Примечание.
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Образец String Utilities содержит потоковую возвращающую функцию с табличным значением, написанную на языках Visual C# и Visual Basic, которая разбивает разделенную запятыми строку на таблицу с одним столбцом. Он также содержит агрегатную функцию, преобразующую строковый столбец в разделенную запятыми строку. Также реализованы скалярная функция и функции с табличными значениями, предоставляющие возможность поиска и замены с помощью регулярных выражений.
Для реализации потоковой функции с табличным значением создайте метод, возвращающий объект, который реализует интерфейс IEnumerable. Этот метод интерфейса IEnumerable должен быть связан атрибутом с другим методом, который заполняет строки функции с табличным значением.
Предварительные требования
Для создания и запуска этого проекта должно быть установлено следующее программное обеспечение:
SQL Server или SQL Server Express. SQL Server Express можно получить бесплатно с веб-сайтадокументации и образцов SQL Server Express (возможно, на английском языке)
База данных AdventureWorks, которая доступна на веб-сайте разработки SQL Server (возможно, на английском языке).
Пакет SDK 2.0 для платформы .NET Framework или более поздняя версия либо среда Microsoft Visual Studio 2005 или более поздняя версия. Пакет SDK для платформы .NET Framework можно получить бесплатно.
Кроме того, должны выполняться следующие условия.
Для используемого экземпляра SQL Server должна быть включена интеграция со средой CLR.
Чтобы включить интеграцию со средой CLR, выполните следующие действия.
Включение интеграции со средой CLR
- Выполните следующие команды Transact-SQL:
sp_configure 'clr enabled', 1
GO
RECONFIGURE
GO
.gif "Примечание")
ПримечаниеЧтобы включить интеграцию со средой CLR, необходимо иметь разрешение ALTER SETTINGS на уровне сервера, которое неявно назначается членам предопределенных ролей сервера sysadmin и serveradmin.
На используемом экземпляре SQL Server должна быть установлена база данных AdventureWorks.
Если вы не являетесь администратором используемого экземпляра SQL Server, то для завершения установки необходимо, чтобы администратор предоставил разрешение CreateAssembly .
Построение образца
Создайте и запустите образец в соответствии со следующими инструкциями.
Откройте командную строку Visual Studio или .NET Framework.
Если необходимо, создайте каталог для своего образца. В данном примере будет использоваться каталог C:\MySample.
В каталоге c:\MySample создайте файл StringUtils.vb (для образца на языке Visual Basic) или StringUtils.cs (для образца на языке C#) и скопируйте в него соответствующий образец кода на языке Visual Basic или C# (ниже).
Скомпилируйте образец кода из командной строки, выполнив одну из следующих команд, в зависимости от выбранного языка.
Vbc /target:library /reference:"C:\Program Files (x86)\Reference Assemblies\Microsoft\Framework\v3.5\System.Core.dll",C:\Windows\Microsoft.NET\Framework\v2.0.50727\System.Data.dll,C:\Windows\Microsoft.NET\Framework\v2.0.50727\System.dll,C:\Windows\Microsoft.NET\Framework\v2.0.50727\System.Xml.dll /debug- /target:library StringUtils.vb
Csc/reference:C:\Windows\Microsoft.NET\Framework\v2.0.50727\System.Data.dll /reference:C:\Windows\Microsoft.NET\Framework\v2.0.50727\System.dll /reference:C:\Windows\Microsoft.NET\Framework\v2.0.50727\System.XML.dll /target:library StringUtils.cs
Скопируйте код установки Transact-SQL в файл и сохраните его в файле Install.sql в том же каталоге.
Если образец установлен в каталоге, отличном от C:\MySample\, внесите изменения в файл Install.sql, указав там этот каталог.
Разверните сборку и хранимую процедуру, выполнив
sqlcmd -E -I -i install.sql
Скопируйте скрипт проверки Transact-SQL в файл и сохраните его в файле test.sql в том же каталоге.
Выполните скрипт проверки следующей командой
- sqlcmd -E -I -i test.sql
Скопируйте скрипт очистки Transact-SQL в файл и сохраните его в файле cleanup.sql в том же каталоге.
