Is it possible to parse JSON in TSQL? I dont mean to create a JSON string, i mean to parse a json string passed in as a parameter.

up vote 52 down vote accepted

Update: As of SQL Server 2016 parsing JSON in TSQL is now possible.

Natively, there is no support. You'll have to use CLR. It is as simple as that, unless you have a huge masochistic streak and want to write a JSON parser in SQL

Normally, folk ask for JSON output from the DB and there are examples on the internet. But into a DB?

  • Parse JSON on Database caller-side may be a good idea :) – Andrew Florko May 20 '10 at 4:25
  • 56
    JSON is a pretty simple protocol so it really doesn't require a huge amount of masochism. Once you have it, you can use the one routine for all your JSON. Anyway, i've done it for you here… – Phil Factor Nov 15 '10 at 18:04
  • 10
    Phil Factor: I've been reading your articles for many years. If you hadn't have written this article today I'd probably have quoted it 6 months ago when I answered... – gbn Nov 15 '10 at 18:10
  • 9
    There is a built-in support for parsing JSON text in new SQL Server 2016. – Jovan MSFT Nov 10 '15 at 8:35
  • Here is a very helpful article from the Simple Talk website that outlines how to take a JSon string and output it into tables and columns that can be queried. This is for SQL Server 2016: – codeaf Jul 28 '16 at 18:10

I seem to have a huge masochistic streak in that I've written a JSON parser. It converts a JSON document into a SQL Adjacency list table, which is easy to use to update your data tables. Actually, I've done worse, in that I've done code to do the reverse process, which is to go from a hierarchy table to a JSON string

The article and code is here: Consuming Json strings in SQL server.

Select * from parseJSON('{
     "firstName": "John",
     "lastName": "Smith",
     "age": 25,
        "streetAddress":"21 2nd Street",
        "city":"New York",
        "home":"212 555-1234",
        "fax":"646 555-4567"

To get:

enter image description here

  • This is some great functionality but does have some limitations e.g. stripping the "-" from negative numbers. – Gavin Apr 25 '12 at 22:02
  • very cool! you have one typo in the script: IF OBJECT_ID (N'dbo.parseJSON') IS NOT NULL DROP FUNCTION dbo.JSONEscaped GO -- should test for dbo.JSONEscaped in the IF test. – isapir Apr 18 '13 at 18:36
  • @phil dbo.parseJSON is working very slow in case of large data. so can we reduce the time of that by using any other methods within that? – cracker Apr 16 '14 at 4:48
  • I'm curious, what do you think about newly added native JSON support of SQL Server 2016? – Free Consulting Aug 21 '16 at 1:32
  • This is awesome, but is there a way to make it not strip the "-" from negative numbers? I can't quite figure out where or why that happens... – Nikoline Hejbøl Oct 25 '16 at 15:16

Finally SQL Server 2016 will add Native JSON support!!


Additional capabilities in SQL Server 2016 include:

  • Additional security enhancements for Row-level Security and Dynamic Data Masking to round out our security investments with Always
  • Improvements to AlwaysOn for more robust availability and disaster recovery with multiple synchronous replicas and secondary load
  • Native JSON support to offer better performance and support for your many types of your data.
  • SQL Server Enterprise Information Management (EIM) tools and Analysis Services get an upgrade in performance, usability and scalability.
  • Faster hybrid backups, high availability and disaster recovery scenarios to backup and restore your on-premises databases to Azure
    and place your SQL Server AlwaysOn secondaries in Azure.


Features blog post:

I do also have a huge masochistic streak as that I've written yet another JSON parser. This one uses a procedural approach. It uses a similat SQL hierarchy list table to store the parsed data. Also in the package are:

  • Reverse process: from hierarchy to JSON
  • Querying functions: to fetch particular values from a JSON object

Please feel free to use and have fun with it

  • +1 thanks works great, better than PhilFactor version. I had to dumb it down slightly for SQL Server 2008 though (no iif function or OFFSET) – Geronimo Jul 15 '16 at 23:53

Now there is a Native support in SQL Server (CTP3) for import, export, query and validate JSON inside T-SQL Refer to

SQL server 2016 supports json data parsing using OPENJSON. You can use OPENJSON to map json data to rows and columns.

