How do I parameterize a query containing an IN clause with a variable number of arguments, like this one?

WHERE Name IN ('ruby','rails','scruffy','rubyonrails')

In this query, the number of arguments could be anywhere from 1 to 5.

I would prefer not to use a dedicated stored procedure for this (or XML), but if there is some elegant way specific to SQL Server 2008, I am open to that.

39 Answers 39


Here's a cross-post to a solution to the same problem. More robust than reserved delimiters - includes escaping and nested arrays, and understands NULLs and empty arrays.

C# & T-SQL string[] Pack/Unpack utility functions

You can then join to the table-valued function.

    create FUNCTION [dbo].[ConvertStringToList]

      (@str VARCHAR (MAX), @delimeter CHAR (1))
        @result TABLE (
            [ID] INT NULL)


    SET @x = '<t>' + REPLACE(@str, @delimeter, '</t><t>') + '</t>'

    INSERT INTO @result
    SELECT DISTINCT x.i.value('.', 'int') AS token
    FROM @x.nodes('//t') x(i)
    ORDER BY 1



select * from table where id in ([dbo].[ConvertStringToList(YOUR comma separated string ,',')])
  • 2
    Some explanation would be nice. – Peter Mortensen May 18 '15 at 19:23

(Edit: If table valued parameters are not available) Best seems to be to split a large number of IN parameters into multiple queries with fixed length, so you have a number of known SQL statements with fixed parameter count and no dummy/duplicate values, and also no parsing of strings, XML and the like.

Here's some code in C# I wrote on this topic:

public static T[][] SplitSqlValues<T>(IEnumerable<T> values)
    var sizes = new int[] { 1000, 500, 250, 125, 63, 32, 16, 10, 9, 8, 7, 6, 5, 4, 3, 2, 1 };
    int processed = 0;
    int currSizeIdx = sizes.Length - 1; /* start with last (smallest) */
    var splitLists = new List<T[]>();

    var valuesDistSort = values.Distinct().ToList(); /* remove redundant */
    int totalValues = valuesDistSort.Count;

    while (totalValues > sizes[currSizeIdx] && currSizeIdx > 0)
    currSizeIdx--; /* bigger size, by array pos. */

    while (processed < totalValues)
        while (totalValues - processed < sizes[currSizeIdx]) 
            currSizeIdx++; /* smaller size, by array pos. */
        var partList = new T[sizes[currSizeIdx]];
        valuesDistSort.CopyTo(processed, partList, 0, sizes[currSizeIdx]);
        processed += sizes[currSizeIdx];
    return splitLists.ToArray();

(you may have further ideas, omit the sorting, use valuesDistSort.Skip(processed).Take(size[...]) instead of list/array CopyTo).

When inserting parameter variables, you create something like:

foreach(int[] partList in splitLists)
    /* here: question mark for param variable, use named/numbered params if required */
    string sql = "select * from Items where Id in("
        + string.Join(",", partList.Select(p => "?")) 
        + ")"; /* comma separated ?, one for each partList entry */

    /* create command with sql string, set parameters, execute, merge results */

I've watched the SQL generated by the NHibernate object-relational mapper (when querying data to create objects from), and that looks best with multiple queries. In NHibernate, one can specify a batch-size; if many object data rows have to be fetched, it tries to retrieve the number of rows equivalent to the batch-size

SELECT * FROM MyTable WHERE Id IN (@p1, @p2, @p3, ... , @p[batch-size])

,instead of sending hundreds or thousands of


When the remaining IDs are less then batch-size, but still more than one, it splits into smaller statements, but still with certain length.

If you have a batch size of 100, and a query with 118 parameters, it would create 3 queries:

  • one with 100 parameters (batch-size),
  • then one with 12
  • and another one with 6,

but none with 118 or 18. This way, it restricts the possible SQL statements to likely known statements, preventing too many different, thus too many query plans, which fill the cache and in great parts never get reused. The above code does the same, but with lengths 1000, 500, 250, 125, 63, 32, 16, 10-to-1. Parameter lists with more than 1000 elements are also split, preventing a database error due to a size limit.

Anyway, it's best to have a database interface which sends parameterized SQL directly, without a separate Prepare statement and handle to call. Databases like SQL Server and Oracle remember SQL by string equality (values change, binding params in SQL not!) and reuse query plans, if available. No need for separate prepare statements, and tedious maintenance of query handles in code! ADO.NET works like this, but it seems like Java still uses prepare/execute by handle (not sure).

I had my own question on this topic, originally suggesting to fill the IN clause with duplicates, but then preferring the NHibernate style statement split: Parameterized SQL - in / not in with fixed numbers of parameters, for query plan cache optimization?

This question is still interesting, even more than 5 years after being asked...

