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6e15174549
4 changed files with 335 additions and 0 deletions
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@ -2,4 +2,9 @@ module.exports = {
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preset: 'ts-jest',
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testEnvironment: 'node',
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testPathIgnorePatterns: ['/dist/', '/node_modules/'],
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globals: {
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'ts-jest': {
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diagnostics: false,
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},
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},
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};
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101
src/exo5/exo5.test.ts
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101
src/exo5/exo5.test.ts
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@ -0,0 +1,101 @@
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import { option } from 'fp-ts';
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import {
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getCountryCurrencyOfOptionalCountryCode,
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getValidCountryCodeOfCountryNames,
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giveCurrencyOfCountryToUser,
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performAsyncComputationInParallel,
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performAsyncComputationInSequence,
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sequenceOptionArray,
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sequenceOptionTask,
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} from './exo5';
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describe('exo5', () => {
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describe('getCountryCurrencyOfOptionalCountryCode', () => {
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it('should return a Task<None> if given a None', async () => {
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const result = await getCountryCurrencyOfOptionalCountryCode(
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option.none,
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)();
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expect(result).toStrictEqual(option.none);
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});
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it('should return a Task<Option> with the currency if given a Some', async () => {
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const result = await getCountryCurrencyOfOptionalCountryCode(
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option.some('FR'),
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)();
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expect(result).toStrictEqual(option.some('EUR'));
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});
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});
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describe('giveCurrencyOfCountryToUser', () => {
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it('should return Some<EUR> if provided string is "France"', async () => {
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const result = await giveCurrencyOfCountryToUser('France')();
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expect(result).toStrictEqual(option.some('EUR'));
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});
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it('should return Some<DOLLAR> if provided string is "USA"', async () => {
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const result = await giveCurrencyOfCountryToUser('USA')();
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expect(result).toStrictEqual(option.some('DOLLAR'));
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});
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it('should return None if provided string is "Germany"', async () => {
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const result = await giveCurrencyOfCountryToUser('Germany')();
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expect(result).toStrictEqual(option.none);
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});
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});
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describe('getValidCountryCodeOfCountryNames', () => {
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it('should return a Some of the country codes if all the country names are valid', () => {
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const result = getValidCountryCodeOfCountryNames(['France', 'Spain']);
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expect(result).toStrictEqual(option.some(['FR', 'SP']));
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});
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it('should return a None if any of the country names is not valid', () => {
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const result = getValidCountryCodeOfCountryNames(['France', 'Germany']);
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expect(result).toStrictEqual(option.none);
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});
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});
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describe('performAsyncComputationInParallel', () => {
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it('should return the same value for each element with the same value', async () => {
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const result = await performAsyncComputationInParallel([1, 1, 1])();
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expect(result).toStrictEqual([1, 1, 1]);
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});
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});
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describe('performAsyncComputationInSequence', () => {
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it('should return an increasing value for each element with the same value', async () => {
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const result = await performAsyncComputationInSequence([1, 1, 1])();
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expect(result).toStrictEqual([1, 2, 3]);
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});
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});
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describe('sequenceOptionTask', () => {
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it('should return a None if called with a None', async () => {
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const result = await sequenceOptionTask(option.none)();
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expect(result).toStrictEqual(option.none);
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});
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it('should return a Some if called with a Some', async () => {
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const result = await sequenceOptionTask(option.some(async () => 'EUR'))();
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expect(result).toStrictEqual(option.some('EUR'));
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});
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});
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describe('sequenceOptionArray', () => {
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it('should return a None if one of the option in the array is None', () => {
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const result = sequenceOptionArray([option.none, option.some('FR')]);
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expect(result).toStrictEqual(option.none);
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});
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it('should return a Some if all the options in the arrat are Some', () => {
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const result = sequenceOptionArray([
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option.some('FR'),
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option.some('SP'),
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]);
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expect(result).toStrictEqual(option.some(['FR', 'SP']));
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});
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});
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});
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228
src/exo5/exo5.ts
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228
src/exo5/exo5.ts
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@ -0,0 +1,228 @@
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// `fp-ts` training Exercice 5
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// Managing nested effectful data with `traverse`
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import { option, readonlyRecord, task } from 'fp-ts';
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import { pipe } from 'fp-ts/lib/function';
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import { Option } from 'fp-ts/lib/Option';
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import { ReadonlyRecord } from 'fp-ts/lib/ReadonlyRecord';
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import { Task } from 'fp-ts/lib/Task';
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import { sleep, unimplemented, unimplementedAsync } from '../utils';
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// When using many different Functors in a complex application, we can easily
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// get to a point when we have many nested types that we would like to 'merge',
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// like `Task<Option<Task<A>>>` or `Either<E,ReadonlyArray<Either<E,A>>>`
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// It would be nice to have a way to 'move up' the similar types in order to
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// chain them, like merging the `Task` to have a `Task<Option<A>>` or the
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// `Either` to have a `Either<E,ReadonlyArray<A>>`
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//
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// That's precisely the concept of `traverse`. It will allow us to transform
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// a `Option<Task<A>>` to a `Task<Option<A>>` so we can chain it with another
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// `Task` for example, or to transform a `ReadonlyArray<Either<E,A>>` to a
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// `Either<E,ReadonlyArray<A>>`
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///////////////////////////////////////////////////////////////////////////////
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// SETUP //
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///////////////////////////////////////////////////////////////////////////////
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// Let's consider a small range of countries (here, France, Spain and the USA)
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// with a mapping from their name to their code:
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type CountryCode = 'FR' | 'SP' | 'US';
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export const countryNameToCountryCode: ReadonlyRecord<string, CountryCode> = {
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France: 'FR',
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Spain: 'SP',
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USA: 'US',
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};
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// Let's simulate the call to an api which would return the currency when
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// providing a country code. For the sake of simplicity, let's consider that it
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// cannot fail.
