I want some advise on the best way to store and access with minimum memory footprint and maximum access performance.

Eg. for each vehicle make i want to store model and name.

i have some thoughts below:

Option 1:

Dictionary<string, Dictionary<string, string>> values = new Dictionary<string, Dictionary<string, string>>();
Dictionary<string, string> list = new Dictionary<string, string>();
list.Add("2001", "Jetta S");
list.Add("2002", "Jetta SE");
list.Add("2002", "Jetta LE");
values.Add("VolksWagen", list);

Option 2:

Dictionary<string, List<KeyValuePair<string, string>>> values2 = new Dictionary<string, List<KeyValuePair<string, string>>>();
<pre lang="xml">List<KeyValuePair<string, string>> list2 = new List<KeyValuePair<string, string>>();
list2.Add(new KeyValuePair<string, string>("2001", "Jetta S"));
list2.Add(new KeyValuePair<string, string>("2002", "Jetta SE"));
list2.Add(new KeyValuePair<string, string>("2002", "Jetta LE"));
values2.Add("VolksWagen", list2);

Option 3:

Dictionary<string, List<string>> values1 = new Dictionary<string, List<string>>();
List<string> list1 = new List<string>();
list1.Add("2001:Jetta S");
list1.Add("2002:Jetta SE");
list1.Add("2002:Jetta LE");
values1.Add("VolksWagen", list1);
  • Option 1: faster access of make and name but most memory footprint
  • Option 2: fast access of make and name but more memory footprint
  • Option 3: slow access of make and name (would have to parse it) but less memory footprint

there would be more than 1500 dictionaries like above.

Any suggestions for fastest access but less memory footprint is appreciated?


  • 13
    "with minimum memory footprint and maximum access performance." - they are usually opposite constraints (time versus space) – Mitch Wheat Feb 16 '11 at 8:08
  • 8
    Won't option 1 just throw an exception for duplicate keys? – Shurdoof Feb 16 '11 at 8:11
  • How often are these lists updated? – The Scrum Meister Feb 16 '11 at 8:12
  • Personally I like simple and readable code, unless the code is too slow to run that I'm forced to face the performance issue. I think everyone saw List<KeyValuePair<K,V>> would feel a little weird. – Danny Chen Feb 16 '11 at 8:14
  • will suggest to create a struct for encapsulating year and make - performance will same as that of KeyValuePair but code would be far more readable. – VinayC Feb 16 '11 at 8:28

SortedList<TKey,TValue> is a flat list (so no huge increase in memory footprint), that uses binary-search for access - so O(log(n)) - so not as fast as Dictionary<TKey,TValue> at O(1) - but much better than a List<T> (or other linear search) at O(n).

If you want fastest access, you need to use extra memory for a hash-table.

As a side-note, SortedList<TKey,TValue> also allows efficient access by int index, which is hard for SortedDictionary<TKey,TValue>, and virtually meaningless for Dictionary<TKey,TValue>.

Obviously in your scenario you may need to combine SortedList<,> with either nesting or a composite key - but IMO that is going to be your best route for getting a balance of memory and accessor-performance. You could use a dedicated composite key, i.e. an iummutable struct with the composite key members, overriding GetHashCode() and Equals, implementing IEquatable<T>, and for sorting: implementing IComparable and IComparable<T>.

You shouldn't choose your data structure primarily by memory "footprint" but by access pattern: What are the most frequent lookups you want to do, how often the structure will be updated and so on.

If you want to fill the structure once and then look up the cars by make and construction year, the first approach seems most reasonable (and readable/understandable).

Btw, given the fact that multiple models can be released in one year, you should probably use a Dictionary<string, Dictionary<string, List<string>>>. And if it's really years that you want to store, you shouldn't use strings as keys but Int16 instead.

You can use a Dictionary with NameValueCollection:

var values = new Dictionary<string, NameValueCollection>();
NameValueCollection list = new NameValueCollection();
list.Add("2001", "Jetta S");
list.Add("2002", "Jetta SE");
list.Add("2002", "Jetta LE");
values.Add("VolksWagen", list);

Or with collection Initializers:

var values = new Dictionary<string, NameValueCollection> 
        { "VolksWagen", new NameValueCollection 
                { "2001", "Jetta S" }, 
                { "2002", "Jetta SE" }, 
                { "2002", "Jetta LE" } 

Although I am no expert on memory footprint, IMHO this will provide you the best access pattern in this particular scenario.

When speaking about access in data structures, it's important to understand the difference between read access and write access. As for the dictionary, you will get O(1) access to value by key time, but O(log(n)) write time, if i'm not mistaken. Whe using plain lists, it is always O(1) to add, but it is O(n) to access data. As for memory footprint, it is pretty much the same: O(n) in the worst case.

How many values do you need to store/access? According to your code samples,

Option 1: is inappropriate:

list.Add("2002", "Jetta SE");
list.Add("2002", "Jetta LE");

Keys must be unique, so

Option 2: Dictionary<string, List<KeyValuePair<string, string>>> is what you need.

  • The O(1) to add assumes you are adding to the end; insert can be expensive for array-based lists (much better for linked-lists, obviously) – Marc Gravell Feb 16 '11 at 8:25
  • Re the footprint - if the OP's aim is to reduce a memory footprint, a flat O(n) may be true but unhelpful; with implementations A and B, A could take 5000 times as much space as B, and still both would be O(n) – Marc Gravell Feb 16 '11 at 8:27
  • @Marc, i've edited my post, added "in the worst case". As for write time, insert doesn't have to be expensive if you keep last index, then just use it. Of course, we should discuss reallocation here, but it doesn't matter in a context of the question :) – Ilya Smagin Feb 16 '11 at 8:30

Your Answer


By clicking "Post Your Answer", you acknowledge that you have read our updated terms of service, privacy policy and cookie policy, and that your continued use of the website is subject to these policies.

Not the answer you're looking for? Browse other questions tagged or ask your own question.