ai-content-maker/.venv/Lib/site-packages/matplotlib/backends/_backend_tk.py

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2024-05-03 04:18:51 +03:00
import uuid
import weakref
from contextlib import contextmanager
import logging
import math
import os.path
import pathlib
import sys
import tkinter as tk
import tkinter.filedialog
import tkinter.font
import tkinter.messagebox
from tkinter.simpledialog import SimpleDialog
import numpy as np
from PIL import Image, ImageTk
import matplotlib as mpl
from matplotlib import _api, backend_tools, cbook, _c_internal_utils
from matplotlib.backend_bases import (
_Backend, FigureCanvasBase, FigureManagerBase, NavigationToolbar2,
TimerBase, ToolContainerBase, cursors, _Mode,
CloseEvent, KeyEvent, LocationEvent, MouseEvent, ResizeEvent)
from matplotlib._pylab_helpers import Gcf
from . import _tkagg
_log = logging.getLogger(__name__)
cursord = {
cursors.MOVE: "fleur",
cursors.HAND: "hand2",
cursors.POINTER: "arrow",
cursors.SELECT_REGION: "crosshair",
cursors.WAIT: "watch",
cursors.RESIZE_HORIZONTAL: "sb_h_double_arrow",
cursors.RESIZE_VERTICAL: "sb_v_double_arrow",
}
@contextmanager
def _restore_foreground_window_at_end():
foreground = _c_internal_utils.Win32_GetForegroundWindow()
try:
yield
finally:
if mpl.rcParams['tk.window_focus']:
_c_internal_utils.Win32_SetForegroundWindow(foreground)
_blit_args = {}
# Initialize to a non-empty string that is not a Tcl command
_blit_tcl_name = "mpl_blit_" + uuid.uuid4().hex
TK_PHOTO_COMPOSITE_OVERLAY = 0 # apply transparency rules pixel-wise
TK_PHOTO_COMPOSITE_SET = 1 # set image buffer directly
def _blit(argsid):
"""
Thin wrapper to blit called via tkapp.call.
*argsid* is a unique string identifier to fetch the correct arguments from
the ``_blit_args`` dict, since arguments cannot be passed directly.
"""
photoimage, dataptr, offsets, bboxptr, comp_rule = _blit_args.pop(argsid)
if not photoimage.tk.call("info", "commands", photoimage):
return
_tkagg.blit(photoimage.tk.interpaddr(), str(photoimage), dataptr,
comp_rule, offsets, bboxptr)
def blit(photoimage, aggimage, offsets, bbox=None):
"""
Blit *aggimage* to *photoimage*.
*offsets* is a tuple describing how to fill the ``offset`` field of the
``Tk_PhotoImageBlock`` struct: it should be (0, 1, 2, 3) for RGBA8888 data,
(2, 1, 0, 3) for little-endian ARBG32 (i.e. GBRA8888) data and (1, 2, 3, 0)
for big-endian ARGB32 (i.e. ARGB8888) data.
If *bbox* is passed, it defines the region that gets blitted. That region
will be composed with the previous data according to the alpha channel.
Blitting will be clipped to pixels inside the canvas, including silently
doing nothing if the *bbox* region is entirely outside the canvas.
Tcl events must be dispatched to trigger a blit from a non-Tcl thread.
"""
data = np.asarray(aggimage)
height, width = data.shape[:2]
dataptr = (height, width, data.ctypes.data)
if bbox is not None:
(x1, y1), (x2, y2) = bbox.__array__()
x1 = max(math.floor(x1), 0)
x2 = min(math.ceil(x2), width)
y1 = max(math.floor(y1), 0)
y2 = min(math.ceil(y2), height)
if (x1 > x2) or (y1 > y2):
return
bboxptr = (x1, x2, y1, y2)
comp_rule = TK_PHOTO_COMPOSITE_OVERLAY
else:
bboxptr = (0, width, 0, height)
comp_rule = TK_PHOTO_COMPOSITE_SET
# NOTE: _tkagg.blit is thread unsafe and will crash the process if called
# from a thread (GH#13293). Instead of blanking and blitting here,
# use tkapp.call to post a cross-thread event if this function is called
# from a non-Tcl thread.
# tkapp.call coerces all arguments to strings, so to avoid string parsing
# within _blit, pack up the arguments into a global data structure.
args = photoimage, dataptr, offsets, bboxptr, comp_rule
# Need a unique key to avoid thread races.
# Again, make the key a string to avoid string parsing in _blit.
argsid = str(id(args))
_blit_args[argsid] = args
try:
photoimage.tk.call(_blit_tcl_name, argsid)
except tk.TclError as e:
if "invalid command name" not in str(e):
raise
photoimage.tk.createcommand(_blit_tcl_name, _blit)
photoimage.tk.call(_blit_tcl_name, argsid)
class TimerTk(TimerBase):
"""Subclass of `backend_bases.TimerBase` using Tk timer events."""
