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Lidarr/NzbDrone.Services/NzbDrone.Services.Service/Services.PetaPoco.cs

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134 KiB

/* PetaPoco v4.0.3.11 - A Tiny ORMish thing for your POCO's.
* Copyright <EFBFBD> 2011 Topten Software. All Rights Reserved.
*
* Apache License 2.0 - http://www.toptensoftware.com/petapoco/license
*
* Special thanks to Rob Conery (@robconery) for original inspiration (ie:Massive) and for
* use of Subsonic's T4 templates, Rob Sullivan (@DataChomp) for hard core DBA advice
* and Adam Schroder (@schotime) for lots of suggestions, improvements and Oracle support
*/
//#define PETAPOCO_NO_DYNAMIC //in your project settings on .NET 3.5
using System;
using System.Collections;
using System.Collections.Generic;
using System.Linq;
using System.Text;
using System.Configuration;
using System.Data.Common;
using System.Data;
using System.Text.RegularExpressions;
using System.Reflection;
using System.Reflection.Emit;
using System.Linq.Expressions;
using System.Threading;
// ReSharper disable CheckNamespace
namespace Services.PetaPoco
{
// Poco's marked [Explicit] require all column properties to be marked
[AttributeUsage(AttributeTargets.Class)]
public class ExplicitColumnsAttribute : Attribute
{
}
// For non-explicit pocos, causes a property to be ignored
[AttributeUsage(AttributeTargets.Property)]
public class IgnoreAttribute : Attribute
{
}
// For explicit pocos, marks property as a column
[AttributeUsage(AttributeTargets.Property)]
public class ColumnAttribute : Attribute
{
public ColumnAttribute() { }
public ColumnAttribute(string name) { Name = name; }
public string Name { get; set; }
}
// For explicit pocos, marks property as a column
[AttributeUsage(AttributeTargets.Property)]
public class ResultColumnAttribute : ColumnAttribute
{
public ResultColumnAttribute() { }
public ResultColumnAttribute(string name) : base(name) { }
}
// Specify the table name of a poco
[AttributeUsage(AttributeTargets.Class)]
public class TableNameAttribute : Attribute
{
public TableNameAttribute(string tableName)
{
Value = tableName;
}
public string Value { get; private set; }
}
// Specific the primary key of a poco class (and optional sequence name for Oracle)
[AttributeUsage(AttributeTargets.Class)]
public class PrimaryKeyAttribute : Attribute
{
public PrimaryKeyAttribute(string primaryKey)
{
Value = primaryKey;
autoIncrement = true;
}
public string Value { get; private set; }
public string sequenceName { get; set; }
public bool autoIncrement { get; set; }
}
[AttributeUsage(AttributeTargets.Property)]
public class AutoJoinAttribute : Attribute
{
public AutoJoinAttribute() { }
}
[AttributeUsage(AttributeTargets.Property)]
public class VersionColumnAttribute : ColumnAttribute
{
public VersionColumnAttribute() { }
public VersionColumnAttribute(string name) : base(name) { }
}
// Results from paged request
public class Page<T>
{
public long CurrentPage { get; set; }
public long TotalPages { get; set; }
public long TotalItems { get; set; }
public long ItemsPerPage { get; set; }
public List<T> Items { get; set; }
public object Context { get; set; }
}
// Pass as parameter value to force to DBType.AnsiString
public class AnsiString
{
public AnsiString(string str)
{
Value = str;
}
public string Value { get; private set; }
}
// Used by IMapper to override table bindings for an object
public class TableInfo
{
public string TableName { get; set; }
public string PrimaryKey { get; set; }
public bool AutoIncrement { get; set; }
public string SequenceName { get; set; }
}
// Optionally provide an implementation of this to Database.Mapper
public interface IMapper
{
void GetTableInfo(Type t, TableInfo ti);
bool MapPropertyToColumn(PropertyInfo pi, ref string columnName, ref bool resultColumn);
Func<object, object> GetFromDbConverter(PropertyInfo pi, Type SourceType);
Func<object, object> GetToDbConverter(Type SourceType);
}
// This will be merged with IMapper in the next major version
public interface IMapper2 : IMapper
{
Func<object, object> GetFromDbConverter(Type DestType, Type SourceType);
}
public abstract class DefaultMapper : IMapper2
{
public virtual void GetTableInfo(Type t, TableInfo ti) { }
public virtual bool MapPropertyToColumn(PropertyInfo pi, ref string columnName, ref bool resultColumn)
{
return true;
}
public virtual Func<object, object> GetFromDbConverter(PropertyInfo pi, Type SourceType)
{
return GetFromDbConverter(pi.PropertyType, SourceType);
}
public virtual Func<object, object> GetToDbConverter(Type SourceType)
{
return null;
}
public virtual Func<object, object> GetFromDbConverter(Type DestType, Type SourceType)
{
return null;
}
}
public interface IDatabaseQuery
{
void OpenSharedConnection();
void CloseSharedConnection();
int Execute(string sql, params object[] args);
int Execute(Sql sql);
T ExecuteScalar<T>(string sql, params object[] args);
T ExecuteScalar<T>(Sql sql);
List<T> Fetch<T>();
List<T> Fetch<T>(string sql, params object[] args);
List<T> Fetch<T>(Sql sql);
List<T> Fetch<T>(long page, long itemsPerPage, string sql, params object[] args);
List<T> Fetch<T>(long page, long itemsPerPage, Sql sql);
Page<T> Page<T>(long page, long itemsPerPage, string sql, params object[] args);
Page<T> Page<T>(long page, long itemsPerPage, Sql sql);
List<T> SkipTake<T>(long skip, long take, string sql, params object[] args);
List<T> SkipTake<T>(long skip, long take, Sql sql);
List<TRet> Fetch<T1, T2, TRet>(Func<T1, T2, TRet> cb, string sql, params object[] args);
List<TRet> Fetch<T1, T2, T3, TRet>(Func<T1, T2, T3, TRet> cb, string sql, params object[] args);
List<TRet> Fetch<T1, T2, T3, T4, TRet>(Func<T1, T2, T3, T4, TRet> cb, string sql, params object[] args);
IEnumerable<TRet> Query<T1, T2, TRet>(Func<T1, T2, TRet> cb, string sql, params object[] args);
IEnumerable<TRet> Query<T1, T2, T3, TRet>(Func<T1, T2, T3, TRet> cb, string sql, params object[] args);
IEnumerable<TRet> Query<T1, T2, T3, T4, TRet>(Func<T1, T2, T3, T4, TRet> cb, string sql, params object[] args);
List<TRet> Fetch<T1, T2, TRet>(Func<T1, T2, TRet> cb, Sql sql);
List<TRet> Fetch<T1, T2, T3, TRet>(Func<T1, T2, T3, TRet> cb, Sql sql);
List<TRet> Fetch<T1, T2, T3, T4, TRet>(Func<T1, T2, T3, T4, TRet> cb, Sql sql);
IEnumerable<TRet> Query<T1, T2, TRet>(Func<T1, T2, TRet> cb, Sql sql);
IEnumerable<TRet> Query<T1, T2, T3, TRet>(Func<T1, T2, T3, TRet> cb, Sql sql);
IEnumerable<TRet> Query<T1, T2, T3, T4, TRet>(Func<T1, T2, T3, T4, TRet> cb, Sql sql);
List<T1> Fetch<T1, T2>(string sql, params object[] args);
List<T1> Fetch<T1, T2, T3>(string sql, params object[] args);
List<T1> Fetch<T1, T2, T3, T4>(string sql, params object[] args);
IEnumerable<T1> Query<T1, T2>(string sql, params object[] args);
IEnumerable<T1> Query<T1, T2, T3>(string sql, params object[] args);
IEnumerable<T1> Query<T1, T2, T3, T4>(string sql, params object[] args);
IEnumerable<TRet> Query<TRet>(Type[] types, object cb, string sql, params object[] args);
List<T1> Fetch<T1, T2>(Sql sql);
List<T1> Fetch<T1, T2, T3>(Sql sql);
List<T1> Fetch<T1, T2, T3, T4>(Sql sql);
IEnumerable<T1> Query<T1, T2>(Sql sql);
IEnumerable<T1> Query<T1, T2, T3>(Sql sql);
IEnumerable<T1> Query<T1, T2, T3, T4>(Sql sql);
IEnumerable<T> Query<T>(string sql, params object[] args);
IEnumerable<T> Query<T>(Sql sql);
T SingleById<T>(object primaryKey);
T SingleOrDefaultById<T>(object primaryKey);
T Single<T>(string sql, params object[] args);
T SingleInto<T>(T instance, string sql, params object[] args);
T SingleOrDefault<T>(string sql, params object[] args);
T SingleOrDefaultInto<T>(T instance, string sql, params object[] args);
T First<T>(string sql, params object[] args);
T FirstInto<T>(T instance, string sql, params object[] args);
T FirstOrDefault<T>(string sql, params object[] args);
T FirstOrDefaultInto<T>(T instance, string sql, params object[] args);
T Single<T>(Sql sql);
T SingleInto<T>(T instance, Sql sql);
T SingleOrDefault<T>(Sql sql);
T SingleOrDefaultInto<T>(T instance, Sql sql);
T First<T>(Sql sql);
T FirstInto<T>(T instance, Sql sql);
T FirstOrDefault<T>(Sql sql);
T FirstOrDefaultInto<T>(T instance, Sql sql);
Dictionary<TKey, TValue> Dictionary<TKey, TValue>(Sql Sql);
Dictionary<TKey, TValue> Dictionary<TKey, TValue>(string sql, params object[] args);
bool Exists<T>(object primaryKey);
int OneTimeCommandTimeout { get; set; }
TRet FetchMultiple<T1, T2, TRet>(Func<List<T1>, List<T2>, TRet> cb, string sql, params object[] args);
TRet FetchMultiple<T1, T2, T3, TRet>(Func<List<T1>, List<T2>, List<T3>, TRet> cb, string sql, params object[] args);
TRet FetchMultiple<T1, T2, T3, T4, TRet>(Func<List<T1>, List<T2>, List<T3>, List<T4>, TRet> cb, string sql, params object[] args);
TRet FetchMultiple<T1, T2, TRet>(Func<List<T1>, List<T2>, TRet> cb, Sql sql);
TRet FetchMultiple<T1, T2, T3, TRet>(Func<List<T1>, List<T2>, List<T3>, TRet> cb, Sql sql);
TRet FetchMultiple<T1, T2, T3, T4, TRet>(Func<List<T1>, List<T2>, List<T3>, List<T4>, TRet> cb, Sql sql);
#if PETAPOCO_NO_DYNAMIC
Database.Tuple<List<T1>, List<T2>> FetchMultiple<T1, T2>(string sql, params object[] args);
Database.Tuple<List<T1>, List<T2>, List<T3>> FetchMultiple<T1, T2, T3>(string sql, params object[] args);
Database.Tuple<List<T1>, List<T2>, List<T3>, List<T4>> FetchMultiple<T1, T2, T3, T4>(string sql, params object[] args);
Database.Tuple<List<T1>, List<T2>> FetchMultiple <T1, T2>(Sql sql);
Database.Tuple<List<T1>, List<T2>, List<T3>> FetchMultiple <T1, T2, T3>(Sql sql);
Database.Tuple<List<T1>, List<T2>, List<T3>, List<T4>> FetchMultiple <T1, T2, T3, T4>(Sql sql);
#else
Tuple<List<T1>, List<T2>> FetchMultiple<T1, T2>(string sql, params object[] args);
Tuple<List<T1>, List<T2>, List<T3>> FetchMultiple<T1, T2, T3>(string sql, params object[] args);
Tuple<List<T1>, List<T2>, List<T3>, List<T4>> FetchMultiple<T1, T2, T3, T4>(string sql, params object[] args);
Tuple<List<T1>, List<T2>> FetchMultiple<T1, T2>(Sql sql);
Tuple<List<T1>, List<T2>, List<T3>> FetchMultiple<T1, T2, T3>(Sql sql);
Tuple<List<T1>, List<T2>, List<T3>, List<T4>> FetchMultiple<T1, T2, T3, T4>(Sql sql);
#endif
}
public interface IDatabase : IDatabaseQuery
{
void Dispose();
IDbConnection Connection { get; }
IDbTransaction Transaction { get; }
IDataParameter CreateParameter();
Transaction GetTransaction();
Transaction GetTransaction(IsolationLevel? isolationLevel);
void BeginTransaction();
void BeginTransaction(IsolationLevel? isolationLevel);
void AbortTransaction();
void CompleteTransaction();
object Insert(string tableName, string primaryKeyName, bool autoIncrement, object poco);
object Insert(string tableName, string primaryKeyName, object poco);
object Insert(object poco);
int Update(string tableName, string primaryKeyName, object poco, object primaryKeyValue);
int Update(string tableName, string primaryKeyName, object poco);
int Update(string tableName, string primaryKeyName, object poco, object primaryKeyValue, IEnumerable<string> columns);
int Update(string tableName, string primaryKeyName, object poco, IEnumerable<string> columns);
int Update(object poco, IEnumerable<string> columns);
int Update(object poco, object primaryKeyValue, IEnumerable<string> columns);
int Update(object poco);
int Update(object poco, object primaryKeyValue);
int Update<T>(string sql, params object[] args);
int Update<T>(Sql sql);
int Delete(string tableName, string primaryKeyName, object poco);
int Delete(string tableName, string primaryKeyName, object poco, object primaryKeyValue);
int Delete(object poco);
int Delete<T>(string sql, params object[] args);
int Delete<T>(Sql sql);
int Delete<T>(object pocoOrPrimaryKey);
void Save(string tableName, string primaryKeyName, object poco);
void Save(object poco);
}
// Database class ... this is where most of the action happens
public class Database : IDisposable, IDatabase
{
public const string MsSqlClientProvider = "System.Data.SqlClient";
public Database(IDbConnection connection) : this(connection, DBType.NotSet) { }
public Database(IDbConnection connection, DBType dbType)
{
_sharedConnection = connection;
_connectionString = connection.ConnectionString;
_sharedConnectionDepth = 2; // Prevent closing external connection
_dbType = dbType;
CommonConstruct();
}
public Database(string connectionString, string providerName)
{
_connectionString = connectionString;
_providerName = providerName;
CommonConstruct();
}
public Database(string connectionString, DbProviderFactory provider)
{
_connectionString = connectionString;
_factory = provider;
CommonConstruct();
}
public Database(string connectionStringName)
{
// Use first?
