int main(int argc, char** argv) { struct sockaddr_in si_other; int s, slen = sizeof(si_other); char buf[BUFLEN]; char message[BUFLEN]; WSADATA wsa; //Initialise winsock printf("\nInitialising Winsock..."); if (WSAStartup(MAKEWORD(2, 2), &wsa) != 0) { printf("Failed. Error Code : %d", WSAGetLastError()); exit(EXIT_FAILURE); } printf("Initialised.\n"); //create socket //if ((s = socket(AF_INET, SOCK_DGRAM, IPPROTO_UDP)) == SOCKET_ERROR) if ((s = socket(AF_INET, SOCK_DGRAM, IPPROTO_UDP)) == INVALID_SOCKET) { printf("socket() failed with error code : %d", WSAGetLastError()); exit(EXIT_FAILURE); } char str[INET_ADDRSTRLEN]; //setup address structure memset((char *)&si_other, 0, sizeof(si_other)); si_other.sin_family = AF_INET; si_other.sin_port = htons(PORT); //si_other.sin_addr.S_un.S_addr = inet_pton(AF_INET, SERVER, &(si_other.sin_addr)); inet_pton(AF_INET, SERVER, &(si_other.sin_addr.S_un.S_addr)); /*if (inet_pton(AF_INET, SERVER, &(si_other.sin_addr.S_un.S_addr))) { inet_ntop(AF_INET, &(si_other.sin_addr.S_un.S_addr), str, INET_ADDRSTRLEN); std::cout << ("%s\n", str); }*/ // We catch any exceptions that might occur below -- see the catch statement for more details. try { // First, we create a Hub with our application identifier. Be sure not to use the com.example namespace when // publishing your application. The Hub provides access to one or more Myos. myo::Hub hub("om.example.emg-data-sample"); std::cout << "Attempting to find a Myo..." << std::endl; // Next, we attempt to find a Myo to use. If a Myo is already paired in Myo Connect, this will return that Myo // immediately. // waitForMyo() takes a timeout value in milliseconds. In this case we will try to find a Myo for 10 seconds, and // if that fails, the function will return a null pointer. myo::Myo* myo = hub.waitForMyo(10000); // If waitForMyo() returned a null pointer, we failed to find a Myo, so exit with an error message. if (!myo) { throw std::runtime_error("Unable to find a Myo!"); } // We've found a Myo. std::cout << "Connected to a Myo armband!" << std::endl << std::endl; // Next we enable EMG streaming on the found Myo. myo->setStreamEmg(myo::Myo::streamEmgEnabled); // Create a sample listener and controller for Leap Motion SampleListener listener; Controller controller; // Next we construct an instance of our DeviceListener, so that we can register it with the Hub. DataCollector collector; double timeElasped = 0.000; const double minMax[10] = { 32, 85, 36, 100, 37, 107, 36, 100, 36, 90 }; //T.I.M.R.P // Hub::addListener() takes the address of any object whose class inherits from DeviceListener, and will cause // Hub::run() to send events to all registered device listeners. hub.addListener(&collector); //controller.addListener(listener); if (argc > 1 && strcmp(argv[1], "--bg") == 0) controller.setPolicy(Leap::Controller::POLICY_BACKGROUND_FRAMES); myfile << std::fixed; myfile << std::setprecision(2); // Finally we enter our main loop. while (1) { //collector.tic(); // In each iteration of our main loop, we run the Myo event loop for a set number of milliseconds. // In this case, we wish to update our display 50 times a second, so we run for 1000/20 milliseconds. hub.run(1000 / 100); // After processing events, we call the print() member function we defined above to print out the values we've // obtained from any events that have occurred. collector.print(); int i = 0; int j = 1; int h = 0; double fingDis[5]; const Frame frame = controller.frame(); HandList hands = frame.hands(); for (HandList::const_iterator hl = hands.begin(); hl != hands.end(); ++hl) { // Get the first hand const Hand hand = *hl; // Get fingers const FingerList fingers = hand.fingers(); for (FingerList::const_iterator fl = fingers.begin(); fl != fingers.end(); ++fl) { const Finger finger = *fl; //myfile << " " << hand.palmPosition().distanceTo(finger.tipPosition()); /*myfile << std::string(4, ' ') << fingerNames[finger.type()] << ": " << listener.mapping(hand.palmPosition().distanceTo(finger.tipPosition()), minMax[i + i], minMax[i + j]);*/ fingDis[h] = listener.mapping(hand.palmPosition().distanceTo(finger.tipPosition()), minMax[i + i], minMax[i + j]); //fingDis[h] = hand.palmPosition().distanceTo(finger.tipPosition()); i++; j++; h++; if (i == 5 && j == 6 && h == 5) { string tmp = to_string(fingDis[0]) + " " + to_string(fingDis[1]) + " " + to_string(fingDis[2]) + " " + to_string(fingDis[3]) + " " + to_string(fingDis[4]); //string tmp = to_string('0'); strcpy_s(message, tmp.c_str()); //send message if (sendto(s, message, strlen(message), 0, (struct sockaddr *) &si_other, slen) == SOCKET_ERROR) { printf("sendto() failed with error code : %d", WSAGetLastError()); //exit(EXIT_FAILURE); } std::cout << "Data Sent"; i = 0; j = 1; h = 0; } } } //timeElasped = timeElasped + ((double)(clock() - tictoc_stack.top())) / CLOCKS_PER_SEC; /*myfile << " Time elapsed: " << ((double)(clock() - tictoc_stack.top())) / CLOCKS_PER_SEC;*/ //tictoc_stack.pop(); //myfile << " " << timeElasped << endl; } // If a standard exception occurred, we print out its message and exit. } catch (const std::exception& e) { std::cerr << "Error: " << e.what() << std::endl; std::cerr << "Press enter to continue."; std::cin.ignore(); return 1; } closesocket(s); WSACleanup(); }
void SampleListener::onFrame(const Controller& controller) { bool thand, index = false; // Get the most recent frame and report some basic information const Frame frame = controller.frame(); // Receive Hand List HandList hands = frame.hands(); // For all hands for (HandList::const_iterator hl = hands.begin(); hl != hands.end(); ++hl) { // Get the first hand const Hand hand = *hl; // Only for right hand if( hand.isRight() ) { // Get fingers const FingerList fingers = hand.fingers(); // For all fingers in the list for (FingerList::const_iterator fl = fingers.begin(); fl != fingers.end(); ++fl) { Bone bone; const Finger finger = *fl; // If thamb or Index finger if( finger.type() == Finger::TYPE_THUMB ) { // Receive nided bone bone = finger.bone(Bone::TYPE_DISTAL); m_vThand = bone.center(); thand = true; } else if( finger.type() == Finger::TYPE_INDEX ) { // Receive nided bone bone = finger.bone(Bone::TYPE_DISTAL); m_vIndex = bone.center(); index = true; } } } } bool newState; if( !thand || !index ) { newState = false; } else { float distance = m_vThand.distanceTo(m_vIndex); qDebug () << "Distance: " << distance; if( distance < 40 ) { newState = true; } else { newState = false; } } if( newState != m_bLastState ) { Q_EMIT releySignal( newState ); m_bLastState = newState; } }
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(); }
void AirwritingListener::onFrame(const Controller& controller) { // Get the most recent frame and report some basic information const Frame frame = controller.frame(); unsigned long long timestamp = frame.timestamp(); /* 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; sample(finger, timestamp); /* 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; push(timestamp); /* 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; } */ }
