Stack Overflow is a community of 4.7 million programmers, just like you, helping each other.

Join them; it only takes a minute:

Sign up
Join the Stack Overflow community to:
  1. Ask programming questions
  2. Answer and help your peers
  3. Get recognized for your expertise

I'm currently building a semi-complicated calculator which is basically a conversion from an Excel spreadsheet I've been provided.

I've nailed most of it but there's a part in the Excel spreadsheet where multiple calculations occur between 6 rows and 7 columns, but the issue is that the calculations happen in no particular order what-so-ever.

So for example, Row0[Column1] is calculated using (Row2[Column4] * Row2[Column5]) and Row1[Column4] is calculated using (Row4[Column2] / Row5[Column1]) and so forth.. you get the idea.

I've thought about using a 2D array, but am afraid that the values will calculate in a particular order, thus having no value when they are reached. As far as I'm aware, Row1 will be calculated first, then Row2, Row3, etc.

So, without creating a variable for each cell in my excel spreadsheet (and ordering it appropriately), is there a way I can calculate this using C#?

I would really appreciate any help, advice, pointers, whatever you think may be possible - I'd love to hear it!

EDIT After implementing the Lazy class provided by @dtb, I've got the following code. It's a straight copy of what's in the Excel spreadsheet I've been provided, including pointers & calculations.

var sr = new Lazy<decimal>[6, 6];
sr[0, 0] = new Lazy<decimal>(() => sr[1, 0].Value - eNumber);
sr[0, 3] = new Lazy<decimal>(() => sr[0, 4].Value - sr[1, 0].Value - sr[1, 4].Value);
sr[0, 4] = new Lazy<decimal>(() => sr[0, 0].Value * edD);
sr[0, 5] = new Lazy<decimal>(() => sr[0, 0].Value);

sr[1, 0] = new Lazy<decimal>(() => sr[1, 5].Value);
sr[1, 4] = new Lazy<decimal>(() => sr[1, 0].Value * edD);
sr[1, 5] = new Lazy<decimal>(() => sr[2, 0].Value + sr[2, 5].Value);

sr[2, 0] = new Lazy<decimal>(() => eNumber * rRate);
sr[2, 4] = new Lazy<decimal>(() => sr[2, 0].Value * hdD);
sr[2, 5] = new Lazy<decimal>(() => sr[1, 5].Value);

sr[3, 1] = new Lazy<decimal>(() => sr[2, 5].Value);

sr[4, 2] = new Lazy<decimal>(() => eNumber * (ePc / 100) + sr[2, 0].Value * (hlPc / 100) - sr[3, 1].Value);

sr[5, 0] = new Lazy<decimal>(() => (sr[0, 0].Value + sr[1, 0].Value + sr[2, 0].Value) / ePerR);
sr[5, 2] = new Lazy<decimal>(() => sr[5, 0].Value / rLifecycle);
sr[5, 4] = new Lazy<decimal>(() => sr[5, 2].Value);
sr[5, 5] = new Lazy<decimal>(() => sr[5, 0].Value + sr[5, 2].Value - sr[5, 4].Value);

However I get the following error
ValueFactory attempted to access the Value property of this instance.

Googling the error has returned a bunch of spammy search type websites.

Marko

share|improve this question
    
What kind of error is it? A compiler error or an exception? Did you enhance the Lazy class to do circular dependency detection by any chance? Because there's one in your definitions: sr[1,5] is defined in terms of sr[2,5] and vice versa. – dtb Sep 15 '10 at 0:28
    
Hi @dtb - the project compiles but I get an Exception. I've resorted to using .NET 4 for the time being (until I get it working in the original class). By the way, I'm not sure how to extend the class for Circular Dependencies, that's (quite) a bit outside my knowledge scope. – Marko Sep 15 '10 at 0:32
    
Then you've just encountered the circular dependency detection of the .NET 4.0 Lazy class. You can implement it yourself by setting valueCreated to 1 before calling valueFactory, to 2 after, and by throwing an exception if Value is called and valueCreated is 1... Double check if there's really a circular definition in your excel sheet. If there is, post a new question with the excel formulas and ask how to calculate the fix-point in C#. But I suspect you've got a typo in your code. – dtb Sep 15 '10 at 0:45
    
I've triple checked the code and that's exactly what's in the spreadsheet, so that means that I do need to implement the circular dependency? Shall I ask a new question about that? – Marko Sep 15 '10 at 0:55
    
If there is a circular dependency then my approach using Lazy does not work. Ask a new question with the exact set of excel formulas. Include the word "fixed point" and a link to this question. :-) – dtb Sep 15 '10 at 0:59
up vote 6 down vote accepted

