正如您所发现的，Linq没有“外部连接”结构。您所能得到的最接近的是使用您所声明的查询的左外连接。为此，你可以添加任何没有在join中表示的姓氏列表元素:

outerJoin = outerJoin.Concat(lastNames.Select(l=>new
                            {
                                id = l.ID,
                                firstname = String.Empty,
                                surname = l.Name
                            }).Where(l=>!outerJoin.Any(o=>o.id == l.id)));

我不知道这是否适用于所有情况，但从逻辑上讲，这似乎是正确的。其思想是取一个左外连接和一个右外连接，然后取结果的并集。

var firstNames = new[]
{
    new { ID = 1, Name = "John" },
    new { ID = 2, Name = "Sue" },
};
var lastNames = new[]
{
    new { ID = 1, Name = "Doe" },
    new { ID = 3, Name = "Smith" },
};
var leftOuterJoin =
    from first in firstNames
    join last in lastNames on first.ID equals last.ID into temp
    from last in temp.DefaultIfEmpty()
    select new
    {
        first.ID,
        FirstName = first.Name,
        LastName = last?.Name,
    };
var rightOuterJoin =
    from last in lastNames
    join first in firstNames on last.ID equals first.ID into temp
    from first in temp.DefaultIfEmpty()
    select new
    {
        last.ID,
        FirstName = first?.Name,
        LastName = last.Name,
    };
var fullOuterJoin = leftOuterJoin.Union(rightOuterJoin);

这就像写的一样，因为它是在LINQ to Objects中。如果LINQ to SQL或其他，查询处理器可能不支持安全导航或其他操作。你必须使用条件操作符有条件地获取值。

也就是说,

var leftOuterJoin =
    from first in firstNames
    join last in lastNames on first.ID equals last.ID into temp
    from last in temp.DefaultIfEmpty()
    select new
    {
        first.ID,
        FirstName = first.Name,
        LastName = last != null ? last.Name : default,
    };

更新1:提供一个真正通用的扩展方法FullOuterJoin 更新2:可选地接受键类型的自定义IEqualityComparer 更新3:这个实现最近已经成为MoreLinq的一部分-谢谢大家!

编辑新增FullOuterGroupJoin (ideone)。我重用了GetOuter<>实现，使它的性能比它可能的要低一些，但我现在的目标是“高级”代码，而不是前沿优化。

请登录http://ideone.com/O36nWc观看直播

static void Main(string[] args)
{
    var ax = new[] { 
        new { id = 1, name = "John" },
        new { id = 2, name = "Sue" } };
    var bx = new[] { 
        new { id = 1, surname = "Doe" },
        new { id = 3, surname = "Smith" } };

    ax.FullOuterJoin(bx, a => a.id, b => b.id, (a, b, id) => new {a, b})
        .ToList().ForEach(Console.WriteLine);
}

打印输出:

{ a = { id = 1, name = John }, b = { id = 1, surname = Doe } }
{ a = { id = 2, name = Sue }, b =  }
{ a = , b = { id = 3, surname = Smith } }

您还可以提供默认值:http://ideone.com/kG4kqO

    ax.FullOuterJoin(
            bx, a => a.id, b => b.id, 
            (a, b, id) => new { a.name, b.surname },
            new { id = -1, name    = "(no firstname)" },
            new { id = -2, surname = "(no surname)" }
        )

印刷:

{ name = John, surname = Doe }
{ name = Sue, surname = (no surname) }
{ name = (no firstname), surname = Smith }

使用术语的解释:

连接是一个借用自关系数据库设计的术语:

只要b中有对应键的元素，连接就会重复A中的元素(即:如果b为空，则什么都没有)。数据库行话称之为内部连接(equi)。 外部连接包括没有对应的元素 元素存在于b中(即:如果b为空则结果为偶数)。这通常称为左连接。 一个完整的外部连接包括来自A和b的记录，如果另一个中不存在相应的元素。(即，如果a为空，则结果为偶数)

在RDBMS中不常见的是组连接[1]:

组连接与上面描述的相同，但它不是为多个对应的b重复A中的元素，而是用对应的键对记录进行分组。当您希望根据公共键枚举“已连接”记录时，这通常更方便。

另请参阅GroupJoin，其中还包含一些一般的背景说明。

[1](我相信Oracle和MSSQL对此有专有扩展)

完整代码

一个通用的“drop-in”扩展类

internal static class MyExtensions
{
    internal static IEnumerable<TResult> FullOuterGroupJoin<TA, TB, TKey, TResult>(
        this IEnumerable<TA> a,
        IEnumerable<TB> b,
        Func<TA, TKey> selectKeyA, 
        Func<TB, TKey> selectKeyB,
        Func<IEnumerable<TA>, IEnumerable<TB>, TKey, TResult> projection,
        IEqualityComparer<TKey> cmp = null)
    {
        cmp = cmp?? EqualityComparer<TKey>.Default;
        var alookup = a.ToLookup(selectKeyA, cmp);
        var blookup = b.ToLookup(selectKeyB, cmp);

        var keys = new HashSet<TKey>(alookup.Select(p => p.Key), cmp);
        keys.UnionWith(blookup.Select(p => p.Key));

        var join = from key in keys
                   let xa = alookup[key]
                   let xb = blookup[key]
                   select projection(xa, xb, key);

        return join;
    }

    internal static IEnumerable<TResult> FullOuterJoin<TA, TB, TKey, TResult>(
        this IEnumerable<TA> a,
        IEnumerable<TB> b,
        Func<TA, TKey> selectKeyA, 
        Func<TB, TKey> selectKeyB,
        Func<TA, TB, TKey, TResult> projection,
        TA defaultA = default(TA), 
        TB defaultB = default(TB),
        IEqualityComparer<TKey> cmp = null)
    {
        cmp = cmp?? EqualityComparer<TKey>.Default;
        var alookup = a.ToLookup(selectKeyA, cmp);
        var blookup = b.ToLookup(selectKeyB, cmp);