if (connectionStringName == "")
connectionStringName = ConfigurationManager.ConnectionStrings[0].Name;
// Work out connection string and provider name
var providerName = "System.Data.SqlClient";
if (ConfigurationManager.ConnectionStrings[connectionStringName] != null)
{
if (!string.IsNullOrEmpty(ConfigurationManager.ConnectionStrings[connectionStringName].ProviderName))
providerName = ConfigurationManager.ConnectionStrings[connectionStringName].ProviderName;
}
else
{
throw new InvalidOperationException("Can't find a connection string with the name '" + connectionStringName + "'");
}
// Store factory and connection string
_connectionString = ConfigurationManager.ConnectionStrings[connectionStringName].ConnectionString;
_providerName = providerName;
CommonConstruct();
}
public enum DBType
{
NotSet,
SqlServer,
SqlServerCE,
MySql,
PostgreSQL,
Oracle,
SQLite
}
protected DBType _dbType = DBType.NotSet;
// Common initialization
private void CommonConstruct()
{
_transactionDepth = 0;
ForceDateTimesToUtc = true;
EnableAutoSelect = true;
if (_providerName != null)
_factory = DbProviderFactories.GetFactory(_providerName);
if (_dbType == DBType.NotSet)
{
_dbType = DBType.SqlServer;
string dbtype = (_factory == null ? _sharedConnection.GetType() : _factory.GetType()).Name;
if (dbtype.StartsWith("MySql"))
_dbType = DBType.MySql;
else if (dbtype.StartsWith("SqlCe"))
_dbType = DBType.SqlServerCE;
else if (dbtype.StartsWith("Npgsql"))
_dbType = DBType.PostgreSQL;
else if (dbtype.StartsWith("Oracle"))
_dbType = DBType.Oracle;
else if (dbtype.StartsWith("SQLite"))
_dbType = DBType.SQLite;
}
if (_dbType == DBType.MySql && _connectionString != null && _connectionString.IndexOf("Allow User Variables=true") >= 0)
_paramPrefix = "?";
if (_dbType == DBType.Oracle)
_paramPrefix = ":";
}
// Automatically close one open shared connection
public void Dispose()
{
// Automatically close one open connection reference
// (Works with KeepConnectionAlive and manually opening a shared connection)
CloseSharedConnection();
}
// Set to true to keep the first opened connection alive until this object is disposed
public bool KeepConnectionAlive { get; set; }
// Open a connection (can be nested)
public void OpenSharedConnection()
{
if (_sharedConnectionDepth == 0)
{
_sharedConnection = _factory.CreateConnection();
_sharedConnection.ConnectionString = _connectionString;
if (_sharedConnection.State == ConnectionState.Broken)
_sharedConnection.Close();
if (_sharedConnection.State == ConnectionState.Closed)
_sharedConnection.Open();
_sharedConnection = OnConnectionOpened(_sharedConnection);
if (KeepConnectionAlive)
_sharedConnectionDepth++; // Make sure you call Dispose
}
_sharedConnectionDepth++;
}
// Close a previously opened connection
public void CloseSharedConnection()
{
if (_sharedConnectionDepth > 0)
{
_sharedConnectionDepth--;
if (_sharedConnectionDepth == 0)
{
OnConnectionClosing(_sharedConnection);
_sharedConnection.Dispose();
_sharedConnection = null;
}
}
}
public VersionExceptionHandling VersionException
{
get { return _versionException; }
set { _versionException = value; }
}
// Access to our shared connection
public IDbConnection Connection
{
get { return _sharedConnection; }
}
public IDbTransaction Transaction
{
get { return _transaction; }
}
public IDataParameter CreateParameter()
{
using (var conn = _sharedConnection ?? _factory.CreateConnection())
using (var comm = conn.CreateCommand())
return comm.CreateParameter();
}
// Helper to create a transaction scope
public Transaction GetTransaction()
{
return GetTransaction(null);
}
public Transaction GetTransaction(IsolationLevel? isolationLevel)
{
return new Transaction(this, isolationLevel);
}
// Use by derived repo generated by T4 templates
public virtual void OnBeginTransaction() { }
public virtual void OnEndTransaction() { }
public void BeginTransaction()
{
BeginTransaction(null);
}
// Start a new transaction, can be nested, every call must be
// matched by a call to AbortTransaction or CompleteTransaction
// Use `using (var scope=db.Transaction) { scope.Complete(); }` to ensure correct semantics
public void BeginTransaction(IsolationLevel? isolationLevel)
{
_transactionDepth++;
if (_transactionDepth == 1)
{
OpenSharedConnection();
_transaction = isolationLevel == null ? _sharedConnection.BeginTransaction() : _sharedConnection.BeginTransaction(isolationLevel.Value);
_transactionCancelled = false;
OnBeginTransaction();
}
}
// Internal helper to cleanup transaction stuff
void CleanupTransaction()
{
OnEndTransaction();
if (_transactionCancelled)
_transaction.Rollback();
else
_transaction.Commit();
_transaction.Dispose();
_transaction = null;
CloseSharedConnection();
}
// Abort the entire outer most transaction scope
public void AbortTransaction()
{
_transactionCancelled = true;
if ((--_transactionDepth) == 0)
CleanupTransaction();
}
// Complete the transaction
public void CompleteTransaction()
{
if ((--_transactionDepth) == 0)
CleanupTransaction();
}
// Helper to handle named parameters from object properties
static Regex rxParams = new Regex(@"(?<!@)@\w+", RegexOptions.Compiled);
public static string ProcessParams(string _sql, object[] args_src, List<object> args_dest)
{
return rxParams.Replace(_sql, m =>
{
string param = m.Value.Substring(1);
object arg_val;
int paramIndex;
if (int.TryParse(param, out paramIndex))
{
// Numbered parameter
if (paramIndex < 0 || paramIndex >= args_src.Length)
throw new ArgumentOutOfRangeException(string.Format("Parameter '@{0}' specified but only {1} parameters supplied (in `{2}`)", paramIndex, args_src.Length, _sql));
arg_val = args_src[paramIndex];
}
else
{
// Look for a property on one of the arguments with this name
bool found = false;
arg_val = null;
foreach (var o in args_src)
{
var pi = o.GetType().GetProperty(param);
if (pi != null)
{
arg_val = pi.GetValue(o, null);
found = true;
break;
}
}
if (!found)
throw new ArgumentException(string.Format("Parameter '@{0}' specified but none of the passed arguments have a property with this name (in '{1}')", param, _sql));
}
// Expand collections to parameter lists
if ((arg_val as System.Collections.IEnumerable) != null &&
(arg_val as string) == null &&
(arg_val as byte[]) == null)
{
var sb = new StringBuilder();
foreach (var i in arg_val as System.Collections.IEnumerable)
{
var indexOfExistingValue = args_dest.IndexOf(i);
if (indexOfExistingValue >= 0)
{
sb.Append((sb.Length == 0 ? "@" : ",@") + indexOfExistingValue);
}
else
{
sb.Append((sb.Length == 0 ? "@" : ",@") + args_dest.Count);
args_dest.Add(i);
}
}
if (sb.Length == 0)
{
sb.AppendFormat("select 1 /*peta_dual*/ where 1 = 0");
}
return sb.ToString();
}
else
{
var indexOfExistingValue = args_dest.IndexOf(arg_val);
if (indexOfExistingValue >= 0)
return "@" + indexOfExistingValue;
args_dest.Add(arg_val);
return "@" + (args_dest.Count - 1).ToString();
}
}
);
}
// Add a parameter to a DB command
void AddParam(IDbCommand cmd, object item, string ParameterPrefix)
{
// Convert value to from poco type to db type
if (Database.Mapper != null && item != null)
{
var fn = Database.Mapper.GetToDbConverter(item.GetType());
if (fn != null)
item = fn(item);
}
// Support passed in parameters
var idbParam = item as IDbDataParameter;
if (idbParam != null)
{
idbParam.ParameterName = string.Format("{0}{1}", ParameterPrefix, cmd.Parameters.Count);
cmd.Parameters.Add(idbParam);
return;
}
var p = cmd.CreateParameter();
p.ParameterName = string.Format("{0}{1}", ParameterPrefix, cmd.Parameters.Count);
if (item == null)
{
p.Value = DBNull.Value;
}
else
{
var t = item.GetType();
if (t.IsEnum) // PostgreSQL .NET driver wont cast enum to int
{
p.Value = (int)item;
}
else if (t == typeof(Guid))
{
p.Value = item.ToString();
p.DbType = DbType.String;
p.Size = 40;
}
else if (t == typeof(string))
{
p.Size = Math.Max((item as string).Length + 1, 4000); // Help query plan caching by using common size
p.Value = item;
}
else if (t == typeof(AnsiString))
{
// Thanks @DataChomp for pointing out the SQL Server indexing performance hit of using wrong string type on varchar
p.Size = Math.Max((item as AnsiString).Value.Length + 1, 4000);
p.Value = (item as AnsiString).Value;
p.DbType = DbType.AnsiString;
}
else if (t == typeof(bool) && _dbType != DBType.PostgreSQL)
{
p.Value = ((bool)item) ? 1 : 0;
}
else if (item.GetType().Name == "SqlGeography") //SqlGeography is a CLR Type
{
p.GetType().GetProperty("UdtTypeName").SetValue(p, "geography", null); //geography is the equivalent SQL Server Type
p.Value = item;
}
else if (item.GetType().Name == "SqlGeometry") //SqlGeometry is a CLR Type
{
p.GetType().GetProperty("UdtTypeName").SetValue(p, "geometry", null); //geography is the equivalent SQL Server Type
p.Value = item;
}
else
{
p.Value = item;
}
}
cmd.Parameters.Add(p);
}
// Create a command
static Regex rxParamsPrefix = new Regex(@"(?<!@)@\w+", RegexOptions.Compiled);
IDbCommand CreateCommand(IDbConnection connection, string sql, params object[] args)
{
// Perform parameter prefix replacements
if (_paramPrefix != "@")
sql = rxParamsPrefix.Replace(sql, m => _paramPrefix + m.Value.Substring(1));
sql = sql.Replace("@@", "@"); // <- double @@ escapes a single @
// Create the command and add parameters
IDbCommand cmd = connection.CreateCommand();
cmd.Connection = connection;
cmd.CommandText = sql;
cmd.Transaction = _transaction;
foreach (var item in args)
{
AddParam(cmd, item, _paramPrefix);
}
if (_dbType == DBType.Oracle)
cmd.GetType().GetProperty("BindByName").SetValue(cmd, true, null);
if (_dbType == DBType.Oracle || _dbType == DBType.MySql)
cmd.CommandText = cmd.CommandText.Replace("/*peta_dual*/", "from dual");
if (!String.IsNullOrEmpty(sql))
DoPreExecute(cmd);
return cmd;
}
// Override this to log/capture exceptions
public virtual void OnException(Exception x)
{
System.Diagnostics.Debug.WriteLine(x.ToString());
System.Diagnostics.Debug.WriteLine(LastCommand);
}
// Override this to log commands, or modify command before execution
public virtual IDbConnection OnConnectionOpened(IDbConnection conn) { return conn; }
public virtual void OnConnectionClosing(IDbConnection conn) { }
public virtual void OnExecutingCommand(IDbCommand cmd) { }
public virtual void OnExecutedCommand(IDbCommand cmd) { }
// Execute a non-query command
public int Execute(string sql, params object[] args)
{
return Execute(new Sql(sql, args));
}
public int Execute(Sql Sql)
{
var sql = Sql.SQL;
var args = Sql.Arguments;
try
{
OpenSharedConnection();
try
{
using (var cmd = CreateCommand(_sharedConnection, sql, args))
{
var result = cmd.ExecuteNonQuery();
OnExecutedCommand(cmd);
return result;
}
}
finally
{
CloseSharedConnection();
}
}
catch (Exception x)
{
OnException(x);
throw;
}
}
// Execute and cast a scalar property
public T ExecuteScalar<T>(string sql, params object[] args)
{
return ExecuteScalar<T>(new Sql(sql, args));
}
public T ExecuteScalar<T>(Sql Sql)
{
var sql = Sql.SQL;
var args = Sql.Arguments;
try
{
OpenSharedConnection();
try
{
using (var cmd = CreateCommand(_sharedConnection, sql, args))
{
object val = cmd.ExecuteScalar();
OnExecutedCommand(cmd);
Type t = typeof(T);
Type u = Nullable.GetUnderlyingType(t);
if (u != null)
{
if (val == null || val == DBNull.Value)
return default(T);
return (T)Convert.ChangeType(val, u);
}
else
{
return (T)Convert.ChangeType(val, t);
}
}
}
finally
{
CloseSharedConnection();
}
}
catch (Exception x)
{
OnException(x);
throw;
}
}
static Regex rxSelect = new Regex(@"\A\s*(SELECT|EXECUTE|CALL|EXEC)\s", RegexOptions.Compiled | RegexOptions.Singleline | RegexOptions.IgnoreCase | RegexOptions.Multiline);
static Regex rxFrom = new Regex(@"\A\s*FROM\s", RegexOptions.Compiled | RegexOptions.Singleline | RegexOptions.IgnoreCase | RegexOptions.Multiline);
string AddSelectClause<T>(string sql)
{
if (sql.StartsWith(";"))
return sql.Substring(1);
if (!rxSelect.IsMatch(sql))
{
var pd = PocoData.ForType(typeof(T));
var tableName = EscapeTableName(pd.TableInfo.TableName);
string cols = string.Join(", ", (from c in pd.QueryColumns select EscapeSqlIdentifier(c)).ToArray());
if (!rxFrom.IsMatch(sql))
sql = string.Format("SELECT {0} FROM {1} {2}", cols, tableName, sql);
else
sql = string.Format("SELECT {0} {1}", cols, sql);
}
return sql;
}
public bool ForceDateTimesToUtc { get; set; }
public bool EnableAutoSelect { get; set; }
// Return a typed list of pocos
public List<T> Fetch<T>(string sql, params object[] args)
{
return Fetch<T>(new Sql(sql, args));
}
public List<T> Fetch<T>(Sql sql)
{
return Query<T>(sql).ToList();
}
public List<T> Fetch<T>()
{
return Fetch<T>("");
}
static Regex rxColumns = new Regex(@"\A\s*SELECT\s+((?:\((?>\((?<depth>)|\)(?<-depth>)|.?)*(?(depth)(?!))\)|.)*?)(?<!,\s+)\bFROM\b", RegexOptions.IgnoreCase | RegexOptions.Multiline | RegexOptions.Singleline | RegexOptions.Compiled);