void LeapBrowser::drawHands() { Frame frame = leap_controller.frame(); math::vector trans = leap_transform.translation; math::quater rot_quat = leap_transform.rotation; math::vector rot_vect = math::ln( rot_quat ); double angle = rot_vect.length() * 2.0; math::vector axis = ( angle != 0 ? rot_vect / angle : rot_vect ); glMatrixMode( GL_MODELVIEW ); glPushMatrix(); glTranslatef( trans.x(), trans.y(), trans.z() ); if( angle != 0 ) { glRotatef( angle * 180.0 / M_PI, axis.x(), axis.y(), axis.z() ); } HandList hands = frame.hands(); for( HandList::const_iterator hl = hands.begin(); hl != hands.end(); ++hl ) { const Hand hand = *hl; float joint_radius = 5.0f; float bone_radius = 4.5f; Vector prev_palm_start(0,0,0); Vector prev_palm_end(0,0,0); int f = 0; const FingerList fingers = hand.fingers(); for( FingerList::const_iterator fl = fingers.begin(); fl != fingers.end(); ++fl, ++f ) { const Finger finger = *fl; Vector curr_palm_start(0,0,0); Vector curr_palm_end(0,0,0); for( int b=0; b < 4; b++ ) { Bone::Type bone_type = static_cast<Bone::Type>( b ); Bone bone = finger.bone( bone_type ); Vector start = bone.prevJoint(); Vector end = bone.nextJoint(); math::position p0( start.x, start.y, start.z ); math::position p1( end.x, end.y, end.z ); if( is_tracking_pose == true && finger.type() == Finger::Type::TYPE_INDEX && b==3 ) { drawing_tool.setColor( 1, 0, 0, 1 ); } else { drawing_tool.setColor( 0.5, 0.7, 0.5, 1 ); } drawing_tool.drawSphere( p1, joint_radius ); drawing_tool.setColor( 0.5, 0.7, 0.5, 1 ); drawing_tool.drawSphere( p0, joint_radius ); drawing_tool.drawCylinder( p0, p1, bone_radius ); // if( b == 0 && fl != fingers.begin() || b == 1 && fl == fingers.begin() ) { curr_palm_start = start; curr_palm_end = end; } } if( f > 1 ) //fl != fingers.begin() ) { drawing_tool.setColor( 0.5, 0.7, 0.5, 1 ); drawing_tool.applyColor(); glBegin( GL_QUADS ); glVertex3f( prev_palm_start.x, prev_palm_start.y, prev_palm_start.z ); glVertex3f( prev_palm_end.x, prev_palm_end.y, prev_palm_end.z ); glVertex3f( curr_palm_end.x, curr_palm_end.y, curr_palm_end.z ); glVertex3f( curr_palm_start.x, curr_palm_start.y, curr_palm_start.z ); glEnd(); } prev_palm_start = curr_palm_start; prev_palm_end = curr_palm_end; } } glPopMatrix(); }
void QTVS_Leap::FingerLogic(handIndex hIndex) { if (ui.checkBox_gesturesParangus->isChecked()) ParangusGestureLogic(); if (ui.checkBox_gesturesLeap->isChecked()) LeapGestureLogic(); //DEBUG: Atm we cancel // return; // 0 -> 4 = left hand // 5 -> 9 = right hand // So lets use a shift and no redundant code int iHandToFingerShift = 0; if (hIndex == handRight) iHandToFingerShift += 5; 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; Leap::Vector position = finger.stabilizedTipPosition(); // Convert Leap::Vector position to Screen Coords QPoint screenPosition = FingerCursorPosition(position); // Lerp coords for smoothness if required int xCoord = lerp(fingerTraces.at(finger.type() + iHandToFingerShift)->geometry().left(), screenPosition.x(), dMouseLerpValue); int yCoord = lerp(fingerTraces.at(finger.type() + iHandToFingerShift)->geometry().top(), screenPosition.y(), dMouseLerpValue); // Qt Doesn't allow different threads to overwride gui locations. // Therefore, the usage of events are well, used. // This updates visual finger representation to correct location QMoveEvent *tEvent = new QMoveEvent(QPoint(xCoord, yCoord), fingerTraces.at(finger.type() + iHandToFingerShift)->pos()); QCoreApplication::postEvent(fingerTraces.at(finger.type() + iHandToFingerShift), tEvent); // Z axis does NOT use stabilized position. // Stabilized position is generally used for X/Y movement (2D display) // Therefore Z is updated quite poorely. So we used unStabalized position instead // Setup position limits (manual testing for values position = finger.tipPosition(); float zFinger = position.z < 0 ? 