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First run the App_PhysicsServer_SharedMemory_VR_vs2010.exe to run the VR server, then run App_VRGloveHandSimulator. You likely need to tune the minV/maxV for each finger (check values using Arduino IDE Serial Monitor)
143 lines
3.5 KiB
C++
143 lines
3.5 KiB
C++
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#include "b3RobotSimulatorClientAPI.h"
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#include "../Utils/b3Clock.h"
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#include <string.h>
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#include <stdio.h>
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#include <assert.h>
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#define ASSERT_EQ(a,b) assert((a)==(b));
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#include "MinitaurSetup.h"
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int main(int argc, char* argv[])
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{
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b3RobotSimulatorClientAPI* sim = new b3RobotSimulatorClientAPI();
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sim->connect(eCONNECT_GUI);
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//Can also use eCONNECT_DIRECT,eCONNECT_SHARED_MEMORY,eCONNECT_UDP,eCONNECT_TCP, for example:
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//sim->connect(eCONNECT_UDP, "localhost", 1234);
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sim->configureDebugVisualizer( COV_ENABLE_GUI, 0);
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// sim->configureDebugVisualizer( COV_ENABLE_SHADOWS, 0);//COV_ENABLE_WIREFRAME
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sim->setTimeOut(10);
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//syncBodies is only needed when connecting to an existing physics server that has already some bodies
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sim->syncBodies();
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b3Scalar fixedTimeStep = 1./240.;
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sim->setTimeStep(fixedTimeStep);
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b3Quaternion q = sim->getQuaternionFromEuler(b3MakeVector3(0.1,0.2,0.3));
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b3Vector3 rpy;
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rpy = sim->getEulerFromQuaternion(q);
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sim->setGravity(b3MakeVector3(0,0,-9.8));
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//int blockId = sim->loadURDF("cube.urdf");
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//b3BodyInfo bodyInfo;
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//sim->getBodyInfo(blockId,&bodyInfo);
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sim->loadURDF("plane.urdf");
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MinitaurSetup minitaur;
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int minitaurUid = minitaur.setupMinitaur(sim, b3MakeVector3(0,0,.3));
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//b3RobotSimulatorLoadUrdfFileArgs args;
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//args.m_startPosition.setValue(2,0,1);
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//int r2d2 = sim->loadURDF("r2d2.urdf",args);
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//b3RobotSimulatorLoadFileResults sdfResults;
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//if (!sim->loadSDF("two_cubes.sdf",sdfResults))
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//{
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// b3Warning("Can't load SDF!\n");
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//}
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b3Clock clock;
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double startTime = clock.getTimeInSeconds();
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double simWallClockSeconds = 20.;
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#if 0
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while (clock.getTimeInSeconds()-startTime < simWallClockSeconds)
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{
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sim->stepSimulation();
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}
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#endif
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sim->setRealTimeSimulation(false);
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int vidLogId = -1;
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int minitaurLogId = -1;
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int rotateCamera = 0;
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while (sim->canSubmitCommand())
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{
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b3KeyboardEventsData keyEvents;
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sim->getKeyboardEvents(&keyEvents);
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if (keyEvents.m_numKeyboardEvents)
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{
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//printf("num key events = %d]\n", keyEvents.m_numKeyboardEvents);
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//m_keyState is a flag combination of eButtonIsDown,eButtonTriggered, eButtonReleased
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for (int i=0;i<keyEvents.m_numKeyboardEvents;i++)
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{
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b3KeyboardEvent& e = keyEvents.m_keyboardEvents[i];
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if (e.m_keyCode=='0')
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{
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if ( e.m_keyState&eButtonTriggered)
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{
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if (vidLogId < 0)
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{
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vidLogId = sim->startStateLogging(STATE_LOGGING_VIDEO_MP4,"video.mp4");
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}
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else
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{
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sim->stopStateLogging(vidLogId);
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vidLogId=-1;
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}
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}
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}
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if (e.m_keyCode=='m')
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{
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if ( minitaurLogId<0 && e.m_keyState&eButtonTriggered)
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{
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minitaurLogId = sim->startStateLogging(STATE_LOGGING_MINITAUR,"simlog.bin");
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}
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if (minitaurLogId>=0 && e.m_keyState&eButtonReleased)
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{
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sim->stopStateLogging(minitaurLogId);
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minitaurLogId=-1;
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}
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}
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if (e.m_keyCode == 'r' && e.m_keyState&eButtonTriggered)
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{
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rotateCamera = 1-rotateCamera;
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}
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//printf("keyEvent[%d].m_keyCode = %d, state = %d\n", i,keyEvents.m_keyboardEvents[i].m_keyCode,keyEvents.m_keyboardEvents[i].m_keyState);
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}
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}
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sim->stepSimulation();
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if (rotateCamera)
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{
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static double yaw=0;
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double distance = 1;
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yaw+=0.1;
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b3Vector3 basePos;
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b3Quaternion baseOrn;
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sim->getBasePositionAndOrientation(minitaurUid,basePos,baseOrn);
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sim->resetDebugVisualizerCamera(distance,yaw,20,basePos);
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}
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b3Clock::usleep(1000.*1000.*fixedTimeStep);
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}
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printf("sim->disconnect\n");
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sim->disconnect();
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printf("delete sim\n");
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delete sim;
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printf("exit\n");
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}
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