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from __future__ import division
import os, sys
def fn_name(): return sys._getframe(1).f_code.co_name
try:
import gobject
import gtk; gdk = gtk.gdk
import pango
except ImportError:
raise ImportError("Gtk* backend requires pygtk to be installed.")
pygtk_version_required = (2,4,0)
if gtk.pygtk_version < pygtk_version_required:
raise ImportError ("PyGTK %d.%d.%d is installed\n"
"PyGTK %d.%d.%d or later is required"
% (gtk.pygtk_version + pygtk_version_required))
del pygtk_version_required
_new_tooltip_api = (gtk.pygtk_version[1] >= 12)
import matplotlib
from matplotlib._pylab_helpers import Gcf
from matplotlib.backend_bases import RendererBase, GraphicsContextBase, \
FigureManagerBase, FigureCanvasBase, NavigationToolbar2, cursors, TimerBase
from matplotlib.backend_bases import ShowBase
from matplotlib.backends.backend_gdk import RendererGDK, FigureCanvasGDK
from matplotlib.cbook import is_string_like, is_writable_file_like
from matplotlib.colors import colorConverter
from matplotlib.figure import Figure
from matplotlib.widgets import SubplotTool
from matplotlib import lines
from matplotlib import cbook
from matplotlib import verbose
backend_version = "%d.%d.%d" % gtk.pygtk_version
_debug = False
#_debug = True
# the true dots per inch on the screen; should be display dependent
# see http://groups.google.com/groups?q=screen+dpi+x11&hl=en&lr=&ie=UTF-8&oe=UTF-8&safe=off&selm=7077.26e81ad5%40swift.cs.tcd.ie&rnum=5 for some info about screen dpi
PIXELS_PER_INCH = 96
cursord = {
cursors.MOVE : gdk.Cursor(gdk.FLEUR),
cursors.HAND : gdk.Cursor(gdk.HAND2),
cursors.POINTER : gdk.Cursor(gdk.LEFT_PTR),
cursors.SELECT_REGION : gdk.Cursor(gdk.TCROSS),
}
# ref gtk+/gtk/gtkwidget.h
def GTK_WIDGET_DRAWABLE(w):
flags = w.flags();
return flags & gtk.VISIBLE != 0 and flags & gtk.MAPPED != 0
def draw_if_interactive():
"""
Is called after every pylab drawing command
"""
if matplotlib.is_interactive():
figManager = Gcf.get_active()
if figManager is not None:
figManager.canvas.draw_idle()
class Show(ShowBase):
def mainloop(self):
if gtk.main_level() == 0:
gtk.main()
show = Show()
def new_figure_manager(num, *args, **kwargs):
"""
Create a new figure manager instance
"""
FigureClass = kwargs.pop('FigureClass', Figure)
thisFig = FigureClass(*args, **kwargs)
canvas = FigureCanvasGTK(thisFig)
manager = FigureManagerGTK(canvas, num)
# equals:
#manager = FigureManagerGTK(FigureCanvasGTK(Figure(*args, **kwargs), num)
return manager
class TimerGTK(TimerBase):
'''
Subclass of :class:`backend_bases.TimerBase` that uses GTK for timer events.
Attributes:
* interval: The time between timer events in milliseconds. Default
is 1000 ms.
* single_shot: Boolean flag indicating whether this timer should
operate as single shot (run once and then stop). Defaults to False.
* callbacks: Stores list of (func, args) tuples that will be called
upon timer events. This list can be manipulated directly, or the
functions add_callback and remove_callback can be used.
'''
def _timer_start(self):
# Need to stop it, otherwise we potentially leak a timer id that will
# never be stopped.
self._timer_stop()
self._timer = gobject.timeout_add(self._interval, self._on_timer)
def _timer_stop(self):
if self._timer is not None:
gobject.source_remove(self._timer)
self._timer = None
def _timer_set_interval(self):
# Only stop and restart it if the timer has already been started
if self._timer is not None:
self._timer_stop()
self._timer_start()
def _on_timer(self):
TimerBase._on_timer(self)
