@transifex/jsonapi

{json:api} SDK library

Usage no npm install needed!

<script type="module">
  import transifexJsonapi from 'https://cdn.skypack.dev/@transifex/jsonapi';
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README

{json:api} SDK library for Javascript

This is a library that allows you to create SDKs for APIs that conform to the {json:api} specification. The design of this library, as well as the structure of this README file, follow the principles of an equivalent library that was written for Python as much as possible.

Setting up

npm install --save @transifex/jsonapi

Using this library means creating your own API SDK for a remote service. In order to do that, you need to first define an API connection type. This is done by subclassing JsonApi:

import { JsonApi } from '@transifex/jsonapi';

class FamilyApi extends JsonApi {
  static HOST = 'https://api.families.com';
}

Next, you have to define some API resource types and register them to the API connection type. This is done by subclassing Resource and decorating it with the connection type's register method:

import { Resource } from '@transifex/jsonapi';

class Parent extends Resource {
  static TYPE = 'parents';
}
FamilyApi.register(Parent, 'Parent');

class Child extends Resource {
  static TYPE = 'children';
}
FamilyApi.register(Child, 'Child');

Users of your SDK can then instantiate your API connection type, providing authentication credentials and/or overriding the host, in case you want to test against a sandbox API server and not the production one:

const familyApi = new FamilyApi({
  host: 'https://sandbox.api.families.com',
  auth: 'MYTOKEN',
});

Finally the API resource types you have registered can be accessed as attributes on this API connection instance. You can either use the name you provided as the second argument to .register() or the API resource's type:

const child = await familyApi.Child.get('1')
const child = await familyApi.children.get('1')

This is enough to get you started since the library will be able to provide you with a lot of functionality based on the structure of the responses you get from the server. Make sure you define and register Resource subclasses for every type you intend to encounter, because the library will use the API instance's registry to resolve the appropriate subclass for the items included in the API's responses.

Non-ES Javascript

If you are running a version of Javascript that doesn't support classes, for example an old browser, you can use the extend static methods of JsonApi and Resource to achieve the same results:

<html>
  <meta charset="UTF-8">
  <body>
    <script src="jsonapi.js"></script>
    <script>
      var JsonApi = window.jsonapi.JsonApi;
      var Resource = window.jsonapi.Resource;

      var FamilyApi = JsonApi.extend({
        HOST: 'https://api.families.com',
      });

      var Parent = Resource.extend({
        TYPE: 'parents',
      });

      FamilyApi.register(Parent, 'Parent');

      var familyApi = new FamilyApi({
        auth: 'MYTOKEN',
      });

      var parents = familyApi.Parent.list();
      parents.fetch().then(function() {
        console.log({ parents });
      })
    </script>
  </body>
</html>

Global API connection instances

You can configure an already created API connection instance by calling the setup method, which accepts the same properties as the constructor. In fact, JsonApi's constructor and setup methods have been written in such a way that the following two snippets should produce an identical outcome:

const props = ...;
const familyApi = new FamilyApi(props);
const props = ...;
const familyApi = new FamilyApi();
familyApi.setup(props);

This way, you can implement your SDK in a way that offers the option to users to either use a global API connection instance or multiple instances. In fact, this is exactly how @transifex/api has been set up:

// @transifex/api/src/index.js

import { JsonApi, Resource } from '@transifex/jsonapi';

export class TransifexApi extends JsonApi {
  static HOST = 'https://rest.api.transifex.com';
}

class Organization extends Resource {
  static TYPE = "organizations";
}
TransifexApi.register(Organization, 'Organization');

export const transifexApi = TransifexApi();
// app.js (uses the global API connection instance)

import { transifexApi } from '@transifex/api';

transifexApi.setup({ auth: 'MYTOKEN' });
const organization = await transifexApi.Organization.get("1");
// app.js (uses multiple custom API connection instances)

import { TransifexApi } from '@transifex/api';

const api1 = new TransifexApi({ auth: 'APITOKEN1' });
const api2 = new TransifexApi({ auth: 'APITOKEN2' });

const organization1 = await api1.Organization.get('1');
const organization2 = await api2.Organization.get('2');

