执行SQL语句:
int result = db.SqlScalar<int>("SELECT OBJECT_ID(@name)", new { name = "SomeName" });继承表的实现 (存储于同一个表中)
[Alias("Table")]
public abstract class MyBaseClass
{
public String Name { get; set; }
public String Name1 { get; set; }
public String Name2 { get; set; }
}
[Alias("Table")]
public class MyDerivedClassA : MyBaseClass {}
[Alias("Table")]
public class MyDerivedClassB : MyBaseClass {}格式化查询:
db.SelectFmt<Person>("Age > {0}", 40);
Assert.That(db.GetLastSql(), Is.EqualTo("SELECT \"Id\", \"FirstName\", \"LastName\", \"Age\" FROM \"Person\" WHERE Age > 40"));
db.SelectFmt<Person>("SELECT * FROM Person WHERE Age > {0}", 40);
Assert.That(db.GetLastSql(), Is.EqualTo("SELECT * FROM Person WHERE Age > 40"));这两种方法是等效的,还可以通过拼接字符串的方法,构造出复杂的查询条件,第一个参数中可以加多个项{0} {1} {2}
返回指定字段的列表:
db.Lookup<int, string>(db.From<Person>().Select(x => new { x.Age, x.LastName }).Where(q => q.Age < 50));
Assert.That(db.GetLastSql(), Is.EqualTo("SELECT \"Age\",\"LastName\" \nFROM \"Person\"\nWHERE (\"Age\" < 50)"));
db.Lookup<int, string>("SELECT Age, LastName FROM Person WHERE Age < @age", new { age = 50 });
Assert.That(db.GetLastSql(), Is.EqualTo("SELECT Age, LastName FROM Person WHERE Age < @age"));
db.LookupFmt<int, string>("SELECT Age, LastName FROM Person WHERE Age < {0}", 50);
Assert.That(db.GetLastSql(), Is.EqualTo("SELECT Age, LastName FROM Person WHERE Age < 50"));两种方式等效,可以使用类指定字段名,也可以字符串中指定
局部更新UpdateOnly
更新表中的部分字段是一个很常用的情形, SS提供有一个方法实现这个功能, 叫做 UpdateOnly.
UpdateOnly 表达式中第二个参数用于指定哪个字段被修改:
db.UpdateOnly(new Person { FirstName = "JJ" }, p => p.FirstName);UPDATE "Person" SET "FirstName" = 'JJ'
db.UpdateOnly(new Person { FirstName = "JJ", Age = 12 },
onlyFields: p => new { p.FirstName, p.Age });UPDATE "Person" SET "FirstName" = 'JJ', "Age" = 12
第三个表达式可以指定where子句:
db.UpdateOnly(new Person { FirstName = "JJ" },
onlyFields: p => p.FirstName,
where: p => p.LastName == "Hendrix");UPDATE "Person" SET "FirstName" = 'JJ' WHERE ("LastName" = 'Hendrix')
如果不使用表达式过滤器,也可以使用 ExpressionVisitor 构造器,当你想程序化构造更新表达式时,可以更加灵活:
db.UpdateOnly(new Person { FirstName = "JJ", LastName = "Hendo" },
onlyFields: q => q.Update(p => p.FirstName));UPDATE "Person" SET "FirstName" = 'JJ'
db.UpdateOnly(new Person { FirstName = "JJ" },
onlyFields: q => q.Update(p => p.FirstName).Where(x => x.FirstName == "Jimi"));UPDATE "Person" SET "FirstName" = 'JJ' WHERE ("LastName" = 'Hendrix')
如果你想使用无限自由的不确定类型模式,基于字符串的表达式,使用 .Params()扩展方法对参数转义 (inspired by massive):
db.Update<Person>(set: "FirstName = {0}".Params("JJ"),
where: "LastName = {0}".Params("Hendrix"));甚至表名可以是一个字符串, 这样你就可以指定和上面功能相同的 update 操作彻底不需要使用Person模型:
db.Update(table: "Person", set: "FirstName = {0}".Params("JJ"),
where: "LastName = {0}".Params("Hendrix"));UPDATE "Person" SET FirstName = 'JJ' WHERE LastName = 'Hendrix'
查询并且生成集合:
1 直接返回字典类型结果
Dictionary<int, string> trackIdNamesMap = db.Dictionary<int, string>( "select Id, Name from Track")
结构是字典类型,其中的Key来自于数据表的Id字段,value来自于数据表的Name字段,其中的Key也可以使用string类型的字段。value也可以使用其他类型字段。
2 直接返回字典类型结果 , 并且将结果分组
Lookup returns an Dictionary<K, List<V>> made from the first two columns: Dictionary<int, List<string>> albumTrackNames = db.Lookup<int, string>( "select AlbumId, Name from Track")
结果是字典类型,其中的键是来自数据表的AlbumId字段,value是一个列表,这个类别是根据前边的AlbumId字段进行分组的,每个键值下有数目不等的Name的列表。