static Regex rxOrderBy = new Regex(@"\bORDER\s+BY\s+(?!.*?(?:\)|\s+)AS\s)(?:\((?>\((?<depth>)|\)(?<-depth>)|.?)*(?(depth)(?!))\)|[\w\(\)\.])+(?:\s+(?:ASC|DESC))?(?:\s*,\s*(?:\((?>\((?<depth>)|\)(?<-depth>)|.?)*(?(depth)(?!))\)|[\w\(\)\.])+(?:\s+(?:ASC|DESC))?)*", RegexOptions.RightToLeft | RegexOptions.IgnoreCase | RegexOptions.Multiline | RegexOptions.Singleline | RegexOptions.Compiled);
static Regex rxDistinct = new Regex(@"\ADISTINCT\s", RegexOptions.IgnoreCase | RegexOptions.Multiline | RegexOptions.Singleline | RegexOptions.Compiled);
public static bool SplitSqlForPaging(string sql, out string sqlCount, out string sqlSelectRemoved, out string sqlOrderBy)
{
sqlSelectRemoved = null;
sqlCount = null;
sqlOrderBy = null;
// Extract the columns from "SELECT <whatever> FROM"
var m = rxColumns.Match(sql);
if (!m.Success)
return false;
// Save column list and replace with COUNT(*)
Group g = m.Groups[1];
sqlSelectRemoved = sql.Substring(g.Index);
if (rxDistinct.IsMatch(sqlSelectRemoved))
sqlCount = sql.Substring(0, g.Index) + "COUNT(" + m.Groups[1].ToString().Trim() + ") " + sql.Substring(g.Index + g.Length);
else
sqlCount = sql.Substring(0, g.Index) + "COUNT(*) " + sql.Substring(g.Index + g.Length);
// Look for an "ORDER BY <whatever>" clause
m = rxOrderBy.Match(sqlCount);
if (m.Success)
{
g = m.Groups[0];
sqlOrderBy = g.ToString();
sqlCount = sqlCount.Substring(0, g.Index) + sqlCount.Substring(g.Index + g.Length);
}
return true;
}
public void BuildPageQueries<T>(long skip, long take, string sql, ref object[] args, out string sqlCount, out string sqlPage)
{
// Add auto select clause
sql = AddSelectClause<T>(sql);
// Split the SQL into the bits we need
string sqlSelectRemoved, sqlOrderBy;
if (!SplitSqlForPaging(sql, out sqlCount, out sqlSelectRemoved, out sqlOrderBy))
throw new Exception("Unable to parse SQL statement for paged query");
if (_dbType == DBType.Oracle && sqlSelectRemoved.StartsWith("*"))
throw new Exception("Query must alias '*' when performing a paged query.\neg. select t.* from table t order by t.id");
// Build the SQL for the actual final result
if (_dbType == DBType.SqlServer || _dbType == DBType.Oracle)
{
sqlSelectRemoved = rxOrderBy.Replace(sqlSelectRemoved, "");
if (rxDistinct.IsMatch(sqlSelectRemoved))
{
sqlSelectRemoved = "peta_inner.* FROM (SELECT " + sqlSelectRemoved + ") peta_inner";
}
sqlPage = string.Format("SELECT * FROM (SELECT ROW_NUMBER() OVER ({0}) peta_rn, {1}) peta_paged WHERE peta_rn>@{2} AND peta_rn<=@{3}",
sqlOrderBy == null ? "ORDER BY (SELECT NULL /*peta_dual*/)" : sqlOrderBy, sqlSelectRemoved, args.Length, args.Length + 1);
args = args.Concat(new object[] { skip, skip + take }).ToArray();
}
else if (_dbType == DBType.SqlServerCE)
{
sqlPage = string.Format("{0}\nOFFSET @{1} ROWS FETCH NEXT @{2} ROWS ONLY", sql, args.Length, args.Length + 1);
args = args.Concat(new object[] { skip, take }).ToArray();
}
else
{
sqlPage = string.Format("{0}\nLIMIT @{1} OFFSET @{2}", sql, args.Length, args.Length + 1);
args = args.Concat(new object[] { take, skip }).ToArray();
}
}
// Fetch a page
public Page<T> Page<T>(long page, long itemsPerPage, string sql, params object[] args)
{
string sqlCount, sqlPage;
BuildPageQueries<T>((page - 1) * itemsPerPage, itemsPerPage, sql, ref args, out sqlCount, out sqlPage);
// Save the one-time command time out and use it for both queries
int saveTimeout = OneTimeCommandTimeout;
// Setup the paged result
var result = new Page<T>();
result.CurrentPage = page;
result.ItemsPerPage = itemsPerPage;
result.TotalItems = ExecuteScalar<long>(sqlCount, args);
result.TotalPages = result.TotalItems / itemsPerPage;
if ((result.TotalItems % itemsPerPage) != 0)
result.TotalPages++;
OneTimeCommandTimeout = saveTimeout;
// Get the records
result.Items = Fetch<T>(sqlPage, args);
// Done
return result;
}
public Page<T> Page<T>(long page, long itemsPerPage, Sql sql)
{
return Page<T>(page, itemsPerPage, sql.SQL, sql.Arguments);
}
public List<T> Fetch<T>(long page, long itemsPerPage, string sql, params object[] args)
{
return SkipTake<T>((page - 1) * itemsPerPage, itemsPerPage, sql, args);
}
public List<T> Fetch<T>(long page, long itemsPerPage, Sql sql)
{
return SkipTake<T>((page - 1) * itemsPerPage, itemsPerPage, sql.SQL, sql.Arguments);
}
public List<T> SkipTake<T>(long skip, long take, string sql, params object[] args)
{
string sqlCount, sqlPage;
BuildPageQueries<T>(skip, take, sql, ref args, out sqlCount, out sqlPage);
return Fetch<T>(sqlPage, args);
}
public List<T> SkipTake<T>(long skip, long take, Sql sql)
{
return SkipTake<T>(skip, take, sql.SQL, sql.Arguments);
}
public Dictionary<TKey, TValue> Dictionary<TKey, TValue>(Sql Sql)
{
return Dictionary<TKey, TValue>(Sql.SQL, Sql.Arguments);
}
public Dictionary<TKey, TValue> Dictionary<TKey, TValue>(string sql, params object[] args)
{
var newDict = new Dictionary<TKey, TValue>();
bool isConverterSet = false;
Func<object, object> converter1 = x => x, converter2 = x => x;
foreach (var line in Query<Dictionary<string, object>>(sql, args))
{
object key = line.ElementAt(0).Value;
object value = line.ElementAt(1).Value;
if (isConverterSet == false)
{
converter1 = PocoData.GetConverter(ForceDateTimesToUtc, null, typeof(TKey), key.GetType()) ?? (x => x);
converter2 = PocoData.GetConverter(ForceDateTimesToUtc, null, typeof(TValue), value.GetType()) ?? (x => x);
isConverterSet = true;
}
var keyConverted = (TKey)Convert.ChangeType(converter1(key), typeof(TKey));
var valueType = Nullable.GetUnderlyingType(typeof(TValue)) ?? typeof(TValue);
var valConv = converter2(value);
var valConverted = valConv != null ? (TValue)Convert.ChangeType(valConv, valueType) : default(TValue);
if (keyConverted != null)
{
newDict.Add(keyConverted, valConverted);
}
}
return newDict;
}
// Return an enumerable collection of pocos
public IEnumerable<T> Query<T>(string sql, params object[] args)
{
return Query<T>(new Sql(sql, args));
}
public IEnumerable<T> Query<T>(Sql Sql)
{
return Query<T>(default(T), Sql);
}
private IEnumerable<T> Query<T>(T instance, Sql Sql)
{
var sql = Sql.SQL;
var args = Sql.Arguments;
if (EnableAutoSelect)
sql = AddSelectClause<T>(sql);
OpenSharedConnection();
try
{
using (var cmd = CreateCommand(_sharedConnection, sql, args))
{
IDataReader r;
var pd = PocoData.ForType(typeof(T));
try
{
r = cmd.ExecuteReader();
OnExecutedCommand(cmd);
}
catch (Exception x)
{
OnException(x);
throw;
}
using (r)
{
var factory = pd.GetFactory(cmd.CommandText, _sharedConnection.ConnectionString, ForceDateTimesToUtc, 0, r.FieldCount, r, instance) as Func<IDataReader, T, T>;
while (true)
{
T poco;
try
{
if (!r.Read())
yield break;
poco = factory(r, instance);
}
catch (Exception x)
{
OnException(x);
throw;
}
yield return poco;
}
}
}
}
finally
{
CloseSharedConnection();
}
}
// Multi Fetch
public List<TRet> Fetch<T1, T2, TRet>(Func<T1, T2, TRet> cb, string sql, params object[] args) { return Query<T1, T2, TRet>(cb, sql, args).ToList(); }
public List<TRet> Fetch<T1, T2, T3, TRet>(Func<T1, T2, T3, TRet> cb, string sql, params object[] args) { return Query<T1, T2, T3, TRet>(cb, sql, args).ToList(); }
public List<TRet> Fetch<T1, T2, T3, T4, TRet>(Func<T1, T2, T3, T4, TRet> cb, string sql, params object[] args) { return Query<T1, T2, T3, T4, TRet>(cb, sql, args).ToList(); }
// Multi Query
public IEnumerable<TRet> Query<T1, T2, TRet>(Func<T1, T2, TRet> cb, string sql, params object[] args) { return Query<TRet>(new Type[] { typeof(T1), typeof(T2) }, cb, sql, args); }
public IEnumerable<TRet> Query<T1, T2, T3, TRet>(Func<T1, T2, T3, TRet> cb, string sql, params object[] args) { return Query<TRet>(new Type[] { typeof(T1), typeof(T2), typeof(T3) }, cb, sql, args); }
public IEnumerable<TRet> Query<T1, T2, T3, T4, TRet>(Func<T1, T2, T3, T4, TRet> cb, string sql, params object[] args) { return Query<TRet>(new Type[] { typeof(T1), typeof(T2), typeof(T3), typeof(T4) }, cb, sql, args); }
// Multi Fetch (SQL builder)
public List<TRet> Fetch<T1, T2, TRet>(Func<T1, T2, TRet> cb, Sql sql) { return Query<T1, T2, TRet>(cb, sql.SQL, sql.Arguments).ToList(); }
public List<TRet> Fetch<T1, T2, T3, TRet>(Func<T1, T2, T3, TRet> cb, Sql sql) { return Query<T1, T2, T3, TRet>(cb, sql.SQL, sql.Arguments).ToList(); }
public List<TRet> Fetch<T1, T2, T3, T4, TRet>(Func<T1, T2, T3, T4, TRet> cb, Sql sql) { return Query<T1, T2, T3, T4, TRet>(cb, sql.SQL, sql.Arguments).ToList(); }
// Multi Query (SQL builder)
public IEnumerable<TRet> Query<T1, T2, TRet>(Func<T1, T2, TRet> cb, Sql sql) { return Query<TRet>(new Type[] { typeof(T1), typeof(T2) }, cb, sql.SQL, sql.Arguments); }
public IEnumerable<TRet> Query<T1, T2, T3, TRet>(Func<T1, T2, T3, TRet> cb, Sql sql) { return Query<TRet>(new Type[] { typeof(T1), typeof(T2), typeof(T3) }, cb, sql.SQL, sql.Arguments); }
public IEnumerable<TRet> Query<T1, T2, T3, T4, TRet>(Func<T1, T2, T3, T4, TRet> cb, Sql sql) { return Query<TRet>(new Type[] { typeof(T1), typeof(T2), typeof(T3), typeof(T4) }, cb, sql.SQL, sql.Arguments); }
// Multi Fetch (Simple)
public List<T1> Fetch<T1, T2>(string sql, params object[] args) { return Query<T1, T2>(sql, args).ToList(); }
public List<T1> Fetch<T1, T2, T3>(string sql, params object[] args) { return Query<T1, T2, T3>(sql, args).ToList(); }
public List<T1> Fetch<T1, T2, T3, T4>(string sql, params object[] args) { return Query<T1, T2, T3, T4>(sql, args).ToList(); }
// Multi Query (Simple)
public IEnumerable<T1> Query<T1, T2>(string sql, params object[] args) { return Query<T1>(new Type[] { typeof(T1), typeof(T2) }, null, sql, args); }
public IEnumerable<T1> Query<T1, T2, T3>(string sql, params object[] args) { return Query<T1>(new Type[] { typeof(T1), typeof(T2), typeof(T3) }, null, sql, args); }
public IEnumerable<T1> Query<T1, T2, T3, T4>(string sql, params object[] args) { return Query<T1>(new Type[] { typeof(T1), typeof(T2), typeof(T3), typeof(T4) }, null, sql, args); }
// Multi Fetch (Simple) (SQL builder)
public List<T1> Fetch<T1, T2>(Sql sql) { return Query<T1, T2>(sql.SQL, sql.Arguments).ToList(); }
public List<T1> Fetch<T1, T2, T3>(Sql sql) { return Query<T1, T2, T3>(sql.SQL, sql.Arguments).ToList(); }
public List<T1> Fetch<T1, T2, T3, T4>(Sql sql) { return Query<T1, T2, T3, T4>(sql.SQL, sql.Arguments).ToList(); }
// Multi Query (Simple) (SQL builder)
public IEnumerable<T1> Query<T1, T2>(Sql sql) { return Query<T1>(new Type[] { typeof(T1), typeof(T2) }, null, sql.SQL, sql.Arguments); }
public IEnumerable<T1> Query<T1, T2, T3>(Sql sql) { return Query<T1>(new Type[] { typeof(T1), typeof(T2), typeof(T3) }, null, sql.SQL, sql.Arguments); }
public IEnumerable<T1> Query<T1, T2, T3, T4>(Sql sql) { return Query<T1>(new Type[] { typeof(T1), typeof(T2), typeof(T3), typeof(T4) }, null, sql.SQL, sql.Arguments); }
// Automagically guess the property relationships between various POCOs and create a delegate that will set them up
object GetAutoMapper(Type[] types)
{
// Build a key
var kb = new StringBuilder();
foreach (var t in types)
{
kb.Append(t.ToString());
kb.Append(":");
}
var key = kb.ToString();
// Check cache
RWLock.EnterReadLock();
try
{
object mapper;
if (AutoMappers.TryGetValue(key, out mapper))
return mapper;
}
finally
{
RWLock.ExitReadLock();
}
// Create it
RWLock.EnterWriteLock();
try
{
// Try again
object mapper;
if (AutoMappers.TryGetValue(key, out mapper))
return mapper;
// Create a method
var m = new DynamicMethod("petapoco_automapper", types[0], types, true);
var il = m.GetILGenerator();
for (int i = 1; i < types.Length; i++)
{
bool handled = false;
for (int j = i - 1; j >= 0; j--)
{
// Find the property
var candidates = from p in types[j].GetProperties() where p.PropertyType == types[i] select p;
if (candidates.Count() == 0)
continue;
if (candidates.Count() > 1)
throw new InvalidOperationException(string.Format("Can't auto join {0} as {1} has more than one property of type {0}", types[i], types[j]));
// Generate code
il.Emit(OpCodes.Ldarg_S, j);
il.Emit(OpCodes.Ldarg_S, i);
il.Emit(OpCodes.Callvirt, candidates.First().GetSetMethod(true));
handled = true;
}
if (!handled)
throw new InvalidOperationException(string.Format("Can't auto join {0}", types[i]));
}
il.Emit(OpCodes.Ldarg_0);
il.Emit(OpCodes.Ret);
// Cache it
var del = m.CreateDelegate(Expression.GetFuncType(types.Concat(types.Take(1)).ToArray()));
AutoMappers.Add(key, del);
return del;
}
finally
{
RWLock.ExitWriteLock();
}
}
// Find the split point in a result set for two different pocos and return the poco factory for the first
Delegate FindSplitPoint(Type typeThis, Type typeNext, string sql, IDataReader r, ref int pos)
{
// Last?