(The whole logic behind this initialization process is further explained here)

Authentication

The auth property to JsonApi or setup can either be:

  1. A string, in which case all requests to the API server will include the Authorization: Bearer <API_TOKEN> header

  2. A callable, in which case the return value is expected to be a dictionary which will be merged with the headers of all requests to the API server

    import { FamilyApi } from './families';
    import { encrypt } from './crypto';
    
    function myAuth() {
      return { 'x-signature': encrypt(Date()) };
    }
    
    const familyApi = new FamilyApi({ auth: myAuth });
    

Retrieval

URLs

By default, collection URLs have the form /<type> (eg /children) and item URLs have the form /<type>/<id> (eg /children/1). This is also part of {json:api}'s recommendations. If you want to customize them, you need to override the getCollectionUrl static method and the getItemUrl() method of the resource's subclass:

class Child extends Resource {
  static TYPE = 'children';

  static getCollectionUrl() {
      return '/children_collection';
  }

  getItemUrl() {
      return `/child_item/${this.id}`;
  }
}
FamilyApi.register(Child, 'Child');

Getting a single resource object from the API

If you know the ID of the resource object, you can fetch its {json:api} representation with:

const child = await familyApi.Child.get('1');

The attributes of a resource object are id, attributes, relationships, links and related. id, attributes, relationships and links have exactly the same value as in the API response.

const parent = await familyApi.Parent.get('1');
console.log(parent.id);
// <<< '1'
console.log(parent.attributes);
// <<<  { name: 'Zeus' }
console.log(parent.relationships);
// <<< { children: { links: { self: '/parent/1/relationships/children',
// ...                        related: '/children?filter[parent]=1' } } }

const child = await familyApi.Child.get('1');
console.log(child.id);
// <<< '1'
console.log(child.attributes);
// <<<  { name: 'Hercules' }
console.log(child.relationships);
// <<< { parent: { data: { type: 'parents', id: '1' },
// ...             links: { self: '/children/1/relationships/parent',
// ...                      related: '/parents/1' } } }

You can reload an object from the server by calling .reload():

await child.reload();
// equivalent to
child = await familyApi.Child.get(child.id);

Relationships

Intro

We need to talk a bit about how {json:api} represents relationships and how the transifex.api.jsonapi library interprets them. Depending on the value of a field of relationships, we consider the following possibilities. A relationship can either be:

  1. A null relationship which will be represented by a null value:

    { type: 'children',
      id: '...',
      attributes: { ... },
      relationships: {
          parent: null,  // <---
          ...,
      },
      links: { ... } }
    
  2. A singular relationship which will be represented by an object with both data and links fields, with the data field being a dictionary:

    { type: 'children',
      id: '...',
      attributes: { ... },
      relationships: {
        parent: { data: { type: 'parents', id: '...' },      // <---
                  links: { self: '...', related: '...' } },  // <---
        ... ,
      },
      links: { ... } }
    
  3. A plural relationship which will be represented by an object with a links field and either a missing data field or a data field which is a list:

    { type: 'parents',
      id: '...',
      attributes: { ... },
      relationships: {
        children: { links: { self: '...', related: '...' } },  // <---
        ...,
      },
      links: { ... } }
    

    or

    { type: 'parents',
      id: '...',
      attributes: { ... },
      relationships: {
        children: { links: { self: '...', related: '...' },    // <---
                    data: [{ type: 'children', id: '...' },    // <---
                           { type: 'children', id: '...' },    // <---
                           ... ] },                            // <---
        ... ,
      },
      links: { ... } }
    

This is important because the library will make assumptions about the nature of relationships based on the existence of these fields.

Fetching relationships

The related field is meant to host the data of the relationships, after these have been fetched from the API. Lets revisit the last example and inspect the relationships and related fields:

const parent = await familyApi.Parent.get('1');
console.log(parent.relationships);
// <<< { children: { links: { self: '/parent/1/relationships/children',
// ...                        related: '/children?filter[parent]=1' } } }
console.log(parent.related);
// <<< {}

const child = await familyApi.Child.get('1');
console.log(child.relationships);
// <<< { parent: { data: { type: 'parents', id: '1' },
// ...             links: { self: '/children/1/relationships/parent',
// ...                      related: '/parents/1' } } }
console.log(child.related.id);
// <<< '1'
console.log(child.related.attributes);
// <<< {}
console.log(child.related.relationships);
// <<< {}

As you can see, the parent→children related field is empty while the child→parent related field is prefilled with an "unfetched" Parent instance. This happens because the first one is a plural relationship while the second is a singular relationship. Unfetched means that we only know its id so far. In both cases, we don't know any meaningful data about the relationships yet.

