ai-content-maker/.venv/Lib/site-packages/nltk/draw/table.py

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# Natural Language Toolkit: Table widget
#
# Copyright (C) 2001-2023 NLTK Project
# Author: Edward Loper <edloper@gmail.com>
# URL: <https://www.nltk.org/>
# For license information, see LICENSE.TXT
"""
Tkinter widgets for displaying multi-column listboxes and tables.
"""
import operator
from tkinter import Frame, Label, Listbox, Scrollbar, Tk
######################################################################
# Multi-Column Listbox
######################################################################
class MultiListbox(Frame):
"""
A multi-column listbox, where the current selection applies to an
entire row. Based on the MultiListbox Tkinter widget
recipe from the Python Cookbook (https://code.activestate.com/recipes/52266/)
For the most part, ``MultiListbox`` methods delegate to its
contained listboxes. For any methods that do not have docstrings,
see ``Tkinter.Listbox`` for a description of what that method does.
"""
# /////////////////////////////////////////////////////////////////
# Configuration
# /////////////////////////////////////////////////////////////////
#: Default configuration values for the frame.
FRAME_CONFIG = dict(background="#888", takefocus=True, highlightthickness=1)
#: Default configurations for the column labels.
LABEL_CONFIG = dict(
borderwidth=1,
relief="raised",
font="helvetica -16 bold",
background="#444",
foreground="white",
)
#: Default configuration for the column listboxes.
LISTBOX_CONFIG = dict(
borderwidth=1,
selectborderwidth=0,
highlightthickness=0,
exportselection=False,
selectbackground="#888",
activestyle="none",
takefocus=False,
)
# /////////////////////////////////////////////////////////////////
# Constructor
# /////////////////////////////////////////////////////////////////
def __init__(self, master, columns, column_weights=None, cnf={}, **kw):
"""
Construct a new multi-column listbox widget.
:param master: The widget that should contain the new
multi-column listbox.
:param columns: Specifies what columns should be included in
the new multi-column listbox. If ``columns`` is an integer,
then it is the number of columns to include. If it is
a list, then its length indicates the number of columns
to include; and each element of the list will be used as
a label for the corresponding column.
:param cnf, kw: Configuration parameters for this widget.
Use ``label_*`` to configure all labels; and ``listbox_*``
to configure all listboxes. E.g.:
>>> root = Tk() # doctest: +SKIP
>>> MultiListbox(root, ["Subject", "Sender", "Date"], label_foreground='red').pack() # doctest: +SKIP
"""
# If columns was specified as an int, convert it to a list.
if isinstance(columns, int):
columns = list(range(columns))
include_labels = False
else:
include_labels = True
if len(columns) == 0:
raise ValueError("Expected at least one column")
# Instance variables
self._column_names = tuple(columns)
self._listboxes = []
self._labels = []
# Pick a default value for column_weights, if none was specified.
if column_weights is None:
column_weights = [1] * len(columns)
elif len(column_weights) != len(columns):
raise ValueError("Expected one column_weight for each column")
self._column_weights = column_weights
# Configure our widgets.
Frame.__init__(self, master, **self.FRAME_CONFIG)
self.grid_rowconfigure(1, weight=1)
for i, label in enumerate(self._column_names):
self.grid_columnconfigure(i, weight=column_weights[i])
# Create a label for the column
if include_labels:
l = Label(self, text=label, **self.LABEL_CONFIG)
self._labels.append(l)
l.grid(column=i, row=0, sticky="news", padx=0, pady=0)
l.column_index = i
# Create a listbox for the column
lb = Listbox(self, **self.LISTBOX_CONFIG)
self._listboxes.append(lb)
lb.grid(column=i, row=1, sticky="news", padx=0, pady=0)
lb.column_index = i
# Clicking or dragging selects:
lb.bind("<Button-1>", self._select)
lb.bind("<B1-Motion>", self._select)
# Scroll wheel scrolls:
lb.bind("<Button-4>", lambda e: self._scroll(-1))
lb.bind("<Button-5>", lambda e: self._scroll(+1))
lb.bind("<MouseWheel>", lambda e: self._scroll(e.delta))
# Button 2 can be used to scan:
lb.bind("<Button-2>", lambda e: self.scan_mark(e.x, e.y))
lb.bind("<B2-Motion>", lambda e: self.scan_dragto(e.x, e.y))
# Dragging outside the window has no effect (disable
# the default listbox behavior, which scrolls):
lb.bind("<B1-Leave>", lambda e: "break")
# Columns can be resized by dragging them:
lb.bind("<Button-1>", self._resize_column)
# Columns can be resized by dragging them. (This binding is
# used if they click on the grid between columns:)
self.bind("<Button-1>", self._resize_column)
# Set up key bindings for the widget:
self.bind("<Up>", lambda e: self.select(delta=-1))
self.bind("<Down>", lambda e: self.select(delta=1))
self.bind("<Prior>", lambda e: self.select(delta=-self._pagesize()))
self.bind("<Next>", lambda e: self.select(delta=self._pagesize()))
# Configuration customizations
self.configure(cnf, **kw)
# /////////////////////////////////////////////////////////////////
# Column Resizing
# /////////////////////////////////////////////////////////////////
def _resize_column(self, event):
"""
Callback used to resize a column of the table. Return ``True``
if the column is actually getting resized (if the user clicked
on the far left or far right 5 pixels of a label); and
``False`` otherwies.