if (typeNext == null)
return PocoData.ForType(typeThis).GetFactory(sql, _sharedConnection.ConnectionString, ForceDateTimesToUtc, pos, r.FieldCount - pos, r, null);
// Get PocoData for the two types
PocoData pdThis = PocoData.ForType(typeThis);
PocoData pdNext = PocoData.ForType(typeNext);
// Find split point
int firstColumn = pos;
var usedColumns = new Dictionary<string, bool>();
for (; pos < r.FieldCount; pos++)
{
// Split if field name has already been used, or if the field doesn't exist in current poco but does in the next
string fieldName = r.GetName(pos);
if (usedColumns.ContainsKey(fieldName) || (!pdThis.Columns.ContainsKey(fieldName) && pdNext.Columns.ContainsKey(fieldName)))
{
return pdThis.GetFactory(sql, _sharedConnection.ConnectionString, ForceDateTimesToUtc, firstColumn, pos - firstColumn, r, null);
}
usedColumns.Add(fieldName, true);
}
throw new InvalidOperationException(string.Format("Couldn't find split point between {0} and {1}", typeThis, typeNext));
}
// Instance data used by the Multipoco factory delegate - essentially a list of the nested poco factories to call
class MultiPocoFactory
{
public List<Delegate> m_Delegates;
public Delegate GetItem(int index) { return m_Delegates[index]; }
}
// Create a multi-poco factory
Func<IDataReader, object, TRet> CreateMultiPocoFactory<TRet>(Type[] types, string sql, IDataReader r)
{
var m = new DynamicMethod("petapoco_multipoco_factory", typeof(TRet), new Type[] { typeof(MultiPocoFactory), typeof(IDataReader), typeof(object) }, typeof(MultiPocoFactory));
var il = m.GetILGenerator();
// Load the callback
il.Emit(OpCodes.Ldarg_2);
// Call each delegate
var dels = new List<Delegate>();
int pos = 0;
for (int i = 0; i < types.Length; i++)
{
// Add to list of delegates to call
var del = FindSplitPoint(types[i], i + 1 < types.Length ? types[i + 1] : null, sql, r, ref pos);
dels.Add(del);
// Get the delegate
il.Emit(OpCodes.Ldarg_0); // callback,this
il.Emit(OpCodes.Ldc_I4, i); // callback,this,Index
il.Emit(OpCodes.Callvirt, typeof(MultiPocoFactory).GetMethod("GetItem")); // callback,Delegate
il.Emit(OpCodes.Ldarg_1); // callback,delegate, datareader
il.Emit(OpCodes.Ldnull); // callback,delegate, datareader,null
// Call Invoke
var tDelInvoke = del.GetType().GetMethod("Invoke");
il.Emit(OpCodes.Callvirt, tDelInvoke); // Poco left on stack
}
// By now we should have the callback and the N pocos all on the stack. Call the callback and we're done
il.Emit(OpCodes.Callvirt, Expression.GetFuncType(types.Concat(new Type[] { typeof(TRet) }).ToArray()).GetMethod("Invoke"));
il.Emit(OpCodes.Ret);
// Finish up
return (Func<IDataReader, object, TRet>)m.CreateDelegate(typeof(Func<IDataReader, object, TRet>), new MultiPocoFactory() { m_Delegates = dels });
}
// Various cached stuff
static Dictionary<string, object> MultiPocoFactories = new Dictionary<string, object>();
static Dictionary<string, object> AutoMappers = new Dictionary<string, object>();
static System.Threading.ReaderWriterLockSlim RWLock = new System.Threading.ReaderWriterLockSlim();
// Get (or create) the multi-poco factory for a query
Func<IDataReader, object, TRet> GetMultiPocoFactory<TRet>(Type[] types, string sql, IDataReader r)
{
// Build a key string (this is crap, should address this at some point)
var kb = new StringBuilder();
kb.Append(typeof(TRet).ToString());
kb.Append(":");
foreach (var t in types)
{
kb.Append(":");
kb.Append(t.ToString());
}
kb.Append(":"); kb.Append(_sharedConnection.ConnectionString);
kb.Append(":"); kb.Append(ForceDateTimesToUtc);
kb.Append(":"); kb.Append(sql);
string key = kb.ToString();
// Check cache
RWLock.EnterReadLock();
try
{
object oFactory;
if (MultiPocoFactories.TryGetValue(key, out oFactory))
return (Func<IDataReader, object, TRet>)oFactory;
}
finally
{
RWLock.ExitReadLock();
}
// Cache it
RWLock.EnterWriteLock();
try
{
// Check again
object oFactory;
if (MultiPocoFactories.TryGetValue(key, out oFactory))
return (Func<IDataReader, object, TRet>)oFactory;
// Create the factory
var Factory = CreateMultiPocoFactory<TRet>(types, sql, r);
MultiPocoFactories.Add(key, Factory);
return Factory;
}
finally
{
RWLock.ExitWriteLock();
}
}
// Actual implementation of the multi-poco query
public IEnumerable<TRet> Query<TRet>(Type[] types, object cb, string sql, params object[] args)
{
OpenSharedConnection();
try
{
using (var cmd = CreateCommand(_sharedConnection, sql, args))
{
IDataReader r;
try
{
r = cmd.ExecuteReader();
OnExecutedCommand(cmd);
}
catch (Exception x)
{
OnException(x);
throw;
}
var factory = GetMultiPocoFactory<TRet>(types, sql, r);
if (cb == null)
cb = GetAutoMapper(types.ToArray());
bool bNeedTerminator = false;
using (r)
{
while (true)
{
TRet poco;
try
{
if (!r.Read())
break;
poco = factory(r, cb);
}
catch (Exception x)
{
OnException(x);
throw;
}
if (poco != null)
yield return poco;
else
bNeedTerminator = true;
}
if (bNeedTerminator)
{
var poco = (TRet)(cb as Delegate).DynamicInvoke(new object[types.Length]);
if (poco != null)
yield return poco;
else
yield break;
}
}
}
}
finally
{
CloseSharedConnection();
}
}
public TRet FetchMultiple<T1, T2, TRet>(Func<List<T1>, List<T2>, TRet> cb, string sql, params object[] args) { return FetchMultiple<T1, T2, DontMap, DontMap, TRet>(new[] { typeof(T1), typeof(T2) }, cb, new Sql(sql, args)); }
public TRet FetchMultiple<T1, T2, T3, TRet>(Func<List<T1>, List<T2>, List<T3>, TRet> cb, string sql, params object[] args) { return FetchMultiple<T1, T2, T3, DontMap, TRet>(new[] { typeof(T1), typeof(T2), typeof(T3) }, cb, new Sql(sql, args)); }
public TRet FetchMultiple<T1, T2, T3, T4, TRet>(Func<List<T1>, List<T2>, List<T3>, List<T4>, TRet> cb, string sql, params object[] args) { return FetchMultiple<T1, T2, T3, T4, TRet>(new[] { typeof(T1), typeof(T2), typeof(T3), typeof(T4) }, cb, new Sql(sql, args)); }
public TRet FetchMultiple<T1, T2, TRet>(Func<List<T1>, List<T2>, TRet> cb, Sql sql) { return FetchMultiple<T1, T2, DontMap, DontMap, TRet>(new[] { typeof(T1), typeof(T2) }, cb, sql); }
public TRet FetchMultiple<T1, T2, T3, TRet>(Func<List<T1>, List<T2>, List<T3>, TRet> cb, Sql sql) { return FetchMultiple<T1, T2, T3, DontMap, TRet>(new[] { typeof(T1), typeof(T2), typeof(T3) }, cb, sql); }
public TRet FetchMultiple<T1, T2, T3, T4, TRet>(Func<List<T1>, List<T2>, List<T3>, List<T4>, TRet> cb, Sql sql) { return FetchMultiple<T1, T2, T3, T4, TRet>(new[] { typeof(T1), typeof(T2), typeof(T3), typeof(T4) }, cb, sql); }
#if PETAPOCO_NO_DYNAMIC
public Tuple<List<T1>, List<T2>> FetchMultiple<T1, T2>(string sql, params object[] args) { return FetchMultiple<T1, T2, DontMap, DontMap, Tuple<List<T1>, List<T2>>>(new[] { typeof(T1), typeof(T2) }, new Func<List<T1>, List<T2>, Tuple<List<T1>, List<T2>>>((y, z) => new Tuple<List<T1>, List<T2>>(y, z)), new Sql(sql, args)); }
public Tuple<List<T1>, List<T2>, List<T3>> FetchMultiple<T1, T2, T3>(string sql, params object[] args) { return FetchMultiple<T1, T2, T3, DontMap, Tuple<List<T1>, List<T2>, List<T3>>>(new[] { typeof(T1), typeof(T2), typeof(T3) }, new Func<List<T1>, List<T2>, List<T3>, Tuple<List<T1>, List<T2>, List<T3>>>((x, y, z) => new Tuple<List<T1>, List<T2>, List<T3>>(x, y, z)), new Sql(sql, args)); }
public Tuple<List<T1>, List<T2>, List<T3>, List<T4>> FetchMultiple<T1, T2, T3, T4>(string sql, params object[] args) { return FetchMultiple<T1, T2, T3, T4, Tuple<List<T1>, List<T2>, List<T3>, List<T4>>>(new[] { typeof(T1), typeof(T2), typeof(T3), typeof(T4) }, new Func<List<T1>, List<T2>, List<T3>, List<T4>, Tuple<List<T1>, List<T2>, List<T3>, List<T4>>>((w, x, y, z) => new Tuple<List<T1>, List<T2>, List<T3>, List<T4>>(w, x, y, z)), new Sql(sql, args)); }
public Tuple<List<T1>, List<T2>> FetchMultiple<T1, T2>(Sql sql) { return FetchMultiple<T1, T2, DontMap, DontMap, Tuple<List<T1>, List<T2>>>(new[] { typeof(T1), typeof(T2) }, new Func<List<T1>, List<T2>, Tuple<List<T1>, List<T2>>>((y, z) => new Tuple<List<T1>, List<T2>>(y, z)), sql); }
public Tuple<List<T1>, List<T2>, List<T3>> FetchMultiple<T1, T2, T3>(Sql sql) { return FetchMultiple<T1, T2, T3, DontMap, Tuple<List<T1>, List<T2>, List<T3>>>(new[] { typeof(T1), typeof(T2), typeof(T3) }, new Func<List<T1>, List<T2>, List<T3>, Tuple<List<T1>, List<T2>, List<T3>>>((x, y, z) => new Tuple<List<T1>, List<T2>, List<T3>>(x, y, z)), sql); }