# Gtk timeout_add() requires that the callback returns True if it
# is to be called again.
if len(self.callbacks) > 0 and not self._single:
return True
else:
self._timer = None
return False
class FigureCanvasGTK (gtk.DrawingArea, FigureCanvasBase):
keyvald = {65507 : 'control',
65505 : 'shift',
65513 : 'alt',
65508 : 'control',
65506 : 'shift',
65514 : 'alt',
65361 : 'left',
65362 : 'up',
65363 : 'right',
65364 : 'down',
65307 : 'escape',
65470 : 'f1',
65471 : 'f2',
65472 : 'f3',
65473 : 'f4',
65474 : 'f5',
65475 : 'f6',
65476 : 'f7',
65477 : 'f8',
65478 : 'f9',
65479 : 'f10',
65480 : 'f11',
65481 : 'f12',
65300 : 'scroll_lock',
65299 : 'break',
65288 : 'backspace',
65293 : 'enter',
65379 : 'insert',
65535 : 'delete',
65360 : 'home',
65367 : 'end',
65365 : 'pageup',
65366 : 'pagedown',
65438 : '0',
65436 : '1',
65433 : '2',
65435 : '3',
65430 : '4',
65437 : '5',
65432 : '6',
65429 : '7',
65431 : '8',
65434 : '9',
65451 : '+',
65453 : '-',
65450 : '*',
65455 : '/',
65439 : 'dec',
65421 : 'enter',
}
# Setting this as a static constant prevents
# this resulting expression from leaking
event_mask = (gdk.BUTTON_PRESS_MASK |
gdk.BUTTON_RELEASE_MASK |
gdk.EXPOSURE_MASK |
gdk.KEY_PRESS_MASK |
gdk.KEY_RELEASE_MASK |
gdk.ENTER_NOTIFY_MASK |
gdk.LEAVE_NOTIFY_MASK |
gdk.POINTER_MOTION_MASK |
gdk.POINTER_MOTION_HINT_MASK)
def __init__(self, figure):
if _debug: print 'FigureCanvasGTK.%s' % fn_name()
FigureCanvasBase.__init__(self, figure)
gtk.DrawingArea.__init__(self)
self._idle_draw_id = 0
self._need_redraw = True
self._pixmap_width = -1
self._pixmap_height = -1
self._lastCursor = None
self.connect('scroll_event', self.scroll_event)
self.connect('button_press_event', self.button_press_event)
self.connect('button_release_event', self.button_release_event)
self.connect('configure_event', self.configure_event)
self.connect('expose_event', self.expose_event)
self.connect('key_press_event', self.key_press_event)
self.connect('key_release_event', self.key_release_event)
self.connect('motion_notify_event', self.motion_notify_event)
self.connect('leave_notify_event', self.leave_notify_event)
self.connect('enter_notify_event', self.enter_notify_event)
self.set_events(self.__class__.event_mask)
self.set_double_buffered(False)
self.set_flags(gtk.CAN_FOCUS)
self._renderer_init()
self._idle_event_id = gobject.idle_add(self.idle_event)
def destroy(self):
#gtk.DrawingArea.destroy(self)
self.close_event()
gobject.source_remove(self._idle_event_id)
if self._idle_draw_id != 0:
gobject.source_remove(self._idle_draw_id)
def scroll_event(self, widget, event):
if _debug: print 'FigureCanvasGTK.%s' % fn_name()
x = event.x
# flipy so y=0 is bottom of canvas
y = self.allocation.height - event.y
if event.direction==gdk.SCROLL_UP:
step = 1
else:
step = -1
FigureCanvasBase.scroll_event(self, x, y, step, guiEvent=event)
return False # finish event propagation?
def button_press_event(self, widget, event):
if _debug: print 'FigureCanvasGTK.%s' % fn_name()
x = event.x
# flipy so y=0 is bottom of canvas
y = self.allocation.height - event.y
FigureCanvasBase.button_press_event(self, x, y, event.button, guiEvent=event)
return False # finish event propagation?
def button_release_event(self, widget, event):
if _debug: print 'FigureCanvasGTK.%s' % fn_name()
x = event.x
# flipy so y=0 is bottom of canvas
y = self.allocation.height - event.y
FigureCanvasBase.button_release_event(self, x, y, event.button, guiEvent=event)
return False # finish event propagation?
def key_press_event(self, widget, event):
if _debug: print 'FigureCanvasGTK.%s' % fn_name()
key = self._get_key(event)
if _debug: print "hit", key
FigureCanvasBase.key_press_event(self, key, guiEvent=event)
return False # finish event propagation?
def key_release_event(self, widget, event):
if _debug: print 'FigureCanvasGTK.%s' % fn_name()
key = self._get_key(event)
if _debug: print "release", key
FigureCanvasBase.key_release_event(self, key, guiEvent=event)
return False # finish event propagation?
def motion_notify_event(self, widget, event):
if _debug: print 'FigureCanvasGTK.%s' % fn_name()
if event.is_hint:
x, y, state = event.window.get_pointer()
else:
x, y, state = event.x, event.y, event.state
# flipy so y=0 is bottom of canvas
y = self.allocation.height - y
FigureCanvasBase.motion_notify_event(self, x, y, guiEvent=event)
return False # finish event propagation?
def leave_notify_event(self, widget, event):
FigureCanvasBase.leave_notify_event(self, event)
def enter_notify_event(self, widget, event):
FigureCanvasBase.enter_notify_event(self, event)
def _get_key(self, event):
if event.keyval in self.keyvald:
key = self.keyvald[event.keyval]
elif event.keyval <256:
key = chr(event.keyval)
else:
key = None
ctrl = event.state & gdk.CONTROL_MASK
shift = event.state & gdk.SHIFT_MASK
return key
def configure_event(self, widget, event):
if _debug: print 'FigureCanvasGTK.%s' % fn_name()
if widget.window is None:
return
w, h = event.width, event.height
if w < 3 or h < 3:
return # empty fig
# resize the figure (in inches)
dpi = self.figure.dpi
self.figure.set_size_inches (w/dpi, h/dpi)
self._need_redraw = True
return False # finish event propagation?
