Exemple #1
0
def checkVTX(self, context):
    '''
    - decides VTX automatically.
    - remembers edges attached to current selection, for later.
    '''

    # [x] if either of these edges share a vertex, return early.
    indices = cm.vertex_indices_from_edges_tuple(self.bm, self.selected_edges)
    if cm.duplicates(indices):
        msg = "edges share a vertex, degenerate case, returning early"
        self.report({"WARNING"}, msg)
        return False

    # [x] find which edges intersect
    getVTX(self)

    # [x] check coplanar, or parallel.
    if [] == self.edges:
        coplanar = cm.test_coplanar(self.edge1, self.edge2)
        if not coplanar:
            msg = "parallel or not coplanar! returning early"
            self.report({"WARNING"}, msg)
            return False

    return True
Exemple #2
0
def checkVTX(self, context):
    '''
    - decides VTX automatically.
    - remembers edges attached to current selection, for later.
    '''

    # [x] if either of these edges share a vertex, return early.
    indices = cm.vertex_indices_from_edges_tuple(self.bm, self.selected_edges)
    if cm.duplicates(indices):
        msg = "edges share a vertex, degenerate case, returning early"
        self.report({"WARNING"}, msg)
        return False

    # [x] find which edges intersect
    getVTX(self)

    # [x] check coplanar, or parallel.
    if [] == self.edges:
        coplanar = cm.test_coplanar(self.edge1, self.edge2)
        if not coplanar:
            msg = "parallel or not coplanar! returning early"
            self.report({"WARNING"}, msg)
            return False

    return True
Exemple #3
0
def remove_permutations_that_share_a_vertex(bm, permutations):
    ''' Get useful Permutations '''
    final_permutations = []
    for edges in permutations:
        raw_vert_indices = cm.vertex_indices_from_edges_tuple(bm, edges)
        if cm.duplicates(raw_vert_indices):
            continue

        # reaches this point if they do not share.
        final_permutations.append(edges)

    return final_permutations
Exemple #4
0
def remove_permutations_that_share_a_vertex(bm, permutations):
    ''' Get useful Permutations '''
    final_permutations = []
    for edges in permutations:
        raw_vert_indices = cm.vertex_indices_from_edges_tuple(bm, edges)
        if cm.duplicates(raw_vert_indices):
            continue

        # reaches this point if they do not share.
        final_permutations.append(edges)

    return final_permutations