Beispiel #1
0
//--------------------------------------------------------------
void testApp::recordHandXML (Hand & hand, int handIndex){
	
	if (bRecordingThisFrame){
		if (hand.isValid()){
			
			int handTagNum = XML.addTag("H");
			if( XML.pushTag("H", handTagNum) ){
				XML.setValue("INDEX", handIndex, handTagNum);
				XML.setValue("ID", hand.id(), handTagNum);
				XML.setValue("TYPE", (hand.isLeft() ? "LEFT" : "RIGHT"), handTagNum);
				XML.setValue("CONF", hand.confidence(), handTagNum);
				
				FingerList fingers = hand.fingers();
				for (int f=0; f<fingers.count(); f++){
					const Finger & finger = fingers[f];
					
					if (finger.isValid()){
						recordFingerXML (finger);
					}
				}
				
				recordArmXML (hand);
				XML.popTag(); // pop H(AND)
			}
		}
	}
}
Beispiel #2
0
    FREObject LNLeapDevice::getFrame() {
        
        Frame frame = controller->frame();
        
        // TODO: Only continue with valid Frame?
        
        FREObject freCurrentFrame;
        FRENewObject( (const uint8_t*) "com.leapmotion.leap.Frame", 0, NULL, &freCurrentFrame, NULL);
        
        FREObject freFrameId;
        FRENewObjectFromInt32((int32_t) frame.id(), &freFrameId);
        FRESetObjectProperty(freCurrentFrame, (const uint8_t*) "id", freFrameId, NULL);
        
        const Vector frameTranslation = frame.translation(lastFrame);
        FRESetObjectProperty(freCurrentFrame, (const uint8_t*) "translationVector", createVector3(frameTranslation.x, frameTranslation.y, frameTranslation.z), NULL);
        
        const Matrix frameRotation = frame.rotationMatrix(lastFrame);
        FRESetObjectProperty(freCurrentFrame, (const uint8_t*) "rotation", createMatrix(
                     createVector3(frameRotation.xBasis[0], frameRotation.xBasis[1], frameRotation.xBasis[2]),
                     createVector3(frameRotation.yBasis[0], frameRotation.yBasis[1], frameRotation.yBasis[2]),
                     createVector3(frameRotation.zBasis[0], frameRotation.zBasis[1], frameRotation.zBasis[2]),
                     createVector3(frameRotation.origin[0], frameRotation.origin[1], frameRotation.origin[2])
        ), NULL);
        
        FREObject freFrameScaleFactor;
        FRENewObjectFromDouble(frame.scaleFactor(lastFrame), &freFrameScaleFactor);
        FRESetObjectProperty(freCurrentFrame, (const uint8_t*) "scaleFactorNumber", freFrameScaleFactor, NULL);
        
        FREObject freTimestamp;
        FRENewObjectFromInt32((int32_t) frame.timestamp(), &freTimestamp);
        FRESetObjectProperty(freCurrentFrame, (const uint8_t*) "timestamp", freTimestamp, NULL);
        
        std::map<int, FREObject> freHandsMap;
        if (!frame.hands().empty()) {
            
            FREObject freHands;
            FREGetObjectProperty(freCurrentFrame, (const uint8_t*) "hands", &freHands, NULL);
            
            for(int i = 0; i < frame.hands().count(); i++) {
                const Hand hand = frame.hands()[i];
                
                FREObject freHand;
                FRENewObject( (const uint8_t*) "com.leapmotion.leap.Hand", 0, NULL, &freHand, NULL);
                FRESetObjectProperty(freHand, (const uint8_t*) "frame", freCurrentFrame, NULL);
                FRESetObjectProperty(freHand, (const uint8_t*) "direction", createVector3(hand.direction()[0], hand.direction()[1], hand.direction()[2]), NULL);
                
