Understanding constraints
<img src=/flutter_website/assets/images/docs/ui/layout/article-hero-image.png class=”mw-100” alt=”Hero image from the article”>
When someone learning Flutter asks you why some widget
with width:100
isn’t 100 pixels wide,
the default answer is to tell them to put that widget
inside of a Center
, right?
Don’t do that.
If you do, they’ll come back again and again,
asking why some FittedBox
isn’t working,
why that Column
is overflowing, or what
IntrinsicWidth
is supposed to be doing.
Instead, first tell them that Flutter layout is very different from HTML layout (which is probably where they’re coming from), and then make them memorize the following rule:
Flutter layout can’t really be understood without knowing this rule, so Flutter developers should learn it early on.
In more detail:
- A widget gets its own constraints from its parent. A constraint is just a set of 4 doubles: a minimum and maximum width, and a minimum and maximum height.
- Then the widget goes through its own list of children. One by one, the widget tells its children what their constraints are (which can be different for each child), and then asks each child what size it wants to be.
- Then, the widget positions its children
(horizontally in the
x
axis, and vertically in they
axis), one by one. - And, finally, the widget tells its parent about its own size (within the original constraints, of course).
For example, if a composed widget contains a column with some padding, and wants to lay out its two children as follows:
<img src=/flutter_website/assets/images/docs/ui/layout/children.png class=”mw-100” alt=”Visual layout”>
The negotiation goes something like this:
Widget: “Hey parent, what are my constraints?”
Parent: “You must be from 80
to 300
pixels wide,
and 30
to 85
tall.”
Widget: “Hmmm, since I want to have 5
pixels of padding,
then my children can have at most 290
pixels of width
and 75
pixels of height.”
Widget: “Hey first child, You must be from 0
to 290
pixels wide, and 0
to 75
tall.”
First child: “OK, then I wish to be 290
pixels wide,
and 20
pixels tall.”
Widget: “Hmmm, since I want to put my second child below the
first one, this leaves only 55
pixels of height for
my second child.”
Widget: “Hey second child, You must be from 0
to 290
wide,
and 0
to 55
tall.”
Second child: “OK, I wish to be 140
pixels wide,
and 30
pixels tall.”
Widget: “Very well. My first child has position x: 5
and y: 5
,
and my second child has x: 80
and y: 25
.”
Widget: “Hey parent, I’ve decided that my size is going to be 300
pixels wide, and 60
pixels tall.”
Limitations
As a result of the layout rule mentioned above, Flutter’s layout engine has a few important limitations:
-
A widget can decide its own size only within the constraints given to it by its parent. This means a widget usually can’t have any size it wants.
-
A widget can’t know and doesn’t decide its own position in the screen, since it’s the widget’s parent who decides the position of the widget.
-
Since the parent’s size and position, in its turn, also depends on its own parent, it’s impossible to precisely define the size and position of any widget without taking into consideration the tree as a whole.
-
If a child wants a different size from its parent and the parent doesn’t have enough information to align it, then the child’s size might be ignored. Be specific when defining alignment.
Examples
For an interactive experience, use the following DartPad. Use the numbered horizontal scrolling bar to switch between 29 different examples.
import 'package:flutter/material.dart';
void main() => runApp(const HomePage());
const red = Colors.red;
const green = Colors.green;
const blue = Colors.blue;
const big = TextStyle(fontSize: 30);
//////////////////////////////////////////////////
class HomePage extends StatelessWidget {
const HomePage({super.key});
@override
Widget build(BuildContext context) {
return const FlutterLayoutArticle([
Example1(),
Example2(),
Example3(),
Example4(),
Example5(),
Example6(),
Example7(),
Example8(),
Example9(),
Example10(),
Example11(),
Example12(),
Example13(),
Example14(),
Example15(),
Example16(),
Example17(),
Example18(),
Example19(),
Example20(),
Example21(),
Example22(),
Example23(),
Example24(),
Example25(),
Example26(),
Example27(),
Example28(),
Example29(),
]);
}
}
//////////////////////////////////////////////////
abstract class Example extends StatelessWidget {
const Example({super.key});
String get code;
String get explanation;
}
//////////////////////////////////////////////////
class FlutterLayoutArticle extends StatefulWidget {
const FlutterLayoutArticle(
this.examples, {
super.key,
});
final List<Example> examples;
@override
State<FlutterLayoutArticle> createState() => _FlutterLayoutArticleState();
}
//////////////////////////////////////////////////
class _FlutterLayoutArticleState extends State<FlutterLayoutArticle> {
late int count;
late Widget example;
late String code;
late String explanation;
@override
void initState() {
count = 1;
code = const Example1().code;
explanation = const Example1().explanation;
super.initState();
}
@override
void didUpdateWidget(FlutterLayoutArticle oldWidget) {
super.didUpdateWidget(oldWidget);
var example = widget.examples[count - 1];
code = example.code;
explanation = example.explanation;
}
@override
Widget build(BuildContext context) {
return MaterialApp(
debugShowCheckedModeBanner: false,
title: 'Flutter Layout Article',
home: SafeArea(
child: Material(
color: Colors.black,
child: FittedBox(
child: Container(
width: 400,
height: 670,
color: const Color(0xFFCCCCCC),
child: Column(
crossAxisAlignment: CrossAxisAlignment.center,
children: [
Expanded(
child: ConstrainedBox(
constraints: const BoxConstraints.tightFor(
width: double.infinity, height: double.infinity),
child: widget.examples[count - 1])),
Container(
height: 50,
width: double.infinity,
color: Colors.black,
child: SingleChildScrollView(
scrollDirection: Axis.horizontal,
child: Row(
mainAxisSize: MainAxisSize.min,
children: [
for (int i = 0; i < widget.examples.length; i++)
Container(
width: 58,
padding:
const EdgeInsets.only(left: 4.0, right: 4.0),
child: button(i + 1),
),
],
),
),
),
Container(
height: 273,
color: Colors.grey[50],
child: Scrollbar(
child: SingleChildScrollView(
key: ValueKey(count),
child: Padding(
padding: const EdgeInsets.all(10.0),
child: Column(
children: [
Center(child: Text(code)),
const SizedBox(height: 15),
Text(
explanation,
style: TextStyle(
color: Colors.blue[900],
fontStyle: FontStyle.italic),
),
],
),
),
),
),
),
],
),
),
),
),
),
);
}
Widget button(int exampleNumber) {
return Button(
key: ValueKey('button$exampleNumber'),
isSelected: count == exampleNumber,
exampleNumber: exampleNumber,
onPressed: () {
showExample(
exampleNumber,
widget.examples[exampleNumber - 1].code,
widget.examples[exampleNumber - 1].explanation,
);
},
);
}
void showExample(int exampleNumber, String code, String explanation) {
setState(() {
count = exampleNumber;
this.code = code;
this.explanation = explanation;
});
}
}
//////////////////////////////////////////////////
class Button extends StatelessWidget {
final bool isSelected;
final int exampleNumber;
final VoidCallback onPressed;
const Button({
super.key,
required this.isSelected,
required this.exampleNumber,
required this.onPressed,
});
@override
Widget build(BuildContext context) {
return TextButton(
style: TextButton.styleFrom(
foregroundColor: Colors.white,
backgroundColor: isSelected ? Colors.grey : Colors.grey[800],
),
child: Text(exampleNumber.toString()),
onPressed: () {
Scrollable.ensureVisible(
context,
duration: const Duration(milliseconds: 350),
curve: Curves.easeOut,
alignment: 0.5,
);
onPressed();
},
);
}
}
//////////////////////////////////////////////////
class Example1 extends Example {
const Example1({super.key});
@override
final code = 'Container(color: red)';
@override
final explanation = 'The screen is the parent of the Container, '
'and it forces the Container to be exactly the same size as the screen.'
