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Ember Data Factory Guy

Build Status Ember Observer Score npm version

Feel the thrill and enjoyment of testing when using Factories instead of Fixtures. Factories simplify the process of testing, making you more efficient and your tests more readable.

NEW and Improved starting with v2.7.0

  • Support for using your factories in development environment
  • Change your scenarios, hit refresh and the development data changes

Older but still fun things

Why is FactoryGuy so awesome

  • Since you using ember data, you don't need to create any ORM like things.
  • You don't need to add any files to re create all the relationships in your models
  • Any custom methods like: serialize / serializeAttribute in a serializer will be used automatically
  • If you set up custom methods like: buildURL / urlForFindRecord in an adapter, they will be used automatically
  • You don't have to setup anything besides making factories.
  • Everything just works.

Questions: Slack => factory-guy

Contents:

ChangeLog: ( Notes about what has changed in each version )

Installation

  • ember install ember-data-factory-guy ( ember-data-1.13.5+ )
  • ember install ember-data-factory-guy@1.13.2 ( ember-data-1.13.0 + )
  • ember install ember-data-factory-guy@1.1.2 ( ember-data-1.0.0-beta.19.1 )
  • ember install ember-data-factory-guy@1.0.10 ( ember-data-1.0.0-beta.16.1 )

Upgrade

  • remove ember-data-factory-guy from package.json
  • npm prune
  • ember install ember-data-factory-guy ( for latest release )

How this works

  • You create factories for you models.
    • put them in tests/factories directory
  • Then you use them to create models in your tests.
    • You can make records that persist in the store
    • Or you can build a json payload used for mocking an ajax call's payload

Setup

In the following examples, assume the models look like this:

  // standard models
  User = DS.Model.extend({
    name:     DS.attr('string'),
    style:    DS.attr('string'),
    projects: DS.hasMany('project'),
    hats: DS.hasMany('hat', {polymorphic: true})
  });

  Project = DS.Model.extend({
    title:  DS.attr('string'),
    user:   DS.belongsTo('user')
  });

  // polymorphic models
  Hat = DS.Model.extend({
    type: DS.attr('string'),
    user: DS.belongsTo('user')
  });

  BigHat = Hat.extend();
  SmallHat = Hat.extend();

Defining Factories

  • A factory has a name and a set of attributes.
  • The name should match the model type name. So, for 'User' model, the name would be 'user'
  • Create factory files in the tests/factories directory.
  • Can use generator to create the outline of a factory file: ember g factory user This will create a file named user.js in the tests/factories directory.
Standard models
// file tests/factories/user.js
import FactoryGuy from 'ember-data-factory-guy';

FactoryGuy.define('user', {
  // Put default 'user' attributes in the default section
  default: {
    style: 'normal',
    name: 'Dude'
  },
  // Create a named 'user' with custom attributes
  admin: {
    style: 'super',
    name: 'Admin'
  }
});
  • If you are using an attribute named 'type' and this is not a polymorphic model, use the option polymorphic: false in your definition
// file: tests/factories/cat.js
FactoryGuy.define('cat', {
  polymorphic: false, // manually flag this model as NOT polymorphic
  default: {
    // usually, an attribute named 'type' is for polymorphic models, but the defenition
    // is set as NOT polymorphic, which allows this type to work as attibute
    type: 'Cute',
    name: (f)=> `Cat ${f.id}`
  }
});
Polymorphic models
  • Define each polymorphic model in it's own typed definition
  • The attribute named 'type' is used to hold the model name
  • May want to extend parent factory here
  // file tests/factories/small-hat.js
  import FactoryGuy from 'ember-data-factory-guy';

  FactoryGuy.define('small-hat', {
    default: {
      type: 'SmallHat'
    }
  })

  // file tests/factories/big-hat.js
  import FactoryGuy from 'ember-data-factory-guy';

  FactoryGuy.define('big-hat', {
    default: {
      type: 'BigHat'
    }
  })

In other words, don't do this:

  // file tests/factories/hat.js
  import FactoryGuy from 'ember-data-factory-guy';

  FactoryGuy.define('hat', {
    default: {},
    small-hat: {
      type: 'SmallHat'
    },
    big-hat: {
      type: 'BigHat'
    }
  })

Using Factories

  • FactoryGuy.make
    • Loads model instance into the store
  • FactoryGuy.makeNew
    • Create new model instance but does not load it to the store
  • FactoryGuy.makeList
    • Loads zero to many model instances into the store
  • FactoryGuy.build
  • FactoryGuy.buildList
    • Builds json with list of zero or more items in accordance with the adapters specifications
  • Can override default attributes by passing in an object of options
  • Can add attributes or relationships with traits
  • Can compose relationships
    • By passing in other objects you've made with build/buildList or make/makeList
make/makeList
  • all instances loaded into the ember data store

Usage:

make
  import { make } from 'ember-data-factory-guy';

  // make basic user with the default attributes in user factory
  let user = make('user');
  user.toJSON({includeId: true}) // => {id: 1, name: 'User1', style: 'normal'}

  // make user with default attributes plus those defined as 'admin' in user factory
  let user = make('admin');
  user.toJSON({includeId: true}) // => {id: 2, name: 'Admin', style: 'super'}

  // make user with default attributes plus these extra attributes
  let user = make('user', {name: 'Fred'});
  user.toJSON({includeId: true}) // => {id: 3, name: 'Fred', style: 'normal'}

  // make admin defined user with these extra attributes
  let user = make('admin', {name: 'Fred'});
  user.toJSON({includeId: true}) // => {id: 4, name: 'Fred', style: 'super'}

  // make default user with traits and with extra attributes
  let user = make('user', 'silly', {name: 'Fred'});
  user.toJSON({includeId: true}) // => {id: 5, name: 'Fred', style: 'silly'}

  // make user with hats relationship ( hasMany ) composed of a few pre 'made' hats
  let hat1 = make('big-hat');
  let hat2 = make('big-hat');
  let user = make('user', {hats: [hat1, hat2]});
  user.toJSON({includeId: true})
  // => {id: 6, name: 'User2', style: 'normal', hats: [{id:1, type:"big_hat"},{id:1, type:"big_hat"}]}
  // note that hats are polymorphic. if they weren't, the hats array would be a list of ids: [1,2]

  // make user with company relationship ( belongsTo ) composed of a pre 'made' company
  let company = make('company');
  let user = make('user', {company: company});
  user.toJSON({includeId: true})  // => {id: 7, name: 'User3', style: 'normal', company: 1}
makeNew
  • Same api as make
    • The model returned will not be loaded into store
makeList

