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Understanding the pseudocode in the Donald B. Johnson's algorithm

Does anyone know the Donald B. Johnson's algorithm, which enumerates all the elementary circuits (cycles) in a directed graph?

I have the paper he had published in 1975, but I cannot understand the pseudocode.

My goal is to implement this algorithm in Java.

Some questions I have, for example, is what is the matrix Ak it refers to. In the pseudocode, it 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);"` mean that the circuit procedure returns a logical variable? In the pseudocode also has the line "`CIRCUIT := f;`". What does this mean?

It would be great if someone could translate this 1970's pseudocode to a more modern type of pseudocode 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.

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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

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]) {
unblock(w);
}
}
}

private boolean circuit(int v) {
boolean f = false;
stack.push(v);
blocked[v] = true;
L1:
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;
}
}
}
L2:
if (f) {
unblock(v);
} 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;
}
L3:
circuit(s);
s++;
} else {
s = n;
}
}
}
}
``````
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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.

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