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ModuleBuilder.DefineManifestResource 方法

定義

定義二進位大型物件 (BLOB),表示要嵌入動態組件的資訊清單資源。

public:
 void DefineManifestResource(System::String ^ name, System::IO::Stream ^ stream, System::Reflection::ResourceAttributes attribute);
public void DefineManifestResource (string name, System.IO.Stream stream, System.Reflection.ResourceAttributes attribute);
member this.DefineManifestResource : string * System.IO.Stream * System.Reflection.ResourceAttributes -> unit
Public Sub DefineManifestResource (name As String, stream As Stream, attribute As ResourceAttributes)

參數

name
String

資源的名稱 (區分大小寫)。

stream
Stream

包含資源位元組的資料流。

attribute
ResourceAttributes

列舉值,指定資源是公用或私用。

例外狀況

namenull

-或-

streamnull

name 是零長度字串

包含目前模組的動態組件是暫時性 (Transient) 的,也就是說,呼叫 DefineDynamicModule(String, String) 時未指定任何檔案名稱。

範例

下列範例會產生並儲存名為 的 EmittedManifestResourceAssembly.exe動態元件,其中包含內嵌 Unmanaged 資源。 此範例會建立元件,其中包含一個模組,並開啟記憶體數據流以包含 Unmanaged 資源。 然後,程式代碼會 DefineManifestResource 呼叫 方法來定義資源。

注意

您可以針對資源使用任何類型的數據流;例如,您可以從檔案讀取 Unmanaged 二進位數據。

此範例會使用 Main 方法定義動態模組中的類型,併產生方法主體的 MSIL。 產生方法的 Main 主體並建立型別之後,程式代碼範例會將五個字節寫入與指令清單資源相關聯的數據流。 儲存元件時,資源會附加至該元件。

執行範例之後,您可以執行發出的元件。 發出元件 Main 之 方法中的程式代碼會讀取內嵌指令清單資源,並將位元組值列印至主控台。 您可以使用 Ildasm.exe (IL 反組譯程式) 來檢視元件指令清單中的資訊。

using System;
using System.Reflection;
using System.Reflection.Emit;
using System.IO;

public class Example
{
    public static void Main()
    {
        // Define a dynamic assembly with one module. The module
        // name and the assembly name are the same.
        AssemblyName asmName =
            new AssemblyName("EmittedManifestResourceAssembly");
        AssemblyBuilder asmBuilder =
            AppDomain.CurrentDomain.DefineDynamicAssembly(
                asmName,
                AssemblyBuilderAccess.RunAndSave
            );
        ModuleBuilder modBuilder = asmBuilder.DefineDynamicModule(
            asmName.Name,
            asmName.Name + ".exe"
        );

        // Create a memory stream for the unmanaged resource data.
        // You can use any stream; for example, you might read the
        // unmanaged resource data from a binary file. It is not
        // necessary to put any data into the stream right now.
        MemoryStream ms = new MemoryStream(1024);

        // Define a public manifest resource with the name
        // "MyBinaryData, and associate it with the memory stream.
        modBuilder.DefineManifestResource(
            "MyBinaryData",
            ms,
            ResourceAttributes.Public
        );

        // Create a type with a public static Main method that will
        // be the entry point for the emitted assembly.
        //
        // The purpose of the Main method in this example is to read
        // the manifest resource and display it, byte by byte.
        //
        TypeBuilder tb = modBuilder.DefineType("Example");
        MethodBuilder main = tb.DefineMethod("Main",
            MethodAttributes.Public | MethodAttributes.Static
        );

        // The Main method uses the Assembly type and the Stream
        // type.
        Type asm = typeof(Assembly);
        Type str = typeof(Stream);

        // Get MethodInfo objects for the methods called by
        // Main.
        MethodInfo getEx = asm.GetMethod("GetExecutingAssembly");
        // Use the overload of GetManifestResourceStream that
        // takes one argument, a string.
        MethodInfo getMRS = asm.GetMethod(
            "GetManifestResourceStream",
            new Type[] {typeof(string)}
        );
        MethodInfo rByte = str.GetMethod("ReadByte");
        // Use the overload of WriteLine that writes an Int32.
        MethodInfo write = typeof(Console).GetMethod(
            "WriteLine",
            new Type[] {typeof(int)}
        );