Usage:

  import { make, makeList } from 'ember-data-factory-guy';

  // Let's say bob is a named type in the user factory
  makeList('bob') // makes 0 bob's

  makeList('bob', 2) // makes 2 bob's

  makeList('bob', 2, 'with_car' , {name: "Dude"})
  // makes 2 bob's that have 'with_car' trait and name of "Dude"
  // In other words, applies the traits and options to every bob made

  makeList('bob', 'with_car', ['with_car',{name: "Dude"}])
  // 2 User models with bob attributes, where the first also has 'with_car' trait
  // the last has 'with_car' trait and name of "Dude", so you get 2 different bob's
build
  • for building json that you can pass as json payload in acceptance tests
  • takes same arguments as make
  • can compose relationships with other build/buildList payloads
  • to inspect the json use the get() method
  • use add method
    • to include extra sideloaded data to the payload
    • to include meta data

Usage:

  import { build, buildList } from 'ember-data-factory-guy';

  // build basic user with the default attributes in user factory
  let json = build('user');
  json.get() // => {id: 1, name: 'User1', style: 'normal'}

  // build user with default attributes plus those defined as 'admin' in user factory
  let json = build('admin');
  json.get() // => {id: 2, name: 'Admin', style: 'super'}

  // build user with default attributes plus these extra attributes
  let json = build('user', {name: 'Fred'});
  json.get() // => {id: 3, name: 'Fred', style: 'normal'}

  // build admin defined user with extra attributes
  let json = build('admin', {name: 'Fred'});
  json.get() // => {id: 4, name: 'Fred', style: 'super'}

  // build default user with traits and with extra attributes
  let json = build('user', 'silly', {name: 'Fred'});
  json.get() // => {id: 5, name: 'Fred', style: 'silly'}

  // build user with hats relationship ( hasMany ) composed of a few pre 'built' hats
  let hat1 = build('big-hat');
  let hat2 = build('big-hat');
  let json = build('user', {hats: [hat1, hat2]});
  // note that hats are polymorphic. if they weren't, the hats array would be a list of ids: [1,2]
  json.get() // => {id: 6, name: 'User2', style: 'normal', hats: [{id:1, type:"big_hat"},{id:1, type:"big_hat"}]}

  // build user with company relationship ( belongsTo ) composed of a pre 'built' company
  let company = build('company');
  let json = build('user', {company: company});
  json.get() // => {id: 7, name: 'User3', style: 'normal', company: 1}

  // build and compose relationships to unlimited degree
  let company1 = build('company', {name: 'A Corp'});
  let company2 = build('company', {name: 'B Corp'});
  let owners = buildList('user', { company:company1 }, { company:company2 });
  let buildJson = build('property', { owners });
  • Example of what json payload from build looks like
  • Although the RESTAdapter is being used, this works the same with ActiveModel or JSONAPI adapters
  let json = build('user', 'with_company', 'with_hats');
  json // =>
    {
      user: {
        id: 1,
        name: 'User1',
        company: 1,
        hats: [
          {type: 'big_hat', id:1},
          {type: 'big_hat', id:2}
        ]
      },
      companies: [
        {id: 1, name: 'Silly corp'}
      ],
      'big-hats': [
        {id: 1, type: "BigHat" },
        {id: 2, type: "BigHat" }
      ]
    }
buildList
  • for building json that you can pass as json payload in acceptance tests
  • takes the same arguments as makeList
  • can compose relationships with other build/buildList payloads
  • to inspect the json use the get() method
    • can use get(index) to get to items in the list
  • use add method
    • to add extra sideloaded data to the payload => .add({json})
    • to add meta data => .add({meta})

Usage:

  import { build, buildList } from 'ember-data-factory-guy';

  let bobs = buildList('bob', 2);  // builds 2 Bob's

  let bobs = buildList('bob', 2, {name: 'Rob'); // builds 2 Bob's with name of 'Rob'

  // builds 2 users, one with name 'Bob' , the next with name 'Rob'
  let users = buildList('user', { name:'Bob' }, { name:'Rob' });

  // builds 2 users, one with 'boblike' and the next with name 'adminlike' features
  // NOTE: you don't say how many to make, because each trait is making new user
  let users = buildList('user', 'boblike', 'adminlike');

  // builds 2 users:
  // one 'boblike' with stoner style
  // and the next 'adminlike' with square style
  // NOTE: how you are grouping traits and attributes for each one by wrapping them in array
  let users = buildList('user', ['boblike',{ style: 'stoner' }], ['adminlike', {style: 'square'}]);
Using add() method
  • when you need to add more json to payload
  • will be sideloaded
    • only JSONAPI, and REST based serializers can do sideloading
    • so DRFSerializer and JSONSerializer users can not user this feature

Usage:

  let batMan = build('bat_man');
  let userPayload = build('user').add({json:batMan});

  userPayload = {
    user: {
      id: 1,
      name: 'User1',
      style: "normal"
    },
    'super-heros': [
      {
        id: 1,
        name: "BatMan",
        type: "SuperHero"
      }
    ]
  };
  • when you want to add meta data to payload
    • only JSONAPI, and REST based and serializers and DRFSerializer can handle meta data
    • so JSONSerializer users can not user this feature ( though this might be a bug on my part )

Usage:

  let json1 = buildList('profile', 2).add({ meta: { previous: '/profiles?page=1', next: '/profiles?page=3' } });
  let json2 = buildList('profile', 2).add({ meta: { previous: '/profiles?page=2', next: '/profiles?page=4' } });

  mockQuery('profile', {page: 2}).returns({ json: json1 });
  mockQuery('profile', {page: 3}).returns({ json: json2 });

 store.query('profile', {page: 2}).then((records)=> // first 2 from json1
 store.query('profile', {page: 3}).then((records)=> // second 2 from json2
Using get() method
  • for inspecting contents of json payload
    • get() returns all attributes of top level model
    • get(attribute) gives you attribute in top level model
    • get(index) gives you the info for hasMany relationship at that index
    • get(relationships) gives you just id or type ( if polymorphic )
      • better to compose the build relationships by hand if you need more info
  • check out user factory: to see 'boblike' and 'adminlike' user traits
  let json = build('user');
  json.get() //=> {id: 1, name: 'User1', style: 'normal'}
  json.get('id') // => 1

  let json = buildList('user', 2);
  json.get(0) //=> {id: 1, name: 'User1', style: 'normal'}
  json.get(1) //=> {id: 2, name: 'User2', style: 'normal'}

  let json = buildList('user', 'boblike', 'adminlike');
  json.get(0) //=> {id: 1, name: 'Bob', style: 'boblike'}
  json.get(1) //=> {id: 2, name: 'Admin', style: 'super'}
  • building relationships inline
  let json = build('user', 'with_company', 'with_hats');
  json.get() //=> {id: 1, name: 'User1', style: 'normal'}

