SpaceBall::SpaceBall(VRDevice::Factory* sFactory,VRDeviceManager* sDeviceManager,Misc::ConfigurationFile& configFile) :VRDevice(sFactory,sDeviceManager,configFile), devicePort(configFile.retrieveString("./devicePort").c_str()), linearGain(configFile.retrieveValue<double>("./linearGain",1.0)), angularGain(configFile.retrieveValue<double>("./angularGain",1.0)), currentPositionOrientation(configFile.retrieveValue<PositionOrientation>("./initialState")) { /* Set device configuration: */ setNumTrackers(1,configFile); setNumButtons(12,configFile); /* Set device port parameters: */ int deviceBaudRate=configFile.retrieveValue<int>("./deviceBaudRate",9600); devicePort.setSerialSettings(deviceBaudRate,8,Comm::SerialPort::PARITY_NONE,2,false); devicePort.setRawMode(1,0); /* Wait for the fourth carriage return to arrive (end of startup message): */ #ifdef VERBOSE printf("SpaceBall: Reading initialization message\n"); fflush(stdout); #endif int numCrs=0; while(numCrs<4) if(devicePort.readByte()=='\r') ++numCrs; }
RemoteDevice::RemoteDevice(VRDevice::Factory* sFactory,VRDeviceManager* sDeviceManager,Misc::ConfigurationFile& configFile) :VRDevice(sFactory,sDeviceManager,configFile), pipe(configFile.retrieveString("./serverName").c_str(),configFile.retrieveValue<int>("./serverPort")) { /* Initiate connection: */ #ifdef VERBOSE printf("RemoteDevice: Connecting to device server\n"); fflush(stdout); #endif pipe.writeMessage(Vrui::VRDevicePipe::CONNECT_REQUEST); /* Wait for server's reply: */ if(!pipe.waitForData(Misc::Time(10,0))) // Throw exception if reply does not arrive in time Misc::throwStdErr("RemoteDevice: Timeout while waiting for CONNECT_REPLY"); if(pipe.readMessage()!=Vrui::VRDevicePipe::CONNECT_REPLY) Misc::throwStdErr("RemoteDevice: Mismatching message while waiting for CONNECT_REPLY"); /* Read server's layout and initialize current state: */ state.readLayout(pipe); #ifdef VERBOSE printf("RemoteDevice: Serving %d trackers, %d buttons, %d valuators\n",state.getNumTrackers(),state.getNumButtons(),state.getNumValuators()); fflush(stdout); #endif setNumTrackers(state.getNumTrackers(),configFile); setNumButtons(state.getNumButtons(),configFile); setNumValuators(state.getNumValuators(),configFile); }
FakespacePinchGlove::FakespacePinchGlove(VRDevice::Factory* sFactory,VRDeviceManager* sDeviceManager,Misc::ConfigurationFile& configFile) :VRDevice(sFactory,sDeviceManager,configFile), devicePort(configFile.retrieveString("./devicePort").c_str()), reportEvents(false) { /* Set device configuration: */ setNumButtons(2*4,configFile); // Four buttons for each hand /* Set device port parameters: */ int deviceBaudRate=configFile.retrieveValue<int>("./deviceBaudRate"); devicePort.setSerialSettings(deviceBaudRate,8,Comm::SerialPort::PARITY_NONE,1,false); devicePort.setRawMode(1,0); /* Synchronize the device's command stream: */ #ifdef VERBOSE printf("FakespacePinchGlove: Synchronizing command stream\n"); fflush(stdout); #endif devicePort.writeByte('*'); // Write a byte to complete eventually incomplete command sequences if(!devicePort.waitForByte(Misc::Time(0.5))) devicePort.writeByte('*'); // We screwed things up; write another byte to complete the first completion byte if(devicePort.waitForByte(Misc::Time(0.5))) ignoreReply(); // Ignore the device's reply else Misc::throwStdErr("FakespacePinchGlove: Pinch glove device not responding"); /* Set device parameters: */ char replyBuffer[256]; /* Turn off timestamps: */ #ifdef VERBOSE printf("FakespacePinchGlove: Turning off timestamps\n"); fflush(stdout); #endif writeCommand("T0"); readReply(256,replyBuffer); if(replyBuffer[0]!='0') Misc::throwStdErr("FakespacePinchGlove: Unable to disable time stamps on pinch glove device"); /* Set inferface to version 1: */ #ifdef VERBOSE printf("FakespacePinchGlove: Setting interface version\n"); fflush(stdout); #endif writeCommand("V1"); readReply(256,replyBuffer); if(replyBuffer[0]!='1') Misc::throwStdErr("FakespacePinchGlove: Unable to set interface version on pinch glove device"); /* Initialize pinch masks: */ for(int i=0;i<2;++i) pinchMasks[i]=0x0; /* Start device thread (pinch glove device cannot be disabled): */ startDeviceThread(); }
Joystick::Joystick(VRDevice::Factory* sFactory,VRDeviceManager* sDeviceManager,Misc::ConfigurationFile& configFile) :VRDevice(sFactory,sDeviceManager,configFile), joystickDeviceFd(open(configFile.retrieveString("./joystickDeviceFile").c_str(),O_RDONLY)), axisGains(0), reportEvents(false), buttonStates(0),valuatorStates(0) { /* Check if the joystick device port was properly opened: */ if(joystickDeviceFd<0) Misc::throwStdErr("Joystick: Unable to open joystick device port"); /* Query the joystick's geometry: */ char cNumButtons,cNumAxes; ioctl(joystickDeviceFd,JSIOCGBUTTONS,&cNumButtons); ioctl(joystickDeviceFd,JSIOCGAXES,&cNumAxes); #ifdef VERBOSE /* Query the joystick's name: */ char joystickName[256]; if(ioctl(joystickDeviceFd,JSIOCGNAME(sizeof(joystickName)),joystickName)>=0) { joystickName[sizeof(joystickName)-1]='\0'; printf("Joystick: %s with %d buttons and %d axes found\n",joystickName,int(cNumButtons),int(cNumAxes)); } else printf("Joystick: Unknown joystick with %d buttons and %d axes found\n",int(cNumButtons),int(cNumAxes)); #endif /* Set device configuration: */ setNumTrackers(0,configFile); setNumButtons(cNumButtons,configFile); setNumValuators(cNumAxes,configFile); /* Initialize gain arrays: */ axisGains=new float[getNumValuators()]; for(int i=0; i<getNumValuators(); ++i) { char axisGainTag[40]; snprintf(axisGainTag,sizeof(axisGainTag),"./axisGain%d",i); axisGains[i]=configFile.retrieveValue<float>(axisGainTag,1.0f); } /* Initialize state arrays: */ buttonStates=new bool[getNumButtons()]; for(int i=0; i<getNumButtons(); ++i) buttonStates[i]=false; valuatorStates=new float[getNumValuators()]; for(int i=0; i<getNumValuators(); ++i) valuatorStates[i]=0.0f; /* Start device thread (joystick device cannot be disabled): */ startDeviceThread(); }
