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.

I have written a program to parse and upload a huge amount of Data to a Database. The problem is that the parsing is WAY too slow. The way my program works is I have the Parser class which parses (using parallelisation) each file, and raises an event for each entry it parses in each file:

Parallel.ForEach<FileInfo>(
    files,
    new ParallelOptions { MaxDegreeOfParallelism = maxParallelism },
    (inputFile, args) =>
    {
        // Using underlying FileStream to allow concurrent Read/Write access.
        using (var input = new StreamReader(inputFile.FullName))
        {
            while (!input.EndOfStream)
            {
                RaiseEntryParsed(ParseCity(input.ReadLine()));
            }
            ParsedFiles++;
            RaiseFileParsed(inputFile);
        }
    });
RaiseDirectoryParsed(Directory);

The "main" program is subscribed to this event, and adds the entries to a DataTable to do a SqlBulkCopy; the SqlBulkCopy only submits when the parser class raises the FileParsed event (every time a file is parsed):

using (SqlBulkCopy bulkCopy = new SqlBulkCopy(_connectionString))
{
    DataTable cityTable = DataContext.CreateCityDataTable();
    parser.EntryParsed +=
        (s, e) =>
        {
            DataRow cityRow = cityTable.NewRow();
            City parsedCity = (City)e.DatabaseEntry;

            cityRow["id"] = parsedCity.Id;
            ...
            ...

            cityTable.Rows.Add(cityRow);
        };

    parser.FileParsed +=
        (s, e) =>
        {
            bulkCopy.WriteToServer(cityTable);
            Dispatcher.BeginInvoke((Action)UpdateProgress);
            cityTable.Rows.Clear();
        };

    parser.DirectoryParsed +=
        (s, e) =>
        {
            bulkCopy.WriteToServer(cityTable);
            Dispatcher.BeginInvoke((Action)UpdateProgress);
        };

    parser.BeginParsing();
}

The reason the table's rows are being cleared after each submission is to conserve memory and prevent an OutOfMemoryException from so many entities being in memory...

How can I make this faster, it is currently unacceptably slow. I profiled the application and it stated that most of the time is being spent on the Entryparsed event. Thanks

share|improve this question
5  
Did you try it without parallelisation first? Parallelising operations that are IO-bound might not actually help at all (and could make things worse). But we digress; you say the "parsing" is too slow, but you don't actually show any of the parsing. Also; I think this code is horribly risky: you could have two threads talking to the same SqlBulkCopy at the same time - that is not valid. What is the underlying data here? I think you should probably ignore DataTable completely and wire directly between the non-buffered input and the SqlBulkCopy. So: what is the input here? –  Marc Gravell Aug 11 '12 at 7:29
    
In addition to considering what @MarcGravell just said, try profiling the application (or, if you don't have one handy, pause the debugger 10 times to see where it stops most). Profile into the event to see more detail. –  usr Aug 11 '12 at 11:16
    
Marc, I tried without Parallelization see this post: stackoverflow.com/questions/9260404/… Parallelizing the parsing provided a big performance gain. The program is actually not IO bound right now, it's my CPU that is chugging along at 100% utilization. The disk drive and networking barely get utilized (in task manager). I don't think the issue is the parsing itself here, it is straightforward (just typecasting). I could fix the risky threading issue with a lock but that would slow down the program more. –  Francisco Aguilera Aug 11 '12 at 19:47
    
The underlying data is the Geonames City information database. It is 250 large files with tab delimited city data per line. Could you explain this? "ignore DataTable completely and wire directly between the non-buffered input and the SqlBulkCopy." –  Francisco Aguilera Aug 11 '12 at 19:49
    
Here's a screenshot of the profiling, it strangely says that 99.9% of the time was being spent adding the newly parsed rows to the DataTable... img803.imageshack.us/img803/6503/profilen.jpg –  Francisco Aguilera Aug 11 '12 at 21:15

4 Answers 4

up vote 1 down vote accepted

I made a short test project, and tried out a few different approaches. My goal was to build a DataTable with 27 columns and (id,A,B,C,...,Z) and NumOfRows about 300,000 as quickly as possible using just sequential code.

(each row is populated with an id and the rest of the columns are filled with random 5-letter words).

On my fourth attempt, I stumbled upon a different syntax for adding the row to the table based on an array of values of type Object. (see here).

