**Topological Sort-**

Topological Sort is a linear ordering of the vertices in such a way that
if there is an edge in the DAG going from vertex ‘u’ to vertex ‘v’, then ‘u’ comes before ‘v’ in the ordering. |

It is important to note that-

- Topological Sorting is possible if and only if the graph is a
**Directed Acyclic Graph**. - There may exist multiple different topological orderings for a given directed acyclic graph.

**Topological Sort Example-**

Consider the following directed acyclic graph-

For this graph, following 4 different topological orderings are possible-

**1 2 3 4 5 6****1 2 3 4 6 5****1 3 2 4 5 6****1 3 2 4 6 5**

**Applications of Topological Sort-**

Few important applications of topological sort are-

- Scheduling jobs from the given dependencies among jobs
- Instruction Scheduling
- Determining the order of compilation tasks to perform in makefiles
- Data Serialization

**PRACTICE PROBLEMS BASED ON TOPOLOGICAL SORT-**

**Problem-01:**

Find the number of different topological orderings possible for the given graph-

**Solution-**

The topological orderings of the above graph are found in the following steps-

**Step-01:**

Write in-degree of each vertex-

**Step-02:**

- Vertex-A has the least in-degree.
- So, remove vertex-A and its associated edges.
- Now, update the in-degree of other vertices.

**Step-03:**

- Vertex-B has the least in-degree.
- So, remove vertex-B and its associated edges.
- Now, update the in-degree of other vertices.

**Step-04:**

There are two vertices with the least in-degree. So, following 2 cases are possible-

In case-01,

- Remove vertex-C and its associated edges.
- Then, update the in-degree of other vertices.

In case-02,

- Remove vertex-D and its associated edges.
- Then, update the in-degree of other vertices.

**Step-05:**

Now, the above two cases are continued separately in the similar manner.

In case-01,

- Remove vertex-D since it has the least in-degree.
- Then, remove the remaining vertex-E.

In case-02,

- Remove vertex-C since it has the least in-degree.
- Then, remove the remaining vertex-E.

**Conclusion-**

For the given graph, following **2** different topological orderings are possible-

**A B C D E****A B D C E**

**Problem-02:**

Find the number of different topological orderings possible for the given graph-

**Solution-**

The topological orderings of the above graph are found in the following steps-

**Step-01:**

Write in-degree of each vertex-

**Step-02:**

- Vertex-1 has the least in-degree.
- So, remove vertex-1 and its associated edges.
- Now, update the in-degree of other vertices.

**Step-03:**

There are two vertices with the least in-degree. So, following 2 cases are possible-

In case-01,

- Remove vertex-2 and its associated edges.
- Then, update the in-degree of other vertices.

In case-02,

- Remove vertex-3 and its associated edges.
- Then, update the in-degree of other vertices.

**Step-04:**

Now, the above two cases are continued separately in the similar manner.

In case-01,

- Remove vertex-3 since it has the least in-degree.
- Then, update the in-degree of other vertices.

In case-02,

- Remove vertex-2 since it has the least in-degree.
- Then, update the in-degree of other vertices.

**Step-05:**

In case-01,

- Remove vertex-4 since it has the least in-degree.
- Then, update the in-degree of other vertices.

In case-02,

- Remove vertex-4 since it has the least in-degree.
- Then, update the in-degree of other vertices.

**Step-06:**

In case-01,

- There are 2 vertices with the least in-degree.
- So, 2 cases are possible.
- Any of the two vertices may be taken first.

Same is with case-02.

**Conclusion-**

For the given graph, following **4** different topological orderings are possible-

**1 2 3 4 5 6****1 2 3 4 6 5****1 3 2 4 5 6****1 3 2 4 6 5**

**Problem-03:**

Consider the directed graph given below. Which of the following statements is true?

- The graph does not have any topological ordering.
- Both PQRS and SRPQ are topological orderings.
- Both PSRQ and SPRQ are topological orderings.
- PSRQ is the only topological ordering.

**Solution-**

- The given graph is a directed acyclic graph.
- So, topological orderings exist.
- P and S must appear before R and Q in topological orderings as per the definition of topological sort.

Thus, Correct option is (C).

**Problem-04:**

Consider the following directed graph-

The number of different topological orderings of the vertices of the graph is ________ ?

**Solution-**

Number of different topological orderings possible = 6.

Thus, Correct answer is **6**.

(*The solution is explained in detail in the linked video lecture.*)

To gain better understanding about Topological Sort,

To practice previous years GATE problems on Topological Sort,

**Next Article-** **Shortest Path Problems**

**Other Popular Sorting Algorithms-**

**Selection Sort | Examples****Bubble Sort | Examples****Insertion Sort | Examples****Merge Sort | Examples****Quick Sort | Examples**

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