test-kivy-app/kivy_venv/lib/python3.11/site-packages/kivy/uix/gridlayout.py

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'''
Grid Layout
===========
.. only:: html
.. image:: images/gridlayout.gif
:align: right
.. only:: latex
.. image:: images/gridlayout.png
:align: right
.. versionadded:: 1.0.4
The :class:`GridLayout` arranges children in a matrix. It takes the available
space and divides it into columns and rows, then adds widgets to the resulting
"cells".
.. versionchanged:: 1.0.7
The implementation has changed to use the widget size_hint for calculating
column/row sizes. `uniform_width` and `uniform_height` have been removed
and other properties have added to give you more control.
Background
----------
Unlike many other toolkits, you cannot explicitly place a widget in a specific
column/row. Each child is automatically assigned a position determined by the
layout configuration and the child's index in the children list.
A GridLayout must always have at least one input constraint:
:attr:`GridLayout.cols` or :attr:`GridLayout.rows`. If you do not specify cols
or rows, the Layout will throw an exception.
Column Width and Row Height
---------------------------
The column width/row height are determined in 3 steps:
- The initial size is given by the :attr:`col_default_width` and
:attr:`row_default_height` properties. To customize the size of a single
column or row, use :attr:`cols_minimum` or :attr:`rows_minimum`.
- The `size_hint_x`/`size_hint_y` of the children are taken into account.
If no widgets have a size hint, the maximum size is used for all
children.
- You can force the default size by setting the :attr:`col_force_default`
or :attr:`row_force_default` property. This will force the layout to
ignore the `width` and `size_hint` properties of children and use the
default size.
Using a GridLayout
------------------
In the example below, all widgets will have an equal size. By default, the
`size_hint` is (1, 1), so a Widget will take the full size of the parent::
layout = GridLayout(cols=2)
layout.add_widget(Button(text='Hello 1'))
layout.add_widget(Button(text='World 1'))
layout.add_widget(Button(text='Hello 2'))
layout.add_widget(Button(text='World 2'))
.. image:: images/gridlayout_1.jpg
Now, let's fix the size of Hello buttons to 100px instead of using
size_hint_x=1::
layout = GridLayout(cols=2)
layout.add_widget(Button(text='Hello 1', size_hint_x=None, width=100))
layout.add_widget(Button(text='World 1'))
layout.add_widget(Button(text='Hello 2', size_hint_x=None, width=100))
layout.add_widget(Button(text='World 2'))
.. image:: images/gridlayout_2.jpg
Next, let's fix the row height to a specific size::
layout = GridLayout(cols=2, row_force_default=True, row_default_height=40)
layout.add_widget(Button(text='Hello 1', size_hint_x=None, width=100))
layout.add_widget(Button(text='World 1'))
layout.add_widget(Button(text='Hello 2', size_hint_x=None, width=100))
layout.add_widget(Button(text='World 2'))
.. image:: images/gridlayout_3.jpg
'''
__all__ = ('GridLayout', 'GridLayoutException')
from kivy.logger import Logger
from kivy.uix.layout import Layout
from kivy.properties import NumericProperty, BooleanProperty, DictProperty, \
BoundedNumericProperty, ReferenceListProperty, VariableListProperty, \
ObjectProperty, StringProperty, OptionProperty
from math import ceil
from itertools import accumulate, product, chain, islice
from operator import sub
def nmax(*args):
# merge into one list
args = [x for x in args if x is not None]
return max(args)
def nmin(*args):
# merge into one list
args = [x for x in args if x is not None]
return min(args)
class GridLayoutException(Exception):
'''Exception for errors if the grid layout manipulation fails.
'''
pass
class GridLayout(Layout):
'''Grid layout class. See module documentation for more information.
'''
spacing = VariableListProperty([0, 0], length=2)
'''Spacing between children: [spacing_horizontal, spacing_vertical].
spacing also accepts a one argument form [spacing].
:attr:`spacing` is a
:class:`~kivy.properties.VariableListProperty` and defaults to [0, 0].
'''
padding = VariableListProperty([0, 0, 0, 0])
'''Padding between the layout box and its children: [padding_left,
padding_top, padding_right, padding_bottom].
padding also accepts a two argument form [padding_horizontal,
padding_vertical] and a one argument form [padding].
.. versionchanged:: 1.7.0
Replaced NumericProperty with VariableListProperty.
:attr:`padding` is a :class:`~kivy.properties.VariableListProperty` and
defaults to [0, 0, 0, 0].
'''
cols = BoundedNumericProperty(None, min=0, allownone=True)
'''Number of columns in the grid.
.. versionchanged:: 1.0.8
Changed from a NumericProperty to BoundedNumericProperty. You can no
longer set this to a negative value.
:attr:`cols` is a :class:`~kivy.properties.NumericProperty` and defaults to
None.