                FREObject freHandId;
                FRENewObjectFromInt32(hand.id(), &freHandId);
                FRESetObjectProperty(freHand, (const uint8_t*) "id", freHandId, NULL);
                FRESetObjectProperty(freHand, (const uint8_t*) "palmNormal", createVector3(hand.palmNormal()[0], hand.palmNormal()[1], hand.palmNormal()[2]), NULL);
                FRESetObjectProperty(freHand, (const uint8_t*) "palmPosition", createVector3(hand.palmPosition()[0], hand.palmPosition()[1], hand.palmPosition()[2]), NULL);
                FRESetObjectProperty(freHand, (const uint8_t*) "palmVelocity", createVector3(hand.palmVelocity()[0], hand.palmVelocity()[1], hand.palmVelocity()[2]), NULL);
                
                const Matrix rotation = hand.rotationMatrix(lastFrame);
                FRESetObjectProperty(freHand, (const uint8_t*) "rotation", createMatrix(
                                     createVector3(rotation.xBasis[0], rotation.xBasis[1], rotation.xBasis[2]),
                                     createVector3(rotation.yBasis[0], rotation.yBasis[1], rotation.yBasis[2]),
                                     createVector3(rotation.zBasis[0], rotation.zBasis[1], rotation.zBasis[2]),
                                     createVector3(rotation.origin[0], rotation.origin[1], rotation.origin[2])
                ), NULL);
                
                FREObject freScaleFactor;
                FRENewObjectFromDouble(hand.scaleFactor(lastFrame), &freScaleFactor);
                FRESetObjectProperty(freHand, (const uint8_t*) "scaleFactorNumber", freScaleFactor, NULL);
                
                FRESetObjectProperty(freHand, (const uint8_t*) "sphereCenter", createVector3(hand.sphereCenter()[0], hand.sphereCenter()[1], hand.sphereCenter()[2]), NULL);
                
                FREObject freSphereRadius;
                FRENewObjectFromDouble(hand.sphereRadius(), &freSphereRadius);
                FRESetObjectProperty(freHand, (const uint8_t*) "sphereRadius", freSphereRadius, NULL);
                
                const Vector translation = hand.translation(lastFrame);
                FRESetObjectProperty(freHand, (const uint8_t*) "translationVector", createVector3(translation.x, translation.y, translation.z), NULL);
                
                FRESetArrayElementAt(freHands, i, freHand);
                
                freHandsMap[hand.id()] = freHand;
            }
        }
        
        std::map<int, FREObject> frePointablesMap;
        if(!frame.pointables().empty()) {
            
            FREObject frePointables;
            FREGetObjectProperty(freCurrentFrame, (const uint8_t*) "pointables", &frePointables, NULL);
            
            for(int i = 0; i < frame.pointables().count(); i++) {
                const Pointable pointable = frame.pointables()[i];
                
                FREObject frePointable;
                if(pointable.isTool()) {
                    FRENewObject( (const uint8_t*) "com.leapmotion.leap.Tool", 0, NULL, &frePointable, NULL);
                } else {
                    FRENewObject( (const uint8_t*) "com.leapmotion.leap.Finger", 0, NULL, &frePointable, NULL);
                }
                
                FRESetObjectProperty(frePointable, (const uint8_t*) "frame", freCurrentFrame, NULL);
                
                FREObject frePointableId;
                FRENewObjectFromInt32(pointable.id(), &frePointableId);
                FRESetObjectProperty(frePointable, (const uint8_t*) "id", frePointableId, NULL);
                
                FREObject frePointableLength;
                FRENewObjectFromDouble(pointable.length(), &frePointableLength);
                FRESetObjectProperty(frePointable, (const uint8_t*) "length", frePointableLength, NULL);

                FREObject frePointableWidth;
                FRENewObjectFromDouble(pointable.width(), &frePointableWidth);
                FRESetObjectProperty(frePointable, (const uint8_t*) "width", frePointableWidth, NULL);

                FRESetObjectProperty(frePointable, (const uint8_t*) "direction", createVector3(pointable.direction().x, pointable.direction().y, pointable.direction().z), NULL);
                FRESetObjectProperty(frePointable, (const uint8_t*) "tipPosition", createVector3(pointable.tipPosition().x, pointable.tipPosition().y, pointable.tipPosition().z), NULL);
                FRESetObjectProperty(frePointable, (const uint8_t*) "tipVelocity", createVector3(pointable.tipVelocity().x, pointable.tipVelocity().y, pointable.tipVelocity().z), NULL);
                
                //map to hand & back
                if(pointable.hand().isValid()) {
                    FREObject freHand = freHandsMap[pointable.hand().id()];
                    FRESetObjectProperty(frePointable, (const uint8_t*) "hand", freHand, NULL);
                    
