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It's my first message on this site. I'm trying to evaluate/learn C#. I'm an old (C++, MFC) programmer.

I'm trying to learn C# with this little program(game) for my children.

I'm trying to calculate a Total value with an array of six numbers and all the basic operators(+-*/)

Supposed you have: 1, 2, 3, 4, 5, 6 and you want to have a total of: 10

Here is my function call:

here is a part of my result:

10 = 4 - ((2 - (5 + 6)) + (3 * 1)) 10 = (((6 - 4) - 1) - (2 - 3)) * 5 10 = (2 * 3) - ((1 + (5 - 4)) - 6) : : : 10 = 3 - (5 - (6 * 2)) 10 = (3 - 2) * ((1 * 5) * (6 - 4)) 10 = (4 + (6 + 3)) - ((5 + 1) / 2)

Number of solutions = 252676

3/28/2013 12:28:25 PM 3/28/2013 12:28:44 PM 00:00:19.7425257

It's took 19 sec to my old Quad CPU Q8200 2.33Ghz to process the 105164223 possible expression.

I put all the possible expression in an Hashtable. And at the end, I print all the valid expressions.

There is a way to speed more this process.

I have try to put all the result in a file like: (C - B) * ((A * E) * (F - D))

and after, process the file and change the letter for the right number.

But this file have a size of about 2GB.

And It's take 35 sec just to read the file without any process.

First of all, - I'like to have your comments about the code. (It's my first one) - can I speed up this code - How can we speed up the process, may be :( parallel, task, async/wait, etc.. ) I'm not used of all this things. - Do you have an other idea for the calculation like put all the equation in a table (like: (C - B) * ((A * E) * (F - D))) and process the table.

Here is my code

sky drive

Sorry for my english,

Thank's Marc

using System;
using System.Collections;

/// <summary>
///  Class to Find all the possible value to reach a number from an number array with the basic operators
/// </summary>
class PossibleExpression
{
    public DateTime mStartDateTime;
    public DateTime mEndDateTime;
    public TimeSpan mTimeSpan;

    // all the solutions are stored in an Hachtable
    public Hashtable mSolutionHashtable = new Hashtable();

    // NbEvaluate
    public int mNbEvaluate = 0;

    // calculate the AbsValue, if we are not able to reach the total, we kept the nearest total
    public int mAbsValue = int.MaxValue;

    // possible index for indirection table
    static private int[][] m_Index = new int[][] 
    {
        // with one number
        new int[] {0}, 
        new int[] {1}, 
        new int[] {2}, 
        new int[] {3}, 
        new int[] {4}, 
        new int[] {5},

        // with two numbers
        new int[] {0,1}, 
        new int[] {0,2}, 
        new int[] {0,3}, 
        new int[] {0,4}, 
        new int[] {0,5}, 
        new int[] {1,2}, 
        new int[] {1,3}, 
        new int[] {1,4}, 
        new int[] {1,5}, 
        new int[] {2,3}, 
        new int[] {2,4}, 
        new int[] {2,5}, 
        new int[] {3,4}, 
        new int[] {3,5}, 
        new int[] {4,5}, 

        // with three numbers
        new int[] {0,1,2}, 
        new int[] {0,1,3}, 
        new int[] {0,1,4}, 
        new int[] {0,1,5}, 
        new int[] {0,2,3}, 
        new int[] {0,2,4}, 
        new int[] {0,2,5}, 
        new int[] {0,3,4}, 
        new int[] {0,3,5}, 
        new int[] {0,4,5}, 
        new int[] {1,2,3}, 
        new int[] {1,2,4}, 
        new int[] {1,2,5}, 
        new int[] {1,3,4}, 
        new int[] {1,3,5}, 
        new int[] {1,4,5}, 
        new int[] {2,3,4}, 
        new int[] {2,3,5}, 
        new int[] {2,4,5}, 
        new int[] {3,4,5}, 

