#include "b3RobotSimAPI.h" //#include "../CommonInterfaces/CommonGraphicsAppInterface.h" #include "Bullet3Common/b3Quaternion.h" #include "Bullet3Common/b3AlignedObjectArray.h" #include "../CommonInterfaces/CommonRenderInterface.h" //#include "../CommonInterfaces/CommonExampleInterface.h" #include "../CommonInterfaces/CommonGUIHelperInterface.h" #include "../SharedMemory/PhysicsServerSharedMemory.h" #include "../SharedMemory/PhysicsServerSharedMemory.h" #include "../SharedMemory/PhysicsClientC_API.h" #include "../SharedMemory/PhysicsDirectC_API.h" #include "../SharedMemory/PhysicsDirect.h" #include #include "../Utils/b3Clock.h" #include "../MultiThreading/b3ThreadSupportInterface.h" void RobotThreadFunc(void* userPtr,void* lsMemory); void* RobotlsMemoryFunc(); #define MAX_ROBOT_NUM_THREADS 1 enum { numCubesX = 20, numCubesY = 20 }; enum TestRobotSimCommunicationEnums { eRequestTerminateRobotSim= 13, eRobotSimIsUnInitialized, eRobotSimIsInitialized, eRobotSimInitializationFailed, eRobotSimHasTerminated }; enum MultiThreadedGUIHelperCommunicationEnums { eRobotSimGUIHelperIdle= 13, eRobotSimGUIHelperRegisterTexture, eRobotSimGUIHelperRegisterGraphicsShape, eRobotSimGUIHelperRegisterGraphicsInstance, eRobotSimGUIHelperCreateCollisionShapeGraphicsObject, eRobotSimGUIHelperCreateCollisionObjectGraphicsObject, eRobotSimGUIHelperRemoveAllGraphicsInstances, eRobotSimGUIHelperCopyCameraImageData, }; #include //#include "BulletMultiThreaded/PlatformDefinitions.h" #ifndef _WIN32 #include "../MultiThreading/b3PosixThreadSupport.h" b3ThreadSupportInterface* createRobotSimThreadSupport(int numThreads) { b3PosixThreadSupport::ThreadConstructionInfo constructionInfo("RobotSimThreads", RobotThreadFunc, RobotlsMemoryFunc, numThreads); b3ThreadSupportInterface* threadSupport = new b3PosixThreadSupport(constructionInfo); return threadSupport; } #elif defined( _WIN32) #include "../MultiThreading/b3Win32ThreadSupport.h" b3ThreadSupportInterface* createRobotSimThreadSupport(int numThreads) { b3Win32ThreadSupport::Win32ThreadConstructionInfo threadConstructionInfo("RobotSimThreads",RobotThreadFunc,RobotlsMemoryFunc,numThreads); b3Win32ThreadSupport* threadSupport = new b3Win32ThreadSupport(threadConstructionInfo); return threadSupport; } #endif struct RobotSimArgs { RobotSimArgs() :m_physicsServerPtr(0) { } b3CriticalSection* m_cs; PhysicsServerSharedMemory* m_physicsServerPtr; b3AlignedObjectArray m_positions; }; struct RobotSimThreadLocalStorage { int threadId; }; void RobotThreadFunc(void* userPtr,void* lsMemory) { printf("RobotThreadFunc thread started\n"); RobotSimThreadLocalStorage* localStorage = (RobotSimThreadLocalStorage*) lsMemory; RobotSimArgs* args = (RobotSimArgs*) userPtr; int workLeft = true; b3Clock clock; clock.reset(); bool init = true; if (init) { args->m_cs->lock(); args->m_cs->setSharedParam(0,eRobotSimIsInitialized); args->m_cs->unlock(); do { //todo(erwincoumans): do we want some sleep to reduce CPU resources in this thread? #if 0 double deltaTimeInSeconds = double(clock.getTimeMicroseconds())/1000000.; if (deltaTimeInSeconds<(1./260.)) { if (deltaTimeInSeconds<.001) continue; } clock.reset(); #endif // args->m_physicsServerPtr->processClientCommands(); } while (args->m_cs->getSharedParam(0)!