                    FREObject frePointables;
                    FREGetObjectProperty(freHand, (const uint8_t*) "pointables", &frePointables, NULL);
                    
                    uint32_t numPointables;
                    FREGetArrayLength(frePointables, &numPointables);
                    FRESetArrayElementAt(frePointables, numPointables, frePointable);
                    
                    FREObject freSpecificHandPointables;
                    if(pointable.isTool()) {
                        FREGetObjectProperty(freHand, (const uint8_t*) "tools", &freSpecificHandPointables, NULL);
                    } else {
                        FREGetObjectProperty(freHand, (const uint8_t*) "fingers", &freSpecificHandPointables, NULL);
                    }
                    uint32_t numSpecificHandTools;
                    FREGetArrayLength(freSpecificHandPointables, &numSpecificHandTools);
                    FRESetArrayElementAt(freSpecificHandPointables, numSpecificHandTools, frePointable);
                }
                
                //push it in current frame
                FRESetArrayElementAt(frePointables, i, frePointable);
                
                //specific
                FREObject freSpecificPointables;
                if(pointable.isTool()) {
                    FREGetObjectProperty(freCurrentFrame, (const uint8_t*) "tools", &freSpecificPointables, NULL);
                } else {
                    FREGetObjectProperty(freCurrentFrame, (const uint8_t*) "fingers", &freSpecificPointables, NULL);
                }
                uint32_t numSpecificTools;
                FREGetArrayLength(freSpecificPointables, &numSpecificTools);
                FRESetArrayElementAt(freSpecificPointables, numSpecificTools, frePointable);
                frePointablesMap[pointable.id()] = frePointable;
            }
        }
        
        if(!frame.gestures().empty()) {
            
            FREObject freGestures;
            FREGetObjectProperty(freCurrentFrame, (const uint8_t*) "gesturesVector", &freGestures, NULL);
            
            for(int i = 0; i < frame.gestures().count(); i++) {
                const Gesture gesture = frame.gestures()[i];
                
                int state;
                switch (gesture.state()) {
                    case Gesture::STATE_INVALID:
                        state = 0;
                        break;
                    case Gesture::STATE_START:
                        state = 1;
                        break;
                    case Gesture::STATE_UPDATE:
                        state = 2;
                        break;
                    case Gesture::STATE_STOP:
                        state = 3;
                        break;
                        
                    default:
                        break;
                }
                
                int type;
                FREObject freGesture;
                switch (gesture.type()) {
                    case Gesture::TYPE_SWIPE:
                    {
                        type = 5;
                        SwipeGesture swipe = gesture;
                        
                        FRENewObject( (const uint8_t*) "com.leapmotion.leap.SwipeGesture", 0, NULL, &freGesture, NULL);
                        
                        FRESetObjectProperty(freGesture, (const uint8_t*) "direction", createVector3(swipe.direction().x, swipe.direction().y, swipe.direction().z), NULL);
                        FRESetObjectProperty(freGesture, (const uint8_t*) "position", createVector3(swipe.position().x, swipe.position().y, swipe.position().z), NULL);
                        FRESetObjectProperty(freGesture, (const uint8_t*) "startPosition", createVector3(swipe.startPosition().x, swipe.startPosition().y, swipe.startPosition().z), NULL);
                        
                        FREObject freSwipeGestureSpeed;
                        FRENewObjectFromDouble(swipe.speed(), &freSwipeGestureSpeed);
                        FRESetObjectProperty(freGesture, (const uint8_t*) "speed", freSwipeGestureSpeed, NULL);

                        break;
                    }
                    case Gesture::TYPE_CIRCLE:
                    {
                        type = 6;
                        CircleGesture circle = gesture;

                        FRENewObject( (const uint8_t*) "com.leapmotion.leap.CircleGesture", 0, NULL, &freGesture, NULL);
                        
                        FRESetObjectProperty(freGesture, (const uint8_t*) "center", createVector3(circle.center().x, circle.center().y, circle.center().z), NULL);
                        FRESetObjectProperty(freGesture, (const uint8_t*) "normal", createVector3(circle.normal().x, circle.normal().y, circle.normal().z), NULL);
                        
