LINQ体验(7)——LINQ to SQL语句之Group By/Having和Exists/In/Any/All/Contains
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我们继续讲解LINQ语句,我昨天发现了LINQ in Action 电子书,就共享了LINQ in Action 电子书这本书。大家也可以看看。这篇我们来讨论Group By/Having操作符和Exists/In/Any/All/Contains操作符。
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Group By/Having操作符
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适用场景:分组数据,为我们查找数据缩小范围。
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说明:分配并返回对传入参数进行分组操作后的可枚举对象。分组;延迟
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1.简单形式:
var q =
\n from p in db.Products
\n group p by p.CategoryID into g
\n select g;
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说明:from p in db.Products 表示从表中将产品对象取出来。group p by p.CategoryID into g表示对p按CategoryID字段归类。其结果命名为g,一旦重新命名,p的作用域就结束了,所以,最后select时,只能select g。当然,也不必重新命名可以这样写:
var q =
\n from p in db.Products
\n group p by p.CategoryID;
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我们用示意图表示:
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如果想遍历某类别中所有记录,这样:
foreach (var gp in q)
\n{
\n if (gp.Key == 2)
\n {
\n foreach (var item in gp)
\n {
\n //do something
\n }
\n }
\n}
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2.Select匿名类:
var q =
\n from p in db.Products
\n group p by p.CategoryID into g
\n select new { CategoryID = g.Key, g };
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说明:在这句LINQ语句中,有2个property:CategoryID和g。这个匿名类,其实质是对返回结果集重新进行了包装。把g的property封装成一个完整的分组。如下图所示:
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如果想遍历某匿名类中所有记录,要这么做:
foreach (var gp in q)
\n{
\n if (gp.CategoryID == 2)
\n {
\n foreach (var item in gp)
\n {
\n //do something
\n }
\n }
\n}
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3.最大值
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说明:先按CategoryID归类,判断各个分类产品中单价最大的Products。取出CategoryID值,并把UnitPrice值赋给MaxPrice。
var q =
\n from p in db.Products
\n group p by p.CategoryID into g
\n select new {
\n g.Key,
\n MaxPrice = g.Max(p => p.UnitPrice)
\n };
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4.最小值
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说明:先按CategoryID归类,判断各个分类产品中单价最小的Products。取出CategoryID值,并把UnitPrice值赋给MinPrice。
var q =
\n from p in db.Products
\n group p by p.CategoryID into g
\n select new {
\n g.Key,
\n MinPrice = g.Min(p => p.UnitPrice)
\n };
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5.平均值
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说明:先按CategoryID归类,取出CategoryID值和各个分类产品中单价的平均值。
var q =
\n from p in db.Products
\n group p by p.CategoryID into g
\n select new {
\n g.Key,
\n AveragePrice = g.Average(p => p.UnitPrice)
\n };
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6.求和
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说明:先按CategoryID归类,取出CategoryID值和各个分类产品中单价的总和。
var q =
\n from p in db.Products
\n group p by p.CategoryID into g
\n select new {
\n g.Key,
\n TotalPrice = g.Sum(p => p.UnitPrice)
\n };
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7.计数
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说明:先按CategoryID归类,取出CategoryID值和各个分类产品的数量。
var q =
\n from p in db.Products
\n group p by p.CategoryID into g
\n select new {
\n g.Key,
\n NumProducts = g.Count()
\n };
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8.带条件计数
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说明:先按CategoryID归类,取出CategoryID值和各个分类产品的断货数量。 Count函数里,使用了Lambda表达式,Lambda表达式中的p,代表这个组里的一个元素或对象,即某一个产品。
var q =
\n from p in db.Products
\n group p by p.CategoryID into g
\n select new {
\n g.Key,
\n NumProducts = g.Count(p => p.Discontinued)
\n };
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9.Where限制
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说明:在翻译成SQL语句时,在最外层嵌套了Where条件。
var q =
\n from p in db.Products
\n group p by p.CategoryID into g
\n where g.Count() >= 10
\n select new {
\n g.Key,
\n ProductCount = g.Count()
\n };
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语句描述:根据产品的―ID分组,查询产品数量大于10的ID和产品数量。