        // with four numbers
        new int[] {0,1,2,3}, 
        new int[] {0,1,2,4}, 
        new int[] {0,1,2,5}, 
        new int[] {0,1,3,4}, 
        new int[] {0,1,3,5}, 
        new int[] {0,1,4,5}, 
        new int[] {0,2,3,4}, 
        new int[] {0,2,3,5}, 
        new int[] {0,2,4,5}, 
        new int[] {0,3,4,5}, 
        new int[] {1,2,3,4}, 
        new int[] {1,2,3,5}, 
        new int[] {1,2,4,5}, 
        new int[] {1,3,4,5}, 
        new int[] {2,3,4,5}, 

        // with five numbers
        new int[] {0,1,2,3,4}, 
        new int[] {0,1,2,3,5}, 
        new int[] {0,1,2,4,5}, 
        new int[] {0,1,3,4,5}, 
        new int[] {0,2,3,4,5}, 
        new int[] {1,2,3,4,5}, 

        // with six numbers
        new int[] {0,1,2,3,4,5}, 
    };

    static private int[][] Mix0 = new int[][] 
    {
    };

    static private int[][] Mix1 = new int[][] 
    {
    };

    static private int[][] Mix2 = new int[][] 
    {
        new int[] {0,1}, 
        new int[] {1,0}
    };

    static private int[][] Mix3 = new int[][]
    {
        new int[] {0,1}, 
        new int[] {0,2},
        new int[] {1,0}, 
        new int[] {1,2},
        new int[] {2,0}, 
        new int[] {2,1}
    };

    static private int[][] Mix4 = new int[][] 
    {
        new int[] {0,1}, 
        new int[] {0,2},
        new int[] {0,3},
        new int[] {1,0}, 
        new int[] {1,2},
        new int[] {1,3},
        new int[] {2,0}, 
        new int[] {2,1},
        new int[] {2,3},
        new int[] {3,0}, 
        new int[] {3,1},
        new int[] {3,2}
    };

    static private int[][] Mix5 = new int[][] 
    {
        new int[] {0,1}, 
        new int[] {0,2},
        new int[] {0,3},
        new int[] {0,4},
        new int[] {1,0}, 
        new int[] {1,2},
        new int[] {1,3},
        new int[] {1,4},
        new int[] {2,0}, 
        new int[] {2,1},
        new int[] {2,3},
        new int[] {2,4},
        new int[] {3,0}, 
        new int[] {3,1},
        new int[] {3,2},
        new int[] {3,4},
        new int[] {4,0}, 
        new int[] {4,1},
        new int[] {4,2},
        new int[] {4,3}
    };

    static private int[][] Mix6 = new int[][] 
    {
        new int[] {0,1}, 
        new int[] {0,2},
        new int[] {0,3},
        new int[] {0,4},
        new int[] {0,5},
        new int[] {1,0}, 
        new int[] {1,2},
        new int[] {1,3},
        new int[] {1,4},
        new int[] {1,5},
        new int[] {2,0}, 
        new int[] {2,1},
        new int[] {2,3},
        new int[] {2,4},
        new int[] {2,5},
        new int[] {3,0}, 
        new int[] {3,1},
        new int[] {3,2},
        new int[] {3,4},
        new int[] {3,5},
        new int[] {4,0}, 
        new int[] {4,1},
        new int[] {4,2},
        new int[] {4,3},
        new int[] {4,5}, 
        new int[] {5,0},
        new int[] {5,1},
        new int[] {5,2},
        new int[] {5,3},
        new int[] {5,4}
    };

    static private int[][][] AllMix = {Mix0, Mix1, Mix2, Mix3, Mix4, Mix5, Mix6 };

    public PossibleExpression()
    {

    }

    /// <summary>
    /// Evaluate all the possibility to reach the total with this numbers
    /// </summary>
    /// <param name="Numbers"></param>
    /// <param name="total"></param>
    private void Evaluate(Number[] Numbers, int total)
    {
        mNbEvaluate++;

        if (Numbers.Length == 1)
        {
            int absValue = Math.Abs(Numbers[0].Value - total);

            // if the abolute value is less then the one before
            if (absValue < mAbsValue)
            {
                mAbsValue = absValue;
            }