Your json Data

 { "id" : 2,"name": "John"},
 { "id" : 5,"name": "John"}

Here is how you can handle json in sql

//@pJson is json data passed from code.  

INSERT INTO YourTable (id, Name)
 SELECT id, name
 WITH (id int,
       name nvarchar(max))

Here is a detailed article which covers this topic.

RETURNS @hierarchy TABLE
   element_id INT IDENTITY(1, 1) NOT NULL, /* internal surrogate primary key gives the order of parsing and the list order */
   sequenceNo [int] NULL, /* the place in the sequence for the element */
   parent_ID INT,/* if the element has a parent then it is in this column. The document is the ultimate parent, so you can get the structure from recursing from the document */
   Object_ID INT,/* each list or object has an object id. This ties all elements to a parent. Lists are treated as objects here */
   NAME NVARCHAR(2000),/* the name of the object */
   StringValue NVARCHAR(MAX) NOT NULL,/*the string representation of the value of the element. */
   ValueType VARCHAR(10) NOT null /* the declared type of the value represented as a string in StringValue*/
    @FirstObject INT, --the index of the first open bracket found in the JSON string
    @OpenDelimiter INT,--the index of the next open bracket found in the JSON string
    @NextOpenDelimiter INT,--the index of subsequent open bracket found in the JSON string
    @NextCloseDelimiter INT,--the index of subsequent close bracket found in the JSON string
    @Type NVARCHAR(10),--whether it denotes an object or an array
    @NextCloseDelimiterChar CHAR(1),--either a '}' or a ']'
    @Contents NVARCHAR(MAX), --the unparsed contents of the bracketed expression
    @Start INT, --index of the start of the token that you are parsing
    @end INT,--index of the end of the token that you are parsing
    @param INT,--the parameter at the end of the next Object/Array token
    @EndOfName INT,--the index of the start of the parameter at end of Object/Array token
    @token NVARCHAR(200),--either a string or object
    @value NVARCHAR(MAX), -- the value as a string
    @SequenceNo int, -- the sequence number within a list
    @name NVARCHAR(200), --the name as a string
    @parent_ID INT,--the next parent ID to allocate
    @lenJSON INT,--the current length of the JSON String
    @characters NCHAR(36),--used to convert hex to decimal
    @result BIGINT,--the value of the hex symbol being parsed
    @index SMALLINT,--used for parsing the hex value
    @Escape INT --the index of the next escape character

  DECLARE @Strings TABLE /* in this temporary table we keep all strings, even the names of the elements, since they are 'escaped' in a different way, and may contain, unescaped, brackets denoting objects or lists. These are replaced in the JSON string by tokens representing the string */
     String_ID INT IDENTITY(1, 1),
     StringValue NVARCHAR(MAX)
  SELECT--initialise the characters to convert hex to ascii
    @SequenceNo=0, --set the sequence no. to something sensible.
  /* firstly we process all strings. This is done because [{} and ] aren't escaped in strings, which complicates an iterative parse. */
  WHILE 1=1 --forever until there is nothing more to do
        @start=PATINDEX('%[^a-zA-Z]["]%', @json collate SQL_Latin1_General_CP850_Bin);--next delimited string
      IF @start=0 BREAK --no more so drop through the WHILE loop
      IF SUBSTRING(@json, @start+1, 1)='"'
        BEGIN --Delimited Name
          SET @start=@Start+1;
          SET @end=PATINDEX('%[^\]["]%', RIGHT(@json, LEN(@json+'|')-@start) collate SQL_Latin1_General_CP850_Bin);
      IF @end=0 --no end delimiter to last string
        BREAK --no more
      SELECT @token=SUBSTRING(@json, @start+1, @end-1)
      --now put in the escaped control characters
      SELECT @token=REPLACE(@token, FROMString, TOString)
          '\"' AS FromString, '"' AS ToString
         UNION ALL SELECT '\\', '\'
         UNION ALL SELECT '\/', '/'
         UNION ALL SELECT '\b', CHAR(08)
         UNION ALL SELECT '\f', CHAR(12)
         UNION ALL SELECT '\n', CHAR(10)
         UNION ALL SELECT '\r', CHAR(13)
         UNION ALL SELECT '\t', CHAR(09)
        ) substitutions
      SELECT @result=0, @escape=1
  --Begin to take out any hex escape codes
      WHILE @escape>0
          SELECT @index=0,
          --find the next hex escape sequence
          @escape=PATINDEX('%\x[0-9a-f][0-9a-f][0-9a-f][0-9a-f]%', @token collate SQL_Latin1_General_CP850_Bin)
          IF @escape>0 --if there is one
              WHILE @index<4 --there are always four digits to a \x sequence  
                  SELECT --determine its value
                    @result=@result+POWER(16, @index)
                    *(CHARINDEX(SUBSTRING(@token, @escape+2+3-@index, 1),
                                @characters)-1), @index=@index+1 ;