def __init__(self, parent, *args, **kwargs):
self._timer = None
super().__init__(*args, **kwargs)
self.parent = parent
def _timer_start(self):
self._timer_stop()
self._timer = self.parent.after(self._interval, self._on_timer)
def _timer_stop(self):
if self._timer is not None:
self.parent.after_cancel(self._timer)
self._timer = None
def _on_timer(self):
super()._on_timer()
# Tk after() is only a single shot, so we need to add code here to
# reset the timer if we're not operating in single shot mode. However,
# if _timer is None, this means that _timer_stop has been called; so
# don't recreate the timer in that case.
if not self._single and self._timer:
if self._interval > 0:
self._timer = self.parent.after(self._interval, self._on_timer)
else:
# Edge case: Tcl after 0 *prepends* events to the queue
# so a 0 interval does not allow any other events to run.
# This incantation is cancellable and runs as fast as possible
# while also allowing events and drawing every frame. GH#18236
self._timer = self.parent.after_idle(
lambda: self.parent.after(self._interval, self._on_timer)
)
else:
self._timer = None
class FigureCanvasTk(FigureCanvasBase):
required_interactive_framework = "tk"
manager_class = _api.classproperty(lambda cls: FigureManagerTk)
def __init__(self, figure=None, master=None):
super().__init__(figure)
self._idle_draw_id = None
self._event_loop_id = None
w, h = self.get_width_height(physical=True)
self._tkcanvas = tk.Canvas(
master=master, background="white",
width=w, height=h, borderwidth=0, highlightthickness=0)
self._tkphoto = tk.PhotoImage(
master=self._tkcanvas, width=w, height=h)
self._tkcanvas_image_region = self._tkcanvas.create_image(
w//2, h//2, image=self._tkphoto)
self._tkcanvas.bind("<Configure>", self.resize)
if sys.platform == 'win32':
self._tkcanvas.bind("<Map>", self._update_device_pixel_ratio)
self._tkcanvas.bind("<Key>", self.key_press)
self._tkcanvas.bind("<Motion>", self.motion_notify_event)
self._tkcanvas.bind("<Enter>", self.enter_notify_event)
self._tkcanvas.bind("<Leave>", self.leave_notify_event)
self._tkcanvas.bind("<KeyRelease>", self.key_release)
for name in ["<Button-1>", "<Button-2>", "<Button-3>"]:
self._tkcanvas.bind(name, self.button_press_event)
for name in [
"<Double-Button-1>", "<Double-Button-2>", "<Double-Button-3>"]:
self._tkcanvas.bind(name, self.button_dblclick_event)
for name in [
"<ButtonRelease-1>", "<ButtonRelease-2>", "<ButtonRelease-3>"]:
self._tkcanvas.bind(name, self.button_release_event)
# Mouse wheel on Linux generates button 4/5 events
for name in "<Button-4>", "<Button-5>":
self._tkcanvas.bind(name, self.scroll_event)
# Mouse wheel for windows goes to the window with the focus.
# Since the canvas won't usually have the focus, bind the
# event to the window containing the canvas instead.
# See https://wiki.tcl-lang.org/3893 (mousewheel) for details
root = self._tkcanvas.winfo_toplevel()
# Prevent long-lived references via tkinter callback structure GH-24820
weakself = weakref.ref(self)
weakroot = weakref.ref(root)
def scroll_event_windows(event):
self = weakself()
if self is None:
root = weakroot()
if root is not None:
root.unbind("<MouseWheel>", scroll_event_windows_id)
return
return self.scroll_event_windows(event)
scroll_event_windows_id = root.bind("<MouseWheel>", scroll_event_windows, "+")
# Can't get destroy events by binding to _tkcanvas. Therefore, bind
# to the window and filter.
def filter_destroy(event):
self = weakself()
if self is None:
root = weakroot()
if root is not None:
root.unbind("<Destroy>", filter_destroy_id)
return
if event.widget is self._tkcanvas:
CloseEvent("close_event", self)._process()
filter_destroy_id = root.bind("<Destroy>", filter_destroy, "+")
self._tkcanvas.focus_set()
self._rubberband_rect_black = None
self._rubberband_rect_white = None
def _update_device_pixel_ratio(self, event=None):
# Tk gives scaling with respect to 72 DPI, but Windows screens are
# scaled vs 96 dpi, and pixel ratio settings are given in whole
# percentages, so round to 2 digits.
ratio = round(self._tkcanvas.tk.call('tk', 'scaling') / (96 / 72), 2)
if self._set_device_pixel_ratio(ratio):
