LambdaTonic/README.md

# λTonic 🥃 ![](https://github.com/ceticamarco/lambdatonic/actions/workflows/LambdaTonic.yml/badge.svg)

**λTonic**(_LambdaTonic_) is functional library designed for modern Java(+21).  

This library introduces a new algebraic data type called `Either<L, R>`; 
that is, an immutable  sum type that _discriminates_ between two values, `Left<L>` and `Right<R>`, 
representing the failure and the success values, respectively.

The `Either<L, R>` data type is implemented using a **sealed interface**, while the `Left<L>`
and the `Right<R>` are **record classes** that adopt the `Either<L, R>` protocol. Both the `Left<L>`
and the `Right<R>` data types can be used inside a `switch` statement using Java pattern matching. 

## Overview
The `Either<L, R>` algebraic data type can be used orthogonally over exceptions to propagate
an error from a function. Consider the following scenario:
```java
public class Main {
    public static Either<Error, Double> division(double dividend, double divisor) {
        // Return an error whether the divisor is zero
        if(divisor == 0) {
            return new Left<>(new Error("Cannot divide by zero"));
        }

        // Otherwise return the result of the division
        return new Right<>(dividend / divisor);
    }

    public static void main(String[] args) {
        // Try to divide 15 by 3
        Either<Error, Double> divResult = division(15, 3);
        switch (divResult) {
            case Left<Error, Double> err -> System.err.println(err.value().getMessage());
            case Right<Error, Double> val -> System.out.printf("15 / 3 = %f\n", val.value());
        }

        // Try to divide 2 by 0
        var div2Result = division(2, 0);
        switch (div2Result) {
            case Left<Error, Double> err -> System.err.println(err.value().getMessage());
            case Right<Error, Double> val -> System.out.printf("2 / 0 = %f\n", val.value());
        }
    }
}
```

In this example we have defined a `division` method that takes two arguments and perform a division
on them. To handle the case when the `divisor` parameter is equal to zero, we return a new `Left<L>`
instance of the `Either<L, R>` type, while in any other case, we return a new `Right<R>` instance of the
`Either<L, R>` type. In the caller method(i.e., the `main`) we can then execute a custom statement using 
Java's builtin pattern matching.


## Installation
**λTonic** is available on [Maven Central](https://central.sonatype.com/artifact/io.github.ceticamarco/LambdaTonic),
you can install it either by using Maven:
```xml
<dependency>
    <groupId>io.github.ceticamarco</groupId>
    <artifactId>LambdaTonic</artifactId>
    <version>0.0.4</version>
</dependency>
```

or by using Gradle:
```kotlin
implementation 'io.github.ceticamarco:LambdaTonic:0.0.1'
```

## API Usage
The `Either<L, R>` data type supports a broad spectrum of features, below there is a list of all supported
functionalities.

-  `map`

### Description
```java
<T> Either<L, T> map(Function<R, T> fn);
```

The `map` method applies a function (`fn`) to the value inside the current instance
if and only if the instance is a `Right`.
The `map` method adheres to the functor laws, which allow the `Either<L, R>` data type 
to be classified as a functor.

### Usage
The `map` method can be used to apply a computation to the value inside a functor:
```java
public class Main {
    // ...
    public static void main(String[] args) {
        var resDivision = division(15, 3);
        var resSquared = resDivision.map(x -> x * x);

        switch (resSquared) {
            case Left<Error, Double> err -> System.err.println(err.value().getMessage());
            case Right<Error, Double> val -> System.out.println(val.value()); // prints 25.0
        }
    }
}
```

- `bimap`

### Description
```java
<T, K> Either<T, K> bimap(Function<L, T> onLeft, Function<R, K> onRight);
```

The `bimap` method applies the `onLeft` method to the `Left<L>` subtype or the
`onRight` to the `Right<R>`.