'''
rows = BoundedNumericProperty(None, min=0, allownone=True)
'''Number of rows in the grid.
.. versionchanged:: 1.0.8
Changed from a NumericProperty to a BoundedNumericProperty. You can no
longer set this to a negative value.
:attr:`rows` is a :class:`~kivy.properties.NumericProperty` and defaults to
None.
'''
col_default_width = NumericProperty(0)
'''Default minimum size to use for a column.
.. versionadded:: 1.0.7
:attr:`col_default_width` is a :class:`~kivy.properties.NumericProperty`
and defaults to 0.
'''
row_default_height = NumericProperty(0)
'''Default minimum size to use for row.
.. versionadded:: 1.0.7
:attr:`row_default_height` is a :class:`~kivy.properties.NumericProperty`
and defaults to 0.
'''
col_force_default = BooleanProperty(False)
'''If True, ignore the width and size_hint_x of the child and use the
default column width.
.. versionadded:: 1.0.7
:attr:`col_force_default` is a :class:`~kivy.properties.BooleanProperty`
and defaults to False.
'''
row_force_default = BooleanProperty(False)
'''If True, ignore the height and size_hint_y of the child and use the
default row height.
.. versionadded:: 1.0.7
:attr:`row_force_default` is a :class:`~kivy.properties.BooleanProperty`
and defaults to False.
'''
cols_minimum = DictProperty({})
'''Dict of minimum width for each column. The dictionary keys are the
column numbers, e.g. 0, 1, 2...
.. versionadded:: 1.0.7
:attr:`cols_minimum` is a :class:`~kivy.properties.DictProperty` and
defaults to {}.
'''
rows_minimum = DictProperty({})
'''Dict of minimum height for each row. The dictionary keys are the
row numbers, e.g. 0, 1, 2...
.. versionadded:: 1.0.7
:attr:`rows_minimum` is a :class:`~kivy.properties.DictProperty` and
defaults to {}.
'''
minimum_width = NumericProperty(0)
'''Automatically computed minimum width needed to contain all children.
.. versionadded:: 1.0.8
:attr:`minimum_width` is a :class:`~kivy.properties.NumericProperty` and
defaults to 0. It is read only.
'''
minimum_height = NumericProperty(0)
'''Automatically computed minimum height needed to contain all children.
.. versionadded:: 1.0.8
:attr:`minimum_height` is a :class:`~kivy.properties.NumericProperty` and
defaults to 0. It is read only.
'''
minimum_size = ReferenceListProperty(minimum_width, minimum_height)
'''Automatically computed minimum size needed to contain all children.
.. versionadded:: 1.0.8
:attr:`minimum_size` is a
:class:`~kivy.properties.ReferenceListProperty` of
(:attr:`minimum_width`, :attr:`minimum_height`) properties. It is read
only.
'''
orientation = OptionProperty('lr-tb', options=(
'lr-tb', 'tb-lr', 'rl-tb', 'tb-rl', 'lr-bt', 'bt-lr', 'rl-bt',
'bt-rl'))
'''Orientation of the layout.
:attr:`orientation` is an :class:`~kivy.properties.OptionProperty` and
defaults to 'lr-tb'.
Valid orientations are 'lr-tb', 'tb-lr', 'rl-tb', 'tb-rl', 'lr-bt',
'bt-lr', 'rl-bt' and 'bt-rl'.
.. versionadded:: 2.0.0
.. note::
'lr' means Left to Right.
'rl' means Right to Left.
'tb' means Top to Bottom.
'bt' means Bottom to Top.
'''
def __init__(self, **kwargs):
self._cols = self._rows = None
super(GridLayout, self).__init__(**kwargs)
fbind = self.fbind
update = self._trigger_layout
fbind('col_default_width', update)
fbind('row_default_height', update)
fbind('col_force_default', update)
fbind('row_force_default', update)
fbind('cols', update)
fbind('rows', update)
fbind('parent', update)
fbind('spacing', update)
fbind('padding', update)
fbind('children', update)
fbind('size', update)
fbind('pos', update)
fbind('orientation', update)
def get_max_widgets(self):
if self.cols and self.rows:
return self.rows * self.cols
else:
return None
def on_children(self, instance, value):
# if that makes impossible to construct things with deferred method,
# migrate this test in do_layout, and/or issue a warning.
smax = self.get_max_widgets()
if smax and len(value) > smax:
raise GridLayoutException(
'Too many children in GridLayout. Increase rows/cols!')
