Mercurial > pub > bltoolkit
view Source/Mapping/Fluent/FluentMap.cs @ 5:f7d63a092920
Исправлено условие Where в тех случаях, когда репозитарий не является генериком
author | cin |
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date | Tue, 10 Mar 2015 16:02:11 +0300 |
parents | f990fcb411a9 |
children |
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using System; using System.Collections.Generic; using System.Data; using System.Linq; using System.Linq.Expressions; using System.Reflection; using BLToolkit.Data; using BLToolkit.Data.DataProvider; using BLToolkit.Reflection.Extension; namespace BLToolkit.Mapping.Fluent { /// <summary> /// FluentSettings /// </summary> /// <typeparam name="T"></typeparam> public partial class FluentMap<T> { private readonly TypeExtension _typeExtension; private List<IFluentMap> _childs; private const string MemberNameSeparator = "."; /// <summary> /// ctor /// </summary> public FluentMap() : this(new TypeExtension { Name = typeof(T).FullName }, null) { } /// <summary> /// ctor /// </summary> /// <param name="typeExtension"></param> /// <param name="childs"></param> protected FluentMap(TypeExtension typeExtension, List<IFluentMap> childs) { this._typeExtension = typeExtension; this._childs = childs; if (FluentConfig.MappingConfigurator.GetTableName != null) { this.TableName(null, null, FluentConfig.MappingConfigurator.GetTableName(typeof(T))); } } /// <summary> /// TableNameAttribute /// </summary> /// <param name="name"></param> /// <returns></returns> public FluentMap<T> TableName(string name) { return this.TableName(null, null, name); } /// <summary> /// TableNameAttribute /// </summary> /// <param name="database"></param> /// <param name="name"></param> /// <returns></returns> public FluentMap<T> TableName(string database, string name) { return this.TableName(database, null, name); } /// <summary> /// TableNameAttribute /// </summary> /// <param name="database"></param> /// <param name="owner"></param> /// <param name="name"></param> /// <returns></returns> public FluentMap<T> TableName(string database, string owner, string name) { ((IFluentMap)this).TableName(database, owner, name); return this; } /// <summary> /// MapFieldAttribute /// </summary> /// <typeparam name="TR"></typeparam> /// <param name="prop"></param> /// <param name="isInheritanceDiscriminator"></param> /// <returns></returns> public MapFieldMap<T,TR> MapField<TR>(Expression<Func<T, TR>> prop, bool isInheritanceDiscriminator) { return this.MapField(prop, null, null, isInheritanceDiscriminator); } /// <summary> /// MapFieldAttribute /// </summary> /// <typeparam name="TR"></typeparam> /// <param name="prop"></param> /// <param name="mapName"></param> /// <param name="storage"></param> /// <param name="isInheritanceDiscriminator"></param> /// <returns></returns> public MapFieldMap<T, TR> MapField<TR>(Expression<Func<T, TR>> prop, string mapName = null, string storage = null, bool? isInheritanceDiscriminator = null) { string name = this.GetExprName(prop); if (mapName == null && FluentConfig.MappingConfigurator.GetColumnName != null) { mapName = FluentConfig.MappingConfigurator.GetColumnName(new MappedProperty { Name = name, Type = typeof(TR), ParentType = typeof(T) }); } ((IFluentMap)this).MapField(name, mapName, storage, isInheritanceDiscriminator); return new MapFieldMap<T, TR>(this._typeExtension, this.Childs, prop); } private void MapFieldOnType(string origName, string mapName) { AttributeExtensionCollection attrs; if (!this._typeExtension.Attributes.TryGetValue(Attributes.MapField.Name, out attrs)) { attrs = new AttributeExtensionCollection(); this._typeExtension.Attributes.Add(Attributes.MapField.Name, attrs); } var attributeExtension = new AttributeExtension(); attributeExtension.Values.Add(Attributes.MapField.OrigName, origName); attributeExtension.Values.Add(Attributes.MapField.MapName, mapName); attrs.Add(attributeExtension); } private void MapFieldOnField(string origName, string mapName, string storage, bool? isInheritanceDiscriminator) { var member = this.GetMemberExtension(origName); if (!string.IsNullOrEmpty(mapName)) { member.Attributes.Add(Attributes.MapField.Name, mapName); } if (null != storage) { member.Attributes.Add(Attributes.MapField.Storage, storage); } if (null != isInheritanceDiscriminator) { member.Attributes.Add(Attributes.MapField.IsInheritanceDiscriminator, this.ToString(isInheritanceDiscriminator.Value)); } } /// <summary> /// PrimaryKeyAttribute /// </summary> /// <typeparam name="TR"></typeparam> /// <param name="prop"></param> /// <param name="order"></param> /// <returns></returns> public MapFieldMap<T, TR> PrimaryKey<TR>(Expression<Func<T, TR>> prop, int order = -1) { string name = this.GetExprName(prop); ((IFluentMap)this).PrimaryKey(name, order); return new MapFieldMap<T, TR>(this._typeExtension, this.Childs, prop); } /// <summary> /// NonUpdatableAttribute /// </summary> /// <returns></returns> public MapFieldMap<T, TR> NonUpdatable<TR>(Expression<Func<T, TR>> prop) { string name = this.GetExprName(prop); ((IFluentMap)this).NonUpdatable(name); return new MapFieldMap<T, TR>(this._typeExtension, this.Childs, prop); } /// <summary> /// IdentityAttribute /// </summary> /// <typeparam name="TR"></typeparam> /// <returns></returns> public MapFieldMap<T, TR> Identity<TR>(Expression<Func<T, TR>> prop) { string name = this.GetExprName(prop); ((IFluentMap)this).Identity(name); return new MapFieldMap<T, TR>(this._typeExtension, this.Childs, prop); } /// <summary> /// SqlIgnoreAttribute /// </summary> /// <param name="prop"></param> /// <param name="ignore"></param> /// <returns></returns> public MapFieldMap<T, TR> SqlIgnore<TR>(Expression<Func<T, TR>> prop, bool ignore = true) { string name = this.GetExprName(prop); ((IFluentMap)this).SqlIgnore(name, ignore); return new MapFieldMap<T, TR>(this._typeExtension, this.Childs, prop); } /// <summary> /// MapIgnoreAttribute /// </summary> /// <param name="prop"></param> /// <param name="ignore"></param> /// <returns></returns> public MapFieldMap<T, TR> MapIgnore<TR>(Expression<Func<T, TR>> prop, bool ignore = true) { string name = this.GetExprName(prop); ((IFluentMap)this).MapIgnore(name, ignore); return new MapFieldMap<T, TR>(this._typeExtension, this.Childs, prop); } /// <summary> /// TrimmableAttribute /// </summary> /// <returns></returns> public MapFieldMap<T, TR> Trimmable<TR>(Expression<Func<T, TR>> prop) { string name = this.GetExprName(prop); ((IFluentMap)this).Trimmable(name); return new MapFieldMap<T, TR>(this._typeExtension, this.Childs, prop); } /// <summary> /// MapValueAttribute /// </summary> /// <typeparam name="TV"> </typeparam> /// <typeparam name="TR"> </typeparam> /// <param name="prop"></param> /// <param name="origValue"></param> /// <param name="value"></param> /// <param name="values"></param> /// <returns></returns> public MapFieldMap<T, TR> MapValue<TV, TR>(Expression<Func<T, TR>> prop, TR origValue, TV value, params TV[] values) { string name = this.GetExprName(prop); ((IFluentMap)this).MapValue(name, origValue, value, values); return new MapFieldMap<T, TR>(this._typeExtension, this.Childs, prop); } /// <summary> /// DefaultValueAttribute /// </summary> /// <param name="prop"> </param> /// <param name="value"></param> /// <returns></returns> public MapFieldMap<T, TR> DefaultValue<TR>(Expression<Func<T, TR>> prop, TR value) { string name = this.GetExprName(prop); ((IFluentMap)this).DefaulValue(name, value); return new MapFieldMap<T, TR>(this._typeExtension, this.Childs, prop); } /// <summary> /// DbTypeAttribute /// </summary> /// <param name="prop"> </param> /// <param name="dbType"></param> /// <returns></returns> public MapFieldMap<T,TR> DbType<TR>(Expression<Func<T, TR>> prop, DbType dbType) { string name = this.GetExprName(prop); ((IFluentMap)this).DbType<TR>(name, dbType); return new MapFieldMap<T, TR>(this._typeExtension, this.Childs, prop); } /// <summary> /// MemberMapperAttribute /// </summary> /// <param name="prop"> </param> /// <param name="memberMapperType"></param> /// <returns></returns> public MapFieldMap<T,TR> MemberMapper<TR>(Expression<Func<T,TR>> prop, Type