'\n\n'
'So the Container fills the screen and paints it red.';
@override
Widget build(BuildContext context) {
return Container(color: red);
}
}
//////////////////////////////////////////////////
class Example2 extends Example {
const Example2({super.key});
@override
final code = 'Container(width: 100, height: 100, color: red)';
@override
final String explanation =
'The red Container wants to be 100x100, but it can\'t, '
'because the screen forces it to be exactly the same size as the screen.'
'\n\n'
'So the Container fills the screen.';
@override
Widget build(BuildContext context) {
return Container(width: 100, height: 100, color: red);
}
}
//////////////////////////////////////////////////
class Example3 extends Example {
const Example3({super.key});
@override
final code = 'Center(\n'
' child: Container(width: 100, height: 100, color: red))';
@override
final String explanation =
'The screen forces the Center to be exactly the same size as the screen, '
'so the Center fills the screen.'
'\n\n'
'The Center tells the Container that it can be any size it wants, but not bigger than the screen.'
'Now the Container can indeed be 100x100.';
@override
Widget build(BuildContext context) {
return Center(
child: Container(width: 100, height: 100, color: red),
);
}
}
//////////////////////////////////////////////////
class Example4 extends Example {
const Example4({super.key});
@override
final code = 'Align(\n'
' alignment: Alignment.bottomRight,\n'
' child: Container(width: 100, height: 100, color: red))';
@override
final String explanation =
'This is different from the previous example in that it uses Align instead of Center.'
'\n\n'
'Align also tells the Container that it can be any size it wants, but if there is empty space it won\'t center the Container. '
'Instead, it aligns the Container to the bottom-right of the available space.';
@override
Widget build(BuildContext context) {
return Align(
alignment: Alignment.bottomRight,
child: Container(width: 100, height: 100, color: red),
);
}
}
//////////////////////////////////////////////////
class Example5 extends Example {
const Example5({super.key});
@override
final code = 'Center(\n'
' child: Container(\n'
' color: red,\n'
' width: double.infinity,\n'
' height: double.infinity))';
@override
final String explanation =
'The screen forces the Center to be exactly the same size as the screen, '
'so the Center fills the screen.'
'\n\n'
'The Center tells the Container that it can be any size it wants, but not bigger than the screen.'
'The Container wants to be of infinite size, but since it can\'t be bigger than the screen, it just fills the screen.';
@override
Widget build(BuildContext context) {
return Center(
child: Container(
width: double.infinity, height: double.infinity, color: red),
);
}
}
//////////////////////////////////////////////////
class Example6 extends Example {
const Example6({super.key});
@override
final code = 'Center(child: Container(color: red))';
@override
final String explanation =
'The screen forces the Center to be exactly the same size as the screen, '
'so the Center fills the screen.'
'\n\n'
'The Center tells the Container that it can be any size it wants, but not bigger than the screen.'
'\n\n'
'Since the Container has no child and no fixed size, it decides it wants to be as big as possible, so it fills the whole screen.'
'\n\n'
'But why does the Container decide that? '
'Simply because that\'s a design decision by those who created the Container widget. '
'It could have been created differently, and you have to read the Container documentation to understand how it behaves, depending on the circumstances. ';
@override
Widget build(BuildContext context) {
return Center(
child: Container(color: red),
);
}
}
//////////////////////////////////////////////////
class Example7 extends Example {
const Example7({super.key});
@override
final code = 'Center(\n'
' child: Container(color: red\n'
' child: Container(color: green, width: 30, height: 30)))';
@override
final String explanation =
'The screen forces the Center to be exactly the same size as the screen, '
'so the Center fills the screen.'
'\n\n'
'The Center tells the red Container that it can be any size it wants, but not bigger than the screen.'
'Since the red Container has no size but has a child, it decides it wants to be the same size as its child.'
'\n\n'
'The red Container tells its child that it can be any size it wants, but not bigger than the screen.'
'\n\n'
'The child is a green Container that wants to be 30x30.'