@property
def _fills_row_first(self):
return self.orientation[0] in 'lr'
@property
def _fills_from_left_to_right(self):
return 'lr' in self.orientation
@property
def _fills_from_top_to_bottom(self):
return 'tb' in self.orientation
def _init_rows_cols_sizes(self, count):
# the goal here is to calculate the minimum size of every cols/rows
# and determine if they have stretch or not
current_cols = self.cols
current_rows = self.rows
# if no cols or rows are set, we can't calculate minimum size.
# the grid must be constrained at least on one side
if not current_cols and not current_rows:
Logger.warning('%r have no cols or rows set, '
'layout is not triggered.' % self)
return
if current_cols is None:
current_cols = int(ceil(count / float(current_rows)))
elif current_rows is None:
current_rows = int(ceil(count / float(current_cols)))
current_cols = max(1, current_cols)
current_rows = max(1, current_rows)
self._has_hint_bound_x = False
self._has_hint_bound_y = False
self._cols_min_size_none = 0. # min size from all the None hint
self._rows_min_size_none = 0. # min size from all the None hint
self._cols = cols = [self.col_default_width] * current_cols
self._cols_sh = [None] * current_cols
self._cols_sh_min = [None] * current_cols
self._cols_sh_max = [None] * current_cols
self._rows = rows = [self.row_default_height] * current_rows
self._rows_sh = [None] * current_rows
self._rows_sh_min = [None] * current_rows
self._rows_sh_max = [None] * current_rows
# update minimum size from the dicts
items = (i for i in self.cols_minimum.items() if i[0] < len(cols))
for index, value in items:
cols[index] = max(value, cols[index])
items = (i for i in self.rows_minimum.items() if i[0] < len(rows))
for index, value in items:
rows[index] = max(value, rows[index])
return True
def _fill_rows_cols_sizes(self):
cols, rows = self._cols, self._rows
cols_sh, rows_sh = self._cols_sh, self._rows_sh
cols_sh_min, rows_sh_min = self._cols_sh_min, self._rows_sh_min
cols_sh_max, rows_sh_max = self._cols_sh_max, self._rows_sh_max
# calculate minimum size for each columns and rows
has_bound_y = has_bound_x = False
idx_iter = self._create_idx_iter(len(cols), len(rows))
for child, (col, row) in zip(reversed(self.children), idx_iter):
(shw, shh), (w, h) = child.size_hint, child.size
shw_min, shh_min = child.size_hint_min
shw_max, shh_max = child.size_hint_max
# compute minimum size / maximum stretch needed
if shw is None:
cols[col] = nmax(cols[col], w)
else:
cols_sh[col] = nmax(cols_sh[col], shw)
if shw_min is not None:
has_bound_x = True
cols_sh_min[col] = nmax(cols_sh_min[col], shw_min)
if shw_max is not None:
has_bound_x = True
cols_sh_max[col] = nmin(cols_sh_max[col], shw_max)
if shh is None:
rows[row] = nmax(rows[row], h)
else:
rows_sh[row] = nmax(rows_sh[row], shh)
if shh_min is not None:
has_bound_y = True
rows_sh_min[row] = nmax(rows_sh_min[row], shh_min)
if shh_max is not None:
has_bound_y = True
rows_sh_max[row] = nmin(rows_sh_max[row], shh_max)
self._has_hint_bound_x = has_bound_x
self._has_hint_bound_y = has_bound_y
def _update_minimum_size(self):
# calculate minimum width/height needed, starting from padding +
# spacing
l, t, r, b = self.padding
spacing_x, spacing_y = self.spacing
cols, rows = self._cols, self._rows
width = l + r + spacing_x * (len(cols) - 1)
self._cols_min_size_none = sum(cols) + width
# we need to subtract for the sh_max/min the already guaranteed size
# due to having a None in the col. So sh_min gets smaller by that size
# since it's already covered. Similarly for sh_max, because if we
# already exceeded the max, the subtracted max will be zero, so
# it won't get larger
if self._has_hint_bound_x:
cols_sh_min = self._cols_sh_min
cols_sh_max = self._cols_sh_max
for i, (c, sh_min, sh_max) in enumerate(
zip(cols, cols_sh_min, cols_sh_max)):
if sh_min is not None:
width += max(c, sh_min)
cols_sh_min[i] = max(0., sh_min - c)
else:
width += c
if sh_max is not None:
cols_sh_max[i] = max(0., sh_max - c)
else:
width = self._cols_min_size_none
height = t + b + spacing_y * (len(rows) - 1)
self._rows_min_size_none = sum(rows) + height
if self._has_hint_bound_y:
rows_sh_min = self._rows_sh_min
rows_sh_max = self._rows_sh_max
for i, (r, sh_min, sh_max) in enumerate(
zip(rows, rows_sh_min, rows_sh_max)):
if sh_min is not None:
height += max(r, sh_min)
rows_sh_min[i] = max(0., sh_min - r)
else:
height += r
if sh_max is not None:
rows_sh_max[i] = max(0., sh_max - r)
else:
height = self._rows_min_size_none
# finally, set the minimum size
self.minimum_size = (width, height)
def _finalize_rows_cols_sizes(self):
selfw = self.width
selfh = self.height
# resolve size for each column
if self.col_force_default:
cols = [self.col_default_width] * len(self._cols)
for index, value in self.cols_minimum.items():
cols[index] = value
self._cols = cols
else:
cols = self._cols
cols_sh = self._cols_sh
cols_sh_min = self._cols_sh_min
cols_weight = float(sum((x for x in cols_sh if x is not None)))
stretch_w = max(0., selfw - self._cols_min_size_none)
if stretch_w > 1e-9:
if self._has_hint_bound_x:
# fix the hints to be within bounds
self.layout_hint_with_bounds(
cols_weight, stretch_w,
sum((c for c in cols_sh_min if c is not None)),
cols_sh_min, self._cols_sh_max, cols_sh)
for index, col_stretch in enumerate(cols_sh):
# if the col don't have stretch information, nothing to do
if not col_stretch:
continue
# add to the min width whatever remains from size_hint
cols[index] += stretch_w * col_stretch / cols_weight
# same algo for rows
if self.row_force_default:
rows = [self.row_default_height] * len(self._rows)
for index, value in self.rows_minimum.items():
rows[index] = value
self._rows = rows
else:
rows = self._rows
rows_sh = self._rows_sh
rows_sh_min = self._rows_sh_min
rows_weight = float(sum((x for x in rows_sh if x is not None)))
stretch_h = max(0., selfh - self._rows_min_size_none)
if stretch_h > 1e-9:
if self._has_hint_bound_y:
# fix the hints to be within bounds
self.layout_hint_with_bounds(
rows_weight, stretch_h,
sum((r for r in rows_sh_min if r is not None)),
rows_sh_min, self._rows_sh_max, rows_sh)
for index, row_stretch in enumerate(rows_sh):
# if the row don't have stretch information, nothing to do
if not row_stretch:
continue
# add to the min height whatever remains from size_hint
rows[index] += stretch_h * row_stretch / rows_weight
def _iterate_layout(self, count):
orientation = self.orientation
padding = self.padding
spacing_x, spacing_y = self.spacing
cols = self._cols
if self._fills_from_left_to_right:
x_iter = accumulate(chain(
(self.x + padding[0], ),
(
col_width + spacing_x
for col_width in islice(cols, len(cols) - 1)
),
))
else:
x_iter = accumulate(chain(
(self.right - padding[2] - cols[-1], ),
(
col_width + spacing_x
for col_width in islice(reversed(cols), 1, None)
),
), sub)
cols = reversed(cols)
rows = self._rows
if self._fills_from_top_to_bottom:
y_iter = accumulate(chain(
(self.top - padding[1] - rows[0], ),
(
row_height + spacing_y
for row_height in islice(rows, 1, None)
),
), sub)
else:
y_iter = accumulate(chain(
(self.y + padding[3], ),
(
row_height + spacing_y
for row_height in islice(reversed(rows), len(rows) - 1)
),
))
rows = reversed(rows)
if self._fills_row_first:
for i, (y, x), (row_height, col_width) in zip(
reversed(range(count)),
product(y_iter, x_iter),
product(rows, cols)):
yield i, x, y, col_width, row_height
else:
for i, (x, y), (col_width, row_height) in zip(
reversed(range(count)),
product(x_iter, y_iter),
product(cols, rows)):
yield i, x, y, col_width, row_height
def do_layout(self, *largs):
children = self.children
if not children or not self._init_rows_cols_sizes(len(children)):
l, t, r, b = self.padding
self.minimum_size = l + r, t + b
return
self._fill_rows_cols_sizes()
self._update_minimum_size()
self._finalize_rows_cols_sizes()
for i, x, y, w, h in self._iterate_layout(len(children)):
c = children[i]
c.pos = x, y
shw, shh = c.size_hint
shw_min, shh_min = c.size_hint_min
shw_max, shh_max = c.size_hint_max
if shw_min is not None:
if shw_max is not None:
w = max(min(w, shw_max), shw_min)
else:
w = max(w, shw_min)
else:
if shw_max is not None:
w = min(w, shw_max)
if shh_min is not None:
if shh_max is not None:
h = max(min(h, shh_max), shh_min)
else:
h = max(h, shh_min)
else:
if shh_max is not None:
h = min(h, shh_max)
if shw is None:
if shh is not None:
c.height = h
else:
if shh is None:
c.width = w
else:
c.size = (w, h)
def _create_idx_iter(self, n_cols, n_rows):
col_indices = range(n_cols) if self._fills_from_left_to_right \
else range(n_cols - 1, -1, -1)
row_indices = range(n_rows) if self._fills_from_top_to_bottom \
else range(n_rows - 1, -1, -1)
if self._fills_row_first:
return (
(col_index, row_index)
for row_index, col_index in product(row_indices, col_indices))
else:
return product(col_indices, row_indices)