            // if it was the right absolute value store the ValueString and the Value in the SolutionHashtable
            if (mAbsValue == absValue)
            {
                string valueString = Numbers[0].ValueString.ToString();
                if (mSolutionHashtable.ContainsKey(valueString) == false)
                {
                    mSolutionHashtable.Add(valueString, Numbers[0].Value);
                }
            }
        }
        else
        {
            {
                // we prepare to call back the function with a smaller array size
                Number[] NextNumbers = new Number[Numbers.Length - 1];

                {
                    // allocate Number for this new array
                    int i = 0;
                    while (i < NextNumbers.Length)
                    {
                        NextNumbers[i] = new Number();
                        i++;
                    }
                }

                // get the right Mix Array
                int[][] Mix = AllMix[Numbers.Length];

                // for all the possible Mix
                int indexMixOperand = 0;
                while (indexMixOperand < Mix.Length)
                {
                    // copy all the numbers that was not in the Mix index
                    if ((Numbers.Length - 1 > 1))
                    {
                        int indexNextNumbers = 1;     // we kept the index 0 for the Mix result
                        int i = 0;
                        while (i < Numbers.Length)
                        {
                            if ((i != Mix[indexMixOperand][0])
                                && (i != Mix[indexMixOperand][1]))
                            {
                                NextNumbers[indexNextNumbers++] = Numbers[i];
                            }
                            i++;
                        }
                    }

                    // for all the operators
                    for (int indexOperator = 0; indexOperator < 4; indexOperator++)
                    {
                        // set the number 0  to the total of the expression composed of this two number and operator
                        if (NextNumbers[0].Set(Numbers[Mix[indexMixOperand][0]], Numbers[Mix[indexMixOperand][1]], indexOperator) == true)
                        {
                            // call to evaluate
                            Evaluate(NextNumbers, total);
                        }
                        //next operator
                    }

                    // next MixPermutation
                    indexMixOperand++;
                }
            }
        }
    }

    public bool Find(int[] numbers, int total)
    {
        if( numbers.Length == 6)
        {
            mStartDateTime = DateTime.Now;

            mSolutionHashtable = new Hashtable();
            mNbEvaluate = 0;
            mAbsValue = int.MaxValue;

            Number[] Numbers = new Number[6];
            Numbers[0] = new Number();
            Numbers[1] = new Number();
            Numbers[2] = new Number();
            Numbers[3] = new Number();
            Numbers[4] = new Number();
            Numbers[5] = new Number();

            Numbers[0].Set(numbers[0]);
            Numbers[1].Set(numbers[1]);
            Numbers[2].Set(numbers[2]);
            Numbers[3].Set(numbers[3]);
            Numbers[4].Set(numbers[4]);
            Numbers[5].Set(numbers[5]);

            foreach (int[] index in m_Index)
            {
                Number[] CurrentNumbers = new Number[index.Length];

                for (int i = 0; i < index.Length; i++)
                {
                    CurrentNumbers[i] = Numbers[index[i]];
                }
                Evaluate(CurrentNumbers, total);
            }

            mEndDateTime = DateTime.Now;
            mTimeSpan = mEndDateTime - mStartDateTime;
        }

        return (numbers.Length == 6);
    }
}

using System.Text;

/// <summary>
/// allways have the value and the Value in String format
/// </summary>
public class Number
{

    // the int value
    public int Value = 0;

    // the string value
    public StringBuilder ValueString = new StringBuilder(40);

    // the operator
    public int m_Operator = -1;


    /// <summary>
    /// Set the value
    /// </summary>
    /// <param name="value"></param>
    public void Set(int value)
    {
        Value = value;
        ValueString.Clear();
        ValueString.Append(value);
    }

    /// <summary>
    /// Build the Value String depending on the operand and the operator
    /// </summary>
    /// <param name="Operande1"></param>
    /// <param name="Operande2"></param>
    /// <param name="Operator"></param>
    private void BuildValueString(Number Operande1, Number Operande2, int Operator)
    {
        ValueString.Clear();

