use of org.bimserver.plugins.renderengine.RenderEngine in project BIMserver by opensourceBIM.
the class TestGen method start.
private void start(String[] args) {
try {
PluginManagerInterface pluginManager = LocalDevSetup.setupPluginManager(args);
DeserializerPlugin deserializerPlugin = pluginManager.getFirstDeserializer("ifc", Schema.IFC2X3TC1, true);
Deserializer deserializer = deserializerPlugin.createDeserializer(null);
deserializer.init(pluginManager.getMetaDataManager().getPackageMetaData("ifc2x3tc1"));
RenderEnginePlugin renderEnginePlugin = pluginManager.getRenderEnginePlugin("org.bimserver.ifcengine.JvmRenderEnginePlugin", true);
RenderEngine renderEngine = renderEnginePlugin.createRenderEngine(null, "ifc2x3tc1");
renderEngine.init();
Path path = Paths.get("../TestData/data/AC11-Institute-Var-2-IFC.ifc");
RenderEngineModel renderEngineModel = renderEngine.openModel(new FileInputStream(path.toFile()), Files.size(path));
RenderEngineSettings settings = new RenderEngineSettings();
settings.setPrecision(Precision.SINGLE);
settings.setIndexFormat(IndexFormat.AUTO_DETECT);
settings.setGenerateNormals(true);
settings.setGenerateTriangles(true);
settings.setGenerateWireFrame(false);
renderEngineModel.setSettings(settings);
renderEngineModel.generateGeneralGeometry();
renderEngineModel.close();
renderEngine.close();
long start = System.nanoTime();
long end = System.nanoTime();
System.out.println(((end - start) / 1000000) + " ms");
} catch (PluginException e) {
e.printStackTrace();
} catch (FileNotFoundException e) {
e.printStackTrace();
} catch (IOException e) {
e.printStackTrace();
}
}
use of org.bimserver.plugins.renderengine.RenderEngine in project BIMserver by opensourceBIM.
the class NoPoolingRenderEnginePool method borrowObject.
@Override
public RenderEngine borrowObject() throws RenderEngineException {
RenderEngine createRenderEngine = renderEngineFactory.createRenderEngine();
createRenderEngine.init();
return createRenderEngine;
}
use of org.bimserver.plugins.renderengine.RenderEngine in project BIMserver by opensourceBIM.
the class RenderEnginePools method getRenderEnginePool.
public RenderEnginePool getRenderEnginePool(Schema schema, String className, PluginConfiguration pluginConfiguration) throws PluginException {
if (pools.containsKey(schema)) {
Map<String, RenderEnginePool> map = pools.get(schema);
if (map.containsKey(className)) {
return map.get(className);
} else {
// Maybe this plugin has been installed after startup, let's have a look in the PluginManager
RenderEnginePlugin renderEnginePlugin = bimServer.getPluginManager().getRenderEnginePlugin(className, true);
if (renderEnginePlugin == null) {
throw new PluginException("No render engine found for className " + className);
} else {
RenderEnginePool renderEnginePool = renderEnginePoolFactory.newRenderEnginePool(new RenderEngineFactory() {
@Override
public RenderEngine createRenderEngine() throws RenderEngineException {
return renderEnginePlugin.createRenderEngine(pluginConfiguration, schema.name());
}
});
map.put(className, renderEnginePool);
return renderEnginePool;
}
}
} else {
throw new PluginException("No render engine found for schema " + schema);
}
}
use of org.bimserver.plugins.renderengine.RenderEngine in project BIMserver by opensourceBIM.
the class GeometryRunner method run.
