Free SKILL.md scraped from GitHub. Clone the repo or copy the file directly into your Claude Code skills directory.
npx versuz@latest install flutter-skills-skills-flutter-implement-json-serializationgit clone https://github.com/flutter/skills.gitcp skills/SKILL.MD ~/.claude/skills/flutter-skills-skills-flutter-implement-json-serialization/SKILL.md---
name: flutter-implement-json-serialization
description: Create model classes with `fromJson` and `toJson` methods using `dart:convert`. Use when manually mapping JSON keys to class properties for simple data structures.
metadata:
model: models/gemini-3.1-pro-preview
last_modified: Tue, 21 Apr 2026 21:44:50 GMT
---
# Serializing JSON Manually in Flutter
## Contents
- [Core Guidelines](#core-guidelines)
- [Workflow: Implementing a Serializable Model](#workflow-implementing-a-serializable-model)
- [Workflow: Fetching and Parsing JSON](#workflow-fetching-and-parsing-json)
- [Examples](#examples)
## Core Guidelines
- **Import `dart:convert`**: Utilize Flutter's built-in `dart:convert` library for manual JSON encoding (`jsonEncode`) and decoding (`jsonDecode`).
- **Enforce Type Safety**: Always cast the `dynamic` result of `jsonDecode()` to the expected type, typically `Map<String, dynamic>` for objects or `List<dynamic>` for arrays.
- **Encapsulate Serialization Logic**: Define plain model classes containing properties corresponding to the JSON structure. Implement a `fromJson` factory constructor and a `toJson` method within the model.
- **Handle Background Parsing**: If parsing large JSON documents (execution time > 16ms), offload the parsing logic to a separate isolate using Flutter's `compute()` function to prevent UI jank.
- **Throw Exceptions on Failure**: When handling HTTP responses, throw an exception if the status code is not successful (e.g., not 200 OK or 201 Created). Do not return `null`.
## Workflow: Implementing a Serializable Model
Use this checklist to implement manual JSON serialization for a data model.
**Task Progress:**
- [ ] Define the plain model class with `final` properties.
- [ ] Implement the `factory Model.fromJson(Map<String, dynamic> json)` constructor.
- [ ] Implement the `Map<String, dynamic> toJson()` method.
- [ ] Write unit tests for both serialization methods.
- [ ] Run validator -> review type mismatch errors -> fix casting logic.
1. **Define the Model**: Create a class with properties matching the JSON keys.
2. **Implement `fromJson`**: Extract values from the `Map` and cast them to the appropriate Dart types. Use pattern matching or explicit casting.
3. **Implement `toJson`**: Return a `Map<String, dynamic>` mapping the class properties back to their JSON string keys.
4. **Validate**: Execute unit tests to ensure type safety, autocompletion, and compile-time exception handling function correctly.
## Workflow: Fetching and Parsing JSON
Use this conditional workflow when retrieving and parsing JSON from a network request.
**Task Progress:**
- [ ] Execute the HTTP request.
- [ ] Validate the response status code.
- [ ] Determine parsing strategy (Synchronous vs. Isolate).
- [ ] Decode and map the JSON to the model.
1. **Execute Request**: Use the `http` package to perform the network call.
2. **Validate Response**:
- If `response.statusCode == 200` (or 201 for POST), proceed to parsing.
- If the status code indicates failure, throw an `Exception`.
3. **Determine Parsing Strategy**:
- If parsing a **small payload** (e.g., a single object), parse synchronously on the main thread.
- If parsing a **large payload** (e.g., an array of thousands of objects), use `compute(parseFunction, response.body)` to parse in a background isolate.
4. **Decode and Map**: Pass the decoded JSON to your model's `fromJson` constructor.
## Examples
### High-Fidelity Model Implementation
```dart
import 'dart:convert';
class User {
final int id;
final String name;
final String email;
const User({
required this.id,
required this.name,
required this.email,
});
// Factory constructor for deserialization
factory User.fromJson(Map<String, dynamic> json) {
return switch (json) {
{
'id': int id,
'name': String name,
'email': String email,
} =>
User(
id: id,
name: name,
email: email,
),
_ => throw const FormatException('Failed to load User.'),
};
}
// Method for serialization
Map<String, dynamic> toJson() {
return {
'id': id,
'name': name,
'email': email,
};
}
}
```
### Synchronous Parsing (Small Payload)
```dart
import 'dart:convert';
import 'package:http/http.dart' as http;
Future<User> fetchUser(http.Client client, int userId) async {
final response = await client.get(
Uri.parse('https://api.example.com/users/$userId'),
headers: {'Accept': 'application/json'},
);
if (response.statusCode == 200) {
// Decode returns dynamic, cast to Map<String, dynamic>
final Map<String, dynamic> jsonMap = jsonDecode(response.body) as Map<String, dynamic>;
return User.fromJson(jsonMap);
} else {
throw Exception('Failed to load user');
}
}
```
### Background Parsing (Large Payload)
```dart
import 'dart:convert';
import 'package:flutter/foundation.dart';
import 'package:http/http.dart' as http;
// Top-level function required for compute()
List<User> parseUsers(String responseBody) {
final parsed = (jsonDecode(responseBody) as List<dynamic>).cast<Map<String, dynamic>>();
return parsed.map<User>((json) => User.fromJson(json)).toList();
}
Future<List<User>> fetchUsers(http.Client client) async {
final response = await client.get(
Uri.parse('https://api.example.com/users'),
headers: {'Accept': 'application/json'},
);
if (response.statusCode == 200) {
// Offload expensive parsing to a background isolate
return compute(parseUsers, response.body);
} else {
throw Exception('Failed to load users');
}
}
```