0 : position.z > 200 ? 200 : position.z; // Convert to percentages // trim lowerend of percentages zFinger /= 200; if (zFinger < 0.1) zFinger = 0.1; if (hIndex == handLeft) { if(ui.checkBox_FingerDragsWindows->isChecked()) { // We're on index finger and its close to screen / center of Z-plane on leap motion if (finger.type() == leapIndex && zFinger < 0.12) { POINT pt; pt.x = screenPosition.x(); pt.y = screenPosition.y(); // if our rect was reset // Therefore, we just started to drag if (debugWindowDrag_Left.left == -1) { // Find window under point // Find window's dimmensions // Find difference between player's finger coords and window's coords debugWindowHWND_Left = GetRealParent(WindowFromPoint(pt)); // Set it as active window if need be. if(debugWindowHWND_Left != GetForegroundWindow() && ui.checkBox_DragSetsActive->isChecked()) { SetForegroundWindow(debugWindowHWND_Left); // Backup incase SetForegroundWindow fails // TODO: Perhaps replace in future? since foreground window DOES faile occasionally. // SetWindowPos(debugWindowHWND_Left,HWND_TOPMOST,0,0,0,0, SWP_SHOWWINDOW|SWP_NOSIZE|SWP_NOMOVE); } // Restore window if maximized Section WINDOWPLACEMENT wndpl = { sizeof(WINDOWPLACEMENT) }; GetWindowPlacement(debugWindowHWND_Left, &wndpl); // Determine if window is maximized to begin with if (wndpl.showCmd == SW_MAXIMIZE) { // Setup the restore command and send it wndpl.showCmd = SW_RESTORE; SetWindowPlacement(debugWindowHWND_Left, &wndpl); // Center restored window around player's fingers int iTempWindowWidth = wndpl.rcNormalPosition.right - wndpl.rcNormalPosition.left; int iTempWindowHeight = wndpl.rcNormalPosition.bottom - wndpl.rcNormalPosition.top; MoveWindow(debugWindowHWND_Left, pt.x - iTempWindowWidth / 2, pt.y - iTempWindowHeight / 2, iTempWindowWidth, iTempWindowHeight, true); } GetWindowRect(debugWindowHWND_Left, &debugWindowDrag_Left); debugWindowDrag_Left.left = pt.x - debugWindowDrag_Left.left; debugWindowDrag_Left.top = pt.y - debugWindowDrag_Left.top; debugWindowDrag_Left.bottom = pt.y;//debugWindowDrag_Left.bottom - pt.y; debugWindowDrag_Left.right = pt.x;//debugWindowDrag_Left.bottom - pt.y; } // Setup temp rect for window's width/height RECT tRect; GetWindowRect(debugWindowHWND_Left, &tRect); debugDisplayString = QString::number(pt.y); // If left hand and right hand have different HWNDs on drag // Proceed with normal drag if (debugWindowHWND_Left != debugWindowHWND_Right) { WINDOWPLACEMENT wndpl = { sizeof(WINDOWPLACEMENT) }; GetWindowPlacement(debugWindowHWND_Left, &wndpl); // AeroSnap time // Maximize window on top if (pt.y <= 30 && wndpl.showCmd != SW_MAXIMIZE) { iDebugWindowRestore_LeftHand = 1; iDebug_PreviousWindowWidth_LeftHand = tRect.right - tRect.left; iDebug_PreviousWindowHeight_LeftHand = tRect.bottom - tRect.top; wndpl.showCmd = SW_SHOWMAXIMIZED; SetWindowPlacement(debugWindowHWND_Left, &wndpl); } // AeroSnap Left else if (pt.x <= 30) { if (iDebugWindowRestore_LeftHand == 0) { iDebugWindowRestore_LeftHand = 1; iDebug_PreviousWindowWidth_LeftHand = tRect.right - tRect.left; iDebug_PreviousWindowHeight_LeftHand = tRect.bottom - tRect.top; int wndwidth = (rcMonitor.right - rcMonitor.left) / 2; int wndheight = rcMonitor.bottom - rcMonitor.top;//max(min((rcMonitor.bottom-rcMonitor.top), state.mmi.ptMaxTrackSize.y), state.mmi.ptMinTrackSize.y); int posx = rcMonitor.left; int posy = rcMonitor.top + (rcMonitor.bottom - rcMonitor.top) / 2 - wndheight / 2; // Center vertically (if window has a max height) MoveWindow(debugWindowHWND_Left, posx, posy, wndwidth, wndheight, true); } } // AeroSnap Left else if (pt.x >= (rcMonitor.right - rcMonitor.left) - 30) { if (iDebugWindowRestore_LeftHand == 0) { iDebugWindowRestore_LeftHand = 1; iDebug_PreviousWindowWidth_LeftHand = tRect.right - tRect.left; iDebug_PreviousWindowHeight_LeftHand = tRect.bottom - tRect.top; int wndwidth = (rcMonitor.right - rcMonitor.left) / 2; int wndheight = rcMonitor.bottom - rcMonitor.top;//max(min((rcMonitor.bottom-rcMonitor.top), state.mmi.ptMaxTrackSize.y), state.mmi.ptMinTrackSize.y); int posx = rcMonitor.right - wndwidth; int posy = rcMonitor.top + (rcMonitor.bottom - rcMonitor.top) / 2 - wndheight / 2; // Center vertically (if window has a max height) MoveWindow(debugWindowHWND_Left, posx, posy, wndwidth, wndheight, true); } } // Normal Drag else if ( pt.y > 30 && pt.x > 30 && (pt.x < (rcMonitor.right - rcMonitor.left) - 30 )) { // some other custom snap is in effect if (iDebugWindowRestore_LeftHand == 1) { iDebugWindowRestore_LeftHand = 0; if (wndpl.showCmd == SW_MAXIMIZE) { // Setup the restore command and send it wndpl.showCmd = SW_RESTORE; SetWindowPlacement(debugWindowHWND_Left, &wndpl); } MoveWindow(debugWindowHWND_Left, pt.x - iDebug_PreviousWindowWidth_LeftHand / 2, pt.y - iDebug_PreviousWindowHeight_LeftHand / 2, iDebug_PreviousWindowWidth_LeftHand, iDebug_PreviousWindowHeight_LeftHand, true); } // Nope, just normal drag else if (wndpl.showCmd != SW_MAXIMIZE) MoveWindow(debugWindowHWND_Left, pt.x - debugWindowDrag_Left.left, pt.y - debugWindowDrag_Left.top, tRect.right - tRect.left, tRect.bottom - tRect.top, true); } } // Left and Right hand have same HWNDs // Resize mode engadged else if(ui.checkBox_ResizeWindows->isChecked()) { // Left hand's overview: // Horizontal movement = simultaneious change in window's coords + change in width. // Vertical movement = change in window's height only. // Left reference points: // X = hwnd.left // Y = hwnd.bottom RECT resizeRect; resizeRect.top = tRect.top; resizeRect.left = tRect.left + (pt.x - debugWindowDrag_Left.right);// / 5; resizeRect.right = (tRect.right - resizeRect.left);// - (pt.x - debugWindowDrag_Left.left) ;/// 5; resizeRect.bottom = (tRect.bottom - tRect.top) + (pt.y - debugWindowDrag_Left.bottom);// / 5; debugWindowDrag_Left.right = pt.x; debugWindowDrag_Left.bottom = pt.y; MoveWindow(debugWindowHWND_Left, resizeRect.left, resizeRect.top, resizeRect.right , resizeRect.bottom, true); } } else if (finger.type() == leapIndex && zFinger > 0.15) { debugWindowDrag_Left.left = -1; debugWindowHWND_Left = NULL; } } } if (hIndex == handRight) { if(ui.checkBox_FingerDragsWindows->isChecked()) { if (finger.type() == leapIndex && zFinger < 0.12) { // debugDisplayString = "TRYIGN"; POINT pt; pt.x = screenPosition.x() - 15; pt.y = screenPosition.y() - 15; if (debugWindowDrag_Right.left == -1) { debugWindowHWND_Right = GetRealParent(WindowFromPoint(pt)); if(debugWindowHWND_Right != GetForegroundWindow() && ui.checkBox_DragSetsActive->isChecked()) { SetForegroundWindow(debugWindowHWND_Right); // Backup incase SetForegroundWindow fails // TODO: Perhaps replace in future? since foreground window DOES faile occasionally. // SetWindowPos(debugWindowHWND_Left,HWND_TOPMOST,0,0,0,0, SWP_SHOWWINDOW|SWP_NOSIZE|SWP_NOMOVE); } GetWindowRect(debugWindowHWND_Right, &debugWindowDrag_Right); debugWindowDrag_Right.left = pt.x - debugWindowDrag_Right.left; debugWindowDrag_Right.top = pt.y - debugWindowDrag_Right.top; debugWindowDrag_Right.bottom = pt.y;//debugWindowDrag_Left.bottom - pt.y; debugWindowDrag_Right.right = pt.x;//debugWindowDrag_Left.bottom - pt.y; } RECT tRect; GetWindowRect(debugWindowHWND_Right, &tRect); if (debugWindowHWND_Left != debugWindowHWND_Right) { WINDOWPLACEMENT wndpl = { sizeof(WINDOWPLACEMENT) }; GetWindowPlacement(debugWindowHWND_Right, &wndpl); // AeroSnap time // Maximize window on top if (pt.y <= 30 && wndpl.showCmd != SW_MAXIMIZE) { iDebugWindowRestore_RightHand = 1; iDebug_PreviousWindowWidth_RightHand = tRect.right - tRect.left; iDebug_PreviousWindowHeight_RightHand = tRect.bottom - tRect.top; wndpl.showCmd = SW_SHOWMAXIMIZED; SetWindowPlacement(debugWindowHWND_Right, &wndpl); } // AeroSnap Left else if (pt.x <= 30) { if (iDebugWindowRestore_RightHand == 0) { iDebugWindowRestore_RightHand = 1; iDebug_PreviousWindowWidth_RightHand = tRect.right - tRect.left; iDebug_PreviousWindowHeight_RightHand = tRect.bottom - tRect.top; int wndwidth = (rcMonitor.right - rcMonitor.left) / 2; int wndheight = rcMonitor.bottom - rcMonitor.top;//max(min((rcMonitor.bottom-rcMonitor.top), state.mmi.ptMaxTrackSize.y), state.mmi.ptMinTrackSize.y); int posx = rcMonitor.left; int posy = rcMonitor.top + (rcMonitor.bottom - rcMonitor.top) / 2 - wndheight / 2; // Center vertically (if window has a max height) MoveWindow(debugWindowHWND_Right, posx, posy, wndwidth, wndheight, true); } } // AeroSnap Left else if (pt.x >= (rcMonitor.right - rcMonitor.left) - 30) { if (iDebugWindowRestore_RightHand == 0) { iDebugWindowRestore_RightHand = 1; iDebug_PreviousWindowWidth_RightHand = tRect.right - tRect.left; iDebug_PreviousWindowHeight_RightHand = tRect.bottom - tRect.top; int wndwidth = (rcMonitor.right - rcMonitor.left) / 2; int wndheight = rcMonitor.bottom - rcMonitor.top;//max(min((rcMonitor.bottom-rcMonitor.top), state.mmi.ptMaxTrackSize.y), state.mmi.ptMinTrackSize.y); int posx = rcMonitor.right - wndwidth; int posy = rcMonitor.top + (rcMonitor.bottom - rcMonitor.top) / 2 - wndheight / 2; // Center vertically (if window has a max height) MoveWindow(debugWindowHWND_Right, posx, posy, wndwidth, wndheight, true); } } // Normal Drag else if ( pt.y > 30 && pt.x > 30 && (pt.x < (rcMonitor.right - rcMonitor.left) - 30 )) { // some other custom snap is in effect if (iDebugWindowRestore_RightHand == 1) { iDebugWindowRestore_RightHand = 0; if (wndpl.showCmd == SW_MAXIMIZE) { // Setup the restore command and send it wndpl.showCmd = SW_RESTORE; SetWindowPlacement(debugWindowHWND_Right, &wndpl); } MoveWindow(debugWindowHWND_Right, pt.x - iDebug_PreviousWindowWidth_RightHand / 2, pt.y - iDebug_PreviousWindowHeight_RightHand / 2, iDebug_PreviousWindowWidth_RightHand, iDebug_PreviousWindowHeight_RightHand, true); } // Nope, just normal drag else if (wndpl.showCmd != SW_MAXIMIZE) MoveWindow(debugWindowHWND_Right, pt.x - debugWindowDrag_Right.left, pt.y - debugWindowDrag_Right.top, tRect.right - tRect.left, tRect.bottom - tRect.top, true); } } else if (ui.checkBox_ResizeWindows->isChecked()){ // Right hand's overview: // Horizontal movement = change in width. // Vertical movement = simultaneious change in window's coords + change in window's height only. // debug_iReferencePointX_Right = tRect.left + debugWindowDrag_Right.left;// + debug_iReferencePointY_Left; // debug_iReferencePointY_Right = tRect.top + debugWindowDrag_Right.top;// + debug_iReferencePointY_Left; // RECT resizeRect; // resizeRect.top = tRect.top; // resizeRect.left = tRect.left + (pt.x - debugWindowDrag_Left.right);// / 5; // resizeRect.right = (tRect.right - resizeRect.left);// - (pt.x - debugWindowDrag_Left.left) ;/// 5; // resizeRect.bottom = (tRect.bottom - tRect.top) + (pt.y - debugWindowDrag_Left.bottom);// / 5; // debugWindowDrag_Left.right = pt.x; // debugWindowDrag_Left.bottom = pt.y; RECT resizeRect; resizeRect.top = tRect.top + (pt.y - debugWindowDrag_Right.bottom); resizeRect.left = tRect.left; resizeRect.right = (tRect.right - tRect.left) + (pt.x - debugWindowDrag_Right.right); resizeRect.bottom = (tRect.bottom - resizeRect.top);// - (pt.y - debug_iReferencePointY_Right) / 5; // debugWindowDrag_Right.left += (pt.x - debug_iReferencePointX_Right) / 5; // debugWindowDrag_Right.top += (pt.y - debug_iReferencePointY_Right) / 5; debugWindowDrag_Right.right = pt.x; debugWindowDrag_Right.bottom = pt.y; MoveWindow(debugWindowHWND_Right, resizeRect.left, resizeRect.top, resizeRect.right , resizeRect.bottom, false); } // debugDisplayString = QString::number(finger.tipPosition().z); } else if (finger.type() == leapIndex && zFinger > 0.15) { debugWindowDrag_Right.left = -1; debugWindowHWND_Right = NULL; } } } zFinger *= 75.0; QResizeEvent *rEvent = new QResizeEvent(QSize(zFinger, zFinger), fingerTraces.at(finger.type() + iHandToFingerShift)->size()); QCoreApplication::postEvent(fingerTraces.at(finger.type() + iHandToFingerShift), rEvent); // switch (finger.type()) // { // case leapThumb: // { // // if(finger.isExtended()) // // { // // QShowEvent * sEvent = new QShowEvent(); // // QCoreApplication::postEvent(thumbTrace, sEvent); // int xCoord = lerp(thumbTrace->geometry().left(), screenPosition.x(), dMouseLerpValue); // int yCoord = lerp(thumbTrace->geometry().top(), screenPosition.y(), dMouseLerpValue); // QMoveEvent *tEvent = new QMoveEvent(QPoint(xCoord, yCoord), thumbTrace->pos()); // QCoreApplication::postEvent(thumbTrace, tEvent); // // } // // else // // { // // QHideEvent * hEvent = new QHideEvent(); // // QCoreApplication::postEvent(thumbTrace, hEvent); // // } // // thumbTrace->move(xCoord, yCoord); // } // // indexTrace; // // middleTrace; // // ringTrace; // // pinkieTrace; // break; // case leapIndex: // { // int xCoord = lerp(indexTrace->geometry().left(), screenPosition.x(), dMouseLerpValue); // int yCoord = lerp(indexTrace->geometry().top(), screenPosition.y(), dMouseLerpValue); // QMoveEvent *tEvent = new QMoveEvent(QPoint(xCoord, yCoord), indexTrace->pos()); // QCoreApplication::postEvent(indexTrace, tEvent); // // thumbTrace->move(xCoord, yCoord); // } // break; // case leapMiddle: // { // int xCoord = lerp(middleTrace->geometry().left(), screenPosition.x(), dMouseLerpValue); // int yCoord = lerp(middleTrace->geometry().top(), screenPosition.y(), dMouseLerpValue); // QMoveEvent *tEvent = new QMoveEvent(QPoint(xCoord, yCoord), middleTrace->pos()); // QCoreApplication::postEvent(middleTrace, tEvent); // // thumbTrace->move(xCoord, yCoord); // } // break; // case leapRing: // { // int xCoord = lerp(ringTrace->geometry().left(), screenPosition.x(), dMouseLerpValue); // int yCoord = lerp(ringTrace->geometry().top(), screenPosition.y(), dMouseLerpValue); // QMoveEvent *tEvent = new QMoveEvent(QPoint(xCoord, yCoord), ringTrace->pos()); // QCoreApplication::postEvent(ringTrace, tEvent); // // thumbTrace->move(xCoord, yCoord); // } // break; // case leapPinkie: // { // int xCoord = lerp(pinkieTrace->geometry().left(), screenPosition.x(), dMouseLerpValue); // int yCoord = lerp(pinkieTrace->geometry().top(), screenPosition.y(), dMouseLerpValue); // QMoveEvent *tEvent = new QMoveEvent(QPoint(xCoord, yCoord), pinkieTrace->pos()); // QCoreApplication::postEvent(pinkieTrace, tEvent); // // thumbTrace->move(xCoord, yCoord); // } // break; // } } }