Выполните скрипт следующей командой
- sqlcmd -E -I -i cleanup.sql
Образец кода
Ниже приведены листинги кода для данного образца.
C#
using System;
using System.IO;
using System.Collections;
using System.Collections.Generic;
using System.Text;
using System.Data;
using System.Data.SqlTypes;
using System.Data.Sql;
using System.Text.RegularExpressions;
using Microsoft.SqlServer.Server;
/// <summary>
/// This class is provides regular expression operations for Transact-SQL callers
/// </summary>
public sealed class RegularExpression
{
private RegularExpression()
{
}
/// <summary>
/// This method returns a table of matches, groups, and captures based on the input
/// string and pattern string provided.
/// </summary>
/// <param name="sqlInput">What to match against</param>
/// <param name="sqlPattern">What to look for</param>
/// <returns>An object which appears to be reading from SQL Server but which in fact is reading
/// from a memory based representation of the data.</returns>
[SqlFunction(FillRowMethodName = "FillRow")]
public static IEnumerable Matches(SqlString sqlInput, SqlString sqlPattern)
{
string input = (sqlInput.IsNull) ? string.Empty : sqlInput.Value;
string pattern = (sqlPattern.IsNull) ? string.Empty : sqlPattern.Value;
return GetMatches(input, pattern);
}
public static void FillRow(object obj, out int matchId, out int matchIndex, out string matchValue,
out int groupId, out int groupIndex, out string groupValue, out int captureIndex,
out string captureValue)
{
MatchResult result = (MatchResult)obj;
matchId = result.MatchID;
matchIndex = result.MatchIndex;
matchValue = result.MatchValue;
groupId = result.GroupID;
groupIndex = result.GroupIndex;
groupValue = result.GroupValue;
captureIndex = result.CaptureIndex;
captureValue = result.CaptureValue;
}
/// <summary>
/// Generates a list of Match/Group/Capture tuples represented using the
/// MatchResult struct based on the regular expression match of the input
/// string and pattern string provided.
/// </summary>
/// <param name="input">What to match</param>
/// <param name="pattern">What to look for</param>
/// <returns>A list of Match/Group/Capture tuples</returns>
private static List<MatchResult> GetMatches(string input, string pattern)
{
List<MatchResult> result = new List<MatchResult>();
int matchId = 0;
int groupId = 0;
foreach (Match m in Regex.Matches(input, pattern))
{
if (m.Groups.Count < 1)
result.Add(new MatchResult(matchId, m.Index, m.Value, -1, -1, string.Empty, -1, string.Empty));
else
{
groupId = 0;
foreach (Group g in m.Groups)
{
if (g.Captures.Count < 1)
result.Add(new MatchResult(matchId, m.Index, m.Value,
groupId, g.Index, g.Value, -1, string.Empty));
else
{
foreach (Capture c in m.Groups)
{
result.Add(new MatchResult(matchId, m.Index, m.Value,
groupId, g.Index, g.Value, c.Index, c.Value));
}
}
groupId += 1;
}
}
matchId += 1;
}
return result;
}
/// <summary>
/// This method performs a pattern based substitution based on the provided input string, pattern
/// string, and replacement string.
/// </summary>
/// <param name="sqlInput">The source material</param>
/// <param name="sqlPattern">How to parse the source material</param>
/// <param name="sqlReplacement">What the output should look like</param>
/// <returns></returns>
public static string Replace(SqlString sqlInput, SqlString sqlPattern, SqlString sqlReplacement)
{
string input = (sqlInput.IsNull) ? string.Empty : sqlInput.Value;
string pattern = (sqlPattern.IsNull) ? string.Empty : sqlPattern.Value;
string replacement = (sqlReplacement.IsNull) ? string.Empty : sqlReplacement.Value;
return Regex.Replace(input, pattern, replacement);
}
}
/// <summary>
/// This struct is used trepresents a Match/Group/Capture tuple. Instances of this struct are
/// created by the GetMatches method.