# The easiest way to resize the canvas is to resize the canvas
# widget itself, since we implement all the logic for resizing the
# canvas backing store on that event.
w, h = self.get_width_height(physical=True)
self._tkcanvas.configure(width=w, height=h)
def resize(self, event):
width, height = event.width, event.height
# compute desired figure size in inches
dpival = self.figure.dpi
winch = width / dpival
hinch = height / dpival
self.figure.set_size_inches(winch, hinch, forward=False)
self._tkcanvas.delete(self._tkcanvas_image_region)
self._tkphoto.configure(width=int(width), height=int(height))
self._tkcanvas_image_region = self._tkcanvas.create_image(
int(width / 2), int(height / 2), image=self._tkphoto)
ResizeEvent("resize_event", self)._process()
self.draw_idle()
def draw_idle(self):
# docstring inherited
if self._idle_draw_id:
return
def idle_draw(*args):
try:
self.draw()
finally:
self._idle_draw_id = None
self._idle_draw_id = self._tkcanvas.after_idle(idle_draw)
def get_tk_widget(self):
"""
Return the Tk widget used to implement FigureCanvasTkAgg.
Although the initial implementation uses a Tk canvas, this routine
is intended to hide that fact.
"""
return self._tkcanvas
def _event_mpl_coords(self, event):
# calling canvasx/canvasy allows taking scrollbars into account (i.e.
# the top of the widget may have been scrolled out of view).
return (self._tkcanvas.canvasx(event.x),
# flipy so y=0 is bottom of canvas
self.figure.bbox.height - self._tkcanvas.canvasy(event.y))
def motion_notify_event(self, event):
MouseEvent("motion_notify_event", self,
*self._event_mpl_coords(event),
modifiers=self._mpl_modifiers(event),
guiEvent=event)._process()
def enter_notify_event(self, event):
LocationEvent("figure_enter_event", self,
*self._event_mpl_coords(event),
modifiers=self._mpl_modifiers(event),
guiEvent=event)._process()
def leave_notify_event(self, event):
LocationEvent("figure_leave_event", self,
*self._event_mpl_coords(event),
modifiers=self._mpl_modifiers(event),
guiEvent=event)._process()
def button_press_event(self, event, dblclick=False):
# set focus to the canvas so that it can receive keyboard events
self._tkcanvas.focus_set()
num = getattr(event, 'num', None)
if sys.platform == 'darwin': # 2 and 3 are reversed.
num = {2: 3, 3: 2}.get(num, num)
MouseEvent("button_press_event", self,
*self._event_mpl_coords(event), num, dblclick=dblclick,
modifiers=self._mpl_modifiers(event),
guiEvent=event)._process()
def button_dblclick_event(self, event):
self.button_press_event(event, dblclick=True)
def button_release_event(self, event):
num = getattr(event, 'num', None)
if sys.platform == 'darwin': # 2 and 3 are reversed.
num = {2: 3, 3: 2}.get(num, num)
MouseEvent("button_release_event", self,
*self._event_mpl_coords(event), num,
modifiers=self._mpl_modifiers(event),
guiEvent=event)._process()
def scroll_event(self, event):
num = getattr(event, 'num', None)
step = 1 if num == 4 else -1 if num == 5 else 0
MouseEvent("scroll_event", self,
*self._event_mpl_coords(event), step=step,
modifiers=self._mpl_modifiers(event),
guiEvent=event)._process()
def scroll_event_windows(self, event):
"""MouseWheel event processor"""
# need to find the window that contains the mouse
w = event.widget.winfo_containing(event.x_root, event.y_root)
if w != self._tkcanvas:
return
x = self._tkcanvas.canvasx(event.x_root - w.winfo_rootx())
y = (self.figure.bbox.height
- self._tkcanvas.canvasy(event.y_root - w.winfo_rooty()))
step = event.delta / 120
MouseEvent("scroll_event", self,
x, y, step=step, modifiers=self._mpl_modifiers(event),
guiEvent=event)._process()
@staticmethod
def _mpl_modifiers(event, *, exclude=None):
