Given an array of integers, calculate the ratios of its elements that are positive, negative, and zero. Print the decimal value of each fraction on a new line with places after the decimal.

Note: This challenge introduces precision problems. The test cases are scaled to six decimal places, though answers with absolute error of up to are acceptable.

Example There are elements, two positive, two negative and one zero. Their ratios are 2/5 = 0.400000, 2/5 = 0.400000 and 1/5 = 0.200000. Results are printed as: 0.400000 0.400000 0.200000 Function Description Complete the plusMinus function in the editor below. plusMinus has the following parameter(s): int arr[n]: an array of integers Print Print the ratios of positive, negative and zero values in the array. Each value should be printed on a separate line with digits after the decimal. The function should not return a value. Input Format The first line contains an integer, , the size of the array. The second line contains space-separated integers that describe . Constraints Output Format Print the following lines, each to decimals:

  1. proportion of positive values
  2. proportion of negative values
  3. proportion of zeros Sample Input STDIN Function

6 arr[] size n = 6 -4 3 -9 0 4 1 arr = [-4, 3, -9, 0, 4, 1] Sample Output 0.500000 0.333333 0.166667 Explanation There are positive numbers, negative numbers, and zero in the array. The proportions of occurrence are positive: , negative: and zeros:

fun plusMinus(arr: Array<Int>): Unit {
    // Write your code here
    var negativeNumbers = 0.0
    var positiveNumbers = 0.0
    var numberOfZeros = 0.0
    for(number in arr){
        if(number < 0){
            negativeNumbers++
        } else if(number > 0){
            positiveNumbers++
        } else {
            numberOfZeros++
        }
    }
    println("${BigDecimal(positiveNumbers/arr.size).setScale(6, RoundingMode.HALF_EVEN)}\n
             ${BigDecimal(negativeNumbers/arr.size).setScale(6, RoundingMode.HALF_EVEN)}\n\
             ${BigDecimal(numberOfZeros/arr.size).setScale(6, RoundingMode.HALF_EVEN)}")
}