"""

==============

Polygon editor

==============

This is an example to show how to build cross-GUI applications using

Matplotlib event handling to interact with objects on the canvas.

.. note::

This example exercises the interactive capabilities of Matplotlib, and this

will not appear in the static documentation. Please run this code on your

machine to see the interactivity.

You can copy and paste individual parts, or download the entire example

using the link at the bottom of the page.

"""

import numpy as np

from matplotlib.artist import Artist

from matplotlib.lines import Line2D

def dist_point_to_segment(p, s0, s1):

"""

Get the distance from the point *p* to the segment (*s0*, *s1*), where

*p*, *s0*, *s1* are ``[x, y]`` arrays.

"""

s01 = s1 - s0

s0p = p - s0

if (s01 == 0).all():

return np.hypot(*s0p)

# Project onto segment, without going past segment ends.

p1 = s0 + np.clip((s0p @ s01) / (s01 @ s01), 0, 1) * s01

return np.hypot(*(p - p1))

class PolygonInteractor:

"""

A polygon editor.

Key-bindings

't' toggle vertex markers on and off. When vertex markers are on,

you can move them, delete them

'd' delete the vertex under point

'i' insert a vertex at point. You must be within epsilon of the

line connecting two existing vertices

"""

showverts = True

epsilon = 5 # max pixel distance to count as a vertex hit

def __init__(self, ax, poly):

if poly.figure is None:

raise RuntimeError('You must first add the polygon to a figure '

'or canvas before defining the interactor')

self.ax = ax

canvas = poly.figure.canvas

self.poly = poly

x, y = zip(*self.poly.xy)

self.line = Line2D(x, y,

marker='o', markerfacecolor='r',

animated=True)

self.ax.add_line(self.line)

self.cid = self.poly.add_callback(self.poly_changed)

self._ind = None # the active vert

canvas.mpl_connect('draw_event', self.on_draw)

canvas.mpl_connect('button_press_event', self.on_button_press)

canvas.mpl_connect('key_press_event', self.on_key_press)

canvas.mpl_connect('button_release_event', self.on_button_release)

canvas.mpl_connect('motion_notify_event', self.on_mouse_move)

self.canvas = canvas

def on_draw(self, event):

self.background = self.canvas.copy_from_bbox(self.ax.bbox)

self.ax.draw_artist(self.poly)

self.ax.draw_artist(self.line)

# do not need to blit here, this will fire before the screen is

# updated

def poly_changed(self, poly):

"""This method is called whenever the pathpatch object is called."""

# only copy the artist props to the line (except visibility)

vis = self.line.get_visible()

Artist.update_from(self.line, poly)

self.line.set_visible(vis) # don't use the poly visibility state

def get_ind_under_point(self, event):

"""

Return the index of the point closest to the event position or *None*

if no point is within ``self.epsilon`` to the event position.

"""

# display coords

xy = np.asarray(self.poly.xy)

xyt = self.poly.get_transform().transform(xy)

xt, yt = xyt[:, 0], xyt[:, 1]

d = np.hypot(xt - event.x, yt - event.y)

indseq, = np.nonzero(d == d.min())

ind = indseq[0]

if d[ind] >= self.epsilon:

ind = None

return ind

def on_button_press(self, event):

"""Callback for mouse button presses."""

if not self.showverts:

return

if event.inaxes is None:

return

if event.button != 1:

return

self._ind = self.get_ind_under_point(event)

def on_button_release(self, event):

"""Callback for mouse button releases."""

if not self.showverts:

return

if event.button != 1:

return

self._ind = None

def on_key_press(self, event):

"""Callback for key presses."""

if not event.inaxes:

return

if event.key == 't':

self.showverts = not self.showverts

self.line.set_visible(self.showverts)

if not self.showverts:

self._ind = None

elif event.key == 'd':

ind = self.get_ind_under_point(event)

if ind is not None:

self.poly.xy = np.delete(self.poly.xy,

ind, axis=0)

self.line.set_data(zip(*self.poly.xy))

elif event.key == 'i':

xys = self.poly.get_transform().transform(self.poly.xy)

p = event.x, event.y # display coords

for i in range(len(xys) - 1):

s0 = xys[i]

s1 = xys[i + 1]

d = dist_point_to_segment(p, s0, s1)

if d <= self.epsilon:

self.poly.xy = np.insert(

self.poly.xy, i+1,

[event.xdata, event.ydata],

axis=0)

self.line.set_data(zip(*self.poly.xy))

break

if self.line.stale:

self.canvas.draw_idle()

def on_mouse_move(self, event):

"""Callback for mouse movements."""

if not self.showverts:

return

if self._ind is None:

return

if event.inaxes is None:

return

if event.button != 1:

return

x, y = event.xdata, event.ydata

self.poly.xy[self._ind] = x, y

if self._ind == 0:

self.poly.xy[-1] = x, y

elif self._ind == len(self.poly.xy) - 1:

self.poly.xy[0] = x, y

self.line.set_data(zip(*self.poly.xy))

self.canvas.restore_region(self.background)

self.ax.draw_artist(self.poly)

self.ax.draw_artist(self.line)

self.canvas.blit(self.ax.bbox)

if __name__ == '__main__':

import matplotlib.pyplot as plt

from matplotlib.patches import Polygon

theta = np.arange(0, 2*np.pi, 0.1)

r = 1.5

xs = r * np.cos(theta)

ys = r * np.sin(theta)

poly = Polygon(np.column_stack([xs, ys]), animated=True)

fig, ax = plt.subplots()

ax.add_patch(poly)

p = PolygonInteractor(ax, poly)

ax.set_title('Click and drag a point to move it')

ax.set_xlim(-2, 2)

ax.set_ylim(-2, 2)

plt.show()