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Simple, declarative object transformations to map your data

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Object Mapper

Licensed under MPL 2.0 Build Status npm BundlePhobia

Our internal utility package for describing object transformations in javascript. This package contains a few functions for extraction, property mapping and a few other types of transforms.

At the moment, the functions that this package exports have typescript types, but are not fully type safe. That is, we can't infer types correctly, so it's your responsibility to cast as required. We think it may be possible to do in the future, and won't go 1.0 without at least knowing for sure.

Quick Start

yarn add @lcdev/[email protected]

There are three main functions:

  1. The extract function: decides which fields of an object to keep, stripping others out.
  2. The structuredMapper function: transforms fields of an object, based on the key name of of that field.
  3. The mapper function: operates on all fields of an object, discriminating based on the type of values.

The extract Function

Extraction is the simplest but most practical function. It take any javascript object in, and outputs a new object with only the fields you want.

import { extract } from '@lcdev/mapper';

const user = await myDatabase.select('* from user where id = 1');

const userWithSpecificFields = extract(user, {
  firstname: true,
  lastname: true,
  permissions: [{
    role: true,
    authority: ['access'],
  }],
});

For this example, we'll pretend that user comes back as a nested object from an ORM.

const user = {
  firstname: 'John',
  lastname: 'Doe',
  password: '$hashed',
  socialSecurityNumber: '111222333',
  permissions: [
    {
      role: 'admin',
      authority: { access: 'read-write', id: 42 },
      privateInfo: 'secret!',
    },
  ],
};

Given this, our extract function looks at the declarative object passed as a second argument, and decides which fields to keep and which to ignore.

Our output looks like:

const userWithSpecificFields = {
  firstname: 'John',
  lastname: 'Doe',
  permissions: [
    { role: 'admin', authority: { access: 'read-write' } },
  ],
};

Notice how password, privateInfo, id and others were disgarded. This can be quite helpful for ensuring that your API responses come back as you expect them to, especially when using an ORM where you don't want to be manually selecting columns for every route.

Patterns

Here are the patterns that extract supports:

  • ['foo'] means "pull these fields from the object" - it's the same as { foo: true }
  • [{ ... }] means "map arrays, taking these fields"
  • { foo: true } means "take only 'foo' from the object"

Mismatching types, like an array selector when the return is an object, are ignored.

The structuredMapper Function

This function transforms a given javascript object into another, by transforming each field, by name.

import { structuredMapper } from '@lcdev/mapper';

const rawJsonResponse = await fetch('/foo/bar').then(v => v.json());

// similar to extract, we give it data as the first argument, and how to map it in the second argument
const response = structuredMapper(rawJsonResponse, {
  firstname: true,
  lastname: true,
  birthdate(value, dataType) {
    return new Date(value);
  },
  eyeColor: {
    optional: true,
    map(value, dataTpe) {
      return value;
    },
  },
});

The rules are pretty simple:

  • true means keep the value around
  • a named function means to pass the original value (and inferred DataType) to the function, and use the return value in the output
  • an object with a map function is like a named function, but allows optional and nullable meta properties
  • specifying array: true implies to map each element in an array, instead of assuming a single value
  • fallback is the value to use when an optional value isn't present in the input object
  • rename renames a field in the output object
  • flatten moves the field "up" in the object
  • additionalProperties passes through any fields that were on the input, but not specified in the mapping

You may find looking at our test suite for structuredMapper helpful, since these concepts in isolation don't tend to look practical.

The mapper Function

Similar to structuredMapper, the plain mapper function is a little more heavy-handed. It transforms all values, deeply nested.

import { mapper, Mapping, DataType } from '@lcdev/mapper';
import { isValid, parseISO } from 'date-fns';

const mapping: Mapping = {
  custom: [
    [
      (data, dataType) => {
        if (dataType === DataType.String) {
          return isValid(parseISO(data));
        }

        return dataType === DataType.Date;
      },
      (data, dataType) => (dataType === DataType.Date) ? data : parseISO(data),
    ],
  ],
};

const parseAllDates = (object) => mapper(object, mapping);

This package will iterate through arrays, objects, etc. So doing an operation to all nested properties of an object is easy.

Our parseAllDates function deeply introspects the input object, and will transform any fields that look like a date.

Notice that we used custom above. Let's look at the 'normal' case.

const mapping: Mapping = {
  [DataType.Number]: num => num * 2,
  [DataType.String]: str => {
    const parsed = parseISO(str);
    return isValid(parsed) ? parsed : str;
  },
};

The more typical use of mapper differentiates based on DataType.

Alternatives