'\n\n'
'Since the red `Container` has no size but has a child, it decides it wants to be the same size as its child. '
'The red color isn\'t visible, since the green Container entirely covers all of the red Container.';
@override
Widget build(BuildContext context) {
return Center(
child: Container(
color: red,
child: Container(color: green, width: 30, height: 30),
),
);
}
}
//////////////////////////////////////////////////
class Example8 extends Example {
const Example8({super.key});
@override
final code = 'Center(\n'
' child: Container(color: red\n'
' padding: const EdgeInsets.all(20.0),\n'
' child: Container(color: green, width: 30, height: 30)))';
@override
final String explanation =
'The red Container sizes itself to its children size, but it takes its own padding into consideration. '
'So it is also 30x30 plus padding. '
'The red color is visible because of the padding, and the green Container has the same size as in the previous example.';
@override
Widget build(BuildContext context) {
return Center(
child: Container(
padding: const EdgeInsets.all(20.0),
color: red,
child: Container(color: green, width: 30, height: 30),
),
);
}
}
//////////////////////////////////////////////////
class Example9 extends Example {
const Example9({super.key});
@override
final code = 'ConstrainedBox(\n'
' constraints: BoxConstraints(\n'
' minWidth: 70, minHeight: 70,\n'
' maxWidth: 150, maxHeight: 150),\n'
' child: Container(color: red, width: 10, height: 10)))';
@override
final String explanation =
'You might guess that the Container has to be between 70 and 150 pixels, but you would be wrong. '
'The ConstrainedBox only imposes ADDITIONAL constraints from those it receives from its parent.'
'\n\n'
'Here, the screen forces the ConstrainedBox to be exactly the same size as the screen, '
'so it tells its child Container to also assume the size of the screen, '
'thus ignoring its \'constraints\' parameter.';
@override
Widget build(BuildContext context) {
return ConstrainedBox(
constraints: const BoxConstraints(
minWidth: 70,
minHeight: 70,
maxWidth: 150,
maxHeight: 150,
),
child: Container(color: red, width: 10, height: 10),
);
}
}
//////////////////////////////////////////////////
class Example10 extends Example {
const Example10({super.key});
@override
final code = 'Center(\n'
' child: ConstrainedBox(\n'
' constraints: BoxConstraints(\n'
' minWidth: 70, minHeight: 70,\n'
' maxWidth: 150, maxHeight: 150),\n'
' child: Container(color: red, width: 10, height: 10))))';
@override
final String explanation =
'Now, Center allows ConstrainedBox to be any size up to the screen size.'
'\n\n'
'The ConstrainedBox imposes ADDITIONAL constraints from its \'constraints\' parameter onto its child.'
'\n\n'
'The Container must be between 70 and 150 pixels. It wants to have 10 pixels, so it will end up having 70 (the MINIMUM).';
@override
Widget build(BuildContext context) {
return Center(
child: ConstrainedBox(
constraints: const BoxConstraints(
minWidth: 70,
minHeight: 70,
maxWidth: 150,
maxHeight: 150,
),
child: Container(color: red, width: 10, height: 10),
),
);
}
}
//////////////////////////////////////////////////
class Example11 extends Example {
const Example11({super.key});
@override
final code = 'Center(\n'
' child: ConstrainedBox(\n'
' constraints: BoxConstraints(\n'
' minWidth: 70, minHeight: 70,\n'
' maxWidth: 150, maxHeight: 150),\n'
' child: Container(color: red, width: 1000, height: 1000))))';
@override
final String explanation =
'Center allows ConstrainedBox to be any size up to the screen size.'
'The ConstrainedBox imposes ADDITIONAL constraints from its \'constraints\' parameter onto its child'
'\n\n'
'The Container must be between 70 and 150 pixels. It wants to have 1000 pixels, so it ends up having 150 (the MAXIMUM).';
@override
Widget build(BuildContext context) {
return Center(
child: ConstrainedBox(
constraints: const BoxConstraints(
minWidth: 70,
minHeight: 70,
maxWidth: 150,
maxHeight: 150,
),
child: Container(color: red, width: 1000, height: 1000),
),
);
}
}
//////////////////////////////////////////////////
class Example12 extends Example {
const Example12({super.key});
@override
final code = 'Center(\n'
' child: ConstrainedBox(\n'
' constraints: BoxConstraints(\n'
' minWidth: 70, minHeight: 70,\n'
' maxWidth: 150, maxHeight: 150),\n'
' child: Container(color: red, width: 100, height: 100))))';
@override
final String explanation =
'Center allows ConstrainedBox to be any size up to the screen size.'
'ConstrainedBox imposes ADDITIONAL constraints from its \'constraints\' parameter onto its child.'
'\n\n'
'The Container must be between 70 and 150 pixels. It wants to have 100 pixels, and that\'s the size it has, since that\'s between 70 and 150.';
@override
Widget build(BuildContext context) {
return Center(
child: ConstrainedBox(
constraints: const BoxConstraints(
minWidth: 70,
minHeight: 70,
maxWidth: 150,
maxHeight: 150,
),
child: Container(color: red, width: 100, height: 100),
),
);
}
}
//////////////////////////////////////////////////
class Example13 extends Example {
const Example13({super.key});
@override
final code = 'UnconstrainedBox(\n'
' child: Container(color: red, width: 20, height: 50));';
@override
final String explanation =
'The screen forces the UnconstrainedBox to be exactly the same size as the screen.'
'However, the UnconstrainedBox lets its child Container be any size it wants.';
@override
Widget build(BuildContext context) {
return UnconstrainedBox(
child: Container(color: red, width: 20, height: 50),
);
}
}
//////////////////////////////////////////////////
class Example14 extends Example {
const Example14({super.key});
@override
final code = 'UnconstrainedBox(\n'
' child: Container(color: red, width: 4000, height: 50));';
@override
final String explanation =
'The screen forces the UnconstrainedBox to be exactly the same size as the screen, '
'and UnconstrainedBox lets its child Container be any size it wants.'
'\n\n'
'Unfortunately, in this case the Container has 4000 pixels of width and is too big to fit in the UnconstrainedBox, '
'so the UnconstrainedBox displays the much dreaded "overflow warning".';
@override
Widget build(BuildContext context) {
return UnconstrainedBox(
child: Container(color: red, width: 4000, height: 50),
);
}
}
//////////////////////////////////////////////////
class Example15 extends Example {
const Example15({super.key});
@override
final code = 'OverflowBox(\n'
' minWidth: 0.0,'
' minHeight: 0.0,'
' maxWidth: double.infinity,'
' maxHeight: double.infinity,'
' child: Container(color: red, width: 4000, height: 50));';
@override
final String explanation =
'The screen forces the OverflowBox to be exactly the same size as the screen, '
'and OverflowBox lets its child Container be any size it wants.'
