Exemplo n.º 1
0
    def _readEyesFile(self):
        '''
        Private: Do not call directly. Reads the eye file.  
        '''
        if self.filename[-4:] == '.csv':
            f = open(self.filename, 'r')
            for line in f:
                #print line
                line = line.split(',')
                if len(line) < 5:
                    continue
                for i in range(1, len(line), 4):
                    fname = self._parseName(line[0])
                    if len(line) < i + 4:
                        print(
                            "Warning in %s image %s: Count of numbers is not a multiple of four."
                            % (self.filename, fname))
                        break
                    eye1 = pv.Point(float(line[i + 0]), float(line[i + 1]))
                    eye2 = pv.Point(float(line[i + 2]), float(line[i + 3]))

                    truth_rect = pv.BoundingRect(eye1, eye2)
                    truth_rect.w = 2.0 * truth_rect.w
                    truth_rect.h = truth_rect.w
                    truth_rect.x = truth_rect.x - 0.25 * truth_rect.w
                    truth_rect.y = truth_rect.y - 0.3 * truth_rect.w

                    #print fname,eye1,eye2,truth_rect

                    if fname not in self.images:
                        self.images[fname] = []

                    self.images[fname].append([fname, eye1, eye2, truth_rect])

        else:
            f = open(self.filename, 'r')
            for line in f:
                #print line,
                line = line.split()
                fname = self._parseName(line[0])
                eye1 = pv.Point(float(line[1]), float(line[2]))
                eye2 = pv.Point(float(line[3]), float(line[4]))

                truth_rect = pv.BoundingRect(eye1, eye2)
                truth_rect.w = 2.0 * truth_rect.w
                truth_rect.h = truth_rect.w
                truth_rect.x = truth_rect.x - 0.25 * truth_rect.w
                truth_rect.y = truth_rect.y - 0.3 * truth_rect.w

                #print fname,eye1,eye2,truth_rect

                if fname not in self.images:
                    self.images[fname] = []

                self.images[fname].append([fname, eye1, eye2, truth_rect])
Exemplo n.º 2
0
    def _readEyesFile(self):
        '''
        Private: Do not call directly. Reads the eye file.  
        '''
        if self.filename[-4:] == '.csv':
            f = open(self.filename, 'r')
            for line in f:
                #print line,
                line = line.split(',')
                fname = self._parseName(line[0])
                eye1 = pv.Point(float(line[1]), float(line[2]))
                eye2 = pv.Point(float(line[3]), float(line[4]))

                truth_rect = pv.BoundingRect(eye1, eye2)
                truth_rect.w = 2.0 * truth_rect.w
                truth_rect.h = truth_rect.w
                truth_rect.x = truth_rect.x - 0.25 * truth_rect.w
                truth_rect.y = truth_rect.y - 0.3 * truth_rect.w

                #print fname,eye1,eye2,truth_rect

                if fname not in self.images:
                    self.images[fname] = []

                self.images[fname].append([fname, eye1, eye2, truth_rect])

        else:
            f = open(self.filename, 'r')
            for line in f:
                #print line,
                line = line.split()
                fname = self._parseName(line[0])
                eye1 = pv.Point(float(line[1]), float(line[2]))
                eye2 = pv.Point(float(line[3]), float(line[4]))

                truth_rect = pv.BoundingRect(eye1, eye2)
                truth_rect.w = 2.0 * truth_rect.w
                truth_rect.h = truth_rect.w
                truth_rect.x = truth_rect.x - 0.25 * truth_rect.w
                truth_rect.y = truth_rect.y - 0.3 * truth_rect.w

                #print fname,eye1,eye2,truth_rect

                if fname not in self.images:
                    self.images[fname] = []

                self.images[fname].append([fname, eye1, eye2, truth_rect])
Exemplo n.º 3
0
def faceFromEyes(eye1, eye2):
    '''
    Given eye coordinates estimate the face rectangle
    Assumes the face is reasonably horizontal.
    '''
    truth_rect = pv.BoundingRect(eye1, eye2)
    truth_rect.w = 3.0 * truth_rect.w
    truth_rect.h = truth_rect.w
    truth_rect.x = truth_rect.x - 0.33 * truth_rect.w
    truth_rect.y = truth_rect.y - 0.4 * truth_rect.w
    return truth_rect
Exemplo n.º 4
0
 def generate(self):
     '''generate the actual value that will be populated in the arguments'''
     return pv.BoundingRect(
         [pv.Point(self.left, self.top),
          pv.Point(self.right, self.bottom)])