import numpy as np from matplotlib.tri._triangulation import Triangulation import matplotlib.cbook as cbook import matplotlib.lines as mlines def triplot(ax, *args, **kwargs): """ Draw an unstructured triangular grid as lines and/or markers. Call signatures:: triplot(triangulation, ...) triplot(x, y, [triangles], *, [mask=mask], ...) The triangular grid can be specified either by passing a `.Triangulation` object as the first parameter, or by passing the points *x*, *y* and optionally the *triangles* and a *mask*. If neither of *triangulation* or *triangles* are given, the triangulation is calculated on the fly. Parameters ---------- triangulation : `.Triangulation` An already created triangular grid. x, y, triangles, mask Parameters defining the triangular grid. See `.Triangulation`. This is mutually exclusive with specifying *triangulation*. other_parameters All other args and kwargs are forwarded to `~.Axes.plot`. Returns ------- lines : `~matplotlib.lines.Line2D` The drawn triangles edges. markers : `~matplotlib.lines.Line2D` The drawn marker nodes. """ import matplotlib.axes tri, args, kwargs = Triangulation.get_from_args_and_kwargs(*args, **kwargs) x, y, edges = (tri.x, tri.y, tri.edges) # Decode plot format string, e.g., 'ro-' fmt = args[0] if args else "" linestyle, marker, color = matplotlib.axes._base._process_plot_format(fmt) # Insert plot format string into a copy of kwargs (kwargs values prevail). kw = cbook.normalize_kwargs(kwargs, mlines.Line2D) for key, val in zip(('linestyle', 'marker', 'color'), (linestyle, marker, color)): if val is not None: kw.setdefault(key, val) # Draw lines without markers. # Note 1: If we drew markers here, most markers would be drawn more than # once as they belong to several edges. # Note 2: We insert nan values in the flattened edges arrays rather than # plotting directly (triang.x[edges].T, triang.y[edges].T) # as it considerably speeds-up code execution. linestyle = kw['linestyle'] kw_lines = { **kw, 'marker': 'None', # No marker to draw. 'zorder': kw.get('zorder', 1), # Path default zorder is used. } if linestyle not in [None, 'None', '', ' ']: tri_lines_x = np.insert(x[edges], 2, np.nan, axis=1) tri_lines_y = np.insert(y[edges], 2, np.nan, axis=1) tri_lines = ax.plot(tri_lines_x.ravel(), tri_lines_y.ravel(), **kw_lines) else: tri_lines = ax.plot([], [], **kw_lines) # Draw markers separately. marker = kw['marker'] kw_markers = { **kw, 'linestyle': 'None', # No line to draw. } kw_markers.pop('label', None) if marker not in [None, 'None', '', ' ']: tri_markers = ax.plot(x, y, **kw_markers) else: tri_markers = ax.plot([], [], **kw_markers) return tri_lines + tri_markers