public Tuple<List<T1>, List<T2>, List<T3>, List<T4>> FetchMultiple<T1, T2, T3, T4>(Sql sql) { return FetchMultiple<T1, T2, T3, T4, Tuple<List<T1>, List<T2>, List<T3>, List<T4>>>(new[] { typeof(T1), typeof(T2), typeof(T3), typeof(T4) }, new Func<List<T1>, List<T2>, List<T3>, List<T4>, Tuple<List<T1>, List<T2>, List<T3>, List<T4>>>((w, x, y, z) => new Tuple<List<T1>, List<T2>, List<T3>, List<T4>>(w, x, y, z)), sql); }
public class Tuple<T1, T2>
{
public T1 Item1 { get; set; }
public T2 Item2 { get; set; }
public Tuple(T1 item1, T2 item2) { Item1 = item1; Item2 = item2; }
}
public class Tuple<T1, T2, T3>
{
public T1 Item1 { get; set; }
public T2 Item2 { get; set; }
public T3 Item3 { get; set; }
public Tuple(T1 item1, T2 item2, T3 item3) { Item1 = item1; Item2 = item2; Item3 = item3; }
}
public class Tuple<T1, T2, T3, T4>
{
public T1 Item1 { get; set; }
public T2 Item2 { get; set; }
public T3 Item3 { get; set; }
public T4 Item4 { get; set; }
public Tuple(T1 item1, T2 item2, T3 item3, T4 item4) { Item1 = item1; Item2 = item2; Item3 = item3; Item4 = item4; }
}
#else
public Tuple<List<T1>, List<T2>> FetchMultiple<T1, T2>(string sql, params object[] args) { return FetchMultiple<T1, T2, DontMap, DontMap, Tuple<List<T1>, List<T2>>>(new[] { typeof(T1), typeof(T2) }, new Func<List<T1>, List<T2>, Tuple<List<T1>, List<T2>>>((y, z) => new Tuple<List<T1>, List<T2>>(y, z)), new Sql(sql, args)); }
public Tuple<List<T1>, List<T2>, List<T3>> FetchMultiple<T1, T2, T3>(string sql, params object[] args) { return FetchMultiple<T1, T2, T3, DontMap, Tuple<List<T1>, List<T2>, List<T3>>>(new[] { typeof(T1), typeof(T2), typeof(T3) }, new Func<List<T1>, List<T2>, List<T3>, Tuple<List<T1>, List<T2>, List<T3>>>((x, y, z) => new Tuple<List<T1>, List<T2>, List<T3>>(x, y, z)), new Sql(sql, args)); }
public Tuple<List<T1>, List<T2>, List<T3>, List<T4>> FetchMultiple<T1, T2, T3, T4>(string sql, params object[] args) { return FetchMultiple<T1, T2, T3, T4, Tuple<List<T1>, List<T2>, List<T3>, List<T4>>>(new[] { typeof(T1), typeof(T2), typeof(T3), typeof(T4) }, new Func<List<T1>, List<T2>, List<T3>, List<T4>, Tuple<List<T1>, List<T2>, List<T3>, List<T4>>>((w, x, y, z) => new Tuple<List<T1>, List<T2>, List<T3>, List<T4>>(w, x, y, z)), new Sql(sql, args)); }
public Tuple<List<T1>, List<T2>> FetchMultiple<T1, T2>(Sql sql) { return FetchMultiple<T1, T2, DontMap, DontMap, Tuple<List<T1>, List<T2>>>(new[] { typeof(T1), typeof(T2) }, new Func<List<T1>, List<T2>, Tuple<List<T1>, List<T2>>>((y, z) => new Tuple<List<T1>, List<T2>>(y, z)), sql); }
public Tuple<List<T1>, List<T2>, List<T3>> FetchMultiple<T1, T2, T3>(Sql sql) { return FetchMultiple<T1, T2, T3, DontMap, Tuple<List<T1>, List<T2>, List<T3>>>(new[] { typeof(T1), typeof(T2), typeof(T3) }, new Func<List<T1>, List<T2>, List<T3>, Tuple<List<T1>, List<T2>, List<T3>>>((x, y, z) => new Tuple<List<T1>, List<T2>, List<T3>>(x, y, z)), sql); }
public Tuple<List<T1>, List<T2>, List<T3>, List<T4>> FetchMultiple<T1, T2, T3, T4>(Sql sql) { return FetchMultiple<T1, T2, T3, T4, Tuple<List<T1>, List<T2>, List<T3>, List<T4>>>(new[] { typeof(T1), typeof(T2), typeof(T3), typeof(T4) }, new Func<List<T1>, List<T2>, List<T3>, List<T4>, Tuple<List<T1>, List<T2>, List<T3>, List<T4>>>((w, x, y, z) => new Tuple<List<T1>, List<T2>, List<T3>, List<T4>>(w, x, y, z)), sql); }
#endif
public class DontMap { }
// Actual implementation of the multi query
private TRet FetchMultiple<T1, T2, T3, T4, TRet>(Type[] types, object cb, Sql Sql)
{
var sql = Sql.SQL;
var args = Sql.Arguments;
OpenSharedConnection();
try
{
using (var cmd = CreateCommand(_sharedConnection, sql, args))
{
IDataReader r;
try
{
r = cmd.ExecuteReader();
OnExecutedCommand(cmd);
}
catch (Exception x)
{
OnException(x);
throw;
}
using (r)
{
var typeIndex = 1;
var list1 = new List<T1>();
var list2 = new List<T2>();
var list3 = new List<T3>();
var list4 = new List<T4>();
do
{
if (typeIndex > types.Length)
break;
var pd = PocoData.ForType(types[typeIndex - 1]);
var factory = pd.GetFactory(cmd.CommandText, _sharedConnection.ConnectionString, ForceDateTimesToUtc, 0, r.FieldCount, r, null);
while (true)
{
try
{
if (!r.Read())
break;
switch (typeIndex)
{
case 1:
list1.Add(((Func<IDataReader, T1, T1>)factory)(r, default(T1)));
break;
case 2:
list2.Add(((Func<IDataReader, T2, T2>)factory)(r, default(T2)));
break;
case 3:
list3.Add(((Func<IDataReader, T3, T3>)factory)(r, default(T3)));
break;
case 4:
list4.Add(((Func<IDataReader, T4, T4>)factory)(r, default(T4)));
break;
}
}
catch (Exception x)
{
OnException(x);
throw;
}
}
typeIndex++;
} while (r.NextResult());
switch (types.Length)
{
case 2:
return ((Func<List<T1>, List<T2>, TRet>)cb)(list1, list2);
case 3:
return ((Func<List<T1>, List<T2>, List<T3>, TRet>)cb)(list1, list2, list3);
case 4:
return ((Func<List<T1>, List<T2>, List<T3>, List<T4>, TRet>)cb)(list1, list2, list3, list4);
}
return default(TRet);
}
}
}
finally
{
CloseSharedConnection();
}
}
public bool Exists<T>(object primaryKey)
{
var index = 0;
var primaryKeyValuePairs = GetPrimaryKeyValues(PocoData.ForType(typeof(T)).TableInfo.PrimaryKey, primaryKey);
return FirstOrDefault<T>(string.Format("WHERE {0}", BuildPrimaryKeySql(primaryKeyValuePairs, ref index)), primaryKeyValuePairs.Select(x => x.Value).ToArray()) != null;
}
public T SingleById<T>(object primaryKey)
{
var index = 0;
var primaryKeyValuePairs = GetPrimaryKeyValues(PocoData.ForType(typeof(T)).TableInfo.PrimaryKey, primaryKey);
return Single<T>(string.Format("WHERE {0}", BuildPrimaryKeySql(primaryKeyValuePairs, ref index)), primaryKeyValuePairs.Select(x => x.Value).ToArray());
}
public T SingleOrDefaultById<T>(object primaryKey)
{
var index = 0;
var primaryKeyValuePairs = GetPrimaryKeyValues(PocoData.ForType(typeof(T)).TableInfo.PrimaryKey, primaryKey);
return SingleOrDefault<T>(string.Format("WHERE {0}", BuildPrimaryKeySql(primaryKeyValuePairs, ref index)), primaryKeyValuePairs.Select(x => x.Value).ToArray());
}
public T Single<T>(string sql, params object[] args)
{
return Query<T>(sql, args).Single();
}
public T SingleInto<T>(T instance, string sql, params object[] args)
{
return Query<T>(instance, new Sql(sql, args)).Single();
}
public T SingleOrDefault<T>(string sql, params object[] args)
{
return Query<T>(sql, args).SingleOrDefault();
}
public T SingleOrDefaultInto<T>(T instance, string sql, params object[] args)
{
return Query<T>(instance, new Sql(sql, args)).SingleOrDefault();
}
public T First<T>(string sql, params object[] args)
{
return Query<T>(sql, args).First();
}
public T FirstInto<T>(T instance, string sql, params object[] args)
{
return Query<T>(instance, new Sql(sql, args)).First();
}
public T FirstOrDefault<T>(string sql, params object[] args)
{
return Query<T>(sql, args).FirstOrDefault();
}
public T FirstOrDefaultInto<T>(T instance, string sql, params object[] args)
{
return Query<T>(instance, new Sql(sql, args)).FirstOrDefault();
}
public T Single<T>(Sql sql)
{
return Query<T>(sql).Single();
}
public T SingleInto<T>(T instance, Sql sql)
{
return Query<T>(instance, sql).Single();
}
public T SingleOrDefault<T>(Sql sql)
{
return Query<T>(sql).SingleOrDefault();
}
public T SingleOrDefaultInto<T>(T instance, Sql sql)
{
return Query<T>(instance, sql).SingleOrDefault();
}
public T First<T>(Sql sql)
{
return Query<T>(sql).First();
}
public T FirstInto<T>(T instance, Sql sql)
{
return Query<T>(instance, sql).First();
}
public T FirstOrDefault<T>(Sql sql)
{
return Query<T>(sql).FirstOrDefault();
}
public T FirstOrDefaultInto<T>(T instance, Sql sql)
{
return Query<T>(instance, sql).FirstOrDefault();
}
public string EscapeTableName(string str)
{
// Assume table names with "dot" are already escaped
return str.IndexOf('.') >= 0 ? str : EscapeSqlIdentifier(str);
}
public string EscapeSqlIdentifier(string str)
{
switch (_dbType)
{
case DBType.MySql:
return string.Format("`{0}`", str);
case DBType.PostgreSQL:
return string.Format("\"{0}\"", str);
case DBType.Oracle:
return string.Format("\"{0}\"", str.ToUpperInvariant());
default:
return string.Format("[{0}]", str);
}
}
public object Insert(string tableName, string primaryKeyName, object poco)
{
return Insert(tableName, primaryKeyName, true, poco);
}
// Insert a poco into a table. If the poco has a property with the same name
// as the primary key the id of the new record is assigned to it. Either way,
// the new id is returned.
