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Published at Apr 12 2019
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Instructions

Test suite

Solution

Write a function to convert from normal numbers to Roman Numerals.

The Romans were a clever bunch. They conquered most of Europe and ruled it for hundreds of years. They invented concrete and straight roads and even bikinis. One thing they never discovered though was the number zero. This made writing and dating extensive histories of their exploits slightly more challenging, but the system of numbers they came up with is still in use today. For example the BBC uses Roman numerals to date their programmes.

The Romans wrote numbers using letters - I, V, X, L, C, D, M. (notice these letters have lots of straight lines and are hence easy to hack into stone tablets).

```
1 => I
10 => X
7 => VII
```

There is no need to be able to convert numbers larger than about 3000. (The Romans themselves didn't tend to go any higher)

Wikipedia says: Modern Roman numerals ... are written by expressing each digit separately starting with the left most digit and skipping any digit with a value of zero.

To see this in practice, consider the example of 1990.

In Roman numerals 1990 is MCMXC:

1000=M 900=CM 90=XC

2008 is written as MMVIII:

2000=MM 8=VIII

See also: http://www.novaroma.org/via_romana/numbers.html

Execute the tests with:

```
$ elixir roman_numerals_test.exs
```

In the test suites, all but the first test have been skipped.

Once you get a test passing, you can unskip the next one by
commenting out the relevant `@tag :pending`

with a `#`

symbol.

For example:

```
# @tag :pending
test "shouting" do
assert Bob.hey("WATCH OUT!") == "Whoa, chill out!"
end
```

Or, you can enable all the tests by commenting out the
`ExUnit.configure`

line in the test suite.

```
# ExUnit.configure exclude: :pending, trace: true
```

For more detailed information about the Elixir track, please see the help page.

The Roman Numeral Kata http://codingdojo.org/cgi-bin/index.pl?KataRomanNumerals

It's possible to submit an incomplete solution so you can see how others have completed the exercise.

```
if !System.get_env("EXERCISM_TEST_EXAMPLES") do
Code.load_file("roman.exs", __DIR__)
end
ExUnit.start()
ExUnit.configure(exclude: :pending, trace: true)
defmodule RomanTest do
use ExUnit.Case
# @tag :pending
test "1" do
assert Roman.numerals(1) == "I"
end
@tag :pending
test "2" do
assert Roman.numerals(2) == "II"
end
@tag :pending
test "3" do
assert Roman.numerals(3) == "III"
end
@tag :pending
test "4" do
assert Roman.numerals(4) == "IV"
end
@tag :pending
test "5" do
assert Roman.numerals(5) == "V"
end
@tag :pending
test "6" do
assert Roman.numerals(6) == "VI"
end
@tag :pending
test "9" do
assert Roman.numerals(9) == "IX"
end
@tag :pending
test "27" do
assert Roman.numerals(27) == "XXVII"
end
@tag :pending
test "48" do
assert Roman.numerals(48) == "XLVIII"
end
@tag :pending
test "59" do
assert Roman.numerals(59) == "LIX"
end
@tag :pending
test "93" do
assert Roman.numerals(93) == "XCIII"
end
@tag :pending
test "141" do
assert Roman.numerals(141) == "CXLI"
end
@tag :pending
test "163" do
assert Roman.numerals(163) == "CLXIII"
end
@tag :pending
test "402" do
assert Roman.numerals(402) == "CDII"
end
@tag :pending
test "575" do
assert Roman.numerals(575) == "DLXXV"
end
@tag :pending
test "911" do
assert Roman.numerals(911) == "CMXI"
end
@tag :pending
test "1024" do
assert Roman.numerals(1024) == "MXXIV"
end
@tag :pending
test "3000" do
assert Roman.numerals(3000) == "MMM"
end
end
```

```
defmodule Roman do
@symbols %{
1 => "I",
5 => "V",
10 => "X",
50 => "L",
100 => "C",
500 => "D",
1000 => "M"
}
@doc """
Convert the number to a roman number.
"""
@spec numerals(pos_integer) :: String.t()
def numerals(number) do
number
|> Integer.digits()
|> Enum.reverse()
|> Enum.with_index()
|> Enum.map(fn {digit, power} -> numeral(digit, power) end)
|> Enum.reverse()
|> Enum.join()
end
@spec numeral(pos_integer, non_neg_integer) :: String.t()
defp numeral(digit, power) do
case digit do
n when n in 0..3 -> String.duplicate(get_symbol(1, power), digit)
4 -> numeral(1, power) <> numeral(5, power)
n when n in 5..8 -> get_symbol(5, power) <> numeral(digit - 5, power)
9 -> numeral(1, power) <> numeral(1, power + 1)
end
end
defp get_symbol(digit, power) do
key =
digit
|> Kernel.*(:math.pow(10, power))
|> Kernel.round()
@symbols[key]
end
end
```

A huge amount can be learned from reading other peopleâ€™s code. This is why we wanted to give exercism users the option of making their solutions public.

Here are some questions to help you reflect on this solution and learn the most from it.

- What compromises have been made?
- Are there new concepts here that you could read more about to improve your understanding?

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