http://bbs.csdn.net/topics/340078327
1.生成若干行记录
--自然数表1-1M CREATE TABLE Nums(n int NOT NULL PRIMARY KEY CLUSTERED) --书上介绍了很多种填充方法,以下是最高效的一种,需要SS2005的ROW_NUMBER()函数。 WITH B1 AS(SELECT n=1 UNION ALL SELECT n=1), --2 B2 AS(SELECT n=1 FROM B1 a CROSS JOIN B1 b), --4 B3 AS(SELECT n=1 FROM B2 a CROSS JOIN B2 b), --16 B4 AS(SELECT n=1 FROM B3 a CROSS JOIN B3 b), --256 B5 AS(SELECT n=1 FROM B4 a CROSS JOIN B4 b), --65536 CTE AS(SELECT r=ROW_NUMBER() OVER(ORDER BY (SELECT 1)) FROM B5 a CROSS JOIN B3 b) --65536 * 16 INSERT INTO Nums(n) SELECT TOP(1000000) r FROM CTE ORDER BY r
2.日历表
CREATE TABLE Calendar( date datetime NOT NULL PRIMARY KEY CLUSTERED, weeknum int NOT NULL, weekday int NOT NULL, weekday_desc nchar(3) NOT NULL, is_workday bit NOT NULL, is_weekend bit NOT NULL ) GO WITH CTE1 AS( SELECT date = DATEADD(day,n,'19991231') FROM Nums WHERE n <= DATEDIFF(day,'19991231','20201231')), CTE2 AS( SELECT date, weeknum = DATEPART(week,date), weekday = (DATEPART(weekday,date) + @@DATEFIRST - 1) % 7, weekday_desc = DATENAME(weekday,date) FROM CTE1) --INSERT INTO Calendar SELECT date, weeknum, weekday, weekday_desc, is_workday = CASE WHEN weekday IN (0,6) THEN 0 ELSE 1 END, is_weekend = CASE WHEN weekday IN (0,6) THEN 1 ELSE 0 END FROM CTE2
3.字符串的拼接(Join)与切分(Split)
<strong>--将一组查询结果按指定分隔符拼接到一个变量中
DECLARE @Datebases varchar(max)
SET @Datebases = STUFF((
SELECT ','+name
FROM sys.databases
ORDER BY name
FOR XML PATH('')),1,1,'')
SELECT @Datebases
--将传入的一个参数按指定分隔符切分到一个表中
DECLARE @SourceIDs varchar(max)
SET @SourceIDs = 'a,bcd,123,+-*/=,x&y,<key>'
SELECT v = x.n.value('.','varchar(10)')
FROM (
SELECT ValuesXML = CAST('<root>' +
REPLACE((SELECT v = @SourceIDs FOR XML PATH('')),',','</v><v>') +
'</root>' AS XML)
) t
CROSS APPLY t.ValuesXML.nodes('/root/v') x(n)
</strong><strong>--测试数据:
CREATE TABLE #ToJoin(
TableName varchar(20) NOT NULL,
ColumnName varchar(20) NOT NULL,
PRIMARY KEY CLUSTERED(TableName,ColumnName))
GO
CREATE TABLE #ToSplit(
TableName varchar(20) NOT NULL PRIMARY KEY CLUSTERED,
ColumnNames varchar(max) NOT NULL)
GO
INSERT INTO #ToJoin VALUES('tblEmployee','EmployeeCode')
INSERT INTO #ToJoin VALUES('tblEmployee','EmployeeName')
INSERT INTO #ToJoin VALUES('tblEmployee','HireDate')
INSERT INTO #ToJoin VALUES('tblEmployee','JobCode')
INSERT INTO #ToJoin VALUES('tblEmployee','ReportToCode')
INSERT INTO #ToJoin VALUES('tblJob','JobCode')
INSERT INTO #ToJoin VALUES('tblJob','JobTitle')
INSERT INTO #ToJoin VALUES('tblJob','JobLevel')
INSERT INTO #ToJoin VALUES('tblJob','DepartmentCode')
INSERT INTO #ToJoin VALUES('tblDepartment','DepartmentCode')
INSERT INTO #ToJoin VALUES('tblDepartment','DepartmentName')
GO
INSERT INTO #ToSplit VALUES('tblDepartment','DepartmentCode,DepartmentName')
INSERT INTO #ToSplit VALUES('tblEmployee','EmployeeCode,EmployeeName,HireDate,JobCode,ReportToCode')
INSERT INTO #ToSplit VALUES('tblJob','DepartmentCode,JobCode,JobLevel,JobTitle')
GO
--拼接(Join),SQL Server 2005的FOR XML扩展可以将一个列表转成一个字串:
SELECT
t.TableName,
ColumnNames = STUFF(
(SELECT ',' + c.ColumnName
FROM #ToJoin c
WHERE c.TableName = t.TableName
FOR XML PATH('')),
1,1,'')
FROM #ToJoin t
