""" Manage figures for the pyplot interface. """ import atexit from collections import OrderedDict class Gcf: """ Singleton to maintain the relation between figures and their managers, and keep track of and "active" figure and manager. The canvas of a figure created through pyplot is associated with a figure manager, which handles the interaction between the figure and the backend. pyplot keeps track of figure managers using an identifier, the "figure number" or "manager number" (which can actually be any hashable value); this number is available as the :attr:`number` attribute of the manager. This class is never instantiated; it consists of an `OrderedDict` mapping figure/manager numbers to managers, and a set of class methods that manipulate this `OrderedDict`. Attributes ---------- figs : OrderedDict `OrderedDict` mapping numbers to managers; the active manager is at the end. """ figs = OrderedDict() @classmethod def get_fig_manager(cls, num): """ If manager number *num* exists, make it the active one and return it; otherwise return *None*. """ manager = cls.figs.get(num, None) if manager is not None: cls.set_active(manager) return manager @classmethod def destroy(cls, num): """ Destroy manager *num* -- either a manager instance or a manager number. In the interactive backends, this is bound to the window "destroy" and "delete" events. It is recommended to pass a manager instance, to avoid confusion when two managers share the same number. """ if all(hasattr(num, attr) for attr in ["num", "destroy"]): manager = num if cls.figs.get(manager.num) is manager: cls.figs.pop(manager.num) else: try: manager = cls.figs.pop(num) except KeyError: return if hasattr(manager, "_cidgcf"): manager.canvas.mpl_disconnect(manager._cidgcf) manager.destroy() @classmethod def destroy_fig(cls, fig): """Destroy figure *fig*.""" num = next((manager.num for manager in cls.figs.values() if manager.canvas.figure == fig), None) if num is not None: cls.destroy(num) @classmethod def destroy_all(cls): """Destroy all figures.""" for manager in list(cls.figs.values()): manager.canvas.mpl_disconnect(manager._cidgcf) manager.destroy() cls.figs.clear() @classmethod def has_fignum(cls, num): """Return whether figure number *num* exists.""" return num in cls.figs @classmethod def get_all_fig_managers(cls): """Return a list of figure managers.""" return list(cls.figs.values()) @classmethod def get_num_fig_managers(cls): """Return the number of figures being managed.""" return len(cls.figs) @classmethod def get_active(cls): """Return the active manager, or *None* if there is no manager.""" return next(reversed(cls.figs.values())) if cls.figs else None @classmethod def _set_new_active_manager(cls, manager): """Adopt *manager* into pyplot and make it the active manager.""" if not hasattr(manager, "_cidgcf"): manager._cidgcf = manager.canvas.mpl_connect( "button_press_event", lambda event: cls.set_active(manager)) fig = manager.canvas.figure fig.number = manager.num label = fig.get_label() if label: manager.set_window_title(label) cls.set_active(manager) @classmethod def set_active(cls, manager): """Make *manager* the active manager.""" cls.figs[manager.num] = manager cls.figs.move_to_end(manager.num) @classmethod def draw_all(cls, force=False): """ Redraw all stale managed figures, or, if *force* is True, all managed figures. """ for manager in cls.get_all_fig_managers(): if force or manager.canvas.figure.stale: manager.canvas.draw_idle() atexit.register(Gcf.destroy_all)