### Usage
```java
public class Main {
    public static void main(String[] args) {
        var sc = new Scanner(System.in);

        // Read from stdin
        System.out.print("Enter a divisor: ");
        var input = sc.nextInt();

        // Divide a fixed dividend by user input divisor
        var divRes = division(15, input);

        // Apply a function regardless of the type of Either
        // On the left we uppercase the error message
        // On the right we square the result
        var bimapRes = divRes.bimap(
            err -> new Error(err.toString().toUpperCase()),
            val -> val * val
        );

        switch (bimapRes) {
            case Left<Error, Double> err -> System.err.println(err.value().getMessage());
            case Right<Error, Double> val -> System.out.println(val.value());
        }
    }
}
```

- `flatMap`

### Description
```java
<T> Either<L, T> flatMap(Function<R, Either<L, T>> mapper);
```
The `flatMap` method applies a function (`mapper`) that returns a new `Either`
to the value inside the current instance, and it returns the resulting
`Either` only if the instance is a `Right`. The `flatMap` method adheres to the monad laws, which
allow the `Either<L, R>` data type to be classified as a monad.

### Usage
```java
public class Main {
    public static Either<Error, Double> division(double dividend, double divisor) {
        // Return an error whether the divisor is zero
        if(divisor == 0) {
            return new Left<>(new Error("Cannot divide by zero"));
        }

        // Otherwise return the result of the division
        return new Right<>(dividend / divisor);
    }

    public static void main(String[] args) {
        // Apply a function that returns a monad to a monad, returns a monad
        Either<Error, Double> numEither = new Right<Error, Double>(10.0)
            .flatMap(x -> division(x, 2.0));

        
        switch (numEither) {
            case Left<Error, Double> err -> { System.out.println(err.value().getMessage()); }
            case Right<Error, Double> val -> { System.out.printf("10 / 2 = %f\n", val.value()); }
        }
    }
}
```

- `isLeft`

### Description
```java
boolean isLeft();
```

`isLeft` returns true whether `Either<L, R>` is instantiated to the `Left<L>`, false otherwise

### Usage
```java
public class Main {
    public static void main(String[] args) {
        var sc = new Scanner(System.in);

        // Read from stdin
        System.out.print("Enter a divisor: ");
        var input = sc.nextInt();

        // Divide a fixed dividend by user input divisor
        var divRes = division(15, input);
        
        if(divRes.isLeft()) {
            System.out.println("Cannot divide by zero");
        } else {
            System.out.println(divRes.fromRight(-1.0));
        }
    }
}
```

- `isRight`

### Description
```java
boolean isRight();
```

`isRight` returns true whether `Either<L, R>` is instantiated to the `Right<L>`, false otherwise

### Usage
```java
public class Main {
    public static void main(String[] args) {
        var sc = new Scanner(System.in);

        // Read from stdin
        System.out.print("Enter a divisor: ");
        var input = sc.nextInt();

        // Divide a fixed dividend by user input divisor
        var divRes = division(15, input);

        if(divRes.isRight()) {
            System.out.println(divRes.fromRight(-1.0));
        } else {
            System.out.println("Cannot divide by zero");
        }
    }
}
```

- `fromLeft`

### Description
```java
L fromLeft(L defaultValue);
```

`fromLeft` returns the content of the `Left<L>` value or a default value

### Usage
```java
public class Main {
    public static void main(String[] args) {
        var sc = new Scanner(System.in);

        // Read from stdin
        System.out.print("Enter a divisor: ");
        var input = sc.nextInt();

        // Divide a fixed dividend by user input divisor
        var divRes = division(15, input);
        
        // Prints out the error message or nothing  
        System.out.println(divRes.fromLeft(new Error("")).getMessage());
    }
}
```

- `fromRight`

### Description
```java
L fromLeft(L defaultValue);
```

`fromRight` returns the content of the `Right<R>` value or a default value

### Usage
```java
public class Main {
    public static void main(String[] args) {
        var sc = new Scanner(System.in);

        // Read from stdin
        System.out.print("Enter a divisor: ");
        var input = sc.nextInt();

        // Divide a fixed dividend by user input divisor
        var divRes = division(15, input);

        // Prints out the actual value or nothing
        System.out.println(divRes.fromRight(0.0));
    }
}
```

- `toOptional`

### Description
```java
Optional<R> toOptional();
```

`toOptional` converts an `Either<L, R>` data type to a `java.util.Optional`,
where the `Right<R>` becomes a non-null `Optional<R>` and the `Left<L>`
becomes a null `Optional`.

