Layout with Flexbox
A component can specify the layout of its children using the Flexbox algorithm. Flexbox is designed to provide a consistent layout on different screen sizes.
You will normally use a combination of flexDirection
, alignItems
, and justifyContent
to achieve the right layout.
Flexbox works the same way in React Native as it does in CSS on the web, with a few exceptions.
The defaults are different, with flexDirection
defaulting to column
instead of row
, alignContent
defaulting to flex-start
instead of stretch
, flexShrink
defaulting to 0
instead of 1
, the flex
parameter only supporting a single number.
Flex
flex
will define how your items are going to “fill” over the available space along your main axis. Space will be divided according to each element's flex property.
In the following example, the red, orange, and green views are all children in the container view that has flex: 1
set. The red view uses flex: 1
, the orange view uses flex: 2
, and the green view uses flex: 3
. 1+2+3 = 6, which means that the red view will get 1/6
of the space, the orange 2/6
of the space, and the green 3/6
of the space.
Flex Direction
flexDirection
controls the direction in which the children of a node are laid out. This is also referred to as the main axis. The cross axis is the axis perpendicular to the main axis, or the axis which the wrapping lines are laid out in.
-
column
(default value) Align children from top to bottom. If wrapping is enabled, then the next line will start to the right of the first item on the top of the container. -
row
Align children from left to right. If wrapping is enabled, then the next line will start under the first item on the left of the container. -
column-reverse
Align children from bottom to top. If wrapping is enabled, then the next line will start to the right of the first item on the bottom of the container. -
row-reverse
Align children from right to left. If wrapping is enabled, then the next line will start under the first item on the right of the container.
You can learn more here.
- TypeScript
- JavaScript
Layout Direction
Layout direction
specifies the direction in which children and text in a hierarchy should be laid out. Layout direction also affects what edge start
and end
refer to. By default, React Native lays out with LTR layout direction. In this mode start
refers to left and end
refers to right.
-
LTR
(default value) Text and children are laid out from left to right. Margin and padding applied to the start of an element are applied on the left side. -
RTL
Text and children are laid out from right to left. Margin and padding applied to the start of an element are applied on the right side.
- TypeScript
- JavaScript
Justify Content
justifyContent
describes how to align children within the main axis of their container. For example, you can use this property to center a child horizontally within a container with flexDirection
set to row
or vertically within a container with flexDirection
set to column
.
-
flex-start
(default value) Align children of a container to the start of the container's main axis. -
flex-end
Align children of a container to the end of the container's main axis. -
center
Align children of a container in the center of the container's main axis. -
space-between
Evenly space off children across the container's main axis, distributing the remaining space between the children. -
space-around
Evenly space off children across the container's main axis, distributing the remaining space around the children. Compared tospace-between
, usingspace-around
will result in space being distributed to the beginning of the first child and end of the last child. -
space-evenly
Evenly distribute children within the alignment container along the main axis. The spacing between each pair of adjacent items, the main-start edge and the first item, and the main-end edge and the last item, are all exactly the same.
You can learn more here.
- TypeScript
- JavaScript
Align Items
alignItems
describes how to align children along the cross axis of their container. It is very similar to justifyContent
but instead of applying to the main axis, alignItems
applies to the cross axis.
-
stretch
(default value) Stretch children of a container to match theheight
of the container's cross axis. -
flex-start
Align children of a container to the start of the container's cross axis. -
flex-end
Align children of a container to the end of the container's cross axis. -
center
Align children of a container in the center of the container's cross axis. -
baseline
Align children of a container along a common baseline. Individual children can be set to be the reference baseline for their parents.
For stretch
to have an effect, children must not have a fixed dimension along the secondary axis. In the following example, setting alignItems: stretch
does nothing until the width: 50
is removed from the children.
You can learn more here.
- TypeScript
- JavaScript
Align Self
alignSelf
has the same options and effect as alignItems
but instead of affecting the children within a container, you can apply this property to a single child to change its alignment within its parent. alignSelf
overrides any option set by the parent with alignItems
.