GROUP BY t.TableName
--切分(Split),使用SQL Server 2005对XQuery的支持:
SELECT
t.TableName,
ColumnName = c.ColumnName.value('.','varchar(20)')
FROM (
SELECT
TableName,
ColumnNamesXML = CAST('<Root>' + REPLACE((SELECT ColumnName = ColumnNames FOR XML PATH('')),',','</ColumnName><ColumnName>') + '</Root>' AS xml)
FROM #ToSplit
) t
CROSS APPLY t.ColumnNamesXML.nodes('/Root/ColumnName') c(ColumnName)
</strong>4.树形结构的存储与查询
--测试数据
CREATE TABLE #Employees(
EmployeeCode varchar(20) NOT NULL PRIMARY KEY CLUSTERED,
ReportToCode varchar(20) NULL)
GO
INSERT INTO #Employees VALUES('A',NULL)
INSERT INTO #Employees VALUES('B','A')
INSERT INTO #Employees VALUES('C','A')
INSERT INTO #Employees VALUES('D','A')
INSERT INTO #Employees VALUES('E','B')
INSERT INTO #Employees VALUES('F','B')
INSERT INTO #Employees VALUES('G','C')
INSERT INTO #Employees VALUES('H','D')
INSERT INTO #Employees VALUES('I','D')
INSERT INTO #Employees VALUES('J','D')
INSERT INTO #Employees VALUES('K','J')
INSERT INTO #Employees VALUES('L','J')
INSERT INTO #Employees VALUES('M','J')
INSERT INTO #Employees VALUES('N','K')
GO
/*
可能遇到的查询问题:
1. 员工'D'的所有直接下属
2. 员工'D'的所有2级以内的下属(包括直接下属和直接下属的下属)
3. 员工'N'的所有上级(按报告线顺序列出)
4. 员工@EmployeeCode的所有@LevelDown级以内的下属(@EmployeeCode和@LevelDown以变量传入)
DECLARE @EmployeeCode varchar(20), @LevelDown int;
SET @EmployeeCode = 'D';
SET @LevelDown = 2;
5. 员工@EmployeeCode的所有@LevelUp级以内的上级(@EmployeeCode和@LevelUp以变量传入)
DECLARE @EmployeeCode varchar(20), @LevelUp int;
SET @EmployeeCode = 'N';
SET @LevelUp = 2;
*/
--用递归CTE实现员工树形关系表
WITH CTE AS(
SELECT
EmployeeCode,
ReportToCode,
ReportToDepth = 0,
ReportToPath = CAST('/' + EmployeeCode + '/' AS varchar(200))
FROM #Employees
WHERE ReportToCode IS NULL
UNION ALL
SELECT
e.EmployeeCode,
e.ReportToCode,
ReportToDepth = mgr.ReportToDepth + 1,
ReportToPath = CAST(mgr.ReportToPath + e.EmployeeCode + '/' AS varchar(200))
FROM #Employees e
INNER JOIN CTE mgr
ON e.ReportToCode = mgr.EmployeeCode
)
SELECT * FROM CTE ORDER BY ReportToPath
5.IPv4地址的存储与查询
<strong>--测试数据
CREATE TABLE #IPs(
strIP varchar(15) NULL,
binIP binary(4) NULL)
GO
INSERT INTO #IPs VALUES('0.0.0.0',NULL)
INSERT INTO #IPs VALUES('255.255.255.255',NULL)
INSERT INTO #IPs VALUES('127.0.0.1',NULL)
INSERT INTO #IPs VALUES('192.168.43.192',NULL)
INSERT INTO #IPs VALUES('192.168.1.101',NULL)
INSERT INTO #IPs VALUES('65.54.239.80',NULL)
INSERT INTO #IPs VALUES(NULL,0xB92AEAD3)
INSERT INTO #IPs VALUES(NULL,0x2D4B2E53)
INSERT INTO #IPs VALUES(NULL,0x31031B0B)
INSERT INTO #IPs VALUES(NULL,0x7C2D5F2F)
INSERT INTO #IPs VALUES(NULL,0x473E5D31)
INSERT INTO #IPs VALUES(NULL,0x90D7D66B)
GO
SELECT
strIP,binIP,
strIP_new = CAST(CAST(SUBSTRING(binIP,1,1) AS int) AS varchar(3)) + '.' +
CAST(CAST(SUBSTRING(binIP,2,1) AS int) AS varchar(3)) + '.' +
CAST(CAST(SUBSTRING(binIP,3,1) AS int) AS varchar(3)) + '.' +
CAST(CAST(SUBSTRING(binIP,4,1) AS int) AS varchar(3)),
binIP_new = CAST(CAST(PARSENAME(strIP,4) AS int) AS binary(1)) +
CAST(CAST(PARSENAME(strIP,3) AS int) AS binary(1)) +
CAST(CAST(PARSENAME(strIP,2) AS int) AS binary(1)) +
CAST(CAST(PARSENAME(strIP,1) AS int) AS binary(1)),