        var keys = new HashSet<TKey>(alookup.Select(p => p.Key), cmp);
        keys.UnionWith(blookup.Select(p => p.Key));

        var join = from key in keys
                   from xa in alookup[key].DefaultIfEmpty(defaultA)
                   from xb in blookup[key].DefaultIfEmpty(defaultB)
                   select projection(xa, xb, key);

        return join;
    }
}

下面是一个扩展方法:

public static IEnumerable<KeyValuePair<TLeft, TRight>> FullOuterJoin<TLeft, TRight>(this IEnumerable<TLeft> leftItems, Func<TLeft, object> leftIdSelector, IEnumerable<TRight> rightItems, Func<TRight, object> rightIdSelector)
{
    var leftOuterJoin = from left in leftItems
        join right in rightItems on leftIdSelector(left) equals rightIdSelector(right) into temp
        from right in temp.DefaultIfEmpty()
        select new { left, right };

    var rightOuterJoin = from right in rightItems
        join left in leftItems on rightIdSelector(right) equals leftIdSelector(left) into temp
        from left in temp.DefaultIfEmpty()
        select new { left, right };

    var fullOuterJoin = leftOuterJoin.Union(rightOuterJoin);

    return fullOuterJoin.Select(x => new KeyValuePair<TLeft, TRight>(x.left, x.right));
}

我猜@sehe的方法更强大，但在我更好地理解它之前，我发现自己跳过了@MichaelSander的扩展。我修改了它，以匹配这里描述的内置Enumerable.Join()方法的语法和返回类型。我在@JeffMercado的解决方案下为@cadrell0的注释添加了“distinct”后缀。

public static class MyExtensions {

    public static IEnumerable<TResult> FullJoinDistinct<TLeft, TRight, TKey, TResult> (
        this IEnumerable<TLeft> leftItems, 
        IEnumerable<TRight> rightItems, 
        Func<TLeft, TKey> leftKeySelector, 
        Func<TRight, TKey> rightKeySelector,
        Func<TLeft, TRight, TResult> resultSelector
    ) {

        var leftJoin = 
            from left in leftItems
            join right in rightItems 
              on leftKeySelector(left) equals rightKeySelector(right) into temp
            from right in temp.DefaultIfEmpty()
            select resultSelector(left, right);

        var rightJoin = 
            from right in rightItems
            join left in leftItems 
              on rightKeySelector(right) equals leftKeySelector(left) into temp
            from left in temp.DefaultIfEmpty()
            select resultSelector(left, right);

        return leftJoin.Union(rightJoin);
    }

}

在这个例子中，你可以这样使用它:

var test = 
    firstNames
    .FullJoinDistinct(
        lastNames,
        f=> f.ID,
        j=> j.ID,
        (f,j)=> new {
            ID = f == null ? j.ID : f.ID, 
            leftName = f == null ? null : f.Name,
            rightName = j == null ? null : j.Name
        }
    );

在未来，随着我了解更多，我有一种感觉，我会迁移到@sehe的逻辑，因为它很受欢迎。但即使这样，我也必须小心，因为我觉得如果可行的话，至少有一个重载与现有的“.Join()”方法的语法匹配是很重要的，原因有两个:

方法的一致性有助于节省时间、避免错误和避免意外行为。 如果将来有一个开箱即用的“. fulljoin()”方法，我想它会尽量保持当前存在的“. join()”方法的语法。如果是这样，那么如果您想迁移到它，您可以简单地重命名函数，而不需要更改参数或担心不同的返回类型破坏您的代码。

对于泛型、扩展、Func语句和其他特性，我还是新手，所以当然欢迎反馈。

编辑:我没花很长时间就意识到我的代码有问题。我在LINQPad中做了一个. dump()，并查看返回类型。它只是IEnumerable，所以我试着匹配它。但是当我实际上在我的扩展上做了. where()或. select()时，我得到了一个错误:“系统集合。IEnumerable'不包含'Select'和…"的定义。因此，最后我能够匹配. join()的输入语法，但不能匹配返回行为。

编辑:将“TResult”添加到函数的返回类型中。在阅读微软的文章时错过了这一点，当然这是有道理的。有了这个修复，现在看来返回行为是符合我的目标毕竟。

我真的很讨厌这些linq表达式，这就是SQL存在的原因:

select isnull(fn.id, ln.id) as id, fn.firstname, ln.lastname
   from firstnames fn
   full join lastnames ln on ln.id=fn.id

在数据库中创建此sql视图并将其作为实体导入。

当然，(不同的)左连接和右连接的并集也可以做到这一点，但这是愚蠢的。

我喜欢她的回答，但它没有使用延迟执行(输入序列被调用ToLookup急切地枚举)。因此，在查看了LINQ-to-objects的.NET源代码后，我想到了这个:

public static class LinqExtensions
{
    public static IEnumerable<TResult> FullOuterJoin<TLeft, TRight, TKey, TResult>(
        this IEnumerable<TLeft> left,
        IEnumerable<TRight> right,
        Func<TLeft, TKey> leftKeySelector,
        Func<TRight, TKey> rightKeySelector,
        Func<TLeft, TRight, TKey, TResult> resultSelector,
        IEqualityComparer<TKey> comparator = null,
        TLeft defaultLeft = default(TLeft),
        TRight defaultRight = default(TRight))
    {
        if (left == null) throw new ArgumentNullException("left");
        if (right == null) throw new ArgumentNullException("right");
        if (leftKeySelector == null) throw new ArgumentNullException("leftKeySelector");
        if (rightKeySelector == null) throw new ArgumentNullException("rightKeySelector");
        if (resultSelector == null) throw new ArgumentNullException("resultSelector");

