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I need a data structure with both named column and row. For example:

magic_data_table:

        col_foo col_bar
row_foo    1       3 
row_bar    2       4

I need to be able to access elements like magic_data_table["row_foo", "col_bar"] (which will give me 3)

I also need to be able to add new columns like:

magic_data_table.Columns.Add("col_new");
magic_data_table["row_foo", "col_new"] = 5;

AFAIK, DataTable only has named column...

EDIT: I don't need to change the name of a column or a row. However, I may need to insert new rows into the middle of the table.

share|improve this question
12  
Have a column for the names, then index that column - a Dictionary-string-DataRow should work fine – Marc Gravell Jun 27 '13 at 16:19
    
The question implies that the data will always have the same rows, is that right? An IDictionary<string, IDictionary<string, object>> would seem to work too. – Jodrell Jun 27 '13 at 16:23
up vote 4 down vote accepted

While you could use a Dictionary<string, Dictionary<string, T>> to do what you want, that wouldn't be particularly efficient in terms of memory, and would have the potential for the inner dictionaries to get out of sync. If you create your own data structure though that is a facade for lists, using dictionaries to map column names to indexes, then it's simple enough:

public class MyDataStructure<T>//TODO come up with better name
{
    private Dictionary<string, int> columns;
    private Dictionary<string, int> rows;
    private List<List<T>> data;

    public MyDataStructure(
            IEnumerable<string> rows,
            IEnumerable<string> columns)
    {
        this.columns = columns.Select((name, index) => new { name, index })
            .ToDictionary(x => x.name, x => x.index);

        this.rows = rows.Select((name, index) => new { name, index })
            .ToDictionary(x => x.name, x => x.index);

        initData();
    }

    private void initData()
    {
        data = new List<List<T>>(rows.Count);
        for (int i = 0; i < rows.Count; i++)
        {
            data.Add(new List<T>(columns.Count));
            for (int j = 0; j < columns.Count; j++)
            {
                data[i].Add(default(T));
            }
        }
    }

    public T this[string row, string column]
    {
        //TODO error checking for invalid row/column values
        get
        {
            return data[rows[row]][columns[column]];
        }
        set
        {
            data[rows[row]][columns[column]] = value;
        }
    }

    public void AddColumn(string column)
    {
        columns.Add(column, columns.Count);
        for (int i = 0; i < data.Count; i++)
        {
            data[i].Add(default(T));
        }
    }

    public void AddRow(string row)
    {
        rows.Add(row, rows.Count);
        var list = new List<T>(columns.Count);
        data.Add(list);
        for (int i = 0; i < columns.Count; i++)
        {
            list.Add(default(T));
        }
    }

    public bool RenameRow(string oldRow, string newRow)
    {
        if (rows.ContainsKey(oldRow) && !rows.ContainsKey(newRow))
        {
            this.Add(newRow, rows[oldRow]);
            this.Remove(oldRow);
            return true;
        }

        return false;
    }
}

Note that if you were willing to fix the rows/columns upon construction then you'd be able to use a T[,] as the backing for the data, which would both make the class dramatically simpler to implement, and further reduce the memory overhead, although that doesn't appear to work for your use cases.

share|improve this answer
    
So is the idea here merely encapsulation? Because, if there's no way to change the number of rows or columns, or change a row or column name, then the dictionaries are more or less immutable anyway. – Robert Harvey Jun 27 '13 at 16:36
    
@RobertHarvey I have added methods for adding rows/columns. To change a column name would be simple enough if the OP wanted to add it. The difference in memory is that there isn't a dictionary for each row, it stores the data in lists, and those lists don't require as much extra storage as a dictionary would to store the same number of values. The reason you need to use encapsulation here is that the lists are indexed by an int, so you need to do the conversion from string to int. – Servy Jun 27 '13 at 16:39
    
@RobertHarvey, I guess its a question of how far you want to take it. Its not entirely clear. Does the OP need to change the names of existing columns? – Jodrell Jun 27 '13 at 16:41
    
Since OP is not clear on the details, I think this is the best answer that can be provided right now. – Tombala Jun 27 '13 at 16:45
    
apologies if I've broken etiquette. – Jodrell Jun 27 '13 at 16:55

Add a column for the name - "name" in the following:

DataTable table = ...
DataColumn nameCol = table.Columns["name"];
var index = table.Rows.Cast<DataRow>()
    .ToDictionary(row => (string)row[nameCol]);

... // then when you need the values:

string rowName = ..., colName = ...
var val = index[rowName][colName];
share|improve this answer

You may find that the Tuple (.net 4.0 and above) class suits your needs. It won't work strictly like a table but will give you a lot of flexibility.

You can use the List<> generic to store it and LINQ to query your data.

List<Tuple<string, string, int>> magicTable = new List<Tuple<string, string, int>>();

magicTable.AddRange(new Tuple<string, string, int>[] {
    Tuple.Create("row_foo", "col_foo", 1),
    Tuple.Create("row_foo", "col_bar", 2),
    Tuple.Create("row_bar", "col_foo", 3),
    Tuple.Create("row_bar", "col_bar", 4)});

magicTable.Add(Tuple.Create("row_foo", "col_new", 5));

int value = magicTable.Single(tuple => (tuple.Item1 == "row_foo" && tuple.Item2 == "col_new")).Item3;

It is going to be quite resource intensive due to the duplication of row/column names but you do get a lot of flexibility for small datasets.

Microsoft's Tuple documenation (3-tuple): http://msdn.microsoft.com/en-us/library/dd387150.aspx

share|improve this answer
    
The performance of this will be atrocious. It would be a lot better to use a Dictionary<Tuple<string, string>, T> as the data structure. Even there, it would probably be best to create a new type to wrap it as the methods to access it aren't as simple as would be ideal. That particular solution would be great if the data was sparsely populated, but it's not. It's densely populated, based on what I can see of the OP's content. Given that, a solution such as what I demonstrated would be somewhat less memory intensive and slightly faster. – Servy Jun 27 '13 at 18:39
    
I agree totally. It's not a fast solution which is why I had to add the resource comment. It does give a lot of flexibility and still keep things, from a coding side, relatively simple. – PeteWiFi Jun 27 '13 at 18:50

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