class NaoExperiment( QtCore.QObject ): """ NaoExperiment """ def __init__( self ): QtCore.QObject.__init__( self ); # Create states. self.__stateStart = StateStart( experiment = self ); self.__stateIntroduction = StateIntroduction( experiment = self ); self.__stateCollectingObjects = StateCollectingObjects( experiment = self ); # Setup state machine. self.__stateMachine = QtCore.QStateMachine(); self.__stateMachine.addState( self.__stateStart ); self.__stateMachine.addState( self.__stateIntroduction ); self.__stateMachine.addState( self.__stateCollectingObjects ); # Add transitions. self.__stateStart.addTransition( self.__stateStart, QtCore.SIGNAL( 'finished()' ), self.__stateIntroduction ); self.__stateIntroduction.addTransition( self.__stateIntroduction, QtCore.SIGNAL( 'finished()' ), self.__stateCollectingObjects ); self.__stateMachine.setInitialState( self.__stateStart ); # Setup utils. self.__utils = NaoExperimentUtils(); # Initialize. self.__isRunning = False; self.__isPaused = False; def start( self ): self.__isRunning = True; self.__stateMachine.start(); def pause( self ): self.__isPaused = True; def resume( self ): self.__isPaused = False; def stop( self ): self.__isRunning = True; self.__stateMachine.stop(); def isRunning( self ): return self.__isRunning; def isPaused( self ): return self.__isPaused; def getUtils( self ): return self.__utils; '''
def __init__( self ): QtCore.QObject.__init__( self ); # Create states. self.__stateStart = StateStart( experiment = self ); self.__stateIntroduction = StateIntroduction( experiment = self ); self.__stateCollectingObjects = StateCollectingObjects( experiment = self ); # Setup state machine. self.__stateMachine = QtCore.QStateMachine(); self.__stateMachine.addState( self.__stateStart ); self.__stateMachine.addState( self.__stateIntroduction ); self.__stateMachine.addState( self.__stateCollectingObjects ); # Add transitions. self.__stateStart.addTransition( self.__stateStart, QtCore.SIGNAL( 'finished()' ), self.__stateIntroduction ); self.__stateIntroduction.addTransition( self.__stateIntroduction, QtCore.SIGNAL( 'finished()' ), self.__stateCollectingObjects ); self.__stateMachine.setInitialState( self.__stateStart ); # Setup utils. self.__utils = NaoExperimentUtils(); # Initialize. self.__isRunning = False; self.__isPaused = False;
def setupStateMachine( self ): """ setupStateMachine """ # Create states. self.__stateStart = StateStart( model = self ); #self.__stateIntroduction = StateIntroduction( model = self ); self.__stateCollectingPieces = StateCollectingPieces( model = self ); self.__stateEvaluatingPieces = StateEvaluatingPieces( model = self ); self.__stateEnd = StateEnd( model = self ); # Setup state machine. self.__stateMachine = QtCore.QStateMachine(); self.__stateMachine.addState( self.__stateStart ); #self.__stateMachine.addState( self.__stateIntroduction ); self.__stateMachine.addState( self. __stateCollectingPieces ); self.__stateMachine.addState( self. __stateEvaluatingPieces ); self.__stateMachine.addState( self. __stateEnd ); # Add transitions. #self.__stateStart.addTransition( self.__stateStart, QtCore.SIGNAL( 'finished()' ), self.__stateIntroduction ); #self.__stateIntroduction.addTransition( self.__stateIntroduction, QtCore.SIGNAL( 'finished()' ), self.__stateCollectingPieces ); self.__stateStart.addTransition( self.__stateStart, QtCore.SIGNAL( 'finished()' ), self.__stateCollectingPieces ); self.__stateCollectingPieces.addTransition( self.__stateCollectingPieces, QtCore.SIGNAL( 'finished()' ), self.__stateEvaluatingPieces ); self.__stateEvaluatingPieces.addTransition( self.__stateEvaluatingPieces, QtCore.SIGNAL( 'finished()' ), self.__stateEnd ); self.__stateMachine.setInitialState( self.__stateStart );
class NaoExperimentModel( QtCore.QObject ): """ NaoExperimentModel """ imageChanged = QtCore.pyqtSignal( QtGui.QImage ); blobsChanged = QtCore.pyqtSignal( Blobs ); logChanged = QtCore.pyqtSignal( Log ); piecesChanged = QtCore.pyqtSignal( list ); def __init__( self ): QtCore.QObject.__init__( self ); # Setup OpenCV. self.__cvBridge = CvBridge(); # Setup subscribers. self.__logTopic = rospy.get_param( 'logTopic', '/rosout' ); self.__logSubscriber = rospy.Subscriber( self.__logTopic, Log, self.onLogReceived ); self.__cameraTopic = rospy.get_param( 'cameraTopic', '/nao_camera_processed/image_raw' ); self.__cameraSubscriber = rospy.Subscriber( self.__cameraTopic, Image, self.onImageReceived ); self.__blobsTopic = rospy.get_param( 'blobsTopic', '/blobs' ); self.