"""
# If we're already waiting for a button release, then ignore
# the new button press.
if event.widget.bind("<ButtonRelease>"):
return False
# Decide which column (if any) to resize.
self._resize_column_index = None
if event.widget is self:
for i, lb in enumerate(self._listboxes):
if abs(event.x - (lb.winfo_x() + lb.winfo_width())) < 10:
self._resize_column_index = i
elif event.x > (event.widget.winfo_width() - 5):
self._resize_column_index = event.widget.column_index
elif event.x < 5 and event.widget.column_index != 0:
self._resize_column_index = event.widget.column_index - 1
# Bind callbacks that are used to resize it.
if self._resize_column_index is not None:
event.widget.bind("<Motion>", self._resize_column_motion_cb)
event.widget.bind(
"<ButtonRelease-%d>" % event.num, self._resize_column_buttonrelease_cb
)
return True
else:
return False
def _resize_column_motion_cb(self, event):
lb = self._listboxes[self._resize_column_index]
charwidth = lb.winfo_width() / lb["width"]
x1 = event.x + event.widget.winfo_x()
x2 = lb.winfo_x() + lb.winfo_width()
lb["width"] = max(3, lb["width"] + (x1 - x2) // charwidth)
def _resize_column_buttonrelease_cb(self, event):
event.widget.unbind("<ButtonRelease-%d>" % event.num)
event.widget.unbind("<Motion>")
# /////////////////////////////////////////////////////////////////
# Properties
# /////////////////////////////////////////////////////////////////
@property
def column_names(self):
"""
A tuple containing the names of the columns used by this
multi-column listbox.
"""
return self._column_names
@property
def column_labels(self):
"""
A tuple containing the ``Tkinter.Label`` widgets used to
display the label of each column. If this multi-column
listbox was created without labels, then this will be an empty
tuple. These widgets will all be augmented with a
``column_index`` attribute, which can be used to determine
which column they correspond to. This can be convenient,
e.g., when defining callbacks for bound events.
"""
return tuple(self._labels)
@property
def listboxes(self):
"""
A tuple containing the ``Tkinter.Listbox`` widgets used to
display individual columns. These widgets will all be
augmented with a ``column_index`` attribute, which can be used
to determine which column they correspond to. This can be
convenient, e.g., when defining callbacks for bound events.
"""
return tuple(self._listboxes)
# /////////////////////////////////////////////////////////////////
# Mouse & Keyboard Callback Functions
# /////////////////////////////////////////////////////////////////
def _select(self, e):
i = e.widget.nearest(e.y)
self.selection_clear(0, "end")
self.selection_set(i)
self.activate(i)
self.focus()
def _scroll(self, delta):
for lb in self._listboxes:
lb.yview_scroll(delta, "unit")
return "break"
def _pagesize(self):
""":return: The number of rows that makes up one page"""
return int(self.index("@0,1000000")) - int(self.index("@0,0"))
# /////////////////////////////////////////////////////////////////
# Row selection
# /////////////////////////////////////////////////////////////////
def select(self, index=None, delta=None, see=True):
"""
Set the selected row. If ``index`` is specified, then select
row ``index``. Otherwise, if ``delta`` is specified, then move
the current selection by ``delta`` (negative numbers for up,
positive numbers for down). This will not move the selection
past the top or the bottom of the list.
:param see: If true, then call ``self.see()`` with the newly
selected index, to ensure that it is visible.
