你可以使用SQL Server中的递归函数:

示例表:

CREATE TABLE Testdata
(
    SomeID INT,
    OtherID INT,
    String VARCHAR(MAX)
);

INSERT Testdata SELECT 1,  9, '18,20,22';
INSERT Testdata SELECT 2,  8, '17,19';
INSERT Testdata SELECT 3,  7, '13,19,20';
INSERT Testdata SELECT 4,  6, '';
INSERT Testdata SELECT 9, 11, '1,2,3,4';

查询

WITH tmp(SomeID, OtherID, DataItem, String) AS
(
    SELECT
        SomeID,
        OtherID,
        LEFT(String, CHARINDEX(',', String + ',') - 1),
        STUFF(String, 1, CHARINDEX(',', String + ','), '')
    FROM Testdata
    UNION all

    SELECT
        SomeID,
        OtherID,
        LEFT(String, CHARINDEX(',', String + ',') - 1),
        STUFF(String, 1, CHARINDEX(',', String + ','), '')
    FROM tmp
    WHERE
        String > ''
)
SELECT
    SomeID,
    OtherID,
    DataItem
FROM tmp
ORDER BY SomeID;
-- OPTION (maxrecursion 0)
-- normally recursion is limited to 100. If you know you have very long
-- strings, uncomment the option

输出

 SomeID | OtherID | DataItem 
--------+---------+----------
 1      | 9       | 18       
 1      | 9       | 20       
 1      | 9       | 22       
 2      | 8       | 17       
 2      | 8       | 19       
 3      | 7       | 13       
 3      | 7       | 19       
 3      | 7       | 20       
 4      | 6       |          
 9      | 11      | 1        
 9      | 11      | 2        
 9      | 11      | 3        
 9      | 11      | 4        

;WITH tmp(SomeID, OtherID, DataItem, Data) as (
    SELECT SomeID, OtherID, LEFT(Data, CHARINDEX(',',Data+',')-1),
        STUFF(Data, 1, CHARINDEX(',',Data+','), '')
FROM Testdata
WHERE Data > ''
)
SELECT SomeID, OtherID, Data
FROM tmp
ORDER BY SomeID

仅对上述查询进行了微小的修改…

检查这个

 SELECT A.OtherID,  
     Split.a.value('.', 'VARCHAR(100)') AS Data  
 FROM  
 (
     SELECT OtherID,  
         CAST ('<M>' + REPLACE(Data, ',', '</M><M>') + '</M>' AS XML) AS Data  
     FROM  Table1
 ) AS A CROSS APPLY Data.nodes ('/M') AS Split(a); 

DECLARE @id_list VARCHAR(MAX) = '1234,23,56,576,1231,567,122,87876,57553,1216';
DECLARE @table TABLE ( id VARCHAR(50) );
DECLARE @x INT = 0;
DECLARE @firstcomma INT = 0;
DECLARE @nextcomma INT = 0;

SET @x = LEN(@id_list) - LEN(REPLACE(@id_list, ',', '')) + 1; -- number of ids in id_list

WHILE @x > 0
    BEGIN
        SET @nextcomma = CASE WHEN CHARINDEX(',', @id_list, @firstcomma + 1) = 0
                              THEN LEN(@id_list) + 1
                              ELSE CHARINDEX(',', @id_list, @firstcomma + 1)
                         END;
        INSERT  INTO @table
        VALUES  ( SUBSTRING(@id_list, @firstcomma + 1, (@nextcomma - @firstcomma) - 1) );
        SET @firstcomma = CHARINDEX(',', @id_list, @firstcomma + 1);
        SET @x = @x - 1;
    END;

SELECT  *
FROM    @table;

截至2016年2月-见talltytable示例-很可能从2014年2月开始超过我的TVF。为子孙后代保留以下原始帖子:

上面的例子中重复的代码太多了。我不喜欢cte和XML的性能。还有一个显式Id，以便特定于订单的消费者可以指定order BY子句。

CREATE FUNCTION dbo.Split
(
    @Line nvarchar(MAX),
    @SplitOn nvarchar(5) = ','
)
RETURNS @RtnValue table
(
    Id INT NOT NULL IDENTITY(1,1) PRIMARY KEY CLUSTERED,
    Data nvarchar(100) NOT NULL
)
AS
BEGIN
    IF @Line IS NULL RETURN;