In your case it would be something like:

cityTable.Rows.Add( new Object[] {

  ((City)e.DatabaseEntry).Id ,

  ObjectThatGoesInColumn2    ,

  ObjectThatGoesInColumn3    ,

  ObjectThatGoesInLastColumn

}

instead of:

DataRow row = cityTable.NewRow();

row[0] = 100;
row["City Name"] = Anaheim;
row["Column 7"] = ...
...
row["Column 26"] = checksum;

workTable.Rows.Add( row );

This will give you a speed-up since you won't be individually setting each column one at a time, and based on your pic of the profiler, you have at least 12 columns that you were setting individually.

This also saves it from hashing the column name strings to see which array position you are dealing with, and then double checking that the data type is correct.

In case you are interested, here is my test project:

class Program
{
    public static System.Data.DataSet dataSet;
    public static System.Data.DataSet dataSet2;
    public static System.Data.DataSet dataSet3;
    public static System.Data.DataSet dataSet4;

    public static Random rand = new Random();

    public static int NumOfRows = 300000;

    static void Main(string[] args)
    {

        #region test1

        Console.WriteLine("Starting");

        Console.WriteLine("");

        Stopwatch watch = new Stopwatch();

        watch.Start();

        MakeTable();

        watch.Stop();

        Console.WriteLine("Elapsed Time was: " + watch.ElapsedMilliseconds + " milliseconds.");
        dataSet = null;

        Console.WriteLine("");

        Console.WriteLine("Completed.");

        Console.WriteLine("");

        #endregion

        /*

        #region test2


        Console.WriteLine("Starting Test 2");

        Console.WriteLine("");

        watch.Reset();

        watch.Start();

        MakeTable2();

        watch.Stop();

        Console.WriteLine("Elapsed Time was: " + watch.ElapsedMilliseconds + " milliseconds.");
        dataSet2 = null;

        Console.WriteLine("");

        Console.WriteLine("Completed Test 2.");

        #endregion


        #region test3
        Console.WriteLine("");

        Console.WriteLine("Starting Test 3");

        Console.WriteLine("");

        watch.Reset();

        watch.Start();

        MakeTable3();

        watch.Stop();

        Console.WriteLine("Elapsed Time was: " + watch.ElapsedMilliseconds + " milliseconds.");
        dataSet3 = null;

        Console.WriteLine("");

        Console.WriteLine("Completed Test 3.");

        #endregion

         */ 

        #region test4
        Console.WriteLine("Starting Test 4");

        Console.WriteLine("");

        watch.Reset();

        watch.Start();

        MakeTable4();

        watch.Stop();

        Console.WriteLine("Elapsed Time was: " + watch.ElapsedMilliseconds + " milliseconds.");
        dataSet4 = null;

        Console.WriteLine("");

        Console.WriteLine("Completed Test 4.");

        #endregion


        //printTable();

        Console.WriteLine("");
        Console.WriteLine("Press Enter to Exit...");

        Console.ReadLine();
    }

    private static void MakeTable()
    {
        DataTable table = new DataTable("Table 1");

        DataColumn column;
        DataRow row;

        column = new DataColumn();
        column.DataType = System.Type.GetType("System.Int32");
        column.ColumnName = "id";
        column.ReadOnly = true;
        column.Unique = true;

        table.Columns.Add(column);


        for (int i = 65; i <= 90; i++)
        {
            column = new DataColumn();
            column.DataType = System.Type.GetType("System.String");
            column.ColumnName = "5-Letter Word " + (char)i;
            column.AutoIncrement = false;
            column.Caption = "Random Word " + (char)i;
            column.ReadOnly = false;
            column.Unique = false;
            // Add the column to the table.
            table.Columns.Add(column);
        }

        DataColumn[] PrimaryKeyColumns = new DataColumn[1];
        PrimaryKeyColumns[0] = table.Columns["id"];
        table.PrimaryKey = PrimaryKeyColumns;

        // Instantiate the DataSet variable.
        dataSet = new DataSet();
        // Add the new DataTable to the DataSet.
        dataSet.Tables.Add(table);

        // Create three new DataRow objects and add 
        // them to the DataTable
        for (int i = 0; i < NumOfRows; i++)
        {
            row = table.NewRow();
            row["id"] = i;

            for (int j = 65; j <= 90; j++)
            {
                row["5-Letter Word " + (char)j] = getRandomWord();
            }

            table.Rows.Add(row);
        }

    }

    private static void MakeTable2()
    {
        DataTable table = new DataTable("Table 2");