//        int Operande1OperatorFamily = Operande1.m_Operator / 2;
//        int Operande2OperatorFamily = Operande2.m_Operator / 2;
//        int OperatorFamily = Operator / 2;

        if ((Operande1.m_Operator != -1)
            //                && (    (Operande1OperatorFamily != OperatorFamily)
            //                   || (Operator == 1)
            //                 || (Operator == 2)
            //               || (Operator == 3)
            //             )
            )
        {
            ValueString.Append("(");
        }

        ValueString.Append(Operande1.ValueString);

        if ((Operande1.m_Operator != -1)
            //                && ((Operande1OperatorFamily != OperatorFamily)
            //                     || (Operator == 1)
            //                    || (Operator == 2)
            //                   || (Operator == 3)
            //            )
            )
        {
            ValueString.Append(")");
        }

        switch (Operator)
        {
            case 0:
                ValueString.Append(" + ");
                break;
            case 1:
                ValueString.Append(" - ");
                break;
            case 2:
                ValueString.Append(" * ");
                break;
            case 3:
                ValueString.Append(" / ");
                break;
        }

        if ((Operande2.m_Operator != -1)
            //              && (  (Operande2OperatorFamily != OperatorFamily)
            //                 || (Operator == 1)
            //               || (Operator == 2)
            //             || (Operator == 3)
            //          )
            )
        {
            ValueString.Append("(");
        }

        ValueString.Append(Operande2.ValueString);

        if ((Operande2.m_Operator != -1)
            //                && ((Operande2OperatorFamily != OperatorFamily)
            //                   || (Operator == 1)
            //                 || (Operator == 2)
            //               || (Operator == 3)
            //            )
            )
        {
            ValueString.Append(")");
        }
    }

    /// <summary>
    /// Set the number for these operands and operator
    /// </summary>
    /// <param name="Operande1"></param>
    /// <param name="Operande2"></param>
    /// <param name="Operator"></param>
    /// <returns></returns>
    public bool Set(Number Operande1, Number Operande2, int Operator)
    {
        bool returnValue = true;
        m_Operator = Operator;

        Value = Operande1.Value;

        switch (Operator)
        {
            case 0:
                Value += Operande2.Value;
                BuildValueString(Operande1, Operande2, Operator);
                break;
            case 1:
                Value -= Operande2.Value;
                BuildValueString(Operande1, Operande2, Operator);
                break;
            case 2:
                Value *= Operande2.Value;
                BuildValueString(Operande1, Operande2, Operator);
                break;
            case 3:
                if ((Operande2.Value != 0)
                    && (Value % Operande2.Value) == 0)
                {
                    Value /= Operande2.Value;
                    BuildValueString(Operande1, Operande2, Operator);
                }
                else
                {
                    returnValue = false;
                }
                break;
        }

        return returnValue;
    }
}
share|improve this question
3  
Welcome to StackOverflow. This question (well-written) is better suited for and will probably receive better answers on codereview.stackexchange.com. I've flagged it so that a moderator can decide if it should be moved for you. –  Tim Medora Mar 28 '13 at 18:36
    
This question might be of interest to you: math.stackexchange.com/questions/631/is-the-24-game-np-complete –  Eric Lippert Mar 28 '13 at 19:25
    
I think your biggest problem is that you are calculating about three times too many expressions. You say there are 105164223 possible expressions, but I make it at 30965760 -- the sixth Catalan number -- 42 -- gives the number of parenthesizations, and then there are 6! orderings and 4^5 choices of operator. Multiply those together and you get 30965760. –  Eric Lippert Mar 28 '13 at 19:35
    
Oh, wait, never mind. I missed the fact that you are allowing expressions with 1, 2, 3, 4, 5 or 6 terms. –  Eric Lippert Mar 28 '13 at 19:36
    
You also might be interested in this series of articles; you are essentially generating all the one-through-six node binary trees: blogs.msdn.com/b/ericlippert/archive/2010/04/19/… –  Eric Lippert Mar 28 '13 at 23:02
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closed as off topic by dcp, 500 - Internal Server Error, Hanlet Escaño, Andrew Barber Mar 28 '13 at 18:39

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