    DECLARE @split_on_len INT = LEN(@SplitOn);
    DECLARE @start_at INT = 1;
    DECLARE @end_at INT;
    DECLARE @data_len INT;

    WHILE 1=1
    BEGIN
        SET @end_at = CHARINDEX(@SplitOn,@Line,@start_at);
        SET @data_len = CASE @end_at WHEN 0 THEN LEN(@Line) ELSE @end_at-@start_at END;
        INSERT INTO @RtnValue (data) VALUES( SUBSTRING(@Line,@start_at,@data_len) );
        IF @end_at = 0 BREAK;
        SET @start_at = @end_at + @split_on_len;
    END;

    RETURN;
END;

select t.OtherID,x.Kod
    from testData t
    cross apply (select Code from dbo.Split(t.Data,',') ) x

当使用这种方法时，您必须确保您的值中没有包含非法XML - user1151923

我总是使用XML方法。确保使用VALID XML。我有两个函数在有效的XML和文本之间转换。(我倾向于去掉回车，因为我通常不需要它们。

CREATE FUNCTION dbo.udf_ConvertTextToXML (@Text varchar(MAX)) 
    RETURNS varchar(MAX)
AS
    BEGIN
        SET @Text = REPLACE(@Text,CHAR(10),'');
        SET @Text = REPLACE(@Text,CHAR(13),'');
        SET @Text = REPLACE(@Text,'<','&lt;');
        SET @Text = REPLACE(@Text,'&','&amp;');
        SET @Text = REPLACE(@Text,'>','&gt;');
        SET @Text = REPLACE(@Text,'''','&apos;');
        SET @Text = REPLACE(@Text,'"','&quot;');
    RETURN @Text;
END;


CREATE FUNCTION dbo.udf_ConvertTextFromXML (@Text VARCHAR(MAX)) 
    RETURNS VARCHAR(max)
AS
    BEGIN
        SET @Text = REPLACE(@Text,'&lt;','<');
        SET @Text = REPLACE(@Text,'&amp;','&');
        SET @Text = REPLACE(@Text,'&gt;','>');
        SET @Text = REPLACE(@Text,'&apos;','''');
        SET @Text = REPLACE(@Text,'&quot;','"');
    RETURN @Text;
END;

终于，SQL Server 2016结束了等待。他们引入了Split字符串函数STRING_SPLIT:

select OtherID, cs.Value --SplitData
from yourtable
cross apply STRING_SPLIT (Data, ',') cs

所有其他方法来分割字符串，如XML, tallytable, while循环等。已经被STRING_SPLIT函数破坏了。

这里有一篇关于性能比较的优秀文章:性能惊喜和假设:STRING_SPLIT。

对于旧版本，这里使用的是一个分割字符串函数(可能的最佳方法)

CREATE FUNCTION [dbo].[DelimitedSplit8K] (@pString VARCHAR(8000), @pDelimiter CHAR(1)) RETURNS TABLE WITH SCHEMABINDING AS RETURN --===== "Inline" CTE Driven "Tally Table" produces values from 0 up to 10,000... -- enough to cover NVARCHAR(4000) WITH E1(N) AS ( SELECT 1 UNION ALL SELECT 1 UNION ALL SELECT 1 UNION ALL SELECT 1 UNION ALL SELECT 1 UNION ALL SELECT 1 UNION ALL SELECT 1 UNION ALL SELECT 1 UNION ALL SELECT 1 UNION ALL SELECT 1 ), --10E+1 or 10 rows E2(N) AS (SELECT 1 FROM E1 a, E1 b), --10E+2 or 100 rows E4(N) AS (SELECT 1 FROM E2 a, E2 b), --10E+4 or 10,000 rows max cteTally(N) AS (--==== This provides the "base" CTE and limits the number of rows right up front -- for both a performance gain and prevention of accidental "overruns" SELECT TOP (ISNULL(DATALENGTH(@pString),0)) ROW_NUMBER() OVER (ORDER BY (SELECT NULL)) FROM E4 ), cteStart(N1) AS (--==== This returns N+1 (starting position of each "element" just once for each delimiter) SELECT 1 UNION ALL SELECT t.N+1 FROM cteTally t WHERE SUBSTRING(@pString,t.N,1) = @pDelimiter ), cteLen(N1,L1) AS(--==== Return start and length (for use in substring) SELECT s.N1, ISNULL(NULLIF(CHARINDEX(@pDelimiter,@pString,s.N1),0)-s.N1,8000) FROM cteStart s ) --===== Do the actual split. The ISNULL/NULLIF combo handles the length for the final element when no delimiter is found. SELECT ItemNumber = ROW_NUMBER() OVER(ORDER BY l.N1), Item = SUBSTRING(@pString, l.N1, l.L1) FROM cteLen l ;

