Automatic resize of map + map size for exhibit at Route du Nord

This commit is contained in:
Ruben van de Ven 2018-05-08 12:18:21 +02:00
parent 6d7c870be3
commit bf5b68ce07
1 changed files with 17 additions and 13 deletions

View File

@ -45,12 +45,16 @@ class Heatmap:
self.canvas.pack(fill="both", expand=True)
self.mapSize = [1600,600]
self.mapScreenWidth = 300
self.mapScreenHeight = 250
self.mapWindowRoot = Tk.Toplevel(master=self.windowRoot)
# self.mapWindowRoot.configure(background="black")
self.mapWindowRoot.geometry('%dx%d+0+800' % tuple(self.mapSize))
self.mapWindowRoot.title("Tracking Overview")
self.mapCanvas = Tk.Canvas(self.mapWindowRoot,width=self.mapSize[0],height=self.mapSize[1],bd=0, highlightthickness=0, relief='ridge')
self.mapCanvas.create_rectangle(20, 50, 22, 350, fill="black", width=0, tags="screenTop")
self.mapCanvas.create_rectangle(600, 50, 602, 300, fill="black", width=0, tags="screenSide")
self.mapCanvas.create_rectangle(20, self.mapSize[1]/2 - self.mapScreenWidth /2, 22, self.mapSize[1]/2 + self.mapScreenWidth /2, fill="white", width=0, tags="screenTop")
self.mapCanvas.create_rectangle(600, self.mapSize[1]/2 - self.mapScreenHeight /2, 602, self.mapSize[1]/2 + self.mapScreenHeight /2, fill="white", width=0, tags="screenSide")
self.mapCanvas.configure(background='black')
# self.mapImage = Image.new('RGB', (500,350))
# self.mapDraw = ImageDraw.Draw(self.mapImage)
self.mapCanvas.pack(fill="both", expand=True)
@ -186,9 +190,8 @@ class Heatmap:
def updateMap(self):
self.mapCanvas.delete("figure")
virtualWidth = 300
virtualHeight = 250
mmPerPixel = abs(self.coordinates['tl'][0] - self.coordinates['tr'][0])/float(virtualWidth)
mmPerPixel = abs(self.coordinates['tl'][0] - self.coordinates['tr'][0])/float(self.mapScreenWidth)
for face in self.currentTargets:
dx = face['head_pos'][0]/mmPerPixel #left/right
@ -196,20 +199,20 @@ class Heatmap:
dz = face['head_pos'][2]/mmPerPixel # front/back
p1x = int(20 + dz)
p1y = int(virtualWidth / 2 + 50 - dx)
p1y = int(self.mapSize[1]/2 - dx)
p2x = int(600 + dz)
p2y = int(virtualHeight / 2 + 50 + dy)
p2y = int(self.mapSize[1]/2 + dy)
self.mapCanvas.create_oval(p1x-3, p1y-3, p1x+3, p1y+3, fill="red", width=0, tags="figure")
self.mapCanvas.create_oval(p2x-3, p2y-3, p2x+3, p2y+3, fill="red", width=0, tags="figure")
p3x = int(20)
p3y = int(virtualWidth + 50 - (float(face['target'][0]) / self.metricsSize[0] * virtualWidth))
p3y = int(self.mapSize[1]/2 + self.mapScreenWidth/2 - (float(face['target'][0]) / self.metricsSize[0] * self.mapScreenWidth))
p4x = int(600)
p4y = int(float(face['target'][1]) / self.metricsSize[1] * virtualHeight + 50)
self.mapCanvas.create_line(p1x,p1y, p3x,p3y, fill="green", tags="figure")
self.mapCanvas.create_line(p2x,p2y, p4x,p4y, fill="green", tags="figure")
p4y = int(float(face['target'][1]) / self.metricsSize[1] * self.mapScreenHeight + self.mapSize[1]/2 - self.mapScreenHeight/2)
self.mapCanvas.create_line(p1x,p1y, p3x,p3y, width=2, fill="#ff0", tags="figure")
self.mapCanvas.create_line(p2x,p2y, p4x,p4y, width=2, fill="#ff0", tags="figure")
self.logger.debug("DRAW FACE TO", face, (p1x,p1y), "AND", (p2x,p2y))
@ -318,8 +321,9 @@ def main(openface_exec, coordinates_filename, tag, device=0):
# metrics matrix
metricsSize = [1920,1080]
metricsSize = [1920/2,1080/2]
metricsSize = [800,600]
metricsSize = [1440,900]
# metricsSize = [1920/2,1080/2]
# metricsSize = [800,600]
heatmap = Heatmap(metricsSize, logger, coordinates_filename, tag)
# heatmap.runCam(openface_exec, device)