def initMaps(self, size): self.size = size dt = 0.6 # CREATE MAPS # 1st and 2nd webcam + possible perturbations self.webcam1 = WebcamMap("Webcam1", size, dt=dt, numDevice=0) self.playcam1 = PlayCamMap("PlayCam1", size) self.webcam2 = WebcamMap("Webcam2", size, dt=dt, numDevice=1) self.playcam2 = PlayCamMap("PlayCam2", size) # 1st webcam basic filtering: HSV color (outputing V) self.color_select = ImageColorSelection("ColorSelect", size, dt=dt) # one neural field per webcam self.field1 = MapDNF("DNF1", size, model='spike', dt=dt) self.field2 = MapDNF("DNF2", size, model='spike', dt=dt) # computing optical flows from both maps, then translating into colors self.flow1 = OpticalFlowMap("OpticalFlow1", size, dt=dt) self.flow2 = OpticalFlowMap("OpticalFlow2", size, dt=dt) self.ofBGR1 = OpticalFlowToBGR("OFtoBGR1", size=size, dt=dt) self.ofBGR2 = OpticalFlowToBGR("OFtoBGR2", size=size, dt=dt) # extracting average optical flow (1st webcam) under spikes as BGR coding, then filtering optical flow of webcam 2 accordingly self.ofColor = FlowDirectionSelect("SelectDir", size=1, dt=dt, globalSize=size, sampleSize=0.07) self.color_select2 = ImageColorSelection("OptFlowColorSelect", size, dt=dt, color='fullManu') # finally summing for webcam 2 the filtered color and the extracted optical flow (coded as color) self.aff2 = FuncWithoutKeywords(utils.sumArrays, "MixedModeInput", size, dt=dt) # LINK MAPS # from webcam 1 to DNF 1 self.playcam1.addChildren(image=self.webcam1) self.color_select.addChildren(image=self.playcam1) self.field1.addChildren(aff=self.color_select) # from webcam 1 to the extraction under spikes of the selected motion direction self.flow1.addChildren(img=self.playcam1) self.ofBGR1.addChildren(opticalFlow=self.flow1) self.ofColor.addChildren(flowBGR=self.ofBGR1, colorDNFAct=self.field1.getActivation()) # from webcam 2 to DNF 2, using the selected motion direction, and mixing with the color filtering self.playcam2.addChildren(image=self.webcam2) self.flow2.addChildren(img=self.playcam2) self.ofBGR2.addChildren(opticalFlow=self.flow2) self.color_select2.addChildren(image=self.ofBGR2, hsv=self.ofColor) self.aff2.addChildren(of=self.color_select2, col=self.color_select) self.field2.addChildren(aff=self.aff2) # compute the playCam to avoid some problems TODO fix self.playcam1.compute() self.playcam2.compute() #return the roots root = self.field2 return root
def initMaps(self): """We initiate the map and link them""" #Create maps size = self.globalParams['size'] self.webcam = WebcamMap(size) self.color_select = ImageColorSelection(size) self.onOff1 = OnOffFilter(size=60, onIntXY=(1, 1), onStdXY=(0.1, 0.5), offIntXY=(0.7, 0.7), offStdXY=(0.1, 0.5), shift=0.2) self.onOff2 = OnOffFilter(size=20, onIntXY=(1, 1), onStdXY=(0.1, 0.5), offIntXY=(0.7, 0.7), offStdXY=(0.1, 0.5), shift=0.2) self.convo1 = Convolution(size) self.convo2 = Convolution(size) self.aff = FuncWithoutKeywords(utils.sumArrays, size) #Link maps self.webcam.registerOnGlobalParamsChange(dt='dt') self.color_select.registerOnGlobalParamsChange( dt='dt', color='color', reverseColors='reverseColors', color_threshold='color_threshold') self.color_select.addChildren(image=self.webcam) self.onOff1.registerOnGlobalParamsChange(dt='kernel_dt') self.onOff2.registerOnGlobalParamsChange(dt='kernel_dt') self.convo1.registerOnGlobalParamsChange(dt='dt', wrap='wrap') self.convo2.registerOnGlobalParamsChange(dt='dt', wrap='wrap') self.convo1.addChildren(source=self.color_select, kernel=self.onOff1) self.convo2.addChildren(source=self.color_select, kernel=self.onOff2) self.aff.registerOnGlobalParamsChange_ignoreCompute(dt='dt') self.aff.addChildren( color=self.color_select, convo1=self.convo1, convo2=self.convo2, ) #Update args self.aff.updateParams(self.globalParams) #Compute onOff once and for all self.onOff1.artificialRecursiveComputation() self.onOff2.artificialRecursiveComputation() #return the root return self.aff
