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backend_wx.py

from __future__ import division
"""

 backend_wx.py

 A wxPython backend for matplotlib, based (very heavily) on
 backend_template.py and backend_gtk.py

 Author: Jeremy O'Donoghue (jeremy@o-donoghue.com)

 Derived from original copyright work by John Hunter
 (jdhunter@ace.bsd.uchicago.edu)

 Copyright (C) Jeremy O'Donoghue & John Hunter, 2003-4

 License: This work is licensed under a PSF compatible license. A copy
 should be included with this source code.

"""
"""
KNOWN BUGS -
 - Mousewheel (on Windows) only works after menu button has been pressed
   at least once
 - Mousewheel on Linux (wxGTK linked against GTK 1.2) does not work at all
 - Vertical text renders horizontally if you use a non TrueType font
   on Windows. This is a known wxPython issue. Work-around is to ensure
   that you use a TrueType font.
 - Pcolor demo puts chart slightly outside bounding box (approx 1-2 pixels
   to the bottom left)
 - Outputting to bitmap more than 300dpi results in some text being incorrectly
   scaled. Seems to be a wxPython bug on Windows or font point sizes > 60, as
   font size is correctly calculated.
 - Performance poorer than for previous direct rendering version
 - TIFF output not supported on wxGTK. This is a wxGTK issue
 - Text is not anti-aliased on wxGTK. This is probably a platform
   configuration issue.
 - If a second call is made to show(), no figure is generated (#866965)

Not implemented:
 - Printing

Fixed this release:
 - Bug #866967: Interactive operation issues fixed [JDH]
 - Bug #866969: Dynamic update does not function with backend_wx [JOD]

Examples which work on this release:
 ---------------------------------------------------------------
                         | Windows 2000    |  Linux            |
                         | wxPython 2.3.3  |  wxPython 2.4.2.4 |
 --------------------------------------------------------------|
 - alignment_test.py     |     TBE         |     OK            |
 - arctest.py            |     TBE         |     (3)           |
 - axes_demo.py          |     OK          |     OK            |
 - axes_props.py         |     OK          |     OK            |
 - bar_stacked.py        |     TBE         |     OK            |
 - barchart_demo.py      |     OK          |     OK            |
 - color_demo.py         |     OK          |     OK            |
 - csd_demo.py           |     OK          |     OK            |
 - dynamic_demo.py       |     N/A         |     N/A           |
 - dynamic_demo_wx.py    |     TBE         |     OK            |
 - embedding_in_gtk.py   |     N/A         |     N/A           |
 - embedding_in_wx.py    |     OK          |     OK            |
 - errorbar_demo.py      |     OK          |     OK            |
 - figtext.py            |     OK          |     OK            |
 - histogram_demo.py     |     OK          |     OK            |
 - interactive.py        |     N/A (2)     |     N/A (2)       |
 - interactive2.py       |     N/A (2)     |     N/A (2)       |
 - legend_demo.py        |     OK          |     OK            |
 - legend_demo2.py       |     OK          |     OK            |
 - line_styles.py        |     OK          |     OK            |
 - log_demo.py           |     OK          |     OK            |
 - logo.py               |     OK          |     OK            |
 - mpl_with_glade.py     |     N/A (2)     |     N/A (2)       |
 - mri_demo.py           |     OK          |     OK            |
 - mri_demo_with_eeg.py  |     OK          |     OK            |
 - multiple_figs_demo.py |     OK          |     OK            |
 - pcolor_demo.py        |     OK          |     OK            |
 - psd_demo.py           |     OK          |     OK            |
 - scatter_demo.py       |     OK          |     OK            |
 - scatter_demo2.py      |     OK          |     OK            |
 - simple_plot.py        |     OK          |     OK            |
 - stock_demo.py         |     OK          |     OK            |
 - subplot_demo.py       |     OK          |     OK            |
 - system_monitor.py     |     N/A (2)     |     N/A (2)       |
 - text_handles.py       |     OK          |     OK            |
 - text_themes.py        |     OK          |     OK            |
 - vline_demo.py         |     OK          |     OK            |
 ---------------------------------------------------------------

 (2) - Script uses GTK-specific features - cannot not run,
       but wxPython equivalent should be written.
 (3) - Clipping seems to be broken.
"""

cvs_id = '$Id: backend_wx.py 5935 2008-07-31 14:10:18Z mdboom $'


import sys, os, os.path, math, StringIO, weakref, warnings

# Debugging settings here...
# Debug level set here. If the debug level is less than 5, information
# messages (progressively more info for lower value) are printed. In addition,
# traceback is performed, and pdb activated, for all uncaught exceptions in
# this case
_DEBUG = 5
if _DEBUG < 5:
    import traceback, pdb
_DEBUG_lvls = {1 : 'Low ', 2 : 'Med ', 3 : 'High', 4 : 'Error' }


try:
    import wx
    backend_version = wx.VERSION_STRING
except:
    print >>sys.stderr, "Matplotlib backend_wx requires wxPython be installed"
    sys.exit()

#!!! this is the call that is causing the exception swallowing !!!
#wx.InitAllImageHandlers()

def DEBUG_MSG(string, lvl=3, o=None):
    if lvl >= _DEBUG:
        cls = o.__class__
        # Jeremy, often times the commented line won't print but the
        # one below does.  I think WX is redefining stderr, damned
        # beast
        #print >>sys.stderr, "%s- %s in %s" % (_DEBUG_lvls[lvl], string, cls)
        print "%s- %s in %s" % (_DEBUG_lvls[lvl], string, cls)

def debug_on_error(type, value, tb):
    """Code due to Thomas Heller - published in Python Cookbook (O'Reilley)"""
    traceback.print_exc(type, value, tb)
    print
    pdb.pm()  # jdh uncomment

00136 class fake_stderr:
    """Wx does strange things with stderr, as it makes the assumption that there
    is probably no console. This redirects stderr to the console, since we know
    that there is one!"""
    def write(self, msg):
        print "Stderr: %s\n\r" % msg

#if _DEBUG < 5:
#    sys.excepthook = debug_on_error
#    WxLogger =wx.LogStderr()
#    sys.stderr = fake_stderr

# Event binding code changed after version 2.5
if wx.VERSION_STRING >= '2.5':
    def bind(actor,event,action,**kw):
        actor.Bind(event,action,**kw)
else:
    def bind(actor,event,action,id=None):
        if id is not None:
            event(actor, id, action)
        else:
            event(actor,action)

import matplotlib
from matplotlib import verbose
from matplotlib.backend_bases import RendererBase, GraphicsContextBase,\
     FigureCanvasBase, FigureManagerBase, NavigationToolbar2, \
     cursors
from matplotlib._pylab_helpers import Gcf
from matplotlib.artist import Artist
from matplotlib.cbook import exception_to_str, is_string_like, is_writable_file_like
from matplotlib.figure import Figure
from matplotlib.path import Path
from matplotlib.text import _process_text_args, Text
from matplotlib.transforms import Affine2D
from matplotlib.widgets import SubplotTool
from matplotlib import rcParams

# 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 = 75

def error_msg_wx(msg, parent=None):
    """
    Signal an error condition -- in a GUI, popup a error dialog
    """
    dialog =wx.MessageDialog(parent  = parent,
                             message = msg,
                             caption = 'Matplotlib backend_wx error',
                             style=wx.OK | wx.CENTRE)
    dialog.ShowModal()
    dialog.Destroy()
    return None

def raise_msg_to_str(msg):
    """msg is a return arg from a raise.  Join with new lines"""
    if not is_string_like(msg):
        msg = '\n'.join(map(str, msg))
    return msg

00196 class RendererWx(RendererBase):
    """
    The renderer handles all the drawing primitives using a graphics
    context instance that controls the colors/styles. It acts as the
    'renderer' instance used by many classes in the hierarchy.
    """
    #In wxPython, drawing is performed on a wxDC instance, which will
    #generally be mapped to the client aread of the window displaying
    #the plot. Under wxPython, the wxDC instance has a wx.Pen which
    #describes the colour and weight of any lines drawn, and a wxBrush
    #which describes the fill colour of any closed polygon.


    fontweights = {
        100          : wx.LIGHT,
        200          : wx.LIGHT,
        300          : wx.LIGHT,
        400          : wx.NORMAL,
        500          : wx.NORMAL,
        600          : wx.NORMAL,
        700          : wx.BOLD,
        800          : wx.BOLD,
        900          : wx.BOLD,
        'ultralight' : wx.LIGHT,
        'light'      : wx.LIGHT,
        'normal'     : wx.NORMAL,
        'medium'     : wx.NORMAL,
        'semibold'   : wx.NORMAL,
        'bold'       : wx.BOLD,
        'heavy'      : wx.BOLD,
        'ultrabold'  : wx.BOLD,
        'black'      : wx.BOLD
        }
    fontangles = {
        'italic'  : wx.ITALIC,
        'normal'  : wx.NORMAL,
        'oblique' : wx.SLANT }

    # wxPython allows for portable font styles, choosing them appropriately
    # for the target platform. Map some standard font names to the portable
    # styles
    # QUESTION: Is it be wise to agree standard fontnames across all backends?
    fontnames = { 'Sans'       : wx.SWISS,
                  'Roman'      : wx.ROMAN,
                  'Script'     : wx.SCRIPT,
                  'Decorative' : wx.DECORATIVE,
                  'Modern'     : wx.MODERN,
                  'Courier'    : wx.MODERN,
                  'courier'    : wx.MODERN }


00247     def __init__(self, bitmap, dpi):
        """
        Initialise a wxWindows renderer instance.
        """
        DEBUG_MSG("__init__()", 1, self)
        if wx.VERSION_STRING < "2.8":
            raise RuntimeError("matplotlib no longer supports wxPython < 2.8 for the Wx backend.\nYou may, however, use the WxAgg backend.")
        self.width  = bitmap.GetWidth()
        self.height = bitmap.GetHeight()
        self.bitmap = bitmap
        self.fontd = {}
        self.dpi = dpi
        self.gc = None

