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440 lines
16 KiB
Python
440 lines
16 KiB
Python
# axis3d.py, original mplot3d version by John Porter
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# Created: 23 Sep 2005
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# Parts rewritten by Reinier Heeres <reinier@heeres.eu>
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import numpy as np
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from matplotlib import (
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artist, cbook, lines as mlines, axis as maxis, patches as mpatches,
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rcParams)
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from . import art3d, proj3d
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@cbook.deprecated("3.1")
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def get_flip_min_max(coord, index, mins, maxs):
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if coord[index] == mins[index]:
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return maxs[index]
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else:
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return mins[index]
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def move_from_center(coord, centers, deltas, axmask=(True, True, True)):
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"""
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For each coordinate where *axmask* is True, move *coord* away from
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*centers* by *deltas*.
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"""
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coord = np.asarray(coord)
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return coord + axmask * np.copysign(1, coord - centers) * deltas
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def tick_update_position(tick, tickxs, tickys, labelpos):
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'''Update tick line and label position and style.'''
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tick.label1.set_position(labelpos)
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tick.label2.set_position(labelpos)
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tick.tick1line.set_visible(True)
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tick.tick2line.set_visible(False)
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tick.tick1line.set_linestyle('-')
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tick.tick1line.set_marker('')
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tick.tick1line.set_data(tickxs, tickys)
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tick.gridline.set_data(0, 0)
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class Axis(maxis.XAxis):
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"""An Axis class for the 3D plots."""
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# These points from the unit cube make up the x, y and z-planes
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_PLANES = (
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(0, 3, 7, 4), (1, 2, 6, 5), # yz planes
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(0, 1, 5, 4), (3, 2, 6, 7), # xz planes
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(0, 1, 2, 3), (4, 5, 6, 7), # xy planes
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)
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# Some properties for the axes
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_AXINFO = {
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'x': {'i': 0, 'tickdir': 1, 'juggled': (1, 0, 2),
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'color': (0.95, 0.95, 0.95, 0.5)},
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'y': {'i': 1, 'tickdir': 0, 'juggled': (0, 1, 2),
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'color': (0.90, 0.90, 0.90, 0.5)},
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'z': {'i': 2, 'tickdir': 0, 'juggled': (0, 2, 1),
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'color': (0.925, 0.925, 0.925, 0.5)},
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}
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def __init__(self, adir, v_intervalx, d_intervalx, axes, *args,
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rotate_label=None, **kwargs):
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# adir identifies which axes this is
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self.adir = adir
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# This is a temporary member variable.
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# Do not depend on this existing in future releases!
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self._axinfo = self._AXINFO[adir].copy()
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if rcParams['_internal.classic_mode']:
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self._axinfo.update(
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{'label': {'va': 'center',
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'ha': 'center'},
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'tick': {'inward_factor': 0.2,
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'outward_factor': 0.1,
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'linewidth': rcParams['lines.linewidth']},
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'axisline': {'linewidth': 0.75,
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'color': (0, 0, 0, 1)},
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'grid': {'color': (0.9, 0.9, 0.9, 1),
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'linewidth': 1.0,
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'linestyle': '-'},
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})
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else:
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self._axinfo.update(
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{'label': {'va': 'center',
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'ha': 'center'},
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'tick': {'inward_factor': 0.2,
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'outward_factor': 0.1,
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'linewidth': rcParams.get(
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adir + 'tick.major.width',
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rcParams['xtick.major.width'])},
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'axisline': {'linewidth': rcParams['axes.linewidth'],
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'color': rcParams['axes.edgecolor']},
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'grid': {'color': rcParams['grid.color'],
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'linewidth': rcParams['grid.linewidth'],
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'linestyle': rcParams['grid.linestyle']},
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})
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maxis.XAxis.__init__(self, axes, *args, **kwargs)
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# data and viewing intervals for this direction
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self.d_interval = d_intervalx
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self.v_interval = v_intervalx
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self.set_rotate_label(rotate_label)
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def init3d(self):
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self.line = mlines.Line2D(
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xdata=(0, 0), ydata=(0, 0),
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linewidth=self._axinfo['axisline']['linewidth'],
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color=self._axinfo['axisline']['color'],
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antialiased=True)
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# Store dummy data in Polygon object
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self.pane = mpatches.Polygon(
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np.array([[0, 0], [0, 1], [1, 0], [0, 0]]),
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closed=False, alpha=0.8, facecolor='k', edgecolor='k')
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self.set_pane_color(self._axinfo['color'])
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self.axes._set_artist_props(self.line)
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self.axes._set_artist_props(self.pane)
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self.gridlines = art3d.Line3DCollection([])