/// </summary>
internal struct MatchResult
{
/// <summary>
/// Which match this is
/// </summary>
private int _matchID;
public int MatchID
{
get
{
return this._matchID;
}
}
/// <summary>
/// Where the match starts in the input string
/// </summary>
private int _matchIndex;
public int MatchIndex
{
get
{
return this._matchIndex;
}
}
/// <summary>
/// What string matched the pattern
/// </summary>
private string _matchValue;
public string MatchValue
{
get
{
return this._matchValue;
}
}
/// <summary>
/// Which matching group this is
/// </summary>
private int _groupID;
public int GroupID
{
get
{
return this._groupID;
}
}
/// <summary>
/// Where this group starts in the input string
/// </summary>
private int _groupIndex;
public int GroupIndex
{
get
{
return this._groupIndex;
}
}
/// <summary>
/// What the group matched in the input string
/// </summary>
private string _groupValue;
public string GroupValue
{
get
{
return this._groupValue;
}
}
/// <summary>
/// Where this capture starts in the input string
/// </summary>
private int _captureIndex;
public int CaptureIndex
{
get
{
return this._captureIndex;
}
}
/// <summary>
/// What the capture matched in the input string
/// </summary>
private string _captureValue;
public string CaptureValue
{
get
{
return this._captureValue;
}
}
/// <summary>
/// A convenient constructor which fills in all the fields contained in this struct.
/// </summary>
/// <param name="matchID">Which match this is</param>
/// <param name="matchIndex">Where the match starts in the input string</param>
/// <param name="matchValue">What string matched the pattern</param>
/// <param name="groupID">Which matching group this is</param>
/// <param name="groupIndex">Where this group starts in the input string</param>
/// <param name="groupValue">What the group matched in the input string</param>
/// <param name="captureIndex">Where this capture starts in the input string</param>
/// <param name="captureValue">What the capture matched in the input string</param>
public MatchResult(int matchId, int matchIndex, string matchValue,
int groupId, int groupIndex, string groupValue,
int captureIndex, string captureValue)
{
this._matchID = matchId;
this._matchIndex = matchIndex;
this._matchValue = matchValue;
this._groupID = groupId;
this._groupIndex = groupIndex;
this._groupValue = groupValue;
this._captureIndex = captureIndex;
this._captureValue = captureValue;
}
}
public sealed class StringSplitter
{
/// <summary>
/// The streaming table-valued function used to split the string into a relation
/// </summary>
/// <param name="argument"></param>
/// <returns></returns>
[SqlFunction(FillRowMethodName = "FillRow")]
public static IEnumerable Split(SqlString argument)
{
string value;
if (argument.IsNull)
value = "";
else
value = argument.Value;
return value.Split(',');
}
public static void FillRow(Object obj, out string stringElement)
{
stringElement = (string)obj;
}
/// <summary>
/// Don't allow callers to create instances of this class
/// </summary>
private StringSplitter() { }
}
[Serializable]
[Microsoft.SqlServer.Server.SqlUserDefinedAggregate(
Microsoft.SqlServer.Server.Format.UserDefined, //use clr serialization to serialize the intermediate result
IsInvariantToNulls = true,//optimizer property
IsInvariantToDuplicates = false,//optimizer property
IsInvariantToOrder = false,//optimizer property
MaxByteSize = 8000)//maximum size in bytes of persisted value
]
public class Concatenate : Microsoft.SqlServer.Server.IBinarySerialize
{
/// <summary>
/// The variable that holds the intermediate result of the concatenation
/// </summary>
private StringBuilder intermediateResult;
/// <summary>
/// Initialize the internal data structures
/// </summary>
public void Init()
{
intermediateResult = new StringBuilder();
}
/// <summary>
/// Accumulate the next value, nop if the value is null
/// </summary>
/// <param name="value"></param>
public void Accumulate(SqlString value)
{
if (value.IsNull)
{
return;
}
intermediateResult.Append(value.Value).Append(',');
}
/// <summary>
/// Merge the partially computed aggregate with this aggregate.