memberMapperType) { return this.MemberMapper(prop, null, memberMapperType); } /// <summary> /// MemberMapperAttribute /// </summary> /// <param name="prop"> </param> /// <param name="memberType"></param> /// <param name="memberMapperType"></param> /// <returns></returns> public MapFieldMap<T, TR> MemberMapper<TR>(Expression<Func<T, TR>> prop, Type memberType, Type memberMapperType) { string name = this.GetExprName(prop); ((IFluentMap)this).MemberMapper<TR>(name, memberType, memberMapperType); return new MapFieldMap<T, TR>(this._typeExtension, this.Childs, prop); } /// <summary> /// NullableAttribute /// </summary> /// <param name="prop"></param> /// <param name="isNullable"></param> /// <returns></returns> public MapFieldMap<T, TR> Nullable<TR>(Expression<Func<T, TR>> prop, bool isNullable = true) { string name = this.GetExprName(prop); ((IFluentMap)this).Nullable(name, isNullable); return new MapFieldMap<T, TR>(this._typeExtension, this.Childs, prop); } /// <summary> /// LazyInstanceAttribute /// </summary> /// <param name="prop"></param> /// <param name="isLazy"></param> /// <returns></returns> public MapFieldMap<T, TR> LazyInstance<TR>(Expression<Func<T, TR>> prop, bool isLazy = true) { string name = this.GetExprName(prop); if (!GetIsVirtual(prop)) throw new Exception("Property wich uses LazyInstance needs to be virtual!"); ((IFluentMap)this).LazyInstance(name, isLazy); return new MapFieldMap<T, TR>(this._typeExtension, this.Childs, prop); } /// <summary> /// NullValueAttribute /// </summary> /// <param name="prop"></param> /// <param name="value"></param> /// <returns></returns> public MapFieldMap<T, TR> NullValue<TR>(Expression<Func<T, TR>> prop, TR value) { string name = this.GetExprName(prop); ((IFluentMap)this).NullValue(name, value); return new MapFieldMap<T, TR>(this._typeExtension, this.Childs, prop); } /// <summary> /// AssociationAttribute /// </summary> /// <typeparam name="TRt"></typeparam> /// <typeparam name="TR"> </typeparam> /// <param name="prop"> </param> /// <param name="canBeNull"></param> /// <param name="thisKey"></param> /// <param name="thisKeys"></param> /// <returns></returns> public MapFieldMap<T, TR>.AssociationMap<TRt> Association<TRt, TR>(Expression<Func<T, TR>> prop, bool canBeNull, Expression<Func<T, TRt>> thisKey, params Expression<Func<T, TRt>>[] thisKeys) { var keys = new List<Expression<Func<T, TRt>>>(thisKeys); keys.Insert(0, thisKey); return new MapFieldMap<T, TR>.AssociationMap<TRt>(new MapFieldMap<T, TR>(this._typeExtension, this.Childs, prop), canBeNull, keys); } /// <summary> /// AssociationAttribute /// </summary> /// <typeparam name="TRt"></typeparam> /// <typeparam name="TR"> </typeparam> /// <param name="prop"> </param> /// <param name="thisKey"></param> /// <param name="thisKeys"></param> /// <returns></returns> public MapFieldMap<T, TR>.AssociationMap<TRt> Association<TRt, TR>(Expression<Func<T, TR>> prop, Expression<Func<T, TRt>> thisKey, params Expression<Func<T, TRt>>[] thisKeys) { return this.Association(prop, true, thisKey, thisKeys); } protected MapFieldMap<T, TR> Association<TRt, TR, TRf, TRo>(Expression<Func<T, TR>> prop, bool canBeNull , IEnumerable<Expression<Func<T, TRt>>> thisKeys, IEnumerable<Expression<Func<TRf, TRo>>> otherKeys) { string name = this.GetExprName(prop); ((IFluentMap)this).Association(name, canBeNull, this.KeysToString(thisKeys.ToArray()), this.KeysToString(otherKeys.ToArray())); return new MapFieldMap<T, TR>(this._typeExtension, this.Childs, prop); } /// <summary> /// Reverse on BLToolkit.Mapping.Association.ParseKeys() /// </summary> /// <typeparam name="T1"></typeparam> /// <typeparam name="T2"></typeparam> /// <param name="keys"></param> /// <returns></returns> private string KeysToString<T1, T2>(IEnumerable<Expression<Func<T1, T2>>> keys) { return keys.Select(this.GetExprName).Aggregate((s1, s2) => s1 + ", " + s2); } /// <summary> /// RelationAttribute /// </summary> /// <typeparam name="TR"></typeparam> /// <param name="prop"></param> /// <param