layout
attribute.Jupyter interactive widgets have a layout
attribute exposing a number of CSS properties that impact how widgets are laid out.
Sizes
height
width
max_height
max_width
min_height
min_width
Display
visibility
display
overflow
overflow_x
overflow_y
Box model
border
margin
padding
Positioning
top
left
bottom
right
Flexbox
order
flex_flow
align_items
flex
align_self
align_content
justify_content
You may have noticed that certain CSS properties such as margin-[top/right/bottom/left]
seem to be missing. The same holds for padding-[top/right/bottom/left]
etc.
In fact, you can atomically specify [top/right/bottom/left]
margins via the margin
attribute alone by passing the string
margin: 100px 150px 100px 80px;
for a respectively top
, right
, bottom
and left
margins of 100
, 150
, 100
and 80
pixels.
Similarly, the flex
attribute can hold values for flex-grow
, flex-shrink
and flex-basis
. The border
attribute is a shorthand property for border-width
, border-style (required)
, and border-color
.
The following example shows how to resize a Button
so that its views have a height of 80px
and a width of 50%
of the available space:
In [1]:
from ipywidgets import Button, Layout
b = Button(description='(50% width, 80px height) button',
layout=Layout(width='50%', height='80px'))
b
The layout
property can be shared between multiple widgets and assigned directly.
In [2]:
Button(description='Another button with the same layout', layout=b.layout)
You may have noticed that long descriptions are truncated. This is because the description length is, by default, fixed.
In [3]:
from ipywidgets import IntSlider
IntSlider(description='A too long description')
You can change the length of the description to fit the description text. However, this will make the widget itself shorter. You can change both by adjusting the description width and the widget width using the widget's style.
In [ ]:
style = {'description_width': 'initial'}
IntSlider(description='A too long description', style=style)
If you need more flexibility to lay out widgets and descriptions, you can use Label widgets directly.
In [ ]:
from ipywidgets import HBox, Label
HBox([Label('A too long description'), IntSlider()])
Most of the core-widgets have
148
pixels32
pixels or a multiple of that number.2
pixelswhich will be the ones used when it is not specified in the layout
attribute.
This allows simple layouts based on the HBox
and VBox
helper functions to align naturally:
In [4]:
from ipywidgets import Button, HBox, VBox
words = ['correct', 'horse', 'battery', 'staple']
items = [Button(description=w) for w in words]
left_box = VBox([items[0], items[1]])
right_box = VBox([items[2], items[3]])
HBox([left_box, right_box])
Widgets such as sliders and text inputs have a description attribute that can render Latex Equations. The Label
widget also renders Latex equations.
In [5]:
from ipywidgets import IntSlider, Label
In [6]:
IntSlider(description=r'\(\int_0^t f\)')
In [7]:
Label(value=r'\(e=mc^2\)')
Sliders have a readout field which can be formatted using Python's Format Specification Mini-Language. If the space available for the readout is too narrow for the string representation of the slider value, a different styling is applied to show that not all digits are visible.
In fact, the HBox
and VBox
helpers used above are functions returning instances of the Box
widget with specific options.
The Box
widgets enables the entire CSS Flexbox spec, enabling rich reactive layouts in the Jupyter notebook. It aims at providing an efficient way to lay out, align and distribute space among items in a container.
Again, the whole Flexbox spec is exposed via the layout
attribute of the container widget (Box
) and the contained items. One may share the same layout
attribute among all the contained items.
The following tutorial on the Flexbox layout follows the lines of the article A Complete Guide to Flexbox by Chris Coyier.
Since flexbox is a whole module and not a single property, it involves a lot of things including its whole set of properties. Some of them are meant to be set on the container (parent element, known as "flex container") whereas the others are meant to be set on the children (said "flex items").
If regular layout is based on both block and inline flow directions, the flex layout is based on "flex-flow directions". Please have a look at this figure from the specification, explaining the main idea behind the flex layout.
Basically, items will be laid out following either the main axis
(from main-start
to main-end
) or the cross axis
(from cross-start
to cross-end
).
main axis
- The main axis of a flex container is the primary axis along which flex items are laid out. Beware, it is not necessarily horizontal; it depends on the flex-direction property (see below).main-start | main-end
- The flex items are placed within the container starting from main-start and going to main-end.main size
- A flex item's width or height, whichever is in the main dimension, is the item's main size. The flex item's main size property is either the ‘width’ or ‘height’ property, whichever is in the main dimension.
cross axis - The axis perpendicular to the main axis is called the cross axis. Its direction depends on the main axis direction.cross-start | cross-end
- Flex lines are filled with items and placed into the container starting on the cross-start side of the flex container and going toward the cross-end side.cross size
- The width or height of a flex item, whichever is in the cross dimension, is the item's cross size. The cross size property is whichever of ‘width’ or ‘height’ that is in the cross dimension.display
(must be equal to 'flex' or 'inline-flex')
This defines a flex container (inline or block).
flex-flow
(shorthand for two properties)
This is a shorthand flex-direction
and flex-wrap
properties, which together define the flex container's main and cross axes. Default is row nowrap
.
flex-direction
(column-reverse | column | row | row-reverse | )
This establishes the main-axis, thus defining the direction flex items are placed in the flex container. Flexbox is (aside from optional wrapping) a single-direction layout concept. Think of flex items as primarily laying out either in horizontal rows or vertical columns.
flex-wrap
(nowrap | wrap | wrap-reverse)
By default, flex items will all try to fit onto one line. You can change that and allow the items to wrap as needed with this property. Direction also plays a role here, determining the direction new lines are stacked in.
justify-content
(flex-start | flex-end | center | space-between | space-around)
This defines the alignment along the main axis. It helps distribute extra free space left over when either all the flex items on a line are inflexible, or are flexible but have reached their maximum size. It also exerts some control over the alignment of items when they overflow the line.
align-items
(flex-start | flex-end | center | baseline | stretch)
This defines the default behaviour for how flex items are laid out along the cross axis on the current line. Think of it as the justify-content version for the cross-axis (perpendicular to the main-axis).
align-content
(flex-start | flex-end | center | baseline | stretch)
This aligns a flex container's lines within when there is extra space in the cross-axis, similar to how justify-content aligns individual items within the main-axis.