MouseButtons::MouseButtons(VRDevice::Factory* sFactory,VRDeviceManager* sDeviceManager,Misc::ConfigurationFile& configFile) :VRDevice(sFactory,sDeviceManager,configFile), mouseDeviceFile(configFile.retrieveString("./mouseDeviceFile").c_str(),"rb",Misc::File::DontCare), reportEvents(false) { /* Set device's layout: */ setNumButtons(3,configFile); /* Initialize button states: */ for(int i=0;i<3;++i) buttonStates[i]=false; /* Start device thread (mouse button device cannot be disabled): */ startDeviceThread(); }
SpaceBallRaw::SpaceBallRaw(VRDevice::Factory* sFactory,VRDeviceManager* sDeviceManager,Misc::ConfigurationFile& configFile) :VRDevice(sFactory,sDeviceManager,configFile), devicePort(configFile.retrieveString("./devicePort").c_str()) { /* Set device configuration: */ setNumTrackers(0,configFile); setNumButtons(12,configFile); setNumValuators(6,configFile); /* Read axis manipulation factors: */ double axisGain=configFile.retrieveValue<double>("./axisGain",1.0); double linearAxisGain=configFile.retrieveValue<double>("./linearAxisGain",axisGain); double angularAxisGain=configFile.retrieveValue<double>("./angularAxisGain",axisGain); for(int i=0;i<6;++i) { char axisGainTag[40]; snprintf(axisGainTag,sizeof(axisGainTag),"./axisGain%d",i); axisGains[i]=configFile.retrieveValue<double>(axisGainTag,i<3?linearAxisGain:angularAxisGain); } /* Set device port parameters: */ int deviceBaudRate=configFile.retrieveValue<int>("./deviceBaudRate",9600); devicePort.setSerialSettings(deviceBaudRate,8,Comm::SerialPort::PARITY_NONE,2,false); devicePort.setRawMode(1,0); /* Wait for status message from device: */ #ifdef VERBOSE printf("SpaceBallRaw: Reading initialization message\n"); fflush(stdout); #endif char lineBuffer[256]; const int numResponses=4; char* responseTexts[numResponses]={"\021","@1 Spaceball alive and well","","@2 Firmware version"}; int responseLengths[numResponses]={2,27,1,19}; for(int i=0;i<numResponses;++i) { /* Try reading a line from the device port: */ if(!readLine(256,lineBuffer,10.0)) Misc::throwStdErr("SpaceBallRaw: Timeout while reading status message"); /* Check if line is correct SpaceBall response: */ if(strncmp(lineBuffer,responseTexts[i],responseLengths[i])!=0) Misc::throwStdErr("SpaceBallRaw: Incorrect response while reading status message"); } }
PCWand::PCWand(VRDevice::Factory* sFactory,VRDeviceManager* sDeviceManager,Misc::ConfigurationFile& configFile) :VRDevice(sFactory,sDeviceManager,configFile), devicePort(configFile.retrieveString("./devicePort").c_str()), reportEvents(false) { /* Set device configuration: */ setNumButtons(3,configFile); setNumValuators(2,configFile); /* Set device port parameters: */ devicePort.ref(); int deviceBaudRate=configFile.retrieveValue<int>("./deviceBaudRate"); devicePort.setSerialSettings(deviceBaudRate,8,Comm::SerialPort::NoParity,1,false); devicePort.setRawMode(1,0); /* Initialize device values: */ for(int i=0; i<numButtons; ++i) deviceButtonStates[i]=false; for(int i=0; i<numValuators; ++i) deviceValuatorStates[i]=0.0f; /* Start device thread (dedicated PC cannot be disabled): */ startDeviceThread(); }
InterSense::InterSense(VRDevice::Factory* sFactory,VRDeviceManager* sDeviceManager,Misc::ConfigurationFile& configFile) :VRDevice(sFactory,sDeviceManager,configFile), serialPort(configFile.retrieveString("./serialPort").c_str()), stations(0), timers(0),notFirstMeasurements(0),oldPositionOrientations(0) { /* Set device port parameters: */ int deviceBaudRate=configFile.retrieveValue<int>("./deviceBaudRate"); serialPort.setSerialSettings(deviceBaudRate,8,Comm::SerialPort::PARITY_NONE,1,false); serialPort.setRawMode(1,0); if(configFile.retrieveValue<bool>("./resetDevice",false)) { /* Reset device: */ #ifdef VERBOSE printf("InterSense: Resetting device\n"); fflush(stdout); #endif serialPort.writeByte('\31'); delay(15.0); } else { /* Stop continuous mode (in case it's still active): */ #ifdef VERBOSE printf("InterSense: Disabling continuous mode\n"); fflush(stdout); #endif serialPort.writeByte('c'); } /* Request status record to check if device is okey-dokey: */ #ifdef VERBOSE printf("InterSense: Requesting status record\n"); fflush(stdout); #endif serialPort.writeByte('S'); if(!readStatusReply()) { /* Try resetting the device, seeing if that helps: */ #ifdef VERBOSE printf("InterSense: Resetting device\n"); fflush(stdout); #endif serialPort.writeByte('\31'); delay(15.0); /* Request another status record: */ #ifdef VERBOSE printf("InterSense: Re-requesting status record\n"); fflush(stdout); #endif serialPort.writeByte('S'); if(!readStatusReply()) Misc::throwStdErr("InterSense: Device not responding"); } /* Get the array of station enable flags: */ #ifdef VERBOSE printf("InterSense: Detecting enabled stations\n"); fflush(stdout); #endif serialPort.writeString("l*\r\n"); delay(0.1); char buffer[256]; readLine(sizeof(buffer),buffer,Misc::Time(1.0)); if(strncmp(buffer,"21l",3)!=0) Misc::throwStdErr("InterSense: Unable to detect enabled stations"); /* Disable all stations: */ for(int i=0;i<32;++i) { stationIdToIndex[i]=-1; if(buffer[i+3]=='1') { char command[20]; snprintf(command,sizeof(command),"l%d,0\r\n",i+1); serialPort.writeString(command); delay(0.1); } } /* Probe the constellation configuration if asked: */ if(configFile.retrieveValue<bool>("./probeConstellation",false)) { /* Check if the device has a valid constellation configuration: */ #ifdef VERBOSE printf("InterSense: Probing constellation configuration\n"); fflush(stdout); #endif serialPort.writeString("MCF\r\n"); delay(0.1); int numTransmitters=0; while(true) { /* Read the next transmitter line: */ readLine(sizeof(buffer),buffer,Misc::Time(1.0)); /* Check if it's a valid transmitter line: */ int transmitterNum,transmitterId; double posX,posY,posZ,dirX,dirY,dirZ; if(sscanf(buffer,"31F %d %lf %lf %lf %lf %lf %lf %d",&transmitterNum,&posX,&posY,&posZ,&dirX,&dirY,&dirZ,&transmitterId)!=8) break; /* Increase the number of transmitters: */ ++numTransmitters; } #ifdef VERBOSE printf("InterSense: Detected %d configured transmitters\n",numTransmitters); fflush(stdout); #endif } /* Upload a constellation configuration if asked: */ std::string constellationName=configFile.retrieveString("./uploadConstellationConfiguration",""); if(constellationName!