'\n\n'
'OverflowBox is similar to UnconstrainedBox, and the difference is that it won\'t display any warnings if the child doesn\'t fit the space.'
'\n\n'
'In this case the Container is 4000 pixels wide, and is too big to fit in the OverflowBox, '
'but the OverflowBox simply shows as much as it can, with no warnings given.';
@override
Widget build(BuildContext context) {
return OverflowBox(
minWidth: 0.0,
minHeight: 0.0,
maxWidth: double.infinity,
maxHeight: double.infinity,
child: Container(color: red, width: 4000, height: 50),
);
}
}
//////////////////////////////////////////////////
class Example16 extends Example {
const Example16({super.key});
@override
final code = 'UnconstrainedBox(\n'
' child: Container(color: Colors.red, width: double.infinity, height: 100));';
@override
final String explanation =
'This won\'t render anything, and you\'ll see an error in the console.'
'\n\n'
'The UnconstrainedBox lets its child be any size it wants, '
'however its child is a Container with infinite size.'
'\n\n'
'Flutter can\'t render infinite sizes, so it throws an error with the following message: '
'"BoxConstraints forces an infinite width."';
@override
Widget build(BuildContext context) {
return UnconstrainedBox(
child: Container(color: Colors.red, width: double.infinity, height: 100),
);
}
}
//////////////////////////////////////////////////
class Example17 extends Example {
const Example17({super.key});
@override
final code = 'UnconstrainedBox(\n'
' child: LimitedBox(maxWidth: 100,\n'
' child: Container(color: Colors.red,\n'
' width: double.infinity, height: 100));';
@override
final String explanation = 'Here you won\'t get an error anymore, '
'because when the LimitedBox is given an infinite size by the UnconstrainedBox, '
'it passes a maximum width of 100 down to its child.'
'\n\n'
'If you swap the UnconstrainedBox for a Center widget, '
'the LimitedBox won\'t apply its limit anymore (since its limit is only applied when it gets infinite constraints), '
'and the width of the Container is allowed to grow past 100.'
'\n\n'
'This explains the difference between a LimitedBox and a ConstrainedBox.';
@override
Widget build(BuildContext context) {
return UnconstrainedBox(
child: LimitedBox(
maxWidth: 100,
child: Container(
color: Colors.red,
width: double.infinity,
height: 100,
),
),
);
}
}
//////////////////////////////////////////////////
class Example18 extends Example {
const Example18({super.key});
@override
final code = 'FittedBox(\n'
' child: Text(\'Some Example Text.\'));';
@override
final String explanation =
'The screen forces the FittedBox to be exactly the same size as the screen.'
'The Text has some natural width (also called its intrinsic width) that depends on the amount of text, its font size, and so on.'
'\n\n'
'The FittedBox lets the Text be any size it wants, '
'but after the Text tells its size to the FittedBox, '
'the FittedBox scales the Text until it fills all of the available width.';
@override
Widget build(BuildContext context) {
return const FittedBox(
child: Text('Some Example Text.'),
);
}
}
//////////////////////////////////////////////////
class Example19 extends Example {
const Example19({super.key});
@override
final code = 'Center(\n'
' child: FittedBox(\n'
' child: Text(\'Some Example Text.\')));';
@override
final String explanation =
'But what happens if you put the FittedBox inside of a Center widget? '
'The Center lets the FittedBox be any size it wants, up to the screen size.'
'\n\n'
'The FittedBox then sizes itself to the Text, and lets the Text be any size it wants.'
'\n\n'
'Since both FittedBox and the Text have the same size, no scaling happens.';
@override
Widget build(BuildContext context) {
return const Center(
child: FittedBox(
child: Text('Some Example Text.'),
),
);
}
}
////////////////////////////////////////////////////
class Example20 extends Example {
const Example20({super.key});
@override
final code = 'Center(\n'
' child: FittedBox(\n'
' child: Text(\'…\')));';
@override
final String explanation =
'However, what happens if FittedBox is inside of a Center widget, but the Text is too large to fit the screen?'
'\n\n'
'FittedBox tries to size itself to the Text, but it can\'t be bigger than the screen. '
'It then assumes the screen size, and resizes Text so that it fits the screen, too.';
@override
Widget build(BuildContext context) {
return const Center(
child: FittedBox(
child: Text(
'This is some very very very large text that is too big to fit a regular screen in a single line.'),
),
);
}
}
//////////////////////////////////////////////////
class Example21 extends Example {
const Example21({super.key});
@override
final code = 'Center(\n'
' child: Text(\'…\'));';
@override
final String explanation = 'If, however, you remove the FittedBox, '
'the Text gets its maximum width from the screen, '
'and breaks the line so that it fits the screen.';
@override
Widget build(BuildContext context) {
return const Center(
child: Text(
'This is some very very very large text that is too big to fit a regular screen in a single line.'),
);
}
}
//////////////////////////////////////////////////
class Example22 extends Example {
const Example22({super.key});
@override
final code = 'FittedBox(\n'
' child: Container(\n'
' height: 20.0, width: double.infinity));';
@override
final String explanation =
'FittedBox can only scale a widget that is BOUNDED (has non-infinite width and height).'
'Otherwise, it won\'t render anything, and you\'ll see an error in the console.';
@override
Widget build(BuildContext context) {
return FittedBox(
child: Container(
height: 20.0,
width: double.infinity,
color: Colors.red,
),
);
}
}
//////////////////////////////////////////////////
class Example23 extends Example {
const Example23({super.key});
@override
final code = 'Row(children:[\n'
' Container(color: red, child: Text(\'Hello!\'))\n'
' Container(color: green, child: Text(\'Goodbye!\'))]';
@override
final String explanation =
'The screen forces the Row to be exactly the same size as the screen.'
'\n\n'
'Just like an UnconstrainedBox, the Row won\'t impose any constraints onto its children, '
'and instead lets them be any size they want.'