        DataColumn column;
        DataRow row;

        column = new DataColumn();
        column.DataType = System.Type.GetType("System.Int32");
        column.ColumnName = "id";
        column.ReadOnly = true;
        column.Unique = true;

        table.Columns.Add(column);


        for (int i = 65; i <= 90; i++)
        {
            column = new DataColumn();
            column.DataType = System.Type.GetType("System.String");
            column.ColumnName = "5-Letter Word " + (char)i;
            column.AutoIncrement = false;
            column.Caption = "Random Word " + (char)i;
            column.ReadOnly = false;
            column.Unique = false;
            // Add the column to the table.
            table.Columns.Add(column);
        }

        DataColumn[] PrimaryKeyColumns = new DataColumn[1];
        PrimaryKeyColumns[0] = table.Columns["id"];
        table.PrimaryKey = PrimaryKeyColumns;

        // Instantiate the DataSet variable.
        dataSet2 = new DataSet();
        // Add the new DataTable to the DataSet.
        dataSet2.Tables.Add(table);

        // Create three new DataRow objects and add 
        // them to the DataTable
        for (int i = 0; i < NumOfRows; i++)
        {
            row = table.NewRow();

            row.BeginEdit();

            row["id"] = i;

            for (int j = 65; j <= 90; j++)
            {
                row["5-Letter Word " + (char)j] = getRandomWord();
            }

            row.EndEdit();

            table.Rows.Add(row);
        }

    }

    private static void MakeTable3()
    {
        DataTable table = new DataTable("Table 3");

        DataColumn column;

        column = new DataColumn();
        column.DataType = System.Type.GetType("System.Int32");
        column.ColumnName = "id";
        column.ReadOnly = true;
        column.Unique = true;

        table.Columns.Add(column);


        for (int i = 65; i <= 90; i++)
        {
            column = new DataColumn();
            column.DataType = System.Type.GetType("System.String");
            column.ColumnName = "5-Letter Word " + (char)i;
            column.AutoIncrement = false;
            column.Caption = "Random Word " + (char)i;
            column.ReadOnly = false;
            column.Unique = false;
            // Add the column to the table.
            table.Columns.Add(column);
        }

        DataColumn[] PrimaryKeyColumns = new DataColumn[1];
        PrimaryKeyColumns[0] = table.Columns["id"];
        table.PrimaryKey = PrimaryKeyColumns;

        // Instantiate the DataSet variable.
        dataSet3 = new DataSet();
        // Add the new DataTable to the DataSet.
        dataSet3.Tables.Add(table);


        DataRow[] newRows = new DataRow[NumOfRows];

        for (int i = 0; i < NumOfRows; i++)
        {
            newRows[i] = table.NewRow();
        }

        // Create three new DataRow objects and add 
        // them to the DataTable
        for (int i = 0; i < NumOfRows; i++)
        {

            newRows[i]["id"] = i;

            for (int j = 65; j <= 90; j++)
            {
                newRows[i]["5-Letter Word " + (char)j] = getRandomWord();
            }

            table.Rows.Add(newRows[i]);
        }

    }

    private static void MakeTable4()
    {
        DataTable table = new DataTable("Table 2");

        DataColumn column;

        column = new DataColumn();
        column.DataType = System.Type.GetType("System.Int32");
        column.ColumnName = "id";
        column.ReadOnly = true;
        column.Unique = true;

        table.Columns.Add(column);


        for (int i = 65; i <= 90; i++)
        {
            column = new DataColumn();
            column.DataType = System.Type.GetType("System.String");
            column.ColumnName = "5-Letter Word " + (char)i;
            column.AutoIncrement = false;
            column.Caption = "Random Word " + (char)i;
            column.ReadOnly = false;
            column.Unique = false;
            // Add the column to the table.
            table.Columns.Add(column);
        }

        DataColumn[] PrimaryKeyColumns = new DataColumn[1];
        PrimaryKeyColumns[0] = table.Columns["id"];
        table.PrimaryKey = PrimaryKeyColumns;

        // Instantiate the DataSet variable.
        dataSet4 = new DataSet();
        // Add the new DataTable to the DataSet.
        dataSet4.Tables.Add(table);