        comparator = comparator ?? EqualityComparer<TKey>.Default;
        return FullOuterJoinIterator(left, right, leftKeySelector, rightKeySelector, resultSelector, comparator, defaultLeft, defaultRight);
    }

    internal static IEnumerable<TResult> FullOuterJoinIterator<TLeft, TRight, TKey, TResult>(
        this IEnumerable<TLeft> left,
        IEnumerable<TRight> right,
        Func<TLeft, TKey> leftKeySelector,
        Func<TRight, TKey> rightKeySelector,
        Func<TLeft, TRight, TKey, TResult> resultSelector,
        IEqualityComparer<TKey> comparator,
        TLeft defaultLeft,
        TRight defaultRight)
    {
        var leftLookup = left.ToLookup(leftKeySelector, comparator);
        var rightLookup = right.ToLookup(rightKeySelector, comparator);
        var keys = leftLookup.Select(g => g.Key).Union(rightLookup.Select(g => g.Key), comparator);

        foreach (var key in keys)
            foreach (var leftValue in leftLookup[key].DefaultIfEmpty(defaultLeft))
                foreach (var rightValue in rightLookup[key].DefaultIfEmpty(defaultRight))
                    yield return resultSelector(leftValue, rightValue, key);
    }
}

该实现具有以下重要属性:

延迟执行，在枚举输出序列之前不会枚举输入序列。 每个输入序列只枚举一次。 保留输入序列的顺序，在某种意义上，它将以左序列和右序列的顺序生成元组(对于不在左序列中出现的键)。

这些属性很重要，因为它们是那些刚接触FullOuterJoin但有LINQ经验的人所期望的。

我大约在6年前为一个应用程序编写了这个扩展类，并且从那时起一直在许多解决方案中使用它，没有任何问题。希望能有所帮助。

编辑:我注意到有些人可能不知道如何使用扩展类。

要使用此扩展类，只需在类中添加以下行引用其名称空间 使用joinext;

^这应该允许你在任何你碰巧使用的IEnumerable对象集合上看到扩展函数的智能感知。

希望这能有所帮助。如果仍然不清楚，请告诉我，我希望写一个关于如何使用它的示例。

下面是这个类:

namespace joinext
{    
public static class JoinExtensions
    {
        public static IEnumerable<TResult> FullOuterJoin<TOuter, TInner, TKey, TResult>(
            this IEnumerable<TOuter> outer,
            IEnumerable<TInner> inner,
            Func<TOuter, TKey> outerKeySelector,
            Func<TInner, TKey> innerKeySelector,
            Func<TOuter, TInner, TResult> resultSelector)
            where TInner : class
            where TOuter : class
        {
            var innerLookup = inner.ToLookup(innerKeySelector);
            var outerLookup = outer.ToLookup(outerKeySelector);

            var innerJoinItems = inner
                .Where(innerItem => !outerLookup.Contains(innerKeySelector(innerItem)))
                .Select(innerItem => resultSelector(null, innerItem));

            return outer
                .SelectMany(outerItem =>
                {
                    var innerItems = innerLookup[outerKeySelector(outerItem)];

                    return innerItems.Any() ? innerItems : new TInner[] { null };
                }, resultSelector)
                .Concat(innerJoinItems);
        }


        public static IEnumerable<TResult> LeftJoin<TOuter, TInner, TKey, TResult>(
            this IEnumerable<TOuter> outer,
            IEnumerable<TInner> inner,
            Func<TOuter, TKey> outerKeySelector,
            Func<TInner, TKey> innerKeySelector,
            Func<TOuter, TInner, TResult> resultSelector)
        {
            return outer.GroupJoin(
                inner,
                outerKeySelector,
                innerKeySelector,
                (o, i) =>
                    new { o = o, i = i.DefaultIfEmpty() })
                    .SelectMany(m => m.i.Select(inn =>
                        resultSelector(m.o, inn)
                        ));

        }



        public static IEnumerable<TResult> RightJoin<TOuter, TInner, TKey, TResult>(
            this IEnumerable<TOuter> outer,
            IEnumerable<TInner> inner,
            Func<TOuter, TKey> outerKeySelector,
            Func<TInner, TKey> innerKeySelector,
            Func<TOuter, TInner, TResult> resultSelector)
        {
            return inner.GroupJoin(
                outer,
                innerKeySelector,
                outerKeySelector,
                (i, o) =>
                    new { i = i, o = o.DefaultIfEmpty() })
                    .SelectMany(m => m.o.Select(outt =>
                        resultSelector(outt, m.i)
                        ));

        }

    }
}

在两个输入上执行内存流枚举，并为每一行调用选择器。如果在当前迭代中没有相关性，则选择器参数之一将为空。

例子:

   var result = left.FullOuterJoin(
         right, 
         x=>left.Key, 
         x=>right.Key, 
         (l,r) => new { LeftKey = l?.Key, RightKey=r?.Key });