'\n\n'
'The Row then puts them side-by-side, and any extra space remains empty.';
@override
Widget build(BuildContext context) {
return Row(
children: [
Container(color: red, child: const Text('Hello!', style: big)),
Container(color: green, child: const Text('Goodbye!', style: big)),
],
);
}
}
//////////////////////////////////////////////////
class Example24 extends Example {
const Example24({super.key});
@override
final code = 'Row(children:[\n'
' Container(color: red, child: Text(\'…\'))\n'
' Container(color: green, child: Text(\'Goodbye!\'))]';
@override
final String explanation =
'Since the Row won\'t impose any constraints onto its children, '
'it\'s quite possible that the children might be too big to fit the available width of the Row.'
'In this case, just like an UnconstrainedBox, the Row displays the "overflow warning".';
@override
Widget build(BuildContext context) {
return Row(
children: [
Container(
color: red,
child: const Text(
'This is a very long text that '
'won\'t fit the line.',
style: big,
),
),
Container(color: green, child: const Text('Goodbye!', style: big)),
],
);
}
}
//////////////////////////////////////////////////
class Example25 extends Example {
const Example25({super.key});
@override
final code = 'Row(children:[\n'
' Expanded(\n'
' child: Container(color: red, child: Text(\'…\')))\n'
' Container(color: green, child: Text(\'Goodbye!\'))]';
@override
final String explanation =
'When a Row\'s child is wrapped in an Expanded widget, the Row won\'t let this child define its own width anymore.'
'\n\n'
'Instead, it defines the Expanded width according to the other children, and only then the Expanded widget forces the original child to have the Expanded\'s width.'
'\n\n'
'In other words, once you use Expanded, the original child\'s width becomes irrelevant, and is ignored.';
@override
Widget build(BuildContext context) {
return Row(
children: [
Expanded(
child: Center(
child: Container(
color: red,
child: const Text(
'This is a very long text that won\'t fit the line.',
style: big,
),
),
),
),
Container(color: green, child: const Text('Goodbye!', style: big)),
],
);
}
}
//////////////////////////////////////////////////
class Example26 extends Example {
const Example26({super.key});
@override
final code = 'Row(children:[\n'
' Expanded(\n'
' child: Container(color: red, child: Text(\'…\')))\n'
' Expanded(\n'
' child: Container(color: green, child: Text(\'Goodbye!\'))]';
@override
final String explanation =
'If all of Row\'s children are wrapped in Expanded widgets, each Expanded has a size proportional to its flex parameter, '
'and only then each Expanded widget forces its child to have the Expanded\'s width.'
'\n\n'
'In other words, Expanded ignores the preffered width of its children.';
@override
Widget build(BuildContext context) {
return Row(
children: [
Expanded(
child: Container(
color: red,
child: const Text(
'This is a very long text that won\'t fit the line.',
style: big,
),
),
),
Expanded(
child: Container(
color: green,
child: const Text(
'Goodbye!',
style: big,
),
),
),
],
);
}
}
//////////////////////////////////////////////////
class Example27 extends Example {
const Example27({super.key});
@override
final code = 'Row(children:[\n'
' Flexible(\n'
' child: Container(color: red, child: Text(\'…\')))\n'
' Flexible(\n'
' child: Container(color: green, child: Text(\'Goodbye!\'))]';
@override
final String explanation =
'The only difference if you use Flexible instead of Expanded, '
'is that Flexible lets its child be SMALLER than the Flexible width, '
'while Expanded forces its child to have the same width of the Expanded.'
'\n\n'
'But both Expanded and Flexible ignore their children\'s width when sizing themselves.'
'\n\n'
'This means that it\'s IMPOSSIBLE to expand Row children proportionally to their sizes. '
'The Row either uses the exact child\'s width, or ignores it completely when you use Expanded or Flexible.';
@override
Widget build(BuildContext context) {
return Row(
children: [
Flexible(
child: Container(
color: red,
child: const Text(
'This is a very long text that won\'t fit the line.',
style: big,
),
),
),
Flexible(
child: Container(
color: green,
child: const Text(
'Goodbye!',
style: big,
),
),
),
],
);
}
}
//////////////////////////////////////////////////
class Example28 extends Example {
const Example28({super.key});
@override
final code = 'Scaffold(\n'
' body: Container(color: blue,\n'
' child: Column(\n'
' children: [\n'
' Text(\'Hello!\'),\n'
' Text(\'Goodbye!\')])))';
@override
final String explanation =
'The screen forces the Scaffold to be exactly the same size as the screen, '
'so the Scaffold fills the screen.'
'\n\n'
'The Scaffold tells the Container that it can be any size it wants, but not bigger than the screen.'
'\n\n'
'When a widget tells its child that it can be smaller than a certain size, '
'we say the widget supplies "loose" constraints to its child. More on that later.';
@override
Widget build(BuildContext context) {
return Scaffold(
body: Container(
color: blue,
child: const Column(
children: [
Text('Hello!'),
Text('Goodbye!'),
],
),
),
);
}
}
//////////////////////////////////////////////////
class Example29 extends Example {
const Example29({super.key});
@override
final code = 'Scaffold(\n'
' body: Container(color: blue,\n'
' child: SizedBox.expand(\n'
' child: Column(\n'
' children: [\n'
' Text(\'Hello!\'),\n'
' Text(\'Goodbye!\')]))))';
@override
final String explanation =
'If you want the Scaffold\'s child to be exactly the same size as the Scaffold itself, '
'you can wrap its child with SizedBox.expand.'
'\n\n'
'When a widget tells its child that it must be of a certain size, '
'we say the widget supplies "tight" constraints to its child. More on that later.';
@override
Widget build(BuildContext context) {
return Scaffold(
body: SizedBox.expand(
child: Container(
color: blue,
child: const Column(
children: [
Text('Hello!'),
Text('Goodbye!'),
],
),
),
),
);
}
}
//////////////////////////////////////////////////
If you prefer, you can grab the code from this GitHub repo.
The examples are explained in the following sections.
Example 1
<img src=/flutter_website/assets/images/docs/ui/layout/layout-1.png class=”mw-100” alt=”Example 1 layout”>
Container(color: red)
The screen is the parent of the Container
, and it
forces the Container
to be exactly the same size as the screen.
So the Container
fills the screen and paints it red.
Example 2
<img src=/flutter_website/assets/images/docs/ui/layout/layout-2.png class=”mw-100” alt=”Example 2 layout”>
Container(width: 100, height: 100, color: red)
The red Container
wants to be 100 × 100,
but it can’t, because the screen forces it to be
exactly the same size as the screen.