00261     def flipy(self):
        return True

    def offset_text_height(self):
        return True

00267     def get_text_width_height_descent(self, s, prop, ismath):
        """
        get the width and height in display coords of the string s
        with FontPropertry prop
        """
        #return 1, 1
        if ismath: s = self.strip_math(s)

        if self.gc is None:
            gc = self.new_gc()
        else:
            gc = self.gc
        gfx_ctx = gc.gfx_ctx
        font = self.get_wx_font(s, prop)
        gfx_ctx.SetFont(font, wx.BLACK)
        w, h, descent, leading = gfx_ctx.GetFullTextExtent(s)

        return w, h, descent

    def get_canvas_width_height(self):
        'return the canvas width and height in display coords'
        return self.width, self.height

    def handle_clip_rectangle(self, gc):
        new_bounds = gc.get_clip_rectangle()
        if new_bounds is not None:
            new_bounds = new_bounds.bounds
        gfx_ctx = gc.gfx_ctx
        if gfx_ctx._lastcliprect != new_bounds:
            gfx_ctx._lastcliprect = new_bounds
            if new_bounds is None:
                gfx_ctx.ResetClip()
            else:
                gfx_ctx.Clip(new_bounds[0], self.height - new_bounds[1] - new_bounds[3],
                             new_bounds[2], new_bounds[3])

    #@staticmethod
    def convert_path(gfx_ctx, tpath):
        wxpath = gfx_ctx.CreatePath()
        for points, code in tpath.iter_segments():
            if code == Path.MOVETO:
                wxpath.MoveToPoint(*points)
            elif code == Path.LINETO:
                wxpath.AddLineToPoint(*points)
            elif code == Path.CURVE3:
                wxpath.AddQuadCurveToPoint(*points)
            elif code == Path.CURVE4:
                wxpath.AddCurveToPoint(*points)
            elif code == Path.CLOSEPOLY:
                wxpath.CloseSubpath()
        return wxpath
    convert_path = staticmethod(convert_path)

00320     def draw_path(self, gc, path, transform, rgbFace=None):
        gc.select()
        self.handle_clip_rectangle(gc)
        gfx_ctx = gc.gfx_ctx
        transform = transform + Affine2D().scale(1.0, -1.0).translate(0.0, self.height)
        tpath = transform.transform_path(path)
        wxpath = self.convert_path(gfx_ctx, tpath)
        if rgbFace is not None:
            gfx_ctx.SetBrush(wx.Brush(gc.get_wxcolour(rgbFace)))
            gfx_ctx.DrawPath(wxpath)
        else:
            gfx_ctx.StrokePath(wxpath)
        gc.unselect()

00334     def draw_text(self, gc, x, y, s, prop, angle, ismath):
        """
        Render the matplotlib.text.Text instance
        None)
        """
        if ismath: s = self.strip_math(s)
        DEBUG_MSG("draw_text()", 1, self)
        gc.select()
        self.handle_clip_rectangle(gc)
        gfx_ctx = gc.gfx_ctx

        font = self.get_wx_font(s, prop)
        color = gc.get_wxcolour(gc.get_rgb())
        gfx_ctx.SetFont(font, color)

        w, h, d = self.get_text_width_height_descent(s, prop, ismath)
        x = int(x)
        y = int(y-h)

        if angle == 0.0:
            gfx_ctx.DrawText(s, x, y)
        else:
            rads = angle / 180.0 * math.pi
            xo = h * math.sin(rads)
            yo = h * math.cos(rads)
            gfx_ctx.DrawRotatedText(s, x - xo, y - yo, rads)

        gc.unselect()

00363     def new_gc(self):
        """
        Return an instance of a GraphicsContextWx, and sets the current gc copy
        """
        DEBUG_MSG('new_gc()', 2, self)
        self.gc = GraphicsContextWx(self.bitmap, self)
        self.gc.select()
        self.gc.unselect()
        return self.gc

00373     def get_gc(self):
        """
        Fetch the locally cached gc.
        """
        # This is a dirty hack to allow anything with access to a renderer to
        # access the current graphics context
        assert self.gc != None, "gc must be defined"
        return self.gc


00383     def get_wx_font(self, s, prop):
        """
        Return a wx font.  Cache instances in a font dictionary for
        efficiency
        """
        DEBUG_MSG("get_wx_font()", 1, self)


        key = hash(prop)
        fontprop = prop
        fontname = fontprop.get_name()

        font = self.fontd.get(key)
        if font is not None:
            return font

        # Allow use of platform independent and dependent font names
        wxFontname = self.fontnames.get(fontname, wx.ROMAN)
        wxFacename = '' # Empty => wxPython chooses based on wx_fontname

        # Font colour is determined by the active wx.Pen
        # TODO: It may be wise to cache font information
        size = self.points_to_pixels(fontprop.get_size_in_points())


        font =wx.Font(int(size+0.5),             # Size
                      wxFontname,                # 'Generic' name
                      self.fontangles[fontprop.get_style()],   # Angle
                      self.fontweights[fontprop.get_weight()], # Weight
                      False,                     # Underline
                      wxFacename)                # Platform font name

        # cache the font and gc and return it
        self.fontd[key] = font

        return font


00421     def points_to_pixels(self, points):
        """
        convert point measures to pixes using dpi and the pixels per
        inch of the display
        """
        return points*(PIXELS_PER_INCH/72.0*self.dpi/72.0)

00428 class GraphicsContextWx(GraphicsContextBase):
    """
    The graphics context provides the color, line styles, etc...

    This class stores a reference to a wxMemoryDC, and a
    wxGraphicsContext that draws to it.  Creating a wxGraphicsContext
    seems to be fairly heavy, so these objects are cached based on the
    bitmap object that is passed in.

    The base GraphicsContext stores colors as a RGB tuple on the unit
    interval, eg, (0.5, 0.0, 1.0).  wxPython uses an int interval, but
    since wxPython colour management is rather simple, I have not chosen
    to implement a separate colour manager class.
    """
    _capd = { 'butt':       wx.CAP_BUTT,
              'projecting': wx.CAP_PROJECTING,
              'round':      wx.CAP_ROUND }

    _joind = { 'bevel':     wx.JOIN_BEVEL,
               'miter':     wx.JOIN_MITER,
               'round':     wx.JOIN_ROUND }

    _dashd_wx = { 'solid':     wx.SOLID,
                  'dashed':    wx.SHORT_DASH,
                  'dashdot':   wx.DOT_DASH,
                  'dotted':    wx.DOT }
    _cache = weakref.WeakKeyDictionary()

    def __init__(self, bitmap, renderer):
        GraphicsContextBase.__init__(self)
        #assert self.Ok(), "wxMemoryDC not OK to use"
        DEBUG_MSG("__init__()", 1, self)

        dc, gfx_ctx = self._cache.get(bitmap, (None, None))
        if dc is None:
            dc = wx.MemoryDC()
            dc.SelectObject(bitmap)
            gfx_ctx = wx.GraphicsContext.Create(dc)
            gfx_ctx._lastcliprect = None
            self._cache[bitmap] = dc, gfx_ctx

        self.bitmap = bitmap
        self.dc = dc
        self.gfx_ctx = gfx_ctx
        self._pen = wx.Pen('BLACK', 1, wx.SOLID)
        gfx_ctx.SetPen(self._pen)
        self._style = wx.SOLID
        self.renderer = renderer

00477     def select(self):
        """
        Select the current bitmap into this wxDC instance
        """

        if sys.platform=='win32':
            self.SelectObject(self.bitmap)
            self.IsSelected = True

00486     def unselect(self):
        """
        Select a Null bitmasp into this wxDC instance
        """
        if sys.platform=='win32':
            self.SelectObject(wx.NullBitmap)
            self.IsSelected = False

00494     def set_foreground(self, fg, isRGB=None):
        """
        Set the foreground color.  fg can be a matlab format string, a
        html hex color string, an rgb unit tuple, or a float between 0
        and 1.  In the latter case, grayscale is used.
        """
        # Implementation note: wxPython has a separate concept of pen and
        # brush - the brush fills any outline trace left by the pen.
        # Here we set both to the same colour - if a figure is not to be
        # filled, the renderer will set the brush to be transparent
        # Same goes for text foreground...
        DEBUG_MSG("set_foreground()", 1, self)
        self.select()
        GraphicsContextBase.set_foreground(self, fg, isRGB)

        self._pen.SetColour(self.get_wxcolour(self.get_rgb()))
        self.gfx_ctx.SetPen(self._pen)
        self.unselect()

00513     def set_graylevel(self, frac):
        """
        Set the foreground color.  fg can be a matlab format string, a
        html hex color string, an rgb unit tuple, or a float between 0
        and 1.  In the latter case, grayscale is used.
        """
        DEBUG_MSG("set_graylevel()", 1, self)
        self.select()
        GraphicsContextBase.set_graylevel(self, frac)
        self._pen.SetColour(self.get_wxcolour(self.get_rgb()))
        self.gfx_ctx.SetPen(self._pen)
        self.unselect()

00526     def set_linewidth(self, w):
        """
        Set the line width.
        """
        DEBUG_MSG("set_linewidth()", 1, self)
        self.select()
        if w>0 and w<1: w = 1
        GraphicsContextBase.set_linewidth(self, w)
        lw = int(self.renderer.points_to_pixels(self._linewidth))
        if lw==0: lw = 1
        self._pen.SetWidth(lw)
        self.gfx_ctx.SetPen(self._pen)
        self.unselect()

00540     def set_capstyle(self, cs):
        """
        Set the capstyle as a string in ('butt', 'round', 'projecting')
        """
        DEBUG_MSG("set_capstyle()", 1, self)
        self.select()
        GraphicsContextBase.set_capstyle(self, cs)
        self._pen.SetCap(GraphicsContextWx._capd[self._capstyle])
        self.gfx_ctx.SetPen(self._pen)
        self.unselect()

00551     def set_joinstyle(self, js):
        """
        Set the join style to be one of ('miter', 'round', 'bevel')
        """
        DEBUG_MSG("set_joinstyle()", 1, self)
        self.select()
        GraphicsContextBase.set_joinstyle(self, js)
        self._pen.SetJoin(GraphicsContextWx._joind[self._joinstyle])
        self.gfx_ctx.SetPen(self._pen)
        self.unselect()

00562     def set_linestyle(self, ls):
        """
        Set the line style to be one of
        """
        DEBUG_MSG("set_linestyle()", 1, self)
        self.select()
        GraphicsContextBase.set_linestyle(self, ls)
        try:
            self._style = GraphicsContextWx._dashd_wx[ls]
        except KeyError:
            self._style = wx.LONG_DASH# Style not used elsewhere...