Requires an IComparer for the correlation type, uses the Comparer.Default if not provided. Requires that 'OrderBy' is applied to the input enumerables /// <summary> /// Performs a full outer join on two <see cref="IEnumerable{T}" />. /// </summary> /// <typeparam name="TLeft"></typeparam> /// <typeparam name="TValue"></typeparam> /// <typeparam name="TRight"></typeparam> /// <typeparam name="TResult"></typeparam> /// <param name="left"></param> /// <param name="right"></param> /// <param name="leftKeySelector"></param> /// <param name="rightKeySelector"></param> /// <param name="selector">Expression defining result type</param> /// <param name="keyComparer">A comparer if there is no default for the type</param> /// <returns></returns> [System.Diagnostics.DebuggerStepThrough] public static IEnumerable<TResult> FullOuterJoin<TLeft, TRight, TValue, TResult>( this IEnumerable<TLeft> left, IEnumerable<TRight> right, Func<TLeft, TValue> leftKeySelector, Func<TRight, TValue> rightKeySelector, Func<TLeft, TRight, TResult> selector, IComparer<TValue> keyComparer = null) where TLeft: class where TRight: class where TValue : IComparable { keyComparer = keyComparer ?? Comparer<TValue>.Default; using (var enumLeft = left.OrderBy(leftKeySelector).GetEnumerator()) using (var enumRight = right.OrderBy(rightKeySelector).GetEnumerator()) { var hasLeft = enumLeft.MoveNext(); var hasRight = enumRight.MoveNext(); while (hasLeft || hasRight) { var currentLeft = enumLeft.Current; var valueLeft = hasLeft ? leftKeySelector(currentLeft) : default(TValue); var currentRight = enumRight.Current; var valueRight = hasRight ? rightKeySelector(currentRight) : default(TValue); int compare = !hasLeft ? 1 : !hasRight ? -1 : keyComparer.Compare(valueLeft, valueRight); switch (compare) { case 0: // The selector matches. An inner join is achieved yield return selector(currentLeft, currentRight); hasLeft = enumLeft.MoveNext(); hasRight = enumRight.MoveNext(); break; case -1: yield return selector(currentLeft, default(TRight)); hasLeft = enumLeft.MoveNext(); break; case 1: yield return selector(default(TLeft), currentRight); hasRight = enumRight.MoveNext(); break; } } } }

我认为其中大部分都存在问题，包括公认的答案，因为它们与Linq相比IQueryable工作不太好，要么是由于做了太多的服务器往返和太多的数据返回，要么是做了太多的客户端执行。

对于IEnumerable，我不喜欢Sehe的答案或类似的答案，因为它占用了过多的内存(一个简单的10000000两个列表测试在我的32GB机器上运行Linqpad内存)。

另外，其他大多数方法实际上并没有实现正确的Full Outer Join，因为它们使用的是带有右连接的Union，而不是带有右反半连接的Concat，这不仅消除了结果中重复的内部连接行，而且消除了最初存在于左或右数据中的任何正确的副本。

所以这里是我的扩展，处理所有这些问题，生成SQL以及直接实现LINQ到SQL的连接，在服务器上执行，比其他枚举对象更快，内存更少:

public static class Ext {
    public static IEnumerable<TResult> LeftOuterJoin<TLeft, TRight, TKey, TResult>(
        this IEnumerable<TLeft> leftItems,
        IEnumerable<TRight> rightItems,
        Func<TLeft, TKey> leftKeySelector,
        Func<TRight, TKey> rightKeySelector,
        Func<TLeft, TRight, TResult> resultSelector) {

        return from left in leftItems
               join right in rightItems on leftKeySelector(left) equals rightKeySelector(right) into temp
               from right in temp.DefaultIfEmpty()
               select resultSelector(left, right);
    }

    public static IEnumerable<TResult> RightOuterJoin<TLeft, TRight, TKey, TResult>(
        this IEnumerable<TLeft> leftItems,
        IEnumerable<TRight> rightItems,
        Func<TLeft, TKey> leftKeySelector,
        Func<TRight, TKey> rightKeySelector,
        Func<TLeft, TRight, TResult> resultSelector) {

        return from right in rightItems
               join left in leftItems on rightKeySelector(right) equals leftKeySelector(left) into temp
               from left in temp.DefaultIfEmpty()
               select resultSelector(left, right);
    }

    public static IEnumerable<TResult> FullOuterJoinDistinct<TLeft, TRight, TKey, TResult>(
        this IEnumerable<TLeft> leftItems,
        IEnumerable<TRight> rightItems,
        Func<TLeft, TKey> leftKeySelector,
        Func<TRight, TKey> rightKeySelector,
        Func<TLeft, TRight, TResult> resultSelector) {

        return leftItems.LeftOuterJoin(rightItems, leftKeySelector, rightKeySelector, resultSelector).Union(leftItems.RightOuterJoin(rightItems, leftKeySelector, rightKeySelector, resultSelector));
    }

    public static IEnumerable<TResult> RightAntiSemiJoin<TLeft, TRight, TKey, TResult>(
        this IEnumerable<TLeft> leftItems,
        IEnumerable<TRight> rightItems,
        Func<TLeft, TKey> leftKeySelector,
        Func<TRight, TKey> rightKeySelector,
        Func<TLeft, TRight, TResult> resultSelector) {

        var hashLK = new HashSet<TKey>(from l in leftItems select leftKeySelector(l));
        return rightItems.Where(r => !hashLK.Contains(rightKeySelector(r))).Select(r => resultSelector(default(TLeft),r));
    }

    public static IEnumerable<TResult> FullOuterJoin<TLeft, TRight, TKey, TResult>(
        this IEnumerable<TLeft> leftItems,
        IEnumerable<TRight> rightItems,
        Func<TLeft, TKey> leftKeySelector,
        Func<TRight, TKey> rightKeySelector,
        Func<TLeft, TRight, TResult> resultSelector)  where TLeft : class {

        return leftItems.LeftOuterJoin(rightItems, leftKeySelector, rightKeySelector, resultSelector).Concat(leftItems.RightAntiSemiJoin(rightItems, leftKeySelector, rightKeySelector, resultSelector));
    }

    private static Expression<Func<TP, TC, TResult>> CastSMBody<TP, TC, TResult>(LambdaExpression ex, TP unusedP, TC unusedC, TResult unusedRes) => (Expression<Func<TP, TC, TResult>>)ex;

