows_.end()) { ui_module->GetInworldSceneController()->BringProxyToFront(it.value()); return; } InventoryAsset *asset = dynamic_cast<InventoryAsset *>(inventory_->GetChildById(inventory_id)); if (!asset) return; ItemPropertiesWindow *wnd = new ItemPropertiesWindow(this); connect(wnd, SIGNAL(Closed(const QString &, bool)), this, SLOT(CloseItemPropertiesWindow(const QString &, bool))); wnd->SetItem(asset); itemPropertiesWindows_[inventory_id] = wnd; if (inventoryType_ == IDMT_OpenSim) { static_cast<OpenSimInventoryDataModel *>(inventory_.get())->SendNameUuidRequest(asset); // Get asset service interface and check if the asset is in cache. // If it is, show file size to item properties UI. SLUDP protocol doesn't support querying asset size // and we don't want download asset only just to know its size. ///\todo If WebDAV supports this, utilize it. Foundation::ServiceManagerPtr service_manager = framework_->GetServiceManager(); if (!service_manager->IsRegistered(Foundation::Service::ST_Asset)) return; boost::shared_ptr<Foundation::AssetServiceInterface> asset_service = service_manager->GetService<Foundation::AssetServiceInterface>(Foundation::Service::ST_Asset).lock(); Foundation::AssetPtr assetPtr = asset_service->GetAsset(asset->GetAssetReference().toStdString(), GetTypeNameFromAssetType(asset->GetAssetType())); if (assetPtr && assetPtr->GetSize() > 0) wnd->SetFileSize(assetPtr->GetSize()); } }
bool OgreMeshResource::SetData(Foundation::AssetPtr source) { if (!source) { OgreRenderingModule::LogError("Null source asset data pointer"); return false; } if (!source->GetSize()) { OgreRenderingModule::LogError("Zero sized mesh asset"); return false; } try { if (ogre_mesh_.isNull()) { ogre_mesh_ = Ogre::MeshManager::getSingleton().createManual( id_, Ogre::ResourceGroupManager::DEFAULT_RESOURCE_GROUP_NAME); if (ogre_mesh_.isNull()) { OgreRenderingModule::LogError("Failed to create mesh " + id_); return false; } ogre_mesh_->setAutoBuildEdgeLists(false); } Ogre::DataStreamPtr stream(new Ogre::MemoryDataStream((void*)source->GetData(), source->GetSize(), false)); Ogre::MeshSerializer serializer; serializer.importMesh(stream, ogre_mesh_.getPointer()); // Generate tangents to mesh try { unsigned short src, dest; if (!ogre_mesh_->suggestTangentVectorBuildParams(Ogre::VES_TANGENT, src, dest)) ogre_mesh_->buildTangentVectors(Ogre::VES_TANGENT, src, dest); } catch (...) {} // Generate extremity points to submeshes, 1 should be enough try { for(uint i = 0; i < ogre_mesh_->getNumSubMeshes(); ++i) { Ogre::SubMesh *smesh = ogre_mesh_->getSubMesh(i); if (smesh) smesh->generateExtremes(1); } } catch (...) {} // Assign default materials that won't complain original_materials_.clear(); for (uint i = 0; i < ogre_mesh_->getNumSubMeshes(); ++i) { Ogre::SubMesh* submesh = ogre_mesh_->getSubMesh(i); if (submesh) { original_materials_.push_back(submesh->getMaterialName()); submesh->setMaterialName("UnlitTextured"); } } } catch (Ogre::Exception &e) { OgreRenderingModule::LogError("Failed to create mesh " + id_ + ": " + std::string(e.what())); RemoveMesh(); return false; } OgreRenderingModule::LogDebug("Ogre mesh " + id_ + " created"); return true; }
bool OgreMaterialResource::SetData(Foundation::AssetPtr source) { // Remove old material if any RemoveMaterial(); references_.clear(); original_textures_.clear(); Ogre::MaterialManager& matmgr = Ogre::MaterialManager::getSingleton(); OgreRenderingModule::LogDebug("Parsing material " + source->GetId()); if (!source) { OgreRenderingModule::LogError("Null source asset data pointer"); return false; } if (!source->GetSize()) { OgreRenderingModule::LogError("Zero sized material asset"); return false; } Ogre::DataStreamPtr data = Ogre::DataStreamPtr(new Ogre::MemoryDataStream(const_cast<u8 *>(source->GetData()), source->GetSize())); static int tempname_count = 0; tempname_count++; std::string tempname = "TempMat" + ToString<int>(tempname_count); try { int num_materials = 0; int brace_level = 0; bool skip_until_next = false; int skip_brace_level = 0; // Parsed/modified material script std::ostringstream output; while (!data->eof()) { Ogre::String line = data->getLine(); // Skip empty lines & comments if ((line.length()) && (line.substr(0, 2) != "//")) { // Process opening/closing braces if (!ResourceHandler::ProcessBraces(line, brace_level)) { // If not a brace and on level 0, it should be a new material; replace name if ((brace_level == 0) && (line.substr(0, 8) == "material")) { if (num_materials == 0) { line = "material " + tempname; ++num_materials; } else { OgreRenderingModule::LogWarning("More than one material defined in material asset " + source->GetId() + " - only first one supported"); break; } } else { // Check for textures if ((line.substr(0, 8) == "texture ") && (line.length() > 8)) { std::string tex_name = line.substr(8); // Note: we assume all texture references are asset based. ResourceHandler checks later whether this is true, // before requesting the reference references_.push_back(Foundation::ResourceReference(tex_name, OgreTextureResource::GetTypeStatic())); original_textures_.push_back(tex_name); // Replace any / with \ in the material, then change the texture names back later, so that Ogre does not go nuts ReplaceCharInplace(line, '/', '\\'); ReplaceCharInplace(line, ':', '@'); } } // Write line to the modified copy if (!skip_until_next) output << line << std::endl; } else { // Write line to the modified copy if (!skip_until_next) output << line << std::endl; if (brace_level <= skip_brace_level) skip_until_next = false; } } } std::string output_str = output.str(); Ogre::DataStreamPtr modified_data = Ogre::DataStreamPtr(new Ogre::MemoryDataStream((u8 *)(&output_str[0]), output_str.size())); matmgr.parseScript(modified_data, Ogre::ResourceGroupManager::DEFAULT_RESOURCE_GROUP_NAME); Ogre::MaterialPtr tempmat; tempmat = matmgr.getByName(tempname); if (tempmat.isNull()) { OgreRenderingModule::LogWarning(std::string("Failed to create an Ogre material from material asset ") + source->GetId()); return false; } if(!tempmat->getNumTechniques()) { OgreRenderingModule::LogWarning("Failed to create an Ogre material from material asset " + source->GetId()); return false; } ogre_material_ = tempmat->clone(id_); tempmat.setNull(); matmgr.remove(tempname); if (ogre_material_.isNull()) { OgreRenderingModule::LogWarning("Failed to create an Ogre material from material asset " + source->GetId()); return false; } // Now go through all the texturenames and restore \ back to / and @ to : Ogre::Material::TechniqueIterator iter = ogre_material_->getTechniqueIterator(); while (iter.hasMoreElements()) { Ogre::Technique *tech = iter.getNext(); Ogre::Technique::PassIterator passIter = tech->getPassIterator(); while (passIter.hasMoreElements()) { Ogre::Pass *pass = passIter.getNext(); Ogre::Pass::TextureUnitStateIterator texIter = pass->getTextureUnitStateIterator(); while (texIter.hasMoreElements()) { Ogre::TextureUnitState *texUnit = texIter.getNext(); std::string texname = texUnit->getTextureName(); if (texname.find('\\') != std::string::npos) { ReplaceCharInplace(texname, '\\', '/'); ReplaceCharInplace(texname, '@', ':'); texUnit->setTextureName(texname); } } } } //workaround: if receives shadows, check the amount of shadowmaps. If only 1 specified, add 2 more to support 3 shadowmaps if(ogre_material_->getReceiveShadows() && shadowquality_ == Shadows_High && ogre_material_->getNumTechniques() > 0) { Ogre::Technique *tech = ogre_material_->getTechnique(0); if(tech) { Ogre::Technique::PassIterator passiterator = tech->getPassIterator(); while(passiterator.hasMoreElements()) { Ogre::Pass* pass = passiterator.getNext(); Ogre::Pass::TextureUnitStateIterator texiterator = pass->getTextureUnitStateIterator(); int shadowmaps = 0; while(texiterator.hasMoreElements()) { Ogre::TextureUnitState* state = texiterator.getNext(); if(state->getContentType() == Ogre::TextureUnitState::CONTENT_SHADOW) { shadowmaps++; } } if(shadowmaps>0 && shadowmaps<3) { Ogre::TextureUnitState* sm2 = pass->createTextureUnitState(); sm2->setContentType(Ogre::TextureUnitState::CONTENT_SHADOW); Ogre::TextureUnitState* sm3 = pass->createTextureUnitState(); sm3->setContentType(Ogre::TextureUnitState::CONTENT_SHADOW); } } } } } catch (Ogre::Exception &e) { OgreRenderingModule::LogWarning(e.what()); OgreRenderingModule::LogWarning("Failed to parse Ogre material " + source->GetId() + "."); try { if (!matmgr.getByName(tempname).isNull()) Ogre::MaterialManager::getSingleton().remove(tempname); } catch (...) {} return false; } return true; }