In order to fetch the related data, you need to call .fetch() with the names of the relationship you want to fetch:

await child.fetch('parent');  // Now `related.parent` has all the information
console.log(child.related.parent.id);
// <<< '1'
console.log(child.related.parent.attributes);
// <<< { name: 'Zeus' }
console.log(child.related.parent.relationships);
// <<< { children: { links: { self: '/parent/1/relationships/children',
// ...                        related: '/children?filter[parent]=1' } } })

await parent.fetch('children');
await parent.related.children.fetch();
console.log(parent.related.children.data[0].id);
// <<< '1'
console.log(parent.related.children.data[0].attributes);
// <<< { name: 'Hercules' }
console.log(parent.related.children.data[0].relationships);
// <<< { parent: { data: { type: 'parents', id: '1' },
// ...             links: { self: '/children/1/relationships/parent',
// ...                      related: '/parents/1' } } }

Trying to fetch an already-fetched relationship will not actually trigger another request, unless you pass { force: true } to .fetch().

.fetch() will return the relation:

const children = await parent.fetch('children');
// is equivalent to
await parent.fetch('children');
const children = parent.related.children;

await children.fetch();
console.log(children.data[0].attributes.name);
// <<< 'Hercules'

Since .fetch() behaves lazily by default, ie it won't interact with the server again if the relationship is already fetched, it may be preferable to access relationships with .fetch() every time instead of .related, since then you won't have to worry about making sure that the relationship was fetched beforehand.

Shortcuts

You can access attributes and fetched relationships directly , or you can use the .get() shortcut which will work for both attributes and relationships:

console.log(child.get('name'));
// equivalent to
console.log(child.attributes.name);

console.log(child.get('parent').get('name'));
// equivalent to
console.log(child.related.parent.attributes.name);

(although for relationships using .fetch() may be preferable, as mentioned before)

You can also set attributes and relationships using .set():

child.set('name', 'Achilles');
// equivalent to
child.attributes.name = 'Achilles';

For relationships, using .set() is preferable to editing relationships and related by hand. .set() will make sure that the argument will be interpreted as a {json:api} relationship, and it will take care to empty the pre-fetched value in case the relationship has changed:

child.set('parent', { data: { type: 'parents', id: '1' } });
// equivalent to
child.set('parent', new familyApi.Parent({ id: '1' }));
await child.fetch('parent');
child.set('parent', new familyApi.Parent({ id: '2' }));

// Will re-fetch since the parent was changed and we don't have pre-fetched
// information on the new parent
await child.fetch('parent');

Getting Resource collections

You can access a collection of resource objects using one of the list, filter, page, include,sort, fields and extra static methods of the Resource subclass.

const children = familyApi.Child.list();
await children.fetch();
console.log(children.data[0].get('name'));

Each method does the following:

  • list returns the first page of the results

  • filter applies filters; nested filters are separated by double underscores (__), Django-style

    operation GET request
    .filter({ a: 1 }) ?filter[a]=1
    .filter({ a__b: 1 }) ?filter[a][b]=1

    Note: because it's a common use-case, using a resource object as the value of a filter operation will result in using its id field

    const parent = await familyApi.Parent.get('1');
    
    familyApi.Child.filter({ parent: parent });
    // is equivalent to
    familyApi.Child.filter({ parent: parent.id });
    
  • page applies pagination; it accepts either one positional argument which will be passed to the page GET parameter or multiple properties which will be passed as nested page GET parameters

    operation GET request
    .page(1) ?page=1
    .page({ a: 1, b: 2 }) ?page[a]=1&page[b]=2

    (Note: you will probably not have to use .page yourself since the returned lists support pagination on their own, see below)