=eRequestTerminateRobotSim); } else { args->m_cs->lock(); args->m_cs->setSharedParam(0,eRobotSimInitializationFailed); args->m_cs->unlock(); } //do nothing } void* RobotlsMemoryFunc() { //don't create local store memory, just return 0 return new RobotSimThreadLocalStorage; } ATTRIBUTE_ALIGNED16(class) MultiThreadedOpenGLGuiHelper2 : public GUIHelperInterface { CommonGraphicsApp* m_app; b3CriticalSection* m_cs; public: BT_DECLARE_ALIGNED_ALLOCATOR(); GUIHelperInterface* m_childGuiHelper; const unsigned char* m_texels; int m_textureWidth; int m_textureHeight; int m_shapeIndex; const float* m_position; const float* m_quaternion; const float* m_color; const float* m_scaling; const float* m_vertices; int m_numvertices; const int* m_indices; int m_numIndices; int m_primitiveType; int m_textureId; int m_instanceId; MultiThreadedOpenGLGuiHelper2(CommonGraphicsApp* app, GUIHelperInterface* guiHelper) :m_app(app) ,m_cs(0), m_texels(0), m_textureId(-1) { m_childGuiHelper = guiHelper;; } virtual ~MultiThreadedOpenGLGuiHelper2() { delete m_childGuiHelper; } void setCriticalSection(b3CriticalSection* cs) { m_cs = cs; } b3CriticalSection* getCriticalSection() { return m_cs; } virtual void createRigidBodyGraphicsObject(btRigidBody* body,const btVector3& color) { createCollisionObjectGraphicsObject((btCollisionObject*)body, color); } btCollisionObject* m_obj; btVector3 m_color2; virtual void createCollisionObjectGraphicsObject(btCollisionObject* obj,const btVector3& color) { m_obj = obj; m_color2 = color; m_cs->lock(); m_cs->setSharedParam(1,eRobotSimGUIHelperCreateCollisionObjectGraphicsObject); m_cs->unlock(); while (m_cs->getSharedParam(1)!=eRobotSimGUIHelperIdle) { } } btCollisionShape* m_colShape; virtual void createCollisionShapeGraphicsObject(btCollisionShape* collisionShape) { m_colShape = collisionShape; m_cs->lock(); m_cs->setSharedParam(1,eRobotSimGUIHelperCreateCollisionShapeGraphicsObject); m_cs->unlock(); while (m_cs->getSharedParam(1)!=eRobotSimGUIHelperIdle) { } } virtual void syncPhysicsToGraphics(const btDiscreteDynamicsWorld* rbWorld) { //this check is to prevent a crash, in case we removed all graphics instances, but there are still physics objects. //the check will be obsolete, once we have a better/safer way of synchronizing physics->graphics transforms if ( m_childGuiHelper->getRenderInterface()->getTotalNumInstances()>0) { m_childGuiHelper->syncPhysicsToGraphics(rbWorld); } } virtual void render(const btDiscreteDynamicsWorld* rbWorld) { m_childGuiHelper->render(0); } virtual void createPhysicsDebugDrawer( btDiscreteDynamicsWorld* rbWorld){} virtual int registerTexture(const unsigned char* texels, int width, int height) { m_texels = texels; m_textureWidth = width; m_textureHeight = height; m_cs->lock(); m_cs->setSharedParam(1,eRobotSimGUIHelperRegisterTexture); m_cs->unlock(); while (m_cs->getSharedParam(1)!=eRobotSimGUIHelperIdle) { } return m_textureId; } virtual int registerGraphicsShape(const float* vertices, int numvertices, const int* indices, int numIndices,int primitiveType, int textureId) { m_vertices = vertices; m_numvertices = numvertices; m_indices = indices; m_numIndices = numIndices; m_primitiveType = primitiveType; m_textureId = textureId; m_cs->lock(); m_cs->setSharedParam(1,eRobotSimGUIHelperRegisterGraphicsShape); m_cs->unlock(); while (m_cs->getSharedParam(1)!