Exemplo n.º 1
0
 def get_corners(self):
     '''
         corners.T => (8, 3)
         (0:4) -> top
         (4:8) -> bottom
         
         axis 2: x
         axis 0: y
         axis 1: z
         
         (top,bottom)
              | 
              V
         (1,5)----(2,6)
           |        |
           |        |
         (0,4)----(3,7)
     '''
     if self.__corners is None:
         # Compute corners
         self.__corners = np.array(
             [[
                 -self.l / 2, self.l / 2, self.l / 2, -self.l / 2,
                 -self.l / 2, self.l / 2, self.l / 2, -self.l / 2
             ], [0, 0, 0, 0, -self.h, -self.h, -self.h, -self.h],
              [
                  -self.w / 2, -self.w / 2, self.w / 2, self.w / 2,
                  -self.w / 2, -self.w / 2, self.w / 2, self.w / 2
              ]],
             dtype=np.float32)
         H = np.dot(translation_matrix(self.x, self.y, self.z),
                    rot_y_matrix(self.yaw))
         self.__corners = transform(H, self.__corners)
     return self.__corners
Exemplo n.º 2
0
 def get_arrow_pts(self):
     if self.__arrow_pts is None:
         # Compute arrow from center pointing forward
         self.__arrow_pts = np.array([[0, (self.l / 2) + 1],
                                      [-self.h / 2, -self.h / 2], [0, 0]])
         H = np.dot(translation_matrix(self.x, self.y, self.z),
                    rot_y_matrix(self.yaw))
         self.__arrow_pts = transform(H, self.__arrow_pts)
     return self.__arrow_pts
Exemplo n.º 3
0
def get_corners_3D(box):
    corners = np.array([[
        -box.l / 2, box.l / 2, box.l / 2, -box.l / 2, -box.l / 2, box.l / 2,
        box.l / 2, -box.l / 2
    ], [0, 0, 0, 0, -box.h, -box.h, -box.h, -box.h],
                        [
                            -box.w / 2, -box.w / 2, box.w / 2, box.w / 2,
                            -box.w / 2, -box.w / 2, box.w / 2, box.w / 2
                        ]],
                       dtype=np.float32)
    H = np.dot(translation_matrix(box.x, box.y, box.z), rot_y_matrix(box.yaw))
    return transform(H, corners)
Exemplo n.º 4
0
def get_velo(path,
             calib_path,
             workspace_lim=((-40, 40), (-1, 2.5), (0, 70)),
             use_fov_filter=True):
    velo = np.fromfile(path, dtype=np.float32).reshape((-1, 4)).T
    pts = velo[0:3]
    reflectance = velo[3:]

    # Transform points from velo coordinates to rectified camera coordinates
    V2C, R0, P2 = get_calib(calib_path)
    pts = transform(np.dot(R0, V2C), pts)

    # Remove points out of workspace
    pts, reflectance = box_filter(pts, workspace_lim, decorations=reflectance)

    # Remove points not projecting onto the image plane
    if use_fov_filter:
        pts, reflectance = fov_filter(pts,
                                      P=P2,
                                      img_size=(IMG_HEIGHT, IMG_WIDTH),
                                      decorations=reflectance)

    return pts, reflectance