="") { #ifdef VERBOSE printf("InterSense: Uploading constellation configuration %s\n",constellationName.c_str()); fflush(stdout); #endif /* Go to constellation configuration's section: */ configFile.setCurrentSection(constellationName.c_str()); Transmitter* transmitters=0; try { /* Get the number of configured transmitters and the base number for internal IDs: */ int numTransmitters=configFile.retrieveValue<int>("./numTransmitters"); int transmitterIdBase=configFile.retrieveValue<int>("./transmitterIdBase",5001); /* Get the conversion factor from configuration units to meters: */ float unitSize=configFile.retrieveValue<float>("./unitSize",1.0f); /* Read all transmitter configurations to check for validity first: */ transmitters=new Transmitter[numTransmitters]; for(int i=0;i<numTransmitters;++i) { /* Read the transmitter's configuration: */ char transmitterName[20]; snprintf(transmitterName,sizeof(transmitterName),"./MCF%d",i+1); transmitters[i]=configFile.retrieveValue<Transmitter>(transmitterName); /* Convert the transmitter's position to meters: */ for(int j=0;j<3;++j) transmitters[i].pos[j]*=unitSize; /* Normalize the transmitter's direction: */ transmitters[i].dir.normalize(); } /* Upload constellation configuration to device: */ serialPort.writeString("MCC\r\n"); delay(0.1); for(int i=0;i<numTransmitters;++i) { const Transmitter& t=transmitters[i]; char transmitterLine[256]; snprintf(transmitterLine,sizeof(transmitterLine), "MCF%d, %8.4f, %8.4f, %8.4f, %6.3f, %6.3f, %6.3f, %d\r\n", i+1,t.pos[0],t.pos[1],t.pos[2],t.dir[0],t.dir[1],t.dir[2],i+transmitterIdBase); serialPort.writeString(transmitterLine); delay(0.1); } serialPort.writeString("MCe\r\n"); delay(0.1); } catch(std::runtime_error err) { printf("InterSense: Ignoring constellation configuration %s due to exception %s\n",constellationName.c_str(),err.what()); } /* Clean up: */ delete[] transmitters; /* Go back to device's section: */ configFile.setCurrentSection(".."); } /* Retrieve list of station names: */ typedef std::vector<std::string> StringList; StringList stationNames=configFile.retrieveValue<StringList>("./stationNames"); setNumTrackers(stationNames.size(),configFile); stations=new Station[numTrackers]; int totalNumButtons=0; int totalNumValuators=0; /* Initialize all tracked stations: */ #ifdef VERBOSE printf("InterSense: Initializing tracked stations\n"); fflush(stdout); #endif for(int i=0;i<numTrackers;++i) { char command[80]; /* Go to station's section: */ configFile.setCurrentSection(stationNames[i].c_str()); /* Read station's configuration: */ stations[i].id=configFile.retrieveValue<int>("./id",i+1); stationIdToIndex[stations[i].id]=i; stations[i].numButtons=configFile.retrieveValue<int>("./numButtons",0); stations[i].firstButtonIndex=totalNumButtons; totalNumButtons+=stations[i].numButtons; stations[i].joystick=configFile.retrieveValue<bool>("./joystick",false); stations[i].firstValuatorIndex=totalNumValuators; if(stations[i].joystick) totalNumValuators+=2; /* Enable station: */ snprintf(command,sizeof(command),"l%d,1\r\n",stations[i].id); serialPort.writeString(command); delay(0.1); /* Reset station's alignment frame: */ snprintf(command,sizeof(command),"R%d\r\n",stations[i].id); serialPort.writeString(command); delay(0.1); /* Disable boresight mode: */ snprintf(command,sizeof(command),"b%d\r\n",stations[i].id); serialPort.writeString(command); delay(0.1); /* Reset station's tip offset: */ snprintf(command,sizeof(command),"N%d,%8.4f,%8.4f,%8.4f\r\n",stations[i].id,0.0f,0.0f,0.0f); serialPort.writeString(command); delay(0.1); /* Set station's output format: */ snprintf(command,sizeof(command),"O%d,2,4,22,23,1\r\n",stations[i].id); serialPort.writeString(command); delay(0.1); /* Set stations' motion prediction: */ int predictionTime=configFile.retrieveValue<int>("./predictionTime",0); snprintf(command,sizeof(command),"Mp%d,%d\r\n",stations[i].id,predictionTime); serialPort.writeString(command); delay(0.1); /* Set stations' perceptual enhancement level: */ int perceptualEnhancement=configFile.retrieveValue<int>("./perceptualEnhancement",2); snprintf(command,sizeof(command),"MF%d,%d\r\n",stations[i].id,perceptualEnhancement); serialPort.writeString(command); delay(0.1); /* Set station's rotational sensitivity: */ int rotationalSensitivity=configFile.retrieveValue<int>("./rotationalSensitivity",3); snprintf(command,sizeof(command),"MQ%d,%d\r\n",stations[i].id,rotationalSensitivity); serialPort.writeString(command); delay(0.1); /* Go back to device's section: */ configFile.setCurrentSection(".."); } /* Enable/disable sonistrip LEDs: */ if(configFile.retrieveValue<bool>("./enableLEDs",true)) { /* Enable LEDs: */ #ifdef VERBOSE printf("InterSense: Enabling sonistrip LEDs\n"); fflush(stdout); #endif serialPort.writeString("ML1\r\n"); delay(0.1); } else { /* Enable LEDs: */ #ifdef VERBOSE printf("InterSense: Disabling sonistrip LEDs\n"); fflush(stdout); #endif serialPort.writeString("ML0\r\n"); delay(0.1); } /* Set unit mode to inches: */ #ifdef VERBOSE printf("InterSense: Setting unit mode\n"); fflush(stdout); #endif serialPort.writeByte('U'); delay(0.1); /* Enable binary mode: */ #ifdef VERBOSE printf("InterSense: Enabling binary mode\n"); fflush(stdout); #endif serialPort.writeByte('f'); /* Set number of buttons and valuators: */ setNumButtons(totalNumButtons,configFile); setNumValuators(totalNumValuators,configFile); /* Create free-running timers: */ timers=new Misc::Timer[numTrackers]; notFirstMeasurements=new bool[numTrackers]; oldPositionOrientations=new PositionOrientation[numTrackers]; }