=eRobotSimGUIHelperIdle) { } return m_shapeIndex; } virtual int registerGraphicsInstance(int shapeIndex, const float* position, const float* quaternion, const float* color, const float* scaling) { m_shapeIndex = shapeIndex; m_position = position; m_quaternion = quaternion; m_color = color; m_scaling = scaling; m_cs->lock(); m_cs->setSharedParam(1,eRobotSimGUIHelperRegisterGraphicsInstance); m_cs->unlock(); while (m_cs->getSharedParam(1)!=eRobotSimGUIHelperIdle) { } return m_instanceId; } virtual void removeAllGraphicsInstances() { m_cs->lock(); m_cs->setSharedParam(1,eRobotSimGUIHelperRemoveAllGraphicsInstances); m_cs->unlock(); while (m_cs->getSharedParam(1)!=eRobotSimGUIHelperIdle) { } } virtual Common2dCanvasInterface* get2dCanvasInterface() { return 0; } virtual CommonParameterInterface* getParameterInterface() { return 0; } virtual CommonRenderInterface* getRenderInterface() { return 0; } virtual CommonGraphicsApp* getAppInterface() { return m_childGuiHelper->getAppInterface(); } virtual void setUpAxis(int axis) { m_childGuiHelper->setUpAxis(axis); } virtual void resetCamera(float camDist, float pitch, float yaw, float camPosX,float camPosY, float camPosZ) { } float m_viewMatrix[16]; float m_projectionMatrix[16]; unsigned char* m_pixelsRGBA; int m_rgbaBufferSizeInPixels; float* m_depthBuffer; int m_depthBufferSizeInPixels; int* m_segmentationMaskBuffer; int m_segmentationMaskBufferSizeInPixels; int m_startPixelIndex; int m_destinationWidth; int m_destinationHeight; int* m_numPixelsCopied; virtual void copyCameraImageData(const float viewMatrix[16], const float projectionMatrix[16], unsigned char* pixelsRGBA, int rgbaBufferSizeInPixels, float* depthBuffer, int depthBufferSizeInPixels, int* segmentationMaskBuffer, int segmentationMaskBufferSizeInPixels, int startPixelIndex, int destinationWidth, int destinationHeight, int* numPixelsCopied) { m_cs->lock(); for (int i=0;i<16;i++) { m_viewMatrix[i] = viewMatrix[i]; m_projectionMatrix[i] = projectionMatrix[i]; } m_pixelsRGBA = pixelsRGBA; m_rgbaBufferSizeInPixels = rgbaBufferSizeInPixels; m_depthBuffer = depthBuffer; m_depthBufferSizeInPixels = depthBufferSizeInPixels; m_segmentationMaskBuffer = segmentationMaskBuffer; m_segmentationMaskBufferSizeInPixels = segmentationMaskBufferSizeInPixels; m_startPixelIndex = startPixelIndex; m_destinationWidth = destinationWidth; m_destinationHeight = destinationHeight; m_numPixelsCopied = numPixelsCopied; m_cs->setSharedParam(1,eRobotSimGUIHelperCopyCameraImageData); m_cs->unlock(); while (m_cs->getSharedParam(1)!=eRobotSimGUIHelperIdle) { } } virtual void autogenerateGraphicsObjects(btDiscreteDynamicsWorld* rbWorld) { } virtual void drawText3D( const char* txt, float posX, float posZY, float posZ, float size) { } }; struct b3RobotSimAPI_InternalData { //GUIHelperInterface* m_guiHelper; PhysicsServerSharedMemory m_physicsServer; b3PhysicsClientHandle m_physicsClient; b3ThreadSupportInterface* m_threadSupport; RobotSimArgs m_args[MAX_ROBOT_NUM_THREADS]; MultiThreadedOpenGLGuiHelper2* m_multiThreadedHelper; PhysicsDirect* m_clientServerDirect; bool m_useMultiThreading; bool m_connected; b3RobotSimAPI_InternalData() :m_threadSupport(0), m_multiThreadedHelper(0), m_clientServerDirect(0), m_physicsClient(0), m_useMultiThreading(false), m_connected(false) { } }; b3RobotSimAPI::b3RobotSimAPI() { m_data = new b3RobotSimAPI_InternalData; } void b3RobotSimAPI::stepSimulation() { b3SharedMemoryStatusHandle