I have been looking at different algorithms for the problem on Leetcode beginning with approach 1. The problem requires one to calculate the total water area (column width = 1) if the array values were heights of walls.

The first approach finds the minimum height of the maximum wall heights of the left and right sides of each column and adds water to the top of the given column if the column height is less than the minimum. The minimum is taken as this is the highest the water collected can reach. To calculate the maximums of each side requires making n-1 traversals for both left and right.

I code in Python but here's the code in C++ as per the solution given on Leetcode.

int trap(vector<int>& height)
    int ans = 0;
    int size = height.size();
    for (int i = 1; i < size - 1; i++) {
        int max_left = 0, max_right = 0;
        for (int j = i; j >= 0; j--) { //Search the left part for max bar size
            max_left = max(max_left, height[j]);
        for (int j = i; j < size; j++) { //Search the right part for max bar size
            max_right = max(max_right, height[j]);
        ans += min(max_left, max_right) - height[i];
    return ans;

I noticed that the maximums of the left and right columns include the current column in the outer loop iteration.This way the lowest value you can get is 0. Please confirm that this is correct. I used min() between 0 and the potentialWater to be collected in my code.

I looked at the code and rewrote it in my own way but I am getting 0 as my total rain water collected where I should be getting 6. Where is the error in my code?

class Solution:
  def trap(self, height):
    :type height: List[int]
    :rtype: int

    if len(height) <= 2:
      return 0

    water = 0
    for col in range(1, len(height)-1):
      maxLeft = 0
      maxRight = 0

      for index in range(col):
        maxLeft = max(maxLeft, height[index])
      for index in range(col+1,len(height)):
        maxRight = max(maxRight, height[index])

      minHeight = min(maxLeft, maxRight)
      # print(col, minHeight)
      # minHeight = min(max(height[:col]), max(height[col+1:]))
      potentialWater = minHeight - col
      # print(potentialWater)
      # water += potentialWater
      water += max(0, potentialWater) # in case this is the highest column

    return water

solution = Solution()
height = [0,1,0,2,1,0,1,3,2,1,2,1]
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    No idea whether this is your problem, because it's too much of a mass code dump, but from a quick glance, the C++ code is including i in the inner loops, but your Python code is excluding col in the equivalent inner loops. You really should be rewriting this stuff in idiomatic Python (e.g., maxRight = max(height[col:])), so off-by-one errors don't even arise in the first place. (This would also be a better answer in C++, by the way…) But if you really want to do things at the same level as the C++ code, make sure you're doing exactly the same. Print the loop variables to compare, etc. – abarnert Jun 11 '18 at 22:36
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    @heretoinfinity Yes, it means copying half the list. But for many real-life problems, this doesn't matter—and for most real-life problems where performance matters, you should be using a numpy array or similar rather than a list (and numpy arrays return in-place views when sliced). If you fall into the small set of problems where numpy is not appropriate but you do need to optimize things, then at least get it working first, then optimize once it works. – abarnert Jun 11 '18 at 22:47
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    Also, before optimizing, measure. Of course if the list is huge, the copy will be painful, and may even break your code. But if we're talking only a few thousand elements, it's probably worth wasting a few KB, given how much speed benefit you'll get from the optimized loops inside the slice and single max call vs. the slow generic for loop and calling max over and over. – abarnert Jun 11 '18 at 22:50
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    Assuming the job actually is in Python (using CPython): if you can not only point out that slicing copies, but also explain how to use timeit and sys.getsizeof to compare the tradeoffs, then I'd be impressed. (But being able to guess the answers you'd get from those comparisons, I wouldn't even really ask anyone unless they were claiming to be a low-level Python expert or something.) – abarnert Jun 11 '18 at 22:54

Simple debugging tactics quickly narrow the problem to this line:

  potentialWater = minHeight - col

Why do you subtract the column number from the minimum height??? These aren't at all the same class of quantity. Instead, you want to subtract the height of the current column:

  potentialWater = minHeight - height[col]

With that change, we get the desired output:

$ python3 trap.py

As a comment already noted, you should use Pythonic programming idioms for this, such as replacing

for index in range(col):
  maxLeft = max(maxLeft, height[index])
for index in range(col+1,len(height)):
  maxRight = max(maxRight, height[index])


maxLeft = max(height[:col])
  maxRight = max(height[col+1:])
  • just like I asked abernett above, wouldn't max(height[col:]) be using extra space? I started with list slicing but commented it out when I realized that I could be using extra space. – heretoinfinity Jun 11 '18 at 22:42
  • here's where I got the view that slices use auxiliary memory. Please confirm that it is correct. stackoverflow.com/questions/47128421/… – heretoinfinity Jun 11 '18 at 22:46
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    You're quite correct; abarnert already told you everything that I would have said, and a little deeper. – Prune Jun 11 '18 at 23:35
  • thanks. Sometimes people don't respond to comments on their own comments hence the reason of posting here as well. – heretoinfinity Jun 12 '18 at 0:48

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