        ILGenerator ilg = main.GetILGenerator();

        // Main uses two local variables: the instance of the
        // stream returned by GetManifestResourceStream, and
        // the value returned by ReadByte. The load and store
        // instructions refer to these locals by position
        // (0 and 1).
        LocalBuilder s = ilg.DeclareLocal(str);
        LocalBuilder b = ilg.DeclareLocal(typeof(int));

        // Call the static Assembly.GetExecutingAssembly() method,
        // which leaves the assembly instance on the stack. Push the
        // string name of the resource on the stack, and call the
        // GetManifestResourceStream(string) method of the assembly
        // instance.
        ilg.EmitCall(OpCodes.Call, getEx, null);
        ilg.Emit(OpCodes.Ldstr, "MyBinaryData");
        ilg.EmitCall(OpCodes.Callvirt, getMRS, null);

        // Store the Stream instance.
        ilg.Emit(OpCodes.Stloc_0);

        // Create a label, and associate it with this point
        // in the emitted code.
        Label loop = ilg.DefineLabel();
        ilg.MarkLabel(loop);

        // Load the Stream instance onto the stack, and call
        // its ReadByte method. The return value is on the
        // stack now; store it in location 1 (variable b).
        ilg.Emit(OpCodes.Ldloc_0);
        ilg.EmitCall(OpCodes.Callvirt, rByte, null);
        ilg.Emit(OpCodes.Stloc_1);

        // Load the value on the stack again, and call the
        // WriteLine method to print it.
        ilg.Emit(OpCodes.Ldloc_1);
        ilg.EmitCall(OpCodes.Call, write, null);

        // Load the value one more time; load -1 (minus one)
        // and compare the two values. If return value from
        // ReadByte was not -1, branch to the label 'loop'.
        ilg.Emit(OpCodes.Ldloc_1);
        ilg.Emit(OpCodes.Ldc_I4_M1);
        ilg.Emit(OpCodes.Ceq);
        ilg.Emit(OpCodes.Brfalse_S, loop);

        // When all the bytes in the stream have been read,
        // return. This is the end of Main.
        ilg.Emit(OpCodes.Ret);

        // Create the type "Example" in the dynamic assembly.
        tb.CreateType();

        // Because the manifest resource was added as an open
        // stream, the data can be written at any time, right up
        // until the assembly is saved. In this case, the data
        // consists of five bytes.
        ms.Write(new byte[] { 105, 36, 74, 97, 109 }, 0, 5);
        ms.SetLength(5);

        // Set the Main method as the entry point for the
        // assembly, and save the assembly. The manifest resource
        // is read from the memory stream, and appended to the
        // end of the assembly. You can open the assembly with
        // Ildasm and view the resource header for "MyBinaryData".
        asmBuilder.SetEntryPoint(main);
    asmBuilder.Save(asmName.Name + ".exe");

        Console.WriteLine("Now run EmittedManifestResourceAssembly.exe");
    }
}

/* This code example doesn't produce any output. The assembly it
   emits, EmittedManifestResourceAssembly.exe, produces the following
   output:

105
36
74
97
109
-1

 */
Imports System.Reflection
Imports System.Reflection.Emit
Imports System.IO

Public Class Example
    
    Public Shared Sub Main() 

        ' Define a dynamic assembly with one module. The module
        ' name and the assembly name are the same.
        Dim asmName As New AssemblyName("EmittedManifestResourceAssembly")
        Dim asmBuilder As AssemblyBuilder = _
            AppDomain.CurrentDomain.DefineDynamicAssembly( _
                asmName, _
                AssemblyBuilderAccess.RunAndSave _
            )
        Dim modBuilder As ModuleBuilder = _
            asmBuilder.DefineDynamicModule( _
                asmName.Name, _
                asmName.Name + ".exe" _
            )
        
        ' Create a memory stream for the unmanaged resource data.
        ' You can use any stream; for example, you might read the
        ' unmanaged resource data from a binary file. It is not
        ' necessary to put any data into the stream right now.
        Dim ms As New MemoryStream(1024)
        
        ' Define a public manifest resource with the name 
        ' "MyBinaryData, and associate it with the memory stream.
        modBuilder.DefineManifestResource( _
            "MyBinaryData", _
            ms, _
            ResourceAttributes.Public _
        )
        