        # On MS Windows platform, only line width of 1 allowed for dash lines
        if wx.Platform == '__WXMSW__':
            self.set_linewidth(1)

        self._pen.SetStyle(self._style)
        self.gfx_ctx.SetPen(self._pen)
        self.unselect()

00582     def get_wxcolour(self, color):
        """return a wx.Colour from RGB format"""
        DEBUG_MSG("get_wx_color()", 1, self)
        if len(color) == 3:
            r, g, b = color
            r *= 255
            g *= 255
            b *= 255
            return wx.Colour(red=int(r), green=int(g), blue=int(b))
        else:
            r, g, b, a = color
            r *= 255
            g *= 255
            b *= 255
            a *= 255
            return wx.Colour(red=int(r), green=int(g), blue=int(b), alpha=int(a))

00599 class FigureCanvasWx(FigureCanvasBase, wx.Panel):
    """
    The FigureCanvas contains the figure and does event handling.

    In the wxPython backend, it is derived from wxPanel, and (usually) lives
    inside a frame instantiated by a FigureManagerWx. The parent window probably
    implements a wx.Sizer to control the displayed control size - but we give a
    hint as to our preferred minimum size.
    """

    keyvald = {
        wx.WXK_CONTROL         : 'control',
        wx.WXK_SHIFT           : 'shift',
        wx.WXK_ALT             : 'alt',
        wx.WXK_LEFT            : 'left',
        wx.WXK_UP              : 'up',
        wx.WXK_RIGHT           : 'right',
        wx.WXK_DOWN            : 'down',
        wx.WXK_ESCAPE          : 'escape',
        wx.WXK_F1              : 'f1',
        wx.WXK_F2              : 'f2',
        wx.WXK_F3              : 'f3',
        wx.WXK_F4              : 'f4',
        wx.WXK_F5              : 'f5',
        wx.WXK_F6              : 'f6',
        wx.WXK_F7              : 'f7',
        wx.WXK_F8              : 'f8',
        wx.WXK_F9              : 'f9',
        wx.WXK_F10             : 'f10',
        wx.WXK_F11             : 'f11',
        wx.WXK_F12             : 'f12',
        wx.WXK_SCROLL          : 'scroll_lock',
        wx.WXK_PAUSE           : 'break',
        wx.WXK_BACK            : 'backspace',
        wx.WXK_RETURN          : 'enter',
        wx.WXK_INSERT          : 'insert',
        wx.WXK_DELETE          : 'delete',
        wx.WXK_HOME            : 'home',
        wx.WXK_END             : 'end',
        wx.WXK_PRIOR           : 'pageup',
        wx.WXK_NEXT            : 'pagedown',
        wx.WXK_PAGEUP          : 'pageup',
        wx.WXK_PAGEDOWN        : 'pagedown',
        wx.WXK_NUMPAD0         : '0',
        wx.WXK_NUMPAD1         : '1',
        wx.WXK_NUMPAD2         : '2',
        wx.WXK_NUMPAD3         : '3',
        wx.WXK_NUMPAD4         : '4',
        wx.WXK_NUMPAD5         : '5',
        wx.WXK_NUMPAD6         : '6',
        wx.WXK_NUMPAD7         : '7',
        wx.WXK_NUMPAD8         : '8',
        wx.WXK_NUMPAD9         : '9',
        wx.WXK_NUMPAD_ADD      : '+',
        wx.WXK_NUMPAD_SUBTRACT : '-',
        wx.WXK_NUMPAD_MULTIPLY : '*',
        wx.WXK_NUMPAD_DIVIDE   : '/',
        wx.WXK_NUMPAD_DECIMAL  : 'dec',
        wx.WXK_NUMPAD_ENTER    : 'enter',
        wx.WXK_NUMPAD_UP       : 'up',
        wx.WXK_NUMPAD_RIGHT    : 'right',
        wx.WXK_NUMPAD_DOWN     : 'down',
        wx.WXK_NUMPAD_LEFT     : 'left',
        wx.WXK_NUMPAD_PRIOR    : 'pageup',
        wx.WXK_NUMPAD_NEXT     : 'pagedown',
        wx.WXK_NUMPAD_PAGEUP   : 'pageup',
        wx.WXK_NUMPAD_PAGEDOWN : 'pagedown',
        wx.WXK_NUMPAD_HOME     : 'home',
        wx.WXK_NUMPAD_END      : 'end',
        wx.WXK_NUMPAD_INSERT   : 'insert',
        wx.WXK_NUMPAD_DELETE   : 'delete',
        }

00672     def __init__(self, parent, id, figure):
        """
        Initialise a FigureWx instance.

        - Initialise the FigureCanvasBase and wxPanel parents.
        - Set event handlers for:
          EVT_SIZE  (Resize event)
          EVT_PAINT (Paint event)
        """

        FigureCanvasBase.__init__(self, figure)
        # Set preferred window size hint - helps the sizer (if one is
        # connected)
        l,b,w,h = figure.bbox.bounds
        w = int(math.ceil(w))
        h = int(math.ceil(h))

        wx.Panel.__init__(self, parent, id, size=wx.Size(w, h))

        def do_nothing(*args, **kwargs):
            warnings.warn('could not find a setinitialsize function for backend_wx; please report your wxpython version=%s to the matplotlib developers list'%backend_version)
            pass

        # try to find the set size func across wx versions
        try:
            getattr(self, 'SetInitialSize')
        except AttributeError:
            self.SetInitialSize = getattr(self, 'SetBestFittingSize', do_nothing)


        if not hasattr(self,'IsShownOnScreen'):
            self.IsShownOnScreen = getattr(self, 'IsVisible', lambda *args: True)


        # Create the drawing bitmap
        self.bitmap =wx.EmptyBitmap(w, h)
        DEBUG_MSG("__init__() - bitmap w:%d h:%d" % (w,h), 2, self)
        # TODO: Add support for 'point' inspection and plot navigation.
        self._isDrawn = False

        bind(self, wx.EVT_SIZE, self._onSize)
        bind(self, wx.EVT_PAINT, self._onPaint)
        bind(self, wx.EVT_ERASE_BACKGROUND, self._onEraseBackground)
        bind(self, wx.EVT_KEY_DOWN, self._onKeyDown)
        bind(self, wx.EVT_KEY_UP, self._onKeyUp)
        bind(self, wx.EVT_RIGHT_DOWN, self._onRightButtonDown)
        bind(self, wx.EVT_RIGHT_DCLICK, self._onRightButtonDown)
        bind(self, wx.EVT_RIGHT_UP, self._onRightButtonUp)
        bind(self, wx.EVT_MOUSEWHEEL, self._onMouseWheel)
        bind(self, wx.EVT_LEFT_DOWN, self._onLeftButtonDown)
        bind(self, wx.EVT_LEFT_DCLICK, self._onLeftButtonDown)
        bind(self, wx.EVT_LEFT_UP, self._onLeftButtonUp)
        bind(self, wx.EVT_MOTION, self._onMotion)
        bind(self, wx.EVT_LEAVE_WINDOW, self._onLeave)
        bind(self, wx.EVT_IDLE, self._onIdle)
        self.SetBackgroundStyle(wx.BG_STYLE_CUSTOM)

        self.macros = {} # dict from wx id to seq of macros

        self.Printer_Init()

    def Destroy(self, *args, **kwargs):
        wx.Panel.Destroy(self, *args, **kwargs)


    def Copy_to_Clipboard(self, event=None):
        "copy bitmap of canvas to system clipboard"
        bmp_obj = wx.BitmapDataObject()
        bmp_obj.SetBitmap(self.bitmap)
        wx.TheClipboard.Open()
        wx.TheClipboard.SetData(bmp_obj)
        wx.TheClipboard.Close()

00745     def Printer_Init(self):
        """initialize printer settings using wx methods"""
        self.printerData = wx.PrintData()
        self.printerData.SetPaperId(wx.PAPER_LETTER)
        self.printerData.SetPrintMode(wx.PRINT_MODE_PRINTER)
        self.printerPageData= wx.PageSetupDialogData()
        self.printerPageData.SetMarginBottomRight((25,25))
        self.printerPageData.SetMarginTopLeft((25,25))
        self.printerPageData.SetPrintData(self.printerData)

        self.printer_width = 5.5
        self.printer_margin= 0.5

00758     def Printer_Setup(self, event=None):
        """set up figure for printing.  The standard wx Printer
        Setup Dialog seems to die easily. Therefore, this setup
        simply asks for image width and margin for printing. """

        dmsg = """Width of output figure in inches.
The current aspect ration will be kept."""