        // Create three new DataRow objects and add 
        // them to the DataTable
        for (int i = 0; i < NumOfRows; i++)
        {

            table.Rows.Add( 

                new Object[] {

                    i,

                    getRandomWord(),
                    getRandomWord(),
                    getRandomWord(),
                    getRandomWord(),
                    getRandomWord(),
                    getRandomWord(),
                    getRandomWord(),
                    getRandomWord(),
                    getRandomWord(),
                    getRandomWord(),
                    getRandomWord(),
                    getRandomWord(),
                    getRandomWord(),
                    getRandomWord(),
                    getRandomWord(),
                    getRandomWord(),
                    getRandomWord(),
                    getRandomWord(),
                    getRandomWord(),
                    getRandomWord(),
                    getRandomWord(),
                    getRandomWord(),
                    getRandomWord(),
                    getRandomWord(),
                    getRandomWord(),
                    getRandomWord()

                } 

            );
        }

    }



    private static string getRandomWord()
    {

        char c0 = (char)rand.Next(65, 90);
        char c1 = (char)rand.Next(65, 90);
        char c2 = (char)rand.Next(65, 90);
        char c3 = (char)rand.Next(65, 90);
        char c4 = (char)rand.Next(65, 90);

        return "" + c0 + c1 + c2 + c3 + c4;
    }

    private static void printTable()
    {
        foreach (DataRow row in dataSet.Tables[0].Rows)
        {
            Console.WriteLine( row["id"] + "--" + row["5-Letter Word A"] + " - " + row["5-Letter Word Z"] );
        }
    }


}

I haven't really looked at your parallelism yet, but there are a couple of things.

First, change "ParsedFiles++;" to "Interlocked.Increment( ref ParsedFiles);", or by locking around it.

Secondly, instead of the complicated event-driven parallelism, I would recommend using a Pipeline Pattern, which is quite suited to this.

Use a concurrent queue (or blocking collection) from the concurrent collections to hold the stages.

First stage will hold the list of files to process.

Worker tasks will dequeue a file from that work list, parse it, then add it to the second stage.

In the second stage, a worker task will take the items from the second stage queue (the just completed blocks of datatable) and upload them to the database the moment they are ready to upload.


Edit:

I wrote a Pipelined version of code which should help you on your way:

using System;
using System.Collections.Generic;
using System.Linq;
using System.Text;
using System.Collections.Concurrent;
using System.Threading.Tasks;
using System.IO;
using System.Data;

namespace dataTableTesting2
{
    class Program
    {          
        private static const int BufferSize = 20; //Each buffer can only contain this many elements at a time
                                                  //This limits the total amount of memory 

        private static const int MaxBlockSize = 100;

        private static BlockingCollection<string> buffer1 = new BlockingCollection<string>(BufferSize);

        private static BlockingCollection<string[]> buffer2 = new BlockingCollection<string[]>(BufferSize);

        private static BlockingCollection<Object[][]> buffer3 = new BlockingCollection<Object[][]>(BufferSize);

        /// <summary>
        /// Start Pipelines and wait for them to finish.
        /// </summary>
        static void Main(string[] args)
        {
            TaskFactory f = new TaskFactory(TaskCreationOptions.LongRunning, TaskContinuationOptions.None);

            Task stage0 = f.StartNew(() => PopulateFilesList(buffer1));
            Task stage1 = f.StartNew(() => ReadFiles(buffer1, buffer2));
            Task stage2 = f.StartNew(() => ParseStringBlocks(buffer2, buffer3));
            Task stage3 = f.StartNew(() => UploadBlocks(buffer3) );

            Task.WaitAll(stage0, stage1, stage2, stage3);

            /*
            // Note for more workers on particular stages you can make more tasks for each stage, like the following
            //    which populates the file list in 1 task, reads the files into string[] blocks in 1 task,
            //    then parses the string[] blocks in 4 concurrent tasks
            //    and lastly uploads the info in 2 tasks

            TaskFactory f = new TaskFactory(TaskCreationOptions.LongRunning, TaskContinuationOptions.None);

            Task stage0 = f.StartNew(() => PopulateFilesList(buffer1));
            Task stage1 = f.StartNew(() => ReadFiles(buffer1, buffer2));

            Task stage2a = f.StartNew(() => ParseStringBlocks(buffer2, buffer3));
            Task stage2b = f.StartNew(() => ParseStringBlocks(buffer2, buffer3));
            Task stage2c = f.StartNew(() => ParseStringBlocks(buffer2, buffer3));
            Task stage2d = f.StartNew(() => ParseStringBlocks(buffer2, buffer3));

            Task stage3a = f.StartNew(() => UploadBlocks(buffer3) );
            Task stage3b = f.StartNew(() => UploadBlocks(buffer3) );

            Task.WaitAll(stage0, stage1, stage2a, stage2b, stage2c, stage2d, stage3a, stage3b);