从talley引用哦!一个改进的SQL 8K“CSV分配器”函数

以下工作在sql server 2008

select *, ROW_NUMBER() OVER(order by items) as row# 
from 
( select 134 myColumn1, 34 myColumn2, 'd,c,k,e,f,g,h,a' comaSeperatedColumn) myTable
    cross apply 
SPLIT (rtrim(comaSeperatedColumn), ',') splitedTable -- gives 'items'  column 

将得到所有的笛卡尔积与原表列加上“项目”的分割表。

函数

CREATE FUNCTION dbo.SplitToRows (@column varchar(100), @separator varchar(10))
RETURNS @rtnTable TABLE
  (
  ID int identity(1,1),
  ColumnA varchar(max)
  )
 AS
BEGIN
    DECLARE @position int = 0;
    DECLARE @endAt int = 0;
    DECLARE @tempString varchar(100);
    
    set @column = ltrim(rtrim(@column));

    WHILE @position<=len(@column)
    BEGIN       
        set @endAt = CHARINDEX(@separator,@column,@position);
            if(@endAt=0)
            begin
            Insert into @rtnTable(ColumnA) Select substring(@column,@position,len(@column)-@position);
            break;
            end;
        set @tempString = substring(ltrim(rtrim(@column)),@position,@endAt-@position);

        Insert into @rtnTable(ColumnA) select @tempString;
        set @position=@endAt+1;
    END;
    return;
END;

用例

select * from dbo.SplitToRows('T14; p226.0001; eee; 3554;', ';');

或者只是一个有多个结果集的选择

DECLARE @column varchar(max)= '1234; 4748;abcde; 324432';
DECLARE @separator varchar(10) = ';';
DECLARE @position int = 0;
DECLARE @endAt int = 0;
DECLARE @tempString varchar(100);

set @column = ltrim(rtrim(@column));

WHILE @position<=len(@column)
BEGIN       
    set @endAt = CHARINDEX(@separator,@column,@position);
        if(@endAt=0)
        begin
        Select substring(@column,@position,len(@column)-@position);
        break;
        end;
    set @tempString = substring(ltrim(rtrim(@column)),@position,@endAt-@position);

    select @tempString;
    set @position=@endAt+1;
END;

请参考下面的TSQL。STRING_SPLIT函数仅在兼容性级别130及更高级别下可用。

TSQL:

DECLARE @stringValue NVARCHAR(400) = 'red,blue,green,yellow,black';
DECLARE @separator CHAR = ',';

SELECT [value]  As Colour
FROM STRING_SPLIT(@stringValue, @separator); 

结果:

颜色

红色的 蓝色的 绿色 黄色的 黑色的

很晚了，但是试试这个:

SELECT ColumnID, Column1, value  --Do not change 'value' name. Leave it as it is.
FROM tbl_Sample  
CROSS APPLY STRING_SPLIT(Tags, ','); --'Tags' is the name of column containing comma separated values

所以我们有了这个: tbl_Sample:

ColumnID|   Column1 |   Tags
--------|-----------|-------------
1       |   ABC     |   10,11,12    
2       |   PQR     |   20,21,22

运行此查询后:

ColumnID|   Column1 |   value
--------|-----------|-----------
1       |   ABC     |   10
1       |   ABC     |   11
1       |   ABC     |   12
2       |   PQR     |   20
2       |   PQR     |   21
2       |   PQR     |   22

谢谢!