@Override
public void run() {
long start = System.nanoTime();
job.setStartNanos(start);
try {
HashMapVirtualObject next = objectProvider.next();
Query query = new Query("Double buffer query " + eClass.getName(), this.streamingGeometryGenerator.packageMetaData);
QueryPart queryPart = query.createQueryPart();
while (next != null) {
queryPart.addOid(next.getOid());
if (this.streamingGeometryGenerator.packageMetaData.getEClass("IfcProduct").isSuperTypeOf(next.eClass())) {
job.addObject(next.getOid(), next.eClass().getName());
}
next = objectProvider.next();
}
objectProvider = new QueryObjectProvider(databaseSession, this.streamingGeometryGenerator.bimServer, query, Collections.singleton(queryContext.getRoid()), this.streamingGeometryGenerator.packageMetaData);
StreamingSerializer ifcSerializer = ifcSerializerPlugin.createSerializer(new PluginConfiguration());
RenderEngine renderEngine = null;
byte[] bytes = null;
try {
final Set<HashMapVirtualObject> objects = new HashSet<>();
ObjectProviderProxy proxy = new ObjectProviderProxy(objectProvider, new ObjectListener() {
@Override
public void newObject(HashMapVirtualObject next) {
if (eClass.isSuperTypeOf(next.eClass())) {
if (next.eGet(GeometryRunner.this.streamingGeometryGenerator.representationFeature) != null) {
objects.add(next);
}
}
}
});
ifcSerializer.init(proxy, null, null, this.streamingGeometryGenerator.bimServer.getPluginManager(), this.streamingGeometryGenerator.packageMetaData);
ByteArrayOutputStream baos = new ByteArrayOutputStream();
IOUtils.copy(ifcSerializer.getInputStream(), baos);
bytes = baos.toByteArray();
InputStream in = new ByteArrayInputStream(bytes);
Map<Integer, String> notFoundObjects = new HashMap<>();
Set<Range> reusableGeometryData = new HashSet<>();
Map<Long, Q> productToData = new HashMap<>();
try {
if (!objects.isEmpty()) {
renderEngine = renderEnginePool.borrowObject();
try (RenderEngineModel renderEngineModel = renderEngine.openModel(in, bytes.length)) {
renderEngineModel.setSettings(renderEngineSettings);
renderEngineModel.setFilter(renderEngineFilter);
try {
renderEngineModel.generateGeneralGeometry();
} catch (RenderEngineException e) {
if (e.getCause() instanceof java.io.EOFException) {
if (objects.isEmpty() || eClass.getName().equals("IfcAnnotation")) {
// SKIP
} else {
StreamingGeometryGenerator.LOGGER.error("Error in " + eClass.getName(), e);
}
}
}
OidConvertingSerializer oidConvertingSerializer = (OidConvertingSerializer) ifcSerializer;
Map<Long, Integer> oidToEid = oidConvertingSerializer.getOidToEid();
Map<Long, double[]> matrices = new HashMap<>();
for (HashMapVirtualObject ifcProduct : objects) {
if (!this.streamingGeometryGenerator.running) {
return;
}
if (ifcProduct.get("GlobalId").equals("1sZn$z_i91bPOCQJOkOibU")) {
System.out.println();
}
Integer expressId = oidToEid.get(ifcProduct.getOid());
try {
RenderEngineInstance renderEngineInstance = renderEngineModel.getInstanceFromExpressId(expressId);
RenderEngineGeometry geometry = renderEngineInstance.generateGeometry();
boolean translate = true;
if (geometry != null && geometry.getNrIndices() > 0) {
VirtualObject geometryInfo = new HashMapVirtualObject(queryContext, GeometryPackage.eINSTANCE.getGeometryInfo());
WrappedVirtualObject minBounds = new HashMapWrappedVirtualObject(GeometryPackage.eINSTANCE.getVector3f());
WrappedVirtualObject maxBounds = new HashMapWrappedVirtualObject(GeometryPackage.eINSTANCE.getVector3f());
minBounds.set("x", Double.POSITIVE_INFINITY);
minBounds.set("y", Double.POSITIVE_INFINITY);
minBounds.set("z", Double.POSITIVE_INFINITY);
maxBounds.set("x", -Double.POSITIVE_INFINITY);
maxBounds.set("y", -Double.POSITIVE_INFINITY);
maxBounds.set("z", -Double.POSITIVE_INFINITY);
geometryInfo.setAttribute(GeometryPackage.eINSTANCE.getGeometryInfo_MinBounds(), minBounds);
geometryInfo.setAttribute(GeometryPackage.eINSTANCE.getGeometryInfo_MaxBounds(), maxBounds);
WrappedVirtualObject minBoundsUntranslated = new HashMapWrappedVirtualObject(GeometryPackage.eINSTANCE.getVector3f());
WrappedVirtualObject maxBoundsUntranslated = new HashMapWrappedVirtualObject(GeometryPackage.eINSTANCE.getVector3f());
