Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

does anyone know the Donald B. Johnson's algorithm which enumerates all the elementary circuits (cycles) in a Directed graph? link text

I have the paper he had published in 1975 but I cannot understand the pseudo-code.

alt text

My goal is to implement this algorithm in Java.

Some questions I have is for example what is the matrix Ak it refers to. In the pseudo code mentions that

Ak:=adjacency structure of strong component K with least 
    vertex in subgraph of G induced by {s,s+1,....n};

Does that mean I have to implement another algorithm that finds the Ak matrix?

Another question is what the following means?

begin logical f; 

Does also the line "logical procedure CIRCUIT (integer value v);" means that the circuit procedure returns a logical variable. In the pseudo code also has the line "CIRCUIT := f;" . Does this mean?

It would be great if someone could translate this 1970's pseudo code to a more modern type of pseudo code so I can understand it

in case you are interested to help but you cannot find the paper please email me at pitelk@hotmail.com and I will send you the paper.

Thanks in advance

share|improve this question
Did you try reading the paper you linked to? It seems to have an accompanying explanation and proof. –  Aryabhatta May 25 '10 at 22:33
yes i have, but still it doesnt explain the code itself, just the general idea. What i cannot understand is the pseudo code. also i have found another link to the paper in case the first is not working dutta.csc.ncsu.edu/csc791_spring07/wrap/circuits_johnson.pdf –  Pitelk May 26 '10 at 2:45
Thanks to you all , you have taken care of the appearance of my question (made it look better; corrected spelling mistakes and changed the code i have wrote to the original of the paper -for some strange reason i couldn't just copy - paste the code so i typed it from scratch.) –  Pitelk May 28 '10 at 19:05
AK refers to the edge list of the induced subgraph of vertices VK. A Mathematica demonstration (and source code) is available here. –  István Zachar Aug 23 '13 at 15:52

2 Answers 2

up vote 7 down vote accepted

The pseudo-code is reminiscent of Algol, Pascal or Ada.

Does that mean I have to implement another algorithm that finds the Ak matrix?

Ak appears to be a list of arrays of input values having the specified properties. It may be related to the corresponding adjacency matrix, but it's not clear to me. I'm guessing something like this:

int[][] a = new int[k][n];
int[][] b = new int[k][n];
boolean[] blocked = new boolean[n];
int s;

What does logical f mean?

This declares a local variable representing a true or false value, similar to Java's boolean.

logical procedure CIRCUIT (integer value v);

This declares a subprogram named CIRCUIT having a single integer parameter v that is passed by value. The subprogram returns a logical result of true or false, and CIRCUIT := f assigns f as the result. In Java,

boolean circuit(int v) {
    boolean f;
    f = false;
    return f;

The keywords begin and end delimit a block scope that may be nested, so CIRCUIT is nested in the main block and UNBLOCK is nested inside of CIRCUIT. := is assignment; ¬ is not; is element; is empty; is !=; stack and unstack suggest push and pop.

It's only a start, but I hope it helps.

Addendum: On reflection, A and B must be isomorphic.

Here's a very literal outline. I don't know enough about A, B & V to choose a better data structure than arrays.

import java.util.Stack;

public final class CircuitFinding {
    static int k, n;
    int[][] a = new int[k][n];
    int[][] b = new int[k][n];
    boolean[] blocked = new boolean[n];
    int[] v = new int[k];
    int s = 1;
    Stack<Integer> stack = new Stack<Integer>();

    private void unblock(int u) {
        blocked[u] = false;
        for (int w : b[u]) {
            //delete w from B(u)
            if (blocked[w]) {

    private boolean circuit(int v) {
        boolean f = false;
        blocked[v] = true;
        for (int w : a[v]) {
            if (w == s) {
                //output circuit composed of stack followed by s;
                f = true;
            } else if (!blocked[w]) {
                if (circuit(w)) {
                    f = true;
        if (f) {
        } else {
            for (int w : a[v]) {
                //if (v∉B(w)) put v on B(w);
        v = stack.pop();
        return f;

    public void main() {
        while (s < n) {
            //A:= adjacency structure of strong component K with least
            //vertex in subgraph of G induced by {s, s+ 1, n};
            if (a[k] != null) {
                //s := least vertex in V;
                for (int i : v) {
                    blocked[i] = false;
                    b[i] = null;
            } else {
                s = n;
share|improve this answer
Thank you very much for the information. Still i was not able to make any significant progress. i will try to find out the ada or algol syntax. Until then can you clarify to me something? the CIRCUIT := f returns the value immiadetly or just assigns tha value to be returned later? in other words it is like f = false or like return (f=false) Thanks –  Pitelk May 27 '10 at 21:45
The statement CIRCUIT := f assigns the current value of the local variable f as the result when the subprogram exits normally after the following statement. The assignment does not cause the return; it merely precedes it. Use of the identifier CIRCUIT does not imply recursion, whereas UNBLOCK appears to be called recursively. The code strongly resembles Wirth's Algorithms + Data Structures = Programs: en.wikipedia.org/wiki/… –  trashgod May 28 '10 at 2:41
I think after studying it again and again and with your helpful comments it starts to make sense to me. I will try to write my version of pseudo code and i will post it when it is ready! –  Pitelk May 28 '10 at 19:07
I've added a rough outline. I look forward to your results. –  trashgod May 28 '10 at 20:55
Thanks for the outline . It is very usefull, also some thing you have wrote is what i was thinking too so that means i am the correct road. The only problem (major one) is i cannot still understand what Vk and Ak (or better , how Vk and Ak are chosen). I have posted this question as a new tread in stackoverflow.com/questions/2939877/… If i understand this , i think i will be able to write the code to java –  Pitelk May 30 '10 at 18:54

You can find a Java implementation of this algorithm on github: https://github.com/1123/johnson. It uses the Jung2 java graph library.

share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.