                        FREObject freCircleGestureProgress;
                        FRENewObjectFromDouble(circle.progress(), &freCircleGestureProgress);
                        FRESetObjectProperty(freGesture, (const uint8_t*) "progress", freCircleGestureProgress, NULL);
                        
                        FREObject freCircleGestureRadius;
                        FRENewObjectFromDouble(circle.radius(), &freCircleGestureRadius);
                        FRESetObjectProperty(freGesture, (const uint8_t*) "radius", freCircleGestureRadius, NULL);
                    
                        FREObject frePointable = frePointablesMap[circle.pointable().id()];
                        if(frePointable != NULL)
                        {
                            FRESetObjectProperty(freGesture, (const uint8_t*) "pointable", frePointable, NULL);
                        }

                        break;
                    }
                    case Gesture::TYPE_SCREEN_TAP:
                    {
                        type = 7;
                        ScreenTapGesture screentap = gesture;
                        
                        FRENewObject( (const uint8_t*) "com.leapmotion.leap.ScreenTapGesture", 0, NULL, &freGesture, NULL);

                        FRESetObjectProperty(freGesture, (const uint8_t*) "direction", createVector3(screentap.direction().x, screentap.direction().y, screentap.direction().z), NULL);
                        FRESetObjectProperty(freGesture, (const uint8_t*) "position", createVector3(screentap.position().x, screentap.position().y, screentap.position().z), NULL);

                        break;
                    }
                    case Gesture::TYPE_KEY_TAP:
                    {
                        type = 8;
                        KeyTapGesture tap = gesture;
                        
                        FRENewObject( (const uint8_t*) "com.leapmotion.leap.KeyTapGesture", 0, NULL, &freGesture, NULL);

                        FRESetObjectProperty(freGesture, (const uint8_t*) "direction", createVector3(tap.direction().x, tap.direction().y, tap.direction().z), NULL);
                        FRESetObjectProperty(freGesture, (const uint8_t*) "position", createVector3(tap.position().x, tap.position().y, tap.position().z), NULL);
                        
                        break;
                    }
                    default:
                    {
                        type = 4;
                        FRENewObject( (const uint8_t*) "com.leapmotion.leap.Gesture", 0, NULL, &freGesture, NULL);
                        break;
                    }
                }
                
                FREObject freGestureState;
                FRENewObjectFromInt32(state, &freGestureState);
                FRESetObjectProperty(freGesture, (const uint8_t*) "state", freGestureState, NULL);
                
                FREObject freGestureType;
                FRENewObjectFromInt32(type, &freGestureType);
                FRESetObjectProperty(freGesture, (const uint8_t*) "type", freGestureType, NULL);

                FREObject freGestureDuration;
                FRENewObjectFromInt32((int32_t) gesture.duration(), &freGestureDuration);
                FRESetObjectProperty(freGesture, (const uint8_t*) "duration", freGestureDuration, NULL);
                
                FREObject freGestureDurationSeconds;
                FRENewObjectFromDouble(gesture.durationSeconds(), &freGestureDurationSeconds);
                FRESetObjectProperty(freGesture, (const uint8_t*) "durationSeconds", freGestureDurationSeconds, NULL);
                
                FRESetObjectProperty(freGesture, (const uint8_t*) "frame", freCurrentFrame, NULL);
                
                FREObject freGestureId;
                FRENewObjectFromInt32(gesture.id(), &freGestureId);
                FRESetObjectProperty(freGesture, (const uint8_t*) "id", freGestureId, NULL);
                
                if (!gesture.hands().empty()) {
                    
                    FREObject freGestureHands;
                    FREGetObjectProperty(freGesture, (const uint8_t*) "hands", &freGestureHands, NULL);
                    
                    for(int i = 0; i < gesture.hands().count(); i++) {
                        const Hand hand = gesture.hands()[i];
                        
                        FREObject freHand = freHandsMap[hand.id()];
                        FRESetArrayElementAt(freGestureHands, i, freHand);
                    }
                }
                
                if (!gesture.pointables().empty()) {
                    
                    FREObject freGesturePointables;
                    FREGetObjectProperty(freGesture, (const uint8_t*) "pointables", &freGesturePointables, NULL);
                    
                    for(int i = 0; i < gesture.pointables().count(); i++) {
                        const Pointable pointable = gesture.pointables()[i];
                        