        dlg = wx.Dialog(self, -1, 'Page Setup for Printing' , (-1,-1))
        df = dlg.GetFont()
        df.SetWeight(wx.NORMAL)
        df.SetPointSize(11)
        dlg.SetFont(df)

        x_wid = wx.TextCtrl(dlg,-1,value="%.2f" % self.printer_width, size=(70,-1))
        x_mrg = wx.TextCtrl(dlg,-1,value="%.2f" % self.printer_margin,size=(70,-1))

        sizerAll = wx.BoxSizer(wx.VERTICAL)
        sizerAll.Add(wx.StaticText(dlg,-1,dmsg),
                    0, wx.ALL | wx.EXPAND, 5)

        sizer = wx.FlexGridSizer(0,3)
        sizerAll.Add(sizer, 0, wx.ALL | wx.EXPAND, 5)

        sizer.Add(wx.StaticText(dlg,-1,'Figure Width'),
                    1, wx.ALIGN_LEFT|wx.ALL, 2)
        sizer.Add(x_wid,
                    1, wx.ALIGN_LEFT|wx.ALL, 2)
        sizer.Add(wx.StaticText(dlg,-1,'in'),
                    1, wx.ALIGN_LEFT|wx.ALL, 2)

        sizer.Add(wx.StaticText(dlg,-1,'Margin'),
                    1, wx.ALIGN_LEFT|wx.ALL, 2)
        sizer.Add(x_mrg,
                    1, wx.ALIGN_LEFT|wx.ALL, 2)
        sizer.Add(wx.StaticText(dlg,-1,'in'),
                    1, wx.ALIGN_LEFT|wx.ALL, 2)

        btn = wx.Button(dlg,wx.ID_OK, " OK ")
        btn.SetDefault()
        sizer.Add(btn, 1, wx.ALIGN_LEFT, 5)
        btn = wx.Button(dlg,wx.ID_CANCEL, " CANCEL ")
        sizer.Add(btn, 1, wx.ALIGN_LEFT, 5)

        dlg.SetSizer(sizerAll)
        dlg.SetAutoLayout(True)
        sizerAll.Fit(dlg)

        if dlg.ShowModal() == wx.ID_OK:
            try:
                self.printer_width  = float(x_wid.GetValue())
                self.printer_margin = float(x_mrg.GetValue())
            except:
                pass

        if ((self.printer_width + self.printer_margin) > 7.5):
            self.printerData.SetOrientation(wx.LANDSCAPE)
        else:
            self.printerData.SetOrientation(wx.PORTRAIT)
        dlg.Destroy()
        return

00820     def Printer_Setup2(self, event=None):
        """set up figure for printing.  Using the standard wx Printer
        Setup Dialog. """

        if hasattr(self, 'printerData'):
            data = wx.PageSetupDialogData()
            data.SetPrintData(self.printerData)
        else:
            data = wx.PageSetupDialogData()
        data.SetMarginTopLeft( (15, 15) )
        data.SetMarginBottomRight( (15, 15) )

        dlg = wx.PageSetupDialog(self, data)

        if dlg.ShowModal() == wx.ID_OK:
            data = dlg.GetPageSetupData()
            tl = data.GetMarginTopLeft()
            br = data.GetMarginBottomRight()
        self.printerData = wx.PrintData(data.GetPrintData())
        dlg.Destroy()

00841     def Printer_Preview(self, event=None):
        """ generate Print Preview with wx Print mechanism"""
        po1  = PrintoutWx(self, width=self.printer_width,
                          margin=self.printer_margin)
        po2  = PrintoutWx(self, width=self.printer_width,
                          margin=self.printer_margin)
        self.preview = wx.PrintPreview(po1,po2,self.printerData)
        if not self.preview.Ok():  print "error with preview"

        self.preview.SetZoom(50)
        frameInst= self
        while not isinstance(frameInst, wx.Frame):
            frameInst= frameInst.GetParent()
        frame = wx.PreviewFrame(self.preview, frameInst, "Preview")
        frame.Initialize()
        frame.SetPosition(self.GetPosition())
        frame.SetSize((850,650))
        frame.Centre(wx.BOTH)
        frame.Show(True)
        self.gui_repaint()

00862     def Printer_Print(self, event=None):
        """ Print figure using wx Print mechanism"""
        pdd = wx.PrintDialogData()
        # SetPrintData for 2.4 combatibility
        pdd.SetPrintData(self.printerData)
        pdd.SetToPage(1)
        printer  = wx.Printer(pdd)
        printout  = PrintoutWx(self, width=int(self.printer_width),
                               margin=int(self.printer_margin))
        print_ok = printer.Print(self, printout, True)

        if wx.VERSION_STRING >= '2.5':
            if not print_ok and not printer.GetLastError() == wx.PRINTER_CANCELLED:
                wx.MessageBox("""There was a problem printing.
                Perhaps your current printer is not set correctly?""",
                              "Printing", wx.OK)
        else:
            if not print_ok:
                wx.MessageBox("""There was a problem printing.
                Perhaps your current printer is not set correctly?""",
                              "Printing", wx.OK)
        printout.Destroy()
        self.gui_repaint()


00887     def draw_idle(self):
        """
        Delay rendering until the GUI is idle.
        """
        DEBUG_MSG("draw_idle()", 1, self)
        self._isDrawn = False  # Force redraw
        # Create a timer for handling draw_idle requests
        # If there are events pending when the timer is
        # complete, reset the timer and continue.  The
        # alternative approach, binding to wx.EVT_IDLE,
        # doesn't behave as nicely.
        if hasattr(self,'_idletimer'):
            self._idletimer.Restart(50)
        else:
            self._idletimer = wx.FutureCall(50,self._onDrawIdle)
            # FutureCall is a backwards-compatible alias;
            # CallLater became available in 2.7.1.1.

    def _onDrawIdle(self, *args, **kwargs):
        if wx.GetApp().Pending():
            self._idletimer.Restart(50, *args, **kwargs)
        else:
            del self._idletimer
            # GUI event or explicit draw call may already
            # have caused the draw to take place
            if not self._isDrawn:
                self.draw(*args, **kwargs)

00915     def draw(self, drawDC=None):
        """
        Render the figure using RendererWx instance renderer, or using a
        previously defined renderer if none is specified.
        """
        DEBUG_MSG("draw()", 1, self)
        self.renderer = RendererWx(self.bitmap, self.figure.dpi)
        self.figure.draw(self.renderer)
        self._isDrawn = True
        self.gui_repaint(drawDC=drawDC)

    def flush_events(self):
        wx.Yield()

00929     def start_event_loop(self, timeout=0):
        """
        Start an event loop.  This is used to start a blocking event
        loop so that interactive functions, such as ginput and
        waitforbuttonpress, can wait for events.  This should not be
        confused with the main GUI event loop, which is always running
        and has nothing to do with this.

        Call signature::

        start_event_loop(self,timeout=0)

        This call blocks until a callback function triggers
        stop_event_loop() or *timeout* is reached.  If *timeout* is
        <=0, never timeout.

        Raises RuntimeError if event loop is already running.
        """
        if hasattr(self, '_event_loop'):
            raise RuntimeError("Event loop already running")
        id = wx.NewId()
        timer = wx.Timer(self, id=id)
        if timeout > 0:
            timer.Start(timeout*1000, oneShot=True)
            bind(self, wx.EVT_TIMER, self.stop_event_loop, id=id)

        # Event loop handler for start/stop event loop
        self._event_loop = wx.EventLoop()
        self._event_loop.Run()
        timer.Stop()

00960     def stop_event_loop(self, event=None):
        """
        Stop an event loop.  This is used to stop a blocking event
        loop so that interactive functions, such as ginput and
        waitforbuttonpress, can wait for events.

        Call signature::

        stop_event_loop_default(self)
        """
        if hasattr(self,'_event_loop'):
            if self._event_loop.IsRunning():
                self._event_loop.Exit()
            del self._event_loop


    def _get_imagesave_wildcards(self):
        'return the wildcard string for the filesave dialog'
        default_filetype = self.get_default_filetype()
        filetypes = self.get_supported_filetypes_grouped()
        sorted_filetypes = filetypes.items()
        sorted_filetypes.sort()
        wildcards = []
        extensions = []
        filter_index = 0
        for i, (name, exts) in enumerate(sorted_filetypes):
            ext_list = ';'.join(['*.%s' % ext for ext in exts])
            extensions.append(exts[0])
            wildcard = '%s (%s)|%s' % (name, ext_list, ext_list)
            if default_filetype in exts:
                filter_index = i
            wildcards.append(wildcard)
        wildcards = '|'.join(wildcards)
        return wildcards, extensions, filter_index

00995     def gui_repaint(self, drawDC=None):
        """
        Performs update of the displayed image on the GUI canvas, using the
        supplied device context.  If drawDC is None, a ClientDC will be used to
        redraw the image.
        """
        DEBUG_MSG("gui_repaint()", 1, self)
        if self.IsShownOnScreen():
            if drawDC is None:
                drawDC=wx.ClientDC(self)

            drawDC.BeginDrawing()
            drawDC.DrawBitmap(self.bitmap, 0, 0)
            drawDC.EndDrawing()
            #wx.GetApp().Yield()
        else:
            pass

    filetypes = FigureCanvasBase.filetypes.copy()
    filetypes['bmp'] = 'Windows bitmap'
    filetypes['jpeg'] = 'JPEG'
    filetypes['jpg'] = 'JPEG'
    filetypes['pcx'] = 'PCX'
    filetypes['png'] = 'Portable Network Graphics'
    filetypes['tif'] = 'Tagged Image Format File'
    filetypes['tiff'] = 'Tagged Image Format File'
    filetypes['xpm'] = 'X pixmap'

    def print_figure(self, filename, *args, **kwargs):
        # Use pure Agg renderer to draw
        FigureCanvasBase.print_figure(self, filename, *args, **kwargs)
        # Restore the current view; this is needed because the
        # artist contains methods rely on particular attributes
        # of the rendered figure for determining things like
        # bounding boxes.
        if self._isDrawn:
            self.draw()

    def print_bmp(self, filename, *args, **kwargs):
        return self._print_image(filename, wx.BITMAP_TYPE_BMP, *args, **kwargs)

    def print_jpeg(self, filename, *args, **kwargs):
        return self._print_image(filename, wx.BITMAP_TYPE_JPEG, *args, **kwargs)
    print_jpg = print_jpeg

    def print_pcx(self, filename, *args, **kwargs):
        return self._print_image(filename, wx.BITMAP_TYPE_PCX, *args, **kwargs)

    def print_png(self, filename, *args, **kwargs):
        return self._print_image(filename, wx.BITMAP_TYPE_PNG, *args, **kwargs)

    def print_tiff(self, filename, *args, **kwargs):
        return self._print_image(filename, wx.BITMAP_TYPE_TIF, *args, **kwargs)
    print_tif = print_tiff

    def print_xpm(self, filename, *args, **kwargs):
        return self._print_image(filename, wx.BITMAP_TYPE_XPM, *args, **kwargs)

    def _print_image(self, filename, filetype, *args, **kwargs):
        origBitmap   = self.bitmap

        l,b,width,height = self.figure.bbox.bounds
        width = int(math.ceil(width))
        height = int(math.ceil(height))

        self.bitmap = wx.EmptyBitmap(width, height)
        renderer = RendererWx(self.bitmap, self.figure.dpi)

        gc = renderer.new_gc()

        self.figure.draw(renderer)