name="slaveIndex"></param> /// <param name="masterIndex"></param> /// <returns></returns> public MapFieldMap<T, TR> Relation<TR>(Expression<Func<T, TR>> prop, string slaveIndex = null, string masterIndex = null) { return this.Relation(prop, new[] { slaveIndex }, new[] { masterIndex }); } /// <summary> /// RelationAttribute /// </summary> /// <typeparam name="TR"></typeparam> /// <param name="prop"></param> /// <param name="slaveIndex"></param> /// <param name="masterIndex"></param> /// <returns></returns> public MapFieldMap<T, TR> Relation<TR>(Expression<Func<T, TR>> prop, string[] slaveIndex, string[] masterIndex) { string name = this.GetExprName(prop); slaveIndex = (slaveIndex ?? new string[0]).Where(i => !string.IsNullOrEmpty(i)).ToArray(); masterIndex = (masterIndex ?? new string[0]).Where(i => !string.IsNullOrEmpty(i)).ToArray(); Type destinationType = typeof(TR); ((IFluentMap)this).Relation(name, destinationType, slaveIndex, masterIndex); return new MapFieldMap<T, TR>(this._typeExtension, this.Childs, prop); } static void FillRelationIndex(string[] index, AttributeExtension attributeExtension, string indexName) { if (index.Any()) { var collection = new AttributeExtensionCollection(); foreach (var s in index) { var ae = new AttributeExtension(); ae.Values.Add(TypeExtension.AttrName.Name, s); collection.Add(ae); } attributeExtension.Attributes.Add(indexName, collection); } } /// <summary> /// MapValueAttribute /// </summary> /// <typeparam name="TV"></typeparam> /// <param name="origValue"></param> /// <param name="value"></param> /// <param name="values"></param> /// <returns></returns> public FluentMap<T> MapValue<TV>(Enum origValue, TV value, params TV[] values) { ((IFluentMap)this).MapValue(origValue, value, values); return this; } /// <summary> /// MapValueAttribute /// </summary> /// <typeparam name="TV"></typeparam> /// <param name="origValue"></param> /// <param name="value"></param> /// <param name="values"></param> /// <returns></returns> public FluentMap<T> MapValue<TV>(object origValue, TV value, params TV[] values) { ((IFluentMap)this).MapValue(origValue, value, values); return this; } /// <summary> /// MapFieldAttribute(isInheritanceDescriminator = true) /// </summary> /// <typeparam name="TR"></typeparam> /// <param name="prop"></param> /// <returns></returns> public FluentMap<T> InheritanceField<TR>(Expression<Func<T, TR>> prop) { return this.MapField(prop, true); } /// <summary> /// InheritanceMappingAttribute /// </summary> /// <typeparam name="TC"></typeparam> /// <param name="code"></param> /// <returns></returns> public FluentMap<T> InheritanceMapping<TC>(object code) { return this.InheritanceMapping<TC>(code, null); } /// <summary> /// InheritanceMappingAttribute /// </summary> /// <typeparam name="TC"></typeparam> /// <param name="isDefault"></param> /// <returns></returns> public FluentMap<T> InheritanceMapping<TC>(bool isDefault) { return this.InheritanceMapping<TC>(null, isDefault); } /// <summary> /// InheritanceMappingAttribute /// </summary> /// <typeparam name="TC"></typeparam> /// <param name="code"></param> /// <param name="isDefault"></param> /// <returns></returns> public FluentMap<T> InheritanceMapping<TC>(object code, bool? isDefault) { ((IFluentMap)this).InheritanceMapping(typeof(TC), code, isDefault); return this; } protected void FillMapValueExtension<TR, TV>(AttributeNameCollection attributeCollection, TR origValue, TV value, TV[] values) { AttributeExtensionCollection list; if (!attributeCollection.TryGetValue(Attributes.MapValue.Name, out list)) { list = new AttributeExtensionCollection(); attributeCollection.Add(Attributes.MapValue.Name, list); } var allValues = new List<TV>(values); allValues.Insert(0, value); var tvFullName = typeof(TV).FullName; foreach (var val in allValues) { var attributeExtension = new AttributeExtension(); attributeExtension.Values.Add(Attributes.MapValue.OrigValue, origValue); attributeExtension.Values.Add(TypeExtension.ValueName.Value, Convert.ToString(val)); attributeExtension.Values.Add(TypeExtension.ValueName.Value + TypeExtension.ValueName.TypePostfix, tvFullName); list.Add(attributeExtension); } } protected void FillMemberMapperExtension(AttributeNameCollection attributeCollection, Type memberType, Type memberMapperType) { AttributeExtensionCollection attrs; if (!attributeCollection.TryGetValue(Attributes.MemberMapper.Name, out attrs)) { attrs = new AttributeExtensionCollection(); attributeCollection.Add(Attributes.MemberMapper.Name, attrs); } var attributeExtension = new AttributeExtension(); attributeExtension.Values.Add(Attributes.MemberMapper.MemberType, memberType); attributeExtension.Values.Add(Attributes.MemberMapper.MemberMapperType, memberMapperType); attrs.Add(attributeExtension); } /// <summary> /// Fluent settings result /// </summary> /// <returns></returns> public ExtensionList Map() { var result = new ExtensionList(); this.MapTo(result); return result; } /// <summary> /// Apply fluent settings to DbManager /// </summary> /// <param name="dbManager"></param> public void MapTo(DbManager dbManager) { var ms = dbManager.MappingSchema ?? (dbManager.MappingSchema = Mapping.Map.DefaultSchema); this.MapTo(ms); } /// <summary> /// Apply fluent settings to DataProviderBase /// </summary> /// <param name="dataProvider"></param> public void MapTo(DataProviderBase dataProvider) { var ms = dataProvider.MappingSchema ?? (dataProvider.MappingSchema = Mapping.Map.DefaultSchema); this.MapTo(ms); } /// <summary> /// Apply fluent settings to MappingSchema /// </summary> /// <param name="mappingSchema"></param> public void MapTo(MappingSchema mappingSchema) { var extensions = mappingSchema.Extensions ?? (mappingSchema.Extensions = new ExtensionList()); this.MapTo(extensions); } /// <summary> /// Apply fluent settings to ExtensionList /// </summary> /// <param name="extensions"></param> public void MapTo(ExtensionList extensions) { var ext = this._typeExtension; TypeExtension oldExt; if (extensions.TryGetValue(ext.Name, out oldExt)) { FluentMapHelper.MergeExtensions(ext, ref oldExt); } else { extensions.Add(ext); } this.EachChilds(m => m.MapTo(extensions)); } protected MemberExtension GetMemberExtension<TR>(Expression<Func<T, TR>> prop) { string name = this.GetExprName(prop); return this.GetMemberExtension(name); } protected MemberExtension GetMemberExtension(string name) { MemberExtension member; if (!this._typeExtension.Members.TryGetValue(name, out member)) { member = new MemberExtension { Name = name }; this._typeExtension.Members.Add(member); } return member; } private string GetExprName<TT, TR>(Expression<Func<TT, TR>> prop) { string result = null; var memberExpression = prop.Body as MemberExpression; while (null != memberExpression) { result = null == result ? "" : MemberNameSeparator + result; result = memberExpression.Member.Name + result; memberExpression = memberExpression.Expression as MemberExpression; } if (null == result) { throw new ArgumentException("Fail member access expression."); } return result; } static bool GetIsVirtual<TT, TR>(Expression<Func<TT, TR>> prop) { var memberExpression = prop.Body as MemberExpression; if (memberExpression != null) { var prpInfo = memberExpression.Member as PropertyInfo; if (prpInfo != null && !prpInfo.GetGetMethod().IsVirtual) { return false; } } return true; } /// <summary> /// Invert for BLToolkit.Reflection.Extension.TypeExtension.ToBoolean() /// </summary> /// <param name="value"></param> /// <returns></returns> protected string ToString(bool value) { return Convert.ToString(value); } private void EachChilds(Action<IFluentMap> action) { foreach (var childMap in this.Childs) { action(childMap); } } private List<IFluentMap> Childs { get { if (null == this._childs) { this._childs = new List<IFluentMap>(); var thisType = typeof(T); var fmType = typeof(FluentMap<>); // Find child only first generation ... other generation find recursive foreach (var childType in thisType.Assembly.GetTypes().Where(t => t.BaseType == thisType)) { this._childs.Add((IFluentMap)Activator.CreateInstance(fmType.MakeGenericType(childType))); } } return this._childs; } } } }