__blobsSubscriber = rospy.Subscriber( self.__blobsTopic, Blobs, self.onBlobsReceived ); # Initialize variables. self.__log = []; self.__blobs = []; self.__pieces = []; self.__image = None; self.__isRunning = False; self.__isPaused = False; # Setup. self.setupPieces(); self.setupStateMachine(); def __del__( self ): self.__logSubscriber.unregister(); self.__cameraSubscriber.unregister(); self.__blobsSubscriber.unregister(); def setupPieces( self ): """ setupPieces """ piecesPath = os.path.join( roslib.packages.get_pkg_dir( PACKAGE_NAME ), 'cfg' ); piecesFilePath = os.path.join( piecesPath, 'pieces.yaml' ); with open( piecesFilePath, 'r' ) as pieces: piecesData = yaml.load( pieces ); for pieceData in piecesData: piece = PieceRectangular( x = pieceData[ 'x' ], y = pieceData[ 'y' ], width = pieceData[ 'width' ], height = pieceData[ 'height' ] ); self.__pieces.append( piece ); def setupStateMachine( self ): """ setupStateMachine """ # Create states. self.__stateStart = StateStart( model = self ); #self.__stateIntroduction = StateIntroduction( model = self ); self.__stateCollectingPieces = StateCollectingPieces( model = self ); self.__stateEvaluatingPieces = StateEvaluatingPieces( model = self ); self.__stateEnd = StateEnd( model = self ); # Setup state machine. self.__stateMachine = QtCore.QStateMachine(); self.__stateMachine.addState( self.__stateStart ); #self.__stateMachine.addState( self.__stateIntroduction ); self.__stateMachine.addState( self. __stateCollectingPieces ); self.__stateMachine.addState( self. __stateEvaluatingPieces ); self.__stateMachine.addState( self. __stateEnd ); # Add transitions. #self.__stateStart.addTransition( self.__stateStart, QtCore.SIGNAL( 'finished()' ), self.__stateIntroduction ); #self.__stateIntroduction.addTransition( self.__stateIntroduction, QtCore.SIGNAL( 'finished()' ), self.__stateCollectingPieces ); self.__stateStart.addTransition( self.__stateStart, QtCore.SIGNAL( 'finished()' ), self.__stateCollectingPieces ); self.__stateCollectingPieces.addTransition( self.__stateCollectingPieces, QtCore.SIGNAL( 'finished()' ), self.__stateEvaluatingPieces ); self.__stateEvaluatingPieces.addTransition( self.__stateEvaluatingPieces, QtCore.SIGNAL( 'finished()' ), self.__stateEnd ); self.__stateMachine.setInitialState( self.__stateStart ); def start( self ): self.__isRunning = True; self.__stateMachine.start(); def pause( self ): self.__isPaused = True; def resume( self ): self.__isPaused = False; def stop( self ): self.__isRunning = False; self.__stateMachine.stop(); def isRunning( self ): return self.__isRunning; def isPaused( self ): return self.__isPaused; def getPieces( self ): """ Returns the list of all the pieces. @return: A list of all the pieces. """ return self.__pieces; def getBlobs( self ): """ Returns the latest received list of blobs. @return: A list of blobs. """ return self.__blobs; def getImage( self ): """ Return the latest received image. @return: An image. """ return self.__image; def detectPieces( self ): if( len( self.getPieces() ) == 0 ): return; if( len( self.getBlobs() ) == 0 ): return; # Loop over all the pieces. for piece in self.getPieces(): isDetected = False; # Loop over all the blobs. for blob in self.getBlobs(): rectangle = Rectangle( top = blob.top, left = blob.left, bottom = blob.bottom, right = blob.right ); if( piece.doesIntersectsWithRectangle( rectangle ) ): isDetected = True; break; # Set whether the object is detected or not. if( isDetected ): piece.addStatus( Piece.DETECTED ); else: piece.removeStatus( Piece.DETECTED ); # Notify when all pieces have been changed. self.piecesChanged.emit( self.getPieces() ); def onLogReceived( self, log ): """ onLogReceived @param: data """ # We only want to capture nodes from the experiment. if( log.name == rospy.get_name() ): self.__log.append( log ); self.logChanged.emit( log ); def onImageReceived( self, image ): """ onImageReceived @param: data """ openCVMatrix = self.__cvBridge.imgmsg_to_cv( image ); # Convert from BGR to RGB. cv.CvtColor( openCVMatrix, openCVMatrix, cv.CV_BGR2RGB ); # Keep a local reference to the data. self.__imageStringData = openCVMatrix.tostring(); # Create QImage. self.__image = QtGui.QImage( self.__imageStringData, image.width, image.height, openCVMatrix.step, QtGui.QImage.Format_RGB888 ); self.imageChanged.emit( self.__image ); def onBlobsReceived( self, blobs ): """ onImageReceived @param: blobs """ self.__blobs = blobs.blobs; self.detectPieces(); self.blobsChanged.emit( blobs );