可以使用以下函数提取数据

CREATE FUNCTION [dbo].[SplitString]
(    
    @RowData NVARCHAR(MAX),
    @Delimeter NVARCHAR(MAX)
)
RETURNS @RtnValue TABLE 
(
    ID INT IDENTITY(1,1),
    Data NVARCHAR(MAX)
) 
AS
BEGIN 
    DECLARE @Iterator INT;
    SET @Iterator = 1;

    DECLARE @FoundIndex INT;
    SET @FoundIndex = CHARINDEX(@Delimeter,@RowData);

    WHILE (@FoundIndex>0)
    BEGIN
        INSERT INTO @RtnValue (data)
        SELECT 
            Data = LTRIM(RTRIM(SUBSTRING(@RowData, 1, @FoundIndex - 1)));

        SET @RowData = SUBSTRING(@RowData,
                @FoundIndex + DATALENGTH(@Delimeter) / 2,
                LEN(@RowData));

        SET @Iterator = @Iterator + 1;
        SET @FoundIndex = CHARINDEX(@Delimeter, @RowData);
    END;
    
    INSERT INTO @RtnValue (Data)
    SELECT Data = LTRIM(RTRIM(@RowData));

    RETURN;
END;

通过创建这个分割字符串的函数([DelimitedSplit])，可以对SELECT执行OUTER APPLY。

CREATE FUNCTION [dbo].[DelimitedSplit]
--===== Define I/O parameters
        (@pString VARCHAR(8000), @pDelimiter CHAR(1))
--WARNING!!! DO NOT USE MAX DATA-TYPES HERE!  IT WILL KILL PERFORMANCE!
RETURNS TABLE WITH SCHEMABINDING AS
 RETURN
--===== "Inline" CTE Driven "Tally Table" produces values from 1 up to 10,000...
     -- enough to cover VARCHAR(8000)
  WITH E1(N) AS (
                 SELECT 1 UNION ALL SELECT 1 UNION ALL SELECT 1 UNION ALL
                 SELECT 1 UNION ALL SELECT 1 UNION ALL SELECT 1 UNION ALL
                 SELECT 1 UNION ALL SELECT 1 UNION ALL SELECT 1 UNION ALL SELECT 1
                ),                          --10E+1 or 10 rows
       E2(N) AS (SELECT 1 FROM E1 a INNER JOIN E1 b ON b.N = a.N), --10E+2 or 100 rows
       E4(N) AS (SELECT 1 FROM E2 a INNER JOIN E2 b ON b.N = a.N), --10E+4 or 10,000 rows max
 cteTally(N) AS (--==== This provides the "base" CTE and limits the number of rows right up front
                     -- for both a performance gain and prevention of accidental "overruns"
                 SELECT TOP (ISNULL(DATALENGTH(@pString),0)) ROW_NUMBER() OVER (ORDER BY (SELECT NULL)) FROM E4
                ),
cteStart(N1) AS (--==== This returns N+1 (starting position of each "element" just once for each delimiter)
                 SELECT 1 UNION ALL
                 SELECT t.N+1 FROM cteTally t WHERE SUBSTRING(@pString,t.N,1) = @pDelimiter
                ),
cteLen(N1,L1) AS(--==== Return start and length (for use in substring)
                 SELECT s.N1,
                        ISNULL(NULLIF(CHARINDEX(@pDelimiter,@pString,s.N1),0)-s.N1,8000)
                   FROM cteStart s
                )
--===== Do the actual split. The ISNULL/NULLIF combo handles the length for the final element when no delimiter is found.
 SELECT ItemNumber = ROW_NUMBER() OVER(ORDER BY l.N1),
        Item       = SUBSTRING(@pString, l.N1, l.L1)
   FROM cteLen l
;

TEST

CREATE TABLE #Testdata
(
    SomeID INT,
    OtherID INT,
    String VARCHAR(MAX)
);

INSERT #Testdata SELECT 1,  9, '18,20,22';
INSERT #Testdata SELECT 2,  8, '17,19';
INSERT #Testdata SELECT 3,  7, '13,19,20';
INSERT #Testdata SELECT 4,  6, '';
INSERT #Testdata SELECT 9, 11, '1,2,3,4';

SELECT
 *
FROM #Testdata
OUTER APPLY [dbo].[DelimitedSplit](String,',');

DROP TABLE #Testdata;

结果

SomeID  OtherID String      ItemNumber  Item
1       9       18,20,22    1           18
1       9       18,20,22    2           20
1       9       18,20,22    3           22
2       8       17,19       1           17
2       8       17,19       2           19
3       7       13,19,20    1           13
3       7       13,19,20    2           19
3       7       13,19,20    3           20
4       6       1   
9       11      1,2,3,4     1           1
9       11      1,2,3,4     2           2
9       11      1,2,3,4     3           3
9       11      1,2,3,4     4           4

