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flutter/flutter-build-responsive-layout

flutter

flutter-build-responsive-layout

Use `LayoutBuilder`, `MediaQuery`, or `Expanded/Flexible` to create a layout that adapts to different screen sizes. Use when you need the UI to look good on both mobile and tablet/desktop form factors.

global
model:models/gemini-3.1-pro-preview
last_modified:Tue, 21 Apr 2026 20:17:40 GMT
New~1.7k
v1.0Saved Jul 11, 2026

Implementing Adaptive Layouts

Contents

Space Measurement Guidelines

Determine the available space accurately to ensure layouts adapt to the app window, not just the physical device.

  • Use MediaQuery.sizeOf(context) to get the size of the entire app window.
  • Use LayoutBuilder to make layout decisions based on the parent widget's allocated space. Evaluate constraints.maxWidth to determine the appropriate widget tree to return.
  • Do not use MediaQuery.orientationOf or OrientationBuilder near the top of the widget tree to switch layouts. Device orientation does not accurately reflect the available app window space.
  • Do not check for hardware types (e.g., "phone" vs. "tablet"). Flutter apps run in resizable windows, multi-window modes, and picture-in-picture. Base all layout decisions strictly on available window space.

Widget Sizing and Constraints

Understand and apply Flutter's core layout rule: Constraints go down. Sizes go up. Parent sets position.

  • Distribute Space: Use Expanded and Flexible within Row, Column, or Flex widgets.
    • Use Expanded to force a child to fill all remaining available space (equivalent to Flexible with fit: FlexFit.tight and a flex factor of 1.0).
    • Use Flexible to allow a child to size itself up to a specific limit while still expanding/contracting. Use the flex factor to define the ratio of space consumption among siblings.
  • Constrain Width: Prevent widgets from consuming all horizontal space on large screens. Wrap widgets like GridView or ListView in a ConstrainedBox or Container and define a maxWidth in the BoxConstraints.
  • Lazy Rendering: Always use ListView.builder or GridView.builder when rendering lists with an unknown or large number of items.

Device and Orientation Behaviors

Ensure the app behaves correctly across all device form factors and input methods.

  • Do not lock screen orientation. Locking orientation causes severe layout issues on foldable devices, often resulting in letterboxing (the app centered with black borders). Android large format tiers require both portrait and landscape support.
  • Fallback for Locked Orientation: If business requirements strictly mandate a locked orientation, use the Display API to retrieve physical screen dimensions instead of MediaQuery. MediaQuery fails to receive the larger window size in compatibility modes.
  • Support Multiple Inputs: Implement support for basic mice, trackpads, and keyboard shortcuts. Ensure touch targets are appropriately sized and keyboard navigation is accessible.

Workflow: Constructing an Adaptive Layout

Follow this workflow to implement a layout that adapts to the available BoxConstraints.

Task Progress:

  • Identify the target widget that requires adaptive behavior.
  • Wrap the widget tree in a LayoutBuilder.
  • Extract the constraints.maxWidth from the builder callback.
  • Define an adaptive breakpoint (e.g., largeScreenMinWidth = 600).
  • If maxWidth > largeScreenMinWidth: Return a large-screen layout (e.g., a Row placing a navigation sidebar and content area side-by-side).
  • If maxWidth <= largeScreenMinWidth: Return a small-screen layout (e.g., a Column or standard navigation-style approach).
  • Run validator -> resize the application window -> review layout transitions -> fix overflow errors.

Workflow: Optimizing for Large Screens

Follow this workflow to prevent UI elements from stretching unnaturally on large displays.