- TypeScript
- JavaScript
Align Content
alignContent defines the distribution of lines along the cross-axis. This only has effect when items are wrapped to multiple lines using flexWrap
.
-
flex-start
(default value) Align wrapped lines to the start of the container's cross axis. -
flex-end
Align wrapped lines to the end of the container's cross axis. -
stretch
(default value when using Yoga on the web) Stretch wrapped lines to match the height of the container's cross axis. -
center
Align wrapped lines in the center of the container's cross axis. -
space-between
Evenly space wrapped lines across the container's cross axis, distributing the remaining space between the lines. -
space-around
Evenly space wrapped lines across the container's cross axis, distributing the remaining space around the lines. Compared tospace-between
, usingspace-around
will result in space being distributed to the beginning of the first line and the end of the last line.
You can learn more here.
- TypeScript
- JavaScript
Flex Wrap
The flexWrap
property is set on containers and it controls what happens when children overflow the size of the container along the main axis. By default, children are forced into a single line (which can shrink elements). If wrapping is allowed, items are wrapped into multiple lines along the main axis if needed.
When wrapping lines, alignContent
can be used to specify how the lines are placed in the container. Learn more here.
- TypeScript
- JavaScript
Flex Basis, Grow, and Shrink
-
flexBasis
is an axis-independent way of providing the default size of an item along the main axis. Setting theflexBasis
of a child is similar to setting thewidth
of that child if its parent is a container withflexDirection: row
or setting theheight
of a child if its parent is a container withflexDirection: column
. TheflexBasis
of an item is the default size of that item, the size of the item before anyflexGrow
andflexShrink
calculations are performed. -
flexGrow
describes how any space within a container should be distributed among its children along the main axis. After laying out its children, a container will distribute any remaining space according to the flex grow values specified by its children.flexGrow
accepts any floating point value >= 0, with 0 being the default value. A container will distribute any remaining space among its children weighted by the children’sflexGrow
values. -
flexShrink
describes how to shrink children along the main axis in the case in which the total size of the children overflows the size of the container on the main axis.flexShrink
is very similar toflexGrow
and can be thought of in the same way if any overflowing size is considered to be negative remaining space. These two properties also work well together by allowing children to grow and shrink as needed.flexShrink
accepts any floating point value >= 0, with 0 being the default value (on the web, the default is 1). A container will shrink its children weighted by the children’sflexShrink
values.
You can learn more here.
- TypeScript
- JavaScript
Row Gap, Column Gap and Gap
-
rowGap
sets the size of the gap (gutter) between an element's rows. -
columnGap
sets the size of the gap (gutter) between an element's columns. -
gap
sets the size of the gap (gutter) between rows and columns. It is a shorthand forrowGap
andcolumnGap
.
You can use flexWrap
and alignContent
alongwith gap
to add consistent spacing between items.
- TypeScript
- JavaScript
Width and Height
The width
property specifies the width of an element's content area. Similarly, the height
property specifies the height of an element's content area.
Both width
and height
can take the following values:
-
auto
(default value) React Native calculates the width/height for the element based on its content, whether that is other children, text, or an image. -
pixels
Defines the width/height in absolute pixels. Depending on other styles set on the component, this may or may not be the final dimension of the node. -
percentage
Defines the width or height in percentage of its parent's width or height, respectively.
- TypeScript
- JavaScript
Absolute & Relative Layout
The position
type of an element defines how it is positioned within its parent.
-
relative
(default value) By default, an element is positioned relatively. This means an element is positioned according to the normal flow of the layout, and then offset relative to that position based on the values oftop
,right
,bottom
, andleft
. The offset does not affect the position of any sibling or parent elements. -
absolute
When positioned absolutely, an element doesn't take part in the normal layout flow. It is instead laid out independent of its siblings. The position is determined based on thetop
,right
,bottom
, andleft
values.
- TypeScript
- JavaScript
Going Deeper
Check out the interactive yoga playground that you can use to get a better understanding of flexbox.
We've covered the basics, but there are many other styles you may need for layouts. The full list of props that control layout is documented here.
Additionally, you can see some examples from Wix Engineers.