  // to get hats (hasMany relationship) info
  json.get('hats') //=> [{id: 1, type: "big_hat"},{id: 1, type: "big_hat"}]

  // to get company ( belongsTo relationship ) info
  json.get('company') //=> {id: 1, type: "company"}
  • by composing the relationships you can get the full attributes of those associations
  let company = build('company');
  let hats = buildList('big-hats');

  let user = build('user', {company , hats});
  user.get() //=> {id: 1, name: 'User1', style: 'normal'}

  // to get hats info from hats json
  hats.get(0) //=> {id: 1, type: "BigHat", plus .. any other attributes}
  hats.get(1) //=> {id: 2, type: "BigHat", plus .. any other attributes}

  // to get company info
  company.get() //=> {id: 1, type: "Company", name: "Silly corp"}

Sequences

  • For generating unique attribute values.
  • Can be defined:
    • In the model definition's sequences hash
    • Inline on the attribute
  • Values are generated by calling FactoryGuy.generate
Declaring sequences in sequences hash
  FactoryGuy.define('user', {
    sequences: {
      userName: (num)=> `User${num}`
    },

    default: {
      // use the 'userName' sequence for this attribute
      name: FactoryGuy.generate('userName')
    }
  });

  let json = FactoryGuy.build('user');
  json.get('name') // => 'User1'

  let user = FactoryGuy.make('user');
  user.get('name') // => 'User2'
Declaring an inline sequence on attribute
  FactoryGuy.define('project', {
    special_project: {
      title: FactoryGuy.generate((num)=> `Project #${num}`)
    },
  });

  let json = FactoryGuy.build('special_project');
  json.get('title') // => 'Project #1'

  let project = FactoryGuy.make('special_project');
  project.get('title') // => 'Project #2'

Inline Functions

  • Declare a function for an attribute
    • The fixture is passed as parameter so you can reference all other attributes, even id
  FactoryGuy.define('user', {
    default: {
      // Don't need the userName sequence, since the id is almost
      // always a sequential number, and you can use that.
      // f is the fixture being built as the moment for this factory
      // definition, which has the id available
      name: (f)=> `User${f.id}`
    },
    traits: {
      boringStyle: {
        style: (f)=> `${f.id} boring `
      }
      funnyUser: {
        style: (f)=> `funny ${f.name}`
      }
    }
  });

  let json = FactoryGuy.build('user', 'funny');
  json.get('name') // => 'User1'
  json.get('style') // => 'funny User1'

  let user = FactoryGuy.make('user', 'boring');
  user.get('id') // => 2
  user.get('style') // => '2 boring'

Note the style attribute was built from a function which depends on the name and the name is a generated attribute from a sequence function

Traits

  • Used with build, buildList, make, or makeList
  • For grouping attributes together
  • Can use one or more traits in a row
  • The last trait included overrides any values in traits before it
  FactoryGuy.define('user', {
    traits: {
      big: { name: 'Big Guy' }
      friendly: { style: 'Friendly' }
    }
  });

  let json = FactoryGuy.build('user', 'big', 'friendly');
  json.get('name') // => 'Big Guy'
  json.get('style') // => 'Friendly'

  let user = FactoryGuy.make('user', 'big', 'friendly');
  user.get('name') // => 'Big Guy'
  user.get('style') // => 'Friendly'

You can still pass in a hash of options when using traits. This hash of attributes will override any trait attributes or default attributes

  let user = FactoryGuy.make('user', 'big', 'friendly', {name: 'Dave'});
  user.get('name') // => 'Dave'
  user.get('style') // => 'Friendly'

Associations

  • Can setup belongsTo or hasMany associations in factory definitions
    • As inline attribute definition
    • With traits
  • Can setup belongsTo or hasMany associations manually
Setup belongsTo associations in Factory Definition
  // Recall ( from above setup ) that there is a user belongsTo on the Project model
  // Also, assume 'user' factory is same as from 'user' factory definition above in
  // 'Defining Factories' section
  FactoryGuy.define('project', {

    project_with_user: {
      // create user model with default attributes
      user: {}
    },
    project_with_bob: {
      // create user model with custom attributes
      user: {name: 'Bob'}
    },
    project_with_admin: {
      // create a named user model with the FactoryGuy.belongsTo helper method
      user: FactoryGuy.belongsTo('admin')
    }
  });

  let project = FactoryGuy.make('project_with_admin');
  project.get('user.name') // => 'Admin'
  project.get('user.style') // => 'super'

You could also accomplish the above with traits:

  FactoryGuy.define('project', {
    traits: {
      with_user: { user: {} },
      with_admin: { user: FactoryGuy.belongsTo('admin') }
    }
  });

  let user = FactoryGuy.make('project', 'with_user');
  project.get('user').toJSON({includeId: true}) // => {id:1, name: 'Dude', style: 'normal'}
Setup belongsTo associations manually
  let user = FactoryGuy.make('user');
  let project = FactoryGuy.make('project', {user: user});

  project.get('user').toJSON({includeId: true}) // => {id:1, name: 'Dude', style: 'normal'}

Note that though you are setting the 'user' belongsTo association on a project, the reverse user hasMany 'projects' association is being setup for you on the user ( for both manual and factory defined belongsTo associations ) as well

  user.get('projects.length') // => 1
Setup hasMany associations in Factory Definition
  FactoryGuy.define('user', {
    user_with_projects: { projects: FactoryGuy.hasMany('project', 2) }
  });

  let user = FactoryGuy.make('user_with_projects');
  user.get('projects.length') // => 2

You could also accomplish the above with traits:

  FactoryGuy.define('project', {
    traits: {
      with_projects: {
        projects: FactoryGuy.hasMany('project', 2)
      }
    }
  });

  let user = FactoryGuy.make('user', 'with_projects');
  user.get('projects.length') // => 2
Setup hasMany associations manually
  let project1 = FactoryGuy.make('project');
  let project2 = FactoryGuy.make('project');
  let user = FactoryGuy.make('user', {projects: [project1,project2]});
  user.get('projects.length') // => 2