# add modifier keys to the key string. Bit details originate from
# http://effbot.org/tkinterbook/tkinter-events-and-bindings.htm
# BIT_SHIFT = 0x001; BIT_CAPSLOCK = 0x002; BIT_CONTROL = 0x004;
# BIT_LEFT_ALT = 0x008; BIT_NUMLOCK = 0x010; BIT_RIGHT_ALT = 0x080;
# BIT_MB_1 = 0x100; BIT_MB_2 = 0x200; BIT_MB_3 = 0x400;
# In general, the modifier key is excluded from the modifier flag,
# however this is not the case on "darwin", so double check that
# we aren't adding repeat modifier flags to a modifier key.
modifiers = [
("ctrl", 1 << 2, "control"),
("alt", 1 << 17, "alt"),
("shift", 1 << 0, "shift"),
] if sys.platform == "win32" else [
("ctrl", 1 << 2, "control"),
("alt", 1 << 4, "alt"),
("shift", 1 << 0, "shift"),
("cmd", 1 << 3, "cmd"),
] if sys.platform == "darwin" else [
("ctrl", 1 << 2, "control"),
("alt", 1 << 3, "alt"),
("shift", 1 << 0, "shift"),
("super", 1 << 6, "super"),
]
return [name for name, mask, key in modifiers
if event.state & mask and exclude != key]
def _get_key(self, event):
unikey = event.char
key = cbook._unikey_or_keysym_to_mplkey(unikey, event.keysym)
if key is not None:
mods = self._mpl_modifiers(event, exclude=key)
# shift is not added to the keys as this is already accounted for.
if "shift" in mods and unikey:
mods.remove("shift")
return "+".join([*mods, key])
def key_press(self, event):
KeyEvent("key_press_event", self,
self._get_key(event), *self._event_mpl_coords(event),
guiEvent=event)._process()
def key_release(self, event):
KeyEvent("key_release_event", self,
self._get_key(event), *self._event_mpl_coords(event),
guiEvent=event)._process()
def new_timer(self, *args, **kwargs):
# docstring inherited
return TimerTk(self._tkcanvas, *args, **kwargs)
def flush_events(self):
# docstring inherited
self._tkcanvas.update()
def start_event_loop(self, timeout=0):
# docstring inherited
if timeout > 0:
milliseconds = int(1000 * timeout)
if milliseconds > 0:
self._event_loop_id = self._tkcanvas.after(
milliseconds, self.stop_event_loop)
else:
self._event_loop_id = self._tkcanvas.after_idle(
self.stop_event_loop)
self._tkcanvas.mainloop()
def stop_event_loop(self):
# docstring inherited
if self._event_loop_id:
self._tkcanvas.after_cancel(self._event_loop_id)
self._event_loop_id = None
self._tkcanvas.quit()
def set_cursor(self, cursor):
try:
self._tkcanvas.configure(cursor=cursord[cursor])
except tkinter.TclError:
pass
class FigureManagerTk(FigureManagerBase):
"""
Attributes
----------
canvas : `FigureCanvas`
The FigureCanvas instance
num : int or str
The Figure number
toolbar : tk.Toolbar
The tk.Toolbar
window : tk.Window
The tk.Window
"""
_owns_mainloop = False
def __init__(self, canvas, num, window):
self.window = window
super().__init__(canvas, num)
self.window.withdraw()
# packing toolbar first, because if space is getting low, last packed
# widget is getting shrunk first (-> the canvas)
self.canvas._tkcanvas.pack(side=tk.TOP, fill=tk.BOTH, expand=1)
# If the window has per-monitor DPI awareness, then setup a Tk variable
# to store the DPI, which will be updated by the C code, and the trace
# will handle it on the Python side.
window_frame = int(window.wm_frame(), 16)
self._window_dpi = tk.IntVar(master=window, value=96,
name=f'window_dpi{window_frame}')
self._window_dpi_cbname = ''
if _tkagg.enable_dpi_awareness(window_frame, window.tk.interpaddr()):
self._window_dpi_cbname = self._window_dpi.trace_add(
'write', self._update_window_dpi)
self._shown = False
@classmethod
def create_with_canvas(cls, canvas_class, figure, num):
# docstring inherited
with _restore_foreground_window_at_end():
if cbook._get_running_interactive_framework() is None:
cbook._setup_new_guiapp()
_c_internal_utils.Win32_SetProcessDpiAwareness_max()
window = tk.Tk(className="matplotlib")
window.withdraw()
# Put a Matplotlib icon on the window rather than the default tk
# icon. See https://www.tcl.tk/man/tcl/TkCmd/wm.html#M50
#
# `ImageTk` can be replaced with `tk` whenever the minimum
# supported Tk version is increased to 8.6, as Tk 8.6+ natively
# supports PNG images.
icon_fname = str(cbook._get_data_path(
'images/matplotlib.png'))
icon_img = ImageTk.PhotoImage(file=icon_fname, master=window)
icon_fname_large = str(cbook._get_data_path(
'images/matplotlib_large.png'))
icon_img_large = ImageTk.PhotoImage(
file=icon_fname_large, master=window)
window.iconphoto(False, icon_img_large, icon_img)
canvas = canvas_class(figure, master=window)
manager = cls(canvas, num, window)
if mpl.is_interactive():
manager.show()
canvas.draw_idle()
return manager
@classmethod
def start_main_loop(cls):
managers = Gcf.get_all_fig_managers()
if managers:
first_manager = managers[0]
manager_class = type(first_manager)
if manager_class._owns_mainloop:
return
manager_class._owns_mainloop = True
try:
first_manager.window.mainloop()
finally:
manager_class._owns_mainloop = False
def _update_window_dpi(self, *args):
newdpi = self._window_dpi.get()
self.window.call('tk', 'scaling', newdpi / 72)
if self.toolbar and hasattr(self.toolbar, '_rescale'):
self.toolbar._rescale()
self.canvas._update_device_pixel_ratio()
def resize(self, width, height):
max_size = 1_400_000 # the measured max on xorg 1.20.8 was 1_409_023
if (width > max_size or height > max_size) and sys.platform == 'linux':
raise ValueError(
'You have requested to resize the '
f'Tk window to ({width}, {height}), one of which '
f'is bigger than {max_size}. At larger sizes xorg will '
'either exit with an error on newer versions (~1.20) or '
'cause corruption on older version (~1.19). We '
'do not expect a window over a million pixel wide or tall '
'to be intended behavior.')