VRPNClient::VRPNClient(VRDevice::Factory* sFactory,VRDeviceManager* sDeviceManager,Misc::ConfigurationFile& configFile) :VRDevice(sFactory,sDeviceManager,configFile), VRPNConnection(configFile.retrieveString("./serverName").c_str(),configFile.retrieveValue<int>("./serverPort",3883)), reportEvents(false), trackerStates(0),trackerFlags(0),buttonStates(0),valuatorStates(0) { #ifdef VERBOSE printf("VRPNClient: Initializing senders..."); fflush(stdout); #endif /* Check if the z axis if incoming position data needs to be flipped: */ setFlipZAxis(configFile.retrieveValue<bool>("./flipZAxis",false)); /* Retrieve list of sender names: */ typedef std::vector<std::string> StringList; StringList senderNames=configFile.retrieveValue<StringList>("./senderNames"); /* Process all senders: */ int totalNumTrackers=0; int totalNumButtons=0; int totalNumValuators=0; for(StringList::const_iterator snIt=senderNames.begin();snIt!=senderNames.end();++snIt) { /* Go to the sender's section: */ configFile.setCurrentSection(snIt->c_str()); /* Read the number of trackers, buttons, and valuators for this sender: */ int numTrackers=configFile.retrieveValue<int>("./numTrackers",0); if(numTrackers>0) { requestTrackers(snIt->c_str(),totalNumTrackers,numTrackers); totalNumTrackers+=numTrackers; } int numButtons=configFile.retrieveValue<int>("./numButtons",0); if(numButtons>0) { requestButtons(snIt->c_str(),totalNumButtons,numButtons); totalNumButtons+=numButtons; } int numValuators=configFile.retrieveValue<int>("./numValuators",0); if(numValuators>0) { requestValuators(snIt->c_str(),totalNumValuators,numValuators); totalNumValuators+=numValuators; } /* Go back to device's section: */ configFile.setCurrentSection(".."); } #ifdef VERBOSE printf(" done\n"); fflush(stdout); #endif /* Set number of trackers, buttons, and valuators: */ setNumTrackers(totalNumTrackers,configFile); setNumButtons(totalNumButtons,configFile); setNumValuators(totalNumValuators,configFile); /* Read the initial position/orientation for all trackers: */ PositionOrientation defaultPosition=configFile.retrieveValue<PositionOrientation>("./defaultPosition",PositionOrientation::identity); /* Initialize the local state arrays: */ trackerStates=new TrackerState[getNumTrackers()]; trackerFlags=new int[getNumTrackers()]; for(int i=0;i<getNumTrackers();++i) { trackerStates[i].positionOrientation=defaultPosition; trackerStates[i].linearVelocity=LinearVelocity::zero; trackerStates[i].angularVelocity=AngularVelocity::zero; trackerFlags[i]=0x0; } buttonStates=new ButtonState[getNumButtons()]; for(int i=0;i<getNumButtons();++i) buttonStates[i]=false; valuatorStates=new ValuatorState[getNumValuators()]; for(int i=0;i<getNumValuators();++i) valuatorStates[i]=ValuatorState(0); /* Start device communication thread: */ startDeviceThread(); }
HIDDevice::HIDDevice(VRDevice::Factory* sFactory,VRDeviceManager* sDeviceManager,Misc::ConfigurationFile& configFile) :VRDevice(sFactory,sDeviceManager,configFile), deviceFd(-1), keyMap(0), absAxisMap(0),relAxisMap(0),axisConverters(0), reportEvents(false), buttonStates(0),valuatorStates(0) { /* First option: Open device by explicit event device file name: */ if(deviceFd<0) { std::string deviceFileName=configFile.retrieveString("./deviceFileName",""); if(deviceFileName!="") { #ifdef VERBOSE printf("HIDDevice: Opening device %s\n",deviceFileName.c_str()); fflush(stdout); #endif deviceFd=open(deviceFileName.c_str(),O_RDONLY); if(deviceFd<0) Misc::throwStdErr("HIDDevice: Unable to open device file \"%s\"",deviceFileName.c_str()); } } /* Second option: Open device by vendor ID / product ID: */ if(deviceFd<0) { std::string deviceVendorProductId=configFile.retrieveString("./deviceVendorProductId",""); if(deviceVendorProductId!="") { /* Split ID string into vendor ID / product ID: */ char* colonPtr; int vendorId=strtol(deviceVendorProductId.c_str(),&colonPtr,16); char* endPtr; int productId=strtol(colonPtr+1,&endPtr,16); if(*colonPtr!=':'||*endPtr!='\0'||vendorId<0||productId<0) Misc::throwStdErr("HIDDevice: Malformed vendorId:productId string \"%s\"",deviceVendorProductId.c_str()); #ifdef VERBOSE printf("HIDDevice: Searching device %04x:%04x\n",vendorId,productId); fflush(stdout); #endif deviceFd=findDevice(vendorId,productId); if(deviceFd<0) Misc::throwStdErr("HIDDevice: No device with vendorId:productId %04x:%04x found",vendorId,productId); } } /* Third option: Open device by device name: */ if(deviceFd<0) { std::string deviceName=configFile.retrieveString("./deviceName",""); if(deviceName!="") { #ifdef VERBOSE printf("HIDDevice: Searching device %s\n",deviceName.c_str()); fflush(stdout); #endif deviceFd=findDevice(deviceName.c_str()); if(deviceFd<0) Misc::throwStdErr("HIDDevice: No device with name \"%s\" found",deviceName.c_str()); } } /* Bail out if no device was found: */ if(deviceFd<0) Misc::throwStdErr("HIDDevice: No device specified"); /* Set number of trackers on device: */ setNumTrackers(0,configFile); /* Query all feature types of the device: */ unsigned char featureTypeBits[EV_MAX/8+1]; memset(featureTypeBits,0,EV_MAX/8+1); if(ioctl(deviceFd,EVIOCGBIT(0,sizeof(featureTypeBits)),featureTypeBits)<0) Misc::throwStdErr("HIDDevice: Unable to query device feature types"); /* Query the number of keys on the device: */ if(featureTypeBits[EV_KEY/8]&(1<<(EV_KEY%8))) { #ifdef VERBOSE printf("HIDDevice: Initializing buttons...\n"); fflush(stdout); #endif /* Query key features: */ unsigned char keyBits[KEY_MAX/8+1]; memset(keyBits,0,KEY_MAX/8+1); if(ioctl(deviceFd,EVIOCGBIT(EV_KEY,sizeof(keyBits)),keyBits)<0) Misc::throwStdErr("HIDDevice: Unable to query device key features"); /* Initialize the key translation array: */ keyMap=new int[KEY_MAX+1]; int numKeys=0; for(int i=0;i<=KEY_MAX;++i) { if(keyBits[i/8]&(1<<(i%8))) { keyMap[i]=numKeys; ++numKeys; } else keyMap[i]=-1; } /* Set number of buttons on device: */ #ifdef VERBOSE printf("HIDDevice: %d buttons found\n",numKeys); fflush(stdout); #endif setNumButtons(numKeys,configFile); } else setNumButtons(0,configFile); /* Count the number of absolute and relative axes: */ int numAxes=0; /* Query the number of absolute axes on the device: */ if(featureTypeBits[EV_ABS/8]&(1<<(EV_ABS%8))) { #ifdef VERBOSE printf("HIDDevice: Initializing absolute axes...