                        FREObject frePointable = frePointablesMap[pointable.id()];
                        FRESetArrayElementAt(freGesturePointables, i, frePointable);
                    }
                }
                
                //push it in current gesture vector
                FRESetArrayElementAt(freGestures, i, freGesture);
            }
        }
        
        lastFrame = frame;
        
        return freCurrentFrame;
    }
void LeapListener::onFrame(const Controller & controller) {
    // Get the most recent frame and report some basic information
    const Frame frame = controller.frame();
    std::cout << "Frame id: " << frame.id()
    << ", timestamp: " << frame.timestamp()
    << ", hands: " << frame.hands().count()
    << ", extended fingers: " << frame.fingers().extended().count()
    << ", tools: " << frame.tools().count()
    << ", gestures: " << frame.gestures().count() << std::endl;

    HandList hands = frame.hands();
    for (HandList::const_iterator hl = hands.begin(); hl != hands.end(); ++hl) {
        // Get the first hand
        const Hand hand = *hl;
        std::string handType = hand.isLeft() ? "Left hand" : "Right hand";
        std::cout << std::string(2, ' ') << handType << ", id: " << hand.id()
        << ", palm position: " << hand.palmPosition() << std::endl;
        // Get the hand's normal vector and direction
        const Vector normal = hand.palmNormal();
        const Vector direction = hand.direction();

        // Calculate the hand's pitch, roll, and yaw angles
        std::cout << std::string(2, ' ') <<  "pitch: " << direction.pitch() * RAD_TO_DEG << " degrees, "
        << "roll: " << normal.roll() * RAD_TO_DEG << " degrees, "
        << "yaw: " << direction.yaw() * RAD_TO_DEG << " degrees" << std::endl;

        // Get the Arm bone
        Arm arm = hand.arm();
        std::cout << std::string(2, ' ') <<  "Arm direction: " << arm.direction()
        << " wrist position: " << arm.wristPosition()
        << " elbow position: " << arm.elbowPosition() << std::endl;

        // Get fingers
        const FingerList fingers = hand.fingers();
        for (FingerList::const_iterator fl = fingers.begin(); fl != fingers.end(); ++fl) {
            const Finger finger = *fl;
            std::cout << std::string(4, ' ') <<  fingerNames[finger.type()]
            << " finger, id: " << finger.id()
            << ", length: " << finger.length()
            << "mm, width: " << finger.width() << std::endl;

            // Get finger bones
            for (int b = 0; b < 4; ++b) {
                Bone::Type boneType = static_cast<Bone::Type>(b);
                Bone bone = finger.bone(boneType);
                std::cout << std::string(6, ' ') <<  boneNames[boneType]
                << " bone, start: " << bone.prevJoint()
                << ", end: " << bone.nextJoint()
                << ", direction: " << bone.direction() << std::endl;
            }
        }
    }

    // Get tools
    const ToolList tools = frame.tools();
    for (ToolList::const_iterator tl = tools.begin(); tl != tools.end(); ++tl) {
        const Tool tool = *tl;
        std::cout << std::string(2, ' ') <<  "Tool, id: " << tool.id()
        << ", position: " << tool.tipPosition()
        << ", direction: " << tool.direction() << std::endl;
    }

    // Get gestures
    const GestureList gestures = frame.gestures();
    for (int g = 0; g < gestures.count(); ++g) {
        Gesture gesture = gestures[g];

        switch (gesture.type()) {
            case Gesture::TYPE_CIRCLE: {
                CircleGesture circle = gesture;
                std::string clockwiseness;

                if (circle.pointable().direction().angleTo(circle.normal()) <= PI/2) {
                    clockwiseness = "clockwise";
                } else {
                    clockwiseness = "counterclockwise";
                }