minBoundsUntranslated.set("x", Double.POSITIVE_INFINITY);
minBoundsUntranslated.set("y", Double.POSITIVE_INFINITY);
minBoundsUntranslated.set("z", Double.POSITIVE_INFINITY);
maxBoundsUntranslated.set("x", -Double.POSITIVE_INFINITY);
maxBoundsUntranslated.set("y", -Double.POSITIVE_INFINITY);
maxBoundsUntranslated.set("z", -Double.POSITIVE_INFINITY);
geometryInfo.setAttribute(GeometryPackage.eINSTANCE.getGeometryInfo_MinBoundsUntranslated(), minBoundsUntranslated);
geometryInfo.setAttribute(GeometryPackage.eINSTANCE.getGeometryInfo_MaxBoundsUntranslated(), maxBoundsUntranslated);
geometryInfo.setAttribute(GeometryPackage.eINSTANCE.getGeometryInfo_Area(), renderEngineInstance.getArea());
geometryInfo.setAttribute(GeometryPackage.eINSTANCE.getGeometryInfo_Volume(), renderEngineInstance.getVolume());
VirtualObject geometryData = new HashMapVirtualObject(queryContext, GeometryPackage.eINSTANCE.getGeometryData());
int[] indices = geometry.getIndices();
geometryData.setAttribute(GeometryPackage.eINSTANCE.getGeometryData_Indices(), GeometryUtils.intArrayToByteArray(indices));
float[] vertices = geometry.getVertices();
geometryData.setAttribute(GeometryPackage.eINSTANCE.getGeometryData_Vertices(), GeometryUtils.floatArrayToByteArray(vertices));
geometryData.setAttribute(GeometryPackage.eINSTANCE.getGeometryData_Normals(), GeometryUtils.floatArrayToByteArray(geometry.getNormals()));
geometryInfo.setAttribute(GeometryPackage.eINSTANCE.getGeometryInfo_PrimitiveCount(), indices.length / 3);
job.setTrianglesGenerated(indices.length / 3);
job.getReport().incrementTriangles(indices.length / 3);
Set<Color4f> usedColors = new HashSet<>();
if (geometry.getMaterialIndices() != null && geometry.getMaterialIndices().length > 0) {
boolean hasMaterial = false;
float[] vertex_colors = new float[vertices.length / 3 * 4];
for (int i = 0; i < geometry.getMaterialIndices().length; ++i) {
int c = geometry.getMaterialIndices()[i];
for (int j = 0; j < 3; ++j) {
int k = indices[i * 3 + j];
if (c > -1) {
hasMaterial = true;
Color4f color = new Color4f();
for (int l = 0; l < 4; ++l) {
float val = geometry.getMaterials()[4 * c + l];
vertex_colors[4 * k + l] = val;
color.set(l, val);
}
usedColors.add(color);
}
}
}
if (usedColors.size() == 1) {
WrappedVirtualObject color = new HashMapWrappedVirtualObject(GeometryPackage.eINSTANCE.getVector4f());
Color4f firstColor = usedColors.iterator().next();
color.set("x", firstColor.getR());
color.set("y", firstColor.getG());
color.set("z", firstColor.getB());
color.set("w", firstColor.getA());
geometryData.setAttribute(GeometryPackage.eINSTANCE.getGeometryData_Color(), color);
hasMaterial = false;
}
if (hasMaterial) {
geometryData.setAttribute(GeometryPackage.eINSTANCE.getGeometryData_Materials(), GeometryUtils.floatArrayToByteArray(vertex_colors));
}
}
double[] productTranformationMatrix = new double[16];
if (translate && renderEngineInstance.getTransformationMatrix() != null) {
productTranformationMatrix = renderEngineInstance.getTransformationMatrix();
} else {
Matrix.setIdentityM(productTranformationMatrix, 0);
}
geometryInfo.setReference(GeometryPackage.eINSTANCE.getGeometryInfo_Data(), geometryData.getOid(), 0);
long size = this.streamingGeometryGenerator.getSize(geometryData);
for (int i = 0; i < indices.length; i++) {
this.streamingGeometryGenerator.processExtends(geometryInfo, productTranformationMatrix, vertices, indices[i] * 3, generateGeometryResult);
this.streamingGeometryGenerator.processExtendsUntranslated(geometryInfo, vertices, indices[i] * 3, generateGeometryResult);
}
double[] mibu = new double[] { (double) minBoundsUntranslated.eGet(GeometryPackage.eINSTANCE.getVector3f_X()), (double) minBoundsUntranslated.eGet(GeometryPackage.eINSTANCE.getVector3f_Y()), (double) minBoundsUntranslated.eGet(GeometryPackage.eINSTANCE.getVector3f_Z()), 1d };
double[] mabu = new double[] { (double) maxBoundsUntranslated.eGet(GeometryPackage.eINSTANCE.getVector3f_X()), (double) maxBoundsUntranslated.eGet(GeometryPackage.eINSTANCE.getVector3f_Y()), (double) maxBoundsUntranslated.eGet(GeometryPackage.eINSTANCE.getVector3f_Z()), 1d };