EDIT: I noted that IN queries with many values (like 250 or more) still tend to be slow, in the given case, on SQL Server. While I expected the DB to create a kind of temporary table internally and join against it, it seemed like it only repeated the single value SELECT expression n-times. Time was up to about 200ms per query - even worse than joining the original IDs retrieval SELECT against the other, related tables.. Also, there were some 10 to 15 CPU units in SQL Server Profiler, something unusual for repeated execution of the same parameterized queries, suggesting that new query plans were created on repeated calls. Maybe ad-hoc like individual queries are not worse at all. I had to compare these queries to non-split queries with changing sizes for a final conclusion, but for now, it seems like long IN clauses should be avoided anyway.


You can do this in a reusable way by doing the following -

public static class SqlWhereInParamBuilder
    public static string BuildWhereInClause<t>(string partialClause, string paramPrefix, IEnumerable<t> parameters)
        string[] parameterNames = parameters.Select(
            (paramText, paramNumber) => "@" + paramPrefix + paramNumber.ToString())

        string inClause = string.Join(",", parameterNames);
        string whereInClause = string.Format(partialClause.Trim(), inClause);

        return whereInClause;

    public static void AddParamsToCommand<t>(this SqlCommand cmd, string paramPrefix, IEnumerable<t> parameters)
        string[] parameterValues = parameters.Select((paramText) => paramText.ToString()).ToArray();

        string[] parameterNames = parameterValues.Select(
            (paramText, paramNumber) => "@" + paramPrefix + paramNumber.ToString()

        for (int i = 0; i < parameterNames.Length; i++)
            cmd.Parameters.AddWithValue(parameterNames[i], parameterValues[i]);

For more details have a look at this blog post - Parameterized SQL WHERE IN clause c#


Use a dynamic query. The front end is only to generate the required format:

DECLARE @invalue VARCHAR(100)
SELECT @invalue = '''Bishnu'',''Gautam'''

SELECT @dynamicSQL = 'SELECT * FROM #temp WHERE [name] IN (' + @invalue + ')'
EXEC (@dynamicSQL)

SQL Fiddle

  • This is not safe against SQL injection. – Martin Smith Nov 7 '15 at 15:24
  • Please don't do this. While this may sometimes be done in a not totally unreasonable way. It truly is an accident (incident) waiting to happen if done in the wrong place with the wrong data (which is usually the case). – Brian Knoblauch Jul 1 '16 at 20:16

This is a reusable variation of the solution in Mark Bracket's excellent answer.

Extension Method:

public static class ParameterExtensions
    public static Tuple<string, SqlParameter[]> ToParameterTuple<T>(this IEnumerable<T> values)
        var createName = new Func<int, string>(index => "@value" + index.ToString());
        var paramTuples = values.Select((value, index) => 
        new Tuple<string, SqlParameter>(createName(index), new SqlParameter(createName(index), value))).ToArray();
        var inClause = string.Join(",", paramTuples.Select(t => t.Item1));
        var parameters = paramTuples.Select(t => t.Item2).ToArray();
        return new Tuple<string, SqlParameter[]>(inClause, parameters);


        string[] tags = {"ruby", "rails", "scruffy", "rubyonrails"};
        var paramTuple = tags.ToParameterTuple();
        var cmdText = $"SELECT * FROM Tags WHERE Name IN ({paramTuple.Item1})";

        using (var cmd = new SqlCommand(cmdText))

There is a nice, simple and tested way of doing that:

/* Create table-value string: */
CREATE TYPE [String_List] AS TABLE ([Your_String_Element] varchar(max) PRIMARY KEY);
/* Create procedure which takes this table as parameter: */

CREATE PROCEDURE [dbo].[usp_ListCheck]
@String_List_In [String_List] READONLY  
FROM [dbo].[Tags] a
JOIN @String_List_In b ON a.[Name] = b.[Your_String_Element];

I have started using this method to fix the issues we had with the entity framework (was not robust enough for our application). So we decided to give the Dapper (same as Stack) a chance. Also specifying your string list as table with PK column fix your execution plans a lot. Here is a good article of how to pass a table into Dapper - all fast and CLEAN.


Create a temp table where names are stored, and then use the following query:

select * from Tags 
where Name in (select distinct name from temp)
order by Count desc
  • Hmm.... I see a temp table solution here. Where I work, when you encounter a difficulty that you don't understand or know how to properly circumvent, we simply create a table field (a flag) or a temp table... Do such solutions make you a better software engineer ? That's the question – Kurt Miller Sep 24 '18 at 10:01

In SQL SERVER 2016 or higher you can use STRING_SPLIT.

DECLARE @InParaSeprated VARCHAR(MAX) = 'ruby,rails,scruffy,rubyonrails'
DECLARE @Delimeter VARCHAR(10) = ','
    Tags T
    INNER JOIN STRING_SPLIT(@InputParameters,@Delimeter) SS ON T.Name = SS.value
    Count DESC

I use this because some times join faster than Like Operator works in my queries.
In addition you can put unlimited number of inputs in any separated format that you like.
I like this ..

protected by John Woo Sep 20 '12 at 12:17

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