def initMaps(self, size): self.size = size dt = 0.6 #Create maps self.webcam1 = WebcamMap("Webcam1", size, dt=dt, numDevice=0) self.webcam1.compute() self.playcam1 = PlayCamMap("PlayCam1", size) self.webcam2 = WebcamMap("Webcam2", size, dt=dt, numDevice=0) self.webcam2.compute() self.playcam2 = PlayCamMap("PlayCam2", size) self.color_select = ImageColorSelection("ColorSelect", size, dt=dt) self.field1 = MapDNF("DNF1", size, model='spike', dt=dt) self.field2 = MapDNF("DNF2", size, model='spike', dt=dt) self.chan1 = ChannelSelect("chan1", size, dt=dt, channel=0) self.chan2 = ChannelSelect("chan2", size, dt=dt, channel=0) self.flow1 = OpticalFlowMap("OpticalFlow1", size, dt=dt) self.flow2 = OpticalFlowMap("OpticalFlow2", size, dt=dt) self.ofBGR1 = OpticalFlowToBGR("OFtoBGR1", size=size, dt=dt) self.ofBGR2 = OpticalFlowToBGR("OFtoBGR2", size=size, dt=dt) self.ofColor = FlowDirectionSelect("SelectDir", size=1, dt=dt, globalSize=size, sampleSize=0.07) self.color_select2 = ImageColorSelection("OptFlowColorSelect", size, dt=dt, color='fullManu') #Link maps self.playcam1.addChildren(image=self.webcam1) self.color_select.addChildren(image=self.playcam1) self.field1.addChildren(aff=self.color_select) self.flow1.addChildren(img=self.playcam1) self.ofBGR1.addChildren(opticalFlow=self.flow1) self.ofColor.addChildren(flowBGR=self.ofBGR1, colorDNFAct=self.field1.getActivation()) self.playcam2.addChildren(image=self.webcam2) self.flow2.addChildren(img=self.playcam2) self.ofBGR2.addChildren(opticalFlow=self.flow2) self.color_select2.addChildren(image=self.ofBGR2, hsv=self.ofColor) self.field2.addChildren(aff=self.color_select2) #compute the playCam to avoid some problems TODO fix self.playcam1.compute() self.playcam2.compute() #return the roots root = self.field2 return root
def setUp(self): path = os.path.dirname(os.path.realpath(__file__)) self.testDir = path + "/testFiles/" self.img = cv2.imread(self.testDir + "exampleFinger.png") self.uut = ImageColorSelection(size=self.img.shape[0], image=self.img, dt=0.1, color='red', reverseColors=False, thresh=20, lowHSV=np.array([150, 50, 50]), highHSV=np.array([20, 255, 255]))
def initMaps(self,size): self.size = size dt = 0.6 #Create maps self.webcam1 = WebcamMap("Webcam1",size,dt=dt,numDevice=0) self.playcam1 = PlayCamMap("PlayCam1",size) self.webcam2 = WebcamMap("Webcam2",size,dt=dt,numDevice=0) self.playcam2 = PlayCamMap("PlayCam2",size) self.color_select = ImageColorSelection("ColorSelect",size,dt=dt) self.field1 = MapDNF("DNF1",size,model='spike',dt=dt) self.field2 = MapDNF("DNF2",size,model='spike',dt=dt) self.chan1 = ChannelSelect("chan1",size,dt=dt,channel=0) self.chan2 = ChannelSelect("chan2",size,dt=dt,channel=0) self.flow1 = OpticalFlowMap("OpticalFlow1",size,dt=dt) self.flow2 = OpticalFlowMap("OpticalFlow2",size,dt=dt) self.ofBGR1 = OpticalFlowToBGR("OFtoBGR1",size=size,dt=dt) self.ofBGR2 = OpticalFlowToBGR("OFtoBGR2",size=size,dt=dt) self.ofColor = FlowDirectionSelect("SelectDir",size=1,dt=dt,globalSize=size, sampleSize=0.07) self.color_select2 = ImageColorSelection("OptFlowColorSelect",size,dt=dt,color='fullManu') #Link maps