"""
if (index is not None) and (delta is not None):
raise ValueError("specify index or delta, but not both")
# If delta was given, then calculate index.
if delta is not None:
if len(self.curselection()) == 0:
index = -1 + delta
else:
index = int(self.curselection()[0]) + delta
# Clear all selected rows.
self.selection_clear(0, "end")
# Select the specified index
if index is not None:
index = min(max(index, 0), self.size() - 1)
# self.activate(index)
self.selection_set(index)
if see:
self.see(index)
# /////////////////////////////////////////////////////////////////
# Configuration
# /////////////////////////////////////////////////////////////////
def configure(self, cnf={}, **kw):
"""
Configure this widget. Use ``label_*`` to configure all
labels; and ``listbox_*`` to configure all listboxes. E.g.:
>>> master = Tk() # doctest: +SKIP
>>> mlb = MultiListbox(master, 5) # doctest: +SKIP
>>> mlb.configure(label_foreground='red') # doctest: +SKIP
>>> mlb.configure(listbox_foreground='red') # doctest: +SKIP
"""
cnf = dict(list(cnf.items()) + list(kw.items()))
for (key, val) in list(cnf.items()):
if key.startswith("label_") or key.startswith("label-"):
for label in self._labels:
label.configure({key[6:]: val})
elif key.startswith("listbox_") or key.startswith("listbox-"):
for listbox in self._listboxes:
listbox.configure({key[8:]: val})
else:
Frame.configure(self, {key: val})
def __setitem__(self, key, val):
"""
Configure this widget. This is equivalent to
``self.configure({key,val``)}. See ``configure()``.
"""
self.configure({key: val})
def rowconfigure(self, row_index, cnf={}, **kw):
"""
Configure all table cells in the given row. Valid keyword
arguments are: ``background``, ``bg``, ``foreground``, ``fg``,
``selectbackground``, ``selectforeground``.
"""
for lb in self._listboxes:
lb.itemconfigure(row_index, cnf, **kw)
def columnconfigure(self, col_index, cnf={}, **kw):
"""
Configure all table cells in the given column. Valid keyword
arguments are: ``background``, ``bg``, ``foreground``, ``fg``,
``selectbackground``, ``selectforeground``.
"""
lb = self._listboxes[col_index]
cnf = dict(list(cnf.items()) + list(kw.items()))
for (key, val) in list(cnf.items()):
if key in (
"background",
"bg",
"foreground",
"fg",
"selectbackground",
"selectforeground",
):
for i in range(lb.size()):
lb.itemconfigure(i, {key: val})
else:
lb.configure({key: val})
def itemconfigure(self, row_index, col_index, cnf=None, **kw):
"""
Configure the table cell at the given row and column. Valid
keyword arguments are: ``background``, ``bg``, ``foreground``,
``fg``, ``selectbackground``, ``selectforeground``.
"""
lb = self._listboxes[col_index]
return lb.itemconfigure(row_index, cnf, **kw)
# /////////////////////////////////////////////////////////////////
# Value Access
# /////////////////////////////////////////////////////////////////
def insert(self, index, *rows):
"""
Insert the given row or rows into the table, at the given
index. Each row value should be a tuple of cell values, one
for each column in the row. Index may be an integer or any of
the special strings (such as ``'end'``) accepted by
``Tkinter.Listbox``.
"""
for elt in rows:
if len(elt) != len(self._column_names):
raise ValueError(
"rows should be tuples whose length "
"is equal to the number of columns"
)
for (lb, elts) in zip(self._listboxes, list(zip(*rows))):
lb.insert(index, *elts)
def get(self, first, last=None):
"""
Return the value(s) of the specified row(s). If ``last`` is
not specified, then return a single row value; otherwise,
return a list of row values. Each row value is a tuple of
cell values, one for each column in the row.
"""
values = [lb.get(first, last) for lb in self._listboxes]
if last:
return [tuple(row) for row in zip(*values)]
else:
return tuple(values)
def bbox(self, row, col):
"""
Return the bounding box for the given table cell, relative to
this widget's top-left corner. The bounding box is a tuple
of integers ``(left, top, width, height)``.
"""
dx, dy, _, _ = self.grid_bbox(row=0, column=col)
x, y, w, h = self._listboxes[col].bbox(row)
return int(x) + int(dx), int(y) + int(dy), int(w), int(h)
# /////////////////////////////////////////////////////////////////
# Hide/Show Columns
# /////////////////////////////////////////////////////////////////
def hide_column(self, col_index):
"""
Hide the given column. The column's state is still
maintained: its values will still be returned by ``get()``, and
you must supply its values when calling ``insert()``. It is
safe to call this on a column that is already hidden.
:see: ``show_column()``
"""
if self._labels:
self._labels[col_index].grid_forget()
self.listboxes[col_index].grid_forget()
self.grid_columnconfigure(col_index, weight=0)
def show_column(self, col_index):
"""
Display a column that has been hidden using ``hide_column()``.
