I've just tried a coding challenge to write a function that returns the length of the shortest possible left partition of an array of numbers, all of whose elements are less than all of the elements in the corresponding right partition.

The scenario given was finding the divide between "winter" and "summer" given a variable number of monthly temperature readings, with the rule that all winter temperatures are lower than all summer temperatures. We can assume that there is at least one correct partition, and the goal is to get the shortest winter.

Is it possible to do this in O(N) time, i.e. the processing time increases linearly with the number of temperature readings? The fastest solution I can come up with has to find the minimum summer temperature (lowest number in the right partition) for every maximum winter temperature considered:

function shortestWinterLength temps
    maxWinterTemp = -Infinity

    for i from 0 til temps.length
        minSummerTemp = Infinity

        for j from i + 1 til temps.length
            minSummerTemp = Math.min minSummerTemp, temps[j]

        maxWinterTemp = Math.max maxWinterTemp, temps[i]

        if maxWinterTemp < minSummerTemp
            return i + 1

The approach mentioned in the question for computing min(temps[i+1], ... temps[n]) is inefficient because many similar comparisons are made for different i values.

Instead, all the "min" values can be obtained by performing a single pass through the array, but by iterating from right to left.

Thus, it would be necessary to perform an initial pass from right to left which would store the minimum reached so far in an auxiliary array. Afterwards, you can use the same loop over i from the current solution, but the inner loop over j would be replaced by simply retrieving the "min" from the auxiliary array just computed.

This solution has O(n) complexity.


Yes, the O(n) solution is possible but with additional memory.

Let's fill the array minR where minR[i] = min(A[i], ..., A[n]).

The values of this array can be computed in O(n). We just iterate through the initial array in reverse order and calculate the minimum value among last array elements:

minR[n-1] = a[n-1]
for i from n-2 downto 0 
    minR[i] = min(minR[i+1], A[i])

Then all you need is to iterate through the array calculating the maximum value among first i array elements and comparing this value with minR[i+1]:

maxL = 0
for i from 0 to n-2
    maxL = max(maxL, A[i])
    if maxL < minR[i+1] then 

Code :

def shortestWinterLength(listofTemperatures):

    if len(listofTemperatures) == 0 :
        return 0

    length = len(listofTemperatures)
    winter_high = listofTemperatures[0]
    overall_high = listofTemperatures[0]
    winter_length = 0

    # Get max in the left array  
    for temperature in listofTemperatures:
        if temperature <= winter_high : 
            winter_high = overall_high
        elif temperature > overall_high :
            overall_high = temperature

    # count all the values which are less than max in left array
    for temperature in listofTemperatures :
        if temperature <= winter_high : 
            winter_length += 1

    # total length of the left array
    return winter_length

Time Complexity - O(n)
Space Complexity - O(1)

  • 2
    You can also just store the index of winter_high each time you update it. If you do that, then you don't need the second loop. – John Kurlak Jul 7 '18 at 17:55

Here is the C++ code for O(n) Time and O(1) Space Complexity.

int solution(vector<int> &A) {

        int leftMax = A[0];     //  Max temperature during winter
        int maximum = A[0];     //  Max temperature during the year
        int position = 1;       //  Possible solution

        int n = A.size();

        for(int i = 1; i < n; i++) {
            if (A[i] < leftMax) {
                position = i+1;      // got a new lower value
                leftMax = maximum;
            } else if (A[i] > maximum) {
                maximum = A[i];
        return position;

The code in C:

int arr[] = { -5, -5, -5, -42,  6 , 120 };

int  winter_high[6] =  { NULL };
int  overall_high[6] = { NULL };

int j,k; 

  winter_high[0] = arr[0];
  overall_high[0] = arr[0];

for (int i = 0; i < 6 ; i++)
    if (arr[i] <= winter_high[j])
        winter_high[j] = arr[i];

    else if (arr[i] > overall_high[k])
        overall_high[k] = arr[i];

printf("The length of the winter sub array: %d ", j);
printf("The length of the summer sub array: %d ", k);

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