        # Now that we have rendered into the bitmap, save it
        # to the appropriate file type and clean up
        if is_string_like(filename):
            if not self.bitmap.SaveFile(filename, filetype):
                DEBUG_MSG('print_figure() file save error', 4, self)
                raise RuntimeError('Could not save figure to %s\n' % (filename))
        elif is_writable_file_like(filename):
            if not self.bitmap.ConvertToImage().SaveStream(filename, filetype):
                DEBUG_MSG('print_figure() file save error', 4, self)
                raise RuntimeError('Could not save figure to %s\n' % (filename))

        # Restore everything to normal
        self.bitmap = origBitmap

        # Note: draw is required here since bits of state about the
        # last renderer are strewn about the artist draw methods.  Do
        # not remove the draw without first verifying that these have
        # been cleaned up.  The artist contains() methods will fail
        # otherwise.
        if self._isDrawn:
            self.draw()
        self.Refresh()

    def get_default_filetype(self):
        return 'png'

01093     def _onPaint(self, evt):
        """
        Called when wxPaintEvt is generated
        """

        DEBUG_MSG("_onPaint()", 1, self)
        drawDC = wx.PaintDC(self)
        if not self._isDrawn:
            self.draw(drawDC=drawDC)
        else:
            self.gui_repaint(drawDC=drawDC)
        evt.Skip()

01106     def _onEraseBackground(self, evt):
        """
        Called when window is redrawn; since we are blitting the entire
        image, we can leave this blank to suppress flicker.
        """
        pass

01113     def _onSize(self, evt):
        """
        Called when wxEventSize is generated.

        In this application we attempt to resize to fit the window, so it
        is better to take the performance hit and redraw the whole window.
        """

        DEBUG_MSG("_onSize()", 2, self)
        # Create a new, correctly sized bitmap
        self._width, self._height = self.GetClientSize()
        self.bitmap =wx.EmptyBitmap(self._width, self._height)
        self._isDrawn = False

        if self._width <= 1 or self._height <= 1: return # Empty figure

        dpival = self.figure.dpi
        winch = self._width/dpival
        hinch = self._height/dpival
        self.figure.set_size_inches(winch, hinch)

        # Rendering will happen on the associated paint event
        # so no need to do anything here except to make sure
        # the whole background is repainted.
        self.Refresh(eraseBackground=False)

    def _get_key(self, evt):

        keyval = evt.m_keyCode
        if self.keyvald.has_key(keyval):
            key = self.keyvald[keyval]
        elif keyval <256:
            key = chr(keyval)
        else:
            key = None

        # why is wx upcasing this?
        if key is not None: key = key.lower()

        return key

    def _onIdle(self, evt):
        'a GUI idle event'
        evt.Skip()
        FigureCanvasBase.idle_event(self, guiEvent=evt)

01159     def _onKeyDown(self, evt):
        """Capture key press."""
        key = self._get_key(evt)
        evt.Skip()
        FigureCanvasBase.key_press_event(self, key, guiEvent=evt)

01165     def _onKeyUp(self, evt):
        """Release key."""
        key = self._get_key(evt)
        #print 'release key', key
        evt.Skip()
        FigureCanvasBase.key_release_event(self, key, guiEvent=evt)

01172     def _onRightButtonDown(self, evt):
        """Start measuring on an axis."""
        x = evt.GetX()
        y = self.figure.bbox.height - evt.GetY()
        evt.Skip()
        self.CaptureMouse()
        FigureCanvasBase.button_press_event(self, x, y, 3, guiEvent=evt)


01181     def _onRightButtonUp(self, evt):
        """End measuring on an axis."""
        x = evt.GetX()
        y = self.figure.bbox.height - evt.GetY()
        evt.Skip()
        if self.HasCapture(): self.ReleaseMouse()
        FigureCanvasBase.button_release_event(self, x, y, 3, guiEvent=evt)

01189     def _onLeftButtonDown(self, evt):
        """Start measuring on an axis."""
        x = evt.GetX()
        y = self.figure.bbox.height - evt.GetY()
        evt.Skip()
        self.CaptureMouse()
        FigureCanvasBase.button_press_event(self, x, y, 1, guiEvent=evt)

01197     def _onLeftButtonUp(self, evt):
        """End measuring on an axis."""
        x = evt.GetX()
        y = self.figure.bbox.height - evt.GetY()
        #print 'release button', 1
        evt.Skip()
        if self.HasCapture(): self.ReleaseMouse()
        FigureCanvasBase.button_release_event(self, x, y, 1, guiEvent=evt)

01206     def _onMouseWheel(self, evt):
        """Translate mouse wheel events into matplotlib events"""

        # Determine mouse location
        x = evt.GetX()
        y = self.figure.bbox.height - evt.GetY()

        # Convert delta/rotation/rate into a floating point step size
        delta = evt.GetWheelDelta()
        rotation = evt.GetWheelRotation()
        rate = evt.GetLinesPerAction()
        #print "delta,rotation,rate",delta,rotation,rate
        step = rate*float(rotation)/delta

        # Done handling event
        evt.Skip()

        # Mac is giving two events for every wheel event
        # Need to skip every second one
        if wx.Platform == '__WXMAC__':
            if not hasattr(self,'_skipwheelevent'):
                self._skipwheelevent = True
            elif self._skipwheelevent:
                self._skipwheelevent = False
                return  # Return without processing event
            else:
                self._skipwheelevent = True

        # Convert to mpl event
        FigureCanvasBase.scroll_event(self, x, y, step, guiEvent=evt)

01237     def _onMotion(self, evt):
        """Start measuring on an axis."""

        x = evt.GetX()
        y = self.figure.bbox.height - evt.GetY()
        evt.Skip()
        FigureCanvasBase.motion_notify_event(self, x, y, guiEvent=evt)

01245     def _onLeave(self, evt):
        """Mouse has left the window; fake a motion event."""

        evt.Skip()
        FigureCanvasBase.motion_notify_event(self, -1, -1, guiEvent=evt)


########################################################################
#
# The following functions and classes are for pylab compatibility
# mode (matplotlib.pylab) and implement figure managers, etc...
#
########################################################################


def _create_wx_app():
    """
    Creates a wx.PySimpleApp instance if a wx.App has not been created.
    """
    wxapp = wx.GetApp()
    if wxapp is None:
        wxapp = wx.PySimpleApp()
        wxapp.SetExitOnFrameDelete(True)
        # retain a reference to the app object so it does not get garbage
        # collected and cause segmentation faults
        _create_wx_app.theWxApp = wxapp


def draw_if_interactive():
    """
    This should be overriden in a windowing environment if drawing
    should be done in interactive python mode
    """
    DEBUG_MSG("draw_if_interactive()", 1, None)

    if matplotlib.is_interactive():

        figManager = Gcf.get_active()
        if figManager is not None:
            figManager.canvas.draw()

def show():
    """
    Current implementation assumes that matplotlib is executed in a PyCrust
    shell. It appears to be possible to execute wxPython applications from
    within a PyCrust without having to ensure that wxPython has been created
    in a secondary thread (e.g. SciPy gui_thread).

    Unfortunately, gui_thread seems to introduce a number of further
    dependencies on SciPy modules, which I do not wish to introduce
    into the backend at this point. If there is a need I will look
    into this in a later release.
    """
    DEBUG_MSG("show()", 3, None)

    for figwin in Gcf.get_all_fig_managers():
        figwin.frame.Show()

    if show._needmain and not matplotlib.is_interactive():
        # start the wxPython gui event if there is not already one running
        wxapp = wx.GetApp()
        if wxapp is not None:
            # wxPython 2.4 has no wx.App.IsMainLoopRunning() method
            imlr = getattr(wxapp, 'IsMainLoopRunning', lambda: False)
            if not imlr():
                wxapp.MainLoop()
        show._needmain = False
show._needmain = True

def new_figure_manager(num, *args, **kwargs):
    """
    Create a new figure manager instance
    """
    # in order to expose the Figure constructor to the pylab
    # interface we need to create the figure here
    DEBUG_MSG("new_figure_manager()", 3, None)
    _create_wx_app()

