frint-data
Reactive data modelling package for Frint
Guide
Installation
With npm:
$ npm install --save frint-data
Via unpkg CDN:
Terminologies
Model: Object-like data structuresCollection: Array-like data structuresSchema: The structure of a ModelType: Type of individual keys in a Model's Schema
Usage
Let's first import the dependencies:
;Define Model
// Individual Todo items can be Modelsconst Todo = ;Define a Collection
// a group of Todo models can be put in a Todos collectionconst Todos = ;Intantiate classes
// modelconst todo = title: 'First task' completed: false; // collectionconst todos = ;todos;Model usage
// access propertiesconsole; // `First task` // properties are immutabletodotitle = 'First task title changed';console; // still `First task` // mutate them via methods onlytodo;console; // `First task [updated]`Collection usage
// lets add the model to collectiontodos;console; // `1` todos;console; // `2` // let's take the last model out of the collectionconst lastTodo = todos;console; // `My second task`console; // `1`Observing Models and Collections
; // modelconst todoTitle$ = todo ; todoTitle$; // collectiontodos;Types
One of the main features of frint-data is that it is strictly based on typed values.
A list of type expressions are already shipped with the package and you can import them as follows:
;Some of the types include:
Types.stringTypes.numberTypes.enum- ...see API Reference below for more.
Primary types
If you want to check the type of a value that you expect to be a string:
const checkIfString = Typesstring;Now the checkIfString function would return a string if a correct valid string was passed to it, otherwise it would throw a new TypesError.
const str = ; // returns `Hello World` const foo = ; // throws TypesErrorChaining types
Type expressions can also be chained:
const checkIfString = TypesstringisRequired; ; // returns `hello world` ; // throws TypesError: value is undefinedAvailable chained expressions:
isRequireddefaults(defaultValue)
Models
Models are objects that represent data. A model can hold data in the form of regular strings, booleans, and even embed other Models and Collections.
Create a Model class
When creating a Model class, we need to pass a schema (formed of Types):
; const Todo = ;Here, we are creating a new Model class for Todo, and we are providing a schema to it saying title is a required string, and completed is a boolean value that defaults to false.
Create a model instance
const todo = title: 'My new todo item';Since completed would default to false, we don't need to pass it during instantiation. But if we didn't provide the title, it would throw a new TypesError.
Accessing model properties
You can get the values from your model instance just like you would do with a regular plain object:
const title = todotitle; // `My new todo item`Immutable by default
Model properties are immutable by default. And you can only change them via methods that you define while creating the Model class in the beginning.
todotitle = 'Changing the title'; // has no impact console; // still `My new todo item`Model methods
To change any property values, lets extend your Model class a bit more, by passing a new method in createModel():
const Todo = ;Now from instance level, we can change the title:
todo; console; // `Changing the title`Collections
Collections are arrays of Models, and to be more precise, they contain Models of a specific single class.
For example a Todos collection consisting of only Todo models.
Create a Collection class
; const Todos = ;Create a collection instance
// empty instanceconst todos = ; // instance with some models dataconst todos = title: 'First task' // will be converted to Todo instances title: 'Second task'; // instance with some model instancesconst todos = title: 'First task' title: 'Second task' ;Methods
You can make new methods available to your collection instances as follows:
const Todos = ;Collection instances also come with built-in methods like map, filter, reduce just like Array. See more in API Reference.
Immutable collections
Collections are immutable by default. If you want to use built-in methods that mutate the collection, then you have to do them by defining custom methods first:
const Todos = ; const todos = ;todos; // works // this will NOT worktodos;Embedding
Models can embed other Models and Collections, and this can go as many levels deep as the data structure demands.
Embedding Models
Let's say we have an individual Address model:
; const Address = ;And we also have a Person model:
const Person = ;If we wish to embed Address model in a new schema key address in Person model, we can do:
const Person = ;Next, if we instantiate a new Person:
const person = name: 'Sirius Black' address: street: '12 Grimmauld Place' city: 'London' ; // `person` is an instance of Person// `person.address` is an instance of AddressTo change the street name of the address, we would access the method as:
personaddress;Embedding Collections
From previous examples, we already have a Person model. Now let's say, a Person has a collection of Books.
We can define the classes as follows:
; const Book = ; const Books = ; const Person = ;When instantiating a Person, we can optionally pass books data too:
const person = name: 'Bathilda Bagshot' books: title: 'A History of Magic' ; // `person` is an instance of Person// `person.books` is an instance of Books// `person.books.at(0)` is an instance of BookYou could now add more books to the list as:
personbooks;Note
The API is highly inspired by Tydel, and this package aims to be a reactive version of it using RxJS.
API
Types
Types
Type expressions for your Models' schema.