def draw(self):
# Note: FigureCanvasBase.draw() is inconveniently named as it clashes
# with the deprecated gtk.Widget.draw()
self._need_redraw = True
if GTK_WIDGET_DRAWABLE(self):
self.queue_draw()
# do a synchronous draw (its less efficient than an async draw,
# but is required if/when animation is used)
self.window.process_updates (False)
def draw_idle(self):
def idle_draw(*args):
self.draw()
self._idle_draw_id = 0
return False
if self._idle_draw_id == 0:
self._idle_draw_id = gobject.idle_add(idle_draw)
def _renderer_init(self):
"""Override by GTK backends to select a different renderer
Renderer should provide the methods:
set_pixmap ()
set_width_height ()
that are used by
_render_figure() / _pixmap_prepare()
"""
self._renderer = RendererGDK (self, self.figure.dpi)
def _pixmap_prepare(self, width, height):
"""
Make sure _._pixmap is at least width, height,
create new pixmap if necessary
"""
if _debug: print 'FigureCanvasGTK.%s' % fn_name()
create_pixmap = False
if width > self._pixmap_width:
# increase the pixmap in 10%+ (rather than 1 pixel) steps
self._pixmap_width = max (int (self._pixmap_width * 1.1),
width)
create_pixmap = True
if height > self._pixmap_height:
self._pixmap_height = max (int (self._pixmap_height * 1.1),
height)
create_pixmap = True
if create_pixmap:
self._pixmap = gdk.Pixmap (self.window, self._pixmap_width,
self._pixmap_height)
self._renderer.set_pixmap (self._pixmap)
def _render_figure(self, pixmap, width, height):
"""used by GTK and GTKcairo. GTKAgg overrides
"""
self._renderer.set_width_height (width, height)
self.figure.draw (self._renderer)
def expose_event(self, widget, event):
"""Expose_event for all GTK backends. Should not be overridden.
"""
if _debug: print 'FigureCanvasGTK.%s' % fn_name()
if GTK_WIDGET_DRAWABLE(self):
if self._need_redraw:
x, y, w, h = self.allocation
self._pixmap_prepare (w, h)
self._render_figure(self._pixmap, w, h)
self._need_redraw = False
x, y, w, h = event.area
self.window.draw_drawable (self.style.fg_gc[self.state],
self._pixmap, x, y, x, y, w, h)
return False # finish event propagation?
filetypes = FigureCanvasBase.filetypes.copy()
filetypes['jpg'] = 'JPEG'
filetypes['jpeg'] = 'JPEG'
filetypes['png'] = 'Portable Network Graphics'
def print_jpeg(self, filename, *args, **kwargs):
return self._print_image(filename, 'jpeg')
print_jpg = print_jpeg
def print_png(self, filename, *args, **kwargs):
return self._print_image(filename, 'png')
def _print_image(self, filename, format):
if self.flags() & gtk.REALIZED == 0:
# for self.window(for pixmap) and has a side effect of altering
# figure width,height (via configure-event?)
gtk.DrawingArea.realize(self)
width, height = self.get_width_height()
pixmap = gdk.Pixmap (self.window, width, height)
self._renderer.set_pixmap (pixmap)
self._render_figure(pixmap, width, height)
# jpg colors don't match the display very well, png colors match
# better
pixbuf = gdk.Pixbuf(gdk.COLORSPACE_RGB, 0, 8, width, height)
pixbuf.get_from_drawable(pixmap, pixmap.get_colormap(),
0, 0, 0, 0, width, height)
if is_string_like(filename):
try:
pixbuf.save(filename, format)
except gobject.GError, exc:
error_msg_gtk('Save figure failure:\n%s' % (exc,), parent=self)
elif is_writable_file_like(filename):
if hasattr(pixbuf, 'save_to_callback'):
def save_callback(buf, data=None):
data.write(buf)
try:
pixbuf.save_to_callback(save_callback, format, user_data=filename)
except gobject.GError, exc:
error_msg_gtk('Save figure failure:\n%s' % (exc,), parent=self)
else:
raise ValueError("Saving to a Python file-like object is only supported by PyGTK >= 2.8")
else:
raise ValueError("filename must be a path or a file-like object")
def get_default_filetype(self):
return 'png'
def new_timer(self, *args, **kwargs):
"""
Creates a new backend-specific subclass of :class:`backend_bases.Timer`.