                // Calculate angle swept since last frame
                float sweptAngle = 0;
                if (circle.state() != Gesture::STATE_START) {
                    CircleGesture previousUpdate = CircleGesture(controller.frame(1).gesture(circle.id()));
                    sweptAngle = (circle.progress() - previousUpdate.progress()) * 2 * PI;
                }
                std::cout << std::string(2, ' ')
                << "Circle id: " << gesture.id()
                << ", state: " << stateNames[gesture.state()]
                << ", progress: " << circle.progress()
                << ", radius: " << circle.radius()
                << ", angle " << sweptAngle * RAD_TO_DEG
                <<  ", " << clockwiseness << std::endl;
                break;
            }
            case Gesture::TYPE_SWIPE: {
                SwipeGesture swipe = gesture;
                std::cout << std::string(2, ' ')
                << "Swipe id: " << gesture.id()
                << ", state: " << stateNames[gesture.state()]
                << ", direction: " << swipe.direction()
                << ", speed: " << swipe.speed() << std::endl;
                break;
            }
            case Gesture::TYPE_KEY_TAP: {
                KeyTapGesture tap = gesture;
                std::cout << std::string(2, ' ')
                << "Key Tap id: " << gesture.id()
                << ", state: " << stateNames[gesture.state()]
                << ", position: " << tap.position()
                << ", direction: " << tap.direction()<< std::endl;
                break;
            }
            case Gesture::TYPE_SCREEN_TAP: {
                ScreenTapGesture screentap = gesture;
                std::cout << std::string(2, ' ')
                << "Screen Tap id: " << gesture.id()
                << ", state: " << stateNames[gesture.state()]
                << ", position: " << screentap.position()
                << ", direction: " << screentap.direction() << std::endl;
                break;
            }
            default:
                std::cout << std::string(2, ' ')  << "Unknown gesture type." << std::endl;
                break;
        }
    }

    if (!frame.hands().isEmpty() || !gestures.isEmpty())
        std::cout << std::endl;
}
Beispiel #4
0
void LeapHander::frame(pugi::xml_node &frameNode){
	Leap::Frame currentFrame = m_sampleListener.frame();
	m_lock.lock();
	frameNode.append_attribute("id").set_value(currentFrame.id());
	pugi::xml_node handList = frameNode.append_child("hands");
	HandList hands = currentFrame.hands();
	
	for (HandList::const_iterator hl = hands.begin(); hl != hands.end(); ++hl) {
		// Get the first hand
		const Hand hand = *hl;
		pugi::xml_node handNode = handList.append_child("hand");
		handNode.append_attribute("id").set_value(hand.id());
		std::string handType;
		if (hand.isLeft()) {
			handType = "Left";
		}
		else {
			handType = "Right";
		}
		handNode.append_attribute("type").set_value(handType.c_str());
		
		pugi::xml_node positionNode = handNode.append_child("position");
		positionToXml(positionNode, hand.palmPosition());
		
		/*pugi::xml_node normalNode = handNode.append_child("normal");
		positionToXml(normalNode, hand.palmNormal());

		pugi::xml_node directionNode = handNode.append_child("direction");
		positionToXml(directionNode, hand.direction());

		pugi::xml_node rotationNode = handNode.append_child("basis");
		rotationToXml(rotationNode, hand.basis());*/
		//// Get fingers
		pugi::xml_node fingerList = handNode.append_child("fingers");
		const FingerList fingers = hand.fingers();
		for (FingerList::const_iterator fl = fingers.begin(); fl != fingers.end(); ++fl) {
			const Finger finger = *fl;
			pugi::xml_node fingerNode = fingerList.append_child("finger");
			fingerNode.append_attribute("id").set_value(finger.id());
			fingerNode.append_attribute("name").set_value(fingerNames[finger.type()].c_str());
			pugi::xml_node boneList = fingerNode.append_child("bones");
			

			// Get finger bones
			for (int b = 0; b < 4; ++b) {
				Bone::Type boneType = static_cast<Bone::Type>(b);
				Bone bone = finger.bone(boneType);
				pugi::xml_node boneNode = boneList.append_child("bone");
				boneNode.append_attribute("length").set_value(bone.length());
				boneNode.append_attribute("name").set_value(boneNames[boneType].c_str());

				pugi::xml_node prevJoint = boneNode.append_child("prevJoint");
				positionToXml(prevJoint, bone.prevJoint());

				pugi::xml_node nextJoint = boneNode.append_child("nextJoint");
				positionToXml(nextJoint, bone.nextJoint());

				/*pugi::xml_node rotation = boneNode.append_child("basis");
				rotationToXml(rotation, bone.basis());*/
			}
		}
	}
	m_lock.unlock();
}