intIP_new = CAST(PARSENAME(strIP,1) AS bigint) +
CAST(PARSENAME(strIP,2) AS bigint) * 256 +
CAST(PARSENAME(strIP,3) AS bigint) * 65536 +
CAST(PARSENAME(strIP,4) AS bigint) * 16777216 --int类型也可以,但浪费空间且不直观
FROM #IPs
</strong>6.中文字符处理
--ASCII字符 SELECT n,x=CAST(n AS binary(2)),u=NCHAR(n) FROM Nums WHERE n BETWEEN 32 AND 126 --UNICODE中文字符 SELECT n,x=CAST(n AS binary(2)),u=NCHAR(n) FROM Nums WHERE n BETWEEN 19968 AND 40869 19968 0x4E00 一 40869 0x9FA5 龥 --以下两个条件用来判断字符串是否包含汉字 LIKE N'%[吖-咗]%' COLLATE Chinese_PRC_CI_AS LIKE N'%[一-龥]%' COLLATE Chinese_PRC_BIN --这是因为在以上两种不同的排序规则下,汉字的排列顺序是不同的。 --中文全角标点符号 SELECT n,x=CAST(n AS binary(2)),uq=NCHAR(n),ub=NCHAR(n-65248) FROM Nums WHERE n BETWEEN 65281 AND 65374 SELECT NCHAR(12288),NCHAR(32) 65281 0xFF01 ! ! 65374 0xFF5E ~ ~ --以下条件用来判断字符串是否包含全角标点 LIKE N'%[!-~]%' COLLATE Chinese_PRC_BIN
--full2half CREATE FUNCTION [dbo].[full2half]( @String nvarchar(max) ) RETURNS nvarchar(max) AS /* 全角(Fullwidth)转换为半角(Halfwidth) */ BEGIN DECLARE @chr nchar(1) DECLARE @i int SET @String = REPLACE(@String,N' ',N' ') SET @i = PATINDEX(N'%[!-~]%' COLLATE Latin1_General_BIN,@String) WHILE @i > 0 BEGIN SET @chr = SUBSTRING(@String,@i,1) SET @String = REPLACE(@String,@chr,NCHAR(UNICODE(@chr)-65248)) SET @i = PATINDEX(N'%[!-~]%' COLLATE Latin1_General_BIN,@String) END RETURN @String END GO CREATE FUNCTION [dbo].[half2full]( @String nvarchar(max) ) RETURNS nvarchar(max) AS /* 半角(Halfwidth)转换为全角(Fullwidth) */ BEGIN DECLARE @chr nchar(1) DECLARE @i int SET @String = REPLACE(@String,N' ',N' ') SET @i = PATINDEX(N'%[!-~]%' COLLATE Latin1_General_BIN,@String) WHILE @i > 0 BEGIN SET @chr = SUBSTRING(@String,@i,1) SET @String = REPLACE(@String,@chr,NCHAR(UNICODE(@chr)+65248)) SET @i = PATINDEX(N'%[!-~]%' COLLATE Latin1_General_BIN,@String) END RETURN @String END GO
7.binary字符串
--string到binary可以用这个系统函数sys.fn_varbintohexstr()(实际上是master.dbo.fn_varbintohexstr)
SELECT sys.fn_varbintohexstr(0x1234),'0x1234'
--binary到string需要自定义函数
CREATE FUNCTION dbo.hexstr2varbin(
@hexstr varchar(max)
)
RETURNS varbinary(max)
AS
/*
将表示16进制的字符串转换为2进制类型
--TESTCASES
SELECT dbo.hexstr2varbin(NULL),NULL
SELECT dbo.hexstr2varbin(''),0x
SELECT dbo.hexstr2varbin('0x'),0x
SELECT dbo.hexstr2varbin('30394161'),0x30394161
SELECT dbo.hexstr2varbin('0x30394161'),0x30394161
SELECT dbo.hexstr2varbin('0x1A2B3C4D5E6F'),0x1A2B3C4D5E6F
SELECT dbo.hexstr2varbin('0x1a2b3c4d5e6f'),0x1a2b3c4d5e6f
--UNIMPLEMENTED
SELECT dbo.hexstr2varbin('0x3039416'),0x3039416
*/
BEGIN
DECLARE @value int
DECLARE @ascii int
DECLARE @varbin varbinary(max)
IF @hexstr LIKE '0x%'
SET @hexstr = STUFF(@hexstr,1,2,'')
SET @hexstr = UPPER(@hexstr)
IF @hexstr NOT LIKE '%[^0-9A-F]%' COLLATE Chinese_PRC_BIN
BEGIN
SET @varbin = 0x
WHILE @hexstr <> ''
BEGIN
SET @value = ASCII(SUBSTRING(@hexstr,1,1))
IF @value <= 57
SET @value = @value - 48
ELSE
SET @value = @value - 55
SET @ascii = @value * 16
SET @value = ASCII(SUBSTRING(@hexstr,2,1))
IF @value <= 57
SET @value = @value - 48
ELSE
SET @value = @value - 55
SET @ascii = @ascii + @value
SET @varbin = @varbin + CAST(@ascii AS binary(1))
SET @hexstr = STUFF(@hexstr,1,2,'')
END
END
RETURN @varbin
END
GO