TSQL语句太长了,怎么办?!
请看以下代码,主要看最后一行即exec(@ss)
这个@ss太长了最后执行不了
set ANSI_NULLS ONset QUOTED_IDENTIFIER ONGO-- =============================================-- Author: <Author,,Name>-- Create date: <Create Date,,>-- Description: <Description,,>-- =============================================ALTER PROCEDURE [dbo].[fsd]@km as varchar(max)ASBEGIN drop table zffsd exec zf @km declare @s varchar(max),@ss varchar(max) declare @i int,@j int,@top int,@bottom int,@from int,@to int declare @bj int set @s=''set @ss='' set @top=700 set @bottom=200 set @j=@top declare my_cursor cursor scroll dynamic for select distinct [班级] from mcb open my_cursor fetch next from my_cursor into @bj set @s='select '''+ltrim(str(@top))+'以上'''+' 段次' while(@@fetch_status=0) begin --print 'Query ID: ' + cast(@bj as varchar) set @s=@s+',(select count(*) from mcb where 班级='+ltrim(str(@bj))+' and 总分>='+ltrim(str(@top))+') 计'+ltrim(str(@bj))+',(select count(*) from mcb where 班级='+ltrim(str(@bj))+' and 总分>='+ltrim(str(@top))+') 累'+ltrim(str(@bj)) fetch next from my_cursor into @bj end set @s=@s+',(select count(*) from mcb where 总分>='+ltrim(str(@top))+') 总计'+',(select count(*) from mcb where 总分>='+ltrim(str(@top))+') 总累 into zffsd'--print @s --select @s uuu --exec(@s)set @ss=@ss+@s+' union ' close my_cursor deallocate my_cursor while @j>=@bottom+10 begin set @from=@j-10 set @to=@j declare my_cursor cursor scroll dynamic for select distinct [班级] from mcb open my_cursor fetch next from my_cursor into @bj set @s='select '''+ltrim(str(@j-10))+''' 段次' while(@@fetch_status=0) begin --print 'Query ID: ' + cast(@bj as varchar) set @s=@s+',(select count(*) from mcb where 班级='+ltrim(str(@bj))+' and 总分>='+ltrim(str(@from))+' and 总分<'+ltrim(str(@to))+') 计'+ltrim(str(@bj))+',(select count(*) from mcb where 班级='+ltrim(str(@bj))+' and 总分>='+ltrim(str(@from))+') 累'+ltrim(str(@bj)) fetch next from my_cursor into @bj end set @s=@s+',(select count(*) from mcb where 总分>='+ltrim(str(@from))+' and 总分<'+ltrim(str(@to))+') 总计'+',(select count(*) from mcb where 总分>='+ltrim(str(@from))+') 总累' --select @s --exec(@s)set @ss=@ss+@s+' union ' close my_cursor deallocate my_cursor set @j=@j-10 end set @from=@top declare my_cursor cursor scroll dynamic for select distinct [班级] from mcb open my_cursor fetch next from my_cursor into @bj set @s='select '' '+ltrim(str(@bottom))+'以下'''+' 段次' while(@@fetch_status=0) begin --print 'Query ID: ' + cast(@bj as varchar) set @s=@s+',(select count(*) from mcb where 班级='+ltrim(str(@bj))+' and 总分>0 and 总分<'+ltrim(str(@bottom))+') 计'+ltrim(str(@bj))+',(select count(*) from mcb where 班级='+ltrim(str(@bj))+' and 总分>0) 累'+ltrim(str(@bj)) fetch next from my_cursor into @bj end set @s=@s+',(select count(*) from mcb where 总分>0 and 总分<'+ltrim(str(@bottom))+') 总计'+',(select count(*) from mcb where 总分>0) 总累' --select @s uuu --exec(@s)set @ss=@ss+@s+' order by 段次 desc' close my_cursor deallocate my_cursorENDselect @ss--print @ssexec(@ss)