statusHandle; int statusType; b3Assert(b3CanSubmitCommand(m_data->m_physicsClient)); if (b3CanSubmitCommand(m_data->m_physicsClient)) { statusHandle = b3SubmitClientCommandAndWaitStatus(m_data->m_physicsClient, b3InitStepSimulationCommand(m_data->m_physicsClient)); statusType = b3GetStatusType(statusHandle); b3Assert(statusType==CMD_STEP_FORWARD_SIMULATION_COMPLETED); } } void b3RobotSimAPI::setGravity(const b3Vector3& gravityAcceleration) { b3SharedMemoryCommandHandle command = b3InitPhysicsParamCommand(m_data->m_physicsClient); b3SharedMemoryStatusHandle statusHandle; b3PhysicsParamSetGravity(command, gravityAcceleration[0],gravityAcceleration[1],gravityAcceleration[2]); statusHandle = b3SubmitClientCommandAndWaitStatus(m_data->m_physicsClient, command); b3Assert(b3GetStatusType(statusHandle)==CMD_CLIENT_COMMAND_COMPLETED); } b3RobotSimAPI::~b3RobotSimAPI() { delete m_data; } void b3RobotSimAPI::processMultiThreadedGraphicsRequests() { if (0==m_data->m_multiThreadedHelper) return; switch (m_data->m_multiThreadedHelper->getCriticalSection()->getSharedParam(1)) { case eRobotSimGUIHelperCreateCollisionShapeGraphicsObject: { m_data->m_multiThreadedHelper->m_childGuiHelper->createCollisionShapeGraphicsObject(m_data->m_multiThreadedHelper->m_colShape); m_data->m_multiThreadedHelper->getCriticalSection()->lock(); m_data->m_multiThreadedHelper->getCriticalSection()->setSharedParam(1,eRobotSimGUIHelperIdle); m_data->m_multiThreadedHelper->getCriticalSection()->unlock(); break; } case eRobotSimGUIHelperCreateCollisionObjectGraphicsObject: { m_data->m_multiThreadedHelper->m_childGuiHelper->createCollisionObjectGraphicsObject(m_data->m_multiThreadedHelper->m_obj, m_data->m_multiThreadedHelper->m_color2); m_data->m_multiThreadedHelper->getCriticalSection()->lock(); m_data->m_multiThreadedHelper->getCriticalSection()->setSharedParam(1,eRobotSimGUIHelperIdle); m_data->m_multiThreadedHelper->getCriticalSection()->unlock(); break; } case eRobotSimGUIHelperRegisterTexture: { m_data->m_multiThreadedHelper->m_textureId = m_data->m_multiThreadedHelper->m_childGuiHelper->registerTexture(m_data->m_multiThreadedHelper->m_texels, m_data->m_multiThreadedHelper->m_textureWidth,m_data->m_multiThreadedHelper->m_textureHeight); m_data->m_multiThreadedHelper->getCriticalSection()->lock(); m_data->m_multiThreadedHelper->getCriticalSection()->setSharedParam(1,eRobotSimGUIHelperIdle); m_data->m_multiThreadedHelper->getCriticalSection()->unlock(); break; } case eRobotSimGUIHelperRegisterGraphicsShape: { m_data->m_multiThreadedHelper->m_shapeIndex = m_data->m_multiThreadedHelper->m_childGuiHelper->registerGraphicsShape( m_data->m_multiThreadedHelper->m_vertices, m_data->m_multiThreadedHelper->m_numvertices, m_data->m_multiThreadedHelper->m_indices, m_data->m_multiThreadedHelper->m_numIndices, m_data->m_multiThreadedHelper->m_primitiveType, m_data->m_multiThreadedHelper->m_textureId); m_data->m_multiThreadedHelper->getCriticalSection()->lock(); m_data->m_multiThreadedHelper->getCriticalSection()->setSharedParam(1,eRobotSimGUIHelperIdle); m_data->m_multiThreadedHelper->getCriticalSection()->unlock(); break; } case eRobotSimGUIHelperRegisterGraphicsInstance: { m_data->m_multiThreadedHelper->m_instanceId = m_data->m_multiThreadedHelper->m_childGuiHelper->registerGraphicsInstance( m_data->m_multiThreadedHelper->m_shapeIndex, m_data->m_multiThreadedHelper->m_position, m_data->m_multiThreadedHelper->m_quaternion, m_data->m_multiThreadedHelper->m_color, m_data->m_multiThreadedHelper->m_scaling); m_data->m_multiThreadedHelper->getCriticalSection()->lock(); m_data->m_multiThreadedHelper->getCriticalSection()->setSharedParam(1,eRobotSimGUIHelperIdle); m_data->m_multiThreadedHelper->getCriticalSection()->unlock(); break; } case eRobotSimGUIHelperRemoveAllGraphicsInstances: { m_data->m_multiThreadedHelper->m_childGuiHelper->removeAllGraphicsInstances(); int numRenderInstances = m_data->m_multiThreadedHelper->m_childGuiHelper->getRenderInterface()->getTotalNumInstances(); b3Assert(numRenderInstances==0); m_data->m_multiThreadedHelper->getCriticalSection()->lock(); m_data->m_multiThreadedHelper->getCriticalSection()->setSharedParam(1,eRobotSimGUIHelperIdle); m_data->m_multiThreadedHelper->getCriticalSection()->unlock(); break; } case eRobotSimGUIHelperCopyCameraImageData: { m_data->m_multiThreadedHelper->m_childGuiHelper->copyCameraImageData(m_data->m_multiThreadedHelper->m_viewMatrix, m_data->m_multiThreadedHelper->m_projectionMatrix, m_data->m_multiThreadedHelper->m_pixelsRGBA, m_data->m_multiThreadedHelper->m_rgbaBufferSizeInPixels, m_data->m_multiThreadedHelper->m_depthBuffer, m_data->m_multiThreadedHelper->m_depthBufferSizeInPixels, m_data->m_multiThreadedHelper->m_segmentationMaskBuffer, m_data->m_multiThreadedHelper->m_segmentationMaskBufferSizeInPixels, m_data->m_multiThreadedHelper->m_startPixelIndex, m_data->m_multiThreadedHelper->m_destinationWidth, m_data->m_multiThreadedHelper->m_destinationHeight, m_data->m_multiThreadedHelper->m_numPixelsCopied); m_data->m_multiThreadedHelper->getCriticalSection()->lock(); m_data->m_multiThreadedHelper->getCriticalSection()->setSharedParam(1,eRobotSimGUIHelperIdle); m_data->m_multiThreadedHelper->getCriticalSection()->unlock(); break; } case eRobotSimGUIHelperIdle: default: { } } } b3SharedMemoryStatusHandle b3RobotSimAPI::submitClientCommandAndWaitStatusMultiThreaded(b3PhysicsClientHandle physClient, b3SharedMemoryCommandHandle commandHandle) { int timeout = 1024*1024*1024; b3SharedMemoryStatusHandle statusHandle=0; b3SubmitClientCommand(physClient,commandHandle); while ((statusHandle==0) && (timeout-- > 0)) { statusHandle =b3ProcessServerStatus(physClient); processMultiThreadedGraphicsRequests(); } return (b3SharedMemoryStatusHandle) statusHandle; } int b3RobotSimAPI::getNumJoints(int bodyUniqueId) const { return b3GetNumJoints(m_data->m_physicsClient,bodyUniqueId); } bool b3RobotSimAPI::getJointInfo(int bodyUniqueId, int jointIndex, b3JointInfo* jointInfo) { return (b3GetJointInfo(m_data->m_physicsClient,bodyUniqueId, jointIndex,jointInfo)!=0); } void b3RobotSimAPI::setJointMotorControl(int bodyUniqueId, int jointIndex, const b3JointMotorArgs& args) { b3SharedMemoryStatusHandle statusHandle; switch (args.m_controlMode) { case CONTROL_MODE_VELOCITY: { b3SharedMemoryCommandHandle command = b3JointControlCommandInit2( m_data->m_physicsClient, bodyUniqueId, CONTROL_MODE_VELOCITY); b3JointInfo jointInfo; b3GetJointInfo(m_data->m_physicsClient, bodyUniqueId, jointIndex, &jointInfo); int uIndex = jointInfo.m_uIndex; b3JointControlSetKd(command,uIndex,args.m_kd); b3JointControlSetDesiredVelocity(command,uIndex,args.m_targetVelocity); b3JointControlSetMaximumForce(command,uIndex,args.m_maxTorqueValue); statusHandle = b3SubmitClientCommandAndWaitStatus(m_data->m_physicsClient, command); break; } case CONTROL_MODE_POSITION_VELOCITY_PD: { b3SharedMemoryCommandHandle command = b3JointControlCommandInit2( m_data->m_physicsClient, bodyUniqueId, CONTROL_MODE_POSITION_VELOCITY_PD); b3JointInfo jointInfo; b3GetJointInfo(m_data->m_physicsClient, bodyUniqueId, jointIndex, &jointInfo); int uIndex = jointInfo.m_uIndex; int qIndex = jointInfo.m_qIndex; b3JointControlSetDesiredPosition(command,qIndex,args.m_targetPosition); b3JointControlSetKp(command,uIndex,args.m_kp); b3JointControlSetDesiredVelocity(command,uIndex,args.m_targetVelocity); b3JointControlSetKd(command,uIndex,args.m_kd); b3JointControlSetMaximumForce(command,uIndex,args.m_maxTorqueValue); statusHandle = b3SubmitClientCommandAndWaitStatus(m_data->m_physicsClient, command); break; } case CONTROL_MODE_TORQUE: { b3SharedMemoryCommandHandle command = b3JointControlCommandInit2( m_data->m_physicsClient, bodyUniqueId, CONTROL_MODE_TORQUE); b3JointInfo jointInfo; b3GetJointInfo(m_data->m_physicsClient, bodyUniqueId, jointIndex, &jointInfo); int uIndex = jointInfo.m_uIndex; b3JointControlSetDesiredForceTorque(command,uIndex,args.m_maxTorqueValue); statusHandle = b3SubmitClientCommandAndWaitStatus(m_data->m_physicsClient, command); break; } default: { b3Error("Unknown control command in b3RobotSimAPI::setJointMotorControl"); } } } bool b3RobotSimAPI::loadFile(const struct b3RobotSimLoadFileArgs& args, b3RobotSimLoadFileResults& results) { bool statusOk = false; int robotUniqueId = -1; b3Assert(m_data->m_connected); switch (args.m_fileType) { case B3_URDF_FILE: { b3SharedMemoryStatusHandle statusHandle; int statusType; b3SharedMemoryCommandHandle command = b3LoadUrdfCommandInit(m_data->m_physicsClient, args.m_fileName.c_str()); //setting the initial position, orientation and other arguments are optional b3LoadUrdfCommandSetStartPosition(command, args.m_startPosition[0], args.m_startPosition[1], args.m_startPosition[2]); b3LoadUrdfCommandSetStartOrientation(command,args.m_startOrientation[0] ,args.m_startOrientation[1] ,args.m_startOrientation[2] ,args.m_startOrientation[3]); if (args.m_forceOverrideFixedBase) { b3LoadUrdfCommandSetUseFixedBase(command,true); } b3LoadUrdfCommandSetUseMultiBody(command, args.m_useMultiBody); statusHandle = submitClientCommandAndWaitStatusMultiThreaded(m_data->m_physicsClient, command); statusType = b3GetStatusType(statusHandle); b3Assert(statusType==CMD_URDF_LOADING_COMPLETED); robotUniqueId = b3GetStatusBodyIndex(statusHandle); results.m_uniqueObjectIds.push_back(robotUniqueId); statusOk = true; break; } case B3_SDF_FILE: { b3SharedMemoryStatusHandle statusHandle; int statusType; b3SharedMemoryCommandHandle command = b3LoadSdfCommandInit(m_data->m_physicsClient, args.m_fileName.c_str()); b3LoadSdfCommandSetUseMultiBody(command, args.m_useMultiBody); statusHandle = submitClientCommandAndWaitStatusMultiThreaded(m_data->m_physicsClient, command); statusType = b3GetStatusType(statusHandle); b3Assert(statusType == CMD_SDF_LOADING_COMPLETED); if (statusType == CMD_SDF_LOADING_COMPLETED) { int numBodies = b3GetStatusBodyIndices(statusHandle, 0,0); if (numBodies) { results.m_uniqueObjectIds.resize(numBodies); int numBodies = b3GetStatusBodyIndices(statusHandle, &results.m_uniqueObjectIds[0],results.m_uniqueObjectIds.size()); } statusOk = true; } break; } default: { b3Warning("Unknown file type in b3RobotSimAPI::loadFile"); } } return statusOk; } bool b3RobotSimAPI::connect(GUIHelperInterface* guiHelper) { if (m_data->m_useMultiThreading) { m_data->m_multiThreadedHelper = new MultiThreadedOpenGLGuiHelper2(guiHelper->getAppInterface(), guiHelper); MultiThreadedOpenGLGuiHelper2* guiHelperWrapper = new MultiThreadedOpenGLGuiHelper2(guiHelper->getAppInterface(), guiHelper); m_data->m_threadSupport = createRobotSimThreadSupport(MAX_ROBOT_NUM_THREADS); for (int i = 0; i < m_data->m_threadSupport->getNumTasks(); i++) { RobotSimThreadLocalStorage* storage = (RobotSimThreadLocalStorage*)m_data->m_threadSupport->getThreadLocalMemory(i); b3Assert(storage); storage->threadId = i; //storage->m_sharedMem = data->m_sharedMem; } for (int w = 0; w < MAX_ROBOT_NUM_THREADS; w++) { m_data->m_args[w].m_cs = m_data->m_threadSupport->createCriticalSection(); m_data->m_args[w].m_cs->setSharedParam(0, eRobotSimIsUnInitialized); int numMoving = 0; m_data->m_args[w].m_positions.resize(numMoving); m_data->m_args[w].m_physicsServerPtr = &m_data->m_physicsServer; int index = 0; m_data->m_threadSupport->runTask(B3_THREAD_SCHEDULE_TASK, (void*)&m_data->m_args[w], w); while (m_data->m_args[w].m_cs->getSharedParam(0) == eRobotSimIsUnInitialized) { } } m_data->m_args[0].m_cs->setSharedParam(1, eRobotSimGUIHelperIdle); m_data->m_multiThreadedHelper->setCriticalSection(m_data->m_args[0].m_cs); bool serverConnected = m_data->m_physicsServer.connectSharedMemory(m_data->m_multiThreadedHelper); b3Assert(serverConnected); m_data->m_physicsClient = b3ConnectSharedMemory(SHARED_MEMORY_KEY); } else { m_data->m_clientServerDirect = new PhysicsDirect(); bool connected = m_data->m_clientServerDirect->connect(guiHelper); m_data->m_physicsClient = (b3PhysicsClientHandle)m_data->m_clientServerDirect; } //client connected m_data->m_connected = b3CanSubmitCommand(m_data->m_physicsClient); b3Assert(m_data->m_connected); return m_data->m_connected && m_data->m_connected; } void b3RobotSimAPI::disconnect() { if (m_data->m_useMultiThreading) { for (int i = 0; i < MAX_ROBOT_NUM_THREADS; i++) { m_data->m_args[i].m_cs->lock(); m_data->m_args[i].m_cs->setSharedParam(0, eRequestTerminateRobotSim); m_data->m_args[i].m_cs->unlock(); } int numActiveThreads = MAX_ROBOT_NUM_THREADS; while (numActiveThreads) { int arg0, arg1; if (m_data->m_threadSupport->isTaskCompleted(&arg0, &arg1, 0)) { numActiveThreads--; printf("numActiveThreads = %d\n", numActiveThreads); } else { } }; printf("stopping threads\n"); delete m_data->m_threadSupport; m_data->m_threadSupport = 0; } b3DisconnectSharedMemory(m_data->m_physicsClient); m_data->m_physicsServer.disconnectSharedMemory(true); m_data->m_connected = false; } void b3RobotSimAPI::debugDraw(int debugDrawMode) { if (m_data->m_clientServerDirect) { m_data->m_clientServerDirect->debugDraw(debugDrawMode); } } void b3RobotSimAPI::renderScene() { if (m_data->m_useMultiThreading) { if (m_data->m_multiThreadedHelper->m_childGuiHelper->getRenderInterface()) { m_data->m_multiThreadedHelper->m_childGuiHelper->getRenderInterface()->writeTransforms(); } } if (m_data->m_clientServerDirect) { m_data->m_clientServerDirect->renderScene(); } m_data->m_physicsServer.renderScene(); }