Dismiss
Announcing Stack Overflow Documentation

We started with Q&A. Technical documentation is next, and we need your help.

Whether you're a beginner or an experienced developer, you can contribute.

Sign up and start helping → Learn more about Documentation →

I've written a wrapper class around a 3rd party library that requires properties to be set by calling a Config method and passing a string formatted as "Property=Value"

I'd like to pass all the properties in a single call and process them iteratively.

I've considered the following:

  • creating a property/value class and then creating a List of these objects
  • building a string of multiple "Property=Value" separating them with a token (maybe "|")
  • Using a hash table

All of these would work (and I'm thinking of using option 1) but is there a better way?

A bit more detail about my query:

The finished class will be included in a library for re-use in other applications. Whilst I don't currently see threading as a problem at the moment (our apps tend to just have a UI thread and a worker thread) it could become an issue in the future.

Garbage collection will not be an issue.

Access to arbitrary indices of the data source is not currently an issue.

Optimization is not currently an issue but clearly define the key/value pairs is important.

share|improve this question
    
Have you considered a Dictionary<key, value>? – Roger Stewart Sep 1 '11 at 14:11
up vote 1 down vote accepted

As you've already pointed out, any of the proposed solutions will accomplish the task as you've described it. What this means is that the only rational way to choose a particular method is to define your requirements:

  • Does your code need to support multiple threads accessing the data source simultaneously? If so, using a ConcurrentDictionary, as Yahia suggested, makes sense. Otherwise, there's no reason to incur the additional overhead and complexity of using a concurrent data structure.
  • Are you working in an environment where garbage collection is a problem (for example, an XNA game)? If so, any suggestion involving the concatenation of strings is going to be problematic.
  • Do you need O(1) access to arbitrary indices of the data source? If so, your third approach makes sense. On the other hand, if all you're doing is iterating over the collection, there's no reason to incur the additional overhead of inserting into a hashtable; use a List<KeyValuePair<String, String>> instead.
  • On the other hand, you may not be working in an environment where the optimization described above is necessary; the ability to clearly define the key/value pairs programatically may be more important to you. In which case using a Dictionary is a better choice.

You can't make an informed decision as to how to implement a feature without completely defining what the feature needs to do, and since you haven't done that, any answer given here will necessarily be incomplete.

Given your clarifications, I would personally suggest the following:

  • Avoid making your Config() method thread-safe by default, as per the MSDN guidelines:

    By default, class libraries should not be thread safe. Adding locks to create thread-safe code decreases performance, increases lock contention, and creates the possibility for deadlock bugs to occur.

  • If thread safety becomes important later, make it the caller's responsibility.

  • Given that you don't have special performance requirements, stick with a dictionary to allow key/value pairs to be easily defined and read.

  • For simplicity's sake, and to avoid generating lots of unnecessary strings doing concatenations, just pass the dictionary in directly and iterate over it.

Consider the following example:

var configData = new Dictionary<String, String>
configData["key1"] = "value1";
configData["key2"] = "value2";
myLibraryObject.Config(configData);

And the implementation of Config:

public void Config(Dictionary<String, String> values)
{
    foreach(var kvp in values)
    {
        var configString = String.Format("{0}={1}", kvp.Key, kvp.Value);
        // do whatever
    }
}
share|improve this answer
    
All very good points. The question was more of a general question as I hadn't realised it would throw up so many other questions. I will add more detail. – TeamWild Sep 1 '11 at 14:49
    
As I'm forced into passing the values as strings would it make sense to using a StringDictionary over a Dictionary<string,string>? – TeamWild Sep 1 '11 at 15:46
    
That depends; StringDictionary is functionally different than Dictionary. To quote MSDN, in StringDictionary, "the key is handled in a case-insensitive manner; it is translated to lowercase before it is used with the string dictionary." In a standard Dictionary, "key" and "KEY" are distinct values. So again, it comes down to your requirements. – Cole Campbell Sep 1 '11 at 17:36
    
The properties of the 3rd party component need to be specified as case sensitive so I have had to use the Dictionary<String, String> object. Thanks for all your help. – TeamWild Sep 2 '11 at 13:27

You could use Dictionary<string,string>, the items are then of type KeyValuePair<string,string> (this correpsonds to your first idea) You can then use myDict.Select(kvp=>string.Format("{0}={1}",kvp.Key,kvp.Value)) to get a list of strings with the needed formatting

share|improve this answer
    
I'd not seen the KeyValuePair structure before but now I have... I like it. :o) – TeamWild Sep 1 '11 at 14:20

Use for example a ConcurrentDictionary<string,string> - it is thread-safe and really fast since most operations are implemented lock-free...

share|improve this answer

You could make a helper class that uses reflection to turn any class into a Property=Value collection

public static class PropertyValueHelper
{
     public static IEnumerable<string> GetPropertyValues(object source)
     { 
          Type t = source.GetType();

          foreach (var property in t.GetProperties())
          {
               object value = property.GetValue(source, null);
               if (value != null)
               {
                    yield return property.Name + "=" + value.ToString();
               }
               else
               {
                    yield return property.Name + "=";  
               }
          }
     } 
}

You would need to add extra logic to handle enumerations, indexed properties, etc.

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.