self.playcam1.addChildren(image=self.webcam1) self.color_select.addChildren(image=self.playcam1) self.field1.addChildren(aff=self.color_select) self.flow1.addChildren(img=self.playcam1) self.ofBGR1.addChildren(opticalFlow=self.flow1) self.ofColor.addChildren(flowBGR=self.ofBGR1,colorDNFAct=self.field1.getActivation()) self.playcam2.addChildren(image=self.webcam2) self.flow2.addChildren(img=self.playcam2) self.ofBGR2.addChildren(opticalFlow=self.flow2) self.color_select2.addChildren(image=self.ofBGR2,hsv=self.ofColor) self.field2.addChildren(aff=self.color_select2) #compute the playCam to avoid some problems TODO fix self.playcam1.compute() self.playcam2.compute() #return the roots root = self.field2 return root
def initMaps(self, size): self.size = size dt = 0.6 #Create maps self.webcam = WebcamMap("Webcam", size, dt=dt, numDevice=0) self.webcam.compute() self.playcam = PlayCamMap("PlayCam", size) self.playcam.addChildren(image=self.webcam) self.color_select = ImageColorSelection("ColorSelect", size, dt=dt) self.field = MapDNF("DNF", size, model='spike', dt=dt) #Link maps self.color_select.addChildren(image=self.playcam) self.aff = self.color_select self.field.addChildren(aff=self.aff) #return the root return self.field
def setUp(self): path = os.path.dirname(os.path.realpath(__file__)) self.testDir =path + "/testFiles/" self.img = cv2.imread(self.testDir + "exampleFinger.png") self.uut = ImageColorSelection("uut",size = self.img.shape[0], image = self.img,dt=0.1,color='red',reverseColors=False,thresh=20, lowHSV=np.array([150,50,50]),highHSV = np.array([20,255,255]))
class ModelDNFCam(Model,Renderable): def initMaps(self,size): self.size = size dt = 0.6 #Create maps self.webcam = WebcamMap("Webcam",size,dt=dt,numDevice=0) self.webcam.compute() self.playcam = PlayCamMap("PlayCam",size) self.playcam.addChildren(image=self.webcam) self.color_select = ImageColorSelection("ColorSelect",size,dt=dt) self.field = MapDNF("DNF",size,model='spike',dt=dt) #Link maps self.color_select.addChildren(image=self.playcam) self.aff = self.color_select self.field.addChildren(aff=self.aff) #return the root return self.field def getArrays(self): ret = [ self.playcam, self.aff, self.field ] ret.extend(self.field.getArrays()) return ret def onClick(self,mapName,x,y): print("clicked on %s, at coord %s,%s"%(unicode(mapName),x,y)) if mapName == "PlayCam": bgr = self.playcam.getData() sizeROI = 1 #self.size/10. s2 = int(round(sizeROI/2.)) roi = bgr[y-s2:y+s2,x-s2:x+s2,:] # In BGR order hsv = cv2.cvtColor(roi,cv2.COLOR_BGR2HSV) colorVal = np.median(hsv[:,:,0]) satHigh = np.max(hsv[:,:,1]) satLow = np.min(hsv[:,:,1]) valHigh = np.max(hsv[:,:,2]) valLow = np.min(hsv[:,:,2]) self.color_select.setArg(colorVal=colorVal,satLow=satLow,satHigh=satHigh) print("ColorVal = ",colorVal, "SatHigh", satHigh, "SatLow", satLow, "ValHigh", valHigh, "ValLow", valLow) return "ColorSelect"
class ModelDNFCam(Model,Renderable): def initMaps(self,size): self.size = size dt = 0.6 #Create maps self.webcam = WebcamMap("Webcam",size,dt=dt,numDevice=0) self.webcam.compute() self.playcam = PlayCamMap("PlayCam",size) self.playcam.addChildren(self.webcam) self.color_select = ImageColorSelection("ColorSelect",size,dt=dt) self.field = MapDNF("DNF",size,model='spike',dt=dt) #Link maps self.color_select.addChildren(image=self.playcam) self.aff = self.color_select self.field.addChildren(aff=self.aff) #return the root return self.field def getArrays(self): ret = [ self.playcam, self.aff, self.field ] ret.extend(self.field.getArrays()) return ret def onClick(self,mapName,x,y): print("clicked on %s, at coord %s,%s"%(unicode(mapName),x,y)) if mapName == "PlayCam": bgr = self.playcam.getData() sizeROI = self.size/10. s2 = int(round(sizeROI/2.)) roi = bgr[y-s2:y+s2,x-s2:x+s2,:] hsv = cv2.cvtColor(roi,cv2.COLOR_BGR2HSV) colorVal = np.median(hsv[:,:,0]) satHigh = np.max(hsv[:,:,1]) satLow = np.min(hsv[:,:,1]) valHigh = np.max(hsv[:,:,2]) valLow = np.min(hsv[:,:,2]) self.color_select.setArg(colorVal=colorVal,satLow=satLow,satHigh=satHigh) return "ColorSelect"
