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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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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

Introduction

In the previous two chapters, we discussed two algorithm design paradigms: divide and conquer and the greedy approach, which led us to well-known solutions to widely used and important computational problems such as sorting, searching, and finding the minimum weight spanning tree on a graph. In this chapter, we shall discuss some algorithms that are specifically applicable to the graph data structure.

A graph is defined as a set of vertices and edges that connect a pair of vertices. Mathematically, this is often written as G = < V, E >, where V denotes the set of vertices and E denotes the set of edges that constitute a graph. Edges that point from one node to another are called directed, while edges that have no direction are called undirected. Edges may also be associated with a weight or be unweighted, as we saw in Chapter 2, Trees, Heaps, and Graphs.

Note

The terms "node" and "vertex" can be used interchangeably when we talk about graphs. In this chapter...

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