我正在寻找一个内存中对象(或对象的JSON序列化)并发出C#代码来生成一个等效的对象。
这对于从存储库中提取已知良好的示例以用作单元测试中的起点非常有用。我们已经考虑过反序列化JSON,但C#代码在重构方面会有优势。
答案 0 :(得分:13)
有一个有趣的Visual Studio扩展可以解决这个问题。 Object Exporter。它允许将内存中对象序列化为C#Object初始化代码,JSON和XML。我还没有尝试过,但看起来很有趣;尝试后会更新。
答案 1 :(得分:10)
如果模型很简单,可以使用反射和字符串构建器直接输出C#。我这样做是为了填充单元测试数据,就像你讨论的那样。
下面的代码示例是在几分钟内编写的,并生成了一个需要一些手动调整的对象初始化程序。如果你计划做很多事情,可以编写一个更强大/更少的错误功能。
第二个函数是递归的,迭代对象中的任何列表并为这些列表生成代码。
免责声明:这适用于我的基本数据类型的简单模型。它生成了需要清理的代码,但允许我快速前进。它只是作为如何做到这一点的一个例子。希望它激励某人写自己的。
就我而言,我有一个从数据库加载的大型数据集(结果)的实例。为了从我的单元测试中删除数据库依赖项,我将对象交给了这个函数,该函数吐出了允许我在我的测试类中模拟对象的代码。
private void WriteInstanciationCodeFromObject(IList results)
{
//declare the object that will eventually house C# initialization code for this class
var testMockObject = new System.Text.StringBuilder();
//start building code for this object
ConstructAndFillProperties(testMockObject, results);
var codeOutput = testMockObject.ToString();
}
private void ConstructAndFillProperties(StringBuilder testMockObject, IList results)
{
testMockObject.AppendLine("var testMock = new " + results.GetType().ToString() + "();");
foreach (object obj in results)
{
//if this object is a list, write code for it's contents
if (obj.GetType().GetInterfaces().Contains(typeof(IList)))
{
ConstructAndFillProperties(testMockObject, (IList)obj);
}
testMockObject.AppendLine("testMock.Add(new " + obj.GetType().Name + "() {");
foreach (var property in obj.GetType().GetProperties())
{
//if this property is a list, write code for it's contents
if (property.PropertyType.GetInterfaces().Contains(typeof(IList)))
{
ConstructAndFillProperties(testMockObject, (IList)property.GetValue(obj, null));
}
testMockObject.AppendLine(property.Name + " = (" + property.PropertyType + ")\"" + property.GetValue(obj, null) + "\",");
}
testMockObject.AppendLine("});");
}
}
答案 2 :(得分:5)
我也是这方面的新手,但我还需要使用一个定义层次结构的C#对象并将其提取到对象初始值设定项以简化设置单元测试。我从上面借了很多钱,结果就是这样。我想改进它处理用户类的方式。
http://github.com/jefflomax/csharp-object-to-object-literal/blob/master/Program.cs
using System;
using System.Collections;
using System.Collections.Generic;
using System.Linq;
using System.Text;
using System.Threading.Tasks;
namespace ObjectInitializer
{
public class Program
{
public enum Color { Red, Green, Blue, Yellow, Fidget } ;
public class Foo
{
public int FooId { get; set; }
public string FooName { get; set; }
}
public class Thing
{
public int ThingId { get; set; }
public string ThingName { get; set; }
public List<Foo> Foos { get; set; }
}
public class Widget
{
public long Sort { get; set; }
public char FirstLetter { get; set; }
}
public class TestMe
{
public Color Color { get; set; }
public long Key { get; set; }
public string Name { get; set; }
public DateTime Created { get; set; }
public DateTime? NCreated { get; set; }
public bool Deleted { get; set; }
public bool? NDeleted { get; set; }
public double Amount { get; set; }
public Thing MyThing { get; set; }
public List<Thing> Things { get; set; }
public List<Widget> Widgets { get; set; }
}
static void Main(string[] args)
{
var testMe = new TestMe
{
Color = Program.Color.Blue,
Key = 3,
Name = "SAK",
Created = new DateTime(2013,10,20,8,0,0),
NCreated = (DateTime?)null,
Deleted = false,
NDeleted = null,
Amount = 13.1313,
MyThing = new Thing(){ThingId=1,ThingName="Thing 1"},
Things = new List<Thing>
{
new Thing
{
ThingId=4,
ThingName="Thing 4",
Foos = new List<Foo>
{
new Foo{FooId=1, FooName="Foo 1"},
new Foo{FooId=2,FooName="Foo2"}
}
},
new Thing
{
ThingId=5,
ThingName="Thing 5",
Foos = new List<Foo>()
}
},
Widgets = new List<Widget>()
};
var objectInitializer = ToObjectInitializer(testMe);
Console.WriteLine(objectInitializer);
// This is the returned C# Object Initializer
var x = new TestMe { Color = Program.Color.Blue, Key = 3, Name = "SAK", Created = new DateTime(2013, 10, 20, 8, 0, 0), NCreated = null, Deleted = false, NDeleted = null, Amount = 13.1313, MyThing = new Thing { ThingId = 1, ThingName = "Thing 1", Foos = new List<Foo>() }, Things = new List<Thing> { new Thing { ThingId = 4, ThingName = "Thing 4", Foos = new List<Foo> { new Foo { FooId = 1, FooName = "Foo 1" }, new Foo { FooId = 2, FooName = "Foo2" } } }, new Thing { ThingId = 5, ThingName = "Thing 5", Foos = new List<Foo>() } }, Widgets = new List<Widget>() };