class TestImageColorSelection(unittest.TestCase): def setUp(self): path = os.path.dirname(os.path.realpath(__file__)) self.testDir =path + "/testFiles/" self.img = cv2.imread(self.testDir + "exampleFinger.png") self.uut = ImageColorSelection("uut",size = self.img.shape[0], image = self.img,dt=0.1,color='red',reverseColors=False,thresh=20, lowHSV=np.array([150,50,50]),highHSV = np.array([20,255,255])) def test_red(self): self.uut.compute() show2Img(self.img,self.uut.getData()) def test_gray(self): self.uut.setArg(color='gray') self.uut.compute() show2Img(self.img,self.uut.getData())
def initMaps(self,size): self.size = size dt = 0.6 #Create maps self.webcam = WebcamMap("Webcam",size,dt=dt,numDevice=0) self.webcam.compute() self.playcam = PlayCamMap("PlayCam",size) self.playcam.addChildren(self.webcam) self.color_select = ImageColorSelection("ColorSelect",size,dt=dt) self.field = MapDNF("DNF",size,model='spike',dt=dt) #Link maps self.color_select.addChildren(image=self.playcam) self.aff = self.color_select self.field.addChildren(aff=self.aff) #return the root return self.field
class TestImageColorSelection(unittest.TestCase): def setUp(self): path = os.path.dirname(os.path.realpath(__file__)) self.testDir = path + "/testFiles/" self.img = cv2.imread(self.testDir + "exampleFinger.png") self.uut = ImageColorSelection(size=self.img.shape[0], image=self.img, dt=0.1, color='red', reverseColors=False, thresh=20, lowHSV=np.array([150, 50, 50]), highHSV=np.array([20, 255, 255])) def test_red(self): self.uut.compute() show2Img(self.img, self.uut.getData()) def test_gray(self): self.uut.setArg(color='gray') self.uut.compute() show2Img(self.img, self.uut.getData())
def initMaps(self, size): model = 'spike' self.size = size dt = 0.6 wrap = True model_ = 'spike' #Input self.webcam = WebcamMap("Webcam", size=size, dt=dt, numDevice=0) self.color_select = ImageColorSelection("Color Select", size, dt=dt, thresh=5) mapSize = 0.3 #Excitatory Memory self.fieldE = MapDNF("ExcitatoryField", size, dt=dt, mapSize=mapSize, model='spike', iExc=2.2, iInh=1.5, wExc=0.1 / 2., wInh=0.2 / 2.) #Inhibition memory self.fieldI = MapDNF("InhibitoryField", size, dt=dt, mapSize=mapSize, model='spike', iExc=2.2, iInh=1.5, wExc=0.1 / 2., wInh=0.2 / 2., h=-0.6) #artificial gaussian to bost inhbitory center = (size - 1) / 2 self.gauss = ShortStim("ArtificialOnClickGaussian", size=size, dt=dt, wrap=wrap, timeout=0, intensity=0., width=0.1, centerX=center, centerY=center) #TODO add unlimited amount of input to field self.add_gauss_and_input = FuncWithoutKeywords( utils.sumArrays, "InputAndArtificialGaussian", size=size, dt=dt) self.add_gauss_and_input.addChildren(gauss=self.gauss, input=self.color_select) #Exc - Inh self.substract = FuncMap2D(utils.subArrays, "Exc - Inh", size, dt=0.1) #Neural field selection self.field = MapDNF("DNF", size, model='spike') #Link maps self.color_select.addChildren(image=self.webcam) self.aff = self.color_select #Excitatory self.fieldE.addChildren(aff=self.aff) #Inhibitory self.fieldI.addChildren(aff=self.add_gauss_and_input) #Exc - Inh self.substract.addChildren(a=self.fieldE.getActivation(), b=self.fieldI.getActivation()) #Neural field self.field.addChildren(aff=self.substract) #return the root return self.field
