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# Cage constraint for a sudoku type puzzle

Hi i am making a kenken solver which is a puzzle just like sudoku. I have a cage structure which has number of cells for a cage. I want to apply constraints whenever i am trying a value for the cage. For this i am calling roe/column/cage constraint to my puzzle every time.

However i am struck in cage constraint for the problem. Here is my code for all 3 constraints. For cage constraint i would like to see all cells for the particular cell's cage and see if the number passed satisfy our criteria.

``````    //Row Constraint Check: Checks if num is an acceptable value for the given Row
public static boolean rowConstraintCheck(int rowIndex, int num){
for(int columnIndex = 0; columnIndex < puzzleDimension; columnIndex++){
if(puzzleArray[rowIndex][columnIndex] == num){
return false;
}
}
return true;
}
//Column Constraint Check: Checks if num is an acceptable value for the given Column
public static boolean columnConstraintCheck(int columnIndex, int num){
for(int rowIndex = 0; rowIndex < puzzleDimension; rowIndex++){
if(puzzleArray[rowIndex][columnIndex] == num){
return false;
}
}
return true;
}
//Cage constraint Check: Checks if num is an acceptable value for the given Cage
public static boolean cageConstraintCheck(int rowIndex, int columnIndex, int num){
if(true){
int cageToCell =  cellToCageMapper[rowIndex][columnIndex];
String currentOperator = cages.get(cageToCell).cageOperator;
int currentTotal = cages.get(cageToCell).cageValue;
int numberOfCages = cages.get(cageToCell).placeHolders.length;
//System.out.println(rowIndex+"."+ columnIndex+"."+ cageToCell +"."+ currentOperator +"."+ currentTotal +"."+ numberOfCages);

int flagNonZeroCages = 0;
for(int j=0;j<numberOfCages;j++) {
int tempIndex = cages.get(cageToCell).placeHolders[j];
int tempCellRow = (int) (Math.floor(tempIndex/puzzleDimension));
int tempCellCol = (tempIndex % puzzleDimension);
if(puzzleArray[tempCellRow][tempCellCol] != 0){
flagNonZeroCages++;System.out.println("bingo"+j);
}
}
if(flagNonZeroCages == numberOfCages){
System.out.println("bingo");
}

System.out.println();
return true;
}
return false;
}
``````

Now i am stuck here in my approach.. i do not know how to go for cage constraint checking. this is what i attempted, but not sure what i am missing and what to do next.

-
What is the actual problem you're having at the moment? How does the code that you've pasted fail to meet your requirements? – Andrzej Doyle Oct 8 '12 at 11:48
@AndrzejDoyle sorry about being less descriptive.. added more details.. basically i am stuck.. dont know what to do and how to do.. i just added my attempt here... – CodeMonkey Oct 8 '12 at 11:57
That still doesn't say anything. How is your code failing, on what types of input? What result are you getting, and what did you expect? At the moment I can't tell what your code does (I don't know what `cellToCageMapper` contains, or what the `placeHolders` field is for), and neither do I know what it's meant to do. You'll need to explain both of these to make the question answerable. – Andrzej Doyle Oct 8 '12 at 12:07
Can i post my complete program here ? – CodeMonkey Oct 8 '12 at 12:38
You can post it, but don't expect it to help much. It's still unclear what well-defined problem you have that you want help solving. – Hbcdev Oct 8 '12 at 13:49

``````/**
* Cage constraint Check: Checks if num is an acceptable value for the
* given Cage
*
* Precondition: Given cell is empty, and has passed rowConstraintCheck() and
* columnConstraintCheck()
*/
public static boolean cageConstraintCheck(
int rowIndex, int columnIndex, int num) {

int cageIndex =  cellToCageMapper[rowIndex][columnIndex];
Cage cage = cages.get(cageIndex); // or whatever class-name you are using

String currentOperator = cage.cageOperator;
int targetValue = cage.cageValue;

// Sum and product of all cells in cage, including the new one.
int sum = num;
int product = num;

// Last non-zero value seen in the cage, not counting the new one.
int last = -1;

int numberOfEmptyCellsInCage = 0;
int numberOfCellsInCage = cage.placeHolders.length;

if (numberOfCellsInCage == 1)
{
// Single-cell cage
return (targetValue == num);
}

for (int j = 0; j < numberOfCellsInCage; j++) {
int cellIndex = cage.placeHolders[j];
int cellRow = (cellIndex / puzzleDimension); // Integer division
int cellCol = (cellIndex % puzzleDimension);
int cellValue = puzzleArray[cellRow][cellCol];
if (cellValue == 0) {
// Empty cell
numberOfEmptyCellsInCage++;
}
else {
// Update the tracking variables
sum += cellValue;
product *= cellValue;
last = cellValue;
}
}

if (numberOfEmptyCellsInCage == 1 && last != -1) {
// The new number will be placed in the only empty spot in the cage.

// For subtraction and division, there will only be two cells. Sort
// their values onto 'low' and 'high'.
int low = num < last ? num : last;
int high = num + last - low;

switch (currentOperator.charAt(0)) {
case '+':
if (targetValue != sum) {
// The new value would produce an incorrect sum
return false;
}
break;
case '*':
if (targetValue != product) {
// The new value would produce an incorrect product
reutrn false;
}
break;
case '-':
if (targetValue != high - low) {
// The new value would produce an incorrect difference
return false;
}
break;
case '/':
if (high % low != 0 || targetValue != high / low) {
// The new value would produce an incorrect quotient
return false;
}
break;
}
}

return true;
}
``````
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