This is useful for getting periodic events through the backend's native
event loop. Implemented only for backends with GUIs.
optional arguments:
*interval*
Timer interval in milliseconds
*callbacks*
Sequence of (func, args, kwargs) where func(*args, **kwargs) will
be executed by the timer every *interval*.
"""
return TimerGTK(*args, **kwargs)
def flush_events(self):
gtk.gdk.threads_enter()
while gtk.events_pending():
gtk.main_iteration(True)
gtk.gdk.flush()
gtk.gdk.threads_leave()
def start_event_loop(self,timeout):
FigureCanvasBase.start_event_loop_default(self,timeout)
start_event_loop.__doc__=FigureCanvasBase.start_event_loop_default.__doc__
def stop_event_loop(self):
FigureCanvasBase.stop_event_loop_default(self)
stop_event_loop.__doc__=FigureCanvasBase.stop_event_loop_default.__doc__
class FigureManagerGTK(FigureManagerBase):
"""
Public attributes
canvas : The FigureCanvas instance
num : The Figure number
toolbar : The gtk.Toolbar (gtk only)
vbox : The gtk.VBox containing the canvas and toolbar (gtk only)
window : The gtk.Window (gtk only)
"""
def __init__(self, canvas, num):
if _debug: print 'FigureManagerGTK.%s' % fn_name()
FigureManagerBase.__init__(self, canvas, num)
self.window = gtk.Window()
self.window.set_title("Figure %d" % num)
if (window_icon):
try:
self.window.set_icon_from_file(window_icon)
except:
# some versions of gtk throw a glib.GError but not
# all, so I am not sure how to catch it. I am unhappy
# diong a blanket catch here, but an not sure what a
# better way is - JDH
verbose.report('Could not load matplotlib icon: %s' % sys.exc_info()[1])
self.vbox = gtk.VBox()
self.window.add(self.vbox)
self.vbox.show()
self.canvas.show()
# attach a show method to the figure for pylab ease of use
self.canvas.figure.show = lambda *args: self.window.show()
self.vbox.pack_start(self.canvas, True, True)
self.toolbar = self._get_toolbar(canvas)
# calculate size for window
w = int (self.canvas.figure.bbox.width)
h = int (self.canvas.figure.bbox.height)
if self.toolbar is not None:
self.toolbar.show()
self.vbox.pack_end(self.toolbar, False, False)
tb_w, tb_h = self.toolbar.size_request()
h += tb_h
self.window.set_default_size (w, h)
def destroy(*args):
Gcf.destroy(num)
self.window.connect("destroy", destroy)
self.window.connect("delete_event", destroy)
if matplotlib.is_interactive():
self.window.show()
def notify_axes_change(fig):
'this will be called whenever the current axes is changed'
if self.toolbar is not None: self.toolbar.update()
self.canvas.figure.add_axobserver(notify_axes_change)
self.canvas.grab_focus()
def destroy(self, *args):
if _debug: print 'FigureManagerGTK.%s' % fn_name()
self.vbox.destroy()
self.window.destroy()
self.canvas.destroy()
if self.toolbar:
self.toolbar.destroy()
self.__dict__.clear() #Is this needed? Other backends don't have it.
if Gcf.get_num_fig_managers()==0 and \
not matplotlib.is_interactive() and \
gtk.main_level() >= 1:
gtk.main_quit()
def show(self):
# show the figure window
self.window.show()
def full_screen_toggle (self):
self._full_screen_flag = not self._full_screen_flag
if self._full_screen_flag:
self.window.fullscreen()
else:
self.window.unfullscreen()
_full_screen_flag = False
def _get_toolbar(self, canvas):
# must be inited after the window, drawingArea and figure
# attrs are set
if matplotlib.rcParams['toolbar'] == 'classic':
toolbar = NavigationToolbar (canvas, self.window)
elif matplotlib.rcParams['toolbar'] == 'toolbar2':
toolbar = NavigationToolbar2GTK (canvas, self.window)
else:
toolbar = None
return toolbar
def set_window_title(self, title):
self.window.set_title(title)
def resize(self, width, height):
'set the canvas size in pixels'
#_, _, cw, ch = self.canvas.allocation
#_, _, ww, wh = self.window.allocation