/*--化解字符串不能超过8000的方法 经常有人提到,用动态生成SQL语句的方法处理数据时,处理语句超长,无法处理的问题 下面就讨论这个问题: --邹建 2003.9(引用请保留此信息)--*/ --方法1. 多个变量处理 --根据查询结果定义变量(实际处理中,应该是估计需要多少个变量,定义足够多的变量个数,多定义变量并不影响处理,下面就多定义了一个) --生成数据处理临时表 SELECT id=IDENTITY(int,0,1), g=0, a=CAST(N ', '+QUOTENAME([name]) +N '=SUM(CASE [name] WHEN N '+QUOTENAME(name,N ' ' ' ') +N ' THEN [colid] ELSE 0 END) ' as nvarchar(4000)) INTO # FROM syscolumns WHERE name> N ' ' GROUP BY name --分组临时表 UPDATE a SET G=id/i FROM # a,(SELECT i=3800/MAX(LEN(a)) FROM #)b SELECT MAX(g)+1 as N '需要的变量个数 ' FROM # DECLARE @0 nvarchar(4000),@1 nvarchar(4000),@2 nvarchar(4000),@3 nvarchar(4000),@4 nvarchar(4000) SELECT @0=N ' ',@1=N ' ',@2=N ' ',@3=N ' ',@4=N ' ' SELECT @0=CASE g WHEN 0 THEN @0+a ELSE @0 END, @1=CASE g WHEN 1 THEN @1+a ELSE @1 END, @2=CASE g WHEN 2 THEN @2+a ELSE @2 END, @3=CASE g WHEN 3 THEN @3+a ELSE @3 END, @4=CASE g WHEN 4 THEN @4+a ELSE @4 END FROM # EXEC(N 'SELECT xtype '+@0+@1+@2+@3+@4+N ' FROM syscolumns GROUP BY xtype ') DROP TABLE # /*--方法说明 优点:比较灵活,数据量大时只需要增加变量就行了.不用改动其他部分 缺点:要自行估计处理的数据,估计不足就会出错 --*/ /*--化解字符串不能超过8000的方法一经常有人提到,用动态生成SQL语句的方法处理数据时,处理语句超长,无法处理的问题下面就讨论这个问题:--邹建 2003.9(引用请保留此信息)--*//*-- 测试环境--以系统表 syscolumns 为测试数据,要求按xtype为列字段,name为行字段,统计colid的和--要求结果xtype filedname_1 fieldname_2 ..... fieldname_n-------- -------------- -------------- -------- --------------34 0 0 ..... 1--*//*--常规处理方法(不加行数限制会因生成的字符串益出而出错)set rowcount 10 --因为syscolumns的记录较,会导致生成的字符串溢出,所以限制一下行数declare @s nvarchar(4000)set @s=''select @s=@s+N','+quotename([name]) +N'=sum(case name when '+quotename([name],'''') +N' then [colid] else 0 end)'from(select distinct [name] from [syscolumns]) aset rowcount 0 --取消限制exec(N'select [xtype]'+@s+N' from [syscolumns] group by [xtype]')/*--问题不加行数限制时,会因生成的字符串益出而出错--*/--*//*--方法1. 多个变量处理--根据查询结果定义变量(实际处理中,应该是估计需要多少个变量,定义足够多的变量个数,多定义变量并不影响处理,下面就多定义了一个)--生成数据处理临时表SELECT id=IDENTITY(int,0,1), g=0, a=CAST(N','+QUOTENAME([name]) +N'=SUM(CASE [name] WHEN N'+QUOTENAME(name,N'''') +N' THEN [colid] ELSE 0 END)' as nvarchar(4000))INTO # FROM syscolumnsWHERE name>N''GROUP BY name--分组临时表UPDATE a SET G=id/iFROM # a,(SELECT i=3800/MAX(LEN(a)) FROM #)bSELECT MAX(g)+1 as N'需要的变量个数' FROM #DECLARE @0 nvarchar(4000),@1 nvarchar(4000),@2 nvarchar(4000),@3 nvarchar(4000),@4 nvarchar(4000)SELECT @0=N'',@1=N'',@2=N'',@3=N'',@4=N''SELECT @0=CASE g WHEN 0 THEN @0+a ELSE @0 END, @1=CASE g WHEN 1 THEN @1+a ELSE @1 END, @2=CASE g WHEN 2 THEN @2+a ELSE @2 END, @3=CASE g WHEN 3 THEN @3+a ELSE @3 END, @4=CASE g WHEN 4 THEN @4+a ELSE @4 ENDFROM #EXEC(N'SELECT xtype'+@0+@1+@2+@3+@4+N' FROM syscolumns GROUP BY xtype')DROP TABLE #/*--方法说明优点:比较灵活,数据量大时只需要增加变量就行了.