                -- and replace the hex sequence by its unicode value
              SELECT @token=STUFF(@token, @escape, 6, NCHAR(@result))
      --now store the string away
      INSERT INTO @Strings (StringValue) SELECT @token
      -- and replace the string with a token
      SELECT @JSON=STUFF(@json, @start, @end+1,
                    '@string'+CONVERT(NVARCHAR(5), @@identity))
  -- all strings are now removed. Now we find the first leaf. 
  WHILE 1=1  --forever until there is nothing more to do

  SELECT @parent_ID=@parent_ID+1
  --find the first object or list by looking for the open bracket
  SELECT @FirstObject=PATINDEX('%[{[[]%', @json collate SQL_Latin1_General_CP850_Bin)--object or array
  IF @FirstObject = 0 BREAK
  IF (SUBSTRING(@json, @FirstObject, 1)='{')
    SELECT @NextCloseDelimiterChar='}', @type='object'
    SELECT @NextCloseDelimiterChar=']', @type='array'
  SELECT @OpenDelimiter=@firstObject

  WHILE 1=1 --find the innermost object or list...
  --find the matching close-delimiter proceeding after the open-delimiter
        @NextCloseDelimiter=CHARINDEX(@NextCloseDelimiterChar, @json,
  --is there an intervening open-delimiter of either type
      SELECT @NextOpenDelimiter=PATINDEX('%[{[[]%',
             RIGHT(@json, @lenJSON-@OpenDelimiter)collate SQL_Latin1_General_CP850_Bin)--object
      IF @NextOpenDelimiter=0
      SELECT @NextOpenDelimiter=@NextOpenDelimiter+@OpenDelimiter
      IF @NextCloseDelimiter<@NextOpenDelimiter
      IF SUBSTRING(@json, @NextOpenDelimiter, 1)='{'
        SELECT @NextCloseDelimiterChar='}', @type='object'
        SELECT @NextCloseDelimiterChar=']', @type='array'
      SELECT @OpenDelimiter=@NextOpenDelimiter
  ---and parse out the list or name/value pairs
    @contents=SUBSTRING(@json, @OpenDelimiter+1,
    @JSON=STUFF(@json, @OpenDelimiter,
                '@'+@type+CONVERT(NVARCHAR(5), @parent_ID))
  WHILE (PATINDEX('%[A-Za-z0-9@+.e]%', @contents collate SQL_Latin1_General_CP850_Bin))<>0
      IF @Type='Object' --it will be a 0-n list containing a string followed by a string, number,boolean, or null
            @SequenceNo=0,@end=CHARINDEX(':', ' '+@contents)--if there is anything, it will be a string-based name.
          SELECT  @start=PATINDEX('%[^A-Za-z@][@]%', ' '+@contents collate SQL_Latin1_General_CP850_Bin)--AAAAAAAA
          SELECT @token=SUBSTRING(' '+@contents, @start+1, @End-@Start-1),
            @endofname=PATINDEX('%[0-9]%', @token collate SQL_Latin1_General_CP850_Bin),
            @param=RIGHT(@token, LEN(@token)-@endofname+1)
            @token=LEFT(@token, @endofname-1),
            @Contents=RIGHT(' '+@contents, LEN(' '+@contents+'|')-@end-1)
          SELECT  @name=stringvalue FROM @strings
            WHERE string_id=@param --fetch the name
        SELECT @Name=null,@SequenceNo=@SequenceNo+1
        @end=CHARINDEX(',', @contents)-- a string-token, object-token, list-token, number,boolean, or null
      IF @end=0
        SELECT  @end=PATINDEX('%[A-Za-z0-9@+.e][^A-Za-z0-9@+.e]%', @Contents+' ' collate SQL_Latin1_General_CP850_Bin)
