from __future__ import absolute_import, division, print_function
import numpy as np
from matplotlib.patches import Rectangle
from glue.viewers.matplotlib.mpl_axes import update_appearance_from_settings
from glue.external.echo import delay_callback
from glue.utils import mpl_to_datetime64
__all__ = ['MatplotlibViewerMixin']
SCRIPT_HEADER = """
# Initialize figure
fig = plt.figure()
ax = fig.add_subplot(1, 1, 1, aspect='{aspect}')
""".strip()
SCRIPT_FOOTER = """
# Set limits
ax.set_xlim({x_min}, {x_max})
ax.set_ylim({y_min}, {y_max})
# Set scale (log or linear)
ax.set_xscale('{x_log_str}')
ax.set_yscale('{y_log_str}')
# Set axis label properties
ax.set_xlabel('{x_axislabel}', weight='{x_axislabel_weight}', size={x_axislabel_size})
ax.set_ylabel('{y_axislabel}', weight='{y_axislabel_weight}', size={y_axislabel_size})
# Set tick label properties
ax.tick_params('x', labelsize={x_ticklabel_size})
ax.tick_params('y', labelsize={x_ticklabel_size})
# Save figure
fig.savefig('glue_plot.png')
plt.close(fig)
""".strip()
ZORDER_MAX = 100000
[docs]class MatplotlibViewerMixin(object):
[docs] def setup_callbacks(self):
for spine in self.axes.spines.values():
spine.set_zorder(ZORDER_MAX)
self.loading_rectangle = Rectangle((0, 0), 1, 1, color='0.9', alpha=0.9,
zorder=ZORDER_MAX - 1, transform=self.axes.transAxes)
self.loading_rectangle.set_visible(False)
self.axes.add_patch(self.loading_rectangle)
self.loading_text = self.axes.text(0.4, 0.5, 'Computing', color='k',
zorder=self.loading_rectangle.get_zorder() + 1,
ha='left', va='center',
transform=self.axes.transAxes)
self.loading_text.set_visible(False)
self.state.add_callback('x_min', self.limits_to_mpl)
self.state.add_callback('x_max', self.limits_to_mpl)
self.state.add_callback('y_min', self.limits_to_mpl)
self.state.add_callback('y_max', self.limits_to_mpl)
if (self.state.x_min or self.state.x_max or self.state.y_min or self.state.y_max) is None:
self.limits_from_mpl()
else:
self.limits_to_mpl()
self.state.add_callback('x_log', self.update_x_log, priority=1000)
self.state.add_callback('y_log', self.update_y_log, priority=1000)
self.update_x_log()
self.axes.callbacks.connect('xlim_changed', self.limits_from_mpl)
self.axes.callbacks.connect('ylim_changed', self.limits_from_mpl)
self.figure.canvas.mpl_connect('resize_event', self._on_resize)
self._on_resize()
self.axes.set_autoscale_on(False)
self.state.add_callback('x_axislabel', self.update_x_axislabel)
self.state.add_callback('x_axislabel_weight', self.update_x_axislabel)
self.state.add_callback('x_axislabel_size', self.update_x_axislabel)
self.state.add_callback('y_axislabel', self.update_y_axislabel)
self.state.add_callback('y_axislabel_weight', self.update_y_axislabel)
self.state.add_callback('y_axislabel_size', self.update_y_axislabel)
self.state.add_callback('x_ticklabel_size', self.update_x_ticklabel)
self.state.add_callback('y_ticklabel_size', self.update_y_ticklabel)
self.update_x_axislabel()
self.update_y_axislabel()
self.update_x_ticklabel()
self.update_y_ticklabel()
def _update_computation(self, message=None):
pass
[docs] def update_x_axislabel(self, *event):
self.axes.set_xlabel(self.state.x_axislabel,
weight=self.state.x_axislabel_weight,
size=self.state.x_axislabel_size)
self.redraw()
[docs] def update_y_axislabel(self, *event):
self.axes.set_ylabel(self.state.y_axislabel,
weight=self.state.y_axislabel_weight,
size=self.state.y_axislabel_size)
self.redraw()