public object Insert(string tableName, string primaryKeyName, bool autoIncrement, object poco)
{
try
{
OpenSharedConnection();
try
{
using (var cmd = CreateCommand(_sharedConnection, ""))
{
var pd = PocoData.ForObject(poco, primaryKeyName);
var names = new List<string>();
var values = new List<string>();
var index = 0;
var versionName = "";
foreach (var i in pd.Columns)
{
// Don't insert result columns
if (i.Value.ResultColumn)
continue;
// Don't insert the primary key (except under oracle where we need bring in the next sequence value)
if (autoIncrement && primaryKeyName != null && string.Compare(i.Key, primaryKeyName, true) == 0)
{
if (_dbType == DBType.Oracle && !string.IsNullOrEmpty(pd.TableInfo.SequenceName))
{
names.Add(i.Key);
values.Add(string.Format("{0}.nextval", pd.TableInfo.SequenceName));
}
continue;
}
names.Add(EscapeSqlIdentifier(i.Key));
values.Add(string.Format("{0}{1}", _paramPrefix, index++));
object val = i.Value.GetValue(poco);
if (i.Value.VersionColumn)
{
val = 1;
versionName = i.Key;
}
AddParam(cmd, val, _paramPrefix);
}
if (names.Count > 0 || _dbType == DBType.MySql)
{
cmd.CommandText = string.Format("INSERT INTO {0} ({1}) VALUES ({2})",
EscapeTableName(tableName),
string.Join(",", names.ToArray()),
string.Join(",", values.ToArray()));
}
else
{
cmd.CommandText = string.Format("INSERT INTO {0} DEFAULT VALUES", EscapeTableName(tableName));
}
object id;
if (!autoIncrement)
{
DoPreExecute(cmd);
cmd.ExecuteNonQuery();
OnExecutedCommand(cmd);
id = -1;
}
else
{
switch (_dbType)
{
case DBType.SqlServerCE:
DoPreExecute(cmd);
cmd.ExecuteNonQuery();
OnExecutedCommand(cmd);
id = ExecuteScalar<object>("SELECT @@@IDENTITY AS NewID;");
break;
case DBType.SqlServer:
cmd.CommandText += ";\nSELECT SCOPE_IDENTITY() AS NewID;";
DoPreExecute(cmd);
id = cmd.ExecuteScalar();
OnExecutedCommand(cmd);
break;
case DBType.MySql:
cmd.CommandText += ";\nSELECT LAST_INSERT_ID();";
DoPreExecute(cmd);
id = cmd.ExecuteScalar();
OnExecutedCommand(cmd);
break;
case DBType.PostgreSQL:
if (primaryKeyName != null)
{
cmd.CommandText += string.Format("returning {0} as NewID", EscapeSqlIdentifier(primaryKeyName));
DoPreExecute(cmd);
id = cmd.ExecuteScalar();
}
else
{
id = -1;
DoPreExecute(cmd);
cmd.ExecuteNonQuery();
}
OnExecutedCommand(cmd);
break;
case DBType.Oracle:
if (primaryKeyName != null)
{
cmd.CommandText += string.Format(" returning {0} into :newid", EscapeSqlIdentifier(primaryKeyName));
var param = cmd.CreateParameter();
param.ParameterName = ":newid";
param.Value = DBNull.Value;
param.Direction = ParameterDirection.ReturnValue;
param.DbType = DbType.Int64;
cmd.Parameters.Add(param);
DoPreExecute(cmd);
cmd.ExecuteNonQuery();
id = param.Value;
}
else
{
id = -1;
DoPreExecute(cmd);
cmd.ExecuteNonQuery();
}
OnExecutedCommand(cmd);
break;
case DBType.SQLite:
if (primaryKeyName != null)
{
cmd.CommandText += ";\nSELECT last_insert_rowid();";
DoPreExecute(cmd);
id = cmd.ExecuteScalar();
}
else
{
id = -1;
DoPreExecute(cmd);
cmd.ExecuteNonQuery();
}
OnExecutedCommand(cmd);
break;
default:
cmd.CommandText += ";\nSELECT @@IDENTITY AS NewID;";
DoPreExecute(cmd);
id = cmd.ExecuteScalar();
OnExecutedCommand(cmd);
break;
}
// Assign the ID back to the primary key property
if (primaryKeyName != null)
{
PocoColumn pc;
if (pd.Columns.TryGetValue(primaryKeyName, out pc))
{
pc.SetValue(poco, pc.ChangeType(id));
}
}
}
// Assign the Version column
if (!string.IsNullOrEmpty(versionName))
{
PocoColumn pc;
if (pd.Columns.TryGetValue(versionName, out pc))
{
pc.SetValue(poco, pc.ChangeType(1));
}
}
return id;
}
}
finally
{
CloseSharedConnection();
}
}
catch (Exception x)
{
OnException(x);
throw;
}
}
// Insert an annotated poco object
public object Insert(object poco)
{
var pd = PocoData.ForType(poco.GetType());
return Insert(pd.TableInfo.TableName, pd.TableInfo.PrimaryKey, pd.TableInfo.AutoIncrement, poco);
}
public int Update(string tableName, string primaryKeyName, object poco, object primaryKeyValue)
{
return Update(tableName, primaryKeyName, poco, primaryKeyValue, null);
}
// Update a record with values from a poco. primary key value can be either supplied or read from the poco
public int Update(string tableName, string primaryKeyName, object poco, object primaryKeyValue, IEnumerable<string> columns)
{
if (columns != null && !columns.Any())
return 0;
try
{
OpenSharedConnection();
try
{
using (var cmd = CreateCommand(_sharedConnection, ""))
{
var sb = new StringBuilder();
var index = 0;
var pd = PocoData.ForObject(poco, primaryKeyName);
string versionName = null;
object versionValue = null;
var primaryKeyValuePairs = GetPrimaryKeyValues(primaryKeyName, primaryKeyValue);
foreach (var i in pd.Columns)
{
// Don't update the primary key, but grab the value if we don't have it
if (primaryKeyValue == null && primaryKeyValuePairs.ContainsKey(i.Key))
{
primaryKeyValuePairs[i.Key] = i.Value.PropertyInfo.GetValue(poco, null);
continue;
}
// Dont update result only columns
if (i.Value.ResultColumn)
continue;
if (!i.Value.VersionColumn && columns != null && !columns.Contains(i.Value.ColumnName, StringComparer.OrdinalIgnoreCase))
continue;
object value = i.Value.PropertyInfo.GetValue(poco, null);
if (i.Value.VersionColumn)
{
versionName = i.Key;
versionValue = value;
value = Convert.ToInt64(value) + 1;
}
// Build the sql
if (index > 0)
sb.Append(", ");
sb.AppendFormat("{0} = {1}{2}", EscapeSqlIdentifier(i.Key), _paramPrefix, index++);
// Store the parameter in the command
AddParam(cmd, value, _paramPrefix);
}
if (columns != null && columns.Any() && sb.Length == 0)
throw new ArgumentException("There were no columns in the columns list that matched your table", "columns");
cmd.CommandText = string.Format("UPDATE {0} SET {1} WHERE {2}",
EscapeTableName(tableName), sb.ToString(), BuildPrimaryKeySql(primaryKeyValuePairs, ref index));
foreach (var keyValue in primaryKeyValuePairs)
{
AddParam(cmd, keyValue.Value, _paramPrefix);
}
if (!string.IsNullOrEmpty(versionName))
{
cmd.CommandText += string.Format(" AND {0} = {1}{2}", EscapeSqlIdentifier(versionName), _paramPrefix, index++);
AddParam(cmd, versionValue, _paramPrefix);
}
DoPreExecute(cmd);
var result = cmd.ExecuteNonQuery();
if (result == 0 && !string.IsNullOrEmpty(versionName) && VersionException == VersionExceptionHandling.Exception)
throw new DBConcurrencyException(string.Format("A Concurrency update occured in table '{0}' for primary key value(s) = '{1}' and version = '{2}'", tableName, string.Join(",", primaryKeyValuePairs.Values.Select(x => x.ToString()).ToArray()), versionValue));
OnExecutedCommand(cmd);
// Set Version
if (!string.IsNullOrEmpty(versionName))
{
PocoColumn pc;
if (pd.Columns.TryGetValue(versionName, out pc))
{
pc.PropertyInfo.SetValue(poco, Convert.ChangeType(Convert.ToInt64(versionValue) + 1, pc.PropertyInfo.PropertyType), null);
}
}
return result;
}
}
finally
{
CloseSharedConnection();
}
}
catch (Exception x)
{
OnException(x);
throw;
}
}
private string BuildPrimaryKeySql(Dictionary<string, object> primaryKeyValuePair, ref int index)
{
var tempIndex = index;
index += primaryKeyValuePair.Count;
return string.Join(" AND ", primaryKeyValuePair.Select((x, i) => string.Format("{0} = @{1}", EscapeSqlIdentifier(x.Key), tempIndex + i)).ToArray());
}
private Dictionary<string, object> GetPrimaryKeyValues(string primaryKeyName, object primaryKeyValue)
{
Dictionary<string, object> primaryKeyValues;
var multiplePrimaryKeysNames = primaryKeyName.Split(new[] { ',' }, StringSplitOptions.RemoveEmptyEntries).Select(x => x.Trim()).ToArray();
if (primaryKeyValue != null)
{
if (multiplePrimaryKeysNames.Length == 1)
primaryKeyValues = new Dictionary<string, object>(StringComparer.OrdinalIgnoreCase) { { primaryKeyName, primaryKeyValue } };
else
primaryKeyValues = multiplePrimaryKeysNames.ToDictionary(x => x,
x => primaryKeyValue.GetType().GetProperties()
.Where(y => string.Equals(x, y.Name, StringComparison.OrdinalIgnoreCase))
.Single().GetValue(primaryKeyValue, null), StringComparer.OrdinalIgnoreCase);
}
else
{
primaryKeyValues = multiplePrimaryKeysNames.ToDictionary(x => x, x => (object)null, StringComparer.OrdinalIgnoreCase);
}
return primaryKeyValues;
}
public int Update(string tableName, string primaryKeyName, object poco)
{
return Update(tableName, primaryKeyName, poco, null);
}
public int Update(string tableName, string primaryKeyName, object poco, IEnumerable<string> columns)
{
return Update(tableName, primaryKeyName, poco, null, columns);
}
public int Update(object poco, IEnumerable<string> columns)
{
return Update(poco, null, columns);
}
public int Update(object poco)
{
return Update(poco, null, null);
}
public int Update(object poco, object primaryKeyValue)
{
return Update(poco, primaryKeyValue, null);
}
public int Update(object poco, object primaryKeyValue, IEnumerable<string> columns)
{
var pd = PocoData.ForType(poco.GetType());
return Update(pd.TableInfo.TableName, pd.TableInfo.PrimaryKey, poco, primaryKeyValue, columns);
}
public int Update<T>(string sql, params object[] args)
{
var pd = PocoData.ForType(typeof(T));
return Execute(string.Format("UPDATE {0} {1}", EscapeTableName(pd.TableInfo.TableName), sql), args);
}
public int Update<T>(Sql sql)
{
var pd = PocoData.ForType(typeof(T));
return Execute(new Sql(string.Format("UPDATE {0}", EscapeTableName(pd.TableInfo.TableName))).Append(sql));
}
public int Delete(string tableName, string primaryKeyName, object poco)
{
return Delete(tableName, primaryKeyName, poco, null);
}
public int Delete(string tableName, string primaryKeyName, object poco, object primaryKeyValue)
{
var primaryKeyValuePairs = GetPrimaryKeyValues(primaryKeyName, primaryKeyValue);
// If primary key value not specified, pick it up from the object
if (primaryKeyValue == null)
{
var pd = PocoData.ForObject(poco, primaryKeyName);
foreach (var i in pd.Columns)
{
if (primaryKeyValuePairs.ContainsKey(i.Key))
{
primaryKeyValuePairs[i.Key] = i.Value.PropertyInfo.GetValue(poco, null);
}
}
}
// Do it
var index = 0;
var sql = string.Format("DELETE FROM {0} WHERE {1}", EscapeTableName(tableName), BuildPrimaryKeySql(primaryKeyValuePairs, ref index));
return Execute(sql, primaryKeyValuePairs.Select(x => x.Value).ToArray());
}
public int Delete(object poco)
{
var pd = PocoData.ForType(poco.GetType());
return Delete(pd.TableInfo.TableName, pd.TableInfo.PrimaryKey, poco);
}
public int Delete<T>(object pocoOrPrimaryKey)
{
if (pocoOrPrimaryKey.GetType() == typeof(T))
return Delete(pocoOrPrimaryKey);
var pd = PocoData.ForType(typeof(T));
return Delete(pd.TableInfo.TableName, pd.TableInfo.PrimaryKey, null, pocoOrPrimaryKey);
}
public int Delete<T>(string sql, params object[] args)
{
var pd = PocoData.ForType(typeof(T));
return Execute(string.Format("DELETE FROM {0} {1}", EscapeTableName(pd.TableInfo.TableName), sql), args);
}
public int Delete<T>(Sql sql)
{
var pd = PocoData.ForType(typeof(T));
return Execute(new Sql(string.Format("DELETE FROM {0}", EscapeTableName(pd.TableInfo.TableName))).Append(sql));
}
// Check if a poco represents a new record
public bool IsNew(string primaryKeyName, object poco)
{
var pd = PocoData.ForObject(poco, primaryKeyName);
object pk;
PocoColumn pc;
if (pd.Columns.TryGetValue(primaryKeyName, out pc))
{
pk = pc.GetValue(poco);
}
#if !PETAPOCO_NO_DYNAMIC
else if (poco.GetType() == typeof(System.Dynamic.ExpandoObject))
{
return true;
}
#endif
else
{
var pi = poco.GetType().GetProperty(primaryKeyName);
if (pi == null)
throw new ArgumentException(string.Format("The object doesn't have a property matching the primary key column name '{0}'", primaryKeyName));
pk = pi.GetValue(poco, null);
}
if (pk == null)
return true;
var type = pk.GetType();
if (type.IsValueType)
{
// Common primary key types
if (type == typeof(long))
return (long)pk == default(long);
else if (type == typeof(ulong))
return (ulong)pk == default(ulong);
else if (type == typeof(int))
return (int)pk == default(int);
else if (type == typeof(uint))
return (uint)pk == default(uint);
else if (type == typeof(Guid))
return (Guid)pk == default(Guid);
// Create a default instance and compare
return pk == Activator.CreateInstance(pk.GetType());
}
else
{
return pk == null;
}
}
public bool IsNew(object poco)
{
var pd = PocoData.ForType(poco.GetType());
if (!pd.TableInfo.AutoIncrement)
throw new InvalidOperationException("IsNew() and Save() are only supported on tables with auto-increment/identity primary key columns");
return IsNew(pd.TableInfo.PrimaryKey, poco);
}
// Insert new record or Update existing record
public void Save(string tableName, string primaryKeyName, object poco)
{
if (IsNew(primaryKeyName, poco))
{
Insert(tableName, primaryKeyName, true, poco);
}
else
{
Update(tableName, primaryKeyName, poco);
}
}
public void Save(object poco)
{
var pd = PocoData.ForType(poco.GetType());
Save(pd.TableInfo.TableName, pd.TableInfo.PrimaryKey, poco);
}
public int CommandTimeout { get; set; }
public int OneTimeCommandTimeout { get; set; }
void DoPreExecute(IDbCommand cmd)
{
// Setup command timeout
if (OneTimeCommandTimeout != 0)
{
cmd.CommandTimeout = OneTimeCommandTimeout;
OneTimeCommandTimeout = 0;
}
else if (CommandTimeout != 0)
{
cmd.CommandTimeout = CommandTimeout;
}
// Call hook
OnExecutingCommand(cmd);
// Save it
_lastSql = cmd.CommandText;
_lastArgs = (from IDataParameter parameter in cmd.Parameters select parameter.Value).ToArray();
}
public string LastSQL { get { return _lastSql; } }
public object[] LastArgs { get { return _lastArgs; } }
public string LastCommand
{
get { return FormatCommand(_lastSql, _lastArgs); }
}
public string FormatCommand(IDbCommand cmd)
{
return FormatCommand(cmd.CommandText, (from IDataParameter parameter in cmd.Parameters select parameter.Value).ToArray());
}
public string FormatCommand(string sql, object[] args)
{
var sb = new StringBuilder();
if (sql == null)
return "";