It is safe to call this on a column that is not hidden.
"""
weight = self._column_weights[col_index]
if self._labels:
self._labels[col_index].grid(
column=col_index, row=0, sticky="news", padx=0, pady=0
)
self._listboxes[col_index].grid(
column=col_index, row=1, sticky="news", padx=0, pady=0
)
self.grid_columnconfigure(col_index, weight=weight)
# /////////////////////////////////////////////////////////////////
# Binding Methods
# /////////////////////////////////////////////////////////////////
def bind_to_labels(self, sequence=None, func=None, add=None):
"""
Add a binding to each ``Tkinter.Label`` widget in this
mult-column listbox that will call ``func`` in response to the
event sequence.
:return: A list of the identifiers of replaced binding
functions (if any), allowing for their deletion (to
prevent a memory leak).
"""
return [label.bind(sequence, func, add) for label in self.column_labels]
def bind_to_listboxes(self, sequence=None, func=None, add=None):
"""
Add a binding to each ``Tkinter.Listbox`` widget in this
mult-column listbox that will call ``func`` in response to the
event sequence.
:return: A list of the identifiers of replaced binding
functions (if any), allowing for their deletion (to
prevent a memory leak).
"""
for listbox in self.listboxes:
listbox.bind(sequence, func, add)
def bind_to_columns(self, sequence=None, func=None, add=None):
"""
Add a binding to each ``Tkinter.Label`` and ``Tkinter.Listbox``
widget in this mult-column listbox that will call ``func`` in
response to the event sequence.
:return: A list of the identifiers of replaced binding
functions (if any), allowing for their deletion (to
prevent a memory leak).
"""
return self.bind_to_labels(sequence, func, add) + self.bind_to_listboxes(
sequence, func, add
)
# /////////////////////////////////////////////////////////////////
# Simple Delegation
# /////////////////////////////////////////////////////////////////
# These methods delegate to the first listbox:
def curselection(self, *args, **kwargs):
return self._listboxes[0].curselection(*args, **kwargs)
def selection_includes(self, *args, **kwargs):
return self._listboxes[0].selection_includes(*args, **kwargs)
def itemcget(self, *args, **kwargs):
return self._listboxes[0].itemcget(*args, **kwargs)
def size(self, *args, **kwargs):
return self._listboxes[0].size(*args, **kwargs)
def index(self, *args, **kwargs):
return self._listboxes[0].index(*args, **kwargs)
def nearest(self, *args, **kwargs):
return self._listboxes[0].nearest(*args, **kwargs)
# These methods delegate to each listbox (and return None):
def activate(self, *args, **kwargs):
for lb in self._listboxes:
lb.activate(*args, **kwargs)
def delete(self, *args, **kwargs):
for lb in self._listboxes:
lb.delete(*args, **kwargs)
def scan_mark(self, *args, **kwargs):
for lb in self._listboxes:
lb.scan_mark(*args, **kwargs)
def scan_dragto(self, *args, **kwargs):
for lb in self._listboxes:
lb.scan_dragto(*args, **kwargs)
def see(self, *args, **kwargs):
for lb in self._listboxes:
lb.see(*args, **kwargs)
def selection_anchor(self, *args, **kwargs):
for lb in self._listboxes:
lb.selection_anchor(*args, **kwargs)
def selection_clear(self, *args, **kwargs):
for lb in self._listboxes:
lb.selection_clear(*args, **kwargs)
def selection_set(self, *args, **kwargs):
for lb in self._listboxes:
lb.selection_set(*args, **kwargs)
def yview(self, *args, **kwargs):
for lb in self._listboxes:
v = lb.yview(*args, **kwargs)
return v # if called with no arguments
def yview_moveto(self, *args, **kwargs):
for lb in self._listboxes:
lb.yview_moveto(*args, **kwargs)
def yview_scroll(self, *args, **kwargs):
for lb in self._listboxes:
lb.yview_scroll(*args, **kwargs)
# /////////////////////////////////////////////////////////////////
# Aliases
# /////////////////////////////////////////////////////////////////
itemconfig = itemconfigure
rowconfig = rowconfigure
columnconfig = columnconfigure
select_anchor = selection_anchor
select_clear = selection_clear
select_includes = selection_includes
select_set = selection_set
# /////////////////////////////////////////////////////////////////
# These listbox methods are not defined for multi-listbox
# /////////////////////////////////////////////////////////////////
# def xview(self, *what): pass
# def xview_moveto(self, fraction): pass
# def xview_scroll(self, number, what): pass
######################################################################
# Table
######################################################################
class Table:
"""
A display widget for a table of values, based on a ``MultiListbox``
widget. For many purposes, ``Table`` can be treated as a
list-of-lists. E.g., table[i] is a list of the values for row i;
and table.append(row) adds a new row with the given list of
values. Individual cells can be accessed using table[i,j], which
refers to the j-th column of the i-th row. This can be used to
both read and write values from the table. E.g.:
>>> table[i,j] = 'hello' # doctest: +SKIP
The column (j) can be given either as an index number, or as a
column name. E.g., the following prints the value in the 3rd row
for the 'First Name' column:
>>> print(table[3, 'First Name']) # doctest: +SKIP
John
You can configure the colors for individual rows, columns, or
cells using ``rowconfig()``, ``columnconfig()``, and ``itemconfig()``.