  • include will set the include GET parameter; it accepts multiple positional arguments which it will join with commas (,)

    operation GET request
    .include('parent', 'pet') ?include=parent,pet
  • sort will set the sort GET parameter; it accepts multiple positional arguments which it will join with commas (,)

    operation GET request
    .sort('age', 'name') ?sort=age,name
  • fields will set the fields GET parameter; it accepts multiple positional arguments which it will join with commas (,)

    operation GET request
    .fields('age', 'name') ?fields=age,name
  • extra accepts any keyword arguments which will be added to the GET parameters sent to the API

    operation GET request
    .extra({ group_by: 'age' }) ?group_by=age
  • all returns a generator that will yield all results of a paginated collection, using multiple requests if necessary; the pages are fetched on-demand, so if you abort the generator early, you will not be performing requests against every possible page

    const list = familyApi.Child.list();
    for await (const child of list.all()) {
      console.log(child.get('name'));
    }
    
  • allPages returns a generator of non-empty pages; similarly to all, pages are fetched on-demand (in fact, all uses allPages internally)

All the above methods can be chained to each other. So:

familyApi.Child.list().filter({ a: 1 });
// is equivalent to
familyApi.Child.filter({ a: 1 });

familyApi.Child.filter({ a: 1 }).filter({ b: 2 });
// is equivalent to
familyApi.Child.filter({ a: 1, b: 2 });

Also, in order for the chaining to work, the collections are also lazy. You will not actually make any requests to the server until you await a .fetch() call on the collection. So this:

function getChildren({ gender = null, hair_color = null }) {
  let result = familyApi.Child.list();
  if (gender) {
    result = result.filter({ gender });
  }
  if (hair_color) {
    result = result.filter({ hair_color });
  }
  return result
}
const children = getChildren({ hair_color: 'red' });
await children.fetch();

will only make one request to the server during the resolution of the .fetch() call in the last line.

You can also access pagination via the getNext(), and getPrevious() methods of a returned page, provided that that the page's .next and .previous attributes are not null (in fact, all() and allPages() use getNext() internally):

const all = [];
let page = familyApi.Child.list();
await page.fetch();
while (true) {
  for (const item of page.data) {
    all.push(item);
  }
  if (! page.next) {
    break;
  }
  page = await page.getNext();
}

All the previous methods also work on plural relationships (assuming the API supports the applied filters etc on the endpoint specified by the related link of the relationship).


const children = await parent.fetch('children');
const filteredChildren = children.filter({ name: "Hercules" });
await filteredChildren.fetch();
console.log(filteredChildren.data[0].get('name'));

(Don't be confused by the double appearance of .fetch(); the first time we are getting an unfetched collection representing the parent->children relationship, the second time we are converting the unfetched page to a fetched one)

Prefetching relationships with include

If you use the include method on a collection retrieval or if you use the include property on .get() (and if the server supports it), the included values of the response will be used to prefill the relevant fields of related:

const child = await familyApi.Child.get('1', { include: ['parent'] })
console.log(child.get('parent').get('name'));  // No need to fetch the parent
// <<< 'Zeus'

const children = familyApi.Child.list().include('parent')
await children.fetch();
// No need to fetch the parents
console.log(children.data[0].get('parent').get('name'));
// <<< 'Zeus'
console.log(children.data[1].get('parent').get('name'));
// <<< 'Zeus'
// ...

In case of a plural relationships with a list data field, if the response supplies the related items in the included section, these too will be prefilled.

const parent = await familyApi.Parent.get('1', { include: ['children'] });

// Assuming the response looks like:
// {'data': {'type': "parents",
//           'id': "1",
//           'attributes': ...,
//           'relationships': {'children': {'data': [{'type': "children", 'id': "1"},
//                                                   {'type': "children", 'id': "2"}],
//                                          'links': ...}}},
//  'included': [{'type': "children",
//                'id': "1",
//                'attributes': {'name': "Hercules"}},
//               {'type': "children",
//                'id': "2",
//                'attributes': {'name': "Achilles"}}]}