  // or
  let projects = FactoryGuy.makeList('project', 2);
  let user = FactoryGuy.make('user', {projects: projects});
  user.get('projects.length') // => 2

Note that though you are setting the 'projects' hasMany association on a user, the reverse 'user' belongsTo association is being setup for you on the project ( for both manual and factory defined hasMany associations ) as well

  projects.get('firstObject.user')  // => user

Extending Other Definitions

  • Extending another definition will inherit these sections:

    • sequences
    • traits
    • default attributes
  • Inheritance is fine grained, so in each section, any attribute that is local will take precedence over an inherited one. So you can override some attributes in the default section ( for example ), and inherit the rest

  • Sample Factory using inheritance (big-group.js):

Transient Attributes

  • Use transient attributes to build fixture
    • Pass in any attribute you like to build a fixture
    • Usually helps you to build some other attribute
    • These attributes will be removed when fixture is done building
  • Can be used in make/makeList/build/buildList

Let's say you have a model and a factory like this:

  // app/models/dog.js
  import Model from 'ember-data/model';
  import attr from 'ember-data/attr';

  export default Model.extend({
    dogNumber: attr('string'),
    sound: attr('string')
  });

 // tests/factories/dog.js
 import FactoryGuy from 'ember-data-factory-guy';

 const defaultVolume = "Normal";

 FactoryGuy.define('dog', {
   default: {
     dogNumber: (f)=> `Dog${f.id}`,
     sound: (f) => `${f.volume||defaultVolume} Woof`
   }
 });

Then to build the fixture:

  let volume = 'Soft';
  let dog2 = build('dog', { volume });

  dog2.get('sound'); //=> `Soft Woof`

Callbacks

  • afterMake ( Going to be deprecated soon )
  • Uses transient attributes
  • Unfortuneately the model will fire 'onload' event before this afterMake is called.
    • So all data will not be setup by then if you rely on afterMake to finish by the time 'onload' is called.
    • In this case, just use transient attributes without the afterMake
    • Probably will remove afterMake soon due to this issue

Assuming the factory-guy model definition defines afterMake function:

  FactoryGuy.define('property', {
    default: {
      name: 'Silly property'
    },

    // optionally set transient attributes, that will be passed in to afterMake function
    transient: {
      for_sale: true
    },

    // The attributes passed to after make will include any optional attributes you
    // passed in to make, and the transient attributes defined in this definition
    afterMake: function(model, attributes) {
      if (attributes.for_sale) {
        model.set('name', model.get('name') + '(FOR SALE)');
      }
    }
  }

You would use this to make models like:

  Ember.run(function () {

    let property = FactoryGuy.make('property');
    property.get('name'); // => 'Silly property(FOR SALE)')

    let property = FactoryGuy.make('property', {for_sale: false});
    property.get('name'); // => 'Silly property')
  });

Using in Other Environments

  • You can set up scenarios for you app that use all your factories from tests

  • In config/environment.js you can put settings that will enable scenarios and or factory guy

  • NOTE: Do not use settings in the test environment. Factories are enabled by default for the test environment and setting the flag tells factory-guy to load the app/scenarios files which are not needed for using factory-guy in testing. This will result in errors being generated if the app/scenarios files do not exist.

      // file: config/environment.js
      // in development you don't have to set enabled to true since that is default
      if (environment === 'development') {
        ENV.factoryGuy = { useScenarios: true }; 
        ENV.locationType = 'auto';
        ENV.rootURL = '/';
      }
    
      or
    
      if (environment === 'production') {
        ENV.factoryGuy = {enabled: true, useScenarios: true};
        ENV.locationType = 'auto';
        ENV.rootURL = '/';
      }
  • Place your scenarios in app/scenarios directory

    • Start by creating at least a scenarios/main.js file since this is the starting point
    • Your scenario classes should inherit from Scenario class
    • A Scenario class should declare a run method where you do things like:
      • include other scenarios
        • Meaning you can compose scenarios like a symphony of notes
      • make your data or mock your requests using the typical FactoryGuy methods
        • these methods are all built into Scenario classes so you don't have to import them
      // file: app/scenarios/main.js
      import {Scenario} from 'ember-data-factory-guy';
      import Users from './users';
    
      // Just for fun, set the log level ( to 1 ) and see all FactoryGuy response info in console
      Scenario.settings({
        logLevel: 1, // 1 is the max for now, default is 0
      });
    
      export default class extends Scenario {
        run() {
           this.include([Users]);   // include other scenarios
           this.mockFindAll('products', 3);  // mock some finds
        }
      }
      // file: app/scenarios/users.js
      import {Scenario} from 'ember-data-factory-guy';
    
      export default class extends Scenario {
        run() {
          this.mockFindAll('user', 'boblike', 'normal');
          this.mockDelete('user');
        }
      }

Ember Data Model Fragments

As of 2.5.2 you can create factories which contain ember-data-model-fragments. Setting up your fragments is easy and follows the same process as setting up regular factories. The mapping between fragment types and their associations are like so:

Fragment Type Association
fragment FactoryGuy.belongsTo
fragmentArray FactoryGuy.hasMany
array []

For example, say we have the following Employee model which makes use of the fragment, fragmentArray and array fragment types.

//Employee model
export default Model.extend({
  name      : fragment('name'),
  phoneNumbers: fragmentArray('phone-number')
})

//Name fragment
export default Fragment.extend({
  titles: array('string'),
  firstName : attr('string'),
  lastName  : attr('string')
});

//Phone Number fragment
export default Fragment.extend({
  number: attr('string')
  type: attr('string')
});

A factory for this model and its fragments would look like so:

// Employee factory
FactoryGuy.define('employee', {
  default: {
    name: FactoryGuy.belongsTo('name'), //fragment
    phoneNumbers: FactoryGuy.hasMany('phone-number') //fragmentArray
  }
});

// Name fragment factory
FactoryGuy.define('name', {
  default: {
    titles: ['Mr.', 'Dr.'], //array
    firstName: 'Jon',
    lastName: 'Snow'
  }
});

// Phone number fragment factory
FactoryGuy.define('phone-number', {
  default: {
    number: '123-456-789',
    type: 'home'
  }
});

// TIP: You can set up associations manually ( and not necessarily in factory )
// To set up an employee ( hasMany ) phone numbers manually, try this:
let phoneNumbers = buildList('phone-numbers', 2).get();
let employee = make('employee', { phoneNumbers });

For a more detailed example of setting up fragments have a look at:

Creating Factories in Addons

If you are making an addon with factories and you want the factories available to Ember apps using your addon, place the factories in test-support/factories instead of tests/factories. They should be available both within your addon and in Ember apps using your addon.

