def plot(self, *args, **kwargs): from art3d_gl import line_3d_to_gl fc = kwargs.pop('facecolor', None) gl_offset = kwargs.pop('gl_offset', (0, 0, 0)) array_idx = kwargs.pop('array_idx', None) lines = Axes3D.plot(self, *args, **kwargs) for l in lines: line_3d_to_gl(l) l._facecolor = fc l._gl_offset = gl_offset l._gl_array_idx = array_idx return lines
def plot(self, *args, **kwargs): from art3d_gl import line_3d_to_gl fc = kwargs.pop('facecolor', None) gl_offset = kwargs.pop('gl_offset', (0,0,0)) array_idx = kwargs.pop('array_idx', None) lines = Axes3D.plot(self, *args, **kwargs) for l in lines: line_3d_to_gl(l) l._facecolor = fc l._gl_offset = gl_offset l._gl_array_idx = array_idx return lines
def plot(self, *args, **kwargs): ''' If the **mantid3d** projection is chosen, it can be used the same as :py:meth:`matplotlib.axes.Axes3D.plot` for arrays, or it can be used to plot :class:`mantid.api.MatrixWorkspace` or :class:`mantid.api.IMDHistoWorkspace`. You can have something like:: import matplotlib.pyplot as plt from mantid import plots ... fig, ax = plt.subplots(subplot_kw={'projection':'mantid3d'}) ax.plot(workspace) #for workspaces ax.plot(x,y,z) #for arrays fig.show() For keywords related to workspaces, see :func:`mantid.plots.plotfunctions3D.plot3D` ''' if mantid.plots.helperfunctions.validate_args(*args): mantid.kernel.logger.debug('using mantid.plots.plotfunctions3D') return mantid.plots.plotfunctions3D.plot(self, *args, **kwargs) else: return Axes3D.plot(self, *args, **kwargs)
def __init__(self, quads: list, ax: axes3d.Axes3D): self.quads = list() self.quadGui = list() self.ax = ax # type checking for quad_temp in quads: if isinstance(quad_temp, Qfm.QuadModel): self.quads.append(quad_temp) else: raise Cf.QuadrotorFlyError("Not a QuadrotorModel type") index = 1 for quad_temp in self.quads: label = ax.text([], [], [], str(index), fontsize='large') index += 1 if quad_temp.uavPara.structureType == Qfm.StructureType.quad_plus: hub, = ax.plot([], [], [], marker='o', color='green', markersize=6, antialiased=False) bar_x, = ax.plot([], [], [], color='red', linewidth=3, antialiased=False) bar_y, = ax.plot([], [], [], color='black', linewidth=3, antialiased=False) self.quadGui.append({ 'hub': hub, 'barX': bar_x, 'barY': bar_y, 'label': label }) elif quad_temp.uavPara.structureType == Qfm.StructureType.quad_x: hub, = self.ax.plot([], [], [], marker='o', color='green', markersize=6, antialiased=False) front_bar1, = self.ax.plot([], [], [], color='red', linewidth=3, antialiased=False) front_bar2, = self.ax.plot([], [], [], color='red', linewidth=3, antialiased=False) back_bar1, = self.ax.plot([], [], [], color='black', linewidth=3, antialiased=False) back_bar2, = self.ax.plot([], [], [], color='black', linewidth=3, antialiased=False) self.quadGui.append({ 'hub': hub, 'bar_frontLeft': front_bar1, 'bar_frontRight': front_bar2, 'bar_rearLeft': back_bar1, 'bar_rearRight': back_bar2, 'label': label })