Console.WriteLine("");
}
public static string ToObjectInitializer(Object obj)
{
var sb = new StringBuilder(1024);
sb.Append("var x = ");
sb = WalkObject(obj, sb);
sb.Append(";");
return sb.ToString();
}
private static StringBuilder WalkObject(Object obj, StringBuilder sb)
{
var properties = obj.GetType().GetProperties();
var type = obj.GetType();
var typeName = type.Name;
sb.Append("new " + type.Name + " {");
bool appendComma = false;
DateTime workDt;
foreach (var property in properties)
{
if (appendComma) sb.Append(", ");
appendComma = true;
var pt = property.PropertyType;
var name = pt.Name;
var isList = property.PropertyType.GetInterfaces().Contains(typeof(IList));
var isClass = property.PropertyType.IsClass;
if (isList)
{
IList list = (IList)property.GetValue(obj, null);
var listTypeName = property.PropertyType.GetGenericArguments()[0].Name;
if (list != null && list.Count > 0)
{
sb.Append(property.Name + " = new List<" + listTypeName + ">{");
sb = WalkList( list, sb );
sb.Append("}");
}
else
{
sb.Append(property.Name + " = new List<" + listTypeName + ">()");
}
}
else if (property.PropertyType.IsEnum)
{
sb.AppendFormat("{0} = {1}", property.Name, property.GetValue(obj));
}
else
{
var value = property.GetValue(obj);
var isNullable = pt.IsGenericType && pt.GetGenericTypeDefinition() == typeof(Nullable<>);
if (isNullable)
{
name = pt.GetGenericArguments()[0].Name;
if (property.GetValue(obj) == null)
{
sb.AppendFormat("{0} = null", property.Name);
continue;
}
}
switch (name)
{
case "Int64":
case "Int32":
case "Int16":
case "Double":
case "Float":
sb.AppendFormat("{0} = {1}", property.Name, value);
break;
case "Boolean":
sb.AppendFormat("{0} = {1}", property.Name, Convert.ToBoolean(value) == true ? "true" : "false");
break;
case "DateTime":
workDt = Convert.ToDateTime(value);
sb.AppendFormat("{0} = new DateTime({1},{2},{3},{4},{5},{6})", property.Name, workDt.Year, workDt.Month, workDt.Day, workDt.Hour, workDt.Minute, workDt.Second);
break;
case "String":
sb.AppendFormat("{0} = \"{1}\"", property.Name, value);
break;
default:
// Handles all user classes, should likely have a better way
// to detect user class
sb.AppendFormat("{0} = ", property.Name);
WalkObject(property.GetValue(obj), sb);
break;
}
}
}
sb.Append("}");
return sb;
}
private static StringBuilder WalkList(IList list, StringBuilder sb)
{
bool appendComma = false;
foreach (object obj in list)
{
if (appendComma) sb.Append(", ");
appendComma = true;
WalkObject(obj, sb);
}
return sb;
}
}
}
答案 3 :(得分:5)
我在寻找马修所描述的同样方法的时候偶然发现了这一点,并且受到埃文回答的启发,编写了我自己的扩展方法。它生成可编译的C#代码作为可以复制/粘贴到Visual Studio中的字符串。我没有打扰任何特定的格式,只是在一行输出代码并使用ReSharper很好地格式化它。我已经将它用于我们传递的一些大型DTO,到目前为止,它就像一个魅力。
这是扩展方法和几个辅助方法:
public static string ToCreationMethod(this object o)
{
return String.Format("var newObject = {0};", o.CreateObject());
}
private static StringBuilder CreateObject(this object o)
{
var builder = new StringBuilder();
builder.AppendFormat("new {0} {{ ", o.GetClassName());
foreach (var property in o.GetType().GetProperties())
{
var value = property.GetValue(o);
if (value != null)
{
builder.AppendFormat("{0} = {1}, ", property.Name, value.GetCSharpString());
}
}
builder.Append("}");
return builder;
}
private static string GetClassName(this object o)
{
var type = o.GetType();
if (type.IsGenericType)
{
var arg = type.GetGenericArguments().First().Name;
return type.Name.Replace("`1", string.Format("<{0}>", arg));
}
return type.Name;
}
方法GetCSharpString包含逻辑,并且它对任何特定类型的扩展都是开放的。对我来说,它处理字符串,整数,小数,日期以及任何实现IEnumerable的日期都足够了:
private static string GetCSharpString(this object o)
{
if (o is String)
{
return string.Format("\"{0}\"", o);
}
if (o is Int32)
{
return string.Format("{0}", o);
}
if (o is Decimal)
{
return string.Format("{0}m", o);
}
if (o is DateTime)
{
return string.Format("DateTime.Parse(\"{0}\")", o);
}
if (o is IEnumerable)
{
return String.Format("new {0} {{ {1}}}", o.GetClassName(), ((IEnumerable)o).GetItems());
}
return string.Format("{0}", o.CreateObject());
}
private static string GetItems(this IEnumerable items)
{
return items.Cast<object>().Aggregate(string.Empty, (current, item) => current + String.Format("{0}, ", item.GetCSharpString()));
}
我希望有人觉得这很有用!