sb.Append(sql);
if (args != null && args.Length > 0)
{
sb.Append("\n");
for (int i = 0; i < args.Length; i++)
{
sb.AppendFormat("\t -> {0}{1} [{2}] = \"{3}\"\n", _paramPrefix, i, args[i].GetType().Name, args[i]);
}
sb.Remove(sb.Length - 1, 1);
}
return sb.ToString();
}
public enum VersionExceptionHandling
{
Ignore,
Exception
}
public static IMapper Mapper
{
get;
set;
}
public class PocoColumn
{
public string ColumnName;
public PropertyInfo PropertyInfo;
public bool ResultColumn;
public bool VersionColumn;
public virtual void SetValue(object target, object val) { PropertyInfo.SetValue(target, val, null); }
public virtual object GetValue(object target) { return PropertyInfo.GetValue(target, null); }
public virtual object ChangeType(object val) { return Convert.ChangeType(val, PropertyInfo.PropertyType); }
}
public class ExpandoColumn : PocoColumn
{
public override void SetValue(object target, object val) { (target as IDictionary<string, object>)[ColumnName] = val; }
public override object GetValue(object target)
{
object val = null;
(target as IDictionary<string, object>).TryGetValue(ColumnName, out val);
return val;
}
public override object ChangeType(object val) { return val; }
}
public static Func<Type, PocoData> PocoDataFactory = type => new PocoData(type);
public class PocoData
{
static readonly EnumMapper EnumMapper = new EnumMapper();
public static PocoData ForObject(object o, string primaryKeyName)
{
var t = o.GetType();
#if !PETAPOCO_NO_DYNAMIC
if (t == typeof(System.Dynamic.ExpandoObject))
{
var pd = new PocoData();
pd.TableInfo = new TableInfo();
pd.Columns = new Dictionary<string, PocoColumn>(StringComparer.OrdinalIgnoreCase);
pd.Columns.Add(primaryKeyName, new ExpandoColumn() { ColumnName = primaryKeyName });
pd.TableInfo.PrimaryKey = primaryKeyName;
pd.TableInfo.AutoIncrement = true;
foreach (var col in (o as IDictionary<string, object>).Keys)
{
if (col != primaryKeyName)
pd.Columns.Add(col, new ExpandoColumn() { ColumnName = col });
}
return pd;
}
else
#endif
return ForType(t);
}
static System.Threading.ReaderWriterLockSlim RWLock = new System.Threading.ReaderWriterLockSlim();
public static PocoData ForType(Type t)
{
#if !PETAPOCO_NO_DYNAMIC
if (t == typeof(System.Dynamic.ExpandoObject))
throw new InvalidOperationException("Can't use dynamic types with this method");
#endif
// Check cache
RWLock.EnterReadLock();
PocoData pd;
try
{
if (m_PocoDatas.TryGetValue(t, out pd))
return pd;
}
finally
{
RWLock.ExitReadLock();
}
// Cache it
RWLock.EnterWriteLock();
try
{
// Check again
if (m_PocoDatas.TryGetValue(t, out pd))
return pd;
// Create it
pd = PocoDataFactory(t);
m_PocoDatas.Add(t, pd);
}
finally
{
RWLock.ExitWriteLock();
}
return pd;
}
public PocoData()
{
}
public PocoData(Type t)
{
type = t;
TableInfo = new TableInfo();
// Get the table name
var a = t.GetCustomAttributes(typeof(TableNameAttribute), true);
TableInfo.TableName = a.Length == 0 ? t.Name : (a[0] as TableNameAttribute).Value;
// Get the primary key
a = t.GetCustomAttributes(typeof(PrimaryKeyAttribute), true);
TableInfo.PrimaryKey = a.Length == 0 ? "ID" : (a[0] as PrimaryKeyAttribute).Value;
TableInfo.SequenceName = a.Length == 0 ? null : (a[0] as PrimaryKeyAttribute).sequenceName;
TableInfo.AutoIncrement = a.Length == 0 ? true : (a[0] as PrimaryKeyAttribute).autoIncrement;
// Set autoincrement false if primary key has multiple columns
TableInfo.AutoIncrement = TableInfo.AutoIncrement ? !TableInfo.PrimaryKey.Contains(',') : TableInfo.AutoIncrement;
// Call column mapper
if (Database.Mapper != null)
Database.Mapper.GetTableInfo(t, TableInfo);
// Work out bound properties
bool ExplicitColumns = t.GetCustomAttributes(typeof(ExplicitColumnsAttribute), true).Length > 0;
Columns = new Dictionary<string, PocoColumn>(StringComparer.OrdinalIgnoreCase);
foreach (var pi in t.GetProperties())
{
// Work out if properties is to be included
var ColAttrs = pi.GetCustomAttributes(typeof(ColumnAttribute), true);
if (ExplicitColumns)
{
if (ColAttrs.Length == 0)
continue;
}
else
{
if (pi.GetCustomAttributes(typeof(IgnoreAttribute), true).Length != 0)
continue;
}
var pc = new PocoColumn();
pc.PropertyInfo = pi;
// Work out the DB column name
if (ColAttrs.Length > 0)
{
var colattr = (ColumnAttribute)ColAttrs[0];
pc.ColumnName = colattr.Name;
if ((colattr as ResultColumnAttribute) != null)
pc.ResultColumn = true;
if ((colattr as VersionColumnAttribute) != null)
pc.VersionColumn = true;
}
if (pc.ColumnName == null)
{
pc.ColumnName = pi.Name;
if (Database.Mapper != null && !Database.Mapper.MapPropertyToColumn(pi, ref pc.ColumnName, ref pc.ResultColumn))
continue;
}
// Store it
Columns.Add(pc.ColumnName, pc);
}
// Build column list for automatic select
QueryColumns = (from c in Columns where !c.Value.ResultColumn select c.Key).ToArray();
}
static bool IsIntegralType(Type t)
{
var tc = Type.GetTypeCode(t);
return tc >= TypeCode.SByte && tc <= TypeCode.UInt64;
}
static object GetDefault(Type type)
{
if (type.IsValueType)
{
return Activator.CreateInstance(type);
}
return null;
}
// Create factory function that can convert a IDataReader record into a POCO
public Delegate GetFactory(string sql, string connString, bool ForceDateTimesToUtc, int firstColumn, int countColumns, IDataReader r, object instance)
{
// Check cache
var key = string.Format("{0}:{1}:{2}:{3}:{4}:{5}", sql, connString, ForceDateTimesToUtc, firstColumn, countColumns, instance != GetDefault(type));
RWLock.EnterReadLock();
try
{
// Have we already created it?
Delegate factory;
if (PocoFactories.TryGetValue(key, out factory))
return factory;
}
finally
{
RWLock.ExitReadLock();
}
// Take the writer lock
RWLock.EnterWriteLock();
try
{
// Check again, just in case
Delegate factory;
if (PocoFactories.TryGetValue(key, out factory))
return factory;
// Create the method
var m = new DynamicMethod("petapoco_factory_" + PocoFactories.Count.ToString(), type, new Type[] { typeof(IDataReader), type }, true);
var il = m.GetILGenerator();
#if !PETAPOCO_NO_DYNAMIC
if (type == typeof(object))
{
// var poco=new T()
il.Emit(OpCodes.Newobj, typeof(System.Dynamic.ExpandoObject).GetConstructor(Type.EmptyTypes)); // obj
MethodInfo fnAdd = typeof(IDictionary<string, object>).GetMethod("Add");
// Enumerate all fields generating a set assignment for the column
for (int i = firstColumn; i < firstColumn + countColumns; i++)
{
var srcType = r.GetFieldType(i);
il.Emit(OpCodes.Dup); // obj, obj
il.Emit(OpCodes.Ldstr, r.GetName(i)); // obj, obj, fieldname
// Get the converter
Func<object, object> converter = null;
if (Database.Mapper != null)
converter = Database.Mapper.GetFromDbConverter(null, srcType);
if (ForceDateTimesToUtc && converter == null && srcType == typeof(DateTime))
converter = delegate(object src) { return new DateTime(((DateTime)src).Ticks, DateTimeKind.Utc); };
// Setup stack for call to converter
AddConverterToStack(il, converter);
// r[i]
il.Emit(OpCodes.Ldarg_0); // obj, obj, fieldname, converter?, rdr
il.Emit(OpCodes.Ldc_I4, i); // obj, obj, fieldname, converter?, rdr,i
il.Emit(OpCodes.Callvirt, fnGetValue); // obj, obj, fieldname, converter?, value
// Convert DBNull to null
il.Emit(OpCodes.Dup); // obj, obj, fieldname, converter?, value, value
il.Emit(OpCodes.Isinst, typeof(DBNull)); // obj, obj, fieldname, converter?, value, (value or null)
var lblNotNull = il.DefineLabel();
il.Emit(OpCodes.Brfalse_S, lblNotNull); // obj, obj, fieldname, converter?, value
il.Emit(OpCodes.Pop); // obj, obj, fieldname, converter?
if (converter != null)
il.Emit(OpCodes.Pop); // obj, obj, fieldname,
il.Emit(OpCodes.Ldnull); // obj, obj, fieldname, null
if (converter != null)
{
var lblReady = il.DefineLabel();
il.Emit(OpCodes.Br_S, lblReady);
il.MarkLabel(lblNotNull);
il.Emit(OpCodes.Callvirt, fnInvoke);
il.MarkLabel(lblReady);
}
else
{
il.MarkLabel(lblNotNull);
}
il.Emit(OpCodes.Callvirt, fnAdd);
}
}
else
#endif
if (type.IsValueType || type == typeof(string) || type == typeof(byte[]))
{
// Do we need to install a converter?
var srcType = r.GetFieldType(0);
var converter = GetConverter(ForceDateTimesToUtc, null, srcType, type);
// "if (!rdr.IsDBNull(i))"
il.Emit(OpCodes.Ldarg_0); // rdr
il.Emit(OpCodes.Ldc_I4_0); // rdr,0
il.Emit(OpCodes.Callvirt, fnIsDBNull); // bool
var lblCont = il.DefineLabel();
il.Emit(OpCodes.Brfalse_S, lblCont);
il.Emit(OpCodes.Ldnull); // null
var lblFin = il.DefineLabel();
il.Emit(OpCodes.Br_S, lblFin);
il.MarkLabel(lblCont);
// Setup stack for call to converter
AddConverterToStack(il, converter);
il.Emit(OpCodes.Ldarg_0); // rdr
il.Emit(OpCodes.Ldc_I4_0); // rdr,0
il.Emit(OpCodes.Callvirt, fnGetValue); // value
// Call the converter
if (converter != null)
il.Emit(OpCodes.Callvirt, fnInvoke);
il.MarkLabel(lblFin);
il.Emit(OpCodes.Unbox_Any, type); // value converted
}
else if (type == typeof(Dictionary<string, object>))
{
Func<IDataReader, object, Dictionary<string, object>> func = (reader, inst) =>
{
var dict = new Dictionary<string, object>(StringComparer.OrdinalIgnoreCase);
for (int i = firstColumn; i < firstColumn + countColumns; i++)
{
var value = reader.IsDBNull(i) ? null : reader.GetValue(i);
var name = reader.GetName(i);
if (!dict.ContainsKey(name))
dict.Add(name, value);
}
return dict;
};
var delegateType = typeof(Func<,,>).MakeGenericType(typeof(IDataReader), type, typeof(Dictionary<string, object>));
var localDel = Delegate.CreateDelegate(delegateType, func.Target, func.Method);
PocoFactories.Add(key, localDel);
return localDel;
}
else if (type == typeof(object[]))
{
Func<IDataReader, object, object[]> func = (reader, inst) =>
{
var obj = new object[countColumns - firstColumn];
for (int i = firstColumn; i < firstColumn + countColumns; i++)
{
var value = reader.IsDBNull(i) ? null : reader.GetValue(i);
obj[i - firstColumn] = value;
}
return obj;
};
var delegateType = typeof(Func<,,>).MakeGenericType(typeof(IDataReader), type, typeof(object[]));
var localDel = Delegate.CreateDelegate(delegateType, func.Target, func.Method);
PocoFactories.Add(key, localDel);
return localDel;
}
else
{
if (instance != null)
il.Emit(OpCodes.Ldarg_1);
else
// var poco=new T()
il.Emit(OpCodes.Newobj, type.GetConstructor(BindingFlags.Instance | BindingFlags.Public | BindingFlags.NonPublic, null, new Type[0], null));
// Enumerate all fields generating a set assignment for the column
for (int i = firstColumn; i < firstColumn + countColumns; i++)
{
// Get the PocoColumn for this db column, ignore if not known
PocoColumn pc;
if (!Columns.TryGetValue(r.GetName(i), out pc) && !Columns.TryGetValue(r.GetName(i).Replace("_", ""), out pc))
{
continue;
}
// Get the source type for this column
var srcType = r.GetFieldType(i);
var dstType = pc.PropertyInfo.PropertyType;
// "if (!rdr.IsDBNull(i))"
il.Emit(OpCodes.Ldarg_0); // poco,rdr
il.Emit(OpCodes.Ldc_I4, i); // poco,rdr,i
il.Emit(OpCodes.Callvirt, fnIsDBNull); // poco,bool
var lblNext = il.DefineLabel();
il.Emit(OpCodes.Brtrue_S, lblNext); // poco
il.Emit(OpCodes.Dup); // poco,poco
// Do we need to install a converter?
var converter = GetConverter(ForceDateTimesToUtc, pc, srcType, dstType);
// Fast
bool Handled = false;
if (converter == null)
{
var valuegetter = typeof(IDataRecord).GetMethod("Get" + srcType.Name, new Type[] { typeof(int) });
if (valuegetter != null
&& valuegetter.ReturnType == srcType
&& (valuegetter.ReturnType == dstType || valuegetter.ReturnType == Nullable.GetUnderlyingType(dstType)))
{
il.Emit(OpCodes.Ldarg_0); // *,rdr
il.Emit(OpCodes.Ldc_I4, i); // *,rdr,i
il.Emit(OpCodes.Callvirt, valuegetter); // *,value
// Convert to Nullable
if (Nullable.GetUnderlyingType(dstType) != null)
{
il.Emit(OpCodes.Newobj, dstType.GetConstructor(new Type[] { Nullable.GetUnderlyingType(dstType) }));
}
il.Emit(OpCodes.Callvirt, pc.PropertyInfo.GetSetMethod(true)); // poco
Handled = true;
}
}
// Not so fast
if (!Handled)
{
// Setup stack for call to converter
AddConverterToStack(il, converter);
// "value = rdr.GetValue(i)"
il.Emit(OpCodes.Ldarg_0); // *,rdr
il.Emit(OpCodes.Ldc_I4, i); // *,rdr,i
il.Emit(OpCodes.Callvirt, fnGetValue); // *,value
// Call the converter
if (converter != null)
il.Emit(OpCodes.Callvirt, fnInvoke);
// Assign it
il.Emit(OpCodes.Unbox_Any, pc.PropertyInfo.PropertyType); // poco,poco,value
il.Emit(OpCodes.Callvirt, pc.PropertyInfo.GetSetMethod(true)); // poco
}
il.MarkLabel(lblNext);
}
var fnOnLoaded = RecurseInheritedTypes<MethodInfo>(type, (x) => x.GetMethod("OnLoaded", BindingFlags.Instance | BindingFlags.Public | BindingFlags.NonPublic, null, new Type[0], null));
if (fnOnLoaded != null)
{
il.Emit(OpCodes.Dup);
il.Emit(OpCodes.Callvirt, fnOnLoaded);
}
}
il.Emit(OpCodes.Ret);
// Cache it, return it
var del = m.CreateDelegate(Expression.GetFuncType(typeof(IDataReader), type, type));
PocoFactories.Add(key, del);
return del;
}
finally
{
RWLock.ExitWriteLock();
}
}
private static void AddConverterToStack(ILGenerator il, Func<object, object> converter)
{
if (converter != null)
{
// Add the converter
int converterIndex = m_Converters.Count;
m_Converters.Add(converter);
// Generate IL to push the converter onto the stack
il.Emit(OpCodes.Ldsfld, fldConverters);
il.Emit(OpCodes.Ldc_I4, converterIndex);
il.Emit(OpCodes.Callvirt, fnListGetItem); // Converter
}
}
public static Func<object, object> GetConverter(bool forceDateTimesToUtc, PocoColumn pc, Type srcType, Type dstType)
{
Func<object, object> converter = null;
// Get converter from the mapper
if (Database.Mapper != null)
{
if (pc != null)
{
converter = Database.Mapper.GetFromDbConverter(pc.PropertyInfo, srcType);
}
else
{
var m2 = Database.Mapper as IMapper2;
if (m2 != null)
{
converter = m2.GetFromDbConverter(dstType, srcType);
}
}
}
// Standard DateTime->Utc mapper
if (forceDateTimesToUtc && converter == null && srcType == typeof(DateTime) && (dstType == typeof(DateTime) || dstType == typeof(DateTime?)))
