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Greedy Algorithms using Python
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Kurssisisältö

Greedy Algorithms using Python

Greedy Algorithms using Python

1. Greedy Algorithms: Overview and Examples
Why Greedy?Description and Simple ExampleSchedule ProblemEuclidean AlgorithmEgyptian Fraction ProblemJob Sequencing Problem
2. Greedy on Arrays
Make Arrays EqualMinimum Product SubsetJumping Frog
3. Greedy on Graphs
PreparationDijkstra Shortest Path AlgorithmKruskal’s MSTPrim's MST

book
Prim's MST

This algorithm is another one approach to find the MST - minimum spanning tree. The main idea is to partition a set of vertices into two: included to MST already and excluded. Step by step you’ll replace vertices from the second set to the first by picking the less weighted edge that connects both sets.

So algorithm is next:

  1. Put the start vertex to the visited, the rest will be unvisited, i. e. in the second set.
  2. Start adding vertices. Visit all neighbors for all visited vertices and select the edge with least weight, that does not create a cycle. Mark the adjacent vertex as visited.
  3. Do the 2) until all vertices are visited.

You can find a lot of different implementations, but the main idea is to put all vertices into the visited set step by step.

Tehtävä

Swipe to start coding

Complete the primMST() algorithm inside Graph class. Init the graph and call this method. To detect a cycle, use BFS() or DFS() algorithms. You can implement it inside the class.

Ratkaisu

Switch to desktopVaihda työpöytään todellista harjoitusta vartenJatka siitä, missä olet käyttämällä jotakin alla olevista vaihtoehdoista
Oliko kaikki selvää?

Miten voimme parantaa sitä?

Kiitos palautteestasi!

Osio 3. Luku 4
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book
Prim's MST

This algorithm is another one approach to find the MST - minimum spanning tree. The main idea is to partition a set of vertices into two: included to MST already and excluded. Step by step you’ll replace vertices from the second set to the first by picking the less weighted edge that connects both sets.

So algorithm is next:

  1. Put the start vertex to the visited, the rest will be unvisited, i. e. in the second set.
  2. Start adding vertices. Visit all neighbors for all visited vertices and select the edge with least weight, that does not create a cycle. Mark the adjacent vertex as visited.
  3. Do the 2) until all vertices are visited.

You can find a lot of different implementations, but the main idea is to put all vertices into the visited set step by step.

Tehtävä

Swipe to start coding

Complete the primMST() algorithm inside Graph class. Init the graph and call this method. To detect a cycle, use BFS() or DFS() algorithms. You can implement it inside the class.

Ratkaisu

Switch to desktopVaihda työpöytään todellista harjoitusta vartenJatka siitä, missä olet käyttämällä jotakin alla olevista vaihtoehdoista
Oliko kaikki selvää?

Miten voimme parantaa sitä?

Kiitos palautteestasi!

Osio 3. Luku 4
Switch to desktopVaihda työpöytään todellista harjoitusta vartenJatka siitä, missä olet käyttämällä jotakin alla olevista vaihtoehdoista
Pahoittelemme, että jotain meni pieleen. Mitä tapahtui?
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