if (reuseGeometry) {
int hash = this.streamingGeometryGenerator.hash(geometryData);
float[] firstVertex = new float[] { vertices[indices[0]], vertices[indices[0] + 1], vertices[indices[0] + 2] };
float[] lastVertex = new float[] { vertices[indices[indices.length - 1] * 3], vertices[indices[indices.length - 1] * 3 + 1], vertices[indices[indices.length - 1] * 3 + 2] };
Range range = new Range(firstVertex, lastVertex);
if (this.streamingGeometryGenerator.hashes.containsKey(hash)) {
geometryInfo.setReference(GeometryPackage.eINSTANCE.getGeometryInfo_Data(), this.streamingGeometryGenerator.hashes.get(hash), 0);
this.streamingGeometryGenerator.bytesSavedByHash.addAndGet(size);
} else if (geometryReused) {
boolean found = false;
// }
if (!found) {
range.setGeometryDataOid(geometryData.getOid());
reusableGeometryData.add(range);
geometryInfo.setAttribute(GeometryPackage.eINSTANCE.getGeometryInfo_Area(), renderEngineInstance.getArea());
geometryInfo.setAttribute(GeometryPackage.eINSTANCE.getGeometryInfo_Volume(), renderEngineInstance.getVolume());
geometryInfo.setAttribute(GeometryPackage.eINSTANCE.getGeometryInfo_PrimitiveCount(), indices.length / 3);
productToData.put(ifcProduct.getOid(), new Q(geometryData.getOid(), renderEngineInstance.getArea(), renderEngineInstance.getVolume(), indices.length / 3, size, mibu, mabu));
geometryData.save();
}
} else {
// }
if (geometryReused) {
range.setGeometryDataOid(geometryData.getOid());
reusableGeometryData.add(range);
productToData.put(ifcProduct.getOid(), new Q(geometryData.getOid(), renderEngineInstance.getArea(), renderEngineInstance.getVolume(), indices.length / 3, size, mibu, mabu));
}
this.streamingGeometryGenerator.hashes.put(hash, geometryData.getOid());
geometryData.save();
// sizes.put(size, ifcProduct);
}
} else {
geometryData.save();
}
calculateObb(geometryInfo, productTranformationMatrix, indices, vertices, generateGeometryResult);
this.streamingGeometryGenerator.setTransformationMatrix(geometryInfo, productTranformationMatrix);
matrices.put(ifcProduct.getOid(), productTranformationMatrix);
geometryInfo.save();
this.streamingGeometryGenerator.totalBytes.addAndGet(size);
ifcProduct.setReference(this.streamingGeometryGenerator.geometryFeature, geometryInfo.getOid(), 0);
ifcProduct.saveOverwrite();
// Doing a sync here because probably
// writing large amounts of data, and db
// only syncs every 100.000 writes by
// default
// databaseSession.getKeyValueStore().sync();
} else {
// TODO
}
} catch (EntityNotFoundException e) {
// e.printStackTrace();
// As soon as we find a representation that
// is not Curve2D, then we should show a
// "INFO" message in the log to indicate
// there could be something wrong
boolean ignoreNotFound = eClass.getName().equals("IfcAnnotation");
// }
if (!ignoreNotFound) {
// LOGGER.warn("Entity not found " +
// ifcProduct.eClass().getName() + " " +
// (expressId) + "/" +
// ifcProduct.getOid());
notFoundObjects.put(expressId, ifcProduct.eClass().getName());
}
} catch (BimserverDatabaseException | RenderEngineException e) {
StreamingGeometryGenerator.LOGGER.error("", e);
}
}
if (geometryReused && map != null) {
long firstKey = map.keySet().iterator().next();
ProductDef masterProductDef = map.get(firstKey);
for (long key : map.keySet()) {
if (key != firstKey) {
ProductDef productDef = map.get(key);
HashMapVirtualObject ifcProduct = productDef.getObject();
Q q = productToData.get(productDef.getMasterOid());
if (q != null) {
VirtualObject geometryInfo = new HashMapVirtualObject(queryContext, GeometryPackage.eINSTANCE.getGeometryInfo());
WrappedVirtualObject minBounds = new HashMapWrappedVirtualObject(GeometryPackage.eINSTANCE.getVector3f());
WrappedVirtualObject maxBounds = new HashMapWrappedVirtualObject(GeometryPackage.eINSTANCE.getVector3f());
double[] mibu = q.getMibu();
double[] mabu = q.getMibu();
double[] mibt = new double[4];
double[] mabt = new double[4];
// TODO
Matrix.multiplyMV(mibt, 0, productDef.getProductMatrix(), 0, mibu, 0);
Matrix.multiplyMV(mabt, 0, productDef.getProductMatrix(), 0, mabu, 0);
minBounds.set("x", mibt[0]);
minBounds.set("y", mibt[1]);
