#include "PhysicsDirect.h" #include "PhysicsClientSharedMemory.h" #include "../CommonInterfaces/CommonGUIHelperInterface.h" #include "SharedMemoryCommands.h" #include "PhysicsServerCommandProcessor.h" #include "LinearMath/btHashMap.h" #include "LinearMath/btAlignedObjectArray.h" #include "../../Extras/Serialize/BulletFileLoader/btBulletFile.h" #include "../../Extras/Serialize/BulletFileLoader/autogenerated/bullet.h" #include "BodyJointInfoUtility.h" struct BodyJointInfoCache2 { btAlignedObjectArray m_jointInfo; }; struct PhysicsDirectInternalData { DummyGUIHelper m_noGfx; SharedMemoryCommand m_command; SharedMemoryStatus m_serverStatus; bool m_hasStatus; bool m_verboseOutput; btAlignedObjectArray m_debugLinesFrom; btAlignedObjectArray m_debugLinesTo; btAlignedObjectArray m_debugLinesColor; btHashMap m_bodyJointMap; char m_bulletStreamDataServerToClient[SHARED_MEMORY_MAX_STREAM_CHUNK_SIZE]; PhysicsServerCommandProcessor* m_commandProcessor; PhysicsDirectInternalData() :m_hasStatus(false), m_verboseOutput(false) { } }; PhysicsDirect::PhysicsDirect() { m_data = new PhysicsDirectInternalData; m_data->m_commandProcessor = new PhysicsServerCommandProcessor; } PhysicsDirect::~PhysicsDirect() { delete m_data->m_commandProcessor; delete m_data; } // return true if connection succesfull, can also check 'isConnected' bool PhysicsDirect::connect() { m_data->m_commandProcessor->setGuiHelper(&m_data->m_noGfx); return true; } ////todo: rename to 'disconnect' void PhysicsDirect::disconnectSharedMemory() { m_data->m_commandProcessor->setGuiHelper(0); } bool PhysicsDirect::isConnected() const { return true; } // return non-null if there is a status, nullptr otherwise const SharedMemoryStatus* PhysicsDirect::processServerStatus() { SharedMemoryStatus* stat = 0; if (m_data->m_hasStatus) { stat = &m_data->m_serverStatus; m_data->m_hasStatus = false; } return stat; } SharedMemoryCommand* PhysicsDirect::getAvailableSharedMemoryCommand() { return &m_data->m_command; } bool PhysicsDirect::canSubmitCommand() const { return true; } bool PhysicsDirect::processDebugLines(const struct SharedMemoryCommand& orgCommand) { SharedMemoryCommand command = orgCommand; const SharedMemoryStatus& serverCmd = m_data->m_serverStatus; do { bool hasStatus = m_data->m_commandProcessor->processCommand(command,m_data->m_serverStatus,&m_data->m_bulletStreamDataServerToClient[0],SHARED_MEMORY_MAX_STREAM_CHUNK_SIZE); m_data->m_hasStatus = hasStatus; if (hasStatus) { btAssert(m_data->m_serverStatus.m_type == CMD_DEBUG_LINES_COMPLETED); if (m_data->m_verboseOutput) { b3Printf("Success receiving %d debug lines", serverCmd.m_sendDebugLinesArgs.m_numDebugLines); } int numLines = serverCmd.m_sendDebugLinesArgs.m_numDebugLines; float* linesFrom = (float*)&m_data->m_bulletStreamDataServerToClient[0]; float* linesTo = (float*)(&m_data->m_bulletStreamDataServerToClient[0] + numLines * 3 * sizeof(float)); float* linesColor = (float*)(&m_data->m_bulletStreamDataServerToClient[0] + 2 * numLines * 3 * sizeof(float)); m_data->m_debugLinesFrom.resize(serverCmd.m_sendDebugLinesArgs.m_startingLineIndex + numLines); m_data->m_debugLinesTo.resize(serverCmd.m_sendDebugLinesArgs.m_startingLineIndex + numLines); m_data->m_debugLinesColor.resize( serverCmd.m_sendDebugLinesArgs.m_startingLineIndex + numLines); for (int i = 0; i < numLines; i++) { TmpFloat3 from = CreateTmpFloat3(linesFrom[i * 3], linesFrom[i * 3 + 1], linesFrom[i * 3 + 2]); TmpFloat3 to = CreateTmpFloat3(linesTo[i * 3], linesTo[i * 3 + 1], linesTo[i * 3 + 2]); TmpFloat3 color = CreateTmpFloat3(linesColor[i * 3], linesColor[i * 3 + 1], linesColor[i * 3 + 2]); m_data ->m_debugLinesFrom[serverCmd.m_sendDebugLinesArgs.m_startingLineIndex + i] = from; m_data->m_debugLinesTo[serverCmd.m_sendDebugLinesArgs.m_startingLineIndex + i] = to; m_data->m_debugLinesColor[serverCmd.m_sendDebugLinesArgs.m_startingLineIndex + i] = color; } if (serverCmd.m_sendDebugLinesArgs.m_numRemainingDebugLines > 0) { command.m_type = CMD_REQUEST_DEBUG_LINES; command.m_requestDebugLinesArguments.m_startingLineIndex = serverCmd.m_sendDebugLinesArgs.m_numDebugLines + serverCmd.m_sendDebugLinesArgs.m_startingLineIndex; } } } while (serverCmd.m_sendDebugLinesArgs.m_numRemainingDebugLines > 0); return m_data->m_hasStatus; } bool PhysicsDirect::submitClientCommand(const struct SharedMemoryCommand& command) { if (command.m_type==CMD_REQUEST_DEBUG_LINES) { return processDebugLines(command); } bool hasStatus = m_data->m_commandProcessor->processCommand(command,m_data->m_serverStatus,&m_data->m_bulletStreamDataServerToClient[0],SHARED_MEMORY_MAX_STREAM_CHUNK_SIZE); m_data->m_hasStatus = hasStatus; if (hasStatus) { const SharedMemoryStatus& serverCmd = m_data->m_serverStatus; switch (m_data->m_serverStatus.m_type) { case CMD_RESET_SIMULATION_COMPLETED: { m_data->m_debugLinesFrom.clear(); m_data->m_debugLinesTo.clear(); m_data->m_debugLinesColor.clear(); for (int i=0;im_bodyJointMap.size();i++) { BodyJointInfoCache2** bodyJointsPtr = m_data->m_bodyJointMap.getAtIndex(i); if (bodyJointsPtr && *bodyJointsPtr) { BodyJointInfoCache2* bodyJoints = *bodyJointsPtr; for (int j=0;jm_jointInfo.size();j++) { if (bodyJoints->m_jointInfo[j].m_jointName) { free(bodyJoints->m_jointInfo[j].m_jointName); } if (bodyJoints->m_jointInfo[j].m_linkName) { free(bodyJoints->m_jointInfo[j].m_linkName); } } delete (*bodyJointsPtr); } } m_data->m_bodyJointMap.clear(); break; } case CMD_URDF_LOADING_COMPLETED: { if (serverCmd.m_dataStreamArguments.m_streamChunkLength > 0) { bParse::btBulletFile bf( &m_data->m_bulletStreamDataServerToClient[0], serverCmd.m_dataStreamArguments.m_streamChunkLength); bf.setFileDNAisMemoryDNA(); bf.parse(false); int bodyIndex = serverCmd.m_dataStreamArguments.m_bodyUniqueId; BodyJointInfoCache2* bodyJoints = new BodyJointInfoCache2; m_data->m_bodyJointMap.insert(bodyIndex,bodyJoints); for (int i = 0; i < bf.m_multiBodies.size(); i++) { int flag = bf.getFlags(); if ((flag & bParse::FD_DOUBLE_PRECISION) != 0) { Bullet::btMultiBodyDoubleData* mb = (Bullet::btMultiBodyDoubleData*)bf.m_multiBodies[i]; addJointInfoFromMultiBodyData(mb,bodyJoints, m_data->m_verboseOutput); } else { Bullet::btMultiBodyFloatData* mb = (Bullet::btMultiBodyFloatData*)bf.m_multiBodies[i]; addJointInfoFromMultiBodyData(mb,bodyJoints, m_data->m_verboseOutput); } } if (bf.ok()) { if (m_data->m_verboseOutput) { b3Printf("Received robot description ok!\n"); } } else { b3Warning("Robot description not received"); } } break; } default: { // b3Error("Unknown server status type"); } }; } return hasStatus; } int PhysicsDirect::getNumJoints(int bodyIndex) const { BodyJointInfoCache2** bodyJointsPtr = m_data->m_bodyJointMap[bodyIndex]; if (bodyJointsPtr && *bodyJointsPtr) { BodyJointInfoCache2* bodyJoints = *bodyJointsPtr; return bodyJoints->m_jointInfo.size(); } btAssert(0); return 0; } void PhysicsDirect::getJointInfo(int bodyIndex, int jointIndex, struct b3JointInfo& info) const { BodyJointInfoCache2** bodyJointsPtr = m_data->m_bodyJointMap[bodyIndex]; if (bodyJointsPtr && *bodyJointsPtr) { BodyJointInfoCache2* bodyJoints = *bodyJointsPtr; info = bodyJoints->m_jointInfo[jointIndex]; } } ///todo: move this out of the void PhysicsDirect::setSharedMemoryKey(int key) { //m_data->m_physicsServer->setSharedMemoryKey(key); //m_data->m_physicsClient->setSharedMemoryKey(key); } void PhysicsDirect::uploadBulletFileToSharedMemory(const char* data, int len) { //m_data->m_physicsClient->uploadBulletFileToSharedMemory(data,len); } int PhysicsDirect::getNumDebugLines() const { return m_data->m_debugLinesFrom.size(); } const float* PhysicsDirect::getDebugLinesFrom() const { if (getNumDebugLines()) { return &m_data->m_debugLinesFrom[0].m_x; } return 0; } const float* PhysicsDirect::getDebugLinesTo() const { if (getNumDebugLines()) { return &m_data->m_debugLinesTo[0].m_x; } return 0; } const float* PhysicsDirect::getDebugLinesColor() const { if (getNumDebugLines()) { return &m_data->m_debugLinesColor[0].m_x; } return 0; }