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self.axes._set_artist_props(self.gridlines)
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self.axes._set_artist_props(self.label)
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self.axes._set_artist_props(self.offsetText)
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# Need to be able to place the label at the correct location
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self.label._transform = self.axes.transData
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self.offsetText._transform = self.axes.transData
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@cbook.deprecated("3.1")
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def get_tick_positions(self):
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majorLocs = self.major.locator()
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majorLabels = self.major.formatter.format_ticks(majorLocs)
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return majorLabels, majorLocs
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def get_major_ticks(self, numticks=None):
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ticks = maxis.XAxis.get_major_ticks(self, numticks)
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for t in ticks:
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t.tick1line.set_transform(self.axes.transData)
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t.tick2line.set_transform(self.axes.transData)
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t.gridline.set_transform(self.axes.transData)
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t.label1.set_transform(self.axes.transData)
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t.label2.set_transform(self.axes.transData)
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return ticks
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def set_pane_pos(self, xys):
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xys = np.asarray(xys)
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xys = xys[:, :2]
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self.pane.xy = xys
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self.stale = True
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def set_pane_color(self, color):
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'''Set pane color to a RGBA tuple.'''
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self._axinfo['color'] = color
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self.pane.set_edgecolor(color)
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self.pane.set_facecolor(color)
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self.pane.set_alpha(color[-1])
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self.stale = True
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def set_rotate_label(self, val):
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'''
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Whether to rotate the axis label: True, False or None.
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If set to None the label will be rotated if longer than 4 chars.
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'''
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self._rotate_label = val
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self.stale = True
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def get_rotate_label(self, text):
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if self._rotate_label is not None:
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return self._rotate_label
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else:
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return len(text) > 4
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def _get_coord_info(self, renderer):
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mins, maxs = np.array([
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self.axes.get_xbound(),
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self.axes.get_ybound(),
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self.axes.get_zbound(),
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]).T
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centers = (maxs + mins) / 2.
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deltas = (maxs - mins) / 12.
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mins = mins - deltas / 4.
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maxs = maxs + deltas / 4.
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vals = mins[0], maxs[0], mins[1], maxs[1], mins[2], maxs[2]
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tc = self.axes.tunit_cube(vals, renderer.M)
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avgz = [tc[p1][2] + tc[p2][2] + tc[p3][2] + tc[p4][2]
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for p1, p2, p3, p4 in self._PLANES]
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highs = np.array([avgz[2*i] < avgz[2*i+1] for i in range(3)])
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return mins, maxs, centers, deltas, tc, highs
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def draw_pane(self, renderer):
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renderer.open_group('pane3d', gid=self.get_gid())
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mins, maxs, centers, deltas, tc, highs = self._get_coord_info(renderer)
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info = self._axinfo
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index = info['i']
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if not highs[index]:
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plane = self._PLANES[2 * index]
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else:
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plane = self._PLANES[2 * index + 1]
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xys = [tc[p] for p in plane]
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self.set_pane_pos(xys)
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self.pane.draw(renderer)
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renderer.close_group('pane3d')
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@artist.allow_rasterization
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def draw(self, renderer):
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self.label._transform = self.axes.transData
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renderer.open_group('axis3d', gid=self.get_gid())
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ticks = self._update_ticks()
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info = self._axinfo
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index = info['i']
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mins, maxs, centers, deltas, tc, highs = self._get_coord_info(renderer)
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# Determine grid lines
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minmax = np.where(highs, maxs, mins)
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maxmin = np.where(highs, mins, maxs)
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# Draw main axis line
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juggled = info['juggled']
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edgep1 = minmax.copy()
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edgep1[juggled[0]] = maxmin[juggled[0]]
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edgep2 = edgep1.copy()
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edgep2[juggled[1]] = maxmin[juggled[1]]
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pep = np.asarray(
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proj3d.proj_trans_points([edgep1, edgep2], renderer.M))
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centpt = proj3d.proj_transform(*centers, renderer.M)
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self.line.set_data(pep[0], pep[1])
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self.line.draw(renderer)
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# Grid points where the planes meet
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xyz0 = np.tile(minmax, (len(ticks), 1))
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xyz0[:, index] = [tick.get_loc() for tick in ticks]
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# Draw labels
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# The transAxes transform is used because the Text object
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# rotates the text relative to the display coordinate system.