Ember Django Adapter

  • As of 2.6.1 you can use ember-django-adapter
  • Everything is setup automatically
  • Remember that sideloading is not supported in DRFSerializer so all relationships should either
    • be set as embedded with DS.EmbeddedRecordsMixin if you want to use build/buildList
    • or user make/makeList and in you mocks, and return models instead of json:
  let projects = makeList('projects', 2); // put projects in the store
  let user = make('user', { projects });  // attatch them to user
  mockFindRecord('user').returns({model: user}); // now the mock will return a user that has projects
  • using fails() with errors hash is not working reliably
    • so you can always just mockWhatever(args).fails()

Custom API formats

FactoryGuy handles JSON-API / RESTSerializer / JSONSerializer out of the box.

In case your API doesn't follow either of these conventions, you can still make a custom fixture builder, or modify the FixtureConverters and JSONPayload classes that exist.

  • For now, before I launch into the details, let me know if you need this hookup and I can guide you to a solution, since the use cases will be rare and varied.

####cacheOnlyMode

  • FactoryGuy.cacheOnlyMode
    • Allows you to setup the adapters to prevent them from fetching data with ajax call
      • for single models ( find ) you have to put something in the store
      • for collections ( findAll ) you don't have to put anything in the store.
    • Takes except parameter as a list of models you don't want to cache.
      • These model requests will go to server with ajax call and need to be mocked.

This is helpful, when:

  • you want to set up the test data with make/makeList, and then prevent calls like store.find or findAll from fetching more data, since you have already setup the store with make/makeList data.
  • you have an application that starts up and loads data that is not relevant to the test page you are working on.

Usage:

import FactoryGuy, { makeList } from 'ember-data-factory-guy';
import moduleForAcceptance from '../helpers/module-for-acceptance';

moduleForAcceptance('Acceptance | Profiles View');

test("Using FactoryGuy.cacheOnlyMode", function() {
  FactoryGuy.cacheOnlyMode();
  // the store.find call for the user will go out unless there is a user
  // in the store
  make('user', {name: 'current'});
  // the application starts up and makes calls to findAll a few things, but
  // those can be ignored because of the cacheOnlyMode

  // for this test I care about just testing profiles
  makeList("profile", 2);

  visit('/profiles');

  andThen(()=> {
    // test stuff
  });
});

test("Using FactoryGuy.cacheOnlyMode with except", function() {
  FactoryGuy.cacheOnlyMode({except: ['profile']});

  make('user', {name: 'current'});

  // this time I want to allow the ajax call so I can return built json payload
  mockFindAll("profile", 2);

  visit('/profiles');

  andThen(()=> {
    // test stuff
  });
});

Testing models, controllers, components

  • FactoryGuy needs to setup the factories before the test run.

    • By default, you only need to call manualSetup(this.container) in unit/component tests
    • If you are using mock methods, such as mockQuery, use mockSetup() and mockTeardown()
  • Sample model test (profile-test.js):

    • Use 'moduleForModel' ( ember-qunit ), or describeModel ( ember-mocha ) test helper
    • manually set up Factory guy
  • Sample component test #1 (single-user-manual-setup-test.js):

    • Using 'moduleForComponent' ( ember-qunit ), or describeComponent ( ember-mocha ) helper
    • Manually sets up Factory guy ( so it's faster )
    import { make, manualSetup }  from 'ember-data-factory-guy';
    import hbs from 'htmlbars-inline-precompile';
    import { test, moduleForComponent } from 'ember-qunit';
    
    moduleForComponent('single-user', 'Integration | Component | single-user (manual setup)', {
      integration: true,
    
      beforeEach: function () {
        manualSetup(this.container);
      }
    });
    
    test("shows user information", function () {
      let user = make('user', {name: 'Rob'});
    
      this.render(hbs`{{single-user user=user}}`);
      this.set('user', user);
    
      ok(this.$('.name').text().match(user.get('name')));
      ok(this.$('.funny-name').text().match(user.get('funnyName')));
    });
  • Sample component test #2 (single-user-test.js):

    • Using 'moduleForComponent' ( ember-qunit ), or describeComponent ( ember-mocha ) helper
    • Starts a new application with startApp() before each test ( slower )

Acceptance Tests

Using mock methods
  • Uses mockjax

    • for mocking the ajax calls made by ember-data.
    • this library is installed with ember-data-factory-guy.
  • http GET mocks

    • mockFindRecord
    • mockFindAll
    • mockReload
    • mockQuery
    • mockQueryRecord
    • takes modifier method returns() for setting the payload response
      • returns() accepts parameters like: json, model, models, id, ids, headers
        • headers are cumulative so you can add as many as you like
        • Example:
          let mock = mockFindAll('user').returns({headers: {'X-Man': "Wolverine"});
          mock.returns({headers: {'X-Weapon': "Claws"});
    • these mocks are are reusable
      • so you can simulate making the same ajax call ( url ) and return a different payload
  • http POST/PUT/DELETE

  • Use method fails() to simulate failure

  • Use method succeeds() to simulate success

  • Only used if the mock was set to fail with fails() and you want to set the mock to succeed to simulate a successful retry

  • Use property timesCalled to verify how many times the ajax call was mocked

    • works when you are using mockQuery, mockQueryRecord, mockFindAll, or mockUpdate
    • mockFindRecord will always be at most 1 since it will only make ajax call the first time, and then the store will use cache the second time
    • Example:
      const mock = mockQueryRecord('company', {}).returns({ json: build('company') });
    
      FactoryGuy.store.queryRecord('company', {}).then(()=> {
        FactoryGuy.store.queryRecord('company', {}).then(()=> {
          mock.timesCalled //=> 2
        });
      });
  • Use method disable() to temporarily disable the mock. You can re-enable the disabled mock using enable().