\n"); fflush(stdout); #endif /* Query absolute axis features: */ unsigned char absAxisBits[ABS_MAX/8+1]; memset(absAxisBits,0,ABS_MAX/8+1); if(ioctl(deviceFd,EVIOCGBIT(EV_ABS,sizeof(absAxisBits)),absAxisBits)<0) Misc::throwStdErr("HIDDevice: Unable to query device absolute axis features"); /* Initialize the axis translation array: */ absAxisMap=new int[ABS_MAX+1]; int numAbsAxes=0; for(int i=0;i<=ABS_MAX;++i) { if(absAxisBits[i/8]&(1<<(i%8))) { absAxisMap[i]=numAxes; ++numAxes; ++numAbsAxes; } else absAxisMap[i]=-1; } #ifdef VERBOSE printf("HIDDevice: %d absolute axes found\n",numAbsAxes); fflush(stdout); #endif } /* Query the number of relative axes on the device: */ if(featureTypeBits[EV_REL/8]&(1<<(EV_REL%8))) { #ifdef VERBOSE printf("HIDDevice: Initializing relative axes...\n"); fflush(stdout); #endif /* Query relative axis features: */ unsigned char relAxisBits[REL_MAX/8+1]; memset(relAxisBits,0,REL_MAX/8+1); if(ioctl(deviceFd,EVIOCGBIT(EV_REL,sizeof(relAxisBits)),relAxisBits)<0) Misc::throwStdErr("HIDDevice: Unable to query device relative axis features"); /* Initialize the axis translation array: */ relAxisMap=new int[REL_MAX+1]; int numRelAxes=0; for(int i=0;i<=REL_MAX;++i) { if(relAxisBits[i/8]&(1<<(i%8))) { relAxisMap[i]=numAxes; ++numAxes; ++numRelAxes; } else relAxisMap[i]=-1; } #ifdef VERBOSE printf("HIDDevice: %d relative axes found\n",numRelAxes); fflush(stdout); #endif } /* Set number of valuators on device: */ setNumValuators(numAxes,configFile); /* Initialize axis converters: */ axisConverters=new AxisConverter[numAxes]; if(absAxisMap!=0) { /* Initialize absolute axis converters: */ #ifdef VERBOSE printf("HIDDevice: Initializing absolute axis converters\n"); fflush(stdout); #endif for(int i=0;i<=ABS_MAX;++i) if(absAxisMap[i]>=0) { /* Query configuration of this axis: */ input_absinfo absAxisConf; if(ioctl(deviceFd,EVIOCGABS(i),&absAxisConf)<0) Misc::throwStdErr("HIDDevice: Unable to query device absolute axis configuration"); #ifdef VERBOSE printf("Axis %2d: min %d, max %d, fuzz %d, flat %d\n",absAxisMap[i],absAxisConf.minimum,absAxisConf.maximum,absAxisConf.fuzz,absAxisConf.flat); fflush(stdout); #endif /* Initialize converter with queried values: */ AxisConverter& converter=axisConverters[absAxisMap[i]]; float mid=Math::mid(absAxisConf.minimum,absAxisConf.maximum); converter=AxisConverter(absAxisConf.minimum,mid-absAxisConf.flat,mid+absAxisConf.flat,absAxisConf.maximum); /* Override axis settings from configuration file: */ char axisSettingsTag[20]; snprintf(axisSettingsTag,sizeof(axisSettingsTag),"axis%dSettings",absAxisMap[i]); converter=configFile.retrieveValue<AxisConverter>(axisSettingsTag,converter); #ifdef VERBOSE printf("Axis %2d: %s\n",absAxisMap[i],Misc::ValueCoder<AxisConverter>::encode(converter).c_str()); fflush(stdout); #endif } } if(relAxisMap!=0) { /* Initialize relative axis converters: */ #ifdef VERBOSE printf("HIDDevice: Initializing relative axis converters\n"); fflush(stdout); #endif for(int i=0;i<=REL_MAX;++i) if(relAxisMap[i]>=0) { /* Initialize converter with default values: */ AxisConverter& converter=axisConverters[relAxisMap[i]]; converter=AxisConverter(-1.0f,1.0f); /* Override axis settings from configuration file: */ char axisSettingsTag[20]; snprintf(axisSettingsTag,sizeof(axisSettingsTag),"axis%dSettings",relAxisMap[i]); converter=configFile.retrieveValue<AxisConverter>(axisSettingsTag,converter); #ifdef VERBOSE printf("Axis %2d: %s\n",relAxisMap[i],Misc::ValueCoder<AxisConverter>::encode(converter).c_str()); fflush(stdout); #endif } } #if 0 /* Initialize gain arrays: */ valuatorGains=new float[getNumValuators()]; for(int i=0;i<getNumValuators();++i) { char valuatorGainTag[40]; snprintf(valuatorGainTag,sizeof(valuatorGainTag),"./valuatorGain%d",i); valuatorGains[i]=configFile.retrieveValue<float>(valuatorGainTag,1.0f); } #endif /* Initialize state arrays: */ buttonStates=new bool[getNumButtons()]; for(int i=0;i<getNumButtons();++i) buttonStates[i]=false; valuatorStates=new float[getNumValuators()]; for(int i=0;i<getNumValuators();++i) valuatorStates[i]=0.0f; /* Start device thread (HID device cannot be disabled): */ startDeviceThread(); }
AscensionFlockOfBirds::AscensionFlockOfBirds(VRDevice::Factory* sFactory,VRDeviceManager* sDeviceManager,Misc::ConfigurationFile& configFile) :VRDevice(sFactory,sDeviceManager,configFile), devicePort(configFile.retrieveString("./devicePort").c_str()), masterId(configFile.retrieveValue<int>("./masterId",1)), firstBirdId(configFile.retrieveValue<int>("./firstBirdId",1)), ercId(configFile.retrieveValue<int>("./ercId",-1)), ercTransmitterIndex(configFile.retrieveValue<int>("./ercTransmitterIndex",-1)), trackerRange(configFile.retrieveValue<double>("./trackerRange",36.0)), timers(0),notFirstMeasurements(0),oldPositionOrientations(0) { /* Query number of connected birds (includes ERC if present): */ int numBirds=configFile.retrieveValue<int>("./numBirds"); /* Set device configuration: */ setNumTrackers(ercId==-1?numBirds:numBirds-1,configFile); /* Create free-running timers: */ timers=new Misc::Timer[numTrackers]; notFirstMeasurements=new bool[numTrackers]; oldPositionOrientations=new PositionOrientation[numTrackers]; /* Set device port parameters: */ int deviceBaudRate=configFile.retrieveValue<int>("./deviceBaudRate"); devicePort.setSerialSettings(deviceBaudRate,8,Comm::SerialPort::PARITY_NONE,1,false); devicePort.setRawMode(1,0); /* Check status of all birds: */ bool allBirdsOk=true; for(int i=0;i<numBirds;++i) // if(i+firstBirdId!