denormalizer: the other half of normalizr
The normalizr library offers excellent features for normalizing deeply-nested data structures into a simple entity store. Returning the normalized data to its denormalized shape is not as easy, however. denormalizer makes this process transparent: pass in the entity schema that you used to normalize, an entity collection, and it will return the denormalized values.
npm install --save denormalizer
denormalizer has no dependencies and a small codebase.
Imagine you have the following normalized entities:
const entities = {
articles: {
1: {
id: 1,
title: 'Some Article',
author: 1
},
2: {
id: 2,
title: 'Other Article',
author: 1
}
},
authors: {
1: {
id: 1,
name: 'Dan'
}
}
}
And you want to denormalize it so that authors appear inline with the article they authored:
[{
id: 1,
title: 'Some Article',
author: {
id: 1,
name: 'Dan'
}
}, {
id: 2,
title: 'Other Article',
author: {
id: 1,
name: 'Dan'
}
}]
We set up our schema using the normalizr primitives:
const article = new Schema('articles');
const user = new Schema('users');
article.define({ author: user });
We can then call denormalize on the collection of entities to retrieve the denormalized value:
import { denormalize } from 'denormalizer';
const article = denormalize(article, entities, 1);
article
should look something like this:
{
id: 1,
title: 'Some Article',
author: {
id: 1,
name: 'Dan'
}
}
Or, to denormalize an array of articles:
denormalize(arrayOf(article), entities, [1,2]);
Sometimes, an entity will reference another entity that does not exist in the store. Perhaps it was removed from the store, perhaps it never existed, or perhaps it's being retrieved from the server and hasn't yet arrived. For these faulty references, denormalizer will return an object that contains just the entity's identifier and a key indicating that it is an unresolved entity.
You can check for this value using the isResolved
functon provided by the library:
import { denormalize, isResolved } from 'denormalizer';
const empty = denormalize(article, {}, 1); // { id: 1, __resolved: false }
isResolved(empty) // false
A more complex example:
const entities = {
articles {
3: {
id: 3,
title: 'A final article',
author: 6 // this author isn't in the store yet
}
}
};
const article = denormalize(article, entities, 3);
article
now contains the value:
{
id: 3,
title: 'A final article',
author: {
id: 6,
__resolved: false
}
}
To avoid circular reference hell and denormalizing huge entity trees, denormalizer uses ES5 getters to dereference foreign entities. When you first retrieve a foreign entity value, it is denormalized and cached internally so that future references happen quickly. In principle, these objects behave just like regular objects, but in practice sometimes this dereferencing strategy can confuse some JS libraries. For example, nodejs' deepEquals function in the assertions and unit testing module.