minBounds.set("z", mibt[2]);
maxBounds.set("x", mabt[0]);
maxBounds.set("y", mabt[1]);
maxBounds.set("z", mabt[2]);
geometryInfo.setAttribute(GeometryPackage.eINSTANCE.getGeometryInfo_MinBounds(), minBounds);
geometryInfo.setAttribute(GeometryPackage.eINSTANCE.getGeometryInfo_MaxBounds(), maxBounds);
WrappedVirtualObject minBoundsUntranslated = new HashMapWrappedVirtualObject(GeometryPackage.eINSTANCE.getVector3f());
WrappedVirtualObject maxBoundsUntranslated = new HashMapWrappedVirtualObject(GeometryPackage.eINSTANCE.getVector3f());
minBoundsUntranslated.set("x", mibu[0]);
minBoundsUntranslated.set("y", mibu[1]);
minBoundsUntranslated.set("z", mibu[2]);
maxBoundsUntranslated.set("x", mabu[0]);
maxBoundsUntranslated.set("y", mabu[1]);
maxBoundsUntranslated.set("z", mabu[2]);
geometryInfo.setAttribute(GeometryPackage.eINSTANCE.getGeometryInfo_MinBoundsUntranslated(), minBoundsUntranslated);
geometryInfo.setAttribute(GeometryPackage.eINSTANCE.getGeometryInfo_MaxBoundsUntranslated(), maxBoundsUntranslated);
geometryInfo.setAttribute(GeometryPackage.eINSTANCE.getGeometryInfo_Area(), q.getArea());
geometryInfo.setAttribute(GeometryPackage.eINSTANCE.getGeometryInfo_Volume(), q.getVolume());
geometryInfo.setAttribute(GeometryPackage.eINSTANCE.getGeometryInfo_PrimitiveCount(), q.getNrPrimitives());
this.streamingGeometryGenerator.bytesSavedByMapping.addAndGet(q.getSize());
this.streamingGeometryGenerator.totalBytes.addAndGet(q.getSize());
double[] inverted = Matrix.identity();
if (!Matrix.invertM(inverted, 0, masterProductDef.getMappingMatrix(), 0)) {
System.out.println("No inverse");
}
double[] finalMatrix = Matrix.identity();
double[] totalTranformationMatrix = Matrix.identity();
Matrix.multiplyMM(finalMatrix, 0, productDef.getMappingMatrix(), 0, inverted, 0);
Matrix.multiplyMM(totalTranformationMatrix, 0, productDef.getProductMatrix(), 0, finalMatrix, 0);
if (matrices.containsKey(ifcProduct.getOid())) {
if (!Arrays.equals(matrices.get(ifcProduct.getOid()), totalTranformationMatrix)) {
System.out.println("Not the same " + ifcProduct.get("GlobalId"));
Matrix.dump(matrices.get(ifcProduct.getOid()));
System.out.println();
Matrix.dump(totalTranformationMatrix);
}
}
geometryInfo.setReference(GeometryPackage.eINSTANCE.getGeometryInfo_Data(), q.getOid(), 0);
// for (int i = 0; i <
// indices.length; i++) {
// processExtends(geometryInfo,
// productTranformationMatrix,
// vertices, indices[i] * 3,
// generateGeometryResult);
// processExtendsUntranslated(geometryInfo,
// vertices, indices[i] * 3,
// generateGeometryResult);
// }
// calculateObb(geometryInfo,
// productTranformationMatrix,
// indices, vertices,
// generateGeometryResult);
this.streamingGeometryGenerator.setTransformationMatrix(geometryInfo, totalTranformationMatrix);
geometryInfo.save();
// totalBytes.addAndGet(size);
ifcProduct.setReference(this.streamingGeometryGenerator.geometryFeature, geometryInfo.getOid(), 0);
ifcProduct.saveOverwrite();
}
}
}
}
}
}
} finally {
if (renderEngine != null) {
renderEnginePool.returnObject(renderEngine);
}
try {
if (!notFoundObjects.isEmpty()) {
int debugId = writeDebugFile(bytes, false, notFoundObjects);
job.setException(new Exception("Missing objects in model (" + Joiner.on(", ").join(notFoundObjects.keySet()) + ")"), debugId);
} else if (writeOutputFiles) {
int debugId = writeDebugFile(bytes, false, null);
job.setDebugFile(debugId);
}
in.close();
} catch (Throwable e) {
} finally {
}
this.streamingGeometryGenerator.jobsDone.incrementAndGet();
this.streamingGeometryGenerator.updateProgress();
}
} catch (Exception e) {
StreamingGeometryGenerator.LOGGER.error("", e);
int debugId = writeDebugFile(bytes, true, null);
job.setException(e, debugId);
// LOGGER.error("Original query: " + originalQuery, e);
}
} catch (Exception e) {
StreamingGeometryGenerator.LOGGER.error("", e);
// LOGGER.error("Original query: " + originalQuery, e);
}
long end = System.nanoTime();
job.setEndNanos(end);
}
use of org.bimserver.plugins.renderengine.RenderEngine in project BIMserver by opensourceBIM.
the class StreamingGeometryGenerator method generateGeometry.
