exercism/zig/resistor-color/README.md

# Resistor Color

Welcome to Resistor Color on Exercism's Zig Track.
If you need help running the tests or submitting your code, check out `HELP.md`.

## Instructions

If you want to build something using a Raspberry Pi, you'll probably use _resistors_.
For this exercise, you need to know two things about them:

- Each resistor has a resistance value.
- Resistors are small - so small in fact that if you printed the resistance value on them, it would be hard to read.

To get around this problem, manufacturers print color-coded bands onto the resistors to denote their resistance values.
Each band has a position and a numeric value.

The first 2 bands of a resistor have a simple encoding scheme: each color maps to a single number.

In this exercise you are going to create a helpful program so that you don't have to remember the values of the bands.

These colors are encoded as follows:

- black: 0
- brown: 1
- red: 2
- orange: 3
- yellow: 4
- green: 5
- blue: 6
- violet: 7
- grey: 8
- white: 9

The goal of this exercise is to create a way:

- to look up the numerical value associated with a particular color band
- to list the different band colors

Mnemonics map the colors to the numbers, that, when stored as an array, happen to map to their index in the array:
Better Be Right Or Your Great Big Values Go Wrong.

More information on the color encoding of resistors can be found in the [Electronic color code Wikipedia article][e-color-code].

[e-color-code]: https://en.wikipedia.org/wiki/Electronic_color_code

## Source

### Created by

- @massivelivefun

### Based on

Maud de Vries, Erik Schierboom - https://github.com/exercism/problem-specifications/issues/1458
Zig: completed Resistor Color 2024-08-13 16:10:04 -04:00			`# Resistor Color`

			`Welcome to Resistor Color on Exercism's Zig Track.`
			If you need help running the tests or submitting your code, check out `HELP.md`.

			`## Instructions`

			`If you want to build something using a Raspberry Pi, you'll probably use _resistors_.`
			`For this exercise, you need to know two things about them:`

			`- Each resistor has a resistance value.`
			`- Resistors are small - so small in fact that if you printed the resistance value on them, it would be hard to read.`

			`To get around this problem, manufacturers print color-coded bands onto the resistors to denote their resistance values.`
			`Each band has a position and a numeric value.`

			`The first 2 bands of a resistor have a simple encoding scheme: each color maps to a single number.`

			`In this exercise you are going to create a helpful program so that you don't have to remember the values of the bands.`

			`These colors are encoded as follows:`

			`- black: 0`
			`- brown: 1`
			`- red: 2`
			`- orange: 3`
			`- yellow: 4`
			`- green: 5`
			`- blue: 6`
			`- violet: 7`
			`- grey: 8`
			`- white: 9`

			`The goal of this exercise is to create a way:`

			`- to look up the numerical value associated with a particular color band`
			`- to list the different band colors`

			`Mnemonics map the colors to the numbers, that, when stored as an array, happen to map to their index in the array:`
			`Better Be Right Or Your Great Big Values Go Wrong.`

			`More information on the color encoding of resistors can be found in the [Electronic color code Wikipedia article][e-color-code].`

			`[e-color-code]: https://en.wikipedia.org/wiki/Electronic_color_code`

			`## Source`

			`### Created by`

			`- @massivelivefun`

			`### Based on`

			`Maud de Vries, Erik Schierboom - https://github.com/exercism/problem-specifications/issues/1458`