void QTVS_Leap::ParangusGestureLogic() { if (ui.checkBox_PalmForSwipes->isChecked()) { Leap::Vector palmPosition = controller.frame(3).hands()[0].palmPosition(); float previousPalmYPosAndDifference = palmPosition.y; float previousPalmXPosAndDifference = palmPosition.x; previousPalmYPosAndDifference = hand.palmPosition().y - previousPalmYPosAndDifference; previousPalmXPosAndDifference = hand.palmPosition().x - previousPalmXPosAndDifference; // std::cout << previousFingerXPosAndDifference << "\n"; if (previousPalmYPosAndDifference < -2.5 && handCache.bGestureToggle) { std::cout << "down \n"; handCache.bGestureToggle = false; QtConcurrent::run(this, &QTVS_Leap::ParangusGesture, NULL, swipe_Down); } if (previousPalmYPosAndDifference > 2.5 && handCache.bGestureToggle) { std::cout << "swipe_Up \n"; handCache.bGestureToggle = false; QtConcurrent::run(this, &QTVS_Leap::ParangusGesture, NULL, swipe_Up); } if (previousPalmXPosAndDifference < -2.5 && handCache.bGestureToggle) { std::cout << "swipe_Left \n"; handCache.bGestureToggle = false; QtConcurrent::run(this, &QTVS_Leap::ParangusGesture, NULL, swipe_Left); } if (previousPalmXPosAndDifference > 2.5 && handCache.bGestureToggle) { std::cout << "swipe_Right \n"; handCache.bGestureToggle = false; QtConcurrent::run(this, &QTVS_Leap::ParangusGesture, NULL, swipe_Right); } if (!handCache.bGestureToggle && abs(previousPalmYPosAndDifference) <= 0.5 && abs(previousPalmXPosAndDifference) <= 0.5 ) handCache.bGestureToggle = true; return; } // if palm for swipes isn't checked, we go for fingers instead: for (FingerList::const_iterator fl = fingers.begin(); fl != fingers.end(); ++fl) { const Finger finger = *fl; //To simplify things down the road int leapFingerIndex = finger.type(); if (finger.isExtended()) { Leap::Vector fingerPosition = controller.frame(3).fingers()[leapFingerIndex].stabilizedTipPosition(); float previousFingerYPosAndDifference = fingerPosition.y; float previousFingerXPosAndDifference = fingerPosition.x; previousFingerYPosAndDifference = finger.stabilizedTipPosition().y - previousFingerYPosAndDifference; previousFingerXPosAndDifference = finger.stabilizedTipPosition().x - previousFingerXPosAndDifference; // std::cout << previousFingerXPosAndDifference << "\n"; if (previousFingerYPosAndDifference < -10 && handCache.fingers_p[leapFingerIndex].bGestureToggle) { handCache.fingers_p[leapFingerIndex].bGestureToggle = false; QtConcurrent::run(this, &QTVS_Leap::ParangusGesture, leapFingerIndex, swipe_Down); } if (previousFingerYPosAndDifference > 10 && handCache.fingers_p[leapFingerIndex].bGestureToggle) { handCache.fingers_p[leapFingerIndex].bGestureToggle = false; QtConcurrent::run(this, &QTVS_Leap::ParangusGesture, leapFingerIndex, swipe_Up); } if (previousFingerXPosAndDifference < -10 && handCache.fingers_p[leapFingerIndex].bGestureToggle) { handCache.fingers_p[leapFingerIndex].bGestureToggle = false; QtConcurrent::run(this, &QTVS_Leap::ParangusGesture, leapFingerIndex, swipe_Left); } if (previousFingerXPosAndDifference > 10 && handCache.fingers_p[leapFingerIndex].bGestureToggle) { handCache.fingers_p[leapFingerIndex].bGestureToggle = false; QtConcurrent::run(this, &QTVS_Leap::ParangusGesture, leapFingerIndex, swipe_Right); } if (!handCache.fingers_p[leapFingerIndex].bGestureToggle && abs(previousFingerYPosAndDifference) <= 0.1 && abs(previousFingerXPosAndDifference) <= 0.1 ) handCache.fingers_p[leapFingerIndex].bGestureToggle = true; } } }