/// </summary>
/// <param name="other"></param>
public void Merge(Concatenate other)
{
intermediateResult.Append(other.intermediateResult);
}
/// <summary>
/// Called at the end of aggregation, to return the results of the aggregation
/// </summary>
/// <returns></returns>
public SqlString Terminate()
{
string output = string.Empty;
//delete the trailing comma, if any
if (intermediateResult != null && intermediateResult.Length > 0)
output = intermediateResult.ToString(0, intermediateResult.Length - 1);
return new SqlString(output);
}
public void Read(BinaryReader r)
{
if (r == null) throw new ArgumentNullException("r");
intermediateResult = new StringBuilder(r.ReadString());
}
public void Write(BinaryWriter w)
{
if (w == null) throw new ArgumentNullException("w");
w.Write(intermediateResult.ToString());
}
}
VB.NET
Imports Microsoft.VisualBasic
Imports Microsoft.SqlServer.Server
Imports System
Imports System.Collections
Imports System.Collections.Generic
Imports System.Data
Imports System.Data.SqlTypes
Imports System.Diagnostics
Imports System.IO
Imports System.Linq
Imports System.Runtime.InteropServices
Imports System.Text
Imports System.Text.RegularExpressions
<Serializable(), Microsoft.SqlServer.Server.SqlUserDefinedAggregate(Microsoft.SqlServer.Server.Format.UserDefined, IsInvariantToNulls:=True, IsInvariantToDuplicates:=False, IsInvariantToOrder:=False, MaxByteSize:=8000)> _
Public Class Concatenate
'use clr serialization to serialize the intermediate result
'optimizer property
'optimizer property
'optimizer property
'maximum size in bytes of persisted value
Implements Microsoft.SqlServer.Server.IBinarySerialize
''' <summary>
''' The variable that holds the intermediate result of the concatenation
''' </summary>
Private intermediateResult As StringBuilder
''' <summary>
''' Initialize the internal data structures
''' </summary>
Public Sub Init()
intermediateResult = New StringBuilder()
End Sub
''' <summary>
''' Accumulate the next value, nop if the value is null
''' </summary>
''' <param name="value"></param>
Public Sub Accumulate(ByVal value As SqlString)
If value.IsNull Then
Return
End If
intermediateResult.Append(value.Value).Append(","c)
End Sub
''' <summary>
''' Merge the partially computed aggregate with this aggregate.
''' </summary>
''' <param name="other"></param>
Public Sub Merge(ByVal other As Concatenate)
intermediateResult.Append(other.intermediateResult)
End Sub
''' <summary>
''' Called at the end of aggregation, to return the results of the aggregation
''' </summary>
''' <returns></returns>
Public Function Terminate() As SqlString
Dim output As String = String.Empty
'delete the trailing comma, if any
If Not (intermediateResult Is Nothing) AndAlso intermediateResult.Length > 0 Then
output = intermediateResult.ToString(0, intermediateResult.Length - 1)
End If
Return New SqlString(output)
End Function
Public Sub Read(ByVal r As BinaryReader) Implements Microsoft.SqlServer.Server.IBinarySerialize.Read
If r Is Nothing Then
Throw New ArgumentNullException("r")
End If
intermediateResult = New StringBuilder(r.ReadString())
End Sub
Public Sub Write(ByVal w As BinaryWriter) Implements Microsoft.SqlServer.Server.IBinarySerialize.Write
If w Is Nothing Then
Throw New ArgumentNullException("w")
End If
w.Write(intermediateResult.ToString())
End Sub
End Class
Public NotInheritable Class RegularExpression
Private Sub New()
End Sub
''' <summary>
''' This method returns a table of matches, groups, and captures based on the input
''' string and pattern string provided.
