Dapper 封装oracle底层访问数据库
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如下代码,修改成只支持oracle:
using System; using System.Collections.Generic; using System.Data; using System.Linq; using System.Reflection; using System.Text; using System.Collections.Concurrent; using System.Reflection.Emit; using Dapper; using System.Threading; using System.Threading.Tasks; namespace Dapper.Contrib.Extensions { /// <summary> /// The Dapper.Contrib extensions for Dapper /// </summary> public static partial class SqlMapperExtensions { /// <summary> /// Defined a proxy object with a possibly dirty state. /// </summary> public interface IProxy //must be kept public { /// <summary> /// Whether the object has been changed. /// </summary> bool IsDirty { get; set; } } /// <summary> /// Defines a table name mapper for getting table names from types. /// </summary> public interface ITableNameMapper { /// <summary> /// Gets a table name from a given <see cref="Type"/>. /// </summary> /// <param name="type">The <see cref="Type"/> to get a name from.</param> /// <returns>The table name for the given <paramref name="type"/>.</returns> string GetTableName(Type type); } /// <summary> /// The function to get a database type from the given <see cref="IDbConnection"/>. /// </summary> /// <param name="connection">The connection to get a database type name from.</param> public delegate string GetDatabaseTypeDelegate(IDbConnection connection); /// <summary> /// The function to get a a table name from a given <see cref="Type"/> /// </summary> /// <param name="type">The <see cref="Type"/> to get a table name for.</param> public delegate string TableNameMapperDelegate(Type type); private static readonly ConcurrentDictionary<RuntimeTypeHandle, IEnumerable<PropertyInfo>> KeyProperties = new ConcurrentDictionary<RuntimeTypeHandle, IEnumerable<PropertyInfo>>(); private static readonly ConcurrentDictionary<RuntimeTypeHandle, IEnumerable<PropertyInfo>> ExplicitKeyProperties = new ConcurrentDictionary<RuntimeTypeHandle, IEnumerable<PropertyInfo>>(); private static readonly ConcurrentDictionary<RuntimeTypeHandle, IEnumerable<PropertyInfo>> TypeProperties = new ConcurrentDictionary<RuntimeTypeHandle, IEnumerable<PropertyInfo>>(); private static readonly ConcurrentDictionary<RuntimeTypeHandle, IEnumerable<PropertyInfo>> ComputedProperties = new ConcurrentDictionary<RuntimeTypeHandle, IEnumerable<PropertyInfo>>(); private static readonly ConcurrentDictionary<RuntimeTypeHandle, string> GetQueries = new ConcurrentDictionary<RuntimeTypeHandle, string>(); private static readonly ConcurrentDictionary<RuntimeTypeHandle, string> TypeTableName = new ConcurrentDictionary<RuntimeTypeHandle, string>(); private static readonly ISqlAdapter DefaultAdapter = new SqlServerAdapter(); private static readonly Dictionary<string, ISqlAdapter> AdapterDictionary = new Dictionary<string, ISqlAdapter> { ["sqlconnection"] = new SqlServerAdapter(), ["oracleconnection"] = new OracleAdapter(), ["sqlceconnection"] = new SqlCeServerAdapter(), ["mysqlconnection"] = new MySqlAdapter() }; private static List<PropertyInfo> ComputedPropertiesCache(Type type) { if (ComputedProperties.TryGetValue(type.TypeHandle, out IEnumerable<PropertyInfo> pi)) { return pi.ToList(); } var computedProperties = TypePropertiesCache(type).Where(p => p.GetCustomAttributes(true).Any(a => a is ComputedAttribute)).ToList(); ComputedProperties[type.TypeHandle] = computedProperties; return computedProperties; } private static List<PropertyInfo> ExplicitKeyPropertiesCache(Type type) { if (ExplicitKeyProperties.TryGetValue(type.TypeHandle, out IEnumerable<PropertyInfo> pi)) { return pi.ToList(); } var explicitKeyProperties = TypePropertiesCache(type).Where(p => p.GetCustomAttributes(true).Any(a => a is ExplicitKeyAttribute)).ToList(); ExplicitKeyProperties[type.TypeHandle] = explicitKeyProperties; return explicitKeyProperties; } private static List<PropertyInfo> KeyPropertiesCache(Type type) { if (KeyProperties.TryGetValue(type.TypeHandle, out IEnumerable<PropertyInfo> pi)) { return pi.ToList(); } var allProperties = TypePropertiesCache(type); var keyProperties = allProperties.Where(p => p.GetCustomAttributes(true).Any(a => a is KeyAttribute)).ToList(); if (keyProperties.Count == 0) { var idProp = allProperties.Find(p => string.Equals(p.Name, "id", StringComparison.CurrentCultureIgnoreCase)); if (idProp != null && !idProp.GetCustomAttributes(true).Any(a => a is ExplicitKeyAttribute)) { keyProperties.Add(idProp); } } KeyProperties[type.TypeHandle] = keyProperties; return keyProperties; } private static List<PropertyInfo> TypePropertiesCache(Type type) { if (TypeProperties.TryGetValue(type.TypeHandle, out IEnumerable<PropertyInfo> pis)) { return pis.ToList(); } var properties = type.GetProperties().Where(IsWriteable).ToArray(); TypeProperties[type.TypeHandle] = properties; return properties.ToList(); } private static bool IsWriteable(PropertyInfo pi) { var attributes = pi.GetCustomAttributes(typeof(WriteAttribute), false).AsList(); if (attributes.Count != 1) return true; var writeAttribute = (WriteAttribute)attributes[0]; return writeAttribute.Write; } private static PropertyInfo GetSingleKey<T>(string method) { var type = typeof(T); var keys = KeyPropertiesCache(type); var explicitKeys = ExplicitKeyPropertiesCache(type); var keyCount = keys.Count + explicitKeys.Count; if (keyCount > 1) throw new DataException($"{method}<T> only supports an entity with a single [Key] or [ExplicitKey] property"); if (keyCount == 0) throw new DataException($"{method}<T> only supports an entity with a [Key] or an [ExplicitKey] property"); return keys.Count > 0 ? keys[0] : explicitKeys[0]; } /// <summary> /// Returns a single entity by a single id from table "Ts". /// Id must be marked with [Key] attribute. /// Entities created from interfaces are tracked/intercepted for changes and used by the Update() extension /// for optimal performance. /// </summary> /// <typeparam name="T">Interface or type to create and populate</typeparam> /// <param name="connection">Open SqlConnection</param> /// <param name="id">Id of the entity to get, must be marked with [Key] attribute</param> /// <param name="transaction">The transaction to run under, null (the default) if none</param> /// <param name="commandTimeout">Number of seconds before command execution timeout</param> /// <returns>Entity of T</returns> public static T Get<T>(this IDbConnection connection, dynamic id, IDbTransaction transaction = null, int? commandTimeout = null) where T : class { var type = typeof(T); if (!GetQueries.TryGetValue(type.TypeHandle, out string sql)) { var key = GetSingleKey<T>(nameof(Get)); var name = GetTableName(type); sql = $"SELECT * FROM {name} WHERE {key.Name} = :id"; GetQueries[type.TypeHandle] = sql; } var dynParms = new DynamicParameters(); dynParms.Add(":id", id); T obj; if (type.IsInterface()) { var res = connection.Query(sql, dynParms).FirstOrDefault() as IDictionary<string, object>; if (res == null) return null; obj = ProxyGenerator.GetInterfaceProxy<T>(); foreach (var property in TypePropertiesCache(type)) { var val = res[property.Name]; property.SetValue(obj, Convert.ChangeType(val, property.PropertyType), null); } ((IProxy)obj).IsDirty = false; //reset change tracking and return } else { obj = connection.Query<T>(sql, dynParms, transaction, commandTimeout: commandTimeout).FirstOrDefault(); } return obj; } /// <summary> /// Returns a list of entites from table "Ts". /// Id of T must be marked with [Key] attribute. /// Entities created from interfaces are tracked/intercepted for changes and used by the Update() extension /// for optimal performance. /// </summary> /// <typeparam name="T">Interface or type to