#self.window.resize (width-cw+ww, height-ch+wh)
self.window.resize(width, height)
class NavigationToolbar2GTK(NavigationToolbar2, gtk.Toolbar):
# list of toolitems to add to the toolbar, format is:
# text, tooltip_text, image_file, callback(str)
toolitems = (
('Home', 'Reset original view', 'home.png', 'home'),
('Back', 'Back to previous view','back.png', 'back'),
('Forward', 'Forward to next view','forward.png', 'forward'),
('Pan', 'Pan axes with left mouse, zoom with right', 'move.png','pan'),
('Zoom', 'Zoom to rectangle','zoom_to_rect.png', 'zoom'),
(None, None, None, None),
('Subplots', 'Configure subplots','subplots.png', 'configure_subplots'),
('Save', 'Save the figure','filesave.png', 'save_figure'),
)
def __init__(self, canvas, window):
self.win = window
gtk.Toolbar.__init__(self)
NavigationToolbar2.__init__(self, canvas)
def set_message(self, s):
self.message.set_label(s)
def set_cursor(self, cursor):
self.canvas.window.set_cursor(cursord[cursor])
def release(self, event):
try: del self._pixmapBack
except AttributeError: pass
def dynamic_update(self):
# legacy method; new method is canvas.draw_idle
self.canvas.draw_idle()
def draw_rubberband(self, event, x0, y0, x1, y1):
'adapted from http://aspn.activestate.com/ASPN/Cookbook/Python/Recipe/189744'
drawable = self.canvas.window
if drawable is None:
return
gc = drawable.new_gc()
height = self.canvas.figure.bbox.height
y1 = height - y1
y0 = height - y0
w = abs(x1 - x0)
h = abs(y1 - y0)
rect = [int(val)for val in min(x0,x1), min(y0, y1), w, h]
try:
lastrect, pixmapBack = self._pixmapBack
except AttributeError:
#snap image back
if event.inaxes is None:
return
ax = event.inaxes
l,b,w,h = [int(val) for val in ax.bbox.bounds]
b = int(height)-(b+h)
axrect = l,b,w,h
self._pixmapBack = axrect, gtk.gdk.Pixmap(drawable, w, h)
self._pixmapBack[1].draw_drawable(gc, drawable, l, b, 0, 0, w, h)
else:
drawable.draw_drawable(gc, pixmapBack, 0, 0, *lastrect)
drawable.draw_rectangle(gc, False, *rect)
def _init_toolbar(self):
self.set_style(gtk.TOOLBAR_ICONS)
self._init_toolbar2_4()
def _init_toolbar2_4(self):
basedir = os.path.join(matplotlib.rcParams['datapath'],'images')
if not _new_tooltip_api:
self.tooltips = gtk.Tooltips()
for text, tooltip_text, image_file, callback in self.toolitems:
if text is None:
self.insert( gtk.SeparatorToolItem(), -1 )
continue
fname = os.path.join(basedir, image_file)
image = gtk.Image()
image.set_from_file(fname)
tbutton = gtk.ToolButton(image, text)
self.insert(tbutton, -1)
tbutton.connect('clicked', getattr(self, callback))
if _new_tooltip_api:
tbutton.set_tooltip_text(tooltip_text)
else:
tbutton.set_tooltip(self.tooltips, tooltip_text, 'Private')
toolitem = gtk.SeparatorToolItem()
self.insert(toolitem, -1)
# set_draw() not making separator invisible,
# bug #143692 fixed Jun 06 2004, will be in GTK+ 2.6
toolitem.set_draw(False)
toolitem.set_expand(True)
toolitem = gtk.ToolItem()
self.insert(toolitem, -1)
self.message = gtk.Label()
toolitem.add(self.message)
self.show_all()
def get_filechooser(self):
return FileChooserDialog(
title='Save the figure',
parent=self.win,
filetypes=self.canvas.get_supported_filetypes(),
default_filetype=self.canvas.get_default_filetype())
def save_figure(self, *args):
fname, format = self.get_filechooser().get_filename_from_user()
if fname:
try:
self.canvas.print_figure(fname, format=format)
except Exception, e:
error_msg_gtk(str(e), parent=self)
def configure_subplots(self, button):
toolfig = Figure(figsize=(6,3))
canvas = self._get_canvas(toolfig)
toolfig.subplots_adjust(top=0.9)
tool = SubplotTool(self.canvas.figure, toolfig)
w = int (toolfig.bbox.width)
h = int (toolfig.bbox.height)
window = gtk.Window()
if (window_icon):
try: window.set_icon_from_file(window_icon)
except:
# we presumably already logged a message on the
# failure of the main plot, don't keep reporting
pass
window.set_title("Subplot Configuration Tool")
window.set_default_size(w, h)
vbox = gtk.VBox()
window.add(vbox)
vbox.show()
canvas.show()
vbox.pack_start(canvas, True, True)
window.show()
def _get_canvas(self, fig):
return FigureCanvasGTK(fig)
class NavigationToolbar(gtk.Toolbar):
"""
Public attributes
canvas - the FigureCanvas (gtk.DrawingArea)
win - the gtk.Window
"""
# list of toolitems to add to the toolbar, format is:
# text, tooltip_text, image, callback(str), callback_arg, scroll(bool)
toolitems = (
('Left', 'Pan left with click or wheel mouse (bidirectional)',
gtk.STOCK_GO_BACK, 'panx', -1, True),
('Right', 'Pan right with click or wheel mouse (bidirectional)',
gtk.STOCK_GO_FORWARD, 'panx', 1, True),
('Zoom In X',
'Zoom In X (shrink the x axis limits) with click or wheel'
' mouse (bidirectional)',
gtk.STOCK_ZOOM_IN, 'zoomx', 1, True),
('Zoom Out X',
'Zoom Out X (expand the x axis limits) with click or wheel'
' mouse (bidirectional)',
gtk.STOCK_ZOOM_OUT, 'zoomx', -1, True),
(None, None, None, None, None, None,),
('Up', 'Pan up with click or wheel mouse (bidirectional)',
gtk.STOCK_GO_UP, 'pany', 1, True),
('Down', 'Pan down with click or wheel mouse (bidirectional)',
gtk.STOCK_GO_DOWN, 'pany', -1, True),
('Zoom In Y',
'Zoom in Y (shrink the y axis limits) with click or wheel'
' mouse (bidirectional)',
gtk.STOCK_ZOOM_IN, 'zoomy', 1, True),
('Zoom Out Y',
'Zoom Out Y (expand the y axis limits) with click or wheel'
' mouse (bidirectional)',
gtk.STOCK_ZOOM_OUT, 'zoomy', -1, True),
(None, None, None, None, None, None,),
('Save', 'Save the figure',
gtk.STOCK_SAVE, 'save_figure', None, False),
)
def __init__(self, canvas, window):
"""
figManager is the FigureManagerGTK instance that contains the
toolbar, with attributes figure, window and drawingArea
"""
gtk.Toolbar.__init__(self)
self.canvas = canvas
# Note: gtk.Toolbar already has a 'window' attribute
self.win = window
self.set_style(gtk.TOOLBAR_ICONS)
self._create_toolitems_2_4()
self.update = self._update_2_4
self.fileselect = FileChooserDialog(
title='Save the figure',
parent=self.win,
filetypes=self.canvas.get_supported_filetypes(),
default_filetype=self.canvas.get_default_filetype())
self.show_all()
self.update()
def _create_toolitems_2_4(self):
# use the GTK+ 2.4 GtkToolbar API
iconSize = gtk.ICON_SIZE_SMALL_TOOLBAR
if not _new_tooltip_api:
self.tooltips = gtk.Tooltips()
for text, tooltip_text, image_num, callback, callback_arg, scroll \
in self.toolitems:
if text is None:
self.insert( gtk.SeparatorToolItem(), -1 )
continue
image = gtk.Image()
image.set_from_stock(image_num, iconSize)
tbutton = gtk.ToolButton(image, text)
self.insert(tbutton, -1)
if callback_arg:
tbutton.connect('clicked', getattr(self, callback),
callback_arg)
else:
tbutton.connect('clicked', getattr(self, callback))
if scroll:
tbutton.connect('scroll_event', getattr(self, callback))
if _new_tooltip_api:
tbutton.set_tooltip_text(tooltip_text)
else:
tbutton.set_tooltip(self.tooltips, tooltip_text, 'Private')
# Axes toolitem, is empty at start, update() adds a menu if >=2 axes
self.axes_toolitem = gtk.ToolItem()
self.insert(self.axes_toolitem, 0)
if _new_tooltip_api:
self.axes_toolitem.set_tooltip_text(
'Select axes that controls affect')
else:
self.axes_toolitem.set_tooltip (
self.tooltips,
tip_text='Select axes that controls affect',
tip_private = 'Private')
align = gtk.Alignment (xalign=0.5, yalign=0.5, xscale=0.0, yscale=0.0)
self.axes_toolitem.add(align)
self.menubutton = gtk.Button ("Axes")
align.add (self.menubutton)
def position_menu (menu):
"""Function for positioning a popup menu.
Place menu below the menu button, but ensure it does not go off
the bottom of the screen.