class ModelWMCam(Model, Renderable): def initMaps(self, size): model = 'spike' self.size = size dt = 0.6 wrap = True model_ = 'spike' #Input self.webcam = WebcamMap("Webcam", size=size, dt=dt, numDevice=0) self.color_select = ImageColorSelection("Color Select", size, dt=dt, thresh=5) mapSize = 0.3 #Excitatory Memory self.fieldE = MapDNF("ExcitatoryField", size, dt=dt, mapSize=mapSize, model='spike', iExc=2.2, iInh=1.5, wExc=0.1 / 2., wInh=0.2 / 2.) #Inhibition memory self.fieldI = MapDNF("InhibitoryField", size, dt=dt, mapSize=mapSize, model='spike', iExc=2.2, iInh=1.5, wExc=0.1 / 2., wInh=0.2 / 2., h=-0.6) #artificial gaussian to bost inhbitory center = (size - 1) / 2 self.gauss = ShortStim("ArtificialOnClickGaussian", size=size, dt=dt, wrap=wrap, timeout=0, intensity=0., width=0.1, centerX=center, centerY=center) #TODO add unlimited amount of input to field self.add_gauss_and_input = FuncWithoutKeywords( utils.sumArrays, "InputAndArtificialGaussian", size=size, dt=dt) self.add_gauss_and_input.addChildren(gauss=self.gauss, input=self.color_select) #Exc - Inh self.substract = FuncMap2D(utils.subArrays, "Exc - Inh", size, dt=0.1) #Neural field selection self.field = MapDNF("DNF", size, model='spike') #Link maps self.color_select.addChildren(image=self.webcam) self.aff = self.color_select #Excitatory self.fieldE.addChildren(aff=self.aff) #Inhibitory self.fieldI.addChildren(aff=self.add_gauss_and_input) #Exc - Inh self.substract.addChildren(a=self.fieldE.getActivation(), b=self.fieldI.getActivation()) #Neural field self.field.addChildren(aff=self.substract) #return the root return self.field def getArrays(self): ret = [ self.webcam, self.aff, self.substract, self.add_gauss_and_input, self.fieldI.getActivation(), self.fieldE.getActivation(), self.field.getActivation(), ] return ret def onClick(self, mapName, x, y): if mapName == "Webcam": bgr = self.webcam.getData() sizeROI = self.size / 10. s2 = int(round(sizeROI / 2.)) roi = bgr[y - s2:y + s2, x - s2:x + s2, :] hsv = cv2.cvtColor(roi, cv2.COLOR_BGR2HSV) colorVal = np.median(hsv[:, :, 0]) satHigh = np.max(hsv[:, :, 1]) satLow = np.min(hsv[:, :, 1]) valHigh = np.max(hsv[:, :, 2]) valLow = np.min(hsv[:, :, 2]) self.color_select.setArg(colorVal=colorVal, satLow=satLow, satHigh=satHigh) return "Color Select" elif mapName == "InputAndArtificialGaussian": time = self.gauss.getArg('time') self.gauss.setParams(centerX=x, centerY=y, intensity=1., timeout=time + 1)
class ModelDNFDualCam2(Model,Renderable): def initMaps(self,size): self.size = size dt = 0.6 #Create maps self.webcam1 = WebcamMap("Webcam1",size,dt=dt,numDevice=0) self.playcam1 = PlayCamMap("PlayCam1",size) self.webcam2 = WebcamMap("Webcam2",size,dt=dt,numDevice=0) self.playcam2 = PlayCamMap("PlayCam2",size) self.color_select = ImageColorSelection("ColorSelect",size,dt=dt) self.field1 = MapDNF("DNF1",size,model='spike',dt=dt) self.field2 = MapDNF("DNF2",size,model='spike',dt=dt) self.ofBGR2 = OpticalFlowToBGR("OFtoBGR2",size=size,dt=dt) self.flow1 = OpticalFlowMap("OpticalFlow1",size,dt=dt) self.flow2 = OpticalFlowMap("OpticalFlow2",size,dt=dt) self.ofColor = FlowDirectionSelectHSV("SelectDir",size=1,dt=dt,globalSize=size, sampleSize=0.07) self.color_select2 = ImageColorSelection("OptFlowColorSelect",size,dt=dt,color='fullManu') #Link