238 lines
7.3 KiB
Python
238 lines
7.3 KiB
Python
import numpy as np
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import matplotlib.pyplot as plt
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import matplotlib.colors as mcolors
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LABELS_CMAP = mcolors.ListedColormap(['white', 'red', 'dodgerblue', 'gold',
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'greenyellow', 'blueviolet'])
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from ...viewer.canvastools.base import CanvasToolBase
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__all__ = ['PaintTool']
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class PaintTool(CanvasToolBase):
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"""Widget for painting on top of a plot.
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Parameters
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----------
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manager : Viewer or PlotPlugin.
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Skimage viewer or plot plugin object.
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overlay_shape : shape tuple
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2D shape tuple used to initialize overlay image.
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radius : int
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The size of the paint cursor.
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alpha : float (between [0, 1])
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Opacity of overlay.
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on_move : function
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Function called whenever a control handle is moved.
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This function must accept the end points of line as the only argument.
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on_release : function
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Function called whenever the control handle is released.
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on_enter : function
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Function called whenever the "enter" key is pressed.
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rect_props : dict
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Properties for :class:`matplotlib.patches.Rectangle`. This class
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redefines defaults in :class:`matplotlib.widgets.RectangleSelector`.
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Attributes
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----------
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overlay : array
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Overlay of painted labels displayed on top of image.
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label : int
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Current paint color.
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Examples
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----------
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>>> from skimage.data import camera
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>>> import matplotlib.pyplot as plt
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>>> from skimage.viewer.canvastools import PaintTool
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>>> import numpy as np
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>>> img = camera() #doctest: +SKIP
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>>> ax = plt.subplot(111) #doctest: +SKIP
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>>> plt.imshow(img, cmap=plt.cm.gray) #doctest: +SKIP
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>>> p = PaintTool(ax,np.shape(img[:-1]),10,0.2) #doctest: +SKIP
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>>> plt.show() #doctest: +SKIP
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>>> mask = p.overlay #doctest: +SKIP
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>>> plt.imshow(mask,cmap=plt.cm.gray) #doctest: +SKIP
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>>> plt.show() #doctest: +SKIP
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"""
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def __init__(self, manager, overlay_shape, radius=5, alpha=0.3,
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on_move=None, on_release=None, on_enter=None,
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rect_props=None):
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super(PaintTool, self).__init__(manager, on_move=on_move,
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on_enter=on_enter,
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on_release=on_release)
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props = dict(edgecolor='r', facecolor='0.7', alpha=0.5, animated=True)
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props.update(rect_props if rect_props is not None else {})
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self.alpha = alpha
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self.cmap = LABELS_CMAP
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self._overlay_plot = None
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self.shape = overlay_shape[:2]
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self._cursor = plt.Rectangle((0, 0), 0, 0, **props)
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self._cursor.set_visible(False)
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self.ax.add_patch(self._cursor)
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# `label` and `radius` can only be set after initializing `_cursor`
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self.label = 1
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self.radius = radius
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# Note that the order is important: Redraw cursor *after* overlay
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self.artists = [self._overlay_plot, self._cursor]
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self.manager.add_tool(self)
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@property
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def label(self):
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return self._label
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@label.setter
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def label(self, value):
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if value >= self.cmap.N:
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raise ValueError('Maximum label value = %s' % len(self.cmap - 1))
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self._label = value
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self._cursor.set_edgecolor(self.cmap(value))
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@property
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def radius(self):
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return self._radius
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@radius.setter
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def radius(self, r):
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self._radius = r
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self._width = 2 * r + 1
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self._cursor.set_width(self._width)
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self._cursor.set_height(self._width)
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self.window = CenteredWindow(r, self._shape)
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@property
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def overlay(self):
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return self._overlay
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@overlay.setter
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def overlay(self, image):
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self._overlay = image
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if image is None:
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self.ax.images.remove(self._overlay_plot)
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self._overlay_plot = None
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elif self._overlay_plot is None:
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props = dict(cmap=self.cmap, alpha=self.alpha,
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norm=mcolors.NoNorm(vmin=0, vmax=self.cmap.N),
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animated=True)
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self._overlay_plot = self.ax.imshow(image, **props)
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else:
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self._overlay_plot.set_data(image)
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self.redraw()
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@property
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def shape(self):
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return self._shape
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@shape.setter
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def shape(self, shape):
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self._shape = shape
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if not self._overlay_plot is None:
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self._overlay_plot.set_extent((-0.5, shape[1] + 0.5,
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shape[0] + 0.5, -0.5))
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self.radius = self._radius
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self.overlay = np.zeros(shape, dtype='uint8')
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def on_key_press(self, event):
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if event.key == 'enter':
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self.callback_on_enter(self.geometry)
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self.redraw()
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def on_mouse_press(self, event):
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if event.button != 1 or not self.ax.in_axes(event):
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return
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self.update_cursor(event.xdata, event.ydata)
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self.update_overlay(event.xdata, event.ydata)
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def on_mouse_release(self, event):
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if event.button != 1:
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return
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self.callback_on_release(self.geometry)
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def on_move(self, event):
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if not self.ax.in_axes(event):
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self._cursor.set_visible(False)
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self.redraw() # make sure cursor is not visible
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return
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self._cursor.set_visible(True)
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self.update_cursor(event.xdata, event.ydata)
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if event.button != 1:
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self.redraw() # update cursor position
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return
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self.update_overlay(event.xdata, event.ydata)
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self.callback_on_move(self.geometry)
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def update_overlay(self, x, y):
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overlay = self.overlay
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overlay[self.window.at(y, x)] = self.label
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# Note that overlay calls `redraw`
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self.overlay = overlay
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def update_cursor(self, x, y):
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x = x - self.radius - 1
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y = y - self.radius - 1
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self._cursor.set_xy((x, y))
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@property
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def geometry(self):
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return self.overlay
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class CenteredWindow(object):
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"""Window that create slices numpy arrays over 2D windows.
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Examples
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--------
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>>> a = np.arange(16).reshape(4, 4)
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>>> w = CenteredWindow(1, a.shape)
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>>> a[w.at(1, 1)]
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array([[ 0, 1, 2],
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[ 4, 5, 6],
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[ 8, 9, 10]])
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>>> a[w.at(0, 0)]
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array([[0, 1],
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[4, 5]])
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>>> a[w.at(4, 3)]
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array([[14, 15]])
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"""
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def __init__(self, radius, array_shape):
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self.radius = radius
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self.array_shape = array_shape
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def at(self, row, col):
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h, w = self.array_shape
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r = round(self.radius)
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# Note: the int() cast is necessary because row and col are np.float64,
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# which does not get cast by round(), unlike a normal Python float:
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# >>> round(4.5)
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# 4
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# >>> round(np.float64(4.5))
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# 4.0
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# >>> int(round(np.float64(4.5)))
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# 4
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row, col = int(round(row)), int(round(col))
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xmin = max(0, col - r)
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xmax = min(w, col + r + 1)
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ymin = max(0, row - r)
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ymax = min(h, row + r + 1)
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return (slice(ymin, ymax), slice(xmin, xmax))
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if __name__ == '__main__': # pragma: no cover
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np.testing.rundocs()
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from ... import data
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from ...viewer import ImageViewer
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image = data.camera()
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viewer = ImageViewer(image)
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paint_tool = PaintTool(viewer, image.shape)
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viewer.show()
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