self.canvas._tkcanvas.configure(width=width, height=height)
def show(self):
with _restore_foreground_window_at_end():
if not self._shown:
def destroy(*args):
Gcf.destroy(self)
self.window.protocol("WM_DELETE_WINDOW", destroy)
self.window.deiconify()
self.canvas._tkcanvas.focus_set()
else:
self.canvas.draw_idle()
if mpl.rcParams['figure.raise_window']:
self.canvas.manager.window.attributes('-topmost', 1)
self.canvas.manager.window.attributes('-topmost', 0)
self._shown = True
def destroy(self, *args):
if self.canvas._idle_draw_id:
self.canvas._tkcanvas.after_cancel(self.canvas._idle_draw_id)
if self.canvas._event_loop_id:
self.canvas._tkcanvas.after_cancel(self.canvas._event_loop_id)
if self._window_dpi_cbname:
self._window_dpi.trace_remove('write', self._window_dpi_cbname)
# NOTE: events need to be flushed before issuing destroy (GH #9956),
# however, self.window.update() can break user code. An async callback
# is the safest way to achieve a complete draining of the event queue,
# but it leaks if no tk event loop is running. Therefore we explicitly
# check for an event loop and choose our best guess.
def delayed_destroy():
self.window.destroy()
if self._owns_mainloop and not Gcf.get_num_fig_managers():
self.window.quit()
if cbook._get_running_interactive_framework() == "tk":
# "after idle after 0" avoids Tcl error/race (GH #19940)
self.window.after_idle(self.window.after, 0, delayed_destroy)
else:
self.window.update()
delayed_destroy()
def get_window_title(self):
return self.window.wm_title()
def set_window_title(self, title):
self.window.wm_title(title)
def full_screen_toggle(self):
is_fullscreen = bool(self.window.attributes('-fullscreen'))
self.window.attributes('-fullscreen', not is_fullscreen)
class NavigationToolbar2Tk(NavigationToolbar2, tk.Frame):
def __init__(self, canvas, window=None, *, pack_toolbar=True):
"""
Parameters
----------
canvas : `FigureCanvas`
The figure canvas on which to operate.
window : tk.Window
The tk.Window which owns this toolbar.
pack_toolbar : bool, default: True
If True, add the toolbar to the parent's pack manager's packing
list during initialization with ``side="bottom"`` and ``fill="x"``.
If you want to use the toolbar with a different layout manager, use
``pack_toolbar=False``.
"""
if window is None:
window = canvas.get_tk_widget().master
tk.Frame.__init__(self, master=window, borderwidth=2,
width=int(canvas.figure.bbox.width), height=50)
self._buttons = {}
for text, tooltip_text, image_file, callback in self.toolitems:
if text is None:
# Add a spacer; return value is unused.
self._Spacer()
else:
self._buttons[text] = button = self._Button(
text,
str(cbook._get_data_path(f"images/{image_file}.png")),
toggle=callback in ["zoom", "pan"],
command=getattr(self, callback),
)
if tooltip_text is not None:
ToolTip.createToolTip(button, tooltip_text)
self._label_font = tkinter.font.Font(root=window, size=10)
# This filler item ensures the toolbar is always at least two text
# lines high. Otherwise the canvas gets redrawn as the mouse hovers
# over images because those use two-line messages which resize the
# toolbar.
label = tk.Label(master=self, font=self._label_font,
text='\N{NO-BREAK SPACE}\n\N{NO-BREAK SPACE}')
label.pack(side=tk.RIGHT)
self.message = tk.StringVar(master=self)
self._message_label = tk.Label(master=self, font=self._label_font,
textvariable=self.message,
justify=tk.RIGHT)
self._message_label.pack(side=tk.RIGHT)
NavigationToolbar2.__init__(self, canvas)
if pack_toolbar:
self.pack(side=tk.BOTTOM, fill=tk.X)
def _rescale(self):
"""
Scale all children of the toolbar to current DPI setting.