### Usage
```java
public class Main {
    public static void main(String[] args) {
        var sc = new Scanner(System.in);

        // Read from stdin
        System.out.print("Enter a divisor: ");
        var input = sc.nextInt();

        // Divide a fixed dividend by user input divisor
        var divRes = division(15, input).toOptional();

        // Prints out the actual value or nothing
        divRes.ifPresent(System.out::println);
    }
}
```

- `swap`

### Description
```java
Either<R, L> swap();
```

`swap` returns an `Either<R, L>` type with `Left<>` and `Right<>` swapped.

### Usage
```java
public class Main {
    public static void main(String[] args) {
        Either<String, Integer> val = new Left<>("generic error");
        Either<Integer, String> res = val.swap();

        System.out.println(res.isLeft()); // Prints false
        System.out.println(res.isRight()); // Prints true
    }
}
```

## License
This software is released under the MIT license. 
You can find a copy of the license with this repository or by visiting 
the [following page](https://choosealicense.com/licenses/mit/).
Added documentation and CI support 2024-09-19 14:53:01 +02:00			`# λTonic 🥃 ![](https://github.com/ceticamarco/lambdatonic/actions/workflows/LambdaTonic.yml/badge.svg)`

			`λTonic(_LambdaTonic_) is functional library designed for modern Java(+21).`

			This library introduces a new algebraic data type called `Either<L, R>`;
			that is, an immutable sum type that _discriminates_ between two values, `Left<L>` and `Right<R>`,
			`representing the failure and the success values, respectively.`

			The `Either<L, R>` data type is implemented using a sealed interface, while the `Left<L>`
			and the `Right<R>` are record classes that adopt the `Either<L, R>` protocol. Both the `Left<L>`
			and the `Right<R>` data types can be used inside a `switch` statement using Java pattern matching.

			`## Overview`
			The `Either<L, R>` algebraic data type can be used orthogonally over exceptions to propagate
			`an error from a function. Consider the following scenario:`
			```java
			`public class Main {`
			`public static Either<Error, Double> division(double dividend, double divisor) {`
			`// Return an error whether the divisor is zero`
			`if(divisor == 0) {`
			`return new Left<>(new Error("Cannot divide by zero"));`
			`}`

			`// Otherwise return the result of the division`
			`return new Right<>(dividend / divisor);`
			`}`

			`public static void main(String[] args) {`
			`// Try to divide 15 by 3`
			`Either<Error, Double> divResult = division(15, 3);`
			`switch (divResult) {`
			`case Left<Error, Double> err -> System.err.println(err.value().getMessage());`
			`case Right<Error, Double> val -> System.out.printf("15 / 3 = %f\n", val.value());`
			`}`

			`// Try to divide 2 by 0`
			`var div2Result = division(2, 0);`
			`switch (div2Result) {`
			`case Left<Error, Double> err -> System.err.println(err.value().getMessage());`
			`case Right<Error, Double> val -> System.out.printf("2 / 0 = %f\n", val.value());`
			`}`
			`}`
			`}`
			```

			In this example we have defined a `division` method that takes two arguments and perform a division
			on them. To handle the case when the `divisor` parameter is equal to zero, we return a new `Left<L>`
			instance of the `Either<L, R>` type, while in any other case, we return a new `Right<R>` instance of the
			`Either<L, R>` type. In the caller method(i.e., the `main`) we can then execute a custom statement using
			`Java's builtin pattern matching.`

Added installing process to the documentation 2024-09-20 11:27:17 +02:00
			`## Installation`
			`λTonic is available on [Maven Central](https://central.sonatype.com/artifact/io.github.ceticamarco/LambdaTonic),`
			`you can install it either by using Maven:`
			```xml
			`<dependency>`
			`<groupId>io.github.ceticamarco</groupId>`
			`<artifactId>LambdaTonic</artifactId>`
Added flatMap/monad for the Either type 2024-10-24 09:24:19 +02:00			`<version>0.0.4</version>`
Added installing process to the documentation 2024-09-20 11:27:17 +02:00			`</dependency>`
			```