答案 4 :(得分:4)
对象可能有一个支持转换为InstanceDescriptor的TypeConverter,这是WinForms设计者在发出C#代码生成对象时使用的。如果它无法转换为InstanceDescriptor,它将尝试使用无参数构造函数并简单地设置公共属性。 InstanceDescriptor机制很方便,因为它允许您指定各种构造选项,例如带参数的构造函数,甚至是静态工厂方法调用。
我编写了一些实用程序代码,它使用IL发出内存中对象的加载,基本上遵循上述模式(如果可能的话,使用InstanceDescriptor,如果不是,只需编写公共属性。)注意这将是只有在正确实现InstanceDescriptor或设置公共属性足以恢复对象状态时才生成等效对象。如果你正在发射IL,你也可以直接欺骗和读/写字段值(这是DataContractSerializer支持的),但是有很多令人讨厌的角落需要考虑。
答案 5 :(得分:2)
可能有点晚了,但这是我在该问题上的5美分。
提到的Visual Studio扩展(OmarElabd / ObjectExporter)是个好主意,但我需要在运行单元测试期间在运行时从内存中对象生成C#代码。这是从原始问题https://www.nuget.org/packages/ObjectDumper.NET/
演变而来的ObjectDumper.Dump(obj,DumpStyle.CSharp);从变量返回C#初始化代码。如果发现问题,请告诉我,您可能想在github上报告它们。
答案 6 :(得分:1)
有一个类似于what Evan proposed的解决方案,但更适合我的特定任务。
在使用CodeDOM和Reflection玩了一下后发现它在我的情况下会太复杂。
该对象被序列化为XML,因此自然的解决方案是使用XSLT将其简单地转换为对象创建表达式。
当然,它仅涵盖某些类型的案例,但可能适用于其他人。
答案 7 :(得分:0)
以下是@ revlucio解决方案的更新,增加了对布尔值和枚举的支持。
public static class ObjectInitializationSerializer
{
private static string GetCSharpString(object o)
{
if (o is bool)
{
return $"{o.ToString().ToLower()}";
}
if (o is string)
{
return $"\"{o}\"";
}
if (o is int)
{
return $"{o}";
}
if (o is decimal)
{
return $"{o}m";
}
if (o is DateTime)
{
return $"DateTime.Parse(\"{o}\")";
}
if (o is Enum)
{
return $"{o.GetType().FullName}.{o}";
}
if (o is IEnumerable)
{
return $"new {GetClassName(o)} \r\n{{\r\n{GetItems((IEnumerable)o)}}}";
}
return CreateObject(o).ToString();
}
private static string GetItems(IEnumerable items)
{
return items.Cast<object>().Aggregate(string.Empty, (current, item) => current + $"{GetCSharpString(item)},\r\n");
}
private static StringBuilder CreateObject(object o)
{
var builder = new StringBuilder();
builder.Append($"new {GetClassName(o)} \r\n{{\r\n");
foreach (var property in o.GetType().GetProperties())
{
var value = property.GetValue(o);
if (value != null)
{
builder.Append($"{property.Name} = {GetCSharpString(value)},\r\n");
}
}
builder.Append("}");
return builder;
}
private static string GetClassName(object o)
{
var type = o.GetType();
if (type.IsGenericType)
{
var arg = type.GetGenericArguments().First().Name;
return type.Name.Replace("`1", $"<{arg}>");
}
return type.Name;
}
public static string Serialize(object o)
{
return $"var newObject = {CreateObject(o)};";
}
}