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Simplifies manual JSON parsing with a type-safe API. No dynamic, no manual casting. Flexible inputs types, fixed output types. Useful parsing error messages

deep_pick #

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Simplifies manual JSON parsing with a type-safe API.

  • No dynamic, no manual casting
  • Flexible inputs types, fixed output types
  • Useful parsing error messages
import 'package:deep_pick/deep_pick.dart';

pick(json, 'parsing', 'is', 'fun').asBool(); // true
dependencies:
  deep_pick: ^0.6.10
  
  deep_pick: ^0.8.0 # Dart >=2.12 (nullsafety)

Example #

This example demonstrates parsing of an HTTP response using deep_pick. You can either use it to parse individual values of a json response or parse whole objects using the fromPick constructor.


  final response = await http.get(Uri.parse('https://api.countapi.xyz/stats'));
  final json = jsonDecode(response.body);

  // Parse individual fields (nullable)
  final int? requests = pick(json, 'requests').asIntOrNull();
  
  // Require values to be non-null or throw a useful error message
  final int keys_created = pick(json, 'keys_created').asIntOrThrow();
  
  // Pick deep nested values without parsing all objects in between
  final String? version = pick(json, 'meta', 'version', 'commit').asStringOrNull();
  
  
  // Parse a full object using a fromPick factory constructor
  final CounterApiStats stats = CounterApiStats.fromPick(pick(json).required());

  
  // Parse lists with a fromPick constructor 
  final List<CounterApiStats> multipleStats = pick(json, 'items')
      .asListOrEmpty((pick) => CounterApiStats.fromPick(pick));
  

// Http response model
class CounterApiStats {
  const CounterApiStats({
    required this.requests,
    required this.keys_created,
    required this.keys_updated,
    this.version,
  });

  final int requests;
  final int keys_created;
  final int keys_updated;
  final String? version;

  factory CounterApiStats.fromPick(RequiredPick pick) {
    return CounterApiStats(
      requests: pick('requests').asIntOrThrow(),
      keys_created: pick('keys_created').asIntOrThrow(),
      keys_updated: pick('keys_updated').asIntOrThrow(),
      version: pick('version').asStringOrNull(),
    );
  }
}

Supported types #

String #

Returns the picked Object as String representation. It doesn't matter if the value is actually a int, double, bool or any other Object. pick calls the objects toString method.

pick('a').asStringOrThrow(); // "a"
pick(1).asStringOrNull(); // "1"
pick(1.0).asStringOrNull(); // "1.0"
pick(true).asStringOrNull(); // "true"
pick(User(name: "Jason")).asStringOrNull(); // User{name: Jason}

int & double #

pick tries to parse Strings with int.tryParse and double.tryParse. A int can be parsed as double (no precision loss) but not vice versa because it could lead to mistakes.

pick(3).asIntOrThrow(); // 3
pick("3").asIntOrNull(); // 3
pick(1).asDoubleOrThrow(); // 1.0
pick("2.7").asDoubleOrNull(); // 2.7

bool #

Parsing a bool couldn't be easier with those self-explaining methods

pick(true).asBoolOrThrow(); // true
pick(false).asBoolOrThrow(); // true
pick(null).asBoolOrTrue(); // true
pick(null).asBoolOrFalse(); // false
pick(null).asBoolOrNull(); // null
pick('true').asBoolOrNull(); // true;
pick('false').asBoolOrNull(); // false;

deep_pick does not treat the int values 0 and 1 as bool as some other languages do. Write your own logic using .let instead.

pick(1).asBoolOrNull(); // null
pick(1).letOrNull((pick) => pick.value == 1 ? true : pick.value == 0 ? false : null); // true 

DateTime #

Accepts most common date formats such as ISO 8601. For more supported formats see DateTime.parse.

pick('2020-03-01T13:00:00Z').asDateTimeOrNull(); // a valid DateTime object
pick('20200227 13:27:00').asDateTimeOrThrow(); // a valid DateTime object

List #

When the JSON object contains a List of items that List can be mapped to a List<T> of objects (T).

pick([]).asListOrNull(SomeObject.fromPick);
pick([]).asListOrThrow(SomeObject.fromPick);
pick([]).asListOrEmpty(SomeObject.fromPick);
final users = [
  {'name': 'John Snow'},
  {'name': 'Daenerys Targaryen'},
];
List<Person> persons = pick(users).asListOrEmpty((pick) {
  return Person(
    name: pick('name').required().asString(),
  );
});

class Person {
  final String name;

  Person({required this.name});
}

Note 1

Extract the mapper function and use it as a reference allows to write it in a single line again 😄

List<Person> persons = pick(users).asListOrEmpty(Person.fromPick);

Replacing the static function with a factory constructor doesn't work. Constructors cannot be referenced as functions, yet (dart-lang/language/issues/216). Meanwhile, use .asListOrEmpty((it) => Person.fromPick(it)) when using a factory constructor.