maps self.playcam1.addChildren(image=self.webcam1) self.color_select.addChildren(image=self.playcam1) self.field1.addChildren(aff=self.color_select) self.flow1.addChildren(img=self.playcam1) self.ofColor.addChildren(flow=self.flow1,colorDNFAct=self.field1.getActivation()) self.playcam2.addChildren(image=self.webcam2) self.flow2.addChildren(img=self.playcam2) self.ofBGR2.addChildren(opticalFlow=self.flow2) self.color_select2.addChildren(image=self.ofBGR2,hsv=self.ofColor) self.field2.addChildren(aff=self.color_select2) #compute the playCam to avoid some problems TODO fix self.playcam1.compute() self.playcam2.compute() #return the roots root = self.field2 return root def getArrays(self): ret = [ self.playcam1, self.color_select, self.field1.getActivation(), self.ofColor, self.playcam2, self.ofBGR2, self.color_select2, self.field2 ] return ret def onClick(self,mapName,x,y): print mapName.__class__ if mapName == "PlayCam1": bgr = self.playcam1.getData() sizeROI = self.size/10. s2 = round(sizeROI/2.) roi = bgr[y-s2:y+s2,x-s2:x+s2,:] hsv = cv2.cvtColor(roi,cv2.COLOR_BGR2HSV) colorVal = np.median(hsv[:,:,0]) satHigh = np.max(hsv[:,:,1]) satLow = np.min(hsv[:,:,1]) valHigh = np.max(hsv[:,:,2]) valLow = np.min(hsv[:,:,2]) self.color_select.setArg(colorVal=colorVal,satLow=satLow,satHigh=satHigh) return "ColorSelect"
class ModelDNFDualCam_BG(Model, Renderable): def initMaps(self, size): self.size = size dt = 0.6 # CREATE MAPS # 1st and 2nd webcam + possible perturbations self.webcam1 = WebcamMap("Webcam1", size, dt=dt, numDevice=0) self.playcam1 = PlayCamMap("PlayCam1", size) self.webcam2 = WebcamMap("Webcam2", size, dt=dt, numDevice=1) self.playcam2 = PlayCamMap("PlayCam2", size) # 1st webcam basic filtering: HSV color (outputing V) self.color_select = ImageColorSelection("ColorSelect", size, dt=dt) # one neural field per webcam self.field1 = MapDNF("DNF1", size, model='spike', dt=dt) self.field2 = MapDNF("DNF2", size, model='spike', dt=dt) # computing optical flows from both maps, then translating into colors self.flow1 = OpticalFlowMap("OpticalFlow1", size, dt=dt) self.flow2 = OpticalFlowMap("OpticalFlow2", size, dt=dt) self.ofBGR1 = OpticalFlowToBGR("OFtoBGR1", size=size, dt=dt) self.ofBGR2 = OpticalFlowToBGR("OFtoBGR2", size=size, dt=dt) # extracting average optical flow (1st webcam) under spikes as BGR coding, then filtering optical flow of webcam 2 accordingly self.ofColor = FlowDirectionSelect("SelectDir", size=1, dt=dt, globalSize=size, sampleSize=0.07) self.color_select2 = ImageColorSelection("OptFlowColorSelect", size, dt=dt, color='fullManu') # finally summing for webcam 2 the filtered color and the extracted optical flow (coded as color) self.aff2 = FuncWithoutKeywords(utils.sumArrays, "MixedModeInput", size, dt=dt) # LINK MAPS # from webcam 1 to DNF 1 self.playcam1.addChildren(image=self.webcam1) self.color_select.addChildren(image=self.playcam1) self.field1.addChildren(aff=self.color_select) # from webcam 1 to the extraction under spikes of the selected motion direction self.flow1.addChildren(img=self.playcam1) self.ofBGR1.addChildren(opticalFlow=self.flow1) self.ofColor.addChildren(flowBGR=self.ofBGR1, colorDNFAct=self.field1.getActivation()) # from webcam 2 to DNF 2, using the selected motion direction, and mixing with the color filtering self.playcam2.addChildren(image=self.webcam2) self.flow2.addChildren(img=self.playcam2) self.ofBGR2.addChildren(opticalFlow=self.flow2) self.color_select2.addChildren(image=self.ofBGR2, hsv=self.ofColor) self.aff2.addChildren(of=self.color_select2, col=self.color_select) self.field2.addChildren(aff=self.aff2) # compute