So the Container
fills the screen.
Example 3
<img src=/flutter_website/assets/images/docs/ui/layout/layout-3.png class=”mw-100” alt=”Example 3 layout”>
Center(
child: Container(width: 100, height: 100, color: red),
)
The screen forces the Center
to be exactly the same size
as the screen, so the Center
fills the screen.
The Center
tells the Container
that it can be any size it
wants, but not bigger than the screen. Now the Container
can indeed be 100 × 100.
Example 4
<img src=/flutter_website/assets/images/docs/ui/layout/layout-4.png class=”mw-100” alt=”Example 4 layout”>
Align(
alignment: Alignment.bottomRight,
child: Container(width: 100, height: 100, color: red),
)
This is different from the previous example in that it uses
Align
instead of Center
.
Align
also tells the Container
that it can be any size it
wants, but if there is empty space it won’t center the Container
.
Instead, it aligns the container to the bottom-right of the
available space.
Example 5
<img src=/flutter_website/assets/images/docs/ui/layout/layout-5.png class=”mw-100” alt=”Example 5 layout”>
Center(
child: Container(
width: double.infinity, height: double.infinity, color: red),
)
The screen forces the Center
to be exactly the
same size as the screen, so the Center
fills the screen.
The Center
tells the Container
that it can be any size it wants,
but not bigger than the screen. The Container
wants to be
of infinite size, but since it can’t be bigger than the screen,
it just fills the screen.
Example 6
<img src=/flutter_website/assets/images/docs/ui/layout/layout-6.png class=”mw-100” alt=”Example 6 layout”>
Center(
child: Container(color: red),
)
The screen forces the Center
to be exactly the
same size as the screen, so the Center
fills the screen.
The Center
tells the Container
that it can be any
size it wants, but not bigger than the screen.
Since the Container
has no child and no fixed size,
it decides it wants to be as big as possible,
so it fills the whole screen.
But why does the Container
decide that?
Simply because that’s a design decision by those who
created the Container
widget. It could have been
created differently, and you have to read the
Container
documentation to understand how it
behaves, depending on the circumstances.
Example 7
<img src=/flutter_website/assets/images/docs/ui/layout/layout-7.png class=”mw-100” alt=”Example 7 layout”>
Center(
child: Container(
color: red,
child: Container(color: green, width: 30, height: 30),
),
)
The screen forces the Center
to be exactly the same
size as the screen, so the Center
fills the screen.
The Center
tells the red Container
that it can be any size
it wants, but not bigger than the screen. Since the red
Container
has no size but has a child,
it decides it wants to be the same size as its child.
The red Container
tells its child that it can be any size
it wants, but not bigger than the screen.
The child is a green Container
that wants to
be 30 × 30. Given that the red Container
sizes itself to
the size of its child, it is also 30 × 30.
The red color isn’t visible because the green Container
entirely covers the red Container
.
Example 8
<img src=/flutter_website/assets/images/docs/ui/layout/layout-8.png class=”mw-100” alt=”Example 8 layout”>
Center(
child: Container(
padding: const EdgeInsets.all(20.0),
color: red,
child: Container(color: green, width: 30, height: 30),
),
)
The red Container
sizes itself to its children’s size,
but it takes its own padding into consideration.
So it is also 30 × 30 plus padding.
The red color is visible because of the padding,
and the green Container
has the same size as
in the previous example.
Example 9
<img src=/flutter_website/assets/images/docs/ui/layout/layout-9.png class=”mw-100” alt=”Example 9 layout”>
ConstrainedBox(
constraints: const BoxConstraints(
minWidth: 70,
minHeight: 70,
maxWidth: 150,
maxHeight: 150,
),
child: Container(color: red, width: 10, height: 10),
)
You might guess that the Container
has to be
between 70 and 150 pixels, but you would be wrong.
The ConstrainedBox
only imposes additional constraints
from those it receives from its parent.
Here, the screen forces the ConstrainedBox
to be exactly
the same size as the screen, so it tells its child Container
to also assume the size of the screen, thus ignoring its
constraints
parameter.
Example 10
<img src=/flutter_website/assets/images/docs/ui/layout/layout-10.png class=”mw-100” alt=”Example 10 layout”>
Center(
child: ConstrainedBox(
constraints: const BoxConstraints(
minWidth: 70,
minHeight: 70,
maxWidth: 150,
maxHeight: 150,
),
child: Container(color: red, width: 10, height: 10),
),
)
Now, Center
allows ConstrainedBox
to be any size up to
the screen size. The ConstrainedBox
imposes additional
constraints from its constraints
parameter onto its child.
The Container must be between 70 and 150 pixels. It wants to have 10 pixels, so it ends up having 70 (the minimum).
Example 11
<img src=/flutter_website/assets/images/docs/ui/layout/layout-11.png class=”mw-100” alt=”Example 11 layout”>
Center(
child: ConstrainedBox(
constraints: const BoxConstraints(
minWidth: 70,
minHeight: 70,
maxWidth: 150,
maxHeight: 150,
),
child: Container(color: red, width: 1000, height: 1000),
),
)
Center
allows ConstrainedBox
to be any size up to the
screen size. The ConstrainedBox
imposes additional
constraints from its constraints
parameter onto its child.
The Container
must be between 70 and 150 pixels.
It wants to have 1000 pixels,
so it ends up having 150 (the maximum).
Example 12
<img src=/flutter_website/assets/images/docs/ui/layout/layout-12.png class=”mw-100” alt=”Example 12 layout”>
Center(
child: ConstrainedBox(
constraints: const BoxConstraints(
minWidth: 70,
minHeight: 70,
maxWidth: 150,
maxHeight: 150,
),
child: Container(color: red, width: 100, height: 100),
),
)
Center
allows ConstrainedBox
to be any size up to the
screen size. The ConstrainedBox
imposes additional
constraints from its constraints
parameter onto its child.
The Container
must be between 70 and 150 pixels.
It wants to have 100 pixels, and that’s the size it has,
since that’s between 70 and 150.