The default is to popup menu at current mouse position
"""
x0, y0 = self.window.get_origin()
x1, y1, m = self.window.get_pointer()
x2, y2 = self.menubutton.get_pointer()
sc_h = self.get_screen().get_height() # requires GTK+ 2.2 +
w, h = menu.size_request()
x = x0 + x1 - x2
y = y0 + y1 - y2 + self.menubutton.allocation.height
y = min(y, sc_h - h)
return x, y, True
def button_clicked (button, data=None):
self.axismenu.popup (None, None, position_menu, 0,
gtk.get_current_event_time())
self.menubutton.connect ("clicked", button_clicked)
def _update_2_4(self):
# for GTK+ 2.4+
# called by __init__() and FigureManagerGTK
self._axes = self.canvas.figure.axes
if len(self._axes) >= 2:
self.axismenu = self._make_axis_menu()
self.menubutton.show_all()
else:
self.menubutton.hide()
self.set_active(range(len(self._axes)))
def _make_axis_menu(self):
# called by self._update*()
def toggled(item, data=None):
if item == self.itemAll:
for item in items: item.set_active(True)
elif item == self.itemInvert:
for item in items:
item.set_active(not item.get_active())
ind = [i for i,item in enumerate(items) if item.get_active()]
self.set_active(ind)
menu = gtk.Menu()
self.itemAll = gtk.MenuItem("All")
menu.append(self.itemAll)
self.itemAll.connect("activate", toggled)
self.itemInvert = gtk.MenuItem("Invert")
menu.append(self.itemInvert)
self.itemInvert.connect("activate", toggled)
items = []
for i in range(len(self._axes)):
item = gtk.CheckMenuItem("Axis %d" % (i+1))
menu.append(item)
item.connect("toggled", toggled)
item.set_active(True)
items.append(item)
menu.show_all()
return menu
def set_active(self, ind):
self._ind = ind
self._active = [ self._axes[i] for i in self._ind ]
def panx(self, button, direction):
'panx in direction'
for a in self._active:
a.xaxis.pan(direction)
self.canvas.draw()
return True
def pany(self, button, direction):
'pany in direction'
for a in self._active:
a.yaxis.pan(direction)
self.canvas.draw()
return True
def zoomx(self, button, direction):
'zoomx in direction'
for a in self._active:
a.xaxis.zoom(direction)
self.canvas.draw()
return True
def zoomy(self, button, direction):
'zoomy in direction'
for a in self._active:
a.yaxis.zoom(direction)
self.canvas.draw()
return True
def get_filechooser(self):
return FileChooserDialog(
title='Save the figure',
parent=self.win,
filetypes=self.canvas.get_supported_filetypes(),
default_filetype=self.canvas.get_default_filetype())
def save_figure(self, *args):
fname, format = self.get_filechooser().get_filename_from_user()
if fname:
try:
self.canvas.print_figure(fname, format=format)
except Exception, e:
error_msg_gtk(str(e), parent=self)
class FileChooserDialog(gtk.FileChooserDialog):
"""GTK+ 2.4 file selector which remembers the last file/directory
selected and presents the user with a menu of supported image formats
"""
def __init__ (self,
title = 'Save file',
parent = None,
action = gtk.FILE_CHOOSER_ACTION_SAVE,
buttons = (gtk.STOCK_CANCEL, gtk.RESPONSE_CANCEL,
gtk.STOCK_SAVE, gtk.RESPONSE_OK),
path = None,
filetypes = [],
default_filetype = None
):
super (FileChooserDialog, self).__init__ (title, parent, action,
buttons)
self.set_default_response (gtk.RESPONSE_OK)
if not path: path = os.getcwd() + os.sep
# create an extra widget to list supported image formats
self.set_current_folder (path)
self.set_current_name ('image.' + default_filetype)
hbox = gtk.HBox (spacing=10)
hbox.pack_start (gtk.Label ("File Format:"), expand=False)
liststore = gtk.ListStore(gobject.TYPE_STRING)
cbox = gtk.ComboBox(liststore)
cell = gtk.CellRendererText()
cbox.pack_start(cell, True)
cbox.add_attribute(cell, 'text', 0)
hbox.pack_start (cbox)
self.filetypes = filetypes
self.sorted_filetypes = filetypes.items()
self.sorted_filetypes.sort()
default = 0
for i, (ext, name) in enumerate(self.sorted_filetypes):
cbox.append_text ("%s (*.%s)" % (name, ext))
if ext == default_filetype:
default = i
cbox.set_active(default)
self.ext = default_filetype
def cb_cbox_changed (cbox, data=None):
"""File extension changed"""
head, filename = os.path.split(self.get_filename())
root, ext = os.path.splitext(filename)
ext = ext[1:]
new_ext = self.sorted_filetypes[cbox.get_active()][0]
self.ext = new_ext
if ext in self.filetypes:
filename = root + '.' + new_ext
elif ext == '':
filename = filename.rstrip('.') + '.' + new_ext
self.set_current_name (filename)
cbox.connect ("changed", cb_cbox_changed)
hbox.show_all()
self.set_extra_widget(hbox)
def get_filename_from_user (self):
while True:
filename = None
if self.run() != int(gtk.RESPONSE_OK):
break
filename = self.get_filename()
break
self.hide()
return filename, self.ext
class DialogLineprops:
"""
A GUI dialog for controlling lineprops
"""
signals = (
'on_combobox_lineprops_changed',
'on_combobox_linestyle_changed',
'on_combobox_marker_changed',
'on_colorbutton_linestyle_color_set',
'on_colorbutton_markerface_color_set',