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10.Multiple Columns
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说明:既按产品的分类,又按供应商分类。在by后面,new出来一个匿名类。这里,Key其实质是一个类的对象,Key包含两个Property:CategoryID、SupplierID。用g.Key.CategoryID可以遍历CategoryID的值。
var categories =
\n from p in db.Products
\n group p by new { p.CategoryID, p.SupplierID } into g
\n select new {g.Key, g};
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11.Expression(表达式)
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说明:按产品单价是否大于10分类。其结果分为两类,大于的是一类,小于及等于为另一类。
var categories =
\n from p in db.Products
\n group p by new { Criterion = p.UnitPrice > 10 } into g
\n select g;
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Exists/In/Any/All/Contains操作符
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适用场景:用于判断集合中元素,进一步缩小范围。
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Any
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说明:用于判断集合中是否有元素满足某一条件;不延迟。(若条件为空,则集合只要不为空就返回True,否则为False)。有2种形式,分别为简单形式和带条件形式。
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1.简单形式:
var q =
\n from c in db.Customers
\n where !c.Orders.Any()
\n select c;
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生成SQL语句为:
SELECT [t0].[CustomerID], [t0].[CompanyName], [t0].[ContactName], [t0].[ContactTitle], [t0].[Address], [t0].[City], [t0].[Region], [t0].[PostalCode], [t0].[Country], [t0].[Phone], [t0].[Fax]
FROM [dbo].[Customers] AS [t0]
WHERE NOT (EXISTS(
SELECT NULL AS [EMPTY]
FROM [dbo].[Orders] AS [t1]
WHERE [t1].[CustomerID] = [t0].[CustomerID]
))
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2.带条件形式:
var q =
\n from c in db.Categories
\n where c.Products.Any(p => p.Discontinued)
\n select c;
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生成SQL语句为:
SELECT [t0].[CategoryID], [t0].[CategoryName], [t0].[Description], [t0].[Picture]
FROM [dbo].[Categories] AS [t0]
WHERE EXISTS(
SELECT NULL AS [EMPTY]
FROM [dbo].[Products] AS [t1]
WHERE ([t1].[Discontinued] = 1) AND ([t1].[CategoryID] = [t0].[CategoryID])
)
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All
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说明:用于判断集合中所有元素是否都满足某一条件;不延迟
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1.带条件形式
var q =
\n from c in db.Customers
\n where c.Orders.All(o => o.ShipCity == c.City)
\n select c;
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Contains
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说明:用于判断集合中是否包含有某一元素;不延迟。它是对两个序列进行连接操作的。
string[] customerID_Set = new string[] { “AROUT”, “BOLID”, “FISSA” };
\nvar q = (
\n from o in db.Orders
\n where customerID_Set.Contains(o.CustomerID)
\n select o).ToList();\n
语句描述:查找”AROUT”, “BOLID” 和 “FISSA” 这三个客户的订单。先定义了一个数组,在LINQ to SQL中使用Contains,数组中包含了所有的CustomerID,即返回结果中,所有的CustomerID都在这个集合内。也就是in。 你也可以把数组的定义放在LINQ to SQL语句里。比如:
var q = (
\n from o in db.Orders
\n where (new string[] { “AROUT”, “BOLID”, “FISSA” }).Contains(o.CustomerID)
\n select o).ToList();
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Not Contains则取反:
var q = (
\n from o in db.Orders
\n where !(new string[] { “AROUT”, “BOLID”, “FISSA” }).Contains(o.CustomerID)
\n select o).ToList();
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1.包含一个对象:
var order = (from o in db.Orders
\n where o.OrderID == 10248
\n select o).First();
\nvar q = db.Customers.Where(p => p.Orders.Contains(order)).ToList();
\nforeach (var cust in q)
\n{
\n foreach (var ord in cust.Orders)
\n {
\n //do something
\n }
\n}
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2.包含多个值:
string[] cities = new string[] { “Seattle”, “London”, “Vancouver”, “Paris” };
\nvar q = db.Customers.Where(p=>cities.Contains(p.City)).ToList();\n
总结一下这篇我们说明了以下语句:
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| Group By/Having | 分组数据;延迟 |
| Any | 用于判断集合中是否有元素满足某一条件;不延迟 |
| All | 用于判断集合中所有元素是否都满足某一条件;不延迟 |
| Contains | 用于判断集合中是否包含有某一元素;不延迟 |