The color configuration for each row will be preserved if the
table is modified; however, when new rows are added, any color
configurations that have been made for *columns* will not be
applied to the new row.
Note: Although ``Table`` acts like a widget in some ways (e.g., it
defines ``grid()``, ``pack()``, and ``bind()``), it is not itself a
widget; it just contains one. This is because widgets need to
define ``__getitem__()``, ``__setitem__()``, and ``__nonzero__()`` in
a way that's incompatible with the fact that ``Table`` behaves as a
list-of-lists.
:ivar _mlb: The multi-column listbox used to display this table's data.
:ivar _rows: A list-of-lists used to hold the cell values of this
table. Each element of _rows is a row value, i.e., a list of
cell values, one for each column in the row.
"""
def __init__(
self,
master,
column_names,
rows=None,
column_weights=None,
scrollbar=True,
click_to_sort=True,
reprfunc=None,
cnf={},
**kw
):
"""
Construct a new Table widget.
:type master: Tkinter.Widget
:param master: The widget that should contain the new table.
:type column_names: list(str)
:param column_names: A list of names for the columns; these
names will be used to create labels for each column;
and can be used as an index when reading or writing
cell values from the table.
:type rows: list(list)
:param rows: A list of row values used to initialize the table.
Each row value should be a tuple of cell values, one for
each column in the row.
:type scrollbar: bool
:param scrollbar: If true, then create a scrollbar for the
new table widget.
:type click_to_sort: bool
:param click_to_sort: If true, then create bindings that will
sort the table's rows by a given column's values if the
user clicks on that colum's label.
:type reprfunc: function
:param reprfunc: If specified, then use this function to
convert each table cell value to a string suitable for
display. ``reprfunc`` has the following signature:
reprfunc(row_index, col_index, cell_value) -> str
(Note that the column is specified by index, not by name.)
:param cnf, kw: Configuration parameters for this widget's
contained ``MultiListbox``. See ``MultiListbox.__init__()``
for details.
"""
self._num_columns = len(column_names)
self._reprfunc = reprfunc
self._frame = Frame(master)
self._column_name_to_index = {c: i for (i, c) in enumerate(column_names)}
# Make a copy of the rows & check that it's valid.
if rows is None:
self._rows = []
else:
self._rows = [[v for v in row] for row in rows]
for row in self._rows:
self._checkrow(row)
# Create our multi-list box.
self._mlb = MultiListbox(self._frame, column_names, column_weights, cnf, **kw)
self._mlb.pack(side="left", expand=True, fill="both")
# Optional scrollbar
if scrollbar:
sb = Scrollbar(self._frame, orient="vertical", command=self._mlb.yview)
self._mlb.listboxes[0]["yscrollcommand"] = sb.set
# for listbox in self._mlb.listboxes:
# listbox['yscrollcommand'] = sb.set
sb.pack(side="right", fill="y")
self._scrollbar = sb
# Set up sorting
self._sortkey = None
if click_to_sort:
for i, l in enumerate(self._mlb.column_labels):
l.bind("<Button-1>", self._sort)
# Fill in our multi-list box.
self._fill_table()
# /////////////////////////////////////////////////////////////////
# { Widget-like Methods
# /////////////////////////////////////////////////////////////////
# These all just delegate to either our frame or our MLB.
def pack(self, *args, **kwargs):
"""Position this table's main frame widget in its parent
widget. See ``Tkinter.Frame.pack()`` for more info."""
self._frame.pack(*args, **kwargs)
def grid(self, *args, **kwargs):
"""Position this table's main frame widget in its parent
widget. See ``Tkinter.Frame.grid()`` for more info."""
self._frame.grid(*args, **kwargs)
def focus(self):
"""Direct (keyboard) input foxus to this widget."""