=ercId) { #ifdef VERBOSE printf("AscensionFlockOfBirds: Querying status of bird %d... ",i+firstBirdId); fflush(stdout); #endif devicePort.writeByte(0xf0|char(i+firstBirdId)); // Talk to bird i devicePort.writeByte(0x4f); // Examine value devicePort.writeByte(0x00); // Bird status if(devicePort.waitForByte(Misc::Time(2.0))) { /* Read the bird's answer: */ int reply=readShort(); #ifdef VERBOSE printf("ok (%.4x)\n",reply&0xffff); fflush(stdout); #endif } else { #ifdef VERBOSE printf("failed\n"); fflush(stdout); #endif allBirdsOk=false; } } /* Stop if not all birds responded: */ if(!allBirdsOk) Misc::throwStdErr("AscensionFlockOfBirds: Unable to communicate to all birds"); #if 0 /* Reset flock: */ #ifdef VERBOSE printf("AscensionFlockOfBirds: Resetting flock\n"); fflush(stdout); #endif devicePort.writeByte(0xf0|masterId); // Talk to FOB master devicePort.writeByte(0x2f); // FBB Reset delay(0.25); #endif /* Query flock configuration: */ #ifdef VERBOSE printf("AscensionFlockOfBirds: Querying flock configuration\n"); fflush(stdout); devicePort.writeByte(0xf0|masterId); // Talk to FOB master devicePort.writeByte(0x4f); // Change Value devicePort.writeByte(36); // Flock System Status delay(0.25); /* Receive flock state: */ char flockStates[14]; devicePort.readBytes(14,flockStates); /* Print status of all present birds: */ for(int i=0;i<14;++i) if(flockStates[i]&0x80) { printf("AscensionFlockOfBirds: Status of bird %d: %.2x\n",i+1,int(flockStates[i])&0xff); fflush(stdout); } #endif /* Set FOB to report position/angles: */ #ifdef VERBOSE printf("AscensionFlockOfBirds: Setting position/angles mode on all birds\n"); fflush(stdout); #endif for(int i=0;i<numBirds;++i) if(i+firstBirdId!=ercId) { devicePort.writeByte(0xf0|char(i+firstBirdId)); // Talk to bird i devicePort.writeByte(0x59); // Position/Angles mode delay(0.25); } /* Set FOB's hemisphere: */ char hemisphereBytes[6][2]={{0x00,0x00},{0x00,0x01},{0x0c,0x00},{0x0c,0x01},{0x06,0x00},{0x06,0x01}}; std::string hemisphere=configFile.retrieveString("./trackerHemisphere","Forward"); int hemisphereIndex=-1; if(hemisphere=="Forward"||hemisphere=="+X") hemisphereIndex=0; else if(hemisphere=="Aft"||hemisphere=="Rear"||hemisphere=="-X") hemisphereIndex=1; else if(hemisphere=="Lower"||hemisphere=="+Z") hemisphereIndex=2; else if(hemisphere=="Upper"||hemisphere=="-Z") hemisphereIndex=3; else if(hemisphere=="Right"||hemisphere=="+Y") hemisphereIndex=4; else if(hemisphere=="Left"||hemisphere=="-Y") hemisphereIndex=5; else Misc::throwStdErr("AscensionFlockOfBirds: Unrecognized hemisphere value %s",hemisphere.c_str()); #ifdef VERBOSE printf("AscensionFlockOfBirds: Setting hemisphere on all birds\n"); fflush(stdout); #endif for(int i=0;i<numBirds;++i) if(i+firstBirdId!=ercId) { devicePort.writeByte(0xf0|char(i+firstBirdId)); // Talk to bird i devicePort.writeByte(0x4c); // Hemisphere devicePort.writeByte(hemisphereBytes[hemisphereIndex][0]); // Code (pt 1) devicePort.writeByte(hemisphereBytes[hemisphereIndex][1]); // Code (pt 2) delay(0.25); } /* Set FOB's tracking range: */ if(ercId!=-1) trackerRange=144.0; else if(trackerRange<Math::sqrt(36.0*72.0)) trackerRange=36.0; else trackerRange=72.0; if(ercId==-1) { #ifdef VERBOSE printf("AscensionFlockOfBirds: Setting tracking range on all birds\n"); fflush(stdout); #endif for(int i=0;i<numBirds;++i) { devicePort.writeByte(0xf0|char(i+firstBirdId)); // Talk to bird i devicePort.writeByte(0x50); // Change Value devicePort.writeByte(3); // Position Scaling if(trackerRange==36.0) { devicePort.writeByte(0x0); // 36 inch max range, pt. 1 devicePort.writeByte(0x0); // 36 inch max range, pt. 2 } else { devicePort.writeByte(0x1); // 72 inch max range, pt. 1 devicePort.writeByte(0x0); // 72 inch max range, pt. 2 } delay(0.25); } } /* Enable flock mode: */ #ifdef VERBOSE printf("AscensionFlockOfBirds: Starting auto-configuration\n"); fflush(stdout); #endif delay(0.35); devicePort.writeByte(0xf0|masterId); // Talk to FOB master devicePort.writeByte(0x50); // Change Value devicePort.writeByte(50); // FBB Auto-Configuration devicePort.writeByte(char(numBirds)); // numTrackers birds delay(0.6); #ifdef VERBOSE printf("AscensionFlockOfBirds: Enabling group mode\n"); fflush(stdout); #endif devicePort.writeByte(0xf0|masterId); // Talk to FOB master devicePort.writeByte(0x50); // Change Value devicePort.writeByte(35); // Group Mode devicePort.writeByte(1); // Enable delay(0.25); if(ercId!=-1) { /* Activate ERC's transmitter: */ #ifdef VERBOSE printf("AscensionFlockOfBirds: Enabling ERC transmitter\n"); fflush(stdout); #endif devicePort.writeByte(0xf0|masterId); // Talk to FOB master devicePort.writeByte(0x30); // Next Transmitter devicePort.writeByte(((ercId&0xf)<<4)|ercTransmitterIndex); // ID of extended range controller and transmitter index delay(0.25); } /* Put birds to sleep: */ #ifdef VERBOSE printf("AscensionFlockOfBirds: Disabling stream mode\n"); fflush(stdout); #endif devicePort.writeByte(0xf0|masterId); // Talk to FOB master devicePort.writeByte(0x42); // Point delay(0.25); #ifdef VERBOSE printf("AscensionFlockOfBirds: Disabling tracker device\n"); fflush(stdout); #endif devicePort.writeByte(0xf0|masterId); // Talk to FOB master devicePort.writeByte(0x47); // Sleep }
PolhemusFastrak::PolhemusFastrak(VRDevice::Factory* sFactory,VRDeviceManager* sDeviceManager,Misc::ConfigurationFile& configFile) :VRDevice(sFactory,sDeviceManager,configFile), devicePort(configFile.retrieveString("./devicePort").c_str()), stylusEnabled(configFile.retrieveValue<bool>("./stylusEnabled",true)), timers(0),notFirstMeasurements(0),oldPositionOrientations(0) { /* Set device configuration: */ setNumTrackers(configFile.retrieveValue<int>("./numReceivers",4),configFile); if(stylusEnabled) setNumButtons(1,configFile); // Assume that first receiver is a stylus /* Create free-running timers: */ timers=new Misc::Timer[numTrackers]; notFirstMeasurements=new bool[numTrackers]; oldPositionOrientations=new PositionOrientation[numTrackers]; /* Set device port parameters: */ int deviceBaudRate=configFile.retrieveValue<int>("./deviceBaudRate"); devicePort.setSerialSettings(deviceBaudRate,8,Comm::SerialPort::PARITY_NONE,1,false); devicePort.setRawMode(1,0); if(configFile.retrieveValue<bool>("./resetDevice",false)) { /* Reset device: */ #ifdef VERBOSE printf("PolhemusFastrak: Resetting device\n"); fflush(stdout); #endif devicePort.writeByte('\31'); delay(15.0); } else { /* Stop continuous mode (in case it's still active): */ #ifdef VERBOSE printf("PolhemusFastrak: Disabling continuous mode\n"); fflush(stdout); #endif devicePort.writeByte('c'); } /* Request status record to check if device is okey-dokey: */ #ifdef VERBOSE printf("PolhemusFastrak: Requesting status record\n"); fflush(stdout); #endif devicePort.writeByte('S'); if(!readStatusReply()) { /* Try resetting the