// No need to fetch
console.log(parent.get('children').data[0].get('name'));
// <<< 'Hercules'
console.log(parent.get('children').data[1].get('name'));
// <<< 'Achilles'

Getting single resource objects using filters

Appending .get() to a collection will ensure that the collection is of size 1 and return the one resource instance in it. If the collection's size isn't 1, it will raise an error.

const child = await familyApi.Child.filter({ name: 'Bill' }).get();

The Resource's .get() static method, which we covered before, also accepts properties as an argument. Calling it this way will apply the filters and use the collection's .get() method on the result.

const child = await familyApi.Child.get({ name: 'Bill' });
// is equivalent to
const child = await familyApi.Child.filter({ name: 'Bill' }).get();

Editing

Saving changes

After you change some attributes or relationships, you can call .save() on an object, which will trigger a PATCH request to the server. Because usually the server includes immutable fields with the response (creation timestamps etc), you don't want to include all attributes and relationships in the request. You can specify which fields will be sent with save's argument:

const child = await familyApi.Child.get('1');
child.set('name', child.get('name') + ' the Great!');
await child.save(['name']);

Because setting values right before saving is a common use-case, .save() also accepts properties. These will be set on the resource object, right before the actual saving:

await child.save({ name: 'Hercules' });
// is equivalent to
child.set('name', 'Hercules');
await child.save(['name']);

Creating new resources

Calling .save() on an object whose id is not set will result in a POST request which will (attempt to) create the resource on the server.

const parent = await familyApi.Parent.get('1');
const child = new familyApi.Child({
  attributes: { name: 'Hercules' },
  relationships: { parent },
});
await child.save();

After saving, the object will have the id returned by the server, plus any other server-generated attributes and relationships (for example, creation timestamps).

There is a shortcut for the above, called .create()

const parent = await familyApi.Parent.get('1');
const child = await familyApi.Child.create({
  attributes: { name: 'Hercules' },
  relationships: { parent },
});

Note: for relationships, you can provide either a resource instance, a "Resource Identifier" (the 'data' value of a relationship object) or an entire relationship from another resource. So, the following are equivalent:

// Well, almost equivalent, the first example will trigger a request to fetch
// the parent's data from the server
const child = await familyApi.Child.create({
  attributes: { name: 'Hercules' },
  relationships: { parent: await familyApi.Parent.get('1') },
});
const child = await familyApi.Child.create({
  attributes: { name: 'Hercules' },
  relationships: { parent: new familyApi.Parent({ id: '1' }) },
});
const child = familyApi.Child.create({
  attributes: { name: 'Hercules' },
  relationships: { parent: { type: 'parents', id: '1' } },
});
const child = familyApi.Child.create({
  attributes: { name: 'Hercules' },
  relationships: { parent: { data: { type: 'parents', id: '1' } } },
});

This way, you can reuse a relationship from another object when creating, without having to fetch the relationship:

const newChild = await familyApi.Child.create({
  attributes: { name: 'Achilles' },
  relationships: { parent: old_child.get('parent') },
});

Magic properties

When making new (unsaved) instances, or when you create instances on the server with .create(), you can supply any property apart from id, attributes, relationships, etc and they will be interpreted as attributes or relationships. Anything that looks like a relationship will be interpreted as such while everything else will be interpreted as an attribute.

Things that are interpreted as relationships are:

  • Resource instances
  • Resource identifiers - dictionaries with 'type' and 'id' fields
  • Relationship objects - dictionaries with a single 'data' field whose value is a resource identifier

So

new familyApi.Child({ name: 'Hercules' });
// is equivalent to
new familyApi.Child({ attributes: { name: 'Hercules' } });

new familyApi.Child({ parent: { type: 'parents', id: '1' } });
// is equivalent to
new familyApi.Child({ relationships: { parent: { type: 'parents', id: '1' } } });

new familyApi.Child({ parent: new familyApi.Parent({ id: '1' }) });
// is equivalent to
new familyApi.Child({ relationships: { parent: new familyApi.Parent({ id: '1' }) } });

If you are worried about naming conflicts, for example if you want to have an attribute called 'attributes' etc, you should fall back to using 'attributes' and 'relationships' directly.