    public static IQueryable<TResult> LeftOuterJoin<TLeft, TRight, TKey, TResult>(
        this IQueryable<TLeft> leftItems,
        IQueryable<TRight> rightItems,
        Expression<Func<TLeft, TKey>> leftKeySelector,
        Expression<Func<TRight, TKey>> rightKeySelector,
        Expression<Func<TLeft, TRight, TResult>> resultSelector) {

        var sampleAnonLR = new { left = default(TLeft), rightg = default(IEnumerable<TRight>) };
        var parmP = Expression.Parameter(sampleAnonLR.GetType(), "p");
        var parmC = Expression.Parameter(typeof(TRight), "c");
        var argLeft = Expression.PropertyOrField(parmP, "left");
        var newleftrs = CastSMBody(Expression.Lambda(Expression.Invoke(resultSelector, argLeft, parmC), parmP, parmC), sampleAnonLR, default(TRight), default(TResult));

        return leftItems.AsQueryable().GroupJoin(rightItems, leftKeySelector, rightKeySelector, (left, rightg) => new { left, rightg }).SelectMany(r => r.rightg.DefaultIfEmpty(), newleftrs);
    }

    public static IQueryable<TResult> RightOuterJoin<TLeft, TRight, TKey, TResult>(
        this IQueryable<TLeft> leftItems,
        IQueryable<TRight> rightItems,
        Expression<Func<TLeft, TKey>> leftKeySelector,
        Expression<Func<TRight, TKey>> rightKeySelector,
        Expression<Func<TLeft, TRight, TResult>> resultSelector) {

        var sampleAnonLR = new { leftg = default(IEnumerable<TLeft>), right = default(TRight) };
        var parmP = Expression.Parameter(sampleAnonLR.GetType(), "p");
        var parmC = Expression.Parameter(typeof(TLeft), "c");
        var argRight = Expression.PropertyOrField(parmP, "right");
        var newrightrs = CastSMBody(Expression.Lambda(Expression.Invoke(resultSelector, parmC, argRight), parmP, parmC), sampleAnonLR, default(TLeft), default(TResult));

        return rightItems.GroupJoin(leftItems, rightKeySelector, leftKeySelector, (right, leftg) => new { leftg, right }).SelectMany(l => l.leftg.DefaultIfEmpty(), newrightrs);
    }

    public static IQueryable<TResult> FullOuterJoinDistinct<TLeft, TRight, TKey, TResult>(
        this IQueryable<TLeft> leftItems,
        IQueryable<TRight> rightItems,
        Expression<Func<TLeft, TKey>> leftKeySelector,
        Expression<Func<TRight, TKey>> rightKeySelector,
        Expression<Func<TLeft, TRight, TResult>> resultSelector) {

        return leftItems.LeftOuterJoin(rightItems, leftKeySelector, rightKeySelector, resultSelector).Union(leftItems.RightOuterJoin(rightItems, leftKeySelector, rightKeySelector, resultSelector));
    }

    private static Expression<Func<TP, TResult>> CastSBody<TP, TResult>(LambdaExpression ex, TP unusedP, TResult unusedRes) => (Expression<Func<TP, TResult>>)ex;

    public static IQueryable<TResult> RightAntiSemiJoin<TLeft, TRight, TKey, TResult>(
        this IQueryable<TLeft> leftItems,
        IQueryable<TRight> rightItems,
        Expression<Func<TLeft, TKey>> leftKeySelector,
        Expression<Func<TRight, TKey>> rightKeySelector,
        Expression<Func<TLeft, TRight, TResult>> resultSelector) {

        var sampleAnonLgR = new { leftg = default(IEnumerable<TLeft>), right = default(TRight) };
        var parmLgR = Expression.Parameter(sampleAnonLgR.GetType(), "lgr");
        var argLeft = Expression.Constant(default(TLeft), typeof(TLeft));
        var argRight = Expression.PropertyOrField(parmLgR, "right");
        var newrightrs = CastSBody(Expression.Lambda(Expression.Invoke(resultSelector, argLeft, argRight), parmLgR), sampleAnonLgR, default(TResult));

        return rightItems.GroupJoin(leftItems, rightKeySelector, leftKeySelector, (right, leftg) => new { leftg, right }).Where(lgr => !lgr.leftg.Any()).Select(newrightrs);
    }

    public static IQueryable<TResult> FullOuterJoin<TLeft, TRight, TKey, TResult>(
        this IQueryable<TLeft> leftItems,
        IQueryable<TRight> rightItems,
        Expression<Func<TLeft, TKey>> leftKeySelector,
        Expression<Func<TRight, TKey>> rightKeySelector,
        Expression<Func<TLeft, TRight, TResult>> resultSelector) {

        return leftItems.LeftOuterJoin(rightItems, leftKeySelector, rightKeySelector, resultSelector).Concat(leftItems.RightAntiSemiJoin(rightItems, leftKeySelector, rightKeySelector, resultSelector));
    }
}

右反半连接(Right Anti-Semi-Join)之间的差异在Linq to Objects或源代码中大多是没有意义的，但在最终的答案中，在服务器(SQL)端产生了差异，删除了一个不必要的连接。

手动编码Expression来处理将Expression<Func<>>合并到lambda中，可以使用LinqKit进行改进，但如果语言/编译器为此添加了一些帮助，那就更好了。为了完整起见，包括了fullouterjo模糊不清和RightOuterJoin函数，但我还没有重新实现FullOuterGroupJoin。

我为IEnumerable编写了另一个完整的外部连接版本，用于键是可排序的情况，这比组合左外部连接和右反半连接快50%左右，至少在小型集合上是这样。它只对每个集合进行一次排序。