Note 2

pick called in the fromPick function uses the parameter pick, not the top-level function. This is possible because Pick implements the .call() method. This allows chaining indefinitely on the same Pick object while maintaining internal references for useful error messages.

Both versions produce the same result and shows you're not limited to 10 arguments.

pick(json, 'shoes', 1, 'tags', 0).asStringOrThrow();
pick(json)('shoes')(1)('tags')(0).asStringOrThrow();

whenNull

To simplify the asList API, the functions ignores null values in the List. This allows the usage of RequiredPick over Pick in the map function.

When null is important for your logic you can process the null value by providing an optional whenNull mapper function.

pick([1, null, 3]).asListOrNull(
  (it) => it.asInt(), 
  whenNull: (Pick pick) => 25;
); 
// [1, 25, 3]

Map #

Picking the Map is rarely used, because Pick itself grants further picking using the .call(args) method. Converting back to a Map is usually only used for existing fromMap mapper functions.

pick(json).asMapOrNull<String, dynamic>();
pick(json).asMapOrThrow<String, dynamic>();
pick(json).asMapOrEmpty<String, dynamic>();

Custom parsers #

Parsers in deep_pick are based on extension functions on the classes Pick. This makes it flexible and easy for 3rd-party types to add custom parsers.

This example parses a int as Firestore Timestamp.

import 'package:cloud_firestore/cloud_firestore.dart';
import 'package:deep_pick/deep_pick.dart';

extension TimestampPick on Pick {
  Timestamp asFirestoreTimeStampOrThrow() {
    final value = required().value;
    if (value is Timestamp) {
      return value;
    }
    if (value is int) {
      return Timestamp.fromMillisecondsSinceEpoch(value);
    }
    throw PickException("value $value at $debugParsingExit can't be casted to Timestamp");
  }

  Timestamp? asFirestoreTimeStampOrNull() {
    if (value == null) return null;
    try {
      return asFirestoreTimeStampOrThrow();
    } catch (_) {
      return null;
    }
  }
}

let #

When using a custom type in only a few places, it might be overkill to create all the extensions. For those cases use the let function borrowed from Kotlin to creating neat one-liners.

final UserId id = pick(json, 'id').letOrNull((it) => UserId(it.asString()));
final Timestamp timestamp = pick(json, 'time')
    .letOrThrow((it) => Timestamp.fromMillisecondsSinceEpoch(it.asInt()));

Examples #

Reading documents from Firestore #

Picking values from a Firebase DocumentSnapshot is usually very selective. Only a fraction of the properties have to be parsed. In this scenario it would be overkill to map the whole document to a Dart object. Instead, parse the values in place while staying type-safe.

Use .asStringOrThrow() when confident that the value is never null and always exists. The return type then becomes non-nullable (String instead of String?). When the data doesn't contain the full_name field (against your assumption) it would crash throwing a PickException.

final DocumentSnapshot userDoc = 
    await FirebaseFirestore.instance.collection('users').doc(userId).get();
final data = userDoc.data();
final String fullName = pick(data, 'full_name').asStringOrThrow();
final String? level = pick(data, 'level').asIntOrNull();

deep_pick offers an alternative required() API with the same result. This is useful to make sure a value exists before parsing it. In case it is null or absent a useful error message is printed.

final String fullName = pick(data, 'full_name').required().asString();

Background & Justification #

Before Dart 2.12 and the new ?[] operator one had to write a lot of code to prevent crashes when a value isn't set! Reducing this boilerplate was the origin of deep_pick.

String milestoneCreator;
final milestone = json['milestore'];
if (milestone != null) {
  final creator = json['creator'];
  if (creator != null) {
    final login = creator['login'];
    if (login is String) {
      milestoneCreator = login;
    }
  }
}
print(milestoneCreator); // octocat

This example of parses an issue object of the GitHub v3 API.