            */
        }

        /// <summary>
        /// Adds the filenames to process into the first pipeline
        /// </summary>
        /// <param name="output"></param>
        private static void PopulateFilesList( BlockingCollection<string> output )
        {
            try
            {
                buffer1.Add("file1.txt");
                buffer1.Add("file2.txt");
                //...
                buffer1.Add("lastFile.txt");
            }
            finally
            {
                output.CompleteAdding();
            }
        }

        /// <summary>
        /// Takes filnames out of the first pipeline, reads them into string[] blocks, and puts them in the second pipeline
        /// </summary>
        private static void ReadFiles( BlockingCollection<string> input, BlockingCollection<string[]> output)
        {
            try
            {
                foreach (string file in input.GetConsumingEnumerable())
                {
                    List<string> list = new List<string>(MaxBlockSize);

                    using (StreamReader sr = new StreamReader(file))
                    {
                        int countLines = 0;

                        while (!sr.EndOfStream)
                        {
                            list.Add( sr.ReadLine() );
                            countLines++;

                            if (countLines > MaxBlockSize)
                            {
                                output.Add(list.ToArray());
                                countLines = 0;
                                list = new List<string>(MaxBlockSize);
                            }
                        }

                        if (list.Count > 0)
                        {
                            output.Add(list.ToArray());
                        }
                    }
                }
            }

            finally
            {
                output.CompleteAdding();
            }
        }

        /// <summary>
        /// Takes string[] blocks from the second pipeline, for each line, splits them by tabs, and parses
        /// the data, storing each line as an object array into the third pipline.
        /// </summary>
        private static void ParseStringBlocks( BlockingCollection<string[]> input, BlockingCollection< Object[][] > output)
        {
            try
            {
                List<Object[]> result = new List<object[]>(MaxBlockSize);

                foreach (string[] block in input.GetConsumingEnumerable())
                {
                    foreach (string line in block)
                    {
                        string[] splitLine = line.Split('\t'); //split line on tab

                        string cityName = splitLine[0];
                        int cityPop = Int32.Parse( splitLine[1] );
                        int cityElevation = Int32.Parse(splitLine[2]);
                        //...

                        result.Add(new Object[] { cityName, cityPop, cityElevation });
                    }

                    output.Add( result.ToArray() );
                }
            }

            finally
            {
                output.CompleteAdding();
            }
        }

        /// <summary>
        /// Takes the data blocks from the third pipeline, and uploads each row to SQL Database
        /// </summary>
        private static void UploadBlocks(BlockingCollection<Object[][]> input)
        {
            /*
             * At this point 'block' is an array of object arrays.
             * 
             * The block contains MaxBlockSize number of cities.
             * 
             * There is one object array for each city.
             * 
             * The object array for the city is in the pre-defined order from pipeline stage2
             * 
             * You could do a couple of things at this point:
             * 
             * 1. declare and initialize a DataTable with the correct column types
             *    then, do the  dataTable.Rows.Add( rowValues )
             *    then, use a Bulk Copy Operation to upload the dataTable to SQL
             *    http://msdn.microsoft.com/en-us/library/7ek5da1a
             * 
             * 2. Manually perform the sql commands/transactions similar to what 
             *    Kevin recommends in this suggestion:
             *    http://stackoverflow.com/questions/1024123/sql-insert-one-row-or-multiple-rows-data/1024195#1024195
             * 
             * I've demonstrated the first approach with this code.
             * 
             * */


            DataTable dataTable = new DataTable();

            //set up columns of dataTable here.

            foreach (Object[][] block in input.GetConsumingEnumerable())
            {
                foreach (Object[] rowValues in block)
                {

                    dataTable.Rows.Add(rowValues);
                }

                //do bulkCopy to upload table containing MaxBlockSize number of cities right here.

                dataTable.Rows.Clear(); //Remove the rows when you are done uploading, but not the dataTable.
            }
        }

    }
}

It breaks the work up into 4 parts which can be done by different tasks:

  1. make a list of files to process

  2. take files from that list and read them into string[]'s

  3. take the string[]'s from previous part and parse them creating object[]'s containing the values for each row of the table

  4. upload the rows to database

It is also easy to assign more than 1 task to each phase, allowing multiple workers to execute the same pipeline stage if desired.

(I doubt that having more than 1 task reading from file would be useful, unless you are using a solid state drive, since jumping around in memory is quite slow).