self._mlb.focus()
def bind(self, sequence=None, func=None, add=None):
"""Add a binding to this table's main frame that will call
``func`` in response to the event sequence."""
self._mlb.bind(sequence, func, add)
def rowconfigure(self, row_index, cnf={}, **kw):
""":see: ``MultiListbox.rowconfigure()``"""
self._mlb.rowconfigure(row_index, cnf, **kw)
def columnconfigure(self, col_index, cnf={}, **kw):
""":see: ``MultiListbox.columnconfigure()``"""
col_index = self.column_index(col_index)
self._mlb.columnconfigure(col_index, cnf, **kw)
def itemconfigure(self, row_index, col_index, cnf=None, **kw):
""":see: ``MultiListbox.itemconfigure()``"""
col_index = self.column_index(col_index)
return self._mlb.itemconfigure(row_index, col_index, cnf, **kw)
def bind_to_labels(self, sequence=None, func=None, add=None):
""":see: ``MultiListbox.bind_to_labels()``"""
return self._mlb.bind_to_labels(sequence, func, add)
def bind_to_listboxes(self, sequence=None, func=None, add=None):
""":see: ``MultiListbox.bind_to_listboxes()``"""
return self._mlb.bind_to_listboxes(sequence, func, add)
def bind_to_columns(self, sequence=None, func=None, add=None):
""":see: ``MultiListbox.bind_to_columns()``"""
return self._mlb.bind_to_columns(sequence, func, add)
rowconfig = rowconfigure
columnconfig = columnconfigure
itemconfig = itemconfigure
# /////////////////////////////////////////////////////////////////
# { Table as list-of-lists
# /////////////////////////////////////////////////////////////////
def insert(self, row_index, rowvalue):
"""
Insert a new row into the table, so that its row index will be
``row_index``. If the table contains any rows whose row index
is greater than or equal to ``row_index``, then they will be
shifted down.
:param rowvalue: A tuple of cell values, one for each column
in the new row.
"""
self._checkrow(rowvalue)
self._rows.insert(row_index, rowvalue)
if self._reprfunc is not None:
rowvalue = [
self._reprfunc(row_index, j, v) for (j, v) in enumerate(rowvalue)
]
self._mlb.insert(row_index, rowvalue)
if self._DEBUG:
self._check_table_vs_mlb()
def extend(self, rowvalues):
"""
Add new rows at the end of the table.
:param rowvalues: A list of row values used to initialize the
table. Each row value should be a tuple of cell values,
one for each column in the row.
"""
for rowvalue in rowvalues:
self.append(rowvalue)
if self._DEBUG:
self._check_table_vs_mlb()
def append(self, rowvalue):
"""
Add a new row to the end of the table.
:param rowvalue: A tuple of cell values, one for each column
in the new row.
"""
self.insert(len(self._rows), rowvalue)
if self._DEBUG:
self._check_table_vs_mlb()
def clear(self):
"""
Delete all rows in this table.
"""
self._rows = []
self._mlb.delete(0, "end")
if self._DEBUG:
self._check_table_vs_mlb()
def __getitem__(self, index):
"""
Return the value of a row or a cell in this table. If
``index`` is an integer, then the row value for the ``index``th
row. This row value consists of a tuple of cell values, one
for each column in the row. If ``index`` is a tuple of two
integers, ``(i,j)``, then return the value of the cell in the
``i``th row and the ``j``th column.
"""
if isinstance(index, slice):
raise ValueError("Slicing not supported")
elif isinstance(index, tuple) and len(index) == 2:
return self._rows[index[0]][self.column_index(index[1])]
else:
return tuple(self._rows[index])
def __setitem__(self, index, val):
"""
Replace the value of a row or a cell in this table with
``val``.
If ``index`` is an integer, then ``val`` should be a row value
(i.e., a tuple of cell values, one for each column). In this
case, the values of the ``index``th row of the table will be
replaced with the values in ``val``.
If ``index`` is a tuple of integers, ``(i,j)``, then replace the
value of the cell in the ``i``th row and ``j``th column with
``val``.
"""
if isinstance(index, slice):
raise ValueError("Slicing not supported")
# table[i,j] = val
elif isinstance(index, tuple) and len(index) == 2:
i, j = index[0], self.column_index(index[1])
config_cookie = self._save_config_info([i])
self._rows[i][j] = val
if self._reprfunc is not None:
val = self._reprfunc(i, j, val)
self._mlb.listboxes[j].insert(i, val)
self._mlb.listboxes[j].delete(i + 1)
self._restore_config_info(config_cookie)
# table[i] = val
else:
config_cookie = self._save_config_info([index])
self._checkrow(val)
self._rows[index] = list(val)
if self._reprfunc is not None:
val = [self._reprfunc(index, j, v) for (j, v) in enumerate(val)]
self._mlb.insert(index, val)
self._mlb.delete(index + 1)
self._restore_config_info(config_cookie)
def __delitem__(self, row_index):
"""
Delete the ``row_index``th row from this table.