不用改动其他部分缺点:要自行估计处理的数据,估计不足就会出错--*/--*//*--方法2. bcp+isql--因为要用到bcp+isql,所以需要这些信息declare @servername sysname,@username sysname,@pwd sysnameselect @servername=@@servername --服务器名 ,@username=N'' --用户名 ,@pwd=N'' --密码declare @tbname sysname,@s nvarchar(4000)--创建数据处理临时表set @tbname=quotename(N'##temp_'+cast(newid() as varchar(36)))set @s=N'create table '+@tbname+'(a nvarchar(4000))insert into '+@tbname+N'select N''create view ' +stuff(@tbname,2,2,N'') +N' as select [xtype]''union allselect N'',''+quotename([name])+''=sum(case [name] when N'' +quotename([name],'''''''') +'' then [colid] else 0 end)'' from(select distinct [name] from [syscolumns] where name<>N''xtype'')aunion allselect N''from [syscolumns] group by [xtype]'''exec(@s)--生成创建视图的文件,注意使用了文件:c:\temp.txtset @s=N'bcp "'+@tbname+N'" out "c:\'+@tbname+N'" /S"' +@servername+N'" /U"'+@username+N'" /P"'+@pwd+N'" /w'exec master..xp_cmdshell @s,no_output--调用isql生成数据处理视图set @s=N'osql /S"'+@servername +case when @username=N'' then N'" /E' else N'" /U"'+@username+N'" /P"'+@pwd+N'"' end +N' /d"'+db_name()+N'" /i"c:\'+@tbname+'"'exec master..xp_cmdshell @s,no_output--删除临时文件set @s=N'del "c:\'+@tbname+'"'exec master..xp_cmdshell @s,no_output--调用视图,显示处理结果set @s=N'drop table '+@tbname+N'select * from '+stuff(@tbname,2,2,N'')+N'drop view '+stuff(@tbname,2,2,N'')exec(@s)/*--方法总结 优点:程序自动处理,不存在判断错误的问题 缺点:复杂,经过的步骤多,容易出错,而且需要一定的操作员权限--*/--*/--/*-- 方法3. 多个变量处理,综合了方法1,2的优点,解决了方法1中需要人为判断,增加变量的问题,排除了方法2,需要权限和过程复杂的问题DECLARE @sqlhead nvarchar(4000),@sqlend nvarchar(4000) ,@sql1 nvarchar(4000),@sql2 nvarchar(4000),@sql3 nvarchar(4000),@sql4 nvarchar(4000) ,@i int,@ic nvarchar(10)--生成数据处理临时表SELECT id=IDENTITY(int,0,1), g=0, a=CAST(N',' +QUOTENAME([name]) +N'=SUM(CASE [name] WHEN N' +QUOTENAME(name,N'''') +N' THEN [colid] ELSE 0 END)' as nvarchar(4000))INTO # FROM( SELECT DISTINCT name FROM [syscolumns] WHERE name>N'')a--分组临时表UPDATE a SET @i=id/i,g=@iFROM # a,(SELECT i=3800/MAX(LEN(a)) FROM #)bSET @ic=@i--生成数据处理语句SELECT @sqlhead=N'''' +REPLACE(N'SELECT [xtype]',N'''',N'''''') +'''', @sqlend=N'''' +REPLACE(N' FROM [syscolumns] GROUP BY [xtype]',N'''',N'''''') +N'''', @sql1=N'',@sql2=N'',@sql3=N'',@sql4=N''WHILE @ic>=0 SELECT @sql1=N',@'+@ic+N' nvarchar(4000)'+@sql1, @sql2=N',@'+@ic+N'=N'''''+@sql2, @sql3=N',@'+@ic +N'=CASE g WHEN '+@ic +N' THEN @'+@ic+N'+a ELSE @'+@ic +N' END'+@sql3, @sql4=N'+@'+@ic+@sql4, @ic=@ic-1SELECT @sql1=STUFF(@sql1,1,1,N''), @sql2=STUFF(@sql2,1,1,N''), @sql3=STUFF(@sql3,1,1,N''), @sql4=STUFF(@sql4,1,1,N'')--执行EXEC(N'DECLARE '+@sql1+N'SELECT '+@sql2+N'SELECT '+@sql3+N' FROM #EXEC(N'+@sqlhead+N'+'+@sql4+N'+N'+@sqlend+N')')--删除临时表DROP TABLE #/*--方法总结 总结了前两种方法的优点,自动判断需要处理的变量数--*/--*/
