Logo

0x5a.live

for different kinds of informations and explorations.

GitHub - Rhymond/go-money: Go implementation of Fowler's Money pattern

Go implementation of Fowler's Money pattern. Contribute to Rhymond/go-money development by creating an account on GitHub.

Visit SiteGitHub - Rhymond/go-money: Go implementation of Fowler's Money pattern

GitHub - Rhymond/go-money: Go implementation of Fowler's Money pattern

Go implementation of Fowler's Money pattern. Contribute to Rhymond/go-money development by creating an account on GitHub.

Powered by 0x5a.live 💗

Money

alt text

Go Report Card Coverage Status GoDoc License: MIT

GoMoney provides ability to work with monetary value using a currency's smallest unit. This package provides basic and precise Money operations such as rounding, splitting and allocating. Monetary values should not be stored as floats due to small rounding differences.

package main

import (
  "log"

  "github.com/Rhymond/go-money"
)

func main() {
    pound := money.New(100, money.GBP)
    twoPounds, err := pound.Add(pound)

    if err != nil {
        log.Fatal(err)
    }

    parties, err := twoPounds.Split(3)

    if err != nil {
        log.Fatal(err)
    }

    parties[0].Display() // £0.67
    parties[1].Display() // £0.67
    parties[2].Display() // £0.66
}

Quick start

Get the package:

$ go get github.com/Rhymond/go-money

Features

  • Provides a Money struct which stores information about an Money amount value and its currency.
  • Provides a Money.Amount struct which encapsulates all information about a monetary unit.
  • Represents monetary values as integers, in cents. This avoids floating point rounding errors.
  • Represents currency as Money.Currency instances providing a high level of flexibility.

Usage

Initialization

Initialize Money by using smallest unit value (e.g 100 represents 1 pound). Use ISO 4217 Currency Code to set money Currency. Note that constants are also provided for all ISO 4217 currency codes.

pound := money.New(100, money.GBP)

Or initialize Money using the direct amount.

quarterEuro := money.NewFromFloat(0.25, money.EUR)

Comparison

Go-money provides base compare operations like:

  • Equals
  • GreaterThan
  • GreaterThanOrEqual
  • LessThan
  • LessThanOrEqual
  • Compare

Comparisons must be made between the same currency units.

pound := money.New(100, money.GBP)
twoPounds := money.New(200, money.GBP)
twoEuros := money.New(200, money.EUR)

pound.GreaterThan(twoPounds) // false, nil
pound.LessThan(twoPounds) // true, nil
twoPounds.Equals(twoEuros) // false, error: Currencies don't match
twoPounds.Compare(pound) // 1, nil
pound.Compare(twoPounds) // -1, nil
pound.Compare(pound) // 0, nil
pound.Compare(twoEuros) // pound.amount, ErrCurrencyMismatch

Asserts

  • IsZero
  • IsNegative
  • IsPositive

Zero value

To assert if Money value is equal to zero use IsZero()

pound := money.New(100, money.GBP)
result := pound.IsZero() // false

Positive value

To assert if Money value is more than zero use IsPositive()

pound := money.New(100, money.GBP)
pound.IsPositive() // true

Negative value

To assert if Money value is less than zero use IsNegative()

pound := money.New(100, money.GBP)
pound.IsNegative() // false

Operations

  • Add
  • Subtract
  • Multiply
  • Absolute
  • Negative

Comparisons must be made between the same currency units.

Addition

Additions can be performed using Add().

pound := money.New(100, money.GBP)
twoPounds := money.New(200, money.GBP)

result, err := pound.Add(twoPounds) // £3.00, nil

Subtraction

Subtraction can be performed using Subtract().

pound := money.New(100, money.GBP)
twoPounds := money.New(200, money.GBP)

result, err := pound.Subtract(twoPounds) // -£1.00, nil

Multiplication

Multiplication can be performed using Multiply().

pound := money.New(100, money.GBP)

result := pound.Multiply(2) // £2.00

Absolute

Return absolute value of Money structure

pound := money.New(-100, money.GBP)

result := pound.Absolute() // £1.00

Negative

Return negative value of Money structure

pound := money.New(100, money.GBP)

result := pound.Negative() // -£1.00

Allocation

  • Split
  • Allocate

Splitting

In order to split Money for parties without losing any pennies due to rounding differences, use Split().

After division leftover pennies will be distributed round-robin amongst the parties. This means that parties listed first will likely receive more pennies than ones that are listed later.

pound := money.New(100, money.GBP)
parties, err := pound.Split(3)

if err != nil {
    log.Fatal(err)
}

parties[0].Display() // £0.34
parties[1].Display() // £0.33
parties[2].Display() // £0.33

Allocation

To perform allocation operation use Allocate().

It splits money using the given ratios without losing pennies and as Split operations distributes leftover pennies amongst the parties with round-robin principle.

pound := money.New(100, money.GBP)
// Allocate is variadic function which can receive ratios as
// slice (int[]{33, 33, 33}...) or separated by a comma integers
parties, err := pound.Allocate(33, 33, 33)

if err != nil {
    log.Fatal(err)
}

parties[0].Display() // £0.34
parties[1].Display() // £0.33
parties[2].Display() // £0.33

Format

To format and return Money as a string use Display().

money.New(123456789, money.EUR).Display() // €1,234,567.89

To format and return Money as a float64 representing the amount value in the currency's subunit use AsMajorUnits().

money.New(123456789, money.EUR).AsMajorUnits() // 1234567.89

Contributing

Thank you for considering contributing! Please use GitHub issues and Pull Requests for contributing.

License

The MIT License (MIT). Please see License File for more information.

forthebadge

GoLang Resources

are all listed below.

Resources

listed to get explored on!!

Made with ❤️

to provide different kinds of informations and resources.