コード例 #1
0
ファイル: lamination.py プロジェクト: MarkCBell/bigger
    def parallel_components(
            self
    ) -> dict[Lamination[Edge], tuple[int, bigger.Side[Edge], bool]]:
        """Return a dictionary mapping component to (multiplicity, side, is_arc) for each component of self that is parallel to an edge."""

        components = dict()
        sides = set(side for edge in self.support()
                    for side in self.triangulation.star(bigger.Side(edge)))
        for side in sides:
            if self(side) > 0:
                continue

            if side.orientation:  # Don't double count.
                multiplicity = -self(side)
                if multiplicity > 0:
                    components[self.triangulation.side_arc(side)] = (
                        multiplicity, side, True)

            around, twisting = float("inf"), float("inf")
            for index, (sidey, nxt) in enumerate(
                    bigger.utilities.lookahead(
                        self.triangulation.walk_vertex(side), 1)):
                value = self.left(sidey)

                around = min(around, value)  # Always shrink around.
                if nxt == ~side:
                    if 0 <= around < twisting < float("inf") and self.left(
                            side) == self.right(side) == around:
                        assert not isinstance(twisting, float)
                        assert not isinstance(around, float)
                        multiplicity = twisting - around
                        components[self.triangulation.side_curve(side)] = (
                            multiplicity, side, False)
                    break
                if index:  # Only shrink twisting when it's not the first (or last) value.
                    twisting = min(twisting, value)

                if around < 0 or twisting <= 0:  # Terminate early.
                    break

        return components
コード例 #2
0
ファイル: lamination.py プロジェクト: MarkCBell/bigger
    def meeting(self, edge: Edge) -> Lamination[Edge]:
        """Return the sublamination of self meeting the given edge.

        Note: self does not need to be finitely supported but the sublamination must be.
        Unfortunately we have no way of knowing this in advance."""

        num_intersections = self(edge)
        start_side = bigger.Side(edge)
        intersections = set(range(num_intersections))
        hits: Dict[Edge, int] = defaultdict(int)
        while intersections:
            start_intersection = next(iter(intersections))
            last = None
            for side, intersection in self.trace(start_side,
                                                 start_intersection):
                last = (side, intersection)
                hits[side.edge] += 1
                if side == start_side:
                    intersections.remove(intersection)
                elif side == ~start_side:
                    intersections.remove(num_intersections - 1 - intersection)

            if last != (start_side, start_intersection):
                # We terminated into a vertex, so we must explore the other direction too.
                hits[start_side.edge] += 1
                intersections.remove(start_intersection)

                for side, intersection in self.trace(
                        ~start_side,
                        num_intersections - 1 - start_intersection):
                    hits[side.edge] += 1
                    if side == start_side:
                        intersections.remove(intersection)
                    elif side == ~start_side:
                        intersections.remove(num_intersections - 1 -
                                             intersection)

        return self.triangulation(hits)
コード例 #3
0
ファイル: draw.py プロジェクト: MarkCBell/bigger
def support(triangulation: bigger.Triangulation[Edge],
            edge: Edge) -> tuple[Triangle[Edge], Triangle[Edge]]:
    """Return the two triangles that support and edge."""

    side = bigger.Side(edge)
    return triangulation.triangle(side), triangulation.triangle(~side)
コード例 #4
0
ファイル: lamination.py プロジェクト: MarkCBell/bigger
    def supporting_sides(self) -> Iterable[bigger.Side[Edge]]:
        """Return the sides supporting this lamination."""

        for edge in self.support():
            for orientation in [True, False]:
                yield bigger.Side(edge, orientation)
コード例 #5
0
 def test_flip(self):
     s = bigger.Side(0, True)
     h = self.T.encode([{s}, {s}])
     self.assertEqualSquares(h.target.link(s), h.source.link(s))