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Add Rain Terraces problem.
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# Rain Terraces (Trapping Rain Water) Problem
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Given an array of non-negative integers representing terraces in an elevation map where the width of each bar is 1, compute how much water it is able to trap after raining.
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Given an array of non-negative integers representing terraces in an elevation map
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where the width of each bar is `1`, compute how much water it is able to trap
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after raining.
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![Rain Terraces](https://www.geeksforgeeks.org/wp-content/uploads/watertrap.png)
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@ -9,27 +11,31 @@ Given an array of non-negative integers representing terraces in an elevation ma
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**Example #1**
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```
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Input: arr[] = [2, 0, 2]
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Input: arr[] = [2, 0, 2]
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Output: 2
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Structure is like below
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Structure is like below:
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We can trap 2 units of water in the middle gap.
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```
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**Example #2**
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```
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Input: arr[] = [3, 0, 0, 2, 0, 4]
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Input: arr[] = [3, 0, 0, 2, 0, 4]
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Output: 10
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Structure is like below
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Structure is like below:
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|__|_|
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We can trap "3*2 units" of water between 3 an 2,
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"1 unit" on top of bar 2 and "3 units" between 2
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and 4. See below diagram also.
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and 4. See below diagram also.
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```
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**Example #3**
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@ -37,16 +43,34 @@ and 4. See below diagram also.
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```
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Input: arr[] = [0, 1, 0, 2, 1, 0, 1, 3, 2, 1, 2, 1]
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Output: 6
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Structure is like below:
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Trap "1 unit" between first 1 and 2, "4 units" between
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first 2 and 3 and "1 unit" between second last 1 and last 2
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first 2 and 3 and "1 unit" between second last 1 and last 2.
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```
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## Algorithms
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## The Algorithm
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An element of array can store water if there are higher bars on left and right.
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We can find amount of water to be stored in every element by finding the heights
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of bars on left and right sides. The idea is to compute amount of water that can
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be stored in every element of array. For example, consider the array
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`[3, 0, 0, 2, 0, 4]`, We can trap "3*2 units" of water between 3 an 2, "1 unit"
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on top of bar 2 and "3 units" between 2 and 4. See below diagram also.
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A **simple solution** is to traverse every array element and find the highest
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bars on left and right sides. Take the smaller of two heights. The difference
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between smaller height and height of current element is the amount of water
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that can be stored in this array element. Time complexity of this solution
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is `O(n2)`.
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An **efficient solution** is to pre-compute highest bar on left and right of
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every bar in `O(n)` time. Then use these pre-computed values to find the
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amount of water in every array element.
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## References
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