the playCam to avoid some problems TODO fix self.playcam1.compute() self.playcam2.compute() #return the roots root = self.field2 return root def getArrays(self): ret = [ self.playcam1, self.color_select, self.field1.getActivation(), self.ofBGR1, # self.ofColor, self.playcam2, self.ofBGR2, self.color_select2, self.aff2, self.field2.getActivation() ] return ret def onClick(self, mapName, x, y): print mapName.__class__ if mapName == "PlayCam1": bgr = self.playcam1.getData() sizeROI = self.size / 10. s2 = int(round(sizeROI / 2.)) roi = bgr[y - s2:y + s2, x - s2:x + s2, :] hsv = cv2.cvtColor(roi, cv2.COLOR_BGR2HSV) colorVal = np.median(hsv[:, :, 0]) satHigh = np.max(hsv[:, :, 1]) satLow = np.min(hsv[:, :, 1]) valHigh = np.max(hsv[:, :, 2]) valLow = np.min(hsv[:, :, 2]) self.color_select.setArg(colorVal=colorVal, satLow=satLow, satHigh=satHigh) return "ColorSelect"
class ModelDNFDualCam(Model, Renderable): def initMaps(self, size): self.size = size dt = 0.6 #Create maps self.webcam1 = WebcamMap("Webcam1", size, dt=dt, numDevice=0) self.webcam1.compute() self.playcam1 = PlayCamMap("PlayCam1", size) self.webcam2 = WebcamMap("Webcam2", size, dt=dt, numDevice=0) self.webcam2.compute() self.playcam2 = PlayCamMap("PlayCam2", size) self.color_select = ImageColorSelection("ColorSelect", size, dt=dt) self.field1 = MapDNF("DNF1", size, model='spike', dt=dt) self.field2 = MapDNF("DNF2", size, model='spike', dt=dt) self.chan1 = ChannelSelect("chan1", size, dt=dt, channel=0) self.chan2 = ChannelSelect("chan2", size, dt=dt, channel=0) self.flow1 = OpticalFlowMap("OpticalFlow1", size, dt=dt) self.flow2 = OpticalFlowMap("OpticalFlow2", size, dt=dt) self.ofBGR1 = OpticalFlowToBGR("OFtoBGR1", size=size, dt=dt) self.ofBGR2 = OpticalFlowToBGR("OFtoBGR2", size=size, dt=dt) self.ofColor = FlowDirectionSelect("SelectDir", size=1, dt=dt, globalSize=size, sampleSize=0.07) self.color_select2 = ImageColorSelection("OptFlowColorSelect", size, dt=dt, color='fullManu') #Link maps self.playcam1.addChildren(image=self.webcam1) self.color_select.addChildren(image=self.playcam1) self.field1.addChildren(aff=self.color_select) self.flow1.addChildren(img=self.playcam1) self.ofBGR1.addChildren(opticalFlow=self.flow1) self.ofColor.addChildren(flowBGR=self.ofBGR1, colorDNFAct=self.field1.getActivation()) self.playcam2.addChildren(image=self.webcam2) self.flow2.addChildren(img=self.playcam2) self.ofBGR2.addChildren(opticalFlow=self.flow2) self.color_select2.addChildren(image=self.ofBGR2, hsv=self.ofColor) self.field2.addChildren(aff=self.color_select2) #compute the playCam to avoid some problems TODO fix self.playcam1.compute() self.playcam2.compute() #return the roots root = self.field2 return root def getArrays(self): ret = [ self.playcam1, self.color_select, self.field1.getActivation(), self.ofBGR1, self.ofColor, self.playcam2, self.ofBGR2, self.color_select2, self.field2 ] return ret def onClick(self, mapName, x, y): print mapName.__class__ if mapName == "PlayCam1": bgr = self.playcam1.getData() sizeROI = self.size / 10. s2 = int(round(sizeROI / 2.)) roi = bgr[y - s2:y + s2, x - s2:x + s2, :] hsv = cv2.cvtColor(roi, cv2.COLOR_BGR2HSV) colorVal = np.median(hsv[:, :, 0]) satHigh = np.max(hsv[:, :, 1]) satLow = np.min(hsv[:, :, 1]) valHigh = np.max(hsv[:, :, 2]) valLow = np.min(hsv[:, :, 2]) self.color_select.setArg(colorVal=colorVal, satLow=satLow, satHigh=satHigh) return "ColorSelect"