create and populate</typeparam> /// <param name="connection">Open SqlConnection</param> /// <param name="transaction">The transaction to run under, null (the default) if none</param> /// <param name="commandTimeout">Number of seconds before command execution timeout</param> /// <returns>Entity of T</returns> public static IEnumerable<T> GetAll<T>(this IDbConnection connection, IDbTransaction transaction = null, int? commandTimeout = null) where T : class { var type = typeof(T); var cacheType = typeof(List<T>); if (!GetQueries.TryGetValue(cacheType.TypeHandle, out string sql)) { GetSingleKey<T>(nameof(GetAll)); var name = GetTableName(type); sql = "SELECT * FROM " + name; GetQueries[cacheType.TypeHandle] = sql; } if (!type.IsInterface()) return connection.Query<T>(sql, null, transaction, commandTimeout: commandTimeout); var result = connection.Query(sql); var list = new List<T>(); foreach (IDictionary<string, object> res in result) { var obj = ProxyGenerator.GetInterfaceProxy<T>(); foreach (var property in TypePropertiesCache(type)) { var val = res[property.Name]; property.SetValue(obj, Convert.ChangeType(val, property.PropertyType), null); } ((IProxy)obj).IsDirty = false; //reset change tracking and return list.Add(obj); } return list; } /// <summary> /// Specify a custom table name mapper based on the POCO type name /// </summary> public static TableNameMapperDelegate TableNameMapper; private static string GetTableName(Type type) { if (TypeTableName.TryGetValue(type.TypeHandle, out string name)) return name; if (TableNameMapper != null) { name = TableNameMapper(type); } else { //NOTE: This as dynamic trick should be able to handle both our own Table-attribute as well as the one in EntityFramework var tableAttr = type #if NETSTANDARD1_3 .GetTypeInfo() #endif .GetCustomAttributes(false).SingleOrDefault(attr => attr.GetType().Name == "TableAttribute") as dynamic; if (tableAttr != null) { name = tableAttr.Name; } else { name = type.Name;// + "s"; if (type.IsInterface() && name.StartsWith("I")) name = name.Substring(1); } } TypeTableName[type.TypeHandle] = name; return name; } /// <summary> /// Inserts an entity into table "Ts" and returns identity id or number if inserted rows if inserting a list. /// </summary> /// <typeparam name="T">The type to insert.</typeparam> /// <param name="connection">Open SqlConnection</param> /// <param name="entityToInsert">Entity to insert, can be list of entities</param> /// <param name="transaction">The transaction to run under, null (the default) if none</param> /// <param name="commandTimeout">Number of seconds before command execution timeout</param> /// <returns>Identity of inserted entity, or number of inserted rows if inserting a list</returns> public static long Insert<T>(this IDbConnection connection, T entityToInsert, IDbTransaction transaction = null, int? commandTimeout = null) where T : class { var isList = false; var type = typeof(T); if (type.IsArray) { isList = true; type = type.GetElementType(); } else if (type.IsGenericType()) { isList = true; type = type.GetGenericArguments()[0]; } var name = GetTableName(type); var sbColumnList = new StringBuilder(null); var allProperties = TypePropertiesCache(type); var keyProperties = KeyPropertiesCache(type); var computedProperties = ComputedPropertiesCache(type); var allPropertiesExceptKeyAndComputed = allProperties.Except(keyProperties.Union(computedProperties)).ToList(); var adapter = GetFormatter(connection); for (var i = 0; i < allPropertiesExceptKeyAndComputed.Count; i++) { var property = allPropertiesExceptKeyAndComputed[i]; adapter.AppendColumnName(sbColumnList, property.Name); //fix for issue #336 if (i < allPropertiesExceptKeyAndComputed.Count - 1) sbColumnList.Append(", "); } var sbParameterList = new StringBuilder(null); for (var i = 0; i < allPropertiesExceptKeyAndComputed.Count; i++) { var property = allPropertiesExceptKeyAndComputed[i]; sbParameterList.AppendFormat(":{0}", property.Name); if (i < allPropertiesExceptKeyAndComputed.Count - 1) sbParameterList.Append(", "); } int returnVal; var wasClosed = connection.State == ConnectionState.Closed; if (wasClosed) connection.Open(); if (!isList) //single entity { returnVal = adapter.Insert(connection, transaction, commandTimeout, name, sbColumnList.ToString(), sbParameterList.ToString(), keyProperties, entityToInsert); } else { //insert list of entities var cmd = $"INSERT INTO {name} ({sbColumnList}) VALUES ({sbParameterList})"; returnVal = connection.Execute(cmd, entityToInsert, transaction, commandTimeout); } if (wasClosed) connection.Close(); return returnVal; } /// <summary> /// Updates entity in table "Ts", checks if the entity is modified if the entity is tracked by the Get() extension. /// </summary> /// <typeparam name="T">Type to be updated</typeparam> /// <param name="connection">Open SqlConnection</param> /// <param name="entityToUpdate">Entity to be updated</param> /// <param name="transaction">The transaction to run under, null (the default) if none</param> /// <param name="commandTimeout">Number of seconds before command execution timeout</param> /// <returns>true if updated, false if not found or not modified (tracked entities)</returns> public static bool Update<T>(this IDbConnection connection, T entityToUpdate, IDbTransaction transaction = null, int? commandTimeout = null) where T : class { if (entityToUpdate is IProxy proxy && !proxy.IsDirty) { return false; } var type = typeof(T); if (type.IsArray) { type = type.GetElementType(); } else if (type.IsGenericType()) { type = type.GetGenericArguments()[0]; } var keyProperties = KeyPropertiesCache(type).ToList(); //added ToList() due to issue #418, must work on a list copy var explicitKeyProperties = ExplicitKeyPropertiesCache(type); if (keyProperties.Count == 0 && explicitKeyProperties.Count == 0) throw new ArgumentException("Entity must have at least one [Key] or [ExplicitKey] property"); var name = GetTableName(type); var sb = new StringBuilder(); sb.AppendFormat("UPDATE {0} SET ", name); var allProperties = TypePropertiesCache(type); keyProperties.AddRange(explicitKeyProperties); var computedProperties = ComputedPropertiesCache(type); var nonIdProps = allProperties.Except(keyProperties.Union(computedProperties)).ToList(); var adapter = GetFormatter(connection); for (var i = 0; i < nonIdProps.Count; i++) { var property = nonIdProps[i]; adapter.AppendColumnNameEqualsValue(sb, property.Name); //fix for issue #336 if (i < nonIdProps.Count - 1) sb.AppendFormat(", "); } sb.Append(" WHERE "); for (var i = 0; i < keyProperties.Count; i++) { var property = keyProperties[i]; adapter.AppendColumnNameEqualsValue(sb, property.Name); //fix for issue #336 if (i < keyProperties.Count - 1) sb.AppendFormat(" AND "); } var updated = connection.Execute(sb.ToString(), entityToUpdate, commandTimeout: commandTimeout, transaction: transaction); return updated > 0; } /// <summary> /// Delete entity in table "Ts". /// </summary> /// <typeparam name="T">Type of entity</typeparam> /// <param name="connection">Open SqlConnection</param> /// <param name="entityToDelete">Entity to delete</param> /// <param name="transaction">The transaction to run under, null (the default) if none</param> /// <param name="commandTimeout">Number of seconds before command execution timeout</param> /// <returns>true if deleted, false if not found</returns> public static bool Delete<T>(this IDbConnection connection, T entityToDelete, IDbTransaction transaction = null, int? commandTimeout = null) where T : class { if (entityToDelete == null) throw new ArgumentException("Cannot Delete null Object", nameof(entityToDelete)); var type = typeof(T); if (type.IsArray) { type = type.GetElementType(); } else