device, seeing if that helps: */ #ifdef VERBOSE printf("PolhemusFastrak: Resetting device\n"); fflush(stdout); #endif devicePort.writeByte('\31'); delay(15.0); /* Request another status record: */ #ifdef VERBOSE printf("PolhemusFastrak: Re-requesting status record\n"); fflush(stdout); #endif devicePort.writeByte('S'); if(!readStatusReply()) Misc::throwStdErr("PolhemusFastrak: Device not responding"); } /* Retrieve tracker hemisphere: */ int hemisphereVectors[6][3]={{1,0,0},{-1,0,0},{0,0,1},{0,0,-1},{0,1,0},{0,-1,0}}; std::string hemisphere=configFile.retrieveString("./trackerHemisphere","+X"); int hemisphereIndex=-1; if(hemisphere=="+X") hemisphereIndex=0; else if(hemisphere=="-X") hemisphereIndex=1; else if(hemisphere=="+Z") hemisphereIndex=2; else if(hemisphere=="-Z") hemisphereIndex=3; else if(hemisphere=="+Y") hemisphereIndex=4; else if(hemisphere=="-Y") hemisphereIndex=5; else Misc::throwStdErr("PolhemusFastrak: Unrecognized hemisphere value %s",hemisphere.c_str()); /* Initialize all receivers: */ #ifdef VERBOSE printf("PolhemusFastrak: Initializing receivers\n"); fflush(stdout); #endif for(int i=0;i<numTrackers;++i) { char command[40]; /* Enable receiver: */ snprintf(command,sizeof(command),"l%d,1\r\n",i+1); devicePort.writeString(command); delay(0.1); /* Reset receiver's alignment frame: */ snprintf(command,sizeof(command),"R%d\r\n",i+1); devicePort.writeString(command); delay(0.1); /* Disable boresight mode: */ snprintf(command,sizeof(command),"b%d\r\n",i+1); devicePort.writeString(command); delay(0.1); /* Set receiver's hemisphere of operation: */ snprintf(command,sizeof(command),"H%d,%d,%d,%d\r\n",i+1,hemisphereVectors[hemisphereIndex][0],hemisphereVectors[hemisphereIndex][1],hemisphereVectors[hemisphereIndex][2]); devicePort.writeString(command); delay(0.1); /* Set receiver's output format: */ snprintf(command,sizeof(command),"O%d,2,4,16,1\r\n",i+1); devicePort.writeString(command); delay(0.1); } /* Set stylus tip offset: */ try { /* Try getting a tip offset from the configuration file: */ Geometry::Vector<float,3> tipOffset=configFile.retrieveValue<Geometry::Vector<float,3> >("./stylusTipOffset"); /* If the tag is there, set the stylus tip offset: */ #ifdef VERBOSE printf("PolhemusFastrak: Setting stylus tip offset\n"); fflush(stdout); #endif char command[80]; snprintf(command,sizeof(command),"N1,%8.4f,%8.4f,%8.4f\r\n",tipOffset[0],tipOffset[1],tipOffset[2]); devicePort.writeString(command); delay(0.1); } catch(Misc::ConfigurationFile::TagNotFoundError error) { /* If no tag for stylus offset is given, just leave it to the factory default */ } /* Set stylus button to "mouse mode": */ #ifdef VERBOSE printf("PolhemusFastrak: Setting stylus button mode\n"); fflush(stdout); #endif devicePort.writeString("e1,0\r\n"); delay(0.1); #if 1 /* Query stylus tip offset: */ devicePort.writeByte('F'); delay(0.1); devicePort.writeString("N1,\r\n"); delay(0.1); char lineBuffer[80]; printf("%s\n",readLine(80,lineBuffer)); fflush(stdout); #endif /* Set fixed metal compensation: */ #ifdef VERBOSE printf("PolhemusFastrak: Setting fixed metal compensation mode\n"); fflush(stdout); #endif if(configFile.retrieveValue<bool>("./enableMetalCompensation",false)) devicePort.writeByte('D'); else devicePort.writeByte('d'); delay(0.1); /* Set unit mode to inches: */ #ifdef VERBOSE printf("PolhemusFastrak: Setting unit mode\n"); fflush(stdout); #endif devicePort.writeByte('U'); delay(0.1); /* Enable binary mode: */ #ifdef VERBOSE printf("PolhemusFastrak: Enabling binary mode\n"); fflush(stdout); #endif devicePort.writeByte('f'); }
ViconTarsus::ViconTarsus(VRDevice::Factory* sFactory,VRDeviceManager* sDeviceManager,Misc::ConfigurationFile& configFile) :VRDevice(sFactory,sDeviceManager,configFile), pipe(configFile.retrieveString("./serverName"),configFile.retrieveValue<int>("./serverPort",800),Comm::TCPPipe::LittleEndian), trackerChannelIndices(0), trackerSixDofs(0), trackerMap(0), channelPacketBuffer(0), trackerStates(0) { /* Read the list of tracked bodies: */ std::vector<std::string> trackedBodies=configFile.retrieveValue<std::vector<std::string> >("./trackedBodies"); /* Set tracker's layout: */ setNumTrackers(trackedBodies.size(),configFile); /* Initialize the tracker channel index array: */ trackerChannelIndices=new int[getNumTrackers()*6]; for(int i=0;i<getNumTrackers()*6;++i) trackerChannelIndices[i]=-1; /* Send info request to server: */ #ifdef VERBOSE printf("ViconTarsus: Requesting info packet\n"); #endif pipe.write<int>(1); // Info pipe.write<int>(0); // Request /* Wait for the server's reply: */ if(pipe.read<int>()!=1) Misc::throwStdErr("ViconTarsus: Unable to connect to tracking server at %s",pipe.getPeerHostname().c_str()); if(pipe.read<int>()!=1) Misc::throwStdErr("ViconTarsus: Unable to connect to tracking server at %s",pipe.getPeerHostname().c_str()); /* Read the info packet's data: */ numChannels=pipe.read<int>(); #ifdef VERBOSE printf("ViconTarsus: Server reports %d channels\n",numChannels); #endif for(int channelIndex=0;channelIndex<numChannels;++channelIndex) { /* Read the channel descriptor (fortunately, Vicon's string protocol is compatible to TCPPipe's): */ std::string channelName=pipe.read<std::string>(); #ifdef VERBOSE printf("ViconTarsus: Server channel %2d: %s\n",channelIndex,channelName.c_str()); #endif /* Parse the channel name: */ const char* nameStart=channelName.c_str(); const char* nameEnd; for(nameEnd=nameStart;*nameEnd!='\0'&&*nameEnd!=' '&&*nameEnd!='-'&&*nameEnd!='<'&&*nameEnd!='>';++nameEnd) ; const char* codeStart; for(codeStart=nameEnd;*codeStart!='\0'&&*codeStart!='<';++codeStart) ; const char* codeEnd; for(codeEnd=codeStart;*codeEnd!='\0'&&*codeEnd!