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# Therefore, if we want the labels to remain parallel to the
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# axis regardless of the aspect ratio, we need to convert the
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# edge points of the plane to display coordinates and calculate
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# an angle from that.
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# TODO: Maybe Text objects should handle this themselves?
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dx, dy = (self.axes.transAxes.transform([pep[0:2, 1]]) -
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self.axes.transAxes.transform([pep[0:2, 0]]))[0]
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lxyz = 0.5 * (edgep1 + edgep2)
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# A rough estimate; points are ambiguous since 3D plots rotate
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ax_scale = self.axes.bbox.size / self.figure.bbox.size
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ax_inches = np.multiply(ax_scale, self.figure.get_size_inches())
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ax_points_estimate = sum(72. * ax_inches)
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deltas_per_point = 48 / ax_points_estimate
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default_offset = 21.
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labeldeltas = (
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(self.labelpad + default_offset) * deltas_per_point * deltas)
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axmask = [True, True, True]
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axmask[index] = False
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lxyz = move_from_center(lxyz, centers, labeldeltas, axmask)
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tlx, tly, tlz = proj3d.proj_transform(*lxyz, renderer.M)
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self.label.set_position((tlx, tly))
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if self.get_rotate_label(self.label.get_text()):
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angle = art3d._norm_text_angle(np.rad2deg(np.arctan2(dy, dx)))
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self.label.set_rotation(angle)
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self.label.set_va(info['label']['va'])
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self.label.set_ha(info['label']['ha'])
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self.label.draw(renderer)
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# Draw Offset text
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# Which of the two edge points do we want to
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# use for locating the offset text?
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if juggled[2] == 2:
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outeredgep = edgep1
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outerindex = 0
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else:
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outeredgep = edgep2
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outerindex = 1
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pos = move_from_center(outeredgep, centers, labeldeltas, axmask)
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olx, oly, olz = proj3d.proj_transform(*pos, renderer.M)
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self.offsetText.set_text(self.major.formatter.get_offset())
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self.offsetText.set_position((olx, oly))
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angle = art3d._norm_text_angle(np.rad2deg(np.arctan2(dy, dx)))
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self.offsetText.set_rotation(angle)
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# Must set rotation mode to "anchor" so that
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# the alignment point is used as the "fulcrum" for rotation.
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self.offsetText.set_rotation_mode('anchor')
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#----------------------------------------------------------------------
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# Note: the following statement for determining the proper alignment of
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# the offset text. This was determined entirely by trial-and-error
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# and should not be in any way considered as "the way". There are
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# still some edge cases where alignment is not quite right, but this
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# seems to be more of a geometry issue (in other words, I might be
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# using the wrong reference points).
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#
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# (TT, FF, TF, FT) are the shorthand for the tuple of
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# (centpt[info['tickdir']] <= pep[info['tickdir'], outerindex],
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# centpt[index] <= pep[index, outerindex])
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#
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# Three-letters (e.g., TFT, FTT) are short-hand for the array of bools
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# from the variable 'highs'.
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# ---------------------------------------------------------------------
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if centpt[info['tickdir']] > pep[info['tickdir'], outerindex]:
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# if FT and if highs has an even number of Trues
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if (centpt[index] <= pep[index, outerindex]
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and np.count_nonzero(highs) % 2 == 0):
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# Usually, this means align right, except for the FTT case,
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# in which offset for axis 1 and 2 are aligned left.
