Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

How could I make this code more generic in the sense that the Dictionary key could be a different type, depending on what the user of the library wanted to implement? For example someone might what to use the extension methods/interfaces in a case where there "unique key" so to speak for Node is actually an "int" not a "string" for example.

public interface ITopology
{
    Dictionary<string, INode> Nodes { get; set; } 
}

public static class TopologyExtns
{
    public static void AddNode(this ITopology topIf, INode node)
    {
        topIf.Nodes.Add(node.Name, node);
    }
    public static INode FindNode(this ITopology topIf, string searchStr)
    {
        return topIf.Nodes[searchStr];
    }
}

public class TopologyImp : ITopology
{
    public Dictionary<string, INode> Nodes { get; set; }

    public TopologyImp()
    {
        Nodes = new Dictionary<string, INode>();
    }
}
share|improve this question
add comment

3 Answers 3

up vote 6 down vote accepted

Make the interface generic, then use a Func<INode,T> as a selector for the key. This assumes that you want the key for the dictionary to be extracted from the node. If this isn't a hard requirement, then you could specify the key itself using the generic type specifier in the signature.

public interface ITopology<T>
{ 
    Dictionary<T, INode> Nodes { get; set; }  
} 

public static class TopologyExtns 
{ 
    public static void AddNode<T>(this ITopology<T> topIf, INode node, Func<INode,T> keySelector ) 
    { 
        topIf.Nodes.Add( keySelector(node), node ); 
    } 
    public static INode FindNode<T>(this ITopology<T> topIf, T searchKey ) 
    { 
        return topIf.Nodes[searchKey]; 
    } 
} 

public class TopologyImp<T> : ITopology<T> 
{ 
    public Dictionary<T, INode> Nodes { get; set; } 

    public TopologyImp() 
    { 
        Nodes = new Dictionary<T, INode>(); 
    } 
}

You might also consider making INode a generic type. That would allow you to specify the Key as a property of the generic type which the implementation could defer to the appropriate "real" key. This would save you from having to supply either the key or a selector for the extension method.

Alternative:

public interface INode<T>
{
     T Key { get; }
     string Name { get; set; }
     int ID { get; set; }
}

public class StringNode : INode<string>
{
    public string Key { get { return this.Name; } }
    public string Name { get; set; }
    public int ID { get; set; }
}

public interface ITopology<T> 
{  
    Dictionary<T, INode<T>> Nodes { get; set; }   
}  

public static class TopologyExtns  
{  
    public static void AddNode<T>(this ITopology<T> topIf, INode<T> node )  
    {  
        topIf.Nodes.Add( node.Key, node );  
    }  
    public static INode<T> FindNode<T>(this ITopology<T> topIf, T searchKey )  
    {  
        return topIf.Nodes[searchKey];  
    }  
}  

public class TopologyImp<T> : ITopology<T>  
{  
    public Dictionary<T, INode<T>> Nodes { get; set; }  

    public TopologyImp()  
    {  
        Nodes = new Dictionary<T, INode<T>>();  
    }  
}

Used as:

var topology = new TopologyImp<string>();
topology.AddNode( new StringNode { Name = "A", ID = 0 }  );
var node = topology.FindNode( "A" );
share|improve this answer
add comment

Why not make your Topology Interface generic? I'm a little fuzzy on the extension methods myself, but this should be workable.

public interface ITopology<TKey> 
{ 
    Dictionary<TKey, INode> Nodes { get; set; }  
} 

public static class TopologyExtns 
{ 
    public static void AddNode<T>(this ITopology<T> topIf, T key, INode node) 
    { 
        topIf.Nodes.Add(key, node); 
    } 
    public static INode FindNode<T>(this ITopology<T> topIf, T searchObj) 
    { 
        return topIf.Nodes[searchObj]; 
    } 
} 


public class TopologyImp : ITopology<String> 
{ 

public TopologyImp() 
{ 
    Nodes = new Dictionary<String, INode>(); 
} 
}
share|improve this answer
add comment
public interface ITopology<T>
{
    Dictionary<T, INode> Nodes { get; set; } 
}

public static class TopologyExtns<T>
{
    public static void AddNode<T>(this ITopology<T> topIf, T key, INode node)
    {
        topIf.Nodes.Add(key, node);
    }
    public static INode FindNode<T>(this ITopology<T> topIf, T searchKey)
    {
        return topIf.Nodes[searchKey];
    }
}

public class TopologyImp<T> : ITopology<T>
{
    public Dictionary<T, INode> Nodes { get; set; }

    public TopologyImp()
    {
        Nodes = new Dictionary<T, INode>();
    }
}
share|improve this answer
    
TopologyExtns is wrong - ITopology is now generic, and you need to either make the extension method generic or the parameter reference specific. –  Matt Jordan May 6 '10 at 18:20
    
thanks @Matt, good catch. –  derek May 6 '10 at 18:29
add comment

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.