def _arguments_types(cls): return { 'name': comopt.BasicOption(str, None), 'p0': comopt.Point2Option(), 'p1': comopt.Point2Option(), 'bnds': comopt.ListOfOptions(comopt.BasicOption(int), [0, 0, 0, 0]), }
def _arguments_types(cls): return {'name': co.BasicOption(str, None), 'base': co.BasicOption(str), 'p1': co.Point2Option(), 'p2': co.Point2Option(), 'phi': co.ListOfOptions(co.BasicOption(float)), 'bt1': co.BasicOption(int, 0), 'bt2': co.BasicOption(int, 0), 'center_tri': co.BoolOption(True) }
def _arguments_types(cls): return { 'name': co.BasicOption(str, None), 'grid': co.BasicOption(str), 'cont': co.BasicOption(str), 'gp1': co.Point2Option(), 'gp2': co.Point2Option(), 'cp1': co.NoneOr(co.Point2Option(), None), 'cp2': co.NoneOr(co.Point2Option(), None), 'algo': co.BasicOption(str, "add"), }
def _arguments_types(cls): return { 'name': co.BasicOption(str, None), 'p0': co.Point2Option((0., 0.)), 'p1': co.Point2Option((1., 1.)), 'nx': co.BasicOption(int, 3), 'ny': co.BasicOption(int, 3), 'custom_x': co.ListOfOptions(co.BasicOption(float), []), 'custom_y': co.ListOfOptions(co.BasicOption(float), []), 'bnds': co.ListOfOptions(co.BasicOption(int), [0, 0, 0, 0]) }
def _arguments_types(cls): return { 'name': comopt.BasicOption(str, None), 'algo': comopt.BasicOption(str), 'step': comopt.ListOfOptions(comopt.BasicOption(float)), 'angle0': comopt.BasicOption(float, 1.), 'base': comopt.BasicOption(str), 'keepbnd': comopt.BoolOption(True), 'nedges': comopt.NoneOr(comopt.BasicOption(int), None), 'crosses': comopt.ListOfOptions(comopt.BasicOption(str), []), 'start': comopt.NoneOr(comopt.Point2Option(), None), 'end': comopt.NoneOr(comopt.Point2Option(), None), 'keep_pts': comopt.ListOfOptions(comopt.Point2Option(), []) }
def _arguments_types(cls): return { 'name': co.BasicOption(str, None), 'vertices': co.ListOfOptions(co.Point2Option()), 'nedge': co.BasicOption(int), 'bnd': co.ListOfOptions(co.BasicOption(int), [0, 0, 0]) }
def _arguments_types(cls): 'p0 - center of rotation, angle (deg) - rotation angle' return { 'names': comopt.ListOfOptions(comopt.BasicOption(str)), 'p0': comopt.Point2Option(), 'angle': comopt.BasicOption(float) }
def _arguments_types(cls): return { 'name': comopt.BasicOption(str, None), 'src': comopt.BasicOption(str), 'plist': comopt.ListOfOptions(comopt.Point2Option()), 'project_to': comopt.BasicOption(str, 'vertex') }
def _arguments_types(cls): return { 'name': comopt.BasicOption(str, None), 'points': comopt.ListOfOptions(comopt.Point2Option()), 'bnds': comopt.ListOfOptions(comopt.BasicOption(int), []), 'nedges': comopt.BasicOption(int, 100), }
def __init__(self): super(BuildBoundaryGrid.Option, self).__init__(source=co.BasicOption(str), partition=co.ListOfOptions( co.BasicOption(float)), direction=co.BasicOption(int), mesh_cont=co.BasicOption(int, 0), mesh_cont_step=co.BasicOption(float, 1.), step_start=co.BasicOption(float, 1.), step_end=co.BasicOption(float, 1.), algo_acute=co.BasicOption(float, 45.), algo_right=co.BasicOption(float, 120.), algo_straight=co.BasicOption(float, 240.), algo_reentr=co.BasicOption(float, 300.), start=co.NoneOr(co.Point2Option(), None), end=co.NoneOr(co.Point2Option(), None), force_conf=co.BoolOption(False))
def _arguments_types(cls): return { 'name': comopt.BasicOption(str, None), 'p0': comopt.Point2Option(), 'rad': comopt.BasicOption(float), 'na': comopt.BasicOption(int), 'bnd': comopt.BasicOption(int, 0), }
def _arguments_types(cls): return { 'name': co.BasicOption(str, None), 'algo': co.BasicOption(str, 'linear'), 'p0': co.Point2Option((0., 0.)), 'rad': co.BasicOption(float, 1.), 'step': co.BasicOption(float, 0.1), 'sqrside': co.BasicOption(float, 1.), 'rcoef': co.BasicOption(float, 1.) }
def _arguments_types(cls): return { 'name': co.BasicOption(str, None), 'p0': co.Point2Option(), 'radinner': co.BasicOption(float), 'radouter': co.BasicOption(float), 'na': co.BasicOption(int), 'nr': co.BasicOption(int), 'coef': co.BasicOption(float, 1.), 'bnd': co.ListOfOptions(co.BasicOption(int), [0, 0]) }
def _arguments_types(cls): """ name - modified grid name, base - identifier of the basic grid target - identifier of contour base_points - points of the basic grid contour target_poitns - points of the target contour snap - snapping algo ("no", "add_vertices", "shift_vertices") btypes - source of boundary features ("from_grid", "from_contour") algo ('inverse_laplace', 'direct_laplace') """ return { 'name': co.BasicOption(str, None), 'base': co.BasicOption(str), 'target': co.BasicOption(str), 'base_points': co.ListOfOptions(co.Point2Option()), 'target_points': co.ListOfOptions(co.Point2Option()), 'snap': co.BasicOption(str, 'no'), 'btypes': co.BasicOption(str, 'from_contour'), 'algo': co.BasicOption(str, 'inverse_laplace'), 'is_reversed': co.BoolOption(False), 'return_invalid': co.BoolOption(False), }
def _arguments_types(cls): return { 'name': co.BasicOption(str, None), 'p0': co.Point2Option(), 'rad': co.BasicOption(float, 1.), 'na': co.BasicOption(int, 8), 'nr': co.BasicOption(int, 4), 'coef': co.BasicOption(float, 1.), 'is_trian': co.BoolOption(True), 'custom_r': co.ListOfOptions(co.BasicOption(float), []), 'custom_a': co.ListOfOptions(co.BasicOption(float), []), 'bnd': co.BasicOption(int, 0), }
def _arguments_types(cls): return { 'names': comopt.ListOfOptions(comopt.BasicOption(str)), 'p1': comopt.Point2Option(), 'p2': comopt.Point2Option(), }