Task Progress:

  • Identify full-width components (e.g., ListView, text blocks, forms).
  • If optimizing a list: Convert ListView.builder to GridView.builder using SliverGridDelegateWithMaxCrossAxisExtent to automatically adjust column counts based on window size.
  • If optimizing a form or text block: Wrap the component in a ConstrainedBox.
  • Apply BoxConstraints(maxWidth: [optimal_width]) to the ConstrainedBox.
  • Wrap the ConstrainedBox in a Center widget to keep the constrained content centered on large screens.
  • Run validator -> test on desktop/tablet target -> review horizontal stretching -> adjust maxWidth or grid extents.

Examples

Adaptive Layout using LayoutBuilder

Demonstrates switching between a mobile and desktop layout based on available width.

import 'package:flutter/material.dart';

const double largeScreenMinWidth = 600.0;

class AdaptiveLayout extends StatelessWidget {
  const AdaptiveLayout({super.key});

  @override
  Widget build(BuildContext context) {
    return LayoutBuilder(
      builder: (context, constraints) {
        if (constraints.maxWidth > largeScreenMinWidth) {
          return _buildLargeScreenLayout();
        } else {
          return _buildSmallScreenLayout();
        }
      },
    );
  }

  Widget _buildLargeScreenLayout() {
    return Row(
      children: [
        const SizedBox(width: 250, child: Placeholder(color: Colors.blue)),
        const VerticalDivider(width: 1),
        Expanded(child: const Placeholder(color: Colors.green)),
      ],
    );
  }

  Widget _buildSmallScreenLayout() {
    return const Placeholder(color: Colors.green);
  }
}

Constraining Width on Large Screens

Demonstrates preventing a widget from consuming all horizontal space.

import 'package:flutter/material.dart';

class ConstrainedContent extends StatelessWidget {
  const ConstrainedContent({super.key});

  @override
  Widget build(BuildContext context) {
    return Scaffold(
      body: Center(
        child: ConstrainedBox(
          constraints: const BoxConstraints(
            maxWidth: 800.0, // Maximum width for readability
          ),
          child: ListView.builder(
            itemCount: 50,
            itemBuilder: (context, index) {
              return ListTile(
                title: Text('Item $index'),
              );
            },
          ),
        ),
      ),
    );
  }
}
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Overall Score

88/100

Grade

A

Excellent

Safety

95

Quality

87

Clarity

92

Completeness

82

Summary

This skill guides developers in implementing adaptive layouts in Flutter using LayoutBuilder, MediaQuery, and constraint-based widgets. It provides clear space measurement guidelines, widget sizing patterns, device behavior considerations, and two structured workflows with working code examples for creating responsive UIs that adapt to different screen sizes and orientations.

Detected Capabilities

code generationdart/flutter pattern guidancelayout algorithm designconstraint-based design explanation

Trigger Keywords

Phrases that MCP clients use to match this skill to user intent.

responsive layoutadaptive ui designscreen size adaptationflutter layout patternstablet mobile layout

Use Cases

  • Creating a responsive dashboard that displays a sidebar on tablet/desktop but hides it on mobile
  • Building a form or content view that constrains its width to optimal readability on large screens
  • Implementing a grid that adjusts column count based on available window space
  • Supporting foldable devices and multi-window modes with adaptive layouts
  • Switching between single-column and multi-column navigation patterns based on screen size

Quality Notes

  • Excellent clarity: logical hierarchy with descriptive headings and step-by-step workflows
  • Two complete, runnable code examples demonstrate both core patterns (LayoutBuilder switching and width-constrained lists)
  • Strong scope boundaries: explicitly documents what NOT to do (orientation locking, hardware detection) to prevent common pitfalls
  • Comprehensive edge case coverage: addresses foldable devices, multi-window modes, picture-in-picture, and keyboard/mouse inputs
  • Clear constraint-based mental model: teaches Flutter's fundamental layout rule (constraints down, sizes up, parent sets position)
  • Task progress checklists make workflows easy to follow and verify
  • Well-organized supporting content (Space Measurement, Widget Sizing, Device Behaviors) provides context before workflows
Model: claude-haiku-4-5-20251001Analyzed: Jul 11, 2026

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