// Don't do this
new familyApi.Child({ attributes: [1, 2, 3] });
// Do this instead
new familyApi.Child({ attributes: { attributes: [1, 2, 3] } });

Client-generated IDs

Since .save() will issue a PATCH request when invoked on objects that have an ID, if you want to supply your own client-generated ID during creation, you have to use .create(), which will always issue a POST request.

await (new familyApi.Child(attributes={ name: 'Hercules' })).save();
// POST: {data: {type: "children", attributes: {name: "Hercules"}}}

await (new familyApi.Child({ id: '1', attributes: { name: 'Hercules' } })).save();
// PATCH: {data: {type: "children", id: "1", attributes: {name: "Hercules"}}}

await familyApi.Child.create({ attributes: { name: 'Hercules' } });
// POST: {data: {type: "children", attributes: {name: "Hercules"}}}

await familyApi.Child.create({ id: '1', attributes: { name: 'Hercules' } });
// POST: {data: {type: "children", id: "1", attributes: {name: "Hercules"}}}
// ^^^^

Deleting

Deleting happens simply by calling .delete() on an object. After deletion, the object will have the same data as before, except its id will be set to None. This happens in case you want to delete an object and instantly re-create it, with a different ID.

const child = await familyApi.Child.get('1');
await child.delete();

// Will create a new child with the same name and parent as the previous one
await child.save(['name', 'parent']);

console.log(child.id === null || child.id == '1');
// <<< false

Editing relationships

Singular relationships

Changing a singular relationship can happen in two ways (this also depends on what the server supports).

const child = await familyApi.Child.get('1');

child.set('parent', newParent);
await child.save(['parent']);

// or

await child.change('parent', newParent);

The first one will send a PATCH request to /children/1 with a body of:

{"data": {"type": "children",
          "id": "1",
          "relationships": {"parent": {"data": {"type": "parents", "id": "2"}}}}}

The second one will send a PATCH request to the URL indicated by child.relationships.parent.links.self, which will most likely be something like /children/1/relationships/parent, with a body of:

{"data": {"type": "parents", "id": "2"}}

Plural relationships

For changing plural relationships, you can use one of the add, remove and reset methods:

const parent = await familyApi.Parent.get('1');
parent.add('children', [new_child, ...])
parent.remove('children', [existing_child, ...])
parent.reset('children', [child_a, child_b, ...])

These will send a POST, DELETE or PATCH request respectively to the URL indicated by parent.relationships.children.links.self, which will most likely be something like /parents/1/relationships/children, with a body of:

{"data": [{"type": "children", "id": "1"},
          {"type": "children", "id": "2"},
          {"...": "..."}]}

Similar to the case when we were instantiating objects with relationships, the values passed to the above methods can either be resource objects, "resource identifiers" or entire relationship objects:

await parent.add('children', [await familyApi.Child.get("1"),
                              new familyApi.Child({ id: '2' }),
                              { type: 'children', id: '3' },
                              { data: { type: 'children', id: '4' } }]);

Bulk operations

Resource subclasses provide the bulkDelete, bulkCreate and bulkUpdate static methods for API endpoints that support such operations. These static methods accepts lists of resource objects or {json:api} representations on which the operation will be performed on. Furthermore, bulkUpdate accepts a fields argument with the attributes and relationships of the objects it will attempt to update.

// Bulk-create
const children = await familyApi.Child.bulkCreate([
   new familyApi.Child({ name: 'One', parent: parent }),
   { type: 'children', attributes: { name: 'Two' }, relationships: { parent: parent } },
]);

// Bulk-update
const child = await familyApi.Child.get('a');
child.set('married', true);

const children = await familyApi.Child.bulkUpdate(
   [child, { type: 'children', id: 'b', attributes: { married: true } }],
   ['married'],
);

// Bulk-delete
const child = await familyApi.Child.get('a');
const deletedCount = await familyApi.Child.bulkDelete([child, { id: 'b' }, 'c']);

const parent = await familyApi.Parent.get('1');
const childrenCollection = await parent.fetch('children');
const allChildren = [];
for await (const child of children_collection.all()) {
  allChildren.push(child);
}
await familyApi.Child.bulkDelete(allChildren);