='>';++codeEnd) ; /* Check if the channel name is well-formed: */ if(*codeStart=='<'&&*codeEnd=='>') { std::string code(codeStart+1,codeEnd); /* Check if the channel encodes a body parameter or a marker parameter: */ if(code[0]=='P'||code[0]=='A'||code[0]=='T') { /* Check if the name corresponds to a tracked body: */ std::string name(nameStart,nameEnd); int bodyIndex; for(bodyIndex=0;bodyIndex<getNumTrackers();++bodyIndex) if(trackedBodies[bodyIndex]==name) break; if(bodyIndex<getNumTrackers()) { /* Parse the channel code: */ if(code=="P-X"||code=="T-X") trackerChannelIndices[bodyIndex*6+0]=channelIndex; else if(code=="P-Y"||code=="T-Y") trackerChannelIndices[bodyIndex*6+1]=channelIndex; else if(code=="P-Z"||code=="T-Z") trackerChannelIndices[bodyIndex*6+2]=channelIndex; else if(code=="A-X") trackerChannelIndices[bodyIndex*6+3]=channelIndex; else if(code=="A-Y") trackerChannelIndices[bodyIndex*6+4]=channelIndex; else if(code=="A-Z") trackerChannelIndices[bodyIndex*6+5]=channelIndex; } } } } /* Check if all requested trackers have channels associated with them: */ trackerSixDofs=new bool[getNumTrackers()]; int numSixDofTrackers=0; for(int bodyIndex=0;bodyIndex<getNumTrackers();++bodyIndex) { /* Check if the tracker has 3-DOF data: */ bool valid=true; for(int i=0;i<3;++i) if(trackerChannelIndices[bodyIndex*6+i]==-1) valid=false; if(!valid) Misc::throwStdErr("ViconTarsus: Insufficient data to track body %s",trackedBodies[bodyIndex].c_str()); /* Check if the tracker has 6-DOF data (for later): */ bool sixDof=true; for(int i=3;i<6;++i) if(trackerChannelIndices[bodyIndex*6+i]==-1) sixDof=false; trackerSixDofs[bodyIndex]=sixDof; if(sixDof) ++numSixDofTrackers; } #ifdef VERBOSE printf("ViconTarsus: Tracking %d 3-DOF tracker(s) and %d 6-DOF tracker(s)\n",getNumTrackers()-numSixDofTrackers,numSixDofTrackers); #endif /* Construct the tracker map: */ trackerMap=new std::pair<int,int>[numChannels]; for(int i=0;i<numChannels;++i) trackerMap[i]=std::pair<int,int>(-1,-1); for(int bodyIndex=0;bodyIndex<getNumTrackers();++bodyIndex) for(int i=0;i<6;++i) { if(trackerChannelIndices[bodyIndex*6+i]!=-1) trackerMap[trackerChannelIndices[bodyIndex*6+i]]=std::pair<int,int>(bodyIndex,i); } /* Initialize the channel packet buffer: */ channelPacketBuffer=new double[numChannels]; /* Initialize tracker states: */ trackerStates=new Vrui::VRDeviceState::TrackerState[getNumTrackers()]; }
VRDeviceManager::VRDeviceManager(Misc::ConfigurationFile& configFile) :deviceFactories(configFile.retrieveString("./deviceDirectory",VRDEVICEDAEMON_CONFIG_VRDEVICESDIR),this), calibratorFactories(configFile.retrieveString("./calibratorDirectory",VRDEVICEDAEMON_CONFIG_VRCALIBRATORSDIR)), numDevices(0), devices(0),trackerIndexBases(0),buttonIndexBases(0),valuatorIndexBases(0), fullTrackerReportMask(0x0),trackerReportMask(0x0),trackerUpdateNotificationEnabled(false), trackerUpdateCompleteCond(0) { /* Allocate device and base index arrays: */ typedef std::vector<std::string> StringList; StringList deviceNames=configFile.retrieveValue<StringList>("./deviceNames"); numDevices=deviceNames.size(); devices=new VRDevice*[numDevices]; trackerIndexBases=new int[numDevices]; buttonIndexBases=new int[numDevices]; valuatorIndexBases=new int[numDevices]; /* Initialize VR devices: */ for(currentDeviceIndex=0;currentDeviceIndex<numDevices;++currentDeviceIndex) { /* Save the device's base indices: */ trackerIndexBases[currentDeviceIndex]=int(trackerNames.size()); buttonIndexBases[currentDeviceIndex]=int(buttonNames.size()); valuatorIndexBases[currentDeviceIndex]=int(valuatorNames.size()); /* Go to device's section: */ configFile.setCurrentSection(deviceNames[currentDeviceIndex].c_str()); /* Retrieve device type: */ std::string deviceType=configFile.retrieveString("./deviceType"); /* Initialize device: */ #ifdef VERBOSE printf("VRDeviceManager: Loading device %s of type %s\n",deviceNames[currentDeviceIndex].c_str(),deviceType.c_str()); fflush(stdout); #endif DeviceFactoryManager::Factory* deviceFactory=deviceFactories.getFactory(deviceType); devices[currentDeviceIndex]=deviceFactory->createObject(configFile); if(configFile.hasTag("./trackerNames")) { StringList deviceTrackerNames=configFile.retrieveValue<StringList>("./trackerNames"); int trackerIndex=trackerIndexBases[currentDeviceIndex]; int numTrackers=trackerNames.size(); for(StringList::iterator dtnIt=deviceTrackerNames.begin();dtnIt!=deviceTrackerNames.end()&&trackerIndex<numTrackers;++dtnIt,++trackerIndex) trackerNames[trackerIndex]=*dtnIt; } /* Override device's button names: */ if(configFile.hasTag("./buttonNames")) { StringList deviceButtonNames=configFile.retrieveValue<StringList>("./buttonNames"); int buttonIndex=buttonIndexBases[currentDeviceIndex]; int numButtons=buttonNames.size(); for(StringList::iterator dtnIt=deviceButtonNames.begin();dtnIt!=deviceButtonNames.end()&&buttonIndex<numButtons;++dtnIt,++buttonIndex) buttonNames[buttonIndex]=*dtnIt; } /* Override device's valuator names: */ if(configFile.hasTag("./valuatorNames")) { StringList deviceValuatorNames=configFile.retrieveValue<StringList>("./valuatorNames"); int valuatorIndex=valuatorIndexBases[currentDeviceIndex]; int numValuators=valuatorNames.size(); for(StringList::iterator dtnIt=deviceValuatorNames.begin();dtnIt!=deviceValuatorNames.end()&&valuatorIndex<numValuators;++dtnIt,++valuatorIndex) valuatorNames[valuatorIndex]=*dtnIt; } /* Return to parent section: */ configFile.setCurrentSection(".."); } #ifdef VERBOSE printf("VRDeviceManager: Managing %d trackers, %d buttons, %d valuators\n",int(trackerNames.size()),int(buttonNames.size()),int(valuatorNames.size())); fflush(stdout); #endif /* Set server state's layout: */ state.setLayout(trackerNames.size(),buttonNames.size(),valuatorNames.size()); /* Read names of all virtual devices: */ StringList virtualDeviceNames=configFile.retrieveValue<StringList>("./virtualDeviceNames",StringList()); /* Initialize virtual devices: */ for(StringList::iterator vdnIt=virtualDeviceNames.begin();vdnIt!=virtualDeviceNames.end();++vdnIt) { /* Create a new virtual device descriptor by reading the virtual device's configuration file section: */ Vrui::VRDeviceDescriptor* vdd=new Vrui::VRDeviceDescriptor; vdd->load(configFile.getSection(vdnIt->c_str())); /* Store the virtual device descriptor: */ virtualDevices.push_back(vdd); } #ifdef VERBOSE printf("VRDeviceManager: Managing %d virtual devices\n",int(virtualDevices.size())); fflush(stdout); #endif }