我还为使用EF的版本添加了另一个答案，即用自定义展开替换Invoke。

我决定把这个作为一个单独的答案，因为我不确定它是否经过了足够的测试。这是FullOuterJoin方法的重新实现，基本上使用了简化的、定制的LINQKit Invoke/Expand for Expression版本，以便它可以在实体框架中工作。没有太多的解释，因为这和我之前的答案几乎一样。

public static class Ext {
    private static Expression<Func<TP, TC, TResult>> CastSMBody<TP, TC, TResult>(LambdaExpression ex, TP unusedP, TC unusedC, TResult unusedRes) => (Expression<Func<TP, TC, TResult>>)ex;

    public static IQueryable<TResult> LeftOuterJoin<TLeft, TRight, TKey, TResult>(
        this IQueryable<TLeft> leftItems,
        IQueryable<TRight> rightItems,
        Expression<Func<TLeft, TKey>> leftKeySelector,
        Expression<Func<TRight, TKey>> rightKeySelector,
        Expression<Func<TLeft, TRight, TResult>> resultSelector) {

        // (lrg,r) => resultSelector(lrg.left, r)
        var sampleAnonLR = new { left = default(TLeft), rightg = default(IEnumerable<TRight>) };
        var parmP = Expression.Parameter(sampleAnonLR.GetType(), "lrg");
        var parmC = Expression.Parameter(typeof(TRight), "r");
        var argLeft = Expression.PropertyOrField(parmP, "left");
        var newleftrs = CastSMBody(Expression.Lambda(resultSelector.Apply(argLeft, parmC), parmP, parmC), sampleAnonLR, default(TRight), default(TResult));

        return leftItems.GroupJoin(rightItems, leftKeySelector, rightKeySelector, (left, rightg) => new { left, rightg }).SelectMany(r => r.rightg.DefaultIfEmpty(), newleftrs);
    }

    public static IQueryable<TResult> RightOuterJoin<TLeft, TRight, TKey, TResult>(
        this IQueryable<TLeft> leftItems,
        IQueryable<TRight> rightItems,
        Expression<Func<TLeft, TKey>> leftKeySelector,
        Expression<Func<TRight, TKey>> rightKeySelector,
        Expression<Func<TLeft, TRight, TResult>> resultSelector) {

        // (lgr,l) => resultSelector(l, lgr.right)
        var sampleAnonLR = new { leftg = default(IEnumerable<TLeft>), right = default(TRight) };
        var parmP = Expression.Parameter(sampleAnonLR.GetType(), "lgr");
        var parmC = Expression.Parameter(typeof(TLeft), "l");
        var argRight = Expression.PropertyOrField(parmP, "right");
        var newrightrs = CastSMBody(Expression.Lambda(resultSelector.Apply(parmC, argRight), parmP, parmC), sampleAnonLR, default(TLeft), default(TResult));

        return rightItems.GroupJoin(leftItems, rightKeySelector, leftKeySelector, (right, leftg) => new { leftg, right })
                         .SelectMany(l => l.leftg.DefaultIfEmpty(), newrightrs);
    }

    private static Expression<Func<TParm, TResult>> CastSBody<TParm, TResult>(LambdaExpression ex, TParm unusedP, TResult unusedRes) => (Expression<Func<TParm, TResult>>)ex;

    public static IQueryable<TResult> RightAntiSemiJoin<TLeft, TRight, TKey, TResult>(
        this IQueryable<TLeft> leftItems,
        IQueryable<TRight> rightItems,
        Expression<Func<TLeft, TKey>> leftKeySelector,
        Expression<Func<TRight, TKey>> rightKeySelector,
        Expression<Func<TLeft, TRight, TResult>> resultSelector) where TLeft : class where TRight : class where TResult : class {

        // newrightrs = lgr => resultSelector(default(TLeft), lgr.right)
        var sampleAnonLgR = new { leftg = (IEnumerable<TLeft>)null, right = default(TRight) };
        var parmLgR = Expression.Parameter(sampleAnonLgR.GetType(), "lgr");
        var argLeft = Expression.Constant(default(TLeft), typeof(TLeft));
        var argRight = Expression.PropertyOrField(parmLgR, "right");
        var newrightrs = CastSBody(Expression.Lambda(resultSelector.Apply(argLeft, argRight), parmLgR), sampleAnonLgR, default(TResult));

        return rightItems.GroupJoin(leftItems, rightKeySelector, leftKeySelector, (right, leftg) => new { leftg, right }).Where(lgr => !lgr.leftg.Any()).Select(newrightrs);
    }

    public static IQueryable<TResult> FullOuterJoin<TLeft, TRight, TKey, TResult>(
        this IQueryable<TLeft> leftItems,
        IQueryable<TRight> rightItems,
        Expression<Func<TLeft, TKey>> leftKeySelector,
        Expression<Func<TRight, TKey>> rightKeySelector,
        Expression<Func<TLeft, TRight, TResult>> resultSelector)  where TLeft : class where TRight : class where TResult : class {

        return leftItems.LeftOuterJoin(rightItems, leftKeySelector, rightKeySelector, resultSelector).Concat(leftItems.RightAntiSemiJoin(rightItems, leftKeySelector, rightKeySelector, resultSelector));
    }

    public static Expression Apply(this LambdaExpression e, params Expression[] args) {
        var b = e.Body;

        foreach (var pa in e.Parameters.Cast<ParameterExpression>().Zip(args, (p, a) => (p, a))) {
            b = b.Replace(pa.p, pa.a);
        }

        return b.PropagateNull();
    }

    public static Expression Replace(this Expression orig, Expression from, Expression to) => new ReplaceVisitor(from, to).Visit(orig);
    public class ReplaceVisitor : System.Linq.Expressions.ExpressionVisitor {
        public readonly Expression from;
        public readonly Expression to;

        public ReplaceVisitor(Expression _from, Expression _to) {
            from = _from;
            to = _to;
        }