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type Currency = 'EUR' | 'DOLLAR';
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export const getCountryCurrency: (countryCode: CountryCode) => Task<Currency> =
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(countryCode: CountryCode): Task<Currency> =>
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async () => {
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if (countryCode === 'US') {
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return 'DOLLAR';
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}
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return 'EUR';
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};
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// Let's simulate a way for the user to provide a country name.
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// Let's consider that it cannot fail and let's add the possibility to set
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// the user's response as a parameter for easier testing.
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export const getCountryNameFromUser: (countryName: string) => Task<string> = (
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countryName: string,
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) => task.of(countryName);
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// Here's a function to retrieve the countryCode from a country name if it is
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// matching a country we support. This method returns an `Option` as we cannot
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// return anything if the given string is not matching a country name we know
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export const getCountryCode: (countryName: string) => Option<CountryCode> = (
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countryName: string,
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) => readonlyRecord.lookup(countryName)(countryNameToCountryCode);
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///////////////////////////////////////////////////////////////////////////////
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// TRAVERSING OPTIONS //
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///////////////////////////////////////////////////////////////////////////////
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// With all these functions, we can simulate a program that would ask for a
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// country name and return its currency if it knows the country.
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// A naive implementation would be mapping on each `Task` and `Option` to call
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// the correct method:
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export const naiveGiveCurrencyOfCountryToUser = (
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countryNameFromUserMock: string,
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) =>
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pipe(
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getCountryNameFromUser(countryNameFromUserMock),
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task.map(getCountryCode),
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task.map(option.map(getCountryCurrency)),
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);
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// The result type of this method is: `Task<Option<Task<Currency>>>`
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// Not ideal, right? We would need to await the first `Task`, then check if it's
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// `Some` to get the `Task` inside and finally await the `Task` to retrieve the
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// currency.
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// Let's do better than that!
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// First we need a way to transform our `Option<Task<Currency>>` to
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// `Task<Option<Currency>>`
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// That's precisely what traverse is about.
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// Use `option.traverse` to implement `getCountryCurrencyOfOptionalCountryCode`
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// below. This function takes an `Option<CountryCode>`, should apply
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// `getCountryCurrency` to the `CountryCode` and make it so that the result
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// is `Task<Option<Currency>>`
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//
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// HINT: `option.traverse` asks for an Applicative as the first parameter. You
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// can find it for `Task` in `task.ApplicativePar`
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export const getCountryCurrencyOfOptionalCountryCode: (
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optionalCountryCode: Option<CountryCode>,
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) => Task<Option<Currency>> = unimplementedAsync;
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// Let's now use this function in our naive implementation's pipe to how it
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// improves it.
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// Implement `giveCurrencyOfCountryToUser` below so that it returns a
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// `Task<Option<Currency>>`
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//
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// HINT: You should be able to copy the pipe from naiveGiveCurrencyOfCountryToUser
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// and make only few updates of it
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export const giveCurrencyOfCountryToUser: (
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countryNameFromUserMock: string,
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) => Task<Option<Currency>> = unimplementedAsync;
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// BONUS: We don't necessarily need `traverse` to do this. Try implementing
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// `giveCurrencyOfCountryToUser` by lifting some of the functions' results to
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// `TaskOption`
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///////////////////////////////////////////////////////////////////////////////
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// TRAVERSING ARRAYS //
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///////////////////////////////////////////////////////////////////////////////
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// Let's say we want to ask multiple countries to the user. We'll have an array
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// of country names as `string` and we want to retrieve the country code of each.