    FigureClass = kwargs.pop('FigureClass', Figure)
    fig = FigureClass(*args, **kwargs)
    frame = FigureFrameWx(num, fig)
    figmgr = frame.get_figure_manager()
    if matplotlib.is_interactive():
        figmgr.frame.Show()

    return figmgr

class FigureFrameWx(wx.Frame):
    def __init__(self, num, fig):
        # On non-Windows platform, explicitly set the position - fix
        # positioning bug on some Linux platforms
        if wx.Platform == '__WXMSW__':
            pos = wx.DefaultPosition
        else:
            pos =wx.Point(20,20)
        l,b,w,h = fig.bbox.bounds
        wx.Frame.__init__(self, parent=None, id=-1, pos=pos,
                          title="Figure %d" % num)
        # Frame will be sized later by the Fit method
        DEBUG_MSG("__init__()", 1, self)
        self.num = num

        statbar = StatusBarWx(self)
        self.SetStatusBar(statbar)
        self.canvas = self.get_canvas(fig)
        self.canvas.SetInitialSize(wx.Size(fig.bbox.width, fig.bbox.height))
        self.sizer =wx.BoxSizer(wx.VERTICAL)
        self.sizer.Add(self.canvas, 1, wx.TOP | wx.LEFT | wx.EXPAND)
        # By adding toolbar in sizer, we are able to put it at the bottom
        # of the frame - so appearance is closer to GTK version

        self.toolbar = self._get_toolbar(statbar)

        if self.toolbar is not None:
            self.toolbar.Realize()
            if wx.Platform == '__WXMAC__':
                # Mac platform (OSX 10.3, MacPython) does not seem to cope with
                # having a toolbar in a sizer. This work-around gets the buttons
                # back, but at the expense of having the toolbar at the top
                self.SetToolBar(self.toolbar)
            else:
                # On Windows platform, default window size is incorrect, so set
                # toolbar width to figure width.
                tw, th = self.toolbar.GetSizeTuple()
                fw, fh = self.canvas.GetSizeTuple()
                # By adding toolbar in sizer, we are able to put it at the bottom
                # of the frame - so appearance is closer to GTK version.
                # As noted above, doesn't work for Mac.
                self.toolbar.SetSize(wx.Size(fw, th))
                self.sizer.Add(self.toolbar, 0, wx.LEFT | wx.EXPAND)
        self.SetSizer(self.sizer)
        self.Fit()

        self.figmgr = FigureManagerWx(self.canvas, num, self)

        bind(self, wx.EVT_CLOSE, self._onClose)

    def _get_toolbar(self, statbar):
        if matplotlib.rcParams['toolbar']=='classic':
            toolbar = NavigationToolbarWx(self.canvas, True)
        elif matplotlib.rcParams['toolbar']=='toolbar2':
            toolbar = NavigationToolbar2Wx(self.canvas)
            toolbar.set_status_bar(statbar)
        else:
            toolbar = None
        return toolbar

    def get_canvas(self, fig):
        return FigureCanvasWx(self, -1, fig)

    def get_figure_manager(self):
        DEBUG_MSG("get_figure_manager()", 1, self)
        return self.figmgr

    def _onClose(self, evt):
        DEBUG_MSG("onClose()", 1, self)
        self.canvas.stop_event_loop()
        Gcf.destroy(self.num)
        #self.Destroy()

    def GetToolBar(self):
        """Override wxFrame::GetToolBar as we don't have managed toolbar"""
        return self.toolbar

    def Destroy(self, *args, **kwargs):
        wx.Frame.Destroy(self, *args, **kwargs)
        if self.toolbar is not None:
            self.toolbar.Destroy()
        wxapp = wx.GetApp()
        if wxapp:
            wxapp.Yield()
        return True

01418 class FigureManagerWx(FigureManagerBase):
    """
    This class contains the FigureCanvas and GUI frame

    It is instantiated by GcfWx whenever a new figure is created. GcfWx is
    responsible for managing multiple instances of FigureManagerWx.

    NB: FigureManagerBase is found in _pylab_helpers

    public attrs

    canvas - a FigureCanvasWx(wx.Panel) instance
    window - a wxFrame instance - http://www.lpthe.jussieu.fr/~zeitlin/wxWindows/docs/wxwin_wxframe.html#wxframe
    """
    def __init__(self, canvas, num, frame):
        DEBUG_MSG("__init__()", 1, self)
        FigureManagerBase.__init__(self, canvas, num)
        self.frame = frame
        self.window = frame

        self.tb = frame.GetToolBar()
        self.toolbar = self.tb  # consistent with other backends
        def notify_axes_change(fig):
            'this will be called whenever the current axes is changed'
            if self.tb != None: self.tb.update()
        self.canvas.figure.add_axobserver(notify_axes_change)

        def showfig(*args):
            frame.Show()

        # attach a show method to the figure
        self.canvas.figure.show = showfig


    def destroy(self, *args):
        DEBUG_MSG("destroy()", 1, self)
        self.frame.Destroy()
        #if self.tb is not None: self.tb.Destroy()
        import wx
        #wx.GetApp().ProcessIdle()
        wx.WakeUpIdle()

    def set_window_title(self, title):
        self.window.SetTitle(title)

    def resize(self, width, height):
        'Set the canvas size in pixels'
        self.canvas.SetInitialSize(wx.Size(width, height))
        self.window.GetSizer().Fit(self.window)

# Identifiers for toolbar controls - images_wx contains bitmaps for the images
# used in the controls. wxWindows does not provide any stock images, so I've
# 'stolen' those from GTK2, and transformed them into the appropriate format.
#import images_wx

_NTB_AXISMENU        =wx.NewId()
_NTB_AXISMENU_BUTTON =wx.NewId()
_NTB_X_PAN_LEFT      =wx.NewId()
_NTB_X_PAN_RIGHT     =wx.NewId()
_NTB_X_ZOOMIN        =wx.NewId()
_NTB_X_ZOOMOUT       =wx.NewId()
_NTB_Y_PAN_UP        =wx.NewId()
_NTB_Y_PAN_DOWN      =wx.NewId()
_NTB_Y_ZOOMIN        =wx.NewId()
_NTB_Y_ZOOMOUT       =wx.NewId()
#_NTB_SUBPLOT            =wx.NewId()
_NTB_SAVE            =wx.NewId()
_NTB_CLOSE           =wx.NewId()

def _load_bitmap(filename):
    """
    Load a bitmap file from the backends/images subdirectory in which the
    matplotlib library is installed. The filename parameter should not
    contain any path information as this is determined automatically.

    Returns a wx.Bitmap object
    """

    basedir = os.path.join(rcParams['datapath'],'images')

    bmpFilename = os.path.normpath(os.path.join(basedir, filename))
    if not os.path.exists(bmpFilename):
        raise IOError('Could not find bitmap file "%s"; dying'%bmpFilename)

    bmp = wx.Bitmap(bmpFilename)
    return bmp

01505 class MenuButtonWx(wx.Button):
    """
    wxPython does not permit a menu to be incorporated directly into a toolbar.
    This class simulates the effect by associating a pop-up menu with a button
    in the toolbar, and managing this as though it were a menu.
    """
    def __init__(self, parent):

        wx.Button.__init__(self, parent, _NTB_AXISMENU_BUTTON, "Axes:        ",
                          style=wx.BU_EXACTFIT)
        self._toolbar = parent
        self._menu =wx.Menu()
        self._axisId = []
        # First two menu items never change...
        self._allId =wx.NewId()
        self._invertId =wx.NewId()
        self._menu.Append(self._allId, "All", "Select all axes", False)
        self._menu.Append(self._invertId, "Invert", "Invert axes selected", False)
        self._menu.AppendSeparator()

        bind(self, wx.EVT_BUTTON, self._onMenuButton, id=_NTB_AXISMENU_BUTTON)
        bind(self, wx.EVT_MENU, self._handleSelectAllAxes, id=self._allId)
        bind(self, wx.EVT_MENU, self._handleInvertAxesSelected, id=self._invertId)

    def Destroy(self):
        self._menu.Destroy()
        self.Destroy()

01533     def _onMenuButton(self, evt):
        """Handle menu button pressed."""
        x, y = self.GetPositionTuple()
        w, h = self.GetSizeTuple()
        self.PopupMenuXY(self._menu, x, y+h-4)
                # When menu returned, indicate selection in button
        evt.Skip()

01541     def _handleSelectAllAxes(self, evt):
        """Called when the 'select all axes' menu item is selected."""
        if len(self._axisId) == 0:
            return
        for i in range(len(self._axisId)):
            self._menu.Check(self._axisId[i], True)
        self._toolbar.set_active(self.getActiveAxes())
        evt.Skip()

01550     def _handleInvertAxesSelected(self, evt):
        """Called when the invert all menu item is selected"""
        if len(self._axisId) == 0: return
        for i in range(len(self._axisId)):
            if self._menu.IsChecked(self._axisId[i]):
                self._menu.Check(self._axisId[i], False)
            else:
                self._menu.Check(self._axisId[i], True)
        self._toolbar.set_active(self.getActiveAxes())
        evt.Skip()

01561     def _onMenuItemSelected(self, evt):
        """Called whenever one of the specific axis menu items is selected"""
        current = self._menu.IsChecked(evt.GetId())
        if current:
            new = False
        else:
            new = True
        self._menu.Check(evt.GetId(), new)
        self._toolbar.set_active(self.getActiveAxes())
        evt.Skip()

01572     def updateAxes(self, maxAxis):
        """Ensures that there are entries for max_axis axes in the menu
        (selected by default)."""
        if maxAxis > len(self._axisId):
            for i in range(len(self._axisId) + 1, maxAxis + 1, 1):
                menuId =wx.NewId()
                self._axisId.append(menuId)
                self._menu.Append(menuId, "Axis %d" % i, "Select axis %d" % i, True)
                self._menu.Check(menuId, True)
                bind(self, wx.EVT_MENU, self._onMenuItemSelected, id=menuId)
        self._toolbar.set_active(range(len(self._axisId)))

01584     def getActiveAxes(self):
        """Return a list of the selected axes."""
        active = []
        for i in range(len(self._axisId)):
            if self._menu.IsChecked(self._axisId[i]):
                active.append(i)
        return active