        public override Expression Visit(Expression node) => node == from ? to : base.Visit(node);
    }

    public static Expression PropagateNull(this Expression orig) => new NullVisitor().Visit(orig);
    public class NullVisitor : System.Linq.Expressions.ExpressionVisitor {
        public override Expression Visit(Expression node) {
            if (node is MemberExpression nme && nme.Expression is ConstantExpression nce && nce.Value == null)
                return Expression.Constant(null, nce.Type.GetMember(nme.Member.Name).Single().GetMemberType());
            else
                return base.Visit(node);
        }
    }

    public static Type GetMemberType(this MemberInfo member) {
        switch (member) {
            case FieldInfo mfi:
                return mfi.FieldType;
            case PropertyInfo mpi:
                return mpi.PropertyType;
            case EventInfo mei:
                return mei.EventHandlerType;
            default:
                throw new ArgumentException("MemberInfo must be if type FieldInfo, PropertyInfo or EventInfo", nameof(member));
        }
    }
}

两个或多个表的完全外部连接: 首先提取要连接的列。

var DatesA = from A in db.T1 select A.Date; 
var DatesB = from B in db.T2 select B.Date; 
var DatesC = from C in db.T3 select C.Date;            

var Dates = DatesA.Union(DatesB).Union(DatesC); 

然后在提取的列和主表之间使用左外连接。

var Full_Outer_Join =

(from A in Dates
join B in db.T1
on A equals B.Date into AB 

from ab in AB.DefaultIfEmpty()
join C in db.T2
on A equals C.Date into ABC 

from abc in ABC.DefaultIfEmpty()
join D in db.T3
on A equals D.Date into ABCD

from abcd in ABCD.DefaultIfEmpty() 
select new { A, ab, abc, abcd })
.AsEnumerable();

对于键在两个枚举对象中都是唯一的情况，我的干净解决方案:

 private static IEnumerable<TResult> FullOuterJoin<Ta, Tb, TKey, TResult>(
            IEnumerable<Ta> a, IEnumerable<Tb> b,
            Func<Ta, TKey> key_a, Func<Tb, TKey> key_b,
            Func<Ta, Tb, TResult> selector)
        {
            var alookup = a.ToLookup(key_a);
            var blookup = b.ToLookup(key_b);
            var keys = new HashSet<TKey>(alookup.Select(p => p.Key));
            keys.UnionWith(blookup.Select(p => p.Key));
            return keys.Select(key => selector(alookup[key].FirstOrDefault(), blookup[key].FirstOrDefault()));
        }

so

    var ax = new[] {
        new { id = 1, first_name = "ali" },
        new { id = 2, first_name = "mohammad" } };
    var bx = new[] {
        new { id = 1, last_name = "rezaei" },
        new { id = 3, last_name = "kazemi" } };

    var list = FullOuterJoin(ax, bx, a => a.id, b => b.id, (a, b) => "f: " + a?.first_name + " l: " + b?.last_name).ToArray();

输出:

f: ali l: rezaei
f: mohammad l:
f:  l: kazemi

我认为LINQ join子句并不是这个问题的正确解决方案，因为join子句的目的并不是按照这个任务解决方案所需的方式来积累数据。合并创建的独立集合的代码变得太复杂了，也许这对于学习目的来说是可以的，但对于真正的应用程序来说不是。解决这个问题的方法之一是下面的代码:

class Program
{
    static void Main(string[] args)
    {
        List<FirstName> firstNames = new List<FirstName>();
        firstNames.Add(new FirstName { ID = 1, Name = "John" });
        firstNames.Add(new FirstName { ID = 2, Name = "Sue" });

        List<LastName> lastNames = new List<LastName>();
        lastNames.Add(new LastName { ID = 1, Name = "Doe" });
        lastNames.Add(new LastName { ID = 3, Name = "Smith" });

        HashSet<int> ids = new HashSet<int>();
        foreach (var name in firstNames)
        {
            ids.Add(name.ID);
        }
        foreach (var name in lastNames)
        {
            ids.Add(name.ID);
        }
        List<FullName> fullNames = new List<FullName>();
        foreach (int id in ids)
        {
            FullName fullName = new FullName();
            fullName.ID = id;
            FirstName firstName = firstNames.Find(f => f.ID == id);
            fullName.FirstName = firstName != null ? firstName.Name : string.Empty;
            LastName lastName = lastNames.Find(l => l.ID == id);
            fullName.LastName = lastName != null ? lastName.Name : string.Empty;
            fullNames.Add(fullName);
        }
    }
}
public class FirstName
{
    public int ID;

    public string Name;
}

public class LastName
{
    public int ID;

    public string Name;
}
class FullName
{
    public int ID;

    public string FirstName;

    public string LastName;
}

如果真正的集合对于HashSet的形成很大，而不是foreach循环可以使用下面的代码:

List<int> firstIds = firstNames.Select(f => f.ID).ToList();
List<int> LastIds = lastNames.Select(l => l.ID).ToList();
HashSet<int> ids = new HashSet<int>(firstIds.Union(LastIds));//Only unique IDs will be included in HashSet

谢谢大家的有趣帖子!

