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C++ Data Structures and Algorithm Design Principles

You're reading from   C++ Data Structures and Algorithm Design Principles Leverage the power of modern C++ to build robust and scalable applications

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Product type Paperback
Published in Oct 2019
Publisher
ISBN-13 9781838828844
Length 626 pages
Edition 1st Edition
Languages
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Authors (4):
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Anil Achary Anil Achary
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Anil Achary
John Carey John Carey
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John Carey
Payas Rajan Payas Rajan
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Payas Rajan
Shreyans Doshi Shreyans Doshi
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Shreyans Doshi
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Toc

Table of Contents (11) Chapters Close

About the Book 1. Lists, Stacks, and Queues FREE CHAPTER 2. Trees, Heaps, and Graphs 3. Hash Tables and Bloom Filters 4. Divide and Conquer 5. Greedy Algorithms 6. Graph Algorithms I 7. Graph Algorithms II 8. Dynamic Programming I 9. Dynamic Programming II 1. Appendix

Memoization – The Top-Down Approach

No, this is not "memorization," though that would also describe this technique quite accurately. Using memoization, we can reformulate the top-down solution we described previously to make use of the optimal substructure property exhibited by the Fibonacci sequence. Our program logic will essentially be the same as it was before, only now, after having found the solution at every step, we will cache the results in an array, indexed according to the current value of n (in this problem, n represents the state or set of parameters defining the current recursive branch). At the very beginning of each function call, we will check to see whether we have a solution available in the cache for state F(n). If so, we will simply return the cached value:

const int UNKNOWN = -1;

const int MAX_SIZE = 100000;

vector<int> memo(MAX_SIZE, UNKNOWN);

int Fibonacci(int n)

{

    if(n < 2)

    {

    ...

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