01592     def updateButtonText(self, lst):
        """Update the list of selected axes in the menu button"""
        axis_txt = ''
        for e in lst:
            axis_txt += '%d,' % (e+1)
        # remove trailing ',' and add to button string
        self.SetLabel("Axes: %s" % axis_txt[:-1])




cursord = {
    cursors.MOVE : wx.CURSOR_HAND,
    cursors.HAND : wx.CURSOR_HAND,
    cursors.POINTER : wx.CURSOR_ARROW,
    cursors.SELECT_REGION : wx.CURSOR_CROSS,
    }


class SubplotToolWX(wx.Frame):
    def __init__(self, targetfig):
        wx.Frame.__init__(self, None, -1, "Configure subplots")

        toolfig = Figure((6,3))
        canvas = FigureCanvasWx(self, -1, toolfig)

        # Create a figure manager to manage things
        figmgr = FigureManager(canvas, 1, self)

        # Now put all into a sizer
        sizer = wx.BoxSizer(wx.VERTICAL)
        # This way of adding to sizer allows resizing
        sizer.Add(canvas, 1, wx.LEFT|wx.TOP|wx.GROW)
        self.SetSizer(sizer)
        self.Fit()
        tool = SubplotTool(targetfig, toolfig)


class NavigationToolbar2Wx(NavigationToolbar2, wx.ToolBar):

    def __init__(self, canvas):
        wx.ToolBar.__init__(self, canvas.GetParent(), -1)
        NavigationToolbar2.__init__(self, canvas)
        self.canvas = canvas
        self._idle = True
        self.statbar = None

    def get_canvas(self, frame, fig):
        return FigureCanvasWx(frame, -1, fig)

    def _init_toolbar(self):
        DEBUG_MSG("_init_toolbar", 1, self)

        self._parent = self.canvas.GetParent()
        _NTB2_HOME    =wx.NewId()
        self._NTB2_BACK    =wx.NewId()
        self._NTB2_FORWARD =wx.NewId()
        self._NTB2_PAN     =wx.NewId()
        self._NTB2_ZOOM    =wx.NewId()
        _NTB2_SAVE    = wx.NewId()
        _NTB2_SUBPLOT    =wx.NewId()

        self.SetToolBitmapSize(wx.Size(24,24))

        self.AddSimpleTool(_NTB2_HOME, _load_bitmap('home.png'),
                           'Home', 'Reset original view')
        self.AddSimpleTool(self._NTB2_BACK, _load_bitmap('back.png'),
                           'Back', 'Back navigation view')
        self.AddSimpleTool(self._NTB2_FORWARD, _load_bitmap('forward.png'),
                           'Forward', 'Forward navigation view')
        # todo: get new bitmap
        self.AddCheckTool(self._NTB2_PAN, _load_bitmap('move.png'),
                           shortHelp='Pan',
                           longHelp='Pan with left, zoom with right')
        self.AddCheckTool(self._NTB2_ZOOM, _load_bitmap('zoom_to_rect.png'),
                           shortHelp='Zoom', longHelp='Zoom to rectangle')

        self.AddSeparator()
        self.AddSimpleTool(_NTB2_SUBPLOT, _load_bitmap('subplots.png'),
                           'Configure subplots', 'Configure subplot parameters')

        self.AddSimpleTool(_NTB2_SAVE, _load_bitmap('filesave.png'),
                           'Save', 'Save plot contents to file')

        bind(self, wx.EVT_TOOL, self.home, id=_NTB2_HOME)
        bind(self, wx.EVT_TOOL, self.forward, id=self._NTB2_FORWARD)
        bind(self, wx.EVT_TOOL, self.back, id=self._NTB2_BACK)
        bind(self, wx.EVT_TOOL, self.zoom, id=self._NTB2_ZOOM)
        bind(self, wx.EVT_TOOL, self.pan, id=self._NTB2_PAN)
        bind(self, wx.EVT_TOOL, self.configure_subplot, id=_NTB2_SUBPLOT)
        bind(self, wx.EVT_TOOL, self.save, id=_NTB2_SAVE)

        self.Realize()


    def zoom(self, *args):
        self.ToggleTool(self._NTB2_PAN, False)
        NavigationToolbar2.zoom(self, *args)

    def pan(self, *args):
        self.ToggleTool(self._NTB2_ZOOM, False)
        NavigationToolbar2.pan(self, *args)


    def configure_subplot(self, evt):
        frame = wx.Frame(None, -1, "Configure subplots")

        toolfig = Figure((6,3))
        canvas = self.get_canvas(frame, toolfig)

        # Create a figure manager to manage things
        figmgr = FigureManager(canvas, 1, frame)

        # Now put all into a sizer
        sizer = wx.BoxSizer(wx.VERTICAL)
        # This way of adding to sizer allows resizing
        sizer.Add(canvas, 1, wx.LEFT|wx.TOP|wx.GROW)
        frame.SetSizer(sizer)
        frame.Fit()
        tool = SubplotTool(self.canvas.figure, toolfig)
        frame.Show()

    def save(self, evt):
        # Fetch the required filename and file type.
        filetypes, exts, filter_index = self.canvas._get_imagesave_wildcards()
        default_file = "image." + self.canvas.get_default_filetype()
        dlg = wx.FileDialog(self._parent, "Save to file", "", default_file,
                            filetypes,
                            wx.SAVE|wx.OVERWRITE_PROMPT|wx.CHANGE_DIR)
        dlg.SetFilterIndex(filter_index)
        if dlg.ShowModal() == wx.ID_OK:
            dirname  = dlg.GetDirectory()
            filename = dlg.GetFilename()
            DEBUG_MSG('Save file dir:%s name:%s' % (dirname, filename), 3, self)
            format = exts[dlg.GetFilterIndex()]
            basename, ext = os.path.splitext(filename)
            if ext.startswith('.'):
                ext = ext[1:]
            if ext in ('svg', 'pdf', 'ps', 'eps', 'png') and format!=ext:
                #looks like they forgot to set the image type drop
                #down, going with the extension.
                warnings.warn('extension %s did not match the selected image type %s; going with %s'%(ext, format, ext), stacklevel=0)
                format = ext
            try:
                self.canvas.print_figure(
                    os.path.join(dirname, filename), format=format)
            except Exception, e:
                error_msg_wx(str(e))

    def set_cursor(self, cursor):
        cursor =wx.StockCursor(cursord[cursor])
        self.canvas.SetCursor( cursor )

    def release(self, event):
        try: del self.lastrect
        except AttributeError: pass

    def dynamic_update(self):
        d = self._idle
        self._idle = False
        if d:
            self.canvas.draw()
            self._idle = True

    def draw_rubberband(self, event, x0, y0, x1, y1):
        'adapted from http://aspn.activestate.com/ASPN/Cookbook/Python/Recipe/189744'
        canvas = self.canvas
        dc =wx.ClientDC(canvas)

        # Set logical function to XOR for rubberbanding
        dc.SetLogicalFunction(wx.XOR)

        # Set dc brush and pen
        # Here I set brush and pen to white and grey respectively
        # You can set it to your own choices

        # The brush setting is not really needed since we
        # dont do any filling of the dc. It is set just for
        # the sake of completion.

        wbrush =wx.Brush(wx.Colour(255,255,255), wx.TRANSPARENT)
        wpen =wx.Pen(wx.Colour(200, 200, 200), 1, wx.SOLID)
        dc.SetBrush(wbrush)
        dc.SetPen(wpen)


        dc.ResetBoundingBox()
        dc.BeginDrawing()
        height = self.canvas.figure.bbox.height
        y1 = height - y1
        y0 = height - y0

        if y1<y0: y0, y1 = y1, y0
        if x1<y0: x0, x1 = x1, x0

        w = x1 - x0
        h = y1 - y0

        rect = int(x0), int(y0), int(w), int(h)
        try: lastrect = self.lastrect
        except AttributeError: pass
        else: dc.DrawRectangle(*lastrect)  #erase last
        self.lastrect = rect
        dc.DrawRectangle(*rect)
        dc.EndDrawing()

    def set_status_bar(self, statbar):
        self.statbar = statbar

    def set_message(self, s):
        if self.statbar is not None: self.statbar.set_function(s)

    def set_history_buttons(self):
        can_backward = (self._views._pos > 0)
        can_forward = (self._views._pos < len(self._views._elements) - 1)
        self.EnableTool(self._NTB2_BACK, can_backward)
        self.EnableTool(self._NTB2_FORWARD, can_forward)


class NavigationToolbarWx(wx.ToolBar):
    def __init__(self, canvas, can_kill=False):
        """
        figure is the Figure instance that the toolboar controls

        win, if not None, is the wxWindow the Figure is embedded in
        """
        wx.ToolBar.__init__(self, canvas.GetParent(), -1)
        DEBUG_MSG("__init__()", 1, self)
        self.canvas = canvas
        self._lastControl = None
        self._mouseOnButton = None

        self._parent = canvas.GetParent()
        self._NTB_BUTTON_HANDLER = {
            _NTB_X_PAN_LEFT  : self.panx,
            _NTB_X_PAN_RIGHT : self.panx,
            _NTB_X_ZOOMIN    : self.zoomx,
            _NTB_X_ZOOMOUT   : self.zoomy,
            _NTB_Y_PAN_UP    : self.pany,
            _NTB_Y_PAN_DOWN  : self.pany,
            _NTB_Y_ZOOMIN    : self.zoomy,
            _NTB_Y_ZOOMOUT   : self.zoomy }


        self._create_menu()
        self._create_controls(can_kill)
        self.Realize()

    def _create_menu(self):
        """
        Creates the 'menu' - implemented as a button which opens a
        pop-up menu since wxPython does not allow a menu as a control
        """
        DEBUG_MSG("_create_menu()", 1, self)
        self._menu = MenuButtonWx(self)
        self.AddControl(self._menu)
        self.AddSeparator()

    def _create_controls(self, can_kill):
        """
        Creates the button controls, and links them to event handlers
        """
        DEBUG_MSG("_create_controls()", 1, self)
        # Need the following line as Windows toolbars default to 15x16