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if highs.tolist() == [False, True, True] and index in (1, 2):
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align = 'left'
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else:
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align = 'right'
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else:
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# The FF case
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align = 'left'
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else:
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# if TF and if highs has an even number of Trues
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if (centpt[index] > pep[index, outerindex]
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and np.count_nonzero(highs) % 2 == 0):
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# Usually mean align left, except if it is axis 2
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if index == 2:
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align = 'right'
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else:
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align = 'left'
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else:
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# The TT case
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align = 'right'
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self.offsetText.set_va('center')
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self.offsetText.set_ha(align)
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self.offsetText.draw(renderer)
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if self.axes._draw_grid and len(ticks):
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# Grid lines go from the end of one plane through the plane
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# intersection (at xyz0) to the end of the other plane. The first
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# point (0) differs along dimension index-2 and the last (2) along
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# dimension index-1.
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lines = np.stack([xyz0, xyz0, xyz0], axis=1)
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lines[:, 0, index - 2] = maxmin[index - 2]
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lines[:, 2, index - 1] = maxmin[index - 1]
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self.gridlines.set_segments(lines)
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self.gridlines.set_color(info['grid']['color'])
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self.gridlines.set_linewidth(info['grid']['linewidth'])
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self.gridlines.set_linestyle(info['grid']['linestyle'])
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self.gridlines.draw(renderer, project=True)
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# Draw ticks
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tickdir = info['tickdir']
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tickdelta = deltas[tickdir]
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if highs[tickdir]:
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ticksign = 1
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else:
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ticksign = -1
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for tick in ticks:
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# Get tick line positions
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pos = edgep1.copy()
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pos[index] = tick.get_loc()
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pos[tickdir] = (
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edgep1[tickdir]
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+ info['tick']['outward_factor'] * ticksign * tickdelta)
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x1, y1, z1 = proj3d.proj_transform(*pos, renderer.M)
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pos[tickdir] = (
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edgep1[tickdir]
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- info['tick']['inward_factor'] * ticksign * tickdelta)
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x2, y2, z2 = proj3d.proj_transform(*pos, renderer.M)
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# Get position of label
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default_offset = 8. # A rough estimate
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labeldeltas = (
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(tick.get_pad() + default_offset) * deltas_per_point * deltas)
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axmask = [True, True, True]
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axmask[index] = False
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pos[tickdir] = edgep1[tickdir]
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pos = move_from_center(pos, centers, labeldeltas, axmask)
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lx, ly, lz = proj3d.proj_transform(*pos, renderer.M)
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tick_update_position(tick, (x1, x2), (y1, y2), (lx, ly))
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tick.tick1line.set_linewidth(info['tick']['linewidth'])
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tick.draw(renderer)
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renderer.close_group('axis3d')
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self.stale = False
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# TODO: Get this to work properly when mplot3d supports
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# the transforms framework.
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def get_tightbbox(self, renderer):
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# Currently returns None so that Axis.get_tightbbox
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# doesn't return junk info.
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return None
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@property
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def d_interval(self):
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return self.get_data_interval()
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@d_interval.setter
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def d_interval(self, minmax):
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return self.set_data_interval(*minmax)
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@property
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def v_interval(self):
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return self.get_view_interval()
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@v_interval.setter
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def v_interval(self, minmax):
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return self.set_view_interval(*minmax)
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# Use classes to look at different data limits
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class XAxis(Axis):
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get_view_interval, set_view_interval = maxis._make_getset_interval(
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"view", "xy_viewLim", "intervalx")
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get_data_interval, set_data_interval = maxis._make_getset_interval(
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"data", "xy_dataLim", "intervalx")
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class YAxis(Axis):
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get_view_interval, set_view_interval = maxis._make_getset_interval(
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"view", "xy_viewLim", "intervaly")
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get_data_interval, set_data_interval = maxis._make_getset_interval(
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"data", "xy_dataLim", "intervaly")
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class ZAxis(Axis):
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get_view_interval, set_view_interval = maxis._make_getset_interval(
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"view", "zz_viewLim", "intervalx")
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get_data_interval, set_data_interval = maxis._make_getset_interval(
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"data", "zz_dataLim", "intervalx")
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