'on_dialog_lineprops_okbutton_clicked',
'on_dialog_lineprops_cancelbutton_clicked',
)
linestyles = [ls for ls in lines.Line2D.lineStyles if ls.strip()]
linestyled = dict([ (s,i) for i,s in enumerate(linestyles)])
markers = [m for m in lines.Line2D.markers if cbook.is_string_like(m)]
markerd = dict([(s,i) for i,s in enumerate(markers)])
def __init__(self, lines):
import gtk.glade
datadir = matplotlib.get_data_path()
gladefile = os.path.join(datadir, 'lineprops.glade')
if not os.path.exists(gladefile):
raise IOError('Could not find gladefile lineprops.glade in %s'%datadir)
self._inited = False
self._updateson = True # suppress updates when setting widgets manually
self.wtree = gtk.glade.XML(gladefile, 'dialog_lineprops')
self.wtree.signal_autoconnect(dict([(s, getattr(self, s)) for s in self.signals]))
self.dlg = self.wtree.get_widget('dialog_lineprops')
self.lines = lines
cbox = self.wtree.get_widget('combobox_lineprops')
cbox.set_active(0)
self.cbox_lineprops = cbox
cbox = self.wtree.get_widget('combobox_linestyles')
for ls in self.linestyles:
cbox.append_text(ls)
cbox.set_active(0)
self.cbox_linestyles = cbox
cbox = self.wtree.get_widget('combobox_markers')
for m in self.markers:
cbox.append_text(m)
cbox.set_active(0)
self.cbox_markers = cbox
self._lastcnt = 0
self._inited = True
def show(self):
'populate the combo box'
self._updateson = False
# flush the old
cbox = self.cbox_lineprops
for i in range(self._lastcnt-1,-1,-1):
cbox.remove_text(i)
# add the new
for line in self.lines:
cbox.append_text(line.get_label())
cbox.set_active(0)
self._updateson = True
self._lastcnt = len(self.lines)
self.dlg.show()
def get_active_line(self):
'get the active line'
ind = self.cbox_lineprops.get_active()
line = self.lines[ind]
return line
def get_active_linestyle(self):
'get the active lineinestyle'
ind = self.cbox_linestyles.get_active()
ls = self.linestyles[ind]
return ls
def get_active_marker(self):
'get the active lineinestyle'
ind = self.cbox_markers.get_active()
m = self.markers[ind]
return m
def _update(self):
'update the active line props from the widgets'
if not self._inited or not self._updateson: return
line = self.get_active_line()
ls = self.get_active_linestyle()
marker = self.get_active_marker()
line.set_linestyle(ls)
line.set_marker(marker)
button = self.wtree.get_widget('colorbutton_linestyle')
color = button.get_color()
r, g, b = [val/65535. for val in color.red, color.green, color.blue]
line.set_color((r,g,b))
button = self.wtree.get_widget('colorbutton_markerface')
color = button.get_color()
r, g, b = [val/65535. for val in color.red, color.green, color.blue]
line.set_markerfacecolor((r,g,b))
line.figure.canvas.draw()
def on_combobox_lineprops_changed(self, item):
'update the widgets from the active line'
if not self._inited: return
self._updateson = False
line = self.get_active_line()
ls = line.get_linestyle()
if ls is None: ls = 'None'
self.cbox_linestyles.set_active(self.linestyled[ls])
marker = line.get_marker()
if marker is None: marker = 'None'
self.cbox_markers.set_active(self.markerd[marker])
r,g,b = colorConverter.to_rgb(line.get_color())
color = gtk.gdk.Color(*[int(val*65535) for val in r,g,b])
button = self.wtree.get_widget('colorbutton_linestyle')
button.set_color(color)
r,g,b = colorConverter.to_rgb(line.get_markerfacecolor())
color = gtk.gdk.Color(*[int(val*65535) for val in r,g,b])
button = self.wtree.get_widget('colorbutton_markerface')
button.set_color(color)
self._updateson = True
def on_combobox_linestyle_changed(self, item):
self._update()
def on_combobox_marker_changed(self, item):
self._update()
def on_colorbutton_linestyle_color_set(self, button):
self._update()
def on_colorbutton_markerface_color_set(self, button):
'called colorbutton marker clicked'
self._update()
def on_dialog_lineprops_okbutton_clicked(self, button):
self._update()
self.dlg.hide()
def on_dialog_lineprops_cancelbutton_clicked(self, button):
self.dlg.hide()
# set icon used when windows are minimized
# Unfortunately, the SVG renderer (rsvg) leaks memory under earlier
# versions of pygtk, so we have to use a PNG file instead.
try:
if gtk.pygtk_version < (2, 8, 0) or sys.platform == 'win32':
icon_filename = 'matplotlib.png'
else:
icon_filename = 'matplotlib.svg'
window_icon = os.path.join(matplotlib.rcParams['datapath'], 'images', icon_filename)
except:
window_icon = None
verbose.report('Could not load matplotlib icon: %s' % sys.exc_info()[1])
def error_msg_gtk(msg, parent=None):
if parent is not None: # find the toplevel gtk.Window
parent = parent.get_toplevel()
if parent.flags() & gtk.TOPLEVEL == 0:
parent = None
if not is_string_like(msg):
msg = ','.join(map(str,msg))
dialog = gtk.MessageDialog(
parent = parent,
type = gtk.MESSAGE_ERROR,
buttons = gtk.BUTTONS_OK,
message_format = msg)
dialog.run()
dialog.destroy()
FigureManager = FigureManagerGTK