''' </summary>
''' <param name="sqlInput">What to match against</param>
''' <param name="sqlPattern">What to look for</param>
''' <returns>An object which appears to be reading from SQL Server but which in fact is reading
''' from a memory based representation of the data.</returns>
<SqlFunction(Name:="RegexMatches", FillRowMethodName:="FillMatchRow", _
TableDefinition:="MatchID int, MatchIndex int, MatchValue nvarchar(4000), GroupID int, GroupIndex int, GroupValue nvarchar(4000), CaptureIndex int, CaptureValue nvarchar(4000)")> _
Public Shared Function Matches(ByVal sqlInput As SqlString, ByVal sqlPattern As SqlString) As IEnumerable
Dim input As String = String.Empty
If Not sqlInput.IsNull Then
input = sqlInput.Value
End If
Dim pattern As String = String.Empty
If Not sqlPattern.IsNull Then
pattern = sqlPattern.Value
End If
Return GetMatches(input, pattern)
End Function
''' <summary>
''' Invoked by SQL Server when returning a row of the TVF. Splits the MatchResult object into
''' the separate pieces of data which will form the columns of the row.
''' </summary>
''' <param name="row"></param>
''' <param name="matchID"></param>
''' <param name="matchIndex"></param>
''' <param name="matchValue"></param>
''' <param name="groupID"></param>
''' <param name="groupIndex"></param>
''' <param name="groupValue"></param>
''' <param name="captureIndex"></param>
''' <param name="captureValue"></param>
Private Shared Sub FillMatchRow(ByVal row As Object, <Out()> ByRef matchId As Integer, _
<Out()> ByRef matchIndex As Integer, <Out()> ByRef matchValue As String, <Out()> ByRef groupId As Integer, _
<Out()> ByRef groupIndex As Integer, <Out()> ByRef groupValue As String, <Out()> ByRef captureIndex As Integer, _
<Out()> ByRef captureValue As String)
Dim result As MatchResult
result = CType(row, MatchResult)
matchId = result.MatchID
matchIndex = result.MatchIndex
matchValue = result.MatchValue
groupId = result.GroupID
groupIndex = result.GroupIndex
groupValue = result.GroupValue
captureIndex = result.CaptureIndex
captureValue = result.CaptureValue
End Sub
''' <summary>
''' Generates a list of Match/Group/Capture tuples represented using the
''' MatchResult struct based on the regular expression match of the input
''' string and pattern string provided.
''' </summary>
''' <param name="input">What to match</param>
''' <param name="pattern">What to look for</param>
''' <returns>A list of Match/Group/Capture tuples</returns>
Private Shared Function GetMatches(ByVal input As String, ByVal pattern As String) As List(Of MatchResult)
Dim result As List(Of MatchResult) = New List(Of MatchResult)()
Dim matchID As Integer = 0
Dim groupID As Integer = 0
For Each m As Match In Regex.Matches(input, pattern)
If m.Groups.Count < 1 Then
result.Add(New MatchResult(matchID, m.Index, m.Value, -1, -1, _
String.Empty, -1, String.Empty))
Else
groupID = 0
For Each g As Group In m.Groups
If g.Captures.Count < 1 Then
result.Add(New MatchResult(matchID, m.Index, m.Value, _
groupID, g.Index, g.Value, -1, String.Empty))
Else
For Each c As Capture In m.Groups
result.Add(New MatchResult(matchID, m.Index, _
m.Value, groupID, g.Index, g.Value, c.Index, _
c.Value))
Next
End If
groupID += 1
Next
End If
matchID += 1
Next
Return result
End Function
''' <summary>
''' This method performs a pattern based substitution based on the provided input string, pattern
''' string, and replacement string.
''' </summary>
''' <param name="sqlInput">The source material</param>
''' <param name="sqlPattern">How to parse the source material</param>
''' <param name="sqlReplacement">What the output should look like</param>
''' <returns></returns>
<SqlFunction(Name:="RegexReplace", DataAccess:=DataAccessKind.None)> _
Public Shared Function Replace(ByVal sqlInput As SqlString, ByVal sqlPattern As SqlString, ByVal sqlReplacement As SqlString) As String
Dim input As String = String.Empty
If Not sqlInput.IsNull Then
input = sqlInput.Value
End If
Dim pattern As String = String.Empty
If Not sqlPattern.IsNull Then
pattern = sqlPattern.Value.ToString()
End If
Dim replacement As String = String.Empty
If Not sqlReplacement.IsNull Then
replacement = sqlReplacement.Value.ToString()
End If
Return Regex.Replace(input, pattern, replacement)
End Function
End Class
''' <summary>
''' This struct is used to represent a Match/Group/Capture tuple. Instances of
''' this struct are created by the GetMatches method.