			`or by using Gradle:`
			```kotlin
			`implementation 'io.github.ceticamarco:LambdaTonic:0.0.1'`
			```

Added documentation and CI support 2024-09-19 14:53:01 +02:00			`## API Usage`
			The `Either<L, R>` data type supports a broad spectrum of features, below there is a list of all supported
			`functionalities.`

			- `map`

			`### Description`
			```java
			`<T> Either<L, T> map(Function<R, T> fn);`
			```
Added flatMap/monad for the Either type 2024-10-24 09:24:19 +02:00
			The `map` method applies a function (`fn`) to the value inside the current instance
			if and only if the instance is a `Right`.
			The `map` method adheres to the functor laws, which allow the `Either<L, R>` data type
Added documentation and CI support 2024-09-19 14:53:01 +02:00			`to be classified as a functor.`

			`### Usage`
			The `map` method can be used to apply a computation to the value inside a functor:
			```java
			`public class Main {`
			`// ...`
			`public static void main(String[] args) {`
			`var resDivision = division(15, 3);`
			`var resSquared = resDivision.map(x -> x * x);`

			`switch (resSquared) {`
			`case Left<Error, Double> err -> System.err.println(err.value().getMessage());`
			`case Right<Error, Double> val -> System.out.println(val.value()); // prints 25.0`
			`}`
			`}`
			`}`
			```

			- `bimap`

			`### Description`
			```java
			`<T, K> Either<T, K> bimap(Function<L, T> onLeft, Function<R, K> onRight);`
			```

			The `bimap` method applies the `onLeft` method to the `Left<L>` subtype or the
			`onRight` to the `Right<R>`.

			`### Usage`
			```java
			`public class Main {`
			`public static void main(String[] args) {`
			`var sc = new Scanner(System.in);`

			`// Read from stdin`
			`System.out.print("Enter a divisor: ");`
			`var input = sc.nextInt();`

			`// Divide a fixed dividend by user input divisor`
			`var divRes = division(15, input);`

			`// Apply a function regardless of the type of Either`
			`// On the left we uppercase the error message`
			`// On the right we square the result`
			`var bimapRes = divRes.bimap(`
			`err -> new Error(err.toString().toUpperCase()),`
			`val -> val * val`
			`);`

			`switch (bimapRes) {`
			`case Left<Error, Double> err -> System.err.println(err.value().getMessage());`
			`case Right<Error, Double> val -> System.out.println(val.value());`
			`}`
			`}`
			`}`
			```

Added flatMap/monad for the Either type 2024-10-24 09:24:19 +02:00			- `flatMap`

			`### Description`
			```java
			`<T> Either<L, T> flatMap(Function<R, Either<L, T>> mapper);`
			```
			The `flatMap` method applies a function (`mapper`) that returns a new `Either`
			`to the value inside the current instance, and it returns the resulting`
			`Either` only if the instance is a `Right`. The `flatMap` method adheres to the monad laws, which
			allow the `Either<L, R>` data type to be classified as a monad.

			`### Usage`
			```java
			`public class Main {`
			`public static Either<Error, Double> division(double dividend, double divisor) {`
			`// Return an error whether the divisor is zero`
			`if(divisor == 0) {`
			`return new Left<>(new Error("Cannot divide by zero"));`
			`}`

			`// Otherwise return the result of the division`
			`return new Right<>(dividend / divisor);`
			`}`

			`public static void main(String[] args) {`
			`// Apply a function that returns a monad to a monad, returns a monad`
			`Either<Error, Double> numEither = new Right<Error, Double>(10.0)`
			`.flatMap(x -> division(x, 2.0));`


			`switch (numEither) {`
			`case Left<Error, Double> err -> { System.out.println(err.value().getMessage()); }`
			`case Right<Error, Double> val -> { System.out.printf("10 / 2 = %f\n", val.value()); }`
			`}`
			`}`
			`}`
			```

Added documentation and CI support 2024-09-19 14:53:01 +02:00			- `isLeft`

			`### Description`
			```java
			`boolean isLeft();`
			```

			`isLeft` returns true whether `Either<L, R>` is instantiated to the `Left<L>`, false otherwise

