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I have a 150mb file. Each line is made up of the same format eg/

I,h,q,q,3,A,5,Q,3,[,5,Q,8,c,3,N,3,E,4,F,4,g,4,I,V,9000,0000001-100,G9999999990001800000000000001,G9999999990000001100PDNELKKMMCNELRQNWJ010, , , , , , ,D,Z,

I have a Dictionary<string, List<string>>

It is populated by opening the file, reading each line, taking elements from the line and adding it to the dictionary, then the file is closed.

StreamReader s = File.OpenText(file);
 string lineData = null;
 while ((lineData = s.ReadLine()) != null)
 {
   var elements = lineData.Split(',');
   var compareElements = elements.Take(24);
   FileData.Add(elements[27], new List<string>(compareElements));

  }
  s.Close();

Using the method in this answer I calculated my dictionary to be 600mb. That's 4 times what the file is.

Does that sound correct?

share|improve this question
    
What is your file's encoding? – Paolo Moretti Nov 9 '11 at 13:18
1  
While not directly related to your problem, you should make sure to dispose of anything that implements IDisposable. In your case, instead of just calling s.Close() you should call s.Dispose() or wrap the StreamReader in a using-block. – Kevin Wienhold Nov 9 '11 at 13:19
    
Thanks Kevin, I assume the same applies to StreamWriter – Jon Nov 9 '11 at 13:21
    
@Jon: Yes, it also applies to StreamWriter. One of my most desired features for Visual Studio in the future is some form of highlighting for types that implement IDisposable, so far, your best bet is to see whether a given class has a Dispose() method. – Kevin Wienhold Nov 9 '11 at 13:33
up vote 1 down vote accepted

Most of these entities take only a single character, yet you are storing them as strings. The reference pointer to those string alone is going to take at least twice as much space (in case of UTF8 likely 4-8 times as much). Then there is the overhead of keeping a hash table structured for the dictionary.

The List<> in itself should be really efficient storage wise (it uses an array internally)

Room for improvement:

  • you could use List<char> or char[] instead of List<string> if you know that the fields will fit
  • you could use struct Field { char a,b/*,...*/; } and List instead of List if you need more than 1 character per field
  • You could forgo the eager field extraction [<-- recommended]:

     var dict = File.ReadAllLines(file)
          .ToDictionary(line => line.Split(',')[27]);
    

    This gives you the opportunity to access the compareElements on demand:

     string[] compareElements = dicts["key27"].Split(',')/*.Take(24).ToArray()*/;
    

    This is a classic example of runtime/storage cost trade-off

Edit an obvious hybrid would be:

struct AllCompareElements
{
     public char field1, field2, ... field24;
     // perhaps:
     public char[2] field13; // for the exceptional field that is longer than 1 character
}

Happily employ Resharper to implement Equals, GetHashCode, IEquatable<AllCompareElements>, IComparable<AllCompareElements>

share|improve this answer
    
If I used char[] I would have to remove the commas. Not a problem, just saying but its an overhead and the string.Split is doing it for me already – Jon Nov 9 '11 at 13:28
    
@Jon: You missed the point. I meant store the result of split in List<char>, not List<string>: line.Split(',').Take(24).Select(s => s[0]);. Not only is a char usually smaller than a string, most importantly, char is a ValueType, string is a reference type. Especially when storing valuetypes in a generic List<> the storage requirements get drastically optimized. – sehe Nov 9 '11 at 13:31
    
I'll look into that. I don't see the benefit of doing the ReadAllLines as I only need to store the 24 in the dictionary so your example would have me then find the item in the dictionary and then replace the contents – Jon Nov 9 '11 at 13:39
    
@Jon: huh? ReadAllLines is just shorter for your own while loop. Note that you take the first 24 of 'compare elements' (commadelimited fields out of split), not of the lines in the input file? – sehe Nov 9 '11 at 13:52
    
The reason I do a Take(24) is because I use the dictionary in another part of the program and only need those 24 elements – Jon Nov 9 '11 at 14:00

Apart from the fact that the method is not very reliable, in your case there is an even greater overhead. Did you notice that each iteration of your loop creates a new instance of the elements array, the lineData string, and the elements.Take also has some internal variables that get created on each call? Since you probably have enough RAM, the .NET garbage collector doesn't bother collecting them, so when you measure the TotalMemory before and after the loop, you also measure all these variables, not only your dictionary, although it might be the only thing that remains in scope afterwards.

share|improve this answer
    
Good point about elements. That can be moved out of the while loop. What would you do with lineData? – Jon Nov 9 '11 at 13:31
    
What? No, you can't move it out of the loop! On each call of Split() produces a new array; it doesn't matter that you assign it to the same variable. The old array doesn't get thrown out of the memory until the Garbage Collector decides it's time to do cleaning up. The same goes about lineData - each call to ReadLine() produces a new string instance. And there's no way around it. – Vilx- Nov 9 '11 at 13:35
    
There is little provable relation between the size of BinaryFormatter output and the size when stored on the heap. If anything, I wouldn't be surprised if binary serialization of List<string> turned out an order of magnitude more compact than the inmemory representation. – sehe Nov 9 '11 at 13:37
    
@Vilx- the garbage collector will bother/doesn't have to bother, that's what generation 0 heap is for. – sehe Nov 9 '11 at 13:38
    
OK, removed the remark about BinaryFormatter. True. Anyways, GC won't bother until you start running out of RAM, or it gets bored, or whatever. But most likely it won't start collecting stuff right after you leave your loop. – Vilx- Nov 9 '11 at 13:40

Yes, because you are turning chars into string pointers, which are 4 or 8 bytes each.

share|improve this answer

I assume your file is encoded UTF-8 and contains mostly ASCII. strings in C# are UTF-16 though, so that explains most of the size difference right there (factor of 2). There is also some overhead for data structures of course.

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If your file is encoded in ANSI or UTF-8 (but without special characters then size is same as ANSI) (each char 1 byte) and string - "Represents text as a series of Unicode characters." (Unicode = UTF-16, each char 4 bytes) it's 4 times more.

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That's 600M was allocated by the operation of loading the file into the dictionary... Suggests it's an expensive operation, and it could be useful in guaging how effective any optimisation might be, but for how much memory the dictionary takes up, fairly useless.

I'd defer the splitting as suggested by sehe straight off.

Looks to me like you've preamturely optimised for speed and that's cost you big style on memory foot print.

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