diff options
-rw-r--r-- | src/argaze/AreaOfInterest/AOIFeatures.py | 14 |
1 files changed, 9 insertions, 5 deletions
diff --git a/src/argaze/AreaOfInterest/AOIFeatures.py b/src/argaze/AreaOfInterest/AOIFeatures.py index c5cbaef..7dd0964 100644 --- a/src/argaze/AreaOfInterest/AOIFeatures.py +++ b/src/argaze/AreaOfInterest/AOIFeatures.py @@ -50,7 +50,7 @@ class AreaOfInterest(numpy.ndarray): return mpath.Path(self).contains_points([tuple(gaze_position)])[0] - def look_at(self, gaze_pixel): + def look_at(self, pixel_position): """Get where the area is looked using perpespective transformation.""" if self.dimension() != 2: @@ -63,7 +63,7 @@ class AreaOfInterest(numpy.ndarray): Dst = numpy.array([[0., 0.], [1., 0.], [1., 1.], [0., 1.]]).astype(numpy.float32) P = cv.getPerspectiveTransform(Src, Dst) - X = numpy.append(numpy.array(gaze_pixel - Src_origin), [1.0]).astype(numpy.float32) + X = numpy.append(numpy.array(pixel_position - Src_origin), [1.0]).astype(numpy.float32) Y = numpy.dot(P, X) La = (Y/Y[2])[:-1] @@ -90,14 +90,14 @@ class AreaOfInterest(numpy.ndarray): return numpy.rint(Lp).astype(int).tolist() - def looked_region(self, gaze_position, gaze_radius): - """Get intersection shape with gaze circle as the looked area, (looked area / AOI area) and (looked area / gaze circle area).""" + def looked_region(self, gaze_position): + """Get intersection shape with gaze accuracy circle as the looked area, (looked area / AOI area) and (looked area / gaze accuracy circle area).""" if self.dimension() != 2: raise RuntimeError(f'Bad area dimension ({self.dimension()})') self_polygon = Polygon(self) - gaze_circle = Point(gaze_position).buffer(gaze_radius) + gaze_circle = Point(gaze_position).buffer(gaze_position.accuracy) if self_polygon.intersects(gaze_circle): @@ -115,6 +115,9 @@ class AreaOfInterest(numpy.ndarray): def draw(self, frame, color, border_size=1): + if self.dimension() != 2: + raise RuntimeError(f'Bad area dimension ({self.dimension()})') + if len(self) > 1: # Draw form @@ -150,6 +153,7 @@ class AOIScene(): del self.areas[key] def items(self): + """Iterate over areas.""" for name, area in self.areas.items(): yield name, numpy.array(area).astype(numpy.float32).view(AreaOfInterest) |