@SuppressWarnings("unchecked")
public GenerateGeometryResult generateGeometry(long uoid, final DatabaseSession databaseSession, QueryContext queryContext) throws BimserverDatabaseException, GeometryGeneratingException {
GenerateGeometryResult generateGeometryResult = new GenerateGeometryResult();
packageMetaData = queryContext.getPackageMetaData();
productClass = packageMetaData.getEClass("IfcProduct");
geometryFeature = productClass.getEStructuralFeature("geometry");
representationFeature = productClass.getEStructuralFeature("Representation");
representationsFeature = packageMetaData.getEClass("IfcProductDefinitionShape").getEStructuralFeature("Representations");
itemsFeature = packageMetaData.getEClass("IfcShapeRepresentation").getEStructuralFeature("Items");
mappingSourceFeature = packageMetaData.getEClass("IfcMappedItem").getEStructuralFeature("MappingSource");
GregorianCalendar now = new GregorianCalendar();
DateFormat dateFormat = new SimpleDateFormat("yyyy-MM-dd-HH-mm-ss");
debugIdentifier = dateFormat.format(now.getTime());
long start = System.nanoTime();
String pluginName = "";
if (queryContext.getPackageMetaData().getSchema() == Schema.IFC4) {
pluginName = "org.bimserver.ifc.step.serializer.Ifc4StepStreamingSerializerPlugin";
} else if (queryContext.getPackageMetaData().getSchema() == Schema.IFC2X3TC1) {
pluginName = "org.bimserver.ifc.step.serializer.Ifc2x3tc1StepStreamingSerializerPlugin";
} else {
throw new GeometryGeneratingException("Unknown schema " + queryContext.getPackageMetaData().getSchema());
}
reuseGeometry = bimServer.getServerSettingsCache().getServerSettings().isReuseGeometry();
optimizeMappedItems = bimServer.getServerSettingsCache().getServerSettings().isOptimizeMappedItems();
report.setStart(new GregorianCalendar());
report.setIfcSchema(queryContext.getPackageMetaData().getSchema());
report.setMaxPerFile(maxObjectsPerFile);
report.setUseMappingOptimization(optimizeMappedItems);
report.setReuseGeometry(reuseGeometry);
try {
final StreamingSerializerPlugin ifcSerializerPlugin = (StreamingSerializerPlugin) bimServer.getPluginManager().getPlugin(pluginName, true);
if (ifcSerializerPlugin == null) {
throw new UserException("No IFC serializer found");
}
User user = (User) databaseSession.get(uoid, org.bimserver.database.OldQuery.getDefault());
UserSettings userSettings = user.getUserSettings();
report.setUserName(user.getName());
report.setUserUserName(user.getUsername());
RenderEnginePluginConfiguration renderEngine = null;
if (eoid != -1) {
renderEngine = databaseSession.get(eoid, OldQuery.getDefault());
} else {
renderEngine = userSettings.getDefaultRenderEngine();
}
if (renderEngine == null) {
throw new UserException("No default render engine has been selected for this user");
}
renderEngineName = renderEngine.getName();
int availableProcessors = Runtime.getRuntime().availableProcessors();
report.setAvailableProcessors(availableProcessors);
int maxSimultanousThreads = Math.min(bimServer.getServerSettingsCache().getServerSettings().getRenderEngineProcesses(), availableProcessors);
if (maxSimultanousThreads < 1) {
maxSimultanousThreads = 1;
}
final RenderEngineSettings settings = new RenderEngineSettings();
settings.setPrecision(Precision.SINGLE);
settings.setIndexFormat(IndexFormat.AUTO_DETECT);
settings.setGenerateNormals(true);
settings.setGenerateTriangles(true);
settings.setGenerateWireFrame(false);
final RenderEngineFilter renderEngineFilter = new RenderEngineFilter();
RenderEnginePool renderEnginePool = bimServer.getRenderEnginePools().getRenderEnginePool(packageMetaData.getSchema(), renderEngine.getPluginDescriptor().getPluginClassName(), new PluginConfiguration(renderEngine.getSettings()));
report.setRenderEngineName(renderEngine.getName());
report.setRenderEnginePluginVersion(renderEngine.getPluginDescriptor().getPluginBundleVersion().getVersion());
try (RenderEngine engine = renderEnginePool.borrowObject()) {
report.setRenderEngineVersion(engine.getVersion());
}
ThreadPoolExecutor executor = new ThreadPoolExecutor(maxSimultanousThreads, maxSimultanousThreads, 24, TimeUnit.HOURS, new ArrayBlockingQueue<Runnable>(10000000));
JsonQueryObjectModelConverter jsonQueryObjectModelConverter = new JsonQueryObjectModelConverter(packageMetaData);
String queryNameSpace = "validifc";
if (packageMetaData.getSchema() == Schema.IFC4) {
queryNameSpace = "ifc4stdlib";
}
Include objectPlacement = jsonQueryObjectModelConverter.getDefineFromFile(queryNameSpace + ":ObjectPlacement");
// TODO these are cached, so f'ing em up by doing this...