Today with Dart 2.12+ parsing Dart data structures has become way easier with the introduction of the ?[] operator.

final json = jsonDecode(response.data);
final milestoneCreator = json?['milestone']?['creator']?['login'] as String?;
print(milestoneCreator); // octocat

deep_pick backports this short syntax to previous Dart versions (<2.12).

final milestoneCreator = pick(json, 'milestone', 'creator', 'login').asStringOrNull();
print(milestoneCreator); // octocat  

Still better than vanilla #

But even with the latest Dart version, deep_pick offers fantastic features over vanilla parsing using the ?[] operators:

1. Flexible input types #

Different languages and their JSON libraries generate different JSON. Sometimes ids are String, sometimes int. Booleans are provided as true or with quotes as String "true". The meaning is the same but from a type perspective they are not.

deep_pick does the basic conversions automatically. By requesting a specific return type, apps won't break when a "price" usually returns double (0.99) but for whole numbers int (1 instead of 1.0).

pick(2).asIntOrNull(); // 2
pick('2').asIntOrNull(); // 2 (Sting -> int)

pick(42.0).asDoubleOrNull(); // 42.0
pick(42).asDoubleOrNull(); // 42.0 (double -> int)

pick(true).asBoolOrFalse(); // true
pick('true').asBoolOrFalse(); // true (String -> bool) 

2. No RangeError for Lists #

Using the ?[] operator can crash for Lists. Accessing a list item by index outside of the available range causes a RangeError. You can't access index 23 when the List has only 10 items.

json['shoes']?[23]?['id'] as String?;

// Unhandled exception:
// RangeError (index): Invalid value: Not in inclusive range 0..10: 23

pick automatically catches the RangeError and returns null.

pick(json, 'shoes', 23, 'id').asStringOrNull(); // null

3. Useful error message #

Vanilla Dart returns a type error because null is not a String. There is no information available which part is null or missing.

final milestoneCreator = json?['milestone']?['creator']?['login'] as String;

// Unhandled exception:
// type 'Null' is not a subtype of type 'String' in type cast

deep_pick shows the exact location where parsing failed, making it easy to report errors to the API team.

final milestoneCreator = pick(json, 'milestone', 'creator', 'login').asStringOrThrow();

// Unhandled exception:
// PickException(
//   Expected a non-null value but location "milestone" in pick(json, "milestone" (absent), "creator", "login") is absent. 
//   Use asStringOrNull() when the value may be null at some point (String?).
// )

Notice the distinction between "absent" and "null" when you see such errors.

  • "absent" means the key isn't found in a Map or a List has no item at the requested index
  • "null" means the value at that position is actually null

4. Null is default, crashes intentional #

Parsing objects from external systems isn't type-safe. API changes happen, and it is up to the consumer to decide how to handle them. Consumer always have to assume the worst, such as missing values.

It's so easy to accidentally cast a value to String in the happy path, instead of String? accounting for all possible cases. Easy to write, easy to miss in code reviews.

Forgetting that null could be a valid return type results in a type error:

json?['milestone']?['creator']?['login'] as String;
//                                      ----^
// Unhandled exception:
// type 'Null' is not a subtype of type 'String' in type cast

With deep_pick, all casting methods (.as*()) have null in mind. For each type you have to choose between at least two ways to deal with null.

pick(json, ...).asStringOrNull();
pick(json, ...).asStringOrThrow();

pick(json, ...).asBoolOrNull();
pick(json, ...).asBoolOrFalse();

pick(json, ...).asListOrNull(SomeClass.fromPick);
pick(json, ...).asListOrEmpty(SomeClass.fromPick);

Having "Throw" and "Null" in the method name, clearly indicates the possible outcome in case the values couldn't be picked. Throwing is not a bad habit, some properties are essential for the business logic and throwing an error the correct handling. But throwing should be done intentional, not accidental.

5. Map Objects with let #

Even with the new ?[] operator, mapping a value to a new Object (i.e. when wrapping it in a domain Object) can't be done in a single line.

final value = json?['id'] as String?;
final UserId id = value == null ? null : UserId(value);

deep_pick borrows the let function from Kotlin creating a neat one-liner

final UserId id = pick(json, 'id').letOrNull((it) => UserId(it.asString()));

License #

Copyright 2019 Pascal Welsch

Licensed under the Apache License, Version 2.0 (the "License");
you may not use this file except in compliance with the License.
You may obtain a copy of the License at

   http://www.apache.org/licenses/LICENSE-2.0

Unless required by applicable law or agreed to in writing, software
distributed under the License is distributed on an "AS IS" BASIS,
WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
See the License for the specific language governing permissions and
limitations under the License.
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Simplifies manual JSON parsing with a type-safe API. No dynamic, no manual casting. Flexible inputs types, fixed output types. Useful parsing error messages

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