if (type.IsGenericType()) { type = type.GetGenericArguments()[0]; } var keyProperties = KeyPropertiesCache(type).ToList(); //added ToList() due to issue #418, must work on a list copy var explicitKeyProperties = ExplicitKeyPropertiesCache(type); if (keyProperties.Count == 0 && explicitKeyProperties.Count == 0) throw new ArgumentException("Entity must have at least one [Key] or [ExplicitKey] property"); var name = GetTableName(type); keyProperties.AddRange(explicitKeyProperties); var sb = new StringBuilder(); sb.AppendFormat("DELETE FROM {0} WHERE ", name); var adapter = GetFormatter(connection); for (var i = 0; i < keyProperties.Count; i++) { var property = keyProperties[i]; adapter.AppendColumnNameEqualsValue(sb, property.Name); //fix for issue #336 if (i < keyProperties.Count - 1) sb.AppendFormat(" AND "); } var deleted = connection.Execute(sb.ToString(), entityToDelete, transaction, commandTimeout); return deleted > 0; } /// <summary> /// Delete all entities in the table related to the type T. /// </summary> /// <typeparam name="T">Type of entity</typeparam> /// <param name="connection">Open SqlConnection</param> /// <param name="transaction">The transaction to run under, null (the default) if none</param> /// <param name="commandTimeout">Number of seconds before command execution timeout</param> /// <returns>true if deleted, false if none found</returns> public static bool DeleteAll<T>(this IDbConnection connection, IDbTransaction transaction = null, int? commandTimeout = null) where T : class { var type = typeof(T); var name = GetTableName(type); var statement = $"DELETE FROM {name}"; var deleted = connection.Execute(statement, null, transaction, commandTimeout); return deleted > 0; } /// <summary> /// Specifies a custom callback that detects the database type instead of relying on the default strategy (the name of the connection type object). /// Please note that this callback is global and will be used by all the calls that require a database specific adapter. /// </summary> public static GetDatabaseTypeDelegate GetDatabaseType; private static ISqlAdapter GetFormatter(IDbConnection connection) { var name = GetDatabaseType?.Invoke(connection).ToLower() ?? connection.GetType().Name.ToLower(); return !AdapterDictionary.ContainsKey(name) ? DefaultAdapter : AdapterDictionary[name]; } private static class ProxyGenerator { private static readonly Dictionary<Type, Type> TypeCache = new Dictionary<Type, Type>(); private static AssemblyBuilder GetAsmBuilder(string name) { #if NETSTANDARD1_3 || NETSTANDARD2_0 return AssemblyBuilder.DefineDynamicAssembly(new AssemblyName { Name = name }, AssemblyBuilderAccess.Run); #else return Thread.GetDomain().DefineDynamicAssembly(new AssemblyName { Name = name }, AssemblyBuilderAccess.Run); #endif } public static T GetInterfaceProxy<T>() { Type typeOfT = typeof(T); if (TypeCache.TryGetValue(typeOfT, out Type k)) { return (T)Activator.CreateInstance(k); } var assemblyBuilder = GetAsmBuilder(typeOfT.Name); var moduleBuilder = assemblyBuilder.DefineDynamicModule("SqlMapperExtensions." + typeOfT.Name); //NOTE: to save, add "asdasd.dll" parameter var interfaceType = typeof(IProxy); var typeBuilder = moduleBuilder.DefineType(typeOfT.Name + "_" + Guid.NewGuid(), TypeAttributes.Public | TypeAttributes.Class); typeBuilder.AddInterfaceImplementation(typeOfT); typeBuilder.AddInterfaceImplementation(interfaceType); //create our _isDirty field, which implements IProxy var setIsDirtyMethod = CreateIsDirtyProperty(typeBuilder); // Generate a field for each property, which implements the T foreach (var property in typeof(T).GetProperties()) { var isId = property.GetCustomAttributes(true).Any(a => a is KeyAttribute); CreateProperty<T>(typeBuilder, property.Name, property.PropertyType, setIsDirtyMethod, isId); } #if NETSTANDARD1_3 || NETSTANDARD2_0 var generatedType = typeBuilder.CreateTypeInfo().AsType(); #else var generatedType = typeBuilder.CreateType(); #endif TypeCache.Add(typeOfT, generatedType); return (T)Activator.CreateInstance(generatedType); } private static MethodInfo CreateIsDirtyProperty(TypeBuilder typeBuilder) { var propType = typeof(bool); var field = typeBuilder.DefineField("_" + nameof(IProxy.IsDirty), propType, FieldAttributes.Private); var property = typeBuilder.DefineProperty(nameof(IProxy.IsDirty), System.Reflection.PropertyAttributes.None, propType, new[] { propType }); const MethodAttributes getSetAttr = MethodAttributes.Public | MethodAttributes.NewSlot | MethodAttributes.SpecialName | MethodAttributes.Final | MethodAttributes.Virtual | MethodAttributes.HideBySig; // Define the "get" and "set" accessor methods var currGetPropMthdBldr = typeBuilder.DefineMethod("get_" + nameof(IProxy.IsDirty), getSetAttr, propType, Type.EmptyTypes); var currGetIl = currGetPropMthdBldr.GetILGenerator(); currGetIl.Emit(OpCodes.Ldarg_0); currGetIl.Emit(OpCodes.Ldfld, field); currGetIl.Emit(OpCodes.Ret); var currSetPropMthdBldr = typeBuilder.DefineMethod("set_" + nameof(IProxy.IsDirty), getSetAttr, null, new[] { propType }); var currSetIl = currSetPropMthdBldr.GetILGenerator(); currSetIl.Emit(OpCodes.Ldarg_0); currSetIl.Emit(OpCodes.Ldarg_1); currSetIl.Emit(OpCodes.Stfld, field); currSetIl.Emit(OpCodes.Ret); property.SetGetMethod(currGetPropMthdBldr); property.SetSetMethod(currSetPropMthdBldr); var getMethod = typeof(IProxy).GetMethod("get_" + nameof(IProxy.IsDirty)); var setMethod = typeof(IProxy).GetMethod("set_" + nameof(IProxy.IsDirty)); typeBuilder.DefineMethodOverride(currGetPropMthdBldr, getMethod); typeBuilder.DefineMethodOverride(currSetPropMthdBldr, setMethod); return currSetPropMthdBldr; } private static void CreateProperty<T>(TypeBuilder typeBuilder, string propertyName, Type propType, MethodInfo setIsDirtyMethod, bool isIdentity) { //Define the field and the property var field = typeBuilder.DefineField("_" + propertyName, propType, FieldAttributes.Private); var property = typeBuilder.DefineProperty(propertyName, System.Reflection.PropertyAttributes.None, propType, new[] { propType }); const MethodAttributes getSetAttr = MethodAttributes.Public | MethodAttributes.Virtual | MethodAttributes.HideBySig; // Define the "get" and "set" accessor methods var currGetPropMthdBldr = typeBuilder.DefineMethod("get_" + propertyName, getSetAttr, propType, Type.EmptyTypes); var currGetIl = currGetPropMthdBldr.GetILGenerator(); currGetIl.Emit(OpCodes.Ldarg_0); currGetIl.Emit(OpCodes.Ldfld, field); currGetIl.Emit(OpCodes.Ret); var currSetPropMthdBldr = typeBuilder.DefineMethod("set_" + propertyName, getSetAttr, null, new[] { propType }); //store value in private field and set the isdirty flag var currSetIl = currSetPropMthdBldr.GetILGenerator(); currSetIl.Emit(OpCodes.Ldarg_0); currSetIl.Emit(OpCodes.Ldarg_1); currSetIl.Emit(OpCodes.Stfld, field); currSetIl.Emit(OpCodes.Ldarg_0); currSetIl.Emit(OpCodes.Ldc_I4_1); currSetIl.Emit(OpCodes.Call, setIsDirtyMethod); currSetIl.Emit(OpCodes.Ret); //TODO: Should copy all attributes defined by the interface? if (isIdentity) { var keyAttribute = typeof(KeyAttribute); var myConstructorInfo = keyAttribute.GetConstructor(new Type[] { }); var attributeBuilder = new CustomAttributeBuilder(myConstructorInfo, new object[] { }); property.SetCustomAttribute(attributeBuilder); } property.SetGetMethod(currGetPropMthdBldr); property.SetSetMethod(currSetPropMthdBldr); var getMethod = typeof(T).GetMethod("get_" + propertyName); var setMethod = typeof(T).GetMethod("set_" + propertyName); typeBuilder.DefineMethodOverride(currGetPropMthdBldr, getMethod); typeBuilder.DefineMethodOverride(currSetPropMthdBldr, setMethod); } } } /// <summary> /// Defines the name of a table to use in Dapper.Contrib commands. /// </summary> [AttributeUsage(AttributeTargets.Class)] public class TableAttribute : Attribute { /// <summary> /// Creates a table mapping to a specific name for Dapper.Contrib commands /// </summary> /// <param name="tableName">The name of this table in the database.