Control Flow

Dart supports if/else, for, while, do-while, and modern switch expressions (Dart 3). Collection for-in works on Iterable.

If/Else link

  if (score >= 90) {
  print('A');
} else if (score >= 80) {
  print('B');
} else {
  print('C');
}
  

For Loops link

  for (var i = 0; i < 10; i++) {
  print(i);
}

for (final item in [1, 2, 3]) {
  print(item);
}
  

Switch Expression (Dart 3) link

  var grade = switch (score) {
  >= 90 => 'A',
  >= 80 => 'B',
  >= 70 => 'C',
  _ => 'F',
};
  

Pattern Matching link

  switch (value) {
  case [1, var x]: print('first is 1, second is $x');
  case {'key': var v}: print('value: $v');
  case int n when n > 0: print('positive int');
  default: print('other');
}
  

While link

  while (condition) { /* ... */ }
do { /* ... */ } while (condition);
  

Common Pitfalls link

• Ignoring null safety warnings and using ! operator carelessly.
• Calling setState excessively causing unnecessary rebuilds.
• Mixing async patterns without proper error handling.
• Hardcoding values that should be theme constants.

Best Practices link

• Prefer const constructors for static widgets.
• Use named parameters for widget constructors.
• Extract reusable widgets into separate files.
• Write widget tests for critical UI paths.

Memory and Performance Notes link

Pattern matching is compiled efficiently — no runtime regex overhead.

Exercise link

Implement FizzBuzz using switch expression on (i % 3, i % 5).

Hint: Switch expressions must be exhaustive or have default/wildcard.

Summary link

Practice with Flutter DevTools open to observe rebuilds and performance.

Debugging Checklist link

1. Read the full error in the console.
2. Use Flutter DevTools widget inspector.
3. Hot restart vs hot reload — know the difference.
4. Check null safety and type errors first.
5. Simplify widget tree to isolate the issue.

Real-World Application link

Production Flutter apps combine these patterns with analytics, crash reporting, and CI/CD.

Further Reading link

Flutter documentation, Dart language tour, and pub.dev packages.

Additional Examples link

Consider how this topic applies in a larger project:

  // Break the problem into smaller functions
// Test each function independently
// Integrate incrementally
  

Working through variations of the examples above builds deeper understanding than reading alone.

Interview and Review Questions link

1. Explain the core concept of this topic in your own words.
2. What happens when this code runs with edge-case input (empty, null, zero, max value)?
3. How would you debug a bug related to this topic in production?
4. What are the performance implications of the approach shown here?
5. How does this feature compare to the equivalent in another language you know?

Related Topics in This Path link

Review adjacent pages in the learning path before and after this one. Concepts build on each other — skipping ahead often leads to confusion when later pages assume mastery of earlier material.

Return to the section index if you need to fill gaps in prerequisite knowledge.

Tooling Tips link

• Enable all compiler or analyzer warnings during development.
• Use version control with small, focused commits for each exercise.
• Pair reading with typing — reproduce every code example by hand.
• Run tests or compile after every change to catch errors early.
• Keep a personal notes file linking concepts to your own project experiences.