Branches

If
- If-case
Switch statements
- Switch expressions
- Exhaustiveness checking
Guard clause

This page shows how you can control the flow of your Dart code using branches:

if statements and elements
if-case statements and elements
switch statements and expressions

You can also manipulate control flow in Dart using:

Loops, like for and while
Exceptions, like try, catch, and throw

If

Dart supports if statements with optional else clauses. The condition in parentheses after if must be an expression that evaluates to a boolean:

if (isRaining()) {
  you.bringRainCoat();
} else if (isSnowing()) {
  you.wearJacket();
} else {
  car.putTopDown();
}

To learn how to use if in an expression context, check out Conditional expressions.

If-case

Dart if statements support case clauses followed by a pattern:

if (pair case [int x, int y]) return Point(x, y);

If the pattern matches the value, then the branch executes with any variables the pattern defines in scope.

In the previous example, the list pattern [int x, int y] matches the value pair, so the branch return Point(x, y) executes with the variables that the pattern defined, x and y.

Otherwise, control flow progresses to the else branch to execute, if there is one:

if (pair case [int x, int y]) {
  print('Was coordinate array $x,$y');
} else {
  throw FormatException('Invalid coordinates.');
}

The if-case statement provides a way to match and destructure against a single pattern. To test a value against multiple patterns, use switch.

Switch statements

A switch statement evaluates a value expression against a series of cases. Each case clause is a pattern for the value to match against. You can use any kind of pattern for a case.

When the value matches a case’s pattern, the case body executes. Non-empty case clauses jump to the end of the switch after completion. They do not require a break statement. Other valid ways to end a non-empty case clause are a continue, throw, or return statement.

Use a default or wildcard _ clause to execute code when no case clause matches:

var command = 'OPEN';
switch (command) {
  case 'CLOSED':
    executeClosed();
  case 'PENDING':
    executePending();
  case 'APPROVED':
    executeApproved();
  case 'DENIED':
    executeDenied();
  case 'OPEN':
    executeOpen();
  default:
    executeUnknown();
}

Empty cases fall through to the next case. For an empty case that does not fall through, use break for its body. For non-sequential fall-through, you can use a continue statement and a label:

switch (command) {
  case 'OPEN':
    executeOpen();
    continue newCase; // Continues executing at the newCase label.

  case 'DENIED': // Empty case falls through.
  case 'CLOSED':
    executeClosed(); // Runs for both DENIED and CLOSED,

  newCase:
  case 'PENDING':
    executeNowClosed(); // Runs for both OPEN and PENDING.
}

You can use logical-or patterns to allow cases to share a body or a guard. To learn more about patterns and case clauses, check out the patterns documentation on Switch statements and expressions.

Switch expressions

A switch expression produces a value based on the expression body of whichever case matches. You can use a switch expression wherever Dart allows expressions, except at the start of an expression statement. For example:

var x = switch (y) { ... };

print(switch (x) { ... });

return switch (x) { ... };

If you want to use a switch at the start of an expression statement, use a switch statement.

Switch expressions allow you to rewrite a switch statement like this:

// Where slash, star, comma, semicolon, etc., are constant variables...
switch (charCode) {
  case slash || star || plus || minus: // Logical-or pattern
    token = operator(charCode);
  case comma || semicolon: // Logical-or pattern
    token = punctuation(charCode);
  case >= digit0 && <= digit9: // Relational and logical-and patterns
    token = number();
  default:
    throw FormatException('Invalid');
}

Into an expression, like this:

token = switch (charCode) {
  slash || star || plus || minus => operator(charCode),
  comma || semicolon => punctuation(charCode),
  >= digit0 && <= digit9 => number(),
  _ => throw FormatException('Invalid')
};

The syntax of a switch expression differs from switch statement syntax:

Cases do not start with the case keyword.
A case body is a single expression instead of a series of statements.
Each case must have a body; there is no implicit fallthrough for empty cases.
Case patterns are separated from their bodies using => instead of :.
Cases are separated by , (and an optional trailing , is allowed).
Default cases can only use _, instead of allowing both default and _.

Exhaustiveness checking

Exhaustiveness checking is a feature that reports a compile-time error if it’s possible for a value to enter a switch but not match any of the cases.

// Non-exhaustive switch on bool?, missing case to match null possibility:
switch (nullableBool) {
  case true:
    print('yes');
  case false:
    print('no');
}

A default case (default or _) covers all possible values that can flow through a switch. This makes a switch on any type exhaustive.

Enums and sealed types are particularly useful for switches because, even without a default case, their possible values are known and fully enumerable. Use the sealed modifier on a class to enable exhaustiveness checking when switching over subtypes of that class:

sealed class Shape {}

class Square implements Shape {
  final double length;
  Square(this.length);
}

class Circle implements Shape {
  final double radius;
  Circle(this.radius);
}

double calculateArea(Shape shape) => switch (shape) {
      Square(length: var l) => l * l,
      Circle(radius: var r) => math.pi * r * r
    };

If anyone were to add a new subclass of Shape, this switch expression would be incomplete. Exhaustiveness checking would inform you of the missing subtype. This allows you to use Dart in a somewhat functional algebraic datatype style.

Guard clause

To set an optional guard clause after a case clause, use the keyword when. A guard clause can follow if case, and both switch statements and expressions.

switch (pair) {
  case (int a, int b) when a > b:
    print('First element greater');
  case (int a, int b):
    print('First element not greater');
}

Guards evaluate an arbitrary boolean expression after matching. This allows you to add further constraints on whether a case body should execute. When the guard clause evaluates to false, execution proceeds to the next case rather than exiting the entire switch.