  • Use method destroy() to completely remove the mockjax handler for the mock. The isDestroyed property is set to true when the mock is destroyed.

setup and teardown
  • Use mockSetup() in test setup/beforeEach
  • set logging options here:
    • logLevel ( 0 - off , 1 - on ) for seeing the factory guy responses
    • responseTime ( in millis ) for simulating slower repsonses
    • mockjaxLogLevel ( 1 - 4 max ) for seeing mockjax logging - Example: javascript mockSetup({logLevel: 1, responseTime: 1000, mockjaxLogLevel: 4});
  • Use mockTeardown() in test teardown/afterEach
  • Easiest is to set them up in module-for-acceptance.js:
Using fails method
  • Usable on all mocks

  • Use optional object arguments status and response and convertErrors to customize

    • status : must be number in the range of 3XX, 4XX, or 5XX ( default is 500 )
    • response : must be object with errors key ( default is null )
    • convertErrors : set to false and object will be left untouched ( default is true )
      • errors must be in particular format for ember-data to accept them
        • factory guy allows you to use a simple style: {errors: {name: "Name too short"}}
        • Behind the scenes converts to another format for ember-data to consume
  • Examples:

  let errors401 = {errors: {description: "Unauthorized"}};
  let mock = mockFindAll('user').fails({status: 401, response: errors401});

  let errors422 = {errors: {name: "Name too short"}};
  let mock = mockFindRecord('profile').fails({status: 422, response: errors422});

  let errorsMine = {errors: [{detail: "Name too short", title: "I am short"}]};
  let mock = mockFindRecord('profile').fails({status: 422, response: errorsMine, convertErrors: false});
mockFindRecord
  • For dealing with finding one record of a model type => store.find('modelType')
  • Can pass in arguments just like you would for make or build
    • mockFindRecord( fixture or model name, optional traits, optional attributes object)
  • Takes modifier method returns() for controlling the response payload
    • returns( model / json / id )
  • Sample acceptance tests using mockFindRecord: user-view-test.js:

Usage:

   import { build, make, mockFindRecord } from 'ember-data-factory-guy';
  • To return default factory model type ( 'user' in this case )
   // mockFindRecord automatically returns json for the modelType ( in this case 'user' )
   let mock = mockFindRecord('user');
   let userId = mock.get('id');
  • Using returns({json}) to return json object
   let user = build('user', 'whacky', {isDude: true});
   let mock = mockFindRecord('user').returns({ json: user });
   // user.get('id') => 1
   // user.get('style') => 'whacky'

   // or to acccomplish the same thing with less code
   let mock = mockFindRecord('user', 'whacky', {isDude: true});
   // mock.get('id') => 1
   // mock.get('style') => 'whacky'
   let user = mock.get();
   // user.id => 1
   // user.style => 'whacky'
  • Using returns({model}) to return model instance
   let user = make('user', 'whacky', {isDude: false});
   let mock = mockFindRecord('user').returns({ model: user });
   // user.get('id') => 1
   // you can now also user.get('any-computed-property')
   // since you have a real model instance
  • Simper way to return a model instance
   let user = make('user', 'whacky', {isDude: false});
   let mock = mockFindRecord(user);
   // user.get('id') === mock.get('id')
   // basically a shortcut to the above .returns({ model: user })
   // as this sets up the returns for you
  • To reuse the mock
   let user2 = build('user', {style: "boring"});
   mock.returns({ json: user2 });
   // mock.get('id') => 2
  • To mock failure case use fails method
   mockFindRecord('user').fails();
  • To mock failure when you have a model already
  let profile = make('profile');
  mockFindRecord(profile).fails();
  // mock.get('id') === profile.id
mockFindAll
  • For dealing with finding all records for a model type => store.findAll(modelType)
  • Takes same parameters as makeList
    • mockFindAll( fixture or model name, optional number, optional traits, optional attributes object)
  • Takes modifier method returns() for controlling the response payload
    • returns( models / json / ids )
  • Sample acceptance tests using mockFindAll: users-view-test.js

Usage:

   import { buildList, makeList, mockFindAll } from 'ember-data-factory-guy';
  • To mock and return no results
   let mock = mockFindAll('user');
  • Using returns({json}) to return json object
   // that has 2 different users:
   let users = buildList('user', 'whacky', 'silly');
   let mock = mockFindAll('user').returns({ json: users });
   let user1 = users.get(0);
   let user2 = users.get(1);
   // user1.style => 'whacky'
   // user2.style => 'silly'

   // or to acccomplish the same thing with less code
   let mock = mockFindAll('user', 'whacky', 'silly');
   let user1 = mock.get(0);
   let user2 = mock.get(1);
   // user1.style => 'whacky'
   // user2.style => 'silly'
  • Using returns({models}) to return model instances
    let users = makeList('user', 'whacky', 'silly');
    let mock = mockFindAll('user').returns({ models: users });
    let user1 = users[0];
    // you can now also user1.get('any-computed-property')
    // since you have a real model instance
  • To reuse the mock and return different payload
   let users2 = buildList('user', 3);
   mock.returns({ json: user2 });
  • To mock failure case use fails() method
   mockFindAll('user').fails();
mockReload
  • To handle reloading a model
    • Pass in a record ( or a typeName and id )

Usage:

  • Passing in a record / model instance
  let profile = make('profile');
  mockReload(profile);

  // will stub a call to reload that profile
  profile.reload()
  • Using returns({attrs}) to return new attributes
  let profile = make('profile', { description: "whatever" });
  mockReload(profile).returns({ attrs: { description: "moo" } });
  profile.reload(); // description is now "moo"
  • Using returns({json}) to return all new attributes
  let profile = make('profile', { description: "tomatoes" });
  // all new values EXCEPT the profile id ( you should keep that id the same )
  let profileAllNew = build('profile', { id: profile.get('id'), description: "potatoes" }
  mockReload(profile).returns({ json: profileAllNew });
  profile.reload(); // description = "potatoes"
  • Mocking a failed reload
  mockReload('profile', 1).fails();
mockQuery
  • For dealing with querying for all records for a model type => store.query(modelType, params)
    • Takes modifier method returns() for controlling the response payload
    • returns( models / json / ids )
  • Takes modifier methods for matching the query params - withParams( object ) - withSomeParams( object )
  • Sample acceptance tests using mockQuery: user-search-test.js

Usage:

  import FactoryGuy, { make, build, buildList, mockQuery } from 'ember-data-factory-guy';
  let store = FactoryGuy.store;