</param> public TableAttribute(string tableName) { Name = tableName; } /// <summary> /// The name of the table in the database /// </summary> public string Name { get; set; } } /// <summary> /// Specifies that this field is a primary key in the database /// </summary> [AttributeUsage(AttributeTargets.Property)] public class KeyAttribute : Attribute { } /// <summary> /// Specifies that this field is a explicitly set primary key in the database /// </summary> [AttributeUsage(AttributeTargets.Property)] public class ExplicitKeyAttribute : Attribute { } /// <summary> /// Specifies whether a field is writable in the database. /// </summary> [AttributeUsage(AttributeTargets.Property)] public class WriteAttribute : Attribute { /// <summary> /// Specifies whether a field is writable in the database. /// </summary> /// <param name="write">Whether a field is writable in the database.</param> public WriteAttribute(bool write) { Write = write; } /// <summary> /// Whether a field is writable in the database. /// </summary> public bool Write { get; } } /// <summary> /// Specifies that this is a computed column. /// </summary> [AttributeUsage(AttributeTargets.Property)] public class ComputedAttribute : Attribute { } internal static class TypeExtensions { public static string Name(this Type type) => #if NETSTANDARD1_3 || NETCOREAPP1_0 type.GetTypeInfo().Name; #else type.Name; #endif public static bool IsValueType(this Type type) => #if NETSTANDARD1_3 || NETCOREAPP1_0 type.GetTypeInfo().IsValueType; #else type.IsValueType; #endif public static bool IsEnum(this Type type) => #if NETSTANDARD1_3 || NETCOREAPP1_0 type.GetTypeInfo().IsEnum; #else type.IsEnum; #endif public static bool IsGenericType(this Type type) => #if NETSTANDARD1_3 || NETCOREAPP1_0 type.GetTypeInfo().IsGenericType; #else type.IsGenericType; #endif public static bool IsInterface(this Type type) => #if NETSTANDARD1_3 || NETCOREAPP1_0 type.GetTypeInfo().IsInterface; #else type.IsInterface; #endif #if NETSTANDARD1_3 || NETCOREAPP1_0 public static IEnumerable<Attribute> GetCustomAttributes(this Type type, bool inherit) { return type.GetTypeInfo().GetCustomAttributes(inherit); } public static TypeCode GetTypeCode(Type type) { if (type == null) return TypeCode.Empty; if (typeCodeLookup.TryGetValue(type, out TypeCode result)) return result; if (type.IsEnum()) { type = Enum.GetUnderlyingType(type); if (typeCodeLookup.TryGetValue(type, out result)) return result; } return TypeCode.Object; } private static readonly Dictionary<Type, TypeCode> typeCodeLookup = new Dictionary<Type, TypeCode> { [typeof(bool)] = TypeCode.Boolean, [typeof(byte)] = TypeCode.Byte, [typeof(char)] = TypeCode.Char, [typeof(DateTime)] = TypeCode.DateTime, [typeof(decimal)] = TypeCode.Decimal, [typeof(double)] = TypeCode.Double, [typeof(short)] = TypeCode.Int16, [typeof(int)] = TypeCode.Int32, [typeof(long)] = TypeCode.Int64, [typeof(object)] = TypeCode.Object, [typeof(sbyte)] = TypeCode.SByte, [typeof(float)] = TypeCode.Single, [typeof(string)] = TypeCode.String, [typeof(ushort)] = TypeCode.UInt16, [typeof(uint)] = TypeCode.UInt32, [typeof(ulong)] = TypeCode.UInt64, }; #else public static TypeCode GetTypeCode(Type type) => Type.GetTypeCode(type); #endif public static MethodInfo GetPublicInstanceMethod(this Type type, string name, Type[] types) { #if NETSTANDARD1_3 || NETCOREAPP1_0 var method = type.GetMethod(name, types); return (method?.IsPublic == true && !method.IsStatic) ? method : null; #else return type.GetMethod(name, BindingFlags.Instance | BindingFlags.Public, null, types, null); #endif } } } /// <summary> /// The interface for all Dapper.Contrib database operations /// Implementing this is each provider‘s model. /// </summary> public partial interface ISqlAdapter { /// <summary> /// Inserts <paramref name="entityToInsert"/> into the database, returning the Id of the row created. /// </summary> /// <param name="connection">The connection to use.</param> /// <param name="transaction">The transaction to use.</param> /// <param name="commandTimeout">The command timeout to use.</param> /// <param name="tableName">The table to insert into.</param> /// <param name="columnList">The columns to set with this insert.</param> /// <param name="parameterList">The parameters to set for this insert.</param> /// <param name="keyProperties">The key columns in this table.</param> /// <param name="entityToInsert">The entity to insert.</param> /// <returns>The Id of the row created.</returns> int Insert(IDbConnection connection, IDbTransaction transaction, int? commandTimeout, string tableName, string columnList, string parameterList, IEnumerable<PropertyInfo> keyProperties, object entityToInsert); /// <summary> /// Adds the name of a column. /// </summary> /// <param name="sb">The string builder to append to.</param> /// <param name="columnName">The column name.</param> void AppendColumnName(StringBuilder sb, string columnName); /// <summary> /// Adds a column equality to a parameter. /// </summary> /// <param name="sb">The string builder to append to.</param> /// <param name="columnName">The column name.</param> void AppendColumnNameEqualsValue(StringBuilder sb, string columnName); } /// <summary> /// The Oracle database adapter. /// </summary> public partial class OracleAdapter : ISqlAdapter { /// <summary> /// Inserts <paramref name="entityToInsert"/> into the database, returning the Id of the row created. /// </summary> /// <param name="connection">The connection to use.</param> /// <param name="transaction">The transaction to use.</param> /// <param name="commandTimeout">The command timeout to use.</param> /// <param name="tableName">The table to insert into.</param> /// <param name="columnList">The columns to set with this insert.</param> /// <param name="parameterList">The parameters to set for this insert.</param> /// <param name="keyProperties">The key columns in this table.</param> /// <param name="entityToInsert">The entity to insert.</param> /// <returns>The Id of the row created.</returns> public int Insert(IDbConnection connection, IDbTransaction transaction, int? commandTimeout, string tableName, string columnList, string parameterList, IEnumerable<PropertyInfo> keyProperties, object entityToInsert) { var keyFirst = keyProperties.First(); var keyName = keyFirst.Name; var cmd = $"BEGIN INSERT INTO {tableName} ({columnList}) VALUES ({parameterList}) RETURNING {keyName} INTO :ID; END;";//$"BEGIN INSERT INTO {tableName} ({columnList}) VALUES ({parameterList}) RETURNING ID INTO :ID; END;"; var multi = connection.QueryMultiple(cmd, entityToInsert, transaction, commandTimeout); var idKey = multi.Command.Parameters["ID"] as IDataParameter; if(keyFirst.PropertyType == typeof(int) || keyFirst.PropertyType == typeof(long)) { return (int)idKey.Value; } return 1; } /// <summary> /// Adds the name of a column. /// </summary> /// <param name="sb">The string builder to append to.</param> /// <param name="columnName">The column name.</param> public void AppendColumnName(StringBuilder sb, string columnName) { sb.AppendFormat("{0}", columnName); } /// <summary> /// Adds a column equality to a parameter. /// </summary> /// <param name="sb">The string builder to append to.</param> /// <param name="columnName">The column name.