Пример #1
0
    def make_interval_2D(self, p_min, p_max, step):
        self.interval2D = gen.generate_interval2D(p_min, p_max, step, True)

        int_3D_pts = [Point3D(p.x(), p.y(), 0) for p in self.interval2D.points]
        self.data.append((util.flat_points(int_3D_pts), GL_LINE_LOOP, 1, 0, 0))
        self.data.append((util.flat_points(int_3D_pts), GL_POINTS, 1, 1, 1))
        squares = []
        for s in self.interval2D.squares:
            squares.append(Point3D(s[0].x(), s[0].y(), 0))
            squares.append(Point3D(s[1].x(), s[1].y(), 0))
        self.data.append((util.flat_points(squares), GL_LINES, 1, 0, 1))
        self.int2Ds = []
Пример #2
0
    def extension_point_test(self):
        A = Point3D(Ax, 0, 0)
        B = Point3D(Bx, 10, 10)

        signature = [ Edge3D(Point3D(0,  10, 10), Point3D(10, 10, 10)),
                      Edge3D(Point3D(5,  10, 20), Point3D(5,  20, 20)),
                      Edge3D(Point3D(10, 20, 25), Point3D(10, 20, 35)) ]

        s = Segment(A, B)
        path_segs = [s]
        path_pts = [A, B]
        e1 = signature[0]
        for e2 in signature[1:]:
            ext_point = compute_extension_point(s, e1, e2.asLineAxis3D())
            if not ext_point:
                print "failed to compute ext point at", s, e1, e2
                break
            s = Segment(B, ext_point)
            B = ext_point
            path_pts.append(s.b)
            path_segs.append(s)

        self.data.append((util.flat_segments(path_segs), GL_LINES, 1, 1, 0))
        self.data.append((util.flat_points(path_pts), GL_POINTS, 1, 1, 1))

        # self.data.append((util.flat_points((A,B)), GL_POINTS, 1, 1, 1))
        self.data.append((util.flat_segments(signature), GL_LINES, 1, 0, 0))
Пример #3
0
    def make_interval_3D(self, p_min, p_max, step, interval3D=None):
        self.interval3D = gen.generate_interval3D(p_min, p_max, step, self.degenerate) \
                                if not interval3D else interval3D

        #self.data = [(util.flat_segments(self.interval3D.segments), GL_LINES, 1, 1, 1)]

        typed_edges = { Edge3D.CONVEX: [], Edge3D.CONCAVE1: [], Edge3D.CONCAVE2: [] }
        for s in self.interval3D.segments:
            typed_edges[s.type].append(s)

        # concave_edges = typed_edges[Edge3D.CONCAVE2]+typed_edges[Edge3D.CONCAVE1]
        # concave_edges = sorted(concave_edges, cmp=Edge3D.same_coordinates)
        # g = 0
        # for e in concave_edges:
        #     g += 1.0 / len(concave_edges)
        #     self.data.append(([e.a.get(),e.b.get()], GL_LINES, 1, g, 0))

        self.data.append((util.flat_segments(typed_edges[Edge3D.CONVEX]  ), GL_LINES, 1, 1, 1))
        self.data.append((util.flat_segments(typed_edges[Edge3D.CONCAVE1]), GL_LINES, 1, 1, 0))
        self.data.append((util.flat_segments(typed_edges[Edge3D.CONCAVE2]), GL_LINES, 1, 0, 1))
        # self.data.append((util.flat_points((p_min,p_max)), GL_POINTS, 1, 0, 0))

        #path_points = shortest_path_from_signature(p_min, p_max, typed_edges[Edge3D.CONCAVE2]+typed_edges[Edge3D.CONCAVE1])
        #self.data.append((util.flat_points(path_points), GL_LINE_STRIP, 1, 0, 0))

        # interval2Ds (projections of Interval3D)
        self.int2Ds = [self.interval3D.int_xy, self.interval3D.int_zx, self.interval3D.int_yz]
        for i in xrange(len(self.int2Ds)):
            self.int2Ds[i] = (util.flat_points(self.int2Ds[i].points), GL_LINE_LOOP, 1, 0, 0)