{
converter = delegate(object src) { return new DateTime(((DateTime)src).Ticks, DateTimeKind.Utc); };
}
// Forced type conversion including integral types -> enum
if (converter == null)
{
if (dstType.IsEnum && IsIntegralType(srcType))
{
if (srcType != typeof(int))
{
converter = src => Convert.ChangeType(src, typeof(int), null);
}
}
else if (!dstType.IsAssignableFrom(srcType))
{
if (dstType.IsEnum && srcType == typeof(string))
{
converter = src => EnumMapper.EnumFromString(dstType, (string)src);
}
else
{
converter = src => Convert.ChangeType(src, dstType, null);
}
}
}
return converter;
}
static T RecurseInheritedTypes<T>(Type t, Func<Type, T> cb)
{
while (t != null)
{
T info = cb(t);
if (info != null)
return info;
t = t.BaseType;
}
return default(T);
}
static Dictionary<Type, PocoData> m_PocoDatas = new Dictionary<Type, PocoData>();
static List<Func<object, object>> m_Converters = new List<Func<object, object>>();
static MethodInfo fnGetValue = typeof(IDataRecord).GetMethod("GetValue", new Type[] { typeof(int) });
static MethodInfo fnIsDBNull = typeof(IDataRecord).GetMethod("IsDBNull");
static FieldInfo fldConverters = typeof(PocoData).GetField("m_Converters", BindingFlags.Static | BindingFlags.GetField | BindingFlags.NonPublic);
static MethodInfo fnListGetItem = typeof(List<Func<object, object>>).GetProperty("Item").GetGetMethod();
static MethodInfo fnInvoke = typeof(Func<object, object>).GetMethod("Invoke");
public Type type;
public string[] QueryColumns { get; protected set; }
public TableInfo TableInfo { get; protected set; }
public Dictionary<string, PocoColumn> Columns { get; protected set; }
Dictionary<string, Delegate> PocoFactories = new Dictionary<string, Delegate>();
}
class EnumMapper : IDisposable
{
readonly Dictionary<Type, Dictionary<string, object>> _stringsToEnums = new Dictionary<Type, Dictionary<string, object>>();
readonly Dictionary<Type, Dictionary<int, string>> _enumNumbersToStrings = new Dictionary<Type, Dictionary<int, string>>();
readonly ReaderWriterLockSlim _lock = new ReaderWriterLockSlim();
public object EnumFromString(Type type, string value)
{
PopulateIfNotPresent(type);
return _stringsToEnums[type][value];
}
public string StringFromEnum(object theEnum)
{
Type typeOfEnum = theEnum.GetType();
PopulateIfNotPresent(typeOfEnum);
return _enumNumbersToStrings[typeOfEnum][(int)theEnum];
}
void PopulateIfNotPresent(Type type)
{
_lock.EnterUpgradeableReadLock();
try
{
if (!_stringsToEnums.ContainsKey(type))
{
_lock.EnterWriteLock();
try
{
Populate(type);
}
finally
{
_lock.ExitWriteLock();
}
}
}
finally
{
_lock.ExitUpgradeableReadLock();
}
}
void Populate(Type type)
{
Array values = Enum.GetValues(type);
_stringsToEnums[type] = new Dictionary<string, object>(values.Length);
_enumNumbersToStrings[type] = new Dictionary<int, string>(values.Length);
for (int i = 0; i < values.Length; i++)
{
object value = values.GetValue(i);
_stringsToEnums[type].Add(value.ToString(), value);
_enumNumbersToStrings[type].Add((int)value, value.ToString());
}
}
public void Dispose()
{
_lock.Dispose();
}
}
// Member variables
string _connectionString;
string _providerName;
DbProviderFactory _factory;
IDbConnection _sharedConnection;
IDbTransaction _transaction;
int _sharedConnectionDepth;
int _transactionDepth;
bool _transactionCancelled;
string _lastSql;
object[] _lastArgs;
string _paramPrefix = "@";
VersionExceptionHandling _versionException = VersionExceptionHandling.Ignore;
}
// Transaction object helps maintain transaction depth counts
public class Transaction : IDisposable
{
public Transaction(Database db) : this(db, null) { }
public Transaction(Database db, IsolationLevel? isolationLevel)
{
_db = db;
_db.BeginTransaction(isolationLevel);
}
public virtual void Complete()
{
_db.CompleteTransaction();
_db = null;
}
public void Dispose()
{
if (_db != null)
_db.AbortTransaction();
}
Database _db;
}
// Simple helper class for building SQL statments
public class Sql
{
public Sql()
{
}
public Sql(string sql, params object[] args)
{
_sql = sql;
_args = args;
}
public Sql(bool isBuilt, string sql, params object[] args)
{
_sql = sql;
_args = args;
if (isBuilt)
{
_sqlFinal = _sql;
_argsFinal = _args;
}
}
public static Sql Builder
{
get { return new Sql(); }
}
string _sql;
object[] _args;
Sql _rhs;
string _sqlFinal;
object[] _argsFinal;
private void Build()
{
// already built?
if (_sqlFinal != null)
return;
// Build it
var sb = new StringBuilder();
var args = new List<object>();
Build(sb, args, null);
_sqlFinal = sb.ToString();
_argsFinal = args.ToArray();
}
public string SQL
{
get
{
Build();
return _sqlFinal;
}
}
public object[] Arguments
{
get
{
Build();
return _argsFinal;
}
}
public Sql Append(Sql sql)
{
if (_sqlFinal != null)
_sqlFinal = null;
if (_rhs != null)
{
_rhs.Append(sql);
}
else if (_sql != null)
{
_rhs = sql;
}
else
{
_sql = sql._sql;
_args = sql._args;
_rhs = sql._rhs;
}
return this;
}
public Sql Append(string sql, params object[] args)
{
return Append(new Sql(sql, args));
}
static bool Is(Sql sql, string sqltype)
{
return sql != null && sql._sql != null && sql._sql.StartsWith(sqltype, StringComparison.InvariantCultureIgnoreCase);
}
private void Build(StringBuilder sb, List<object> args, Sql lhs)
{
if (!String.IsNullOrEmpty(_sql))
{
// Add SQL to the string
if (sb.Length > 0)
{
sb.Append("\n");
}
var sql = Database.ProcessParams(_sql, _args, args);
if (Is(lhs, "WHERE ") && Is(this, "WHERE "))
sql = "AND " + sql.Substring(6);
if (Is(lhs, "ORDER BY ") && Is(this, "ORDER BY "))
sql = ", " + sql.Substring(9);
sb.Append(sql);
}
// Now do rhs
if (_rhs != null)
_rhs.Build(sb, args, this);
}
public Sql Where(string sql, params object[] args)
{
return Append(new Sql("WHERE (" + sql + ")", args));
}
public Sql OrderBy(params object[] columns)
{
return Append(new Sql("ORDER BY " + String.Join(", ", (from x in columns select x.ToString()).ToArray())));
}
public Sql Select(params object[] columns)
{
return Append(new Sql("SELECT " + String.Join(", ", (from x in columns select x.ToString()).ToArray())));
}
public Sql From(params object[] tables)
{
return Append(new Sql("FROM " + String.Join(", ", (from x in tables select x.ToString()).ToArray())));
}
public Sql GroupBy(params object[] columns)
{
return Append(new Sql("GROUP BY " + String.Join(", ", (from x in columns select x.ToString()).ToArray())));
}
private SqlJoinClause Join(string JoinType, string table)
{
return new SqlJoinClause(Append(new Sql(JoinType + table)));
}
public SqlJoinClause InnerJoin(string table) { return Join("INNER JOIN ", table); }
public SqlJoinClause LeftJoin(string table) { return Join("LEFT JOIN ", table); }
public class SqlJoinClause
{
private readonly Sql _sql;
public SqlJoinClause(Sql sql)
{
_sql = sql;
}
public Sql On(string onClause, params object[] args)
{
return _sql.Append("ON " + onClause, args);
}
}
public static implicit operator Sql(SqlBuilder.Template template)
{
return new Sql(true, template.RawSql, template.Parameters);
}
}
public class SqlBuilder
{
Dictionary<string, Clauses> data = new Dictionary<string, Clauses>();
int seq;
class Clause
{
public string Sql { get; set; }
public List<object> Parameters { get; set; }
}
class Clauses : List<Clause>
{
string joiner;
string prefix;
string postfix;
public Clauses(string joiner, string prefix, string postfix)
{
this.joiner = joiner;
this.prefix = prefix;
this.postfix = postfix;
}
public string ResolveClauses(List<object> finalParams)
{
foreach (var item in this)
{
item.Sql = Database.ProcessParams(item.Sql, item.Parameters.ToArray(), finalParams);
}
return prefix + string.Join(joiner, this.Select(c => c.Sql).ToArray()) + postfix;
}
}
public class Template
{
readonly string sql;
readonly SqlBuilder builder;
private List<object> finalParams = new List<object>();
int dataSeq;
public Template(SqlBuilder builder, string sql, params object[] parameters)
{
this.sql = Database.ProcessParams(sql, parameters, finalParams);
this.builder = builder;
}
static Regex regex = new Regex(@"\/\*\*.+\*\*\/", RegexOptions.Compiled | RegexOptions.Multiline);
void ResolveSql()
{
rawSql = sql;
if (dataSeq != builder.seq)
{
foreach (var pair in builder.data)
{
rawSql = rawSql.Replace("/**" + pair.Key + "**/", pair.Value.ResolveClauses(finalParams));
}
ReplaceDefaults();
dataSeq = builder.seq;
}
if (builder.seq == 0)
{
ReplaceDefaults();
}
}
private void ReplaceDefaults()
{
foreach (var pair in builder.defaultsIfEmpty)
{
rawSql = rawSql.Replace("/**" + pair.Key + "**/", " " + pair.Value + " ");
}
// replace all that is left with empty
rawSql = regex.Replace(rawSql, "");
}
string rawSql;
public string RawSql { get { ResolveSql(); return rawSql; } }
public object[] Parameters { get { ResolveSql(); return finalParams.ToArray(); } }
}
public SqlBuilder()
{
}
public Template AddTemplate(string sql, params object[] parameters)
{
return new Template(this, sql, parameters);
}
void AddClause(string name, string sql, object[] parameters, string joiner, string prefix, string postfix)
{
Clauses clauses;
if (!data.TryGetValue(name, out clauses))
{
clauses = new Clauses(joiner, prefix, postfix);
data[name] = clauses;
}
clauses.Add(new Clause { Sql = sql, Parameters = new List<object>(parameters) });
seq++;
}
readonly Dictionary<string, string> defaultsIfEmpty = new Dictionary<string, string>
{
{ "where", "1=1" },
{ "select", "1" }
};
public SqlBuilder Select(params string[] columns)
{
AddClause("select", string.Join(", ", columns), new object[] { }, ", ", "", "");
return this;
}
public SqlBuilder Join(string sql, params object[] parameters)
{
AddClause("join", sql, parameters, "\nINNER JOIN ", "\nINNER JOIN ", "\n");
return this;
}
public SqlBuilder LeftJoin(string sql, params object[] parameters)
{
AddClause("leftjoin", sql, parameters, "\nLEFT JOIN ", "\nLEFT JOIN ", "\n");
return this;
}
public SqlBuilder Where(string sql, params object[] parameters)
{
AddClause("where", sql, parameters, " AND ", " ( ", " )\n");
return this;
}
public SqlBuilder OrderBy(string sql, params object[] parameters)
{
AddClause("orderby", sql, parameters, ", ", "ORDER BY ", "\n");
return this;
}
public SqlBuilder OrderByCols(params string[] columns)
{
AddClause("orderbycols", string.Join(", ", columns), new object[] { }, ", ", ", ", "");
return this;
}
public SqlBuilder GroupBy(string sql, params object[] parameters)
{
AddClause("groupby", sql, parameters, " , ", "\nGROUP BY ", "\n");
return this;
}
public SqlBuilder Having(string sql, params object[] parameters)
{
AddClause("having", sql, parameters, "\nAND ", "HAVING ", "\n");
return this;
}
}
public static class SqlExtensions
{
public static Sql ToSql(this SqlBuilder.Template template)
{
return new Sql(true, template.RawSql, template.Parameters);
}
}
}