Before this is called, the Tk scaling setting will have been updated to
match the new DPI. Tk widgets do not update for changes to scaling, but
all measurements made after the change will match the new scaling. Thus
this function re-applies all the same sizes in points, which Tk will
scale correctly to pixels.
"""
for widget in self.winfo_children():
if isinstance(widget, (tk.Button, tk.Checkbutton)):
if hasattr(widget, '_image_file'):
# Explicit class because ToolbarTk calls _rescale.
NavigationToolbar2Tk._set_image_for_button(self, widget)
else:
# Text-only button is handled by the font setting instead.
pass
elif isinstance(widget, tk.Frame):
widget.configure(height='18p')
widget.pack_configure(padx='3p')
elif isinstance(widget, tk.Label):
pass # Text is handled by the font setting instead.
else:
_log.warning('Unknown child class %s', widget.winfo_class)
self._label_font.configure(size=10)
def _update_buttons_checked(self):
# sync button checkstates to match active mode
for text, mode in [('Zoom', _Mode.ZOOM), ('Pan', _Mode.PAN)]:
if text in self._buttons:
if self.mode == mode:
self._buttons[text].select() # NOT .invoke()
else:
self._buttons[text].deselect()
def pan(self, *args):
super().pan(*args)
self._update_buttons_checked()
def zoom(self, *args):
super().zoom(*args)
self._update_buttons_checked()
def set_message(self, s):
self.message.set(s)
def draw_rubberband(self, event, x0, y0, x1, y1):
# Block copied from remove_rubberband for backend_tools convenience.
if self.canvas._rubberband_rect_white:
self.canvas._tkcanvas.delete(self.canvas._rubberband_rect_white)
if self.canvas._rubberband_rect_black:
self.canvas._tkcanvas.delete(self.canvas._rubberband_rect_black)
height = self.canvas.figure.bbox.height
y0 = height - y0
y1 = height - y1
self.canvas._rubberband_rect_black = (
self.canvas._tkcanvas.create_rectangle(
x0, y0, x1, y1))
self.canvas._rubberband_rect_white = (
self.canvas._tkcanvas.create_rectangle(
x0, y0, x1, y1, outline='white', dash=(3, 3)))
def remove_rubberband(self):
if self.canvas._rubberband_rect_white:
self.canvas._tkcanvas.delete(self.canvas._rubberband_rect_white)
self.canvas._rubberband_rect_white = None
if self.canvas._rubberband_rect_black:
self.canvas._tkcanvas.delete(self.canvas._rubberband_rect_black)
self.canvas._rubberband_rect_black = None
def _set_image_for_button(self, button):
"""
Set the image for a button based on its pixel size.
The pixel size is determined by the DPI scaling of the window.
"""
if button._image_file is None:
return
# Allow _image_file to be relative to Matplotlib's "images" data
# directory.
path_regular = cbook._get_data_path('images', button._image_file)
path_large = path_regular.with_name(
path_regular.name.replace('.png', '_large.png'))
size = button.winfo_pixels('18p')
# Nested functions because ToolbarTk calls _Button.
def _get_color(color_name):
# `winfo_rgb` returns an (r, g, b) tuple in the range 0-65535
return button.winfo_rgb(button.cget(color_name))
def _is_dark(color):
if isinstance(color, str):
color = _get_color(color)
return max(color) < 65535 / 2
def _recolor_icon(image, color):
image_data = np.asarray(image).copy()
black_mask = (image_data[..., :3] == 0).all(axis=-1)
image_data[black_mask, :3] = color
return Image.fromarray(image_data, mode="RGBA")
# Use the high-resolution (48x48 px) icon if it exists and is needed
with Image.open(path_large if (size > 24 and path_large.exists())
else path_regular) as im:
# assure a RGBA image as foreground color is RGB
im = im.convert("RGBA")
image = ImageTk.PhotoImage(im.resize((size, size)), master=self)
button._ntimage = image
# create a version of the icon with the button's text color
foreground = (255 / 65535) * np.array(
button.winfo_rgb(button.cget("foreground")))
im_alt = _recolor_icon(im, foreground)
image_alt = ImageTk.PhotoImage(
im_alt.resize((size, size)), master=self)
button._ntimage_alt = image_alt
if _is_dark("background"):
# For Checkbuttons, we need to set `image` and `selectimage` at
# the same time. Otherwise, when updating the `image` option
# (such as when changing DPI), if the old `selectimage` has
# just been overwritten, Tk will throw an error.
image_kwargs = {"image": image_alt}
else:
image_kwargs = {"image": image}
# Checkbuttons may switch the background to `selectcolor` in the
# checked state, so check separately which image it needs to use in
# that state to still ensure enough contrast with the background.
if (
isinstance(button, tk.Checkbutton)
and button.cget("selectcolor") != ""
):
if self._windowingsystem != "x11":
selectcolor = "selectcolor"
else:
# On X11, selectcolor isn't used directly for indicator-less
# buttons. See `::tk::CheckEnter` in the Tk button.tcl source
# code for details.
r1, g1, b1 = _get_color("selectcolor")
r2, g2, b2 = _get_color("activebackground")
selectcolor = ((r1+r2)/2, (g1+g2)/2, (b1+b2)/2)
if _is_dark(selectcolor):
image_kwargs["selectimage"] = image_alt
else:
image_kwargs["selectimage"] = image
button.configure(**image_kwargs, height='18p', width='18p')
def _Button(self, text, image_file, toggle, command):
if not toggle:
b = tk.Button(
master=self, text=text, command=command,
relief="flat", overrelief="groove", borderwidth=1,
)
else:
# There is a bug in tkinter included in some python 3.6 versions
# that without this variable, produces a "visual" toggling of
# other near checkbuttons
# https://bugs.python.org/issue29402
# https://bugs.python.org/issue25684
var = tk.IntVar(master=self)
b = tk.Checkbutton(
master=self, text=text, command=command, indicatoron=False,
variable=var, offrelief="flat", overrelief="groove",
borderwidth=1
)
b.var = var
b._image_file = image_file
if image_file is not None:
# Explicit class because ToolbarTk calls _Button.
NavigationToolbar2Tk._set_image_for_button(self, b)
else:
b.configure(font=self._label_font)
b.pack(side=tk.LEFT)
return b
def _Spacer(self):
# Buttons are also 18pt high.
s = tk.Frame(master=self, height='18p', relief=tk.RIDGE, bg='DarkGray')
s.pack(side=tk.LEFT, padx='3p')
return s
def save_figure(self, *args):
filetypes = self.canvas.get_supported_filetypes_grouped()
tk_filetypes = [
(name, " ".join(f"*.{ext}" for ext in exts))
for name, exts in sorted(filetypes.items())
]
default_extension = self.canvas.get_default_filetype()
default_filetype = self.canvas.get_supported_filetypes()[default_extension]
filetype_variable = tk.StringVar(self, default_filetype)
# adding a default extension seems to break the
# asksaveasfilename dialog when you choose various save types
# from the dropdown. Passing in the empty string seems to
# work - JDH!
# defaultextension = self.canvas.get_default_filetype()
defaultextension = ''
initialdir = os.path.expanduser(mpl.rcParams['savefig.directory'])
# get_default_filename() contains the default extension. On some platforms,
# choosing a different extension from the dropdown does not overwrite it,
# so we need to remove it to make the dropdown functional.
initialfile = pathlib.Path(self.canvas.get_default_filename()).stem
fname = tkinter.filedialog.asksaveasfilename(
master=self.canvas.get_tk_widget().master,
title='Save the figure',
filetypes=tk_filetypes,
defaultextension=defaultextension,
initialdir=initialdir,
initialfile=initialfile,
typevariable=filetype_variable
)
if fname in ["", ()]:
return
# Save dir for next time, unless empty str (i.e., use cwd).
if initialdir != "":
mpl.rcParams['savefig.directory'] = (
os.path.dirname(str(fname)))
# If the filename contains an extension, let savefig() infer the file
# format from that. If it does not, use the selected dropdown option.
if pathlib.Path(fname).suffix[1:] != "":
extension = None
else:
extension = filetypes[filetype_variable.get()][0]
try:
self.canvas.figure.savefig(fname, format=extension)
except Exception as e:
tkinter.messagebox.showerror("Error saving file", str(e))
def set_history_buttons(self):
state_map = {True: tk.NORMAL, False: tk.DISABLED}
can_back = self._nav_stack._pos > 0
can_forward = self._nav_stack._pos < len(self._nav_stack) - 1
if "Back" in self._buttons:
self._buttons['Back']['state'] = state_map[can_back]
if "Forward" in self._buttons:
self._buttons['Forward']['state'] = state_map[can_forward]
class ToolTip:
"""
Tooltip recipe from
http://www.voidspace.org.uk/python/weblog/arch_d7_2006_07_01.shtml#e387
"""
@staticmethod
def createToolTip(widget, text):
toolTip = ToolTip(widget)
def enter(event):
toolTip.showtip(text)
def leave(event):
toolTip.hidetip()
widget.bind('<Enter>', enter)
widget.bind('<Leave>', leave)
def __init__(self, widget):
self.widget = widget
self.tipwindow = None
self.id = None
self.x = self.y = 0
def showtip(self, text):
"""Display text in tooltip window."""
