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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

Graphs

Although a tree is a pretty good way to represent hierarchical data, we can't represent circular or cyclic dependencies in a tree because we always have a single and unique path to go from one node to another. However, there are more complex scenarios that have a cyclic structure inherently. For example, consider a road network. There can be multiple ways to go from one place (places can be represented as nodes) to another. Such a set of scenarios can be better represented using graphs.

Unlike a tree, a graph has to store data for the nodes, as well as for the edges between the nodes. For example, in any road network, for each node (place), we have to store the information about which other nodes (places) it connects to. This way, we can form a graph with all the required nodes and edges. This is called an unweighted graph. We can add weights, or more information, to each of the edges. For our road network example, we can add the distance of each edge (path) from one node (place...

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