        @start=PATINDEX('%[^A-Za-z0-9@+.e][A-Za-z0-9@+.e]%', ' '+@contents collate SQL_Latin1_General_CP850_Bin)
      --select @start,@end, LEN(@contents+'|'), @contents 
        @Value=RTRIM(SUBSTRING(@contents, @start, @End-@Start)),
        @Contents=RIGHT(@contents+' ', LEN(@contents+'|')-@end)
      IF SUBSTRING(@value, 1, 7)='@object'
        INSERT INTO @hierarchy
          (NAME, SequenceNo, parent_ID, StringValue, Object_ID, ValueType)
          SELECT @name, @SequenceNo, @parent_ID, SUBSTRING(@value, 8, 5),
            SUBSTRING(@value, 8, 5), 'object'
        IF SUBSTRING(@value, 1, 6)='@array'
          INSERT INTO @hierarchy
            (NAME, SequenceNo, parent_ID, StringValue, Object_ID, ValueType)
            SELECT @name, @SequenceNo, @parent_ID, SUBSTRING(@value, 7, 5),
              SUBSTRING(@value, 7, 5), 'array'
          IF SUBSTRING(@value, 1, 7)='@string'
            INSERT INTO @hierarchy
              (NAME, SequenceNo, parent_ID, StringValue, ValueType)
              SELECT @name, @SequenceNo, @parent_ID, stringvalue, 'string'
              FROM @strings
              WHERE string_id=SUBSTRING(@value, 8, 5)
            IF @value IN ('true', 'false')
              INSERT INTO @hierarchy
                (NAME, SequenceNo, parent_ID, StringValue, ValueType)
                SELECT @name, @SequenceNo, @parent_ID, @value, 'boolean'
              IF @value='null'
                INSERT INTO @hierarchy
                  (NAME, SequenceNo, parent_ID, StringValue, ValueType)
                  SELECT @name, @SequenceNo, @parent_ID, @value, 'null'
                IF PATINDEX('%[^0-9]%', @value collate SQL_Latin1_General_CP850_Bin)>0
                  INSERT INTO @hierarchy
                    (NAME, SequenceNo, parent_ID, StringValue, ValueType)
                    SELECT @name, @SequenceNo, @parent_ID, @value, 'real'
                  INSERT INTO @hierarchy
                    (NAME, SequenceNo, parent_ID, StringValue, ValueType)
                    SELECT @name, @SequenceNo, @parent_ID, @value, 'int'
      if @Contents=' ' Select @SequenceNo=0
INSERT INTO @hierarchy (NAME, SequenceNo, parent_ID, StringValue, Object_ID, ValueType)
  SELECT '-',1, NULL, '', @parent_id-1, @type

---Pase JSON

Declare @pars varchar(MAX) = 
' {"shapes":[{"type":"polygon","geofenceName":"","geofenceDescription":"",
Select * from parseJSON(@pars) AS MyResult 

I have seen a pretty neat article about this... so if you like this:

CREATE PROC [dbo].[spUpdateMarks]
    @inputJSON VARCHAR(MAX)  -- '[{"ID":"1","C":"60","CPP":"60","CS":"60"}]'
    -- Temp table to hold the parsed data
    DECLARE @TempTableVariable TABLE(
        element_id INT,
        sequenceNo INT,
        parent_ID INT,
        [Object_ID] INT,
        [NAME] NVARCHAR(2000),
        StringValue NVARCHAR(MAX),
        ValueType NVARCHAR(10)
    -- Parse JSON string into a temp table
    INSERT INTO @TempTableVariable
    SELECT * FROM parseJSON(@inputJSON)

Try to look here:

There is a complete ASP.Net project about this here:

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