  // This simulates a query that returns no results
  mockQuery('user', {age: 10});

  store.query('user', {age: 10}}).then((userInstances) => {
    /// userInstances will be empty
  })
  • with returns( models )
  // Create model instances
  let users = makeList('user', 2, 'with_hats');

  mockQuery('user', {name:'Bob', age: 10}).returns({models: users});

  store.query('user', {name:'Bob', age: 10}}).then((models)=> {
    // models are the same as the users array
  });
  • with returns ( json )
  // Create json with buildList
  let users = buildList('user', 2, 'with_hats');

  mockQuery('user', {name:'Bob', age: 10}).returns({json: users});

  store.query('user', {name:'Bob', age: 10}}).then((models)=> {
    // these models were created from the users json
  });
  • with returns( ids )
  // Create list of models
  let users = buildList('user', 2, 'with_hats');
  let user1 = users.get(0);

  mockQuery('user', {name:'Bob', age: 10}).returns({ids: [user1.id]});

  store.query('user', {name:'Bob', age: 10}}).then(function(models) {
    // models will be one model and it will be user1
  });
  • withParams() / withSomeParams()
  // Create list of models
  let users = buildList('user', 2, 'with_hats');
  let user1 = users.get(0);

  mock = mockQuery('user').returns({ids: [user1.id]});

  mock.withParams({name:'Bob', age: 10})

  // When using 'withParams' modifier, params hash must match exactly
  store.query('user', {name:'Bob', age: 10}}).then(function(models) {
    // models will be one model and it will be user1
  });

  // The following call will not be caught by the mock
  store.query('user', {name:'Bob', age: 10, hair: 'brown'}})

  // 'withSomeParams' is designed to catch requests by partial match
  // It has precedence over strict params matching once applied
  mock.withSomeParams({name:'Bob'})

  // Now both requests will be intercepted
  store.query('user', {name:'Bob', age: 10}})
  store.query('user', {name:'Bob', age: 10, hair: 'brown'}})
mockQueryRecord
  • For dealing with querying for one record for a model type => store.queryRecord(modelType, params)
    • Takes modifier method returns() for controlling the response payload
    • returns( model / json / id )
  • Takes modifier methods for matching the query params - withParams( object )

Usage:

  import FactoryGuy, { make, build, mockQueryRecord } from 'ember-data-factory-guy';
  let store = FactoryGuy.store;

  // This simulates a query that returns no results
  mockQueryRecord('user', {age: 10});

  store.queryRecord('user', {age: 10}}).then((userInstance) => {
    /// userInstance will be empty
  })
  • with returns( models )
  // Create model instances
  let user = make('user');

  mockQueryRecord('user', {name:'Bob', age: 10}).returns({model: user});

  store.queryRecord('user', {name:'Bob', age: 10}}).then((model)=> {
    // model is the same as the user you made
  });
  • with returns ( json )
  // Create json with buildList
  let user = build('user');

  mockQueryRecord('user', {name:'Bob', age: 10}).returns({json: user});

  store.queryRecord('user', {name:'Bob', age: 10}}).then((model)=> {
    // user model created from the user json
  });
  • with returns( ids )
  // Create list of models
  let user = build('user', 'with_hats');

  mockQueryRecord('user', {name:'Bob', age: 10}).returns({id: user.get('id')});

  store.queryRecord('user', {name:'Bob', age: 10}}).then(function(model) {
    // model will be one model and it will be user1
  });
mockCreate
  • Use chainable methods to build the response
    • match: takes a hash with attributes or a matching function
      1. attributes that must be in request json
      • These will be added to the response json automatically, so you don't need to include them in the returns hash.
      • If you match on a belongsTo association, you don't have to include that in the returns hash either ( same idea )
      1. a function that can be used to perform an arbitrary match against the request json, returning true if there is a match, false otherwise.
    • returns
      • Attributes ( including relationships ) to include in response json
  • Need to wrap tests using mockCreate with: Ember.run(function() { 'your test' })

Realistically, you will have code in a view action or controller action that will create the record, and setup any associations.

  // most actions that create a record look something like this:
  action: {
    addProject: function (user) {
      let name = this.$('button.project-name').val();
      this.store.createRecord('project', {name: name, user: user}).save();
    }
  }

In this case, you are are creating a 'project' record with a specific name, and belonging to a particular user. To mock this createRecord call here are a few ways to do this using chainable methods.

Usage:

  import { mockCreate } from 'ember-data-factory-guy';

  // Simplest case
  // Don't care about a match just handle createRecord for any project
  mockCreate('project');

  // Matching some attributes
  mockCreate('project').match({name: "Moo"});

  // Match all attributes
  mockCreate('project').match({name: "Moo", user: user});

  // Match using a function that checks that the request's top level attribute "name" equals 'Moo'
  mockCreate('project').match(requestData => requestData.name === 'Moo');

  // Exactly matching attributes, and returning extra attributes
  mockCreate('project')
    .match({name: "Moo", user: user})
    .returns({created_at: new Date()});

  // Returning belongsTo relationship. Assume outfit belongsTo 'person'
  let person = build('super-hero'); // it's polymorphic
  mockCreate('outfit').returns({attrs: { person }});

  // Returning hasMany relationship. Assume super-hero hasMany 'outfits'
  let outfits = buildList('outfit', 2);
  mockCreate('super-hero').returns({attrs: { outfits }});
  • mocking a failed create
  // Mocking failure case is easy with chainable methods, just use #fails
  mockCreate('project').match({name: "Moo"}).fails();

  // Can optionally add a status code and/or errors to the response
  mockCreate('project').fails({status: 422, response: {errors: {name: ['Moo bad, Bahh better']}}});

  store.createRecord('project', {name: "Moo"}).save(); //=> fails
mockUpdate
  • mockUpdate(model)
    • Single argument ( the model instance that will be updated )
  • mockUpdate(modelType, id)
    • Two arguments: modelType ( like 'profile' ) , and the profile id that will updated
  • Use chainable methods to help build response:
    • match: takes a hash with attributes or a matching function
      1. attributes with values that must be present on the model you are updating
      2. a function that can be used to perform an arbitrary match against the request json, returning true if there is a match, false otherwise.
    • returns
      • Attributes ( including relationships ) to include in response json
  • Need to wrap tests using mockUpdate with: Ember.run(function() { 'your test' })

Usage:

  import { make, mockUpdate } from 'ember-data-factory-guy';

  let profile = make('profile');

  // Pass in the model that will be updated ( if you have it available )
  mockUpdate(profile);

  // If the model is not available, pass in the modelType and the id of
  // the model that will be updated
  mockUpdate('profile', 1);

  profile.set('description', 'good value');
  profile.save() //=> will succeed

  // Returning belongsTo relationship. Assume outfit belongsTo 'person'
  let outfit = make('outfit');
  let person = build('super-hero'); // it's polymorphic
  outfit.set('name','outrageous');
  mockUpdate(outfit).returns({attrs: { person }});
  outfit.save(); //=> saves and returns superhero