''' </summary>
Friend Structure MatchResult
''' <summary>
''' Which match this is
''' </summary>
Private _matchID As Integer
Friend ReadOnly Property MatchID() As Integer
Get
Return Me._matchID
End Get
End Property
''' <summary>
''' Where the match starts in the input string
''' </summary>
Private _matchIndex As Integer
Friend ReadOnly Property MatchIndex() As Integer
Get
Return Me._matchIndex
End Get
End Property
''' <summary>
''' What string matched the pattern
''' </summary>
Private _matchValue As String
Friend ReadOnly Property MatchValue() As String
Get
Return Me._matchValue
End Get
End Property
''' <summary>
''' Which matching group this is
''' </summary>
Private _groupID As Integer
Friend ReadOnly Property GroupID() As Integer
Get
Return Me._groupID
End Get
End Property
''' <summary>
''' Where this group starts in the input string
''' </summary>
Private _groupIndex As Integer
Friend ReadOnly Property GroupIndex() As Integer
Get
Return Me._groupIndex
End Get
End Property
''' <summary>
''' What the group matched in the input string
''' </summary>
Private _groupValue As String
Friend ReadOnly Property GroupValue() As String
Get
Return Me._groupValue
End Get
End Property
''' <summary>
''' Where this capture starts in the input string
''' </summary>
Private _captureIndex As Integer
Friend ReadOnly Property CaptureIndex() As Integer
Get
Return Me._captureIndex
End Get
End Property
''' <summary>
''' What the capture matched in the input string
''' </summary>
Private _captureValue As String
Friend ReadOnly Property CaptureValue() As String
Get
Return Me._captureValue
End Get
End Property
''' <summary>
''' A convenient constructor which fills in all the fields contained in this struct.
''' </summary>
''' <param name="matchID">Which match this is</param>
''' <param name="matchIndex">Where the match starts in the input string</param>
''' <param name="matchValue">What string matched the pattern</param>
''' <param name="groupID">Which matching group this is</param>
''' <param name="groupIndex">Where this group starts in the input string</param>
''' <param name="groupValue">What the group matched in the input string</param>
''' <param name="captureIndex">Where this capture starts in the input string</param>
''' <param name="captureValue">What the capture matched in the input string</param>
Friend Sub New(ByVal matchID As Integer, ByVal matchIndex As Integer, ByVal matchValue As String, ByVal groupID As Integer, ByVal groupIndex As Integer, ByVal groupValue As String, ByVal captureIndex As Integer, ByVal captureValue As String)
Me._matchID = matchID
Me._matchIndex = matchIndex
Me._matchValue = matchValue
Me._groupID = groupID
Me._groupIndex = groupIndex
Me._groupValue = groupValue
Me._captureIndex = captureIndex
Me._captureValue = captureValue
End Sub
End Structure
Public NotInheritable Class StringSplitter
''' <summary>
''' The streaming table-valued function used to split the string into a relation
''' </summary>
''' <param name="argument"></param>
''' <returns></returns>
<SqlFunction(Name:="Split", DataAccess:=DataAccessKind.None, FillRowMethodName:="FillSplitRow", _
TableDefinition:="StringElement nvarchar(128) COLLATE Latin1_General_CI_AS")> _
Public Shared Function Split(ByVal argument As SqlString) As IEnumerable
Dim value As String
If argument.IsNull Then
value = String.Empty
Else
value = argument.Value
End If
Return value.Split(","c)
End Function
Private Shared Sub FillSplitRow(ByVal row As Object, ByRef stringElement As String)
stringElement = CType(row, String)
End Sub
''' <summary>
''' Don't allow callers to create instances of this class
''' </summary>
Private Sub New()
End Sub
End Class
Это скрипт установки Transact-SQL (Install.sql), который выполняет развертывание сборки и создает в базе данных хранимую процедуру.