self.text = text
if self.tipwindow or not self.text:
return
x, y, _, _ = self.widget.bbox("insert")
x = x + self.widget.winfo_rootx() + self.widget.winfo_width()
y = y + self.widget.winfo_rooty()
self.tipwindow = tw = tk.Toplevel(self.widget)
tw.wm_overrideredirect(1)
tw.wm_geometry("+%d+%d" % (x, y))
try:
# For Mac OS
tw.tk.call("::tk::unsupported::MacWindowStyle",
"style", tw._w,
"help", "noActivates")
except tk.TclError:
pass
label = tk.Label(tw, text=self.text, justify=tk.LEFT,
relief=tk.SOLID, borderwidth=1)
label.pack(ipadx=1)
def hidetip(self):
tw = self.tipwindow
self.tipwindow = None
if tw:
tw.destroy()
@backend_tools._register_tool_class(FigureCanvasTk)
class RubberbandTk(backend_tools.RubberbandBase):
def draw_rubberband(self, x0, y0, x1, y1):
NavigationToolbar2Tk.draw_rubberband(
self._make_classic_style_pseudo_toolbar(), None, x0, y0, x1, y1)
def remove_rubberband(self):
NavigationToolbar2Tk.remove_rubberband(
self._make_classic_style_pseudo_toolbar())
class ToolbarTk(ToolContainerBase, tk.Frame):
def __init__(self, toolmanager, window=None):
ToolContainerBase.__init__(self, toolmanager)
if window is None:
window = self.toolmanager.canvas.get_tk_widget().master
xmin, xmax = self.toolmanager.canvas.figure.bbox.intervalx
height, width = 50, xmax - xmin
tk.Frame.__init__(self, master=window,
width=int(width), height=int(height),
borderwidth=2)
self._label_font = tkinter.font.Font(size=10)
# This filler item ensures the toolbar is always at least two text
# lines high. Otherwise the canvas gets redrawn as the mouse hovers
# over images because those use two-line messages which resize the
# toolbar.
label = tk.Label(master=self, font=self._label_font,
text='\N{NO-BREAK SPACE}\n\N{NO-BREAK SPACE}')
label.pack(side=tk.RIGHT)
self._message = tk.StringVar(master=self)
self._message_label = tk.Label(master=self, font=self._label_font,
textvariable=self._message)
self._message_label.pack(side=tk.RIGHT)
self._toolitems = {}
self.pack(side=tk.TOP, fill=tk.X)
self._groups = {}
def _rescale(self):
return NavigationToolbar2Tk._rescale(self)
def add_toolitem(
self, name, group, position, image_file, description, toggle):
frame = self._get_groupframe(group)
buttons = frame.pack_slaves()
if position >= len(buttons) or position < 0:
before = None
else:
before = buttons[position]
button = NavigationToolbar2Tk._Button(frame, name, image_file, toggle,
lambda: self._button_click(name))
button.pack_configure(before=before)
if description is not None:
ToolTip.createToolTip(button, description)
self._toolitems.setdefault(name, [])
self._toolitems[name].append(button)
def _get_groupframe(self, group):
if group not in self._groups:
if self._groups:
self._add_separator()
frame = tk.Frame(master=self, borderwidth=0)
frame.pack(side=tk.LEFT, fill=tk.Y)
frame._label_font = self._label_font
self._groups[group] = frame
return self._groups[group]
def _add_separator(self):
return NavigationToolbar2Tk._Spacer(self)
def _button_click(self, name):
self.trigger_tool(name)
def toggle_toolitem(self, name, toggled):
if name not in self._toolitems:
return
for toolitem in self._toolitems[name]:
if toggled:
toolitem.select()
else:
toolitem.deselect()
def remove_toolitem(self, name):
for toolitem in self._toolitems[name]:
toolitem.pack_forget()
del self._toolitems[name]
def set_message(self, s):
self._message.set(s)
@backend_tools._register_tool_class(FigureCanvasTk)
class SaveFigureTk(backend_tools.SaveFigureBase):
def trigger(self, *args):
NavigationToolbar2Tk.save_figure(
self._make_classic_style_pseudo_toolbar())
@backend_tools._register_tool_class(FigureCanvasTk)
class ConfigureSubplotsTk(backend_tools.ConfigureSubplotsBase):
def trigger(self, *args):
NavigationToolbar2Tk.configure_subplots(self)
@backend_tools._register_tool_class(FigureCanvasTk)
class HelpTk(backend_tools.ToolHelpBase):
def trigger(self, *args):
dialog = SimpleDialog(
self.figure.canvas._tkcanvas, self._get_help_text(), ["OK"])
dialog.done = lambda num: dialog.frame.master.withdraw()
Toolbar = ToolbarTk
FigureManagerTk._toolbar2_class = NavigationToolbar2Tk
FigureManagerTk._toolmanager_toolbar_class = ToolbarTk
@_Backend.export
class _BackendTk(_Backend):
backend_version = tk.TkVersion
FigureCanvas = FigureCanvasTk
FigureManager = FigureManagerTk
mainloop = FigureManagerTk.start_main_loop