Have a look at Lazy Evaluation:

var table = new Lazy<int>[2, 2];

table[0, 0] = new Lazy<int>(() => table[1, 1].Value * 2);
table[0, 1] = new Lazy<int>(() => 42);
table[1, 0] = new Lazy<int>(() => 100);
table[1, 1] = new Lazy<int>(() => table[0, 1].Value + table[1, 0].Value);

for (int i = 0; i < 2; i++)
for (int j = 0; j < 2; j++)
{
    Console.WriteLine("Row = {0}  Column = {1}  Value = {2}",
                             i,            j,           table[i, j].Value);
}

Note how the content of the table cells are defined in arbitrary order. It figure out the order itself, as long as there are no circular dependencies between cells.

Output:

Row = 0  Column = 0  Value = 284
Row = 0  Column = 1  Value = 42
Row = 1  Column = 0  Value = 100
Row = 1  Column = 1  Value = 142

It becomes slightly more readable with LINQ-to-Lazy:

var table = new Lazy<int>[2, 2];

table[0, 0] = from t in table.AsLazy()
              from x in t[1, 1]
              select 2 * x;
table[0, 1] = 42.AsLazy();
table[1, 0] = 100.AsLazy();
table[1, 1] = from t in table.AsLazy()
              from a in t[0, 1]
              from b in t[1, 0]
              select a + b;

using

static class LazyExtensions
{
    public static Lazy<TResult> SelectMany<TSource, TCollection, TResult>(this Lazy<TSource> source, Func<TSource, Lazy<TCollection>> collectionSelector, Func<TSource, TCollection, TResult> resultSelector)
    {
        return new Lazy<TResult>(() => resultSelector(source.Value, collectionSelector(source.Value).Value));
    }

    public static Lazy<TSource> AsLazy<TSource>(this TSource value)
    {
        return new Lazy<TSource>(() => value);
    }
}

Custom replacement for .NET 4.0's Lazy<T> Class:

sealed class MyLazy<T>
{
    private readonly Func<T> valueFactory;
    private T value;
    private bool valueCreated;

    public MyLazy(Func<T> valueFactory)
    {
        if (valueFactory == null)
        {
            throw new ArgumentNullException("valueFactory");
        }
        this.valueFactory = valueFactory;
    }

    public bool IsValueCreated
    {
        get { return this.valueCreated; }
    }

    public T Value
    {
        get
        {
            if (!this.valueCreated)
            {
                this.value = this.valueFactory();
                this.valueCreated = true;
            }
            return this.value;
        }
    }
}
share|improve this answer
    
is Lazy a custom class? I'm using WPF (.NET 3.5) and Lazy doesn't exist. – Marko Sep 14 '10 at 21:45
    
Lazy<T> is new in the .NET Framework 4.0. You should be able to build a custom replacement pretty easily if you're stuck with 3.5. – dtb Sep 14 '10 at 21:49
    
Yeah I'm stuck with 3.5 on this one :( I'm trying now with the custom one you've provided. – Marko Sep 14 '10 at 21:56
    
Hi @dtb - I've implemented the solution - however I get an error ValueFactory attempted to access the Value property of this instance. Please see my edit – Marko Sep 14 '10 at 23:09

Marko, I think the best way is for you to map out the relationships between these cells. If this question is about the order in which Excel would do it, I can point you to here: http://msdn.microsoft.com/en-us/library/bb687891.aspx

share|improve this answer

The lazy solution shown above is the most elegant, with one caveat which I'll mention below.

Plan A

You can code up your own version of Lazy<T> pretty easily (this is untested code):

class Lazy<T> {
  private bool IsEvaluated;
  private T Value;
  private Func<T> Suspension;
  public Lazy<T>(Func<T> susp) { Suspension = susp; }
  public static implicit operator T(Lazy<T> thunk) {
    if (thunk.IsEvaluated) {
      return thunk.Value;
    }
    thunk.Value = thunk.Suspension();
    thunk.IsEvaluated = true;
    return thunk.Value;
  }
}

Of course, you'll need to define overloaded arithmetic operators as well.

Plan B

Another way of tackling your problem is to sort your cells into increasing dependency order (where cell A depends on cell B if A contains a formula that uses B, directly or indirectly) and evaluate them in that order.

Caveat

If your dependencies contain a cycle then neither of these approaches is guaranteed to work since you will need to evaluate to a fixed point. In that case you probably need something like Plan B, but first break your dependency graph into strongly connected components (there is a good answer on SCCs on this site).

Hope this helps.

share|improve this answer

Your Answer

 
discard

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.