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// Looks pretty easy:
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export const getCountryCodeOfCountryNames = (
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countryNames: ReadonlyArray<string>,
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) => countryNames.map(getCountryCode);
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// As expected, we end up with a `ReadonlyArray<Option<CountryCode>>`. We know for
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// each item of the array if we have been able to find the corresponding country
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// code or not.
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// While this can be useful, you need to handle the option anytime you want to
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// perform any operation on each country code (let's say you want get the currency
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// of each)
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// It would be easier to 'merge' all the options into one and have a `Some` only if
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// all the country codes are `Some` and a `None` if at least one is `None`.
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// Doing this allows you to stop the process if you have a `None` to tell the user
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// that some countries are not valid or move on with a `ReadonlyArray<CountryCode>>`
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// if all are valid.
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// Typewise, it means going from `ReadonlyArray<Option<CountryCode>>` to
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// `Option<ReadonlyArray<CountryCode>>`
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// This is what traversing array is about.
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// Let's write a method that gets the country code for each element of an array
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// of country names and returns an option of an array of country codes.
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//
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// HINT: while `readonlyArray.traverse` exists, you have a shortcut in the `option`
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// module: `option.traverseArray`
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export const getValidCountryCodeOfCountryNames: (
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countryNames: ReadonlyArray<string>,
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) => Option<ReadonlyArray<CountryCode>> = unimplemented;
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///////////////////////////////////////////////////////////////////////////////
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// TRAVERSING ARRAYS ASYNCHRONOUSLY //
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///////////////////////////////////////////////////////////////////////////////
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// We've seen how to traverse an `array` of `option`s but this is not something
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// specific to `option`. We can traverse an `array` of any applicative functor,
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// like `either` or `task` for example.
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// When dealing with functors that perform asynchronous side effects, like
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//`task`, comes the question of parallelization. Do we want to run the
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// computation on each item of the array in parallel or one after the other?
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// Both are equally feasible with fp-ts, let's discover it!
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// Let's simulate a method that reads a number in a database, does some async
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// computation with it, replaces this number in the database by the result of
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// the computation and returns it
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const createSimulatedAsyncMethod = (): ((toAdd: number) => Task<number>) => {
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let number = 0;
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return (toAdd: number) => async () => {
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const currentValue = number;
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await sleep(100);
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number = currentValue + toAdd;
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return number;
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};
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};
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// Write a method to traverse an array by running the method
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// `simulatedAsyncMethodForParallel: (toAdd: number) => Task<number>`
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// defined below on each item in parallel.
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//
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// HINT: as was the case for `option`, you have a few helpers in the `task`
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// module to traverse arrays
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export const simulatedAsyncMethodForParallel = createSimulatedAsyncMethod();
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export const performAsyncComputationInParallel: (
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numbers: ReadonlyArray<number>,
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) => Task<ReadonlyArray<number>> = unimplementedAsync;
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// Write a method to traverse an array by running the method
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// `simulatedAsyncMethodForSequence: (toAdd: number) => Task<number>`
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// defined below on each item in sequence.
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//
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// HINT: as was the case for `option`, you have a few helpers in the `task`
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// module to traverse arrays
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export const simulatedAsyncMethodForSequence = createSimulatedAsyncMethod();
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export const performAsyncComputationInSequence: (
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numbers: ReadonlyArray<number>,
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) => Task<ReadonlyArray<number>> = unimplementedAsync;
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///////////////////////////////////////////////////////////////////////////////
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// SEQUENCE //
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///////////////////////////////////////////////////////////////////////////////
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// `traverse` is nice when you need to get the value inside a container (let's
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// say `Option`), apply a method to it that return another container type (let's
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// say `Task`) and 'invert' the container (to get a `Task<Option>` instead of a
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// `Option<Task>` in our example)
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// Sometimes, you just have two nested containers that you want to 'invert'. It
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// can be because both order of container are meaningful (like `Either<Option>`
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// and `Option<Either>`) of because you got them from an external api, as
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// examples.
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// In that case, what you need is `sequence`, which you can find in the modules
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// that have `traverse`.
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//
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// Use the `sequence` methods from the `option` module to implement the two
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// functions below
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export const sequenceOptionTask: (
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optionOfTask: Option<Task<Currency>>,
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) => Task<Option<Currency>> = unimplementedAsync;
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export const sequenceOptionArray: (
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arrayOfOptions: ReadonlyArray<Option<CountryCode>>,
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) => Option<ReadonlyArray<CountryCode>> = unimplemented;
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// BONUS: try using these two functions in the exercices 'TRAVERSING OPTIONS'
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// and 'TRAVERSING ARRAYS' above
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1
src/exo5/index.ts
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1
src/exo5/index.ts
Normal file
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export * from './exo5';
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Reference in a new issue