"""
if isinstance(row_index, slice):
raise ValueError("Slicing not supported")
if isinstance(row_index, tuple) and len(row_index) == 2:
raise ValueError("Cannot delete a single cell!")
del self._rows[row_index]
self._mlb.delete(row_index)
if self._DEBUG:
self._check_table_vs_mlb()
def __len__(self):
"""
:return: the number of rows in this table.
"""
return len(self._rows)
def _checkrow(self, rowvalue):
"""
Helper function: check that a given row value has the correct
number of elements; and if not, raise an exception.
"""
if len(rowvalue) != self._num_columns:
raise ValueError(
"Row %r has %d columns; expected %d"
% (rowvalue, len(rowvalue), self._num_columns)
)
# /////////////////////////////////////////////////////////////////
# Columns
# /////////////////////////////////////////////////////////////////
@property
def column_names(self):
"""A list of the names of the columns in this table."""
return self._mlb.column_names
def column_index(self, i):
"""
If ``i`` is a valid column index integer, then return it as is.
Otherwise, check if ``i`` is used as the name for any column;
if so, return that column's index. Otherwise, raise a
``KeyError`` exception.
"""
if isinstance(i, int) and 0 <= i < self._num_columns:
return i
else:
# This raises a key error if the column is not found.
return self._column_name_to_index[i]
def hide_column(self, column_index):
""":see: ``MultiListbox.hide_column()``"""
self._mlb.hide_column(self.column_index(column_index))
def show_column(self, column_index):
""":see: ``MultiListbox.show_column()``"""
self._mlb.show_column(self.column_index(column_index))
# /////////////////////////////////////////////////////////////////
# Selection
# /////////////////////////////////////////////////////////////////
def selected_row(self):
"""
Return the index of the currently selected row, or None if
no row is selected. To get the row value itself, use
``table[table.selected_row()]``.
"""
sel = self._mlb.curselection()
if sel:
return int(sel[0])
else:
return None
def select(self, index=None, delta=None, see=True):
""":see: ``MultiListbox.select()``"""
self._mlb.select(index, delta, see)
# /////////////////////////////////////////////////////////////////
# Sorting
# /////////////////////////////////////////////////////////////////
def sort_by(self, column_index, order="toggle"):
"""
Sort the rows in this table, using the specified column's
values as a sort key.
:param column_index: Specifies which column to sort, using
either a column index (int) or a column's label name
(str).
:param order: Specifies whether to sort the values in
ascending or descending order:
- ``'ascending'``: Sort from least to greatest.
- ``'descending'``: Sort from greatest to least.
- ``'toggle'``: If the most recent call to ``sort_by()``
sorted the table by the same column (``column_index``),
then reverse the rows; otherwise sort in ascending
order.
"""
if order not in ("ascending", "descending", "toggle"):
raise ValueError(
'sort_by(): order should be "ascending", ' '"descending", or "toggle".'
)
column_index = self.column_index(column_index)
config_cookie = self._save_config_info(index_by_id=True)
# Sort the rows.
if order == "toggle" and column_index == self._sortkey:
self._rows.reverse()
else:
self._rows.sort(
key=operator.itemgetter(column_index), reverse=(order == "descending")
)
self._sortkey = column_index
# Redraw the table.
self._fill_table()
self._restore_config_info(config_cookie, index_by_id=True, see=True)
if self._DEBUG:
self._check_table_vs_mlb()
def _sort(self, event):
"""Event handler for clicking on a column label -- sort by
that column."""
column_index = event.widget.column_index
# If they click on the far-left of far-right of a column's
# label, then resize rather than sorting.
if self._mlb._resize_column(event):
return "continue"
# Otherwise, sort.
else:
self.sort_by(column_index)
return "continue"
# /////////////////////////////////////////////////////////////////
# { Table Drawing Helpers
# /////////////////////////////////////////////////////////////////
def _fill_table(self, save_config=True):
"""
Re-draw the table from scratch, by clearing out the table's
multi-column listbox; and then filling it in with values from
``self._rows``. Note that any cell-, row-, or column-specific
color configuration that has been done will be lost. The
selection will also be lost -- i.e., no row will be selected
after this call completes.