Example 13
<img src=/flutter_website/assets/images/docs/ui/layout/layout-13.png class=”mw-100” alt=”Example 13 layout”>
UnconstrainedBox(
child: Container(color: red, width: 20, height: 50),
)
The screen forces the UnconstrainedBox
to be exactly
the same size as the screen. However, the UnconstrainedBox
lets its child Container
be any size it wants.
Example 14
<img src=/flutter_website/assets/images/docs/ui/layout/layout-14.png class=”mw-100” alt=”Example 14 layout”>
UnconstrainedBox(
child: Container(color: red, width: 4000, height: 50),
)
The screen forces the UnconstrainedBox
to be exactly
the same size as the screen, and UnconstrainedBox
lets its child Container
be any size it wants.
Unfortunately, in this case the Container
is
4000 pixels wide and is too big to fit in
the UnconstrainedBox
, so the UnconstrainedBox
displays
the much dreaded “overflow warning”.
Example 15
<img src=/flutter_website/assets/images/docs/ui/layout/layout-15.png class=”mw-100” alt=”Example 15 layout”>
OverflowBox(
minWidth: 0.0,
minHeight: 0.0,
maxWidth: double.infinity,
maxHeight: double.infinity,
child: Container(color: red, width: 4000, height: 50),
)
The screen forces the OverflowBox
to be exactly the same
size as the screen, and OverflowBox
lets its child Container
be any size it wants.
OverflowBox
is similar to UnconstrainedBox
;
the difference is that it won’t display any warnings
if the child doesn’t fit the space.
In this case, the Container
has 4000 pixels of width,
and is too big to fit in the OverflowBox
,
but the OverflowBox
simply shows as much as it can,
with no warnings given.
Example 16
<img src=/flutter_website/assets/images/docs/ui/layout/layout-16.png class=”mw-100” alt=”Example 16 layout”>
UnconstrainedBox(
child: Container(color: Colors.red, width: double.infinity, height: 100),
)
This won’t render anything, and you’ll see an error in the console.
The UnconstrainedBox
lets its child be any size it wants,
however its child is a Container
with infinite size.
Flutter can’t render infinite sizes, so it throws an error with
the following message: BoxConstraints forces an infinite width.
Example 17
<img src=/flutter_website/assets/images/docs/ui/layout/layout-17.png class=”mw-100” alt=”Example 17 layout”>
UnconstrainedBox(
child: LimitedBox(
maxWidth: 100,
child: Container(
color: Colors.red,
width: double.infinity,
height: 100,
),
),
)
Here you won’t get an error anymore,
because when the LimitedBox
is given an
infinite size by the UnconstrainedBox
;
it passes a maximum width of 100 down to its child.
If you swap the UnconstrainedBox
for a Center
widget,
the LimitedBox
won’t apply its limit anymore
(since its limit is only applied when it gets infinite
constraints), and the width of the Container
is allowed to grow past 100.
This explains the difference between a LimitedBox
and a ConstrainedBox
.
Example 18
<img src=/flutter_website/assets/images/docs/ui/layout/layout-18.png class=”mw-100” alt=”Example 18 layout”>
const FittedBox(
child: Text('Some Example Text.'),
)
The screen forces the FittedBox
to be exactly the same
size as the screen. The Text
has some natural width
(also called its intrinsic width) that depends on the
amount of text, its font size, and so on.
The FittedBox
lets the Text
be any size it wants,
but after the Text
tells its size to the FittedBox
,
the FittedBox
scales the Text until it fills all of
the available width.
Example 19
<img src=/flutter_website/assets/images/docs/ui/layout/layout-19.png class=”mw-100” alt=”Example 19 layout”>
const Center(
child: FittedBox(
child: Text('Some Example Text.'),
),
)
But what happens if you put the FittedBox
inside of a
Center
widget? The Center
lets the FittedBox
be any size it wants, up to the screen size.
The FittedBox
then sizes itself to the Text
,
and lets the Text
be any size it wants.
Since both FittedBox
and the Text
have the same size,
no scaling happens.
Example 20
<img src=/flutter_website/assets/images/docs/ui/layout/layout-20.png class=”mw-100” alt=”Example 20 layout”>
const Center(
child: FittedBox(
child: Text(
'This is some very very very large text that is too big to fit a regular screen in a single line.'),
),
)
However, what happens if FittedBox
is inside of a Center
widget, but the Text
is too large to fit the screen?
FittedBox
tries to size itself to the Text
,
but it can’t be bigger than the screen.
It then assumes the screen size,
and resizes Text
so that it fits the screen, too.
Example 21
<img src=/flutter_website/assets/images/docs/ui/layout/layout-21.png class=”mw-100” alt=”Example 21 layout”>
const Center(
child: Text(
'This is some very very very large text that is too big to fit a regular screen in a single line.'),
)
If, however, you remove the FittedBox
, the Text
gets its maximum width from the screen,
and breaks the line so that it fits the screen.
Example 22
<img src=/flutter_website/assets/images/docs/ui/layout/layout-22.png class=”mw-100” alt=”Example 22 layout”>
FittedBox(
child: Container(
height: 20.0,
width: double.infinity,
color: Colors.red,
),
)
FittedBox
can only scale a widget that is bounded
(has non-infinite width and height). Otherwise,
it won’t render anything,
and you’ll see an error in the console.
Example 23
<img src=/flutter_website/assets/images/docs/ui/layout/layout-23.png class=”mw-100” alt=”Example 23 layout”>
Row(
children: [
Container(color: red, child: const Text('Hello!', style: big)),
Container(color: green, child: const Text('Goodbye!', style: big)),
],
)
The screen forces the Row
to be exactly the same size
as the screen.
Just like an UnconstrainedBox
, the Row
won’t
impose any constraints onto its children,
and instead lets them be any size they want.
The Row
then puts them side-by-side,
and any extra space remains empty.
Example 24
<img src=/flutter_website/assets/images/docs/ui/layout/layout-24.png class=”mw-100” alt=”Example 24 layout”>
Row(
children: [
Container(
color: red,
child: const Text(
'This is a very long text that '
'won\'t fit the line.',
style: big,
),
),
Container(color: green, child: const Text('Goodbye!', style: big)),
],
)
Since Row
won’t impose any constraints onto its children,
it’s quite possible that the children might be too big to fit
the available width of the Row
. In this case, just like an
UnconstrainedBox
, the Row
displays the “overflow warning”.
