"""Produce SVG versions of active plots for display by the rich Qt frontend. """ #----------------------------------------------------------------------------- # Imports #----------------------------------------------------------------------------- from __future__ import print_function # Standard library imports import sys # Third-party imports import matplotlib from matplotlib.backends.backend_agg import new_figure_manager from matplotlib._pylab_helpers import Gcf # Local imports. from IPython.config.configurable import SingletonConfigurable from IPython.core.displaypub import publish_display_data from IPython.lib.pylabtools import print_figure, select_figure_format from IPython.utils.traitlets import Dict, Instance, CaselessStrEnum, CBool from IPython.utils.warn import warn #----------------------------------------------------------------------------- # Configurable for inline backend options #----------------------------------------------------------------------------- # inherit from InlineBackendConfig for deprecation purposes class InlineBackendConfig(SingletonConfigurable): pass class InlineBackend(InlineBackendConfig): """An object to store configuration of the inline backend.""" def _config_changed(self, name, old, new): # warn on change of renamed config section if new.InlineBackendConfig != old.InlineBackendConfig: warn("InlineBackendConfig has been renamed to InlineBackend") super(InlineBackend, self)._config_changed(name, old, new) # The typical default figure size is too large for inline use, # so we shrink the figure size to 6x4, and tweak fonts to # make that fit. rc = Dict({'figure.figsize': (6.0,4.0), # 12pt labels get cutoff on 6x4 logplots, so use 10pt. 'font.size': 10, # 72 dpi matches SVG/qtconsole # this only affects PNG export, as SVG has no dpi setting 'savefig.dpi': 72, # 10pt still needs a little more room on the xlabel: 'figure.subplot.bottom' : .125 }, config=True, help="""Subset of matplotlib rcParams that should be different for the inline backend.""" ) figure_format = CaselessStrEnum(['svg', 'png'], default_value='png', config=True, help="The image format for figures with the inline backend.") def _figure_format_changed(self, name, old, new): if self.shell is None: return else: select_figure_format(self.shell, new) close_figures = CBool(True, config=True, help="""Close all figures at the end of each cell. When True, ensures that each cell starts with no active figures, but it also means that one must keep track of references in order to edit or redraw figures in subsequent cells. This mode is ideal for the notebook, where residual plots from other cells might be surprising. When False, one must call figure() to create new figures. This means that gcf() and getfigs() can reference figures created in other cells, and the active figure can continue to be edited with pylab/pyplot methods that reference the current active figure. This mode facilitates iterative editing of figures, and behaves most consistently with other matplotlib backends, but figure barriers between cells must be explicit. """) shell = Instance('IPython.core.interactiveshell.InteractiveShellABC') #----------------------------------------------------------------------------- # Functions #----------------------------------------------------------------------------- def show(close=None): """Show all figures as SVG/PNG payloads sent to the IPython clients. Parameters ---------- close : bool, optional If true, a ``plt.close('all')`` call is automatically issued after sending all the figures. If this is set, the figures will entirely removed from the internal list of figures. """ if close is None: close = InlineBackend.instance().close_figures for figure_manager in Gcf.get_all_fig_managers(): send_figure(figure_manager.canvas.figure) if close: matplotlib.pyplot.close('all') show._to_draw = [] # This flag will be reset by draw_if_interactive when called show._draw_called = False # list of figures to draw when flush_figures is called show._to_draw = [] def draw_if_interactive(): """ Is called after every pylab drawing command """ # signal that the current active figure should be sent at the end of execution. # Also sets the _draw_called flag, signaling that there will be something to send. # At the end of the code execution, a separate call to flush_figures() # will act upon these values fig = Gcf.get_active().canvas.figure # ensure current figure will be drawn, and each subsequent call # of draw_if_interactive() moves the active figure to ensure it is # drawn last try: show._to_draw.remove(fig) except ValueError: # ensure it only appears in the draw list once pass show._to_draw.append(fig) show._draw_called = True def flush_figures(): """Send all figures that changed This is meant to be called automatically and will call show() if, during prior code execution, there had been any calls to draw_if_interactive. """ if not show._draw_called: return if InlineBackend.instance().close_figures: # ignore the tracking, just draw and close all figures return show(True) # exclude any figures that were closed: active = set([fm.canvas.figure for fm in Gcf.get_all_fig_managers()]) for fig in [ fig for fig in show._to_draw if fig in active ]: send_figure(fig) # clear flags for next round show._to_draw = [] show._draw_called = False def send_figure(fig): """Draw the current figure and send it as a PNG payload. """ # For an empty figure, don't even bother calling figure_to_svg, to avoid # big blank spaces in the qt console if not fig.axes: return fmt = InlineBackend.instance().figure_format data = print_figure(fig, fmt) mimetypes = { 'png' : 'image/png', 'svg' : 'image/svg+xml' } mime = mimetypes[fmt] # flush text streams before sending figures, helps a little with output # synchronization in the console (though it's a bandaid, not a real sln) sys.stdout.flush(); sys.stderr.flush() publish_display_data( 'IPython.zmq.pylab.backend_inline.send_figure', {mime : data} )