        self.SetToolBitmapSize(wx.Size(16,16))
        self.AddSimpleTool(_NTB_X_PAN_LEFT, _load_bitmap('stock_left.xpm'),
                           'Left', 'Scroll left')
        self.AddSimpleTool(_NTB_X_PAN_RIGHT, _load_bitmap('stock_right.xpm'),
                           'Right', 'Scroll right')
        self.AddSimpleTool(_NTB_X_ZOOMIN, _load_bitmap('stock_zoom-in.xpm'),
                           'Zoom in', 'Increase X axis magnification')
        self.AddSimpleTool(_NTB_X_ZOOMOUT, _load_bitmap('stock_zoom-out.xpm'),
                           'Zoom out', 'Decrease X axis magnification')
        self.AddSeparator()
        self.AddSimpleTool(_NTB_Y_PAN_UP,_load_bitmap('stock_up.xpm'),
                           'Up', 'Scroll up')
        self.AddSimpleTool(_NTB_Y_PAN_DOWN, _load_bitmap('stock_down.xpm'),
                           'Down', 'Scroll down')
        self.AddSimpleTool(_NTB_Y_ZOOMIN, _load_bitmap('stock_zoom-in.xpm'),
                           'Zoom in', 'Increase Y axis magnification')
        self.AddSimpleTool(_NTB_Y_ZOOMOUT, _load_bitmap('stock_zoom-out.xpm'),
                           'Zoom out', 'Decrease Y axis magnification')
        self.AddSeparator()
        self.AddSimpleTool(_NTB_SAVE, _load_bitmap('stock_save_as.xpm'),
                           'Save', 'Save plot contents as images')
        self.AddSeparator()

        bind(self, wx.EVT_TOOL, self._onLeftScroll, id=_NTB_X_PAN_LEFT)
        bind(self, wx.EVT_TOOL, self._onRightScroll, id=_NTB_X_PAN_RIGHT)
        bind(self, wx.EVT_TOOL, self._onXZoomIn, id=_NTB_X_ZOOMIN)
        bind(self, wx.EVT_TOOL, self._onXZoomOut, id=_NTB_X_ZOOMOUT)
        bind(self, wx.EVT_TOOL, self._onUpScroll, id=_NTB_Y_PAN_UP)
        bind(self, wx.EVT_TOOL, self._onDownScroll, id=_NTB_Y_PAN_DOWN)
        bind(self, wx.EVT_TOOL, self._onYZoomIn, id=_NTB_Y_ZOOMIN)
        bind(self, wx.EVT_TOOL, self._onYZoomOut, id=_NTB_Y_ZOOMOUT)
        bind(self, wx.EVT_TOOL, self._onSave, id=_NTB_SAVE)
        bind(self, wx.EVT_TOOL_ENTER, self._onEnterTool, id=self.GetId())
        if can_kill:
            bind(self, wx.EVT_TOOL, self._onClose, id=_NTB_CLOSE)
        bind(self, wx.EVT_MOUSEWHEEL, self._onMouseWheel)

    def set_active(self, ind):
        """
        ind is a list of index numbers for the axes which are to be made active
        """
        DEBUG_MSG("set_active()", 1, self)
        self._ind = ind
        if ind != None:
            self._active = [ self._axes[i] for i in self._ind ]
        else:
            self._active = []
        # Now update button text wit active axes
        self._menu.updateButtonText(ind)

    def get_last_control(self):
        """Returns the identity of the last toolbar button pressed."""
        return self._lastControl

    def panx(self, direction):

        DEBUG_MSG("panx()", 1, self)
        for a in self._active:
            a.xaxis.pan(direction)
        self.canvas.draw()
        self.canvas.Refresh(eraseBackground=False)

    def pany(self, direction):
        DEBUG_MSG("pany()", 1, self)
        for a in self._active:
            a.yaxis.pan(direction)
        self.canvas.draw()
        self.canvas.Refresh(eraseBackground=False)

    def zoomx(self, in_out):
        DEBUG_MSG("zoomx()", 1, self)
        for a in self._active:
            a.xaxis.zoom(in_out)
        self.canvas.draw()
        self.canvas.Refresh(eraseBackground=False)

    def zoomy(self, in_out):
        DEBUG_MSG("zoomy()", 1, self)
        for a in self._active:
            a.yaxis.zoom(in_out)
        self.canvas.draw()
        self.canvas.Refresh(eraseBackground=False)

    def update(self):
        """
        Update the toolbar menu - called when (e.g.) a new subplot or axes are added
        """
        DEBUG_MSG("update()", 1, self)
        self._axes = self.canvas.figure.get_axes()
        self._menu.updateAxes(len(self._axes))

    def _do_nothing(self, d):
        """A NULL event handler - does nothing whatsoever"""
        pass

    # Local event handlers - mainly supply parameters to pan/scroll functions
    def _onEnterTool(self, evt):
        toolId = evt.GetSelection()
        try:
            self.button_fn = self._NTB_BUTTON_HANDLER[toolId]
        except KeyError:
            self.button_fn = self._do_nothing
        evt.Skip()

    def _onLeftScroll(self, evt):
        self.panx(-1)
        evt.Skip()

    def _onRightScroll(self, evt):
        self.panx(1)
        evt.Skip()

    def _onXZoomIn(self, evt):
        self.zoomx(1)
        evt.Skip()

    def _onXZoomOut(self, evt):
        self.zoomx(-1)
        evt.Skip()

    def _onUpScroll(self, evt):
        self.pany(1)
        evt.Skip()

    def _onDownScroll(self, evt):
        self.pany(-1)
        evt.Skip()

    def _onYZoomIn(self, evt):
        self.zoomy(1)
        evt.Skip()

    def _onYZoomOut(self, evt):
        self.zoomy(-1)
        evt.Skip()

    def _onMouseEnterButton(self, button):
        self._mouseOnButton = button

    def _onMouseLeaveButton(self, button):
        if self._mouseOnButton == button:
            self._mouseOnButton = None

    def _onMouseWheel(self, evt):
        if evt.GetWheelRotation() > 0:
            direction = 1
        else:
            direction = -1
        self.button_fn(direction)

    _onSave = NavigationToolbar2Wx.save

    def _onClose(self, evt):
        self.GetParent().Destroy()



02014 class StatusBarWx(wx.StatusBar):
    """
    A status bar is added to _FigureFrame to allow measurements and the
    previously selected scroll function to be displayed as a user
    convenience.
    """
    def __init__(self, parent):
        wx.StatusBar.__init__(self, parent, -1)
        self.SetFieldsCount(2)
        self.SetStatusText("None", 1)
        #self.SetStatusText("Measurement: None", 2)
        #self.Reposition()

    def set_function(self, string):
        self.SetStatusText("%s" % string, 1)

    #def set_measurement(self, string):
    #    self.SetStatusText("Measurement: %s" % string, 2)


#< Additions for printing support: Matt Newville

02036 class PrintoutWx(wx.Printout):
    """Simple wrapper around wx Printout class -- all the real work
    here is scaling the matplotlib canvas bitmap to the current
    printer's definition.
    """
    def __init__(self, canvas, width=5.5,margin=0.5, title='matplotlib'):
        wx.Printout.__init__(self,title=title)
        self.canvas = canvas
        # width, in inches of output figure (approximate)
        self.width  = width
        self.margin = margin

    def HasPage(self, page):
        #current only supports 1 page print
        return page == 1

    def GetPageInfo(self):
        return (1, 1, 1, 1)

    def OnPrintPage(self, page):
        self.canvas.draw()

        dc        = self.GetDC()
        (ppw,pph) = self.GetPPIPrinter()      # printer's pixels per in
        (pgw,pgh) = self.GetPageSizePixels()  # page size in pixels
        (dcw,dch) = dc.GetSize()
        (grw,grh) = self.canvas.GetSizeTuple()

        # save current figure dpi resolution and bg color,
        # so that we can temporarily set them to the dpi of
        # the printer, and the bg color to white
        bgcolor   = self.canvas.figure.get_facecolor()
        fig_dpi   = self.canvas.figure.dpi

        # draw the bitmap, scaled appropriately
        vscale    = float(ppw) / fig_dpi

        # set figure resolution,bg color for printer
        self.canvas.figure.dpi = ppw
        self.canvas.figure.set_facecolor('#FFFFFF')

        renderer  = RendererWx(self.canvas.bitmap, self.canvas.figure.dpi)
        self.canvas.figure.draw(renderer)
        self.canvas.bitmap.SetWidth(  int(self.canvas.bitmap.GetWidth() * vscale))
        self.canvas.bitmap.SetHeight( int(self.canvas.bitmap.GetHeight()* vscale))
        self.canvas.draw()

        # page may need additional scaling on preview
        page_scale = 1.0
        if self.IsPreview():   page_scale = float(dcw)/pgw

        # get margin in pixels = (margin in in) * (pixels/in)
        top_margin  = int(self.margin * pph * page_scale)
        left_margin = int(self.margin * ppw * page_scale)

        # set scale so that width of output is self.width inches
        # (assuming grw is size of graph in inches....)
        user_scale = (self.width * fig_dpi * page_scale)/float(grw)

        dc.SetDeviceOrigin(left_margin,top_margin)
        dc.SetUserScale(user_scale,user_scale)

        # this cute little number avoid API inconsistencies in wx
        try:
            dc.DrawBitmap(self.canvas.bitmap, 0, 0)
        except:
            try:
                dc.DrawBitmap(self.canvas.bitmap, (0, 0))
            except:
                pass

        # restore original figure  resolution
        self.canvas.figure.set_facecolor(bgcolor)
        self.canvas.figure.dpi.set(fig_dpi)
        self.canvas.draw()
        return True
#>

########################################################################
#
# Now just provide the standard names that backend.__init__ is expecting
#
########################################################################

Toolbar = NavigationToolbarWx
FigureManager = FigureManagerWx

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