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CarlosMontilla's solution

to Nth Prime in the Lua Track

Published at Jun 25 2020 · 0 comments
Instructions
Test suite
Solution

Given a number n, determine what the nth prime is.

By listing the first six prime numbers: 2, 3, 5, 7, 11, and 13, we can see that the 6th prime is 13.

If your language provides methods in the standard library to deal with prime numbers, pretend they don't exist and implement them yourself.

Running the tests

To run the tests, run the command busted from within the exercise directory.

Further information

For more detailed information about the Lua track, including how to get help if you're having trouble, please visit the exercism.io Lua language page.

Source

A variation on Problem 7 at Project Euler http://projecteuler.net/problem=7

Submitting Incomplete Solutions

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

nth-prime_spec.lua

local nth = require('nth-prime')

describe('nth-prime', function()
  local function benchmark(f)
    local start = os.clock()
    f()
    return os.clock() - start
  end

  it('should give 2 as the first prime', function()
    assert.equal(2, nth(1))
  end)

  it('should give 3 as the second prime', function()
    assert.equal(3, nth(2))
  end)

  it('should be able to calculate the nth prime for small n', function()
    assert.equal(13, nth(6))
  end)

  it('should be able to calculate the nth prime for large n', function()
    assert.equal(104743, nth(10001))
  end)

  it('should be efficient for large n', function()
    local execution_time = benchmark(function()
      nth(10001)
    end)

    assert(execution_time < 1, 'should take less than a second to execute')
  end)

  it('should raise an error for n <= 0', function()
    assert.has_error(function()
      nth(0)
    end)

    assert.has_error(function()
      nth(-1)
    end)
  end)
end)
return function(n)
  assert( n > 0, "Error: n must be greater than 0")

  local primes = {2}

  local testnumber = 3

  while #primes < n do
    local isprime = true
    local max = math.sqrt(testnumber)

    for _, v in ipairs(primes) do
      if testnumber % v == 0 then
        isprime = false
        break
      elseif v > max then
        break
      end
    end

    if isprime then
      table.insert(primes, testnumber)
    end

    testnumber = testnumber + 2
  end

  return primes[#primes]
end

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