objectPlacement.makeDirectRecursive(new HashSet<>());
Set<EClass> classes = null;
if (queryContext.getOidCounters() != null) {
classes = queryContext.getOidCounters().keySet();
} else {
classes = packageMetaData.getEClasses();
}
for (EClass eClass : classes) {
if (packageMetaData.getEClass("IfcProduct").isSuperTypeOf(eClass)) {
Query query2 = new Query(eClass.getName() + "Main query", packageMetaData);
QueryPart queryPart2 = query2.createQueryPart();
queryPart2.addType(eClass, false);
Include representationInclude = queryPart2.createInclude();
representationInclude.addType(eClass, false);
representationInclude.addFieldDirect("Representation");
Include representationsInclude = representationInclude.createInclude();
representationsInclude.addType(packageMetaData.getEClass("IfcProductRepresentation"), true);
representationsInclude.addFieldDirect("Representations");
Include itemsInclude = representationsInclude.createInclude();
itemsInclude.addType(packageMetaData.getEClass("IfcShapeRepresentation"), false);
itemsInclude.addFieldDirect("Items");
Include mappingSourceInclude = itemsInclude.createInclude();
mappingSourceInclude.addType(packageMetaData.getEClass("IfcMappedItem"), false);
mappingSourceInclude.addFieldDirect("MappingSource");
mappingSourceInclude.addFieldDirect("MappingTarget");
Include representationMap = mappingSourceInclude.createInclude();
representationMap.addType(packageMetaData.getEClass("IfcRepresentationMap"), false);
Include targetInclude = mappingSourceInclude.createInclude();
targetInclude.addType(packageMetaData.getEClass("IfcCartesianTransformationOperator3D"), false);
targetInclude.addFieldDirect("Axis1");
targetInclude.addFieldDirect("Axis2");
targetInclude.addFieldDirect("Axis3");
targetInclude.addFieldDirect("LocalOrigin");
queryPart2.addInclude(objectPlacement);
Map<Long, Map<Long, ProductDef>> representationMapToProduct = new HashMap<>();
QueryObjectProvider queryObjectProvider2 = new QueryObjectProvider(databaseSession, bimServer, query2, Collections.singleton(queryContext.getRoid()), packageMetaData);
HashMapVirtualObject next = queryObjectProvider2.next();
while (next != null) {
if (next.eClass() == eClass) {
HashMapVirtualObject representation = next.getDirectFeature(representationFeature);
if (representation != null) {
List<HashMapVirtualObject> representations = representation.getDirectListFeature(representationsFeature);
if (representations != null) {
for (HashMapVirtualObject representationItem : representations) {
String representationIdentifier = (String) representationItem.get("RepresentationIdentifier");
if (representationIdentifier.equals("Body") || representationIdentifier.equals("Facetation")) {
List<HashMapVirtualObject> items = representationItem.getDirectListFeature(itemsFeature);
for (HashMapVirtualObject item : items) {
report.addRepresentationItem(item.eClass().getName());
HashMapVirtualObject mappingTarget = item.getDirectFeature(packageMetaData.getEReference("IfcMappedItem", "MappingTarget"));
double[] mappingMatrix = Matrix.identity();
double[] productMatrix = Matrix.identity();
if (mappingTarget != null) {
HashMapVirtualObject axis1 = mappingTarget.getDirectFeature(packageMetaData.getEReference("IfcCartesianTransformationOperator", "Axis1"));
HashMapVirtualObject axis2 = mappingTarget.getDirectFeature(packageMetaData.getEReference("IfcCartesianTransformationOperator", "Axis2"));
HashMapVirtualObject axis3 = mappingTarget.getDirectFeature(packageMetaData.getEReference("IfcCartesianTransformationOperator", "Axis3"));
HashMapVirtualObject localOrigin = mappingTarget.getDirectFeature(packageMetaData.getEReference("IfcCartesianTransformationOperator", "LocalOrigin"));
double[] a1 = null;
double[] a2 = null;
double[] a3 = null;
if (axis3 != null) {
List<Double> list = (List<Double>) axis3.get("DirectionRatios");
a3 = new double[] { list.get(0), list.get(1), list.get(2) };
} else {
a3 = new double[] { 0, 0, 1, 1 };
Vector.normalize(a3);
}
if (axis1 != null) {
List<Double> list = (List<Double>) axis1.get("DirectionRatios");
a1 = new double[] { list.get(0), list.get(1), list.get(2) };
Vector.normalize(a1);
} else {
// if (a3[0] == 1 && a3[1] == 0 && a3[2] == 0) {
a1 = new double[] { 1, 0, 0, 1 };
// } else {
// a1 = new double[]{0, 1, 0, 1};
// }
}
double[] xVec = Vector.scalarProduct(Vector.dot(a1, a3), a3);
double[] xAxis = Vector.subtract(a1, xVec);
Vector.normalize(xAxis);
if (axis2 != null) {
List<Double> list = (List<Double>) axis2.get("DirectionRatios");
a2 = new double[] { list.get(0), list.get(1), list.get(2) };
Vector.normalize(a2);
} else {
a2 = new double[] { 0, 1, 0, 1 };
}
double[] tmp = Vector.scalarProduct(Vector.dot(a2, a3), a3);
double[] yAxis = Vector.subtract(a2, tmp);
tmp = Vector.scalarProduct(Vector.dot(a2, xAxis), xAxis);
yAxis = Vector.subtract(yAxis, tmp);
Vector.normalize(yAxis);
a2 = yAxis;
a1 = xAxis;
List<Double> t = (List<Double>) localOrigin.get("Coordinates");