</param> public void AppendColumnNameEqualsValue(StringBuilder sb, string columnName) { sb.AppendFormat("{0} = :{1}", columnName, columnName); } } /// <summary> /// The SQL Server database adapter. /// </summary> public partial class SqlServerAdapter : ISqlAdapter { /// <summary> /// Inserts <paramref name="entityToInsert"/> into the database, returning the Id of the row created. /// </summary> /// <param name="connection">The connection to use.</param> /// <param name="transaction">The transaction to use.</param> /// <param name="commandTimeout">The command timeout to use.</param> /// <param name="tableName">The table to insert into.</param> /// <param name="columnList">The columns to set with this insert.</param> /// <param name="parameterList">The parameters to set for this insert.</param> /// <param name="keyProperties">The key columns in this table.</param> /// <param name="entityToInsert">The entity to insert.</param> /// <returns>The Id of the row created.</returns> public int Insert(IDbConnection connection, IDbTransaction transaction, int? commandTimeout, string tableName, string columnList, string parameterList, IEnumerable<PropertyInfo> keyProperties, object entityToInsert) { var cmd = $"insert into {tableName} ({columnList}) values ({parameterList});select SCOPE_IDENTITY() id"; var multi = connection.QueryMultiple(cmd, entityToInsert, transaction, commandTimeout); var first = multi.Read().FirstOrDefault(); if (first == null || first.id == null) return 0; var id = (int)first.id; var propertyInfos = keyProperties as PropertyInfo[] ?? keyProperties.ToArray(); if (propertyInfos.Length == 0) return id; var idProperty = propertyInfos[0]; idProperty.SetValue(entityToInsert, Convert.ChangeType(id, idProperty.PropertyType), null); return id; } /// <summary> /// Adds the name of a column. /// </summary> /// <param name="sb">The string builder to append to.</param> /// <param name="columnName">The column name.</param> public void AppendColumnName(StringBuilder sb, string columnName) { sb.AppendFormat("[{0}]", columnName); } /// <summary> /// Adds a column equality to a parameter. /// </summary> /// <param name="sb">The string builder to append to.</param> /// <param name="columnName">The column name.</param> public void AppendColumnNameEqualsValue(StringBuilder sb, string columnName) { sb.AppendFormat("[{0}] = @{1}", columnName, columnName); } } /// <summary> /// The SQL Server Compact Edition database adapter. /// </summary> public partial class SqlCeServerAdapter : ISqlAdapter { /// <summary> /// Inserts <paramref name="entityToInsert"/> into the database, returning the Id of the row created. /// </summary> /// <param name="connection">The connection to use.</param> /// <param name="transaction">The transaction to use.</param> /// <param name="commandTimeout">The command timeout to use.</param> /// <param name="tableName">The table to insert into.</param> /// <param name="columnList">The columns to set with this insert.</param> /// <param name="parameterList">The parameters to set for this insert.</param> /// <param name="keyProperties">The key columns in this table.</param> /// <param name="entityToInsert">The entity to insert.</param> /// <returns>The Id of the row created.</returns> public int Insert(IDbConnection connection, IDbTransaction transaction, int? commandTimeout, string tableName, string columnList, string parameterList, IEnumerable<PropertyInfo> keyProperties, object entityToInsert) { var cmd = $"insert into {tableName} ({columnList}) values ({parameterList})"; connection.Execute(cmd, entityToInsert, transaction, commandTimeout); var r = connection.Query("select @@IDENTITY id", transaction: transaction, commandTimeout: commandTimeout).ToList(); if (r[0].id == null) return 0; var id = (int)r[0].id; var propertyInfos = keyProperties as PropertyInfo[] ?? keyProperties.ToArray(); if (propertyInfos.Length == 0) return id; var idProperty = propertyInfos[0]; idProperty.SetValue(entityToInsert, Convert.ChangeType(id, idProperty.PropertyType), null); return id; } /// <summary> /// Adds the name of a column. /// </summary> /// <param name="sb">The string builder to append to.</param> /// <param name="columnName">The column name.</param> public void AppendColumnName(StringBuilder sb, string columnName) { sb.AppendFormat("[{0}]", columnName); } /// <summary> /// Adds a column equality to a parameter. /// </summary> /// <param name="sb">The string builder to append to.</param> /// <param name="columnName">The column name.</param> public void AppendColumnNameEqualsValue(StringBuilder sb, string columnName) { sb.AppendFormat("[{0}] = @{1}", columnName, columnName); } } /// <summary> /// The MySQL database adapter. /// </summary> public partial class MySqlAdapter : ISqlAdapter { /// <summary> /// Inserts <paramref name="entityToInsert"/> into the database, returning the Id of the row created. /// </summary> /// <param name="connection">The connection to use.</param> /// <param name="transaction">The transaction to use.</param> /// <param name="commandTimeout">The command timeout to use.</param> /// <param name="tableName">The table to insert into.</param> /// <param name="columnList">The columns to set with this insert.</param> /// <param name="parameterList">The parameters to set for this insert.</param> /// <param name="keyProperties">The key columns in this table.</param> /// <param name="entityToInsert">The entity to insert.</param> /// <returns>The Id of the row created.</returns> public int Insert(IDbConnection connection, IDbTransaction transaction, int? commandTimeout, string tableName, string columnList, string parameterList, IEnumerable<PropertyInfo> keyProperties, object entityToInsert) { var cmd = $"insert into {tableName} ({columnList}) values ({parameterList})"; connection.Execute(cmd, entityToInsert, transaction, commandTimeout); var r = connection.Query("Select LAST_INSERT_ID() id", transaction: transaction, commandTimeout: commandTimeout); var id = r.First().id; if (id == null) return 0; var propertyInfos = keyProperties as PropertyInfo[] ?? keyProperties.ToArray(); if (propertyInfos.Length == 0) return Convert.ToInt32(id); var idp = propertyInfos[0]; idp.SetValue(entityToInsert, Convert.ChangeType(id, idp.PropertyType), null); return Convert.ToInt32(id); } /// <summary> /// Adds the name of a column. /// </summary> /// <param name="sb">The string builder to append to.</param> /// <param name="columnName">The column name.</param> public void AppendColumnName(StringBuilder sb, string columnName) { sb.AppendFormat("`{0}`", columnName); } /// <summary> /// Adds a column equality to a parameter. /// </summary> /// <param name="sb">The string builder to append to.</param> /// <param name="columnName">The column name.</param> public void AppendColumnNameEqualsValue(StringBuilder sb, string columnName) { sb.AppendFormat("`{0}` = @{1}", columnName, columnName); } } /// <summary> /// The Postgres database adapter. /// </summary> public partial class PostgresAdapter : ISqlAdapter { /// <summary> /// Inserts <paramref name="entityToInsert"/> into the database, returning the Id of the row created. /// </summary> /// <param name="connection">The connection to use.</param> /// <param name="transaction">The transaction to use.</param> /// <param name="commandTimeout">The command timeout to use.</param> /// <param name="tableName">The table to insert into.</param> /// <param name="columnList">The columns to set with this insert.</param> /// <param name="parameterList">The parameters to set for this insert.</param> /// <param name="keyProperties">The key columns in this table.</param> /// <param name="entityToInsert">The entity to insert.</param> /// <returns>The Id of the row created.