Example 25
<img src=/flutter_website/assets/images/docs/ui/layout/layout-25.png class=”mw-100” alt=”Example 25 layout”>
Row(
children: [
Expanded(
child: Center(
child: Container(
color: red,
child: const Text(
'This is a very long text that won\'t fit the line.',
style: big,
),
),
),
),
Container(color: green, child: const Text('Goodbye!', style: big)),
],
)
When a Row
’s child is wrapped in an Expanded
widget,
the Row
won’t let this child define its own width anymore.
Instead, it defines the Expanded
width according to the
other children, and only then the Expanded
widget forces
the original child to have the Expanded
’s width.
In other words, once you use Expanded
,
the original child’s width becomes irrelevant, and is ignored.
Example 26
<img src=/flutter_website/assets/images/docs/ui/layout/layout-26.png class=”mw-100” alt=”Example 26 layout”>
Row(
children: [
Expanded(
child: Container(
color: red,
child: const Text(
'This is a very long text that won\'t fit the line.',
style: big,
),
),
),
Expanded(
child: Container(
color: green,
child: const Text(
'Goodbye!',
style: big,
),
),
),
],
)
If all of Row
’s children are wrapped in Expanded
widgets,
each Expanded
has a size proportional to its flex parameter,
and only then each Expanded
widget forces its child to have
the Expanded
’s width.
In other words, Expanded
ignores the preferred width of
its children.
Example 27
<img src=/flutter_website/assets/images/docs/ui/layout/layout-27.png class=”mw-100” alt=”Example 27 layout”>
Row(
children: [
Flexible(
child: Container(
color: red,
child: const Text(
'This is a very long text that won\'t fit the line.',
style: big,
),
),
),
Flexible(
child: Container(
color: green,
child: const Text(
'Goodbye!',
style: big,
),
),
),
],
)
The only difference if you use Flexible
instead of Expanded
,
is that Flexible
lets its child have the same or smaller
width than the Flexible
itself, while Expanded
forces
its child to have the exact same width of the Expanded
.
But both Expanded
and Flexible
ignore their children’s width
when sizing themselves.
Example 28
<img src=/flutter_website/assets/images/docs/ui/layout/layout-28.png class=”mw-100” alt=”Example 28 layout”>
Scaffold(
body: Container(
color: blue,
child: const Column(
children: [
Text('Hello!'),
Text('Goodbye!'),
],
),
),
)
The screen forces the Scaffold
to be exactly the same size
as the screen, so the Scaffold
fills the screen.
The Scaffold
tells the Container
that it can be any size it wants,
but not bigger than the screen.
Example 29
<img src=/flutter_website/assets/images/docs/ui/layout/layout-29.png class=”mw-100” alt=”Example 29 layout”>
Scaffold(
body: SizedBox.expand(
child: Container(
color: blue,
child: const Column(
children: [
Text('Hello!'),
Text('Goodbye!'),
],
),
),
),
)
If you want the Scaffold
’s child to be exactly the same size
as the Scaffold
itself, you can wrap its child with
SizedBox.expand
.
Tight vs. loose constraints
It’s very common to hear that some constraint is “tight” or “loose”, so it’s worth knowing what that means.
A tight constraint offers a single possibility, an exact size. In other words, a tight constraint has its maximum width equal to its minimum width; and has its maximum height equal to its minimum height.
If you go to Flutter’s box.dart
file and search for
the BoxConstraints
constructors, you’ll find the
following:
BoxConstraints.tight(Size size)
: minWidth = size.width,
maxWidth = size.width,
minHeight = size.height,
maxHeight = size.height;
If you revisit Example 2 above,
it tells us that the screen forces the red
Container
to be exactly the same size as the screen.
The screen does that, of course, by passing tight
constraints to the Container
.
A loose constraint, on the other hand, sets the maximum width and height, but lets the widget be as small as it wants. In other words, a loose constraint has a minimum width and height both equal to zero:
BoxConstraints.loose(Size size)
: minWidth = 0.0,
maxWidth = size.width,
minHeight = 0.0,
maxHeight = size.height;
If you revisit Example 3, it tells us that the
Center
lets the red Container
be smaller,
but not bigger than the screen. The Center
does that,
of course, by passing loose constraints to the Container
.
Ultimately, the Center
’s very purpose is to transform
the tight constraints it got from its parent
(the screen) to loose constraints for its child
(the Container
).
Learning the layout rules for specific widgets
Knowing the general layout rule is necessary, but it’s not enough.
Each widget has a lot of freedom when applying the general rule, so there is no way of knowing what it will do by just reading the widget’s name.
If you try to guess, you’ll probably guess wrong. You can’t know exactly how a widget behaves unless you’ve read its documentation, or studied its source-code.
The layout source-code is usually complex, so it’s probably better to just read the documentation. However, if you decide to study the layout source-code, you can easily find it by using the navigating capabilities of your IDE.
Here is an example:
-
Find a
Column
in your code and navigate to its source code. To do this, usecommand+B
(macOS) orcontrol+B
(Windows/Linux) in Android Studio or IntelliJ. You’ll be taken to thebasic.dart
file. SinceColumn
extendsFlex
, navigate to theFlex
source code (also inbasic.dart
). -
Scroll down until you find a method called
createRenderObject()
. As you can see, this method returns aRenderFlex
. This is the render-object for theColumn
. Now navigate to the source-code ofRenderFlex
, which takes you to theflex.dart
file. -
Scroll down until you find a method called
performLayout()
. This is the method that does the layout for theColumn
.
<img src=/flutter_website/assets/images/docs/ui/layout/layout-final.png class=”mw-100” alt=”A goodbye layout”>
Article by Marcelo Glasberg
Marcelo originally published this content as Flutter: The Advanced Layout Rule Even Beginners Must Know on Medium. We loved it and asked that he allow us to publish in on docs.flutter.dev, to which he graciously agreed. Thanks, Marcelo! You can find Marcelo on GitHub and pub.dev.
Also, thanks to Simon Lightfoot for creating the header image at the top of the article.