Also, you can set a limit to the amount of data in memory through the execution of the program.

Each buffer is a BlockingCollection initialized with a max size, which means that if the buffer is full, and another task tries to add another element it will block that task.

Fortunately, the Task Parallel Library is smart, and if a task is blocked it will schedule a different task that isn't blocked, and check later to see if the first task has stopped being blocked.

At present each buffer can only hold 20 items, and each item is only 100 large, meaning that:

  • buffer1 will contain up to 20 filenames at any time.

  • buffer2 will contain up to 20 blocks of strings (composed of 100 lines) from those files, at any time.

  • buffer3 will contain up to 20 items of blocks of data (the object values for 100 cities) at any time.

So this would take enough memory to hold 20 filenames, 2000 lines from the files, and 2000 city informations. (With a bit extra for local variables and such).

You will likely want to increase BufferSize and MaxBlockSize for efficiency, although as is, this should work.

Note, I haven't tested this, as I didn't have any input files, so there could be some bugs.

share|improve this answer
    
Thank you for your astute observations. I took your advice on the Add/hashing problem, as for the second issue (using Interlocked.increment) is this necessary even though I have marked ParsedFiles as volatile? How would you submit the Cities in the queue? you would need to add them all to a DataTable or a DataRow[], and also, there is no way all of that would fit in memory. This is the reason I did this in the event-driven way, because that way I only have to store a limited number of entities, only once in memory. –  Francisco Aguilera Aug 12 '12 at 21:20
    
@FranciscoAguilera I added a pipelined version that takes in account a limited memory size. –  Xantix Aug 13 '12 at 5:50

Event invocation in .NET has the potential to become a bottleneck when you're doing it in a really tight loop, as it appears you're doing.

This SO post has the results of some benchmarks that showcase the performance of event invocation along with some alternatives.

share|improve this answer
1  
It is very unlikely, that raising an event per row trumps the database insert cost per row. –  usr Aug 11 '12 at 11:15
    
There are 250 Files totaling 7,736,761 lines. According to the post you linked 10,000,000 invocations of an event : 0.067 s will make it doubtful for the actual event invocation to be the bottleneck? –  Francisco Aguilera Aug 11 '12 at 20:15

Whilst I agree with some of the other comments and answers have you tried doing a:

cityTable.Rows.BeginEdit() 

before the first item is added to city table.

Then calling a:

cityTable.Rows.EndEdit()

in the FileParased event handler.

share|improve this answer
    
This is just a guessing answer. You might be right, or not. –  usr Aug 11 '12 at 11:16
    
I don't see this BeginEdit or EndEdit anywhere in the DataRowCollection class. msdn.microsoft.com/en-us/library/… –  Francisco Aguilera Aug 11 '12 at 20:20
    
@FranciscoAguilera BeginEdit and EndEdit are in the DataRow class here, but unless you are subscribing to the "Row changed" event, it doesn't seem to make much of a difference in my tests. –  Xantix Aug 12 '12 at 7:50
    
Thank you for the help Xantix. –  Francisco Aguilera Aug 12 '12 at 21:25

If you're looking for raw performance, wouldn't something like this be the best option? It completely bypasses the datatable code, which seems to be an unnecessary step.

void BulkInsertFile(string fileName, string tableName)
    {
        FileInfo info = new FileInfo(fileName);
        string name = info.Name;
        string shareDirectory = ""; //the path of the share: \\servername\shareName\
        string serverDirectory = ""; //the local path of the share on the server: C:\shareName\

        File.Copy(fileName, shareDirectory + name);
        // or you could call your method to parse the file and write it to the share directory.

        using (SqlConnection cnn = new SqlConnection("connectionString"))
        {
            cnn.Open();
            using (SqlCommand cmd = cnn.CreateCommand())
            {
                cmd.CommandText = string.Format("bulk insert {0} from '{1}' with (fieldterminator = ',', rowterminator = '\n')", tableName, serverDirectory + name);

                try
                {
                    cmd.ExecuteScalar();
                }
                catch (SqlException ex)
                {
                    MessageBox.Show(ex.Message);
                }
            }
        }
    }

Here is some information on the bulk insert command.

share|improve this answer
    
Thank you for the help. Unfortunately, Sql Azure, (My database provider) does not allow the use of the "BULK INSERT" command. It is strange that they do then allow SqlBulkInsert from the CLR libraries, but that is the way it is. The above code will throw an error due to this. –  Francisco Aguilera Aug 12 '12 at 21:23

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.