我修改了代码，因为在我的情况下我需要

个性化的连接谓词 一个个性化的联合，独特的比较

这是我修改过的代码(不好意思，用VB写的)

    Module MyExtensions
        <Extension()>
        Friend Function FullOuterJoin(Of TA, TB, TResult)(ByVal a As IEnumerable(Of TA), ByVal b As IEnumerable(Of TB), ByVal joinPredicate As Func(Of TA, TB, Boolean), ByVal projection As Func(Of TA, TB, TResult), ByVal comparer As IEqualityComparer(Of TResult)) As IEnumerable(Of TResult)
            Dim joinL =
                From xa In a
                From xb In b.Where(Function(x) joinPredicate(xa, x)).DefaultIfEmpty()
                Select projection(xa, xb)
            Dim joinR =
                From xb In b
                From xa In a.Where(Function(x) joinPredicate(x, xb)).DefaultIfEmpty()
                Select projection(xa, xb)
            Return joinL.Union(joinR, comparer)
        End Function
    End Module

    Dim fullOuterJoin = lefts.FullOuterJoin(
        rights,
        Function(left, right) left.Code = right.Code And (left.Amount [...] Or left.Description.Contains [...]),
        Function(left, right) New CompareResult(left, right),
        New MyEqualityComparer
    )

    Public Class MyEqualityComparer
        Implements IEqualityComparer(Of CompareResult)

        Private Function GetMsg(obj As CompareResult) As String
            Dim msg As String = ""
            msg &= obj.Code & "_"
            [...]
            Return msg
        End Function

        Public Overloads Function Equals(x As CompareResult, y As CompareResult) As Boolean Implements IEqualityComparer(Of CompareResult).Equals
            Return Me.GetMsg(x) = Me.GetMsg(y)
        End Function

        Public Overloads Function GetHashCode(obj As CompareResult) As Integer Implements IEqualityComparer(Of CompareResult).GetHashCode
            Return Me.GetMsg(obj).GetHashCode
        End Function
    End Class

这是另一个完整的外部连接

由于对其他命题的简单性和可读性不太满意，我最后得出了这样的结论:

它没有快速的自命(在2020m CPU上加入1000 * 1000大约800毫秒:2.4ghz / 2核)。对我来说，它只是一个紧凑而随意的完全外部连接。

它的工作原理与SQL FULL OUTER JOIN相同(重复保存)

欢呼;-)

using System;
using System.Collections.Generic;
using System.Linq;
namespace NS
{
public static class DataReunion
{
    public static List<Tuple<T1, T2>> FullJoin<T1, T2, TKey>(List<T1> List1, Func<T1, TKey> KeyFunc1, List<T2> List2, Func<T2, TKey> KeyFunc2)
    {
        List<Tuple<T1, T2>> result = new List<Tuple<T1, T2>>();

        Tuple<TKey, T1>[] identifiedList1 = List1.Select(_ => Tuple.Create(KeyFunc1(_), _)).OrderBy(_ => _.Item1).ToArray();
        Tuple<TKey, T2>[] identifiedList2 = List2.Select(_ => Tuple.Create(KeyFunc2(_), _)).OrderBy(_ => _.Item1).ToArray();

        identifiedList1.Where(_ => !identifiedList2.Select(__ => __.Item1).Contains(_.Item1)).ToList().ForEach(_ => {
            result.Add(Tuple.Create<T1, T2>(_.Item2, default(T2)));
        });

        result.AddRange(
            identifiedList1.Join(identifiedList2, left => left.Item1, right => right.Item1, (left, right) => Tuple.Create<T1, T2>(left.Item2, right.Item2)).ToList()
        );

        identifiedList2.Where(_ => !identifiedList1.Select(__ => __.Item1).Contains(_.Item1)).ToList().ForEach(_ => {
            result.Add(Tuple.Create<T1, T2>(default(T1), _.Item2));
        });

        return result;
    }
}
}

这个想法是

基于提供的关键函数生成器构建id 处理仅剩下的项 流程内部连接 只处理正确的项目

下面是一个与之相关的简单测试:

在结束处放置断点，以手动验证它的行为是否符合预期

using System;
using System.Collections.Generic;
using Microsoft.VisualStudio.TestTools.UnitTesting;
using Newtonsoft.Json;
using Newtonsoft.Json.Linq;
using NS;

namespace Tests
{
[TestClass]
public class DataReunionTest
{
    [TestMethod]
    public void Test()
    {
        List<Tuple<Int32, Int32, String>> A = new List<Tuple<Int32, Int32, String>>();
        List<Tuple<Int32, Int32, String>> B = new List<Tuple<Int32, Int32, String>>();

        Random rnd = new Random();

        /* Comment the testing block you do not want to run
        /* Solution to test a wide range of keys*/

        for (int i = 0; i < 500; i += 1)
        {
            A.Add(Tuple.Create(rnd.Next(1, 101), rnd.Next(1, 101), "A"));
            B.Add(Tuple.Create(rnd.Next(1, 101), rnd.Next(1, 101), "B"));
        }

        /* Solution for essential testing*/

        A.Add(Tuple.Create(1, 2, "B11"));
        A.Add(Tuple.Create(1, 2, "B12"));
        A.Add(Tuple.Create(1, 3, "C11"));
        A.Add(Tuple.Create(1, 3, "C12"));
        A.Add(Tuple.Create(1, 3, "C13"));
        A.Add(Tuple.Create(1, 4, "D1"));

        B.Add(Tuple.Create(1, 1, "A21"));
        B.Add(Tuple.Create(1, 1, "A22"));
        B.Add(Tuple.Create(1, 1, "A23"));
        B.Add(Tuple.Create(1, 2, "B21"));
        B.Add(Tuple.Create(1, 2, "B22"));
        B.Add(Tuple.Create(1, 2, "B23"));
        B.Add(Tuple.Create(1, 3, "C2"));
        B.Add(Tuple.Create(1, 5, "E2"));

        Func<Tuple<Int32, Int32, String>, Tuple<Int32, Int32>> key = (_) => Tuple.Create(_.Item1, _.Item2);

        var watch = System.Diagnostics.Stopwatch.StartNew();
        var res = DataReunion.FullJoin(A, key, B, key);
        watch.Stop();
        var elapsedMs = watch.ElapsedMilliseconds;
        String aser = JToken.FromObject(res).ToString(Formatting.Indented);
        Console.Write(elapsedMs);
    }
}

}