  // Returning hasMany relationship. Assume super-hero hasMany 'outfits'
  let superHero = make('super-hero');
  let outfits = buildList('outfit', 2, {name:'bell bottoms'});
  superHero.set('style','laid back');
  mockUpdate(superHero).returns({attrs: { outfits }});
  superHero.save(); // => saves and returns outfits

  // using match() method to specify attribute values
  let profile = make('profile');
  profile.set('name', "woo");
  let mock = mockUpdate(profile).match({name: "moo"});
  profile.save();  // will not be mocked since the mock you set says the name must be "woo"

  // using match() method to specify a matching function
  let profile = make('profile');
  profile.set('name', "woo");
  let mock = mockUpdate(profile).match(requestData => requestData.name === "moo");
  profile.save();  // will not be mocked since the mock you set requires the request's top level attribute "name" to equal "moo"

  // either set the name to "moo" which will now be mocked correctly
  profile.set('name', "moo");
  profile.save(); // succeeds

  // or

  // keep the profile name as "woo"
  // but change the mock to match the name "woo"
  mock.match({name: "woo"});
  profile.save();  // succeeds
  • mocking a failed update
  let profile = make('profile');

  // set the succeed flag to 'false'
  mockUpdate('profile', profile.id).fails({status: 422, response: 'Invalid data'});
  // or
  mockUpdate(profile).fails({status: 422, response: 'Invalid data'});

  profile.set('description', 'bad value');
  profile.save() //=> will fail

mocking a failed update and retry with success

  let profile = make('profile');

  let mockUpdate = mockUpdate(profile);

  mockUpdate.fails({status: 422, response: 'Invalid data'});

  profile.set('description', 'bad value');
  profile.save() //=> will fail

  // After setting valid value
  profile.set('description', 'good value');

  // Now expecting success
  mockUpdate.succeeds();

  // Try that update again
  profile.save() //=> will succeed!
mockDelete
  • Need to wrap tests using mockDelete with: Ember.run(function() { 'your test' })
  • To handle deleting a model
    • Pass in a record ( or a typeName and id )

Usage:

  • Passing in a record / model instance
  import { make, mockDelete } from 'ember-data-factory-guy';

  let profile = make('profile');
  mockDelete(profile);

  profile.destroyRecord() // => will succeed
  • Passing in a model typeName and id
  import { make, mockDelete } from 'ember-data-factory-guy';

  let profile = make('profile');
  mockDelete('profile', profile.id);

  profile.destroyRecord() // => will succeed
  • Passing in a model typeName
  import { make, mockDelete } from 'ember-data-factory-guy';

  let profile1 = make('profile');
  let profile2 = make('profile');
  mockDelete('profile');

  profile1.destroyRecord() // => will succeed
  profile2.destroyRecord() // => will succeed
  • Mocking a failed delete
    mockDelete(profile).fails();
Tips and Tricks
Tip 1: Fun with makeList/buildList and traits
  • This is probably the funnest thing in FactoryGuy, if you're not using this syntax yet, you are truly missing out.
 
 let json    = buildList('widget', 'square', 'round', ['round','broken']);
 let widgets = makeList('widget', 'square', 'round', ['round','broken']);
 let [roundWidget, squareWidget, roundBrokenWidget] = widgets; 
 
- you just built/made 3 different widgets from traits ('square','round','broken')
- first will have square trait
- second will have round trait
- third will have round and broken trait
Tip 2: Testing model's custom serialize() method
  • The fact that you can match on attributes in mockUpdate and mockCreate means that you can test a custom serialize() method in a model serializer
  // app/serializers/person.js
  export default DS.RESTSerializer.extend({

    // let's say you're modifying all names to be Japanese honorific style
    serialize: function(snapshot, options) {
      var json = this._super(snapshot, options);
  
      let honorificName = [snapshot.record.get('name'), 'san'].join('-');
      json.name = honorificName;
  
      return json;
    }
  });

  // somewhere in your tests
  let person = make('person', {name: "Daniel"});
  mockUpdate(person).match({name: "Daniel-san"});
  person.save(); // will succeed
  // and voila, you have just tested the serializer is converting the name properly
  • You could also test serialize() method in a simpler way by doing this:
  let person = make('person', {name: "Daniel"});
  let json = person.serialize();
  assert.equal(json.name, 'Daniel-san');
Tip 3: Building static / fixture like data into the factories.
  • States are the classic case. There is a state model, and there are 50 US states.
  • You could use a strategy to get them with traits like this:
  import FactoryGuy from 'ember-data-factory-guy';
  
  FactoryGuy.define('state', {
  
    traits: {
      NY: { name: "New York", id: "NY" },
      NJ: { name: "New Jersey", id: "NJ" },
      CT: { name: "Connecticut", id: "CT" }
    }
  });
  
  // then in your tests you would do 
  let [ny, nj, ct] = makeList('state', 'ny', 'nj', 'ct'); 
  • Or you could use a strategy to get them like this:
  import FactoryGuy from 'ember-data-factory-guy';
  
  const states = [
    { name: "New York", id: "NY" },
    { name: "New Jersey", id: "NJ" },
    { name: "Connecticut", id: "CT" }
    ... blah .. blah .. blah
  ];

  FactoryGuy.define('state', {
  
    default: {
      id: FactoryGuy.generate((i)=> states[i-1].id)
      name: FactoryGuy.generate((i)=> states[i-1].name)
  });
  
  // then in your tests you would do 
  let states = makeList('state', 3); // or however many states you have 
Tip 4: Using Scenario class in tests
  • encapsulate data interaction in a scenario class
    • sets up data
    • has helper methods to retrieve data
  • similar to how page objects abstract away the interaction with a page/component

Example:

// file: tests/scenarios/admin.js
import Ember from 'ember';
import {Scenario}  from 'ember-data-factory-guy';

export default class extends Scenario {

  run() {
    this.createGroups();
  }
  
  createGroups() {
    this.permissionGroups = this.makeList('permission-group', 3);
  }
  
  groupNames() {
    return this.permissionGroups.mapBy('name').sort();
  }
}

// file: tests/acceptance/admin-view-test.js
import page from '../pages/admin';
import Scenario from '../scenarios/admin';

describe('Admin View', function() {
  let scenario;

  beforeEach(function() {
    scenario = new Scenario();
    scenario.run();
  });

  describe('group', function() {
    beforeEach(function() {
      page.visitGroups();
    });

    it('shows all groups', function() {
      expect(page.groups.names).to.arrayEqual(scenario.groupNames());
    });
  });
});

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