Note: this property has no effect when there is only one line of flex items.
The flexbox-related CSS properties of the items have no impact if the parent element is not a flexbox container (i.e. has a display
attribute equal to flex
or inline-flex
).
order
By default, flex items are laid out in the source order. However, the order property controls the order in which they appear in the flex container.
flex
(shorthand for three properties)
This is the shorthand for flex-grow, flex-shrink and flex-basis combined. The second and third parameters (flex-shrink and flex-basis) are optional. Default is 0 1 auto
.
flex-grow
This defines the ability for a flex item to grow if necessary. It accepts a unitless value that serves as a proportion. It dictates what amount of the available space inside the flex container the item should take up.
If all items have flex-grow set to 1, the remaining space in the container will be distributed equally to all children. If one of the children a value of 2, the remaining space would take up twice as much space as the others (or it will try to, at least).
flex-shrink
This defines the ability for a flex item to shrink if necessary.
flex-basis
This defines the default size of an element before the remaining space is distributed. It can be a length (e.g. 20%
, 5rem
, etc.) or a keyword. The auto
keyword means "look at my width or height property".
align-self
This allows the default alignment (or the one specified by align-items) to be overridden for individual flex items.
The VBox
and HBox
helper classes provide simple defaults to arrange child widgets in vertical and horizontal boxes. They are roughly equivalent to:
def VBox(*pargs, **kwargs):
"""Displays multiple widgets vertically using the flexible box model."""
box = Box(*pargs, **kwargs)
box.layout.display = 'flex'
box.layout.flex_flow = 'column'
box.layout.align_items = 'stretch'
return box
def HBox(*pargs, **kwargs):
"""Displays multiple widgets horizontally using the flexible box model."""
box = Box(*pargs, **kwargs)
box.layout.display = 'flex'
box.layout.align_items = 'stretch'
return box
Four buttons in a VBox. Items stretch to the maximum width, in a vertical box taking 50%
of the available space.
In [8]:
from ipywidgets import Layout, Button, Box
items_layout = Layout(flex='1 1 auto',
width='auto') # override the default width of the button to 'auto' to let the button grow
box_layout = Layout(display='flex',
flex_flow='column',
align_items='stretch',
border='solid',
width='50%')
words = ['correct', 'horse', 'battery', 'staple']
items = [Button(description=w, layout=items_layout, button_style='danger') for w in words]
box = Box(children=items, layout=box_layout)
box
Three buttons in an HBox. Items flex proportionaly to their weight.
In [9]:
from ipywidgets import Layout, Button, Box
items = [
Button(description='weight=1'),
Button(description='weight=2', layout=Layout(flex='2 1 auto', width='auto')),
Button(description='weight=1'),
]
box_layout = Layout(display='flex',
flex_flow='row',
align_items='stretch',
border='solid',
width='50%')
box = Box(children=items, layout=box_layout)
box
A more advanced example: a reactive form.
The form is a VBox
of width '50%'. Each row in the VBox is an HBox, that justifies the content with space between..
In [10]:
from ipywidgets import Layout, Button, Box, FloatText, Textarea, Dropdown, Label, IntSlider
form_item_layout = Layout(
display='flex',
flex_flow='row',
justify_content='space-between'
)
form_items = [
Box([Label(value='Age of the captain'), IntSlider(min=40, max=60)], layout=form_item_layout),
Box([Label(value='Egg style'),
Dropdown(options=['Scrambled', 'Sunny side up', 'Over easy'])], layout=form_item_layout),
Box([Label(value='Ship size'),
FloatText()], layout=form_item_layout),
Box([Label(value='Information'),
Textarea()], layout=form_item_layout)
]
form = Box(form_items, layout=Layout(
display='flex',
flex_flow='column',
border='solid 2px',
align_items='stretch',
width='50%'
))
form
A more advanced example: a carousel.
In [11]:
from ipywidgets import Layout, Button, Box
item_layout = Layout(height='100px', min_width='40px')
items = [Button(layout=item_layout, description=str(i), button_style='warning') for i in range(40)]
box_layout = Layout(overflow_x='scroll',
border='3px solid black',
width='500px',
height='',
flex_direction='row',
display='flex')
carousel = Box(children=items, layout=box_layout)
VBox([Label('Scroll horizontally:'), carousel])
If you wish the styling of widgets to make use of colors and styles defined by the environment (to be consistent with e.g. a notebook theme), many widgets enable choosing in a list of pre-defined styles.
For example, the Button
widget has a button_style
attribute that may take 5 different values:
'primary'
'success'
'info'
'warning'
'danger'
besides the default empty string ''.
In [12]:
from ipywidgets import Button
Button(description='Danger Button', button_style='danger')
In [13]:
b1 = Button(description='Custom color')
b1.style.button_color = 'lightgreen'
b1
You can get a list of the style attributes for a widget with the keys
property.
In [ ]:
b1.style.keys
Just like the layout
attribute, widget styles can be assigned to other widgets.
In [14]:
b2 = Button()
b2.style = b1.style
b2
Widget styling attributes are specific to each widget type.
In [15]:
s1 = IntSlider(description='Blue handle')
s1.style.handle_color = 'lightblue'
s1