"""
self._mlb.delete(0, "end")
for i, row in enumerate(self._rows):
if self._reprfunc is not None:
row = [self._reprfunc(i, j, v) for (j, v) in enumerate(row)]
self._mlb.insert("end", row)
def _get_itemconfig(self, r, c):
return {
k: self._mlb.itemconfig(r, c, k)[-1]
for k in (
"foreground",
"selectforeground",
"background",
"selectbackground",
)
}
def _save_config_info(self, row_indices=None, index_by_id=False):
"""
Return a 'cookie' containing information about which row is
selected, and what color configurations have been applied.
this information can the be re-applied to the table (after
making modifications) using ``_restore_config_info()``. Color
configuration information will be saved for any rows in
``row_indices``, or in the entire table, if
``row_indices=None``. If ``index_by_id=True``, the the cookie
will associate rows with their configuration information based
on the rows' python id. This is useful when performing
operations that re-arrange the rows (e.g. ``sort``). If
``index_by_id=False``, then it is assumed that all rows will be
in the same order when ``_restore_config_info()`` is called.
"""
# Default value for row_indices is all rows.
if row_indices is None:
row_indices = list(range(len(self._rows)))
# Look up our current selection.
selection = self.selected_row()
if index_by_id and selection is not None:
selection = id(self._rows[selection])
# Look up the color configuration info for each row.
if index_by_id:
config = {
id(self._rows[r]): [
self._get_itemconfig(r, c) for c in range(self._num_columns)
]
for r in row_indices
}
else:
config = {
r: [self._get_itemconfig(r, c) for c in range(self._num_columns)]
for r in row_indices
}
return selection, config
def _restore_config_info(self, cookie, index_by_id=False, see=False):
"""
Restore selection & color configuration information that was
saved using ``_save_config_info``.
"""
selection, config = cookie
# Clear the selection.
if selection is None:
self._mlb.selection_clear(0, "end")
# Restore selection & color config
if index_by_id:
for r, row in enumerate(self._rows):
if id(row) in config:
for c in range(self._num_columns):
self._mlb.itemconfigure(r, c, config[id(row)][c])
if id(row) == selection:
self._mlb.select(r, see=see)
else:
if selection is not None:
self._mlb.select(selection, see=see)
for r in config:
for c in range(self._num_columns):
self._mlb.itemconfigure(r, c, config[r][c])
# /////////////////////////////////////////////////////////////////
# Debugging (Invariant Checker)
# /////////////////////////////////////////////////////////////////
_DEBUG = False
"""If true, then run ``_check_table_vs_mlb()`` after any operation
that modifies the table."""
def _check_table_vs_mlb(self):
"""
Verify that the contents of the table's ``_rows`` variable match
the contents of its multi-listbox (``_mlb``). This is just
included for debugging purposes, to make sure that the
list-modifying operations are working correctly.
"""
for col in self._mlb.listboxes:
assert len(self) == col.size()
for row in self:
assert len(row) == self._num_columns
assert self._num_columns == len(self._mlb.column_names)
# assert self._column_names == self._mlb.column_names
for i, row in enumerate(self):
for j, cell in enumerate(row):
if self._reprfunc is not None:
cell = self._reprfunc(i, j, cell)
assert self._mlb.get(i)[j] == cell
######################################################################
# Demo/Test Function
######################################################################
# update this to use new WordNet API
def demo():
root = Tk()
root.bind("<Control-q>", lambda e: root.destroy())
table = Table(
root,
"Word Synset Hypernym Hyponym".split(),
column_weights=[0, 1, 1, 1],
reprfunc=(lambda i, j, s: " %s" % s),
)
table.pack(expand=True, fill="both")
from nltk.corpus import brown, wordnet
for word, pos in sorted(set(brown.tagged_words()[:500])):
if pos[0] != "N":
continue
word = word.lower()
for synset in wordnet.synsets(word):
try:
hyper_def = synset.hypernyms()[0].definition()
except:
hyper_def = "*none*"
try:
hypo_def = synset.hypernyms()[0].definition()
except:
hypo_def = "*none*"
table.append([word, synset.definition(), hyper_def, hypo_def])
table.columnconfig("Word", background="#afa")
table.columnconfig("Synset", background="#efe")
table.columnconfig("Hypernym", background="#fee")
table.columnconfig("Hyponym", background="#ffe")
for row in range(len(table)):
for column in ("Hypernym", "Hyponym"):
if table[row, column] == "*none*":
table.itemconfig(
row, column, foreground="#666", selectforeground="#666"
)
root.mainloop()
if __name__ == "__main__":
demo()