Available types:
Types.string
Types.string
const Todo = ;Types.bool
Types.bool
const Todo = ;Types.date
Types.date
const Todo = ;Types.number
Types.number
const Person = ;Types.enum
Types.enum
If you want the value to be one of the pre-defined list of values:
const Book = ;And if you want the enum to be of specific types, you can use enum.of:
const Book = ;Types.UUID
Types.uuid
const Book = ;Example UUID value: 27961a0e-f4e8-4eb3-bf95-c5203e1d87b9
Types.model
Types.model
Models can embed other models too:
const Person = ;If you want to be more strict about which Model class can be embedded, use model.of:
const Address = ; const Person = ;Types.collection
Types.collection
Collections can also be embedded in models:
const Author = ;If you want to be more strict about which Collection class can be embedded, use collection.of:
const Book = ; const Books = ; const Author = ;The following Types are available, but not recommended for use since these do not support observing them for changes. Consider embedding Models or Collections instead:
Types.objectTypes.arrayTypes.any
createModel
createModel(options)
Returns a Model class based on the schema and methods that are provided.
Arguments
options(Object):
options.schema(Object): Schema object with keys having field values based onTypesexpressionsoptions.initialize(Function): Called when the Model is constructedoptions.*(Function): Custom methods
Returns
Model class.
createCollection
createCollection(options)
Arguments
options(Object):
options.model(Model): Model class that this Collection is ofoptions.initialize(Function): Called when the Collection is constructedoptions.*(Function): Custom methods
Returns
Collection class.
Model
Next to the custom methods, Models also expose some built-in methods.
Some methods also support streaming the results with an Observable. Look for methods ending with $:
model.getIn
getIn(paths)
getIn$(paths)
Returns the value in given path.
For example:
const firstBookTitle = author; // same as:// author.books.at(0).title;model.get
get()
get(path)
get$(path)
If no argument provided, then results self.
The path can either be key according to the model's schema, or a dot separated path targeting some nested child.
person; // same as:// person.getIn(['books', 0, 'title']);toJS
toJS()
toJS$()
Returns a plain JavaScript object from all its properties, as well as nested Models and Collections.
model.destroy
destroy()
Destroys the model, and cleans up its watchers.
Collection
The Collection instance tries to imitate the native Array as much as possible.
Most methods also support supporting streaming the results as they change. Look for methods ending with $ in examples.
collection.length
length
The lengh of the Collection.
const length = collectionlength;collection.at
collection.at(n)
collection.at$(n)
Returns the model at specific index
collection.push
collection.push(model)
Pushes the model, and adds it to the end of the collection.
collection.every
every(iteratorFn)
every$(iteratorFn)
Tests whether all models in the collection pass the test implemented by the provided function.
collection.filter
filter(iteratorFn)
filter$(iteratorFn)
Creates a new array with all models that pass the test implemented by the provided function.
collection.find
find(iteratorFn)
find$(iteratorFn)
Returns a model in the collection, if a model in the array satisfies the provided testing function. Otherwise undefined is returned.
collection.forEach
forEach(iteratorFn)
Executes provided function once per model in the collection.
collection.includes
includes(model)
includes$(model)
Determines whether colelction includes a certain model, returning true or false as appropriate.
collection.indexOf
indexOf(model)
indexOf$(model)
Returns the first index at which a given model can be found in the collection, or -1 if it is not present.
collection.map
map(fn)
map$(fn)
Creates a new array with the results of calling the provided function on every model in this collection.
reduce
reduce(fn, initialValue)
reduce$(fn, initialValue)
Applies the function against an accumulator and each model of the collection (from left-to-right) to reduce it to a single value.
collection.some
some(iteratorFn)
some$(iteratorFn)
Tests whether some model in the collection passes the test implemented by the provided function.
collection.pop
pop()
Removes the last model from the collection and returns that model. This method changes the length of the collection.
collection.shift
shift()
Removes the first model from the collection and returns that model. This method changes the length of the collection.
collection.unshift
unshift(model)
Adds one or more models to the beginning of the collection and returns the new length of the collection.
collection.remove
remove(model)
Removes model from the collection.
collection.removeFrom
removeFrom(n)
Removes model from the given n index.
collection.first
first()
first$()
Gets the first model of the collection.
collection.last
last()
last$()
Gets the last model of the collection.
collection.take
take(n = 1)
take$(n = 1)
Creates a slice of array with n models taken from the beginning.
collection.takeRight
takeRight(n = 1)
takeRight$(n = 1)
Creates a slice of array with n models taken from the end.
collection.destroy
destroy()
Destroys the collection and its watchers.
collection.toJS
toJS()
toJS$()
Converts the collection to a plain array, and also converting the models into plain objects recursively.
collection.get
get$()
Returns an Observable of the collection, as it keeps on changing.
isModel
isModel(object)
Arguments
object(Object): The argument to check against
Returns
Boolean: True if the given object is a valid Model instance, false otherwise.
isCollection
isCollection(object)
Arguments
object(Object): The argument to check against
Returns
Boolean: True if the given object is a valid Collection instance, false otherwise.
TypesError
TypesError
Thrown when Type checking has failed.
MethodError
MethodError
Thrown when executing a custom method has resulted in an error.
CollectionError
CollectionError
Thrown when a Collection has experienced an error.