</returns> public int Insert(IDbConnection connection, IDbTransaction transaction, int? commandTimeout, string tableName, string columnList, string parameterList, IEnumerable<PropertyInfo> keyProperties, object entityToInsert) { var sb = new StringBuilder(); sb.AppendFormat("insert into {0} ({1}) values ({2})", tableName, columnList, parameterList); // If no primary key then safe to assume a join table with not too much data to return var propertyInfos = keyProperties as PropertyInfo[] ?? keyProperties.ToArray(); if (propertyInfos.Length == 0) { sb.Append(" RETURNING *"); } else { sb.Append(" RETURNING "); var first = true; foreach (var property in propertyInfos) { if (!first) sb.Append(", "); first = false; sb.Append(property.Name); } } var results = connection.Query(sb.ToString(), entityToInsert, transaction, commandTimeout: commandTimeout).ToList(); // Return the key by assinging the corresponding property in the object - by product is that it supports compound primary keys var id = 0; foreach (var p in propertyInfos) { var value = ((IDictionary<string, object>)results[0])[p.Name.ToLower()]; p.SetValue(entityToInsert, value, null); if (id == 0) id = Convert.ToInt32(value); } return id; } /// <summary> /// Adds the name of a column. /// </summary> /// <param name="sb">The string builder to append to.</param> /// <param name="columnName">The column name.</param> public void AppendColumnName(StringBuilder sb, string columnName) { sb.AppendFormat("\"{0}\"", columnName); } /// <summary> /// Adds a column equality to a parameter. /// </summary> /// <param name="sb">The string builder to append to.</param> /// <param name="columnName">The column name.</param> public void AppendColumnNameEqualsValue(StringBuilder sb, string columnName) { sb.AppendFormat("\"{0}\" = @{1}", columnName, columnName); } } /// <summary> /// The SQLite database adapter. /// </summary> public partial class SQLiteAdapter : ISqlAdapter { /// <summary> /// Inserts <paramref name="entityToInsert"/> into the database, returning the Id of the row created. /// </summary> /// <param name="connection">The connection to use.</param> /// <param name="transaction">The transaction to use.</param> /// <param name="commandTimeout">The command timeout to use.</param> /// <param name="tableName">The table to insert into.</param> /// <param name="columnList">The columns to set with this insert.</param> /// <param name="parameterList">The parameters to set for this insert.</param> /// <param name="keyProperties">The key columns in this table.</param> /// <param name="entityToInsert">The entity to insert.</param> /// <returns>The Id of the row created.</returns> public int Insert(IDbConnection connection, IDbTransaction transaction, int? commandTimeout, string tableName, string columnList, string parameterList, IEnumerable<PropertyInfo> keyProperties, object entityToInsert) { var cmd = $"INSERT INTO {tableName} ({columnList}) VALUES ({parameterList}); SELECT last_insert_rowid() id"; var multi = connection.QueryMultiple(cmd, entityToInsert, transaction, commandTimeout); var id = (int)multi.Read().First().id; var propertyInfos = keyProperties as PropertyInfo[] ?? keyProperties.ToArray(); if (propertyInfos.Length == 0) return id; var idProperty = propertyInfos[0]; idProperty.SetValue(entityToInsert, Convert.ChangeType(id, idProperty.PropertyType), null); return id; } /// <summary> /// Adds the name of a column. /// </summary> /// <param name="sb">The string builder to append to.</param> /// <param name="columnName">The column name.</param> public void AppendColumnName(StringBuilder sb, string columnName) { sb.AppendFormat("\"{0}\"", columnName); } /// <summary> /// Adds a column equality to a parameter. /// </summary> /// <param name="sb">The string builder to append to.</param> /// <param name="columnName">The column name.</param> public void AppendColumnNameEqualsValue(StringBuilder sb, string columnName) { sb.AppendFormat("\"{0}\" = @{1}", columnName, columnName); } } /// <summary> /// The Firebase SQL adapeter. /// </summary> public partial class FbAdapter : ISqlAdapter { /// <summary> /// Inserts <paramref name="entityToInsert"/> into the database, returning the Id of the row created. /// </summary> /// <param name="connection">The connection to use.</param> /// <param name="transaction">The transaction to use.</param> /// <param name="commandTimeout">The command timeout to use.</param> /// <param name="tableName">The table to insert into.</param> /// <param name="columnList">The columns to set with this insert.</param> /// <param name="parameterList">The parameters to set for this insert.</param> /// <param name="keyProperties">The key columns in this table.</param> /// <param name="entityToInsert">The entity to insert.</param> /// <returns>The Id of the row created.</returns> public int Insert(IDbConnection connection, IDbTransaction transaction, int? commandTimeout, string tableName, string columnList, string parameterList, IEnumerable<PropertyInfo> keyProperties, object entityToInsert) { var cmd = $"insert into {tableName} ({columnList}) values ({parameterList})"; connection.Execute(cmd, entityToInsert, transaction, commandTimeout); var propertyInfos = keyProperties as PropertyInfo[] ?? keyProperties.ToArray(); var keyName = propertyInfos[0].Name; var r = connection.Query($"SELECT FIRST 1 {keyName} ID FROM {tableName} ORDER BY {keyName} DESC", transaction: transaction, commandTimeout: commandTimeout); var id = r.First().ID; if (id == null) return 0; if (propertyInfos.Length == 0) return Convert.ToInt32(id); var idp = propertyInfos[0]; idp.SetValue(entityToInsert, Convert.ChangeType(id, idp.PropertyType), null); return Convert.ToInt32(id); } /// <summary> /// Adds the name of a column. /// </summary> /// <param name="sb">The string builder to append to.</param> /// <param name="columnName">The column name.</param> public void AppendColumnName(StringBuilder sb, string columnName) { sb.AppendFormat("{0}", columnName); } /// <summary> /// Adds a column equality to a parameter. /// </summary> /// <param name="sb">The string builder to append to.</param> /// <param name="columnName">The column name.</param> public void AppendColumnNameEqualsValue(StringBuilder sb, string columnName) { sb.AppendFormat("{0} = @{1}", columnName, columnName); } }
using System; using System.Collections.Generic; using System.Data; using System.Linq; using System.Reflection; using System.Text; using System.Threading.Tasks; using Dapper; namespace Dapper.Contrib.Extensions { public static partial class SqlMapperExtensions { /// <summary> /// Returns a single entity by a single id from table "Ts" asynchronously using .NET 4.5 Task. T must be of interface type. /// Id must be marked with [Key] attribute. /// Created entity is tracked/intercepted for changes and used by the Update() extension. /// </summary> /// <typeparam name="T">Interface type to create and populate</typeparam> /// <param name="connection">Open SqlConnection</param> /// <param name="id">Id of the entity to get, must be marked with [Key] attribute</param> /// <param name="transaction">The transaction to run under, null (the default) if none</param> /// <param name="commandTimeout">Number of seconds before command execution timeout</param> /// <returns>Entity of T</returns> public static async Task<T> GetAsync<T>(this IDbConnection connection, dynamic id, IDbTransaction transaction = null, int? commandTimeout = null) where T : class { var type = typeof(T); if (!GetQueries.TryGetValue(type.TypeHandle, out string sql)) { var key = GetSingleKey<T>(nameof(GetAsync)); var name = GetTableName(type); sql = $"SELECT * FROM {name} WHERE {key.Name} = :id"; GetQueries[type.TypeHandle] = sql; } var dynParms = new DynamicParameters(); dynParms.Add(":id", id); if (!type.IsInterface()) return (await