我知道它有很多答案，但我想写我的版本的分裂函数像其他人和像string_split SQL Server 2016本机函数。

create function [dbo].[Split]
(
    @Value nvarchar(max),
    @Delimiter nvarchar(50)
)
returns @tbl table
(
    Seq int primary key identity(1, 1),
    Value nvarchar(max)
)
as begin
    declare @Xml xml = cast('<d>' + replace(@Value, @Delimiter, '</d><d>') + '</d>' as xml);

    insert into @tbl
            (Value)
    select  a.split.value('.', 'nvarchar(max)') as Value
    from    @Xml.nodes('/d') a(split);
    
    return;
end;

Seq列是支持快速连接其他实表或Split函数返回表的主键。 使用XML函数支持大数据(当你有大数据时，循环版本会显著变慢)

这是问题的答案。

CREATE TABLE Testdata
(
    SomeID INT,
    OtherID INT,
    String VARCHAR(MAX)
);

INSERT Testdata SELECT 1,  9, '18,20,22';
INSERT Testdata SELECT 2,  8, '17,19';
INSERT Testdata SELECT 3,  7, '13,19,20';
INSERT Testdata SELECT 4,  6, '';
INSERT Testdata SELECT 9, 11, '1,2,3,4';


select  t.SomeID, t.OtherID, s.Value
from    Testdata t
        cross apply dbo.Split(t.String, ',') s;

--Output
SomeID  OtherID Value
1       9       18
1       9       20
1       9       22
2       8       17
2       8       19
3       7       13
3       7       19
3       7       20
4       6       
9       11      1
9       11      2
9       11      3
9       11      4

加入Split与其他Split

declare @Names nvarchar(max) = 'a,b,c,d';
declare @Codes nvarchar(max) = '10,20,30,40';

select  n.Seq, n.Value Name, c.Value Code
from    dbo.Split(@Names, ',') n
        inner join dbo.Split(@Codes, ',') c on n.Seq = c.Seq;

--Output
Seq Name    Code
1   a       10
2   b       20
3   c       30
4   d       40

分开两次

declare @NationLocSex nvarchar(max) = 'Korea,Seoul,1;Vietnam,Kiengiang,0;China,Xian,0';

with rows as
(
    select  Value
    from    dbo.Split(@NationLocSex, ';')
)
select  rw.Value r, cl.Value c
from    rows rw
        cross apply dbo.Split(rw.Value, ',') cl;

--Output
r                       c
Korea,Seoul,1           Korea
Korea,Seoul,1           Seoul
Korea,Seoul,1           1
Vietnam,Kiengiang,0     Vietnam
Vietnam,Kiengiang,0     Kiengiang
Vietnam,Kiengiang,0     0
China,Xian,0            China
China,Xian,0            Xian
China,Xian,0            0

分割成列

declare @Numbers nvarchar(50) = 'First,Second,Third';

with t as
(
    select  case when Seq = 1 then Value end f1,
            case when Seq = 2 then Value end f2,
            case when Seq = 3 then Value end f3
    from    dbo.Split(@Numbers, ',')
)
select  min(f1) f1, min(f2) f2, min(f3) f3
from    t;

--Output
f1      f2      f3
First   Second  Third

按范围生成行

declare @Ranges nvarchar(50) = '1-2,4-6';

declare @Numbers table (Num int);
insert into @Numbers values (1),(2),(3),(4),(5),(6),(7),(8);

with t as
(
    select  r.Seq, r.Value,
            min(case when ft.Seq = 1 then ft.Value end) ValueFrom,
            min(case when ft.Seq = 2 then ft.Value end) ValueTo
    from    dbo.Split(@Ranges, ',') r
            cross apply dbo.Split(r.Value, '-') ft
    group by r.Seq, r.Value
)
select  t.Seq, t.Value, t.ValueFrom, t.ValueTo, n.Num
from    t
        inner join @Numbers n on n.Num between t.ValueFrom and t.ValueTo;

--Output
Seq Value   ValueFrom   ValueTo Num
1   1-2     1           2       1
1   1-2     1           2       2
2   4-6     4           6       4
2   4-6     4           6       5
2   4-6     4           6       6