USE AdventureWorks
GO
IF OBJECT_ID(N'RegexMatches', N'FT') is not null
DROP Function RegexMatches;
GO
IF OBJECT_ID(N'Split', N'FT') is not null
DROP Function Split;
GO
IF OBJECT_ID(N'RegexReplace', N'FS') is not null
DROP Function RegexReplace;
GO
IF OBJECT_ID(N'Concatenate', N'AF') is not null
DROP Aggregate Concatenate;
GO
IF EXISTS (SELECT * FROM sys.assemblies WHERE [name] = 'StringUtils')
DROP ASSEMBLY StringUtils;
GO
DECLARE @SamplePath nvarchar(1024)
-- You will need to modify the value of the this variable if you have installed the sample someplace other than the default location.
Set @SamplePath = 'C:\MySample\'
CREATE ASSEMBLY [StringUtils]
FROM @SamplePath + 'StringUtils.dll'
WITH permission_set = Safe;
GO
CREATE AGGREGATE [dbo].[Concatenate](@input nvarchar(4000))
RETURNS nvarchar(4000)
EXTERNAL NAME [StringUtils].[Concatenate];
GO
CREATE FUNCTION [dbo].[Split](@input nvarchar(4000))
RETURNS TABLE(StringElement nvarchar(128) COLLATE Latin1_General_CI_AS)
AS EXTERNAL NAME [StringUtils].[StringSplitter].[Split];
GO
CREATE FUNCTION [RegexMatches] (@input nvarchar(max), @pattern nvarchar(max))
RETURNS TABLE(
MatchID int,
MatchIndex int,
MatchValue nvarchar(4000),
GroupID int,
GroupIndex int,
GroupValue nvarchar(4000),
CaptureIndex int,
CaptureValue nvarchar(4000))
AS EXTERNAL NAME [StringUtils].[RegularExpression].[Matches];
GO
CREATE FUNCTION [RegexReplace] (@input nvarchar(max), @pattern nvarchar(max), @replacement nvarchar(max))
RETURNS nvarchar(max)
AS EXTERNAL NAME [StringUtils].[RegularExpression].[Replace]
GO
Это файл test.sql, который проверяет образец, выполняя его функции.
USE AdventureWorks
GO
-- Invoke the tvf
SELECT * FROM dbo.Split('will,this,work');
GO
-- Invoke the aggregate over the results of the tvf
SELECT dbo.Concatenate(StringElement) FROM dbo.Split('will,this,also,work');
GO
-- Find two word pairs where the first word contains an 'r'
SELECT MatchID, MatchIndex, MatchValue,
GroupID, GroupIndex, GroupValue,
CaptureIndex, CaptureValue
FROM dbo.RegexMatches('The quick red fox jumped over the lazy brown dog', '(\w*r\w*)\s(\w+)');
GO
-- A variant of the above with no backtracking
SELECT MatchID, MatchIndex, MatchValue,
GroupID, GroupIndex, GroupValue,
CaptureIndex, CaptureValue
FROM dbo.RegexMatches('The quick red fox jumped over the lazy brown dog', '(?>\w*r\w*)\s(?>\w+)');
GO
-- Swap the subject of the sentence with the object of the sentence.
SELECT dbo.RegexReplace('The quick red fox jumped over the lazy brown dog',
'^The (?<fox>(?:[\w]+\s){3})jumped over the (?<dog>(?:[\w]+\s){2}(?:[\w]+))$',
'The ${dog} jumped over the ${fox}');
В следующем образце Transact-SQL сборка и функции удаляются из базы данных.
USE AdventureWorks
GO
IF OBJECT_ID(N'RegexMatches', N'FT') is not null
DROP Function RegexMatches;
GO
IF OBJECT_ID(N'Split', N'FT') is not null
DROP Function Split;
GO
IF OBJECT_ID(N'RegexReplace', N'FS') is not null
DROP Function RegexReplace;
GO
IF OBJECT_ID(N'Concatenate', N'AF') is not null
DROP Aggregate Concatenate;
GO
IF EXISTS (SELECT * FROM sys.assemblies WHERE [name] = 'StringUtils')
DROP ASSEMBLY StringUtils;
GO