connection.QueryAsync<T>(sql, dynParms, transaction, commandTimeout).ConfigureAwait(false)).FirstOrDefault(); var res = (await connection.QueryAsync<dynamic>(sql, dynParms).ConfigureAwait(false)).FirstOrDefault() as IDictionary<string, object>; if (res == null) return null; var obj = ProxyGenerator.GetInterfaceProxy<T>(); foreach (var property in TypePropertiesCache(type)) { var val = res[property.Name]; property.SetValue(obj, Convert.ChangeType(val, property.PropertyType), null); } ((IProxy)obj).IsDirty = false; //reset change tracking and return return obj; } /// <summary> /// Returns a list of entites from table "Ts". /// Id of T must be marked with [Key] attribute. /// Entities created from interfaces are tracked/intercepted for changes and used by the Update() extension /// for optimal performance. /// </summary> /// <typeparam name="T">Interface or type to create and populate</typeparam> /// <param name="connection">Open SqlConnection</param> /// <param name="transaction">The transaction to run under, null (the default) if none</param> /// <param name="commandTimeout">Number of seconds before command execution timeout</param> /// <returns>Entity of T</returns> public static Task<IEnumerable<T>> GetAllAsync<T>(this IDbConnection connection, IDbTransaction transaction = null, int? commandTimeout = null) where T : class { var type = typeof(T); var cacheType = typeof(List<T>); if (!GetQueries.TryGetValue(cacheType.TypeHandle, out string sql)) { GetSingleKey<T>(nameof(GetAll)); var name = GetTableName(type); sql = "SELECT * FROM " + name; GetQueries[cacheType.TypeHandle] = sql; } if (!type.IsInterface()) { return connection.QueryAsync<T>(sql, null, transaction, commandTimeout); } return GetAllAsyncImpl<T>(connection, transaction, commandTimeout, sql, type); } private static async Task<IEnumerable<T>> GetAllAsyncImpl<T>(IDbConnection connection, IDbTransaction transaction, int? commandTimeout, string sql, Type type) where T : class { var result = await connection.QueryAsync(sql).ConfigureAwait(false); var list = new List<T>(); foreach (IDictionary<string, object> res in result) { var obj = ProxyGenerator.GetInterfaceProxy<T>(); foreach (var property in TypePropertiesCache(type)) { var val = res[property.Name]; property.SetValue(obj, Convert.ChangeType(val, property.PropertyType), null); } ((IProxy)obj).IsDirty = false; //reset change tracking and return list.Add(obj); } return list; } /// <summary> /// Inserts an entity into table "Ts" asynchronously using .NET 4.5 Task and returns identity id. /// </summary> /// <typeparam name="T">The type being inserted.</typeparam> /// <param name="connection">Open SqlConnection</param> /// <param name="entityToInsert">Entity to insert</param> /// <param name="transaction">The transaction to run under, null (the default) if none</param> /// <param name="commandTimeout">Number of seconds before command execution timeout</param> /// <param name="sqlAdapter">The specific ISqlAdapter to use, auto-detected based on connection if null</param> /// <returns>Identity of inserted entity</returns> public static Task<int> InsertAsync<T>(this IDbConnection connection, T entityToInsert, IDbTransaction transaction = null, int? commandTimeout = null, ISqlAdapter sqlAdapter = null) where T : class { var type = typeof(T); sqlAdapter = sqlAdapter ?? GetFormatter(connection); var isList = false; if (type.IsArray) { isList = true; type = type.GetElementType(); } else if (type.IsGenericType()) { isList = true; type = type.GetGenericArguments()[0]; } var name = GetTableName(type); var sbColumnList = new StringBuilder(null); var allProperties = TypePropertiesCache(type); var keyProperties = KeyPropertiesCache(type); var computedProperties = ComputedPropertiesCache(type); var allPropertiesExceptKeyAndComputed = allProperties.Except(keyProperties.Union(computedProperties)).ToList(); for (var i = 0; i < allPropertiesExceptKeyAndComputed.Count; i++) { var property = allPropertiesExceptKeyAndComputed[i]; sqlAdapter.AppendColumnName(sbColumnList, property.Name); if (i < allPropertiesExceptKeyAndComputed.Count - 1) sbColumnList.Append(", "); } var sbParameterList = new StringBuilder(null); for (var i = 0; i < allPropertiesExceptKeyAndComputed.Count; i++) { var property = allPropertiesExceptKeyAndComputed[i]; sbParameterList.AppendFormat(":{0}", property.Name); if (i < allPropertiesExceptKeyAndComputed.Count - 1) sbParameterList.Append(", "); } if (!isList) //single entity { return sqlAdapter.InsertAsync(connection, transaction, commandTimeout, name, sbColumnList.ToString(), sbParameterList.ToString(), keyProperties, entityToInsert); } //insert list of entities var cmd = $"INSERT INTO {name} ({sbColumnList}) values ({sbParameterList})"; return connection.ExecuteAsync(cmd, entityToInsert, transaction, commandTimeout); } /// <summary> /// Updates entity in table "Ts" asynchronously using .NET 4.5 Task, checks if the entity is modified if the entity is tracked by the Get() extension. /// </summary> /// <typeparam name="T">Type to be updated</typeparam> /// <param name="connection">Open SqlConnection</param> /// <param name="entityToUpdate">Entity to be updated</param> /// <param name="transaction">The transaction to run under, null (the default) if none</param> /// <param name="commandTimeout">Number of seconds before command execution timeout</param> /// <returns>true if updated, false if not found or not modified (tracked entities)</returns> public static async Task<bool> UpdateAsync<T>(this IDbConnection connection, T entityToUpdate, IDbTransaction transaction = null, int? commandTimeout = null) where T : class { if ((entityToUpdate is IProxy proxy) && !proxy.IsDirty) { return false; } var type = typeof(T); if (type.IsArray) { type = type.GetElementType(); } else if (type.IsGenericType()) { type = type.GetGenericArguments()[0]; } var keyProperties = KeyPropertiesCache(type); var explicitKeyProperties = ExplicitKeyPropertiesCache(type); if (keyProperties.Count == 0 && explicitKeyProperties.Count == 0) throw new ArgumentException("Entity must have at least one [Key] or [ExplicitKey] property"); var name = GetTableName(type); var sb = new StringBuilder(); sb.AppendFormat("UPDATE {0} SET ", name); var allProperties = TypePropertiesCache(type); keyProperties.AddRange(explicitKeyProperties); var computedProperties = ComputedPropertiesCache(type); var nonIdProps = allProperties.Except(keyProperties.Union(computedProperties)).ToList(); var adapter = GetFormatter(connection); for (var i = 0; i < nonIdProps.Count; i++) { var property = nonIdProps[i]; adapter.AppendColumnNameEqualsValue(sb, property.Name); if (i < nonIdProps.Count - 1) sb.AppendFormat(", "); } sb.Append(" WHERE "); for (var i = 0; i < keyProperties.Count; i++) { var property = keyProperties[i]; adapter.AppendColumnNameEqualsValue(sb, property.Name); if (i < keyProperties.Count - 1) sb.AppendFormat(" AND "); } var updated = await connection.ExecuteAsync(sb.ToString(), entityToUpdate, commandTimeout: commandTimeout, transaction: transaction).ConfigureAwait(false); return updated > 0; } /// <summary> /// Delete entity in table "Ts" asynchronously using .NET 4.5 Task. /// </summary> /// <typeparam name="T">Type of entity</typeparam> /// <param name="connection">Open SqlConnection</param> /// <param name="entityToDelete">Entity to delete</param> /// <param name="transaction">The transaction to run under, null (the default) if none</param> /// <param name="commandTimeout">Number of seconds before command execution timeout</param> /// <returns>true if deleted, false if not found</returns> public static async Task<bool> DeleteAsync<T>(this IDbConnection connection, T entityToDelete, IDbTransaction transaction = null, int? commandTimeout = null) where T : class { if (entityToDelete == null) throw new ArgumentException("Cannot Delete null Object", nameof(entityToDelete)); var type = typeof(T); if (type.IsArray) { type = type.GetElementType(); } else if (type.IsGenericType()) { type = type.GetGenericArguments()[0]; } var keyProperties = KeyPropertiesCache(type); var explicitKeyProperties = ExplicitKeyPropertiesCache(type); if (keyProperties.Count == 0 && explicitKeyProperties.Count == 0) throw new ArgumentException("Entity must have at least one [Key] or [ExplicitKey] property"); var name = GetTableName(type); keyProperties.AddRange(explicitKeyProperties); var sb = new StringBuilder(); sb.AppendFormat("DELETE FROM {0} WHERE ", name); for (var i = 0; i < keyProperties.Count; i++) { var property = keyProperties[i]; sb.AppendFormat("{0} = :{1}", property.Name, property.Name); if (i < keyProperties.Count - 1) sb.AppendFormat(" AND "); } var deleted = await connection.ExecuteAsync(sb.ToString(), entityToDelete, transaction, commandTimeout).ConfigureAwait(false); return deleted > 0; } /// <summary> /// Delete all entities in the table related to the type T asynchronously using .NET 4.5 Task. /// </summary> /// <typeparam name="T">Type of entity</typeparam> /// <param name="connection">Open SqlConnection</param> /// <param name="transaction">The transaction to run under, null (the default) if none</param> /// <param name="commandTimeout">Number of seconds before command execution timeout</param> /// <returns>true if deleted, false if none found</returns> public static async Task<bool> DeleteAllAsync<T>(this IDbConnection connection, IDbTransaction transaction = null, int? commandTimeout = null) where T : class { var type = typeof(T); var statement = "DELETE FROM " + GetTableName(type); var deleted = await connection.ExecuteAsync(statement, null, transaction, commandTimeout).ConfigureAwait(false); return deleted > 0; } } } public partial interface ISqlAdapter { /// <summary> /// Inserts <paramref name="entityToInsert"/> into the database, returning the Id of the row created. /// </summary> /// <param name="connection">The connection to use.</param> /// <param name="transaction">The transaction to use.</param> /// <param name="commandTimeout">The command timeout to use.</param> /// <param name="tableName">The table to insert into.</param> /// <param name="columnList">The columns to set with this insert.</param> /// <param name="parameterList">The parameters to set for this insert.</param> /// <param name="keyProperties">The key columns in this table.</param> /// <param name="entityToInsert">The entity to insert.</param> /// <returns>The Id of the row created.</returns> Task<int> InsertAsync(IDbConnection connection, IDbTransaction transaction, int? commandTimeout, string tableName, string columnList, string parameterList, IEnumerable<PropertyInfo> keyProperties, object entityToInsert); } public partial class OracleAdapter { /// <summary> /// Inserts <paramref name="entityToInsert"/> into the database, returning the Id of the row created. /// </summary> /// <param name="connection">The connection to use.</param> /// <param name="transaction">The transaction to use.</param> /// <param name="commandTimeout">The command timeout to use.</param> /// <param name="tableName">The table to insert into.</param> /// <param name="columnList">The columns to set with this insert.</param> /// <param name="parameterList">The parameters to set for this insert.</param> /// <param name="keyProperties">The key columns in this table.</param> /// <param name="entityToInsert">The entity to insert.</param> /// <returns>The Id of the row created.</returns> public async Task<int> InsertAsync(IDbConnection connection, IDbTransaction transaction, int? commandTimeout, string tableName, string columnList, string parameterList, IEnumerable<PropertyInfo> keyProperties, object entityToInsert) { var keyFirst = keyProperties.First(); var keyName = keyFirst.Name; var cmd = $"BEGIN INSERT INTO {tableName} ({columnList}) VALUES ({parameterList}) RETURNING {keyName} INTO :ID; END;";//$"BEGIN INSERT INTO {tableName} ({columnList}) VALUES ({parameterList}) RETURNING ID INTO :ID; END;"; var multi = await connection.QueryMultipleAsync(cmd, entityToInsert, transaction, commandTimeout); var idKey = multi.Command.Parameters["ID"] as IDataParameter; if (keyFirst.PropertyType == typeof(int) || keyFirst.PropertyType == typeof(long)) { return (int)idKey.Value; } return 1; } } public partial class SqlServerAdapter { /// <summary> /// Inserts <paramref name="entityToInsert"/> into the database, returning the Id of the row created. /// </summary> /// <param name="connection">The connection to use.</param> /// <param name="transaction">The transaction to use.</param> /// <param name="commandTimeout">The command timeout to use.</param> /// <param name="tableName">The table to insert into.</param> /// <param name="columnList">The columns to set with this insert.</param> /// <param name="parameterList">The parameters to set for this insert.</param> /// <param name="keyProperties">The key columns in this table.</param> /// <param name="entityToInsert">The entity to insert.</param> /// <returns>The Id of the row created.</returns> public async Task<int> InsertAsync(IDbConnection connection, IDbTransaction transaction, int? commandTimeout, string tableName, string columnList, string parameterList, IEnumerable<PropertyInfo> keyProperties, object entityToInsert) { var cmd = $"INSERT INTO {tableName} ({columnList}) values ({parameterList}); SELECT SCOPE_IDENTITY() id"; var multi = await connection.QueryMultipleAsync(cmd, entityToInsert, transaction, commandTimeout).ConfigureAwait(false); var first = multi.Read().FirstOrDefault(); if (first == null || first.id == null) return 0; var id = (int)first.id; var pi = keyProperties as PropertyInfo[] ?? keyProperties.ToArray(); if (pi.Length == 0) return id; var idp = pi[0]; idp.SetValue(entityToInsert, Convert.ChangeType(id, idp.PropertyType), null); return id; } } public partial class MySqlAdapter { /// <summary> /// Inserts <paramref name="entityToInsert"/> into the database, returning the Id of the row created. /// </summary> /// <param name="connection">The connection to use.</param> /// <param name="transaction">The transaction to use.</param> /// <param name="commandTimeout">The command timeout to use.</param> /// <param name="tableName">The table to insert into.</param> /// <param name="columnList">The columns to set with this insert.</param> /// <param name="parameterList">The parameters to set for this insert.</param> /// <param name="keyProperties">The key columns in this table.</param> /// <param name="entityToInsert">The entity to insert.</param> /// <returns>The Id of the row created.</returns> public async Task<int> InsertAsync(IDbConnection connection, IDbTransaction transaction, int? commandTimeout, string tableName, string columnList, string parameterList, IEnumerable<PropertyInfo> keyProperties, object entityToInsert) { var cmd = $"INSERT INTO {tableName} ({columnList}) VALUES ({parameterList})"; await connection.ExecuteAsync(cmd, entityToInsert, transaction, commandTimeout).ConfigureAwait(false); var r = await connection.QueryAsync<dynamic>("SELECT LAST_INSERT_ID() id", transaction: transaction, commandTimeout: commandTimeout).ConfigureAwait(false); var id = r.First().id; if (id == null) return 0; var pi = keyProperties as PropertyInfo[] ?? keyProperties.ToArray(); if (pi.Length == 0) return Convert.ToInt32(id); var idp = pi[0]; idp.SetValue(entityToInsert, Convert.ChangeType(id, idp.PropertyType), null); return Convert.ToInt32(id); } } }
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