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48 lines
2.2 KiB
Markdown
48 lines
2.2 KiB
Markdown
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# Hash optimization strategies
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In algorithm problems, **we often reduce the time complexity of algorithms by replacing linear search with hash search**. Let's use an algorithm problem to deepen understanding.
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!!! question
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Given an integer array `nums` and a target element `target`, please search for two elements in the array whose "sum" equals `target`, and return their array indices. Any solution is acceptable.
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## Linear search: trading time for space
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Consider traversing all possible combinations directly. As shown in the figure below, we initiate a two-layer loop, and in each round, we determine whether the sum of the two integers equals `target`. If so, we return their indices.
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![Linear search solution for two-sum problem](replace_linear_by_hashing.assets/two_sum_brute_force.png)
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The code is shown below:
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```src
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[file]{two_sum}-[class]{}-[func]{two_sum_brute_force}
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```
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This method has a time complexity of $O(n^2)$ and a space complexity of $O(1)$, which is very time-consuming with large data volumes.
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## Hash search: trading space for time
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Consider using a hash table, with key-value pairs being the array elements and their indices, respectively. Loop through the array, performing the steps shown in the figures below each round.
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1. Check if the number `target - nums[i]` is in the hash table. If so, directly return the indices of these two elements.
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2. Add the key-value pair `nums[i]` and index `i` to the hash table.
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=== "<1>"
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![Help hash table solve two-sum](replace_linear_by_hashing.assets/two_sum_hashtable_step1.png)
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=== "<2>"
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![two_sum_hashtable_step2](replace_linear_by_hashing.assets/two_sum_hashtable_step2.png)
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=== "<3>"
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![two_sum_hashtable_step3](replace_linear_by_hashing.assets/two_sum_hashtable_step3.png)
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The implementation code is shown below, requiring only a single loop:
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```src
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[file]{two_sum}-[class]{}-[func]{two_sum_hash_table}
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```
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This method reduces the time complexity from $O(n^2)$ to $O(n)$ by using hash search, greatly improving the running efficiency.
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As it requires maintaining an additional hash table, the space complexity is $O(n)$. **Nevertheless, this method has a more balanced time-space efficiency overall, making it the optimal solution for this problem**.
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