[docs] def update_x_ticklabel(self, *event):
self.axes.tick_params(axis='x', labelsize=self.state.x_ticklabel_size)
self.axes.xaxis.get_offset_text().set_fontsize(self.state.x_ticklabel_size)
self.redraw()
[docs] def update_y_ticklabel(self, *event):
self.axes.tick_params(axis='y', labelsize=self.state.y_ticklabel_size)
self.axes.yaxis.get_offset_text().set_fontsize(self.state.y_ticklabel_size)
self.redraw()
[docs] def redraw(self):
self.figure.canvas.draw_idle()
[docs] def update_x_log(self, *args):
self.axes.set_xscale('log' if self.state.x_log else 'linear')
self.redraw()
[docs] def update_y_log(self, *args):
self.axes.set_yscale('log' if self.state.y_log else 'linear')
self.redraw()
[docs] def limits_from_mpl(self, *args, **kwargs):
if getattr(self, '_skip_limits_from_mpl', False):
return
if isinstance(self.state.x_min, np.datetime64):
x_min, x_max = [mpl_to_datetime64(x) for x in self.axes.get_xlim()]
else:
x_min, x_max = self.axes.get_xlim()
if isinstance(self.state.y_min, np.datetime64):
y_min, y_max = [mpl_to_datetime64(y) for y in self.axes.get_ylim()]
else:
y_min, y_max = self.axes.get_ylim()
with delay_callback(self.state, 'x_min', 'x_max', 'y_min', 'y_max'):
self.state.x_min = x_min
self.state.x_max = x_max
self.state.y_min = y_min
self.state.y_max = y_max
[docs] def limits_to_mpl(self, *args):
if (self.state.x_min is None or self.state.x_max is None or
self.state.y_min is None or self.state.y_max is None):
return
x_min, x_max = self.state.x_min, self.state.x_max
if self.state.x_log:
if self.state.x_max <= 0:
x_min, x_max = 0.1, 1
elif self.state.x_min <= 0:
x_min = x_max / 10
y_min, y_max = self.state.y_min, self.state.y_max
if self.state.y_log:
if self.state.y_max <= 0:
y_min, y_max = 0.1, 1
elif self.state.y_min <= 0:
y_min = y_max / 10
# Since we deal with aspect ratio internally, there are no conditions
# under which we would want to immediately change the state once the
# limits are set in Matplotlib, so we avoid this by setting the
# _skip_limits_from_mpl attribute which is then recognized inside
# limits_from_mpl
self._skip_limits_from_mpl = True
try:
self.axes.set_xlim(x_min, x_max)
self.axes.set_ylim(y_min, y_max)
self.axes.figure.canvas.draw_idle()
finally:
self._skip_limits_from_mpl = False
[docs] @property
def axes_ratio(self):
# Get figure aspect ratio
width, height = self.figure.get_size_inches()
fig_aspect = height / width
# Get axes aspect ratio
l, b, w, h = self.axes.get_position().bounds
axes_ratio = fig_aspect * (h / w)
return axes_ratio
def _on_resize(self, *args):
self.state._set_axes_aspect_ratio(self.axes_ratio)
def _update_appearance_from_settings(self, message=None):
update_appearance_from_settings(self.axes)
self.redraw()
[docs] def get_layer_artist(self, cls, layer=None, layer_state=None):
return cls(self.axes, self.state, layer=layer, layer_state=layer_state)
[docs] def apply_roi(self, roi, override_mode=None):
""" This method must be implemented by subclasses """
raise NotImplementedError
def _script_header(self):
state_dict = self.state.as_dict()
return ['import matplotlib', "matplotlib.use('Agg')", 'import matplotlib.pyplot as plt'], SCRIPT_HEADER.format(**state_dict)
def _script_footer(self):
state_dict = self.state.as_dict()
state_dict['x_log_str'] = 'log' if self.state.x_log else 'linear'
state_dict['y_log_str'] = 'log' if self.state.y_log else 'linear'
return [], SCRIPT_FOOTER.format(**state_dict)