mappingMatrix = new double[] { a1[0], a1[1], a1[2], 0, a2[0], a2[1], a2[2], 0, a3[0], a3[1], a3[2], 0, t.get(0).doubleValue(), t.get(1).doubleValue(), t.get(2).doubleValue(), 1 };
}
HashMapVirtualObject placement = next.getDirectFeature(packageMetaData.getEReference("IfcProduct", "ObjectPlacement"));
if (placement != null) {
productMatrix = placementToMatrix(placement);
}
HashMapVirtualObject mappingSource = item.getDirectFeature(mappingSourceFeature);
if (mappingSource != null) {
Map<Long, ProductDef> map = representationMapToProduct.get(mappingSource.getOid());
if (map == null) {
map = new LinkedHashMap<>();
representationMapToProduct.put(mappingSource.getOid(), map);
}
ProductDef pd = new ProductDef(next.getOid());
pd.setObject(next);
pd.setProductMatrix(productMatrix);
pd.setMappingMatrix(mappingMatrix);
map.put(next.getOid(), pd);
}
}
}
}
}
}
}
next = queryObjectProvider2.next();
}
Set<Long> done = new HashSet<>();
for (Long repMapId : representationMapToProduct.keySet()) {
Map<Long, ProductDef> map = representationMapToProduct.get(repMapId);
if (map.size() > 1) {
Query query = new Query("Reuse query " + eClass.getName(), packageMetaData);
QueryPart queryPart = query.createQueryPart();
queryPart.addType(eClass, false);
long masterOid = map.values().iterator().next().getOid();
for (ProductDef pd : map.values()) {
done.add(pd.getOid());
if (!optimizeMappedItems) {
queryPart.addOid(pd.getOid());
} else {
pd.setMasterOid(masterOid);
}
}
if (optimizeMappedItems) {
queryPart.addOid(masterOid);
}
LOGGER.debug("Running " + map.size() + " objects in one batch because of reused geometry " + (eClass.getName()));
processX(databaseSession, queryContext, generateGeometryResult, ifcSerializerPlugin, settings, renderEngineFilter, renderEnginePool, executor, eClass, query, queryPart, true, map, map.size());
}
}
Query query3 = new Query("Remaining " + eClass.getName(), packageMetaData);
QueryPart queryPart3 = query3.createQueryPart();
queryPart3.addType(eClass, false);
Include include3 = queryPart3.createInclude();
include3.addType(eClass, false);
include3.addFieldDirect("Representation");
Include rInclude = include3.createInclude();
rInclude.addType(packageMetaData.getEClass("IfcProductRepresentation"), false);
rInclude.addFieldDirect("Representations");
Include representationsInclude2 = rInclude.createInclude();
representationsInclude2.addType(packageMetaData.getEClass("IfcShapeModel"), false);
queryObjectProvider2 = new QueryObjectProvider(databaseSession, bimServer, query3, Collections.singleton(queryContext.getRoid()), packageMetaData);
next = queryObjectProvider2.next();
while (next != null) {
if (next.eClass() == eClass && !done.contains(next.getOid())) {
HashMapVirtualObject representation = next.getDirectFeature(representationFeature);
if (representation != null) {
List<HashMapVirtualObject> list = representation.getDirectListFeature(packageMetaData.getEReference("IfcProductRepresentation", "Representations"));
boolean goForIt = goForIt(list);
if (goForIt) {
Query query = new Query("Main " + eClass.getName(), packageMetaData);
QueryPart queryPart = query.createQueryPart();
queryPart.addType(eClass, false);
int x = 1;
queryPart.addOid(next.getOid());
while (next != null && x < maxObjectsPerFile) {
next = queryObjectProvider2.next();
if (next != null) {
if (next.eClass() == eClass && !done.contains(next.getOid())) {
representation = next.getDirectFeature(representationFeature);
if (representation != null) {
list = representation.getDirectListFeature(packageMetaData.getEReference("IfcProductRepresentation", "Representations"));
boolean goForIt2 = goForIt(list);
if (goForIt2) {
queryPart.addOid(next.getOid());
x++;
}
}
}
}
}
processX(databaseSession, queryContext, generateGeometryResult, ifcSerializerPlugin, settings, renderEngineFilter, renderEnginePool, executor, eClass, query, queryPart, false, null, x);
}
}
}
next = queryObjectProvider2.next();
}
}
}
// for (Long l : counters.keySet()) {
// LOGGER.info(databaseSession.getEClassForOid(l).getName() + "(" + l + "): " + counters.get(l));
// }
allJobsPushed = true;
executor.shutdown();
executor.awaitTermination(24, TimeUnit.HOURS);
long end = System.nanoTime();
long total = totalBytes.get() - (bytesSavedByHash.get() + bytesSavedByTransformation.get() + bytesSavedByMapping.get());
LOGGER.info("Rendertime: " + Formatters.nanosToString(end - start) + ", " + "Reused (by hash): " + Formatters.bytesToString(bytesSavedByHash.get()) + ", Reused (by transformation): " + Formatters.bytesToString(bytesSavedByTransformation.get()) + ", Reused (by mapping): " + Formatters.bytesToString(bytesSavedByMapping.get()) + ", Total: " + Formatters.bytesToString(totalBytes.get()) + ", Final: " + Formatters.bytesToString(total));
} catch (Exception e) {
running = false;
LOGGER.error("", e);
report.setEnd(new GregorianCalendar());
throw new GeometryGeneratingException(e);
}
report.setEnd(new GregorianCalendar());
try {
writeDebugFile();
} catch (IOException e) {
LOGGER.debug("", e);
}
return generateGeometryResult;
}
Aggregations