exercism/zig/resistor-color
2024-08-13 16:10:04 -04:00
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.exercism Zig: completed Resistor Color 2024-08-13 16:10:04 -04:00
HELP.md Zig: completed Resistor Color 2024-08-13 16:10:04 -04:00
README.md Zig: completed Resistor Color 2024-08-13 16:10:04 -04:00
resistor_color.zig Zig: completed Resistor Color 2024-08-13 16:10:04 -04:00
test_resistor_color.zig 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.

Source

Created by

  • @massivelivefun

Based on

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