```
function BACKTRACKING-SEARCH(csp) returns a solution, or failure
return RECURSIVE- BACKTRACKING({ }, csp)
function RECURSIVE-BACKTRACKING(assignment,csp) returns a solution, or failure
if assignment is complete then
return assignment
var ←SELECT-UNASSIGNED-VARIABLE(VARIABLES[csp],assignment,csp)
for each value in ORDER-DOMAIN-VALUES(var,assignment,csp) do
if value is consistent with assignment according to CONSTRAINTS[csp] then
add {var = value} to assignment
result ← RECURSIVE-BACKTRACKING(assignment, csp)
if result ̸= failure then
return result
remove {var = value} from assignment
return failure
```

This is a backtracking recursion algorythm pseudocode from AIMA. However, I don't understand if it returns ALL possible solutions or just first one found. In case it is the last option, could you please help me modify it to return a list of possible solutions instead (or at least updating some global list).

EDIT: I implemented this algorithm in Java. However, there is one problem:

if I don't return assignment, but save it in **result** instead, the recursion stop condition fails (i.e. it doesn't exist anymore). How can I implement another stop-condition? Maybe I should return **true** in the end?

Here is my code :

```
/**
* The actual backtracking. Unfortunately, I don't have time to implement LCV or MCV,
* therefore it will be just ordinary variable-by-variable search.
* @param line
* @param onePossibleSituation
* @param result
*/
public static boolean recursiveBacktrack(Line line, ArrayList<Integer> onePossibleSituation, ArrayList<ArrayList<Integer>> result){
if (onePossibleSituation.size() == line.getNumOfVars()){
// instead of return(assignment)
ArrayList<Integer> situationCopy = new ArrayList<Integer>();
situationCopy.addAll(onePossibleSituation);
result.add(situationCopy);
onePossibleSituation.clear();
}
Block variableToAssign = null;
// iterate through all variables and choose one unassigned
for(int i = 0; i < line.getNumOfVars(); i++){
if(!line.getCspMiniTaskVariables().get(i).isAssigned()){
variableToAssign = line.getCspMiniTaskVariables().get(i);
break;
}
}
// for each domain value for given block
for (int i = line.getCspMiniTaskDomains().get(variableToAssign.getID())[0];
i <= line.getCspMiniTaskDomains().get(variableToAssign.getID())[0]; i++){
if(!areThereConflicts(line, onePossibleSituation)){
//complete the assignment
variableToAssign.setStartPositionTemporary(i);
variableToAssign.setAssigned(true);
onePossibleSituation.add(i);
//do backtracking
boolean isPossibleToPlaceIt = recursiveBacktrack(line,onePossibleSituation,result);
if(!isPossibleToPlaceIt){
return(false);
}
}
// unassign
variableToAssign.setStartPositionTemporary(-1);
variableToAssign.setAssigned(false);
onePossibleSituation.remove(i);
}
// end of backtracking
return(false);
}
```