			`### Usage`
			```java
			`public class Main {`
			`public static void main(String[] args) {`
			`var sc = new Scanner(System.in);`

			`// Read from stdin`
			`System.out.print("Enter a divisor: ");`
			`var input = sc.nextInt();`

			`// Divide a fixed dividend by user input divisor`
			`var divRes = division(15, input);`

			`if(divRes.isLeft()) {`
			`System.out.println("Cannot divide by zero");`
			`} else {`
			`System.out.println(divRes.fromRight(-1.0));`
			`}`
			`}`
			`}`
			```

			- `isRight`

			`### Description`
			```java
			`boolean isRight();`
			```

			`isRight` returns true whether `Either<L, R>` is instantiated to the `Right<L>`, false otherwise

			`### Usage`
			```java
			`public class Main {`
			`public static void main(String[] args) {`
			`var sc = new Scanner(System.in);`

			`// Read from stdin`
			`System.out.print("Enter a divisor: ");`
			`var input = sc.nextInt();`

			`// Divide a fixed dividend by user input divisor`
			`var divRes = division(15, input);`

			`if(divRes.isRight()) {`
			`System.out.println(divRes.fromRight(-1.0));`
			`} else {`
			`System.out.println("Cannot divide by zero");`
			`}`
			`}`
			`}`
			```

			- `fromLeft`

			`### Description`
			```java
			`L fromLeft(L defaultValue);`
			```

			`fromLeft` returns the content of the `Left<L>` value or a default value

			`### Usage`
			```java
			`public class Main {`
			`public static void main(String[] args) {`
			`var sc = new Scanner(System.in);`

			`// Read from stdin`
			`System.out.print("Enter a divisor: ");`
			`var input = sc.nextInt();`

			`// Divide a fixed dividend by user input divisor`
			`var divRes = division(15, input);`

			`// Prints out the error message or nothing`
			`System.out.println(divRes.fromLeft(new Error("")).getMessage());`
			`}`
			`}`
			```

			- `fromRight`

			`### Description`
			```java
			`L fromLeft(L defaultValue);`
			```

			`fromRight` returns the content of the `Right<R>` value or a default value

			`### Usage`
			```java
			`public class Main {`
			`public static void main(String[] args) {`
			`var sc = new Scanner(System.in);`

			`// Read from stdin`
			`System.out.print("Enter a divisor: ");`
			`var input = sc.nextInt();`

			`// Divide a fixed dividend by user input divisor`
			`var divRes = division(15, input);`

			`// Prints out the actual value or nothing`
			`System.out.println(divRes.fromRight(0.0));`
			`}`
			`}`
			```

			- `toOptional`

			`### Description`
			```java
			`Optional<R> toOptional();`
			```

			`toOptional` converts an `Either<L, R>` data type to a `java.util.Optional`,
			where the `Right<R>` becomes a non-null `Optional<R>` and the `Left<L>`
			becomes a null `Optional`.

			`### Usage`
			```java
			`public class Main {`
			`public static void main(String[] args) {`
			`var sc = new Scanner(System.in);`

			`// Read from stdin`
			`System.out.print("Enter a divisor: ");`
			`var input = sc.nextInt();`

			`// Divide a fixed dividend by user input divisor`
			`var divRes = division(15, input).toOptional();`

			`// Prints out the actual value or nothing`
			`divRes.ifPresent(System.out::println);`
			`}`
			`}`
			```

			- `swap`

			`### Description`
			```java
			`Either<R, L> swap();`
			```

			`swap` returns an `Either<R, L>` type with `Left<>` and `Right<>` swapped.

			`### Usage`
			```java
			`public class Main {`
			`public static void main(String[] args) {`
			`Either<String, Integer> val = new Left<>("generic error");`
			`Either<Integer, String> res = val.swap();`

			`System.out.println(res.isLeft()); // Prints false`
			`System.out.println(res.isRight()); // Prints true`
			`}`
			`}`
			```

			`## License`
			`This software is released under the MIT license.`
			`You can find a copy of the license with this repository or by visiting`
			`the [following page](https://choosealicense.com/licenses/mit/).`