        ' Create a type with a public static Main method that will
        ' be the entry point for the emitted assembly. 
        '
        ' The purpose of the Main method in this example is to read 
        ' the manifest resource and display it, byte by byte.
        '
        Dim tb As TypeBuilder = modBuilder.DefineType("Example")
        Dim main As MethodBuilder = tb.DefineMethod( _
            "Main", _
            MethodAttributes.Public Or MethodAttributes.Static _
        )
        
        ' The Main method uses the Assembly type and the Stream
        ' type. 
        Dim asm As Type = GetType([Assembly])
        Dim str As Type = GetType(Stream)
        
        ' Get MethodInfo objects for the methods called by 
        ' Main.
        Dim getEx As MethodInfo = asm.GetMethod("GetExecutingAssembly")
        ' Use the overload of GetManifestResourceStream that 
        ' takes one argument, a string.
        Dim getMRS As MethodInfo = asm.GetMethod( _
            "GetManifestResourceStream", _
            New Type() {GetType(String)} _
        )
        Dim rByte As MethodInfo = str.GetMethod("ReadByte")
        ' Use the overload of WriteLine that writes an Int32.
        Dim write As MethodInfo = GetType(Console).GetMethod( _
            "WriteLine", _
            New Type() {GetType(Integer)} _
        )
        
        Dim ilg As ILGenerator = main.GetILGenerator()
        
        ' Main uses two local variables: the instance of the
        ' stream returned by GetManifestResourceStream, and 
        ' the value returned by ReadByte. The load and store 
        ' instructions refer to these locals by position  
        ' (0 and 1).
        Dim s As LocalBuilder = ilg.DeclareLocal(str)
        Dim b As LocalBuilder = ilg.DeclareLocal(GetType(Integer))
        
        ' Call the static Assembly.GetExecutingAssembly() method,
        ' which leaves the assembly instance on the stack. Push the
        ' string name of the resource on the stack, and call the
        ' GetManifestResourceStream(string) method of the assembly
        ' instance.
        ilg.EmitCall(OpCodes.Call, getEx, Nothing)
        ilg.Emit(OpCodes.Ldstr, "MyBinaryData")
        ilg.EmitCall(OpCodes.Callvirt, getMRS, Nothing)
        
        ' Store the Stream instance.
        ilg.Emit(OpCodes.Stloc_0)
        
        ' Create a label, and associate it with this point
        ' in the emitted code.
        Dim theLoop As Label = ilg.DefineLabel()
        ilg.MarkLabel(theLoop)
        
        ' Load the Stream instance onto the stack, and call
        ' its ReadByte method. The return value is on the
        ' stack now; store it in location 1 (variable b).
        ilg.Emit(OpCodes.Ldloc_0)
        ilg.EmitCall(OpCodes.Callvirt, rByte, Nothing)
        ilg.Emit(OpCodes.Stloc_1)
        
        ' Load the value on the stack again, and call the
        ' WriteLine method to print it.
        ilg.Emit(OpCodes.Ldloc_1)
        ilg.EmitCall(OpCodes.Call, write, Nothing)
        
        ' Load the value one more time; load -1 (minus one)  
        ' and compare the two values. If return value from
        ' ReadByte was not -1, branch to the label 'loop'.
        ilg.Emit(OpCodes.Ldloc_1)
        ilg.Emit(OpCodes.Ldc_I4_M1)
        ilg.Emit(OpCodes.Ceq)
        ilg.Emit(OpCodes.Brfalse_S, theLoop)
        
        ' When all the bytes in the stream have been read,
        ' return. This is the end of Main.
        ilg.Emit(OpCodes.Ret)
        
        ' Create the type "Example" in the dynamic assembly.
        tb.CreateType()
        
        ' Because the manifest resource was added as an open
        ' stream, the data can be written at any time, right up
        ' until the assembly is saved. In this case, the data
        ' consists of five bytes.
        ms.Write(New Byte() {105, 36, 74, 97, 109}, 0, 5)
        ms.SetLength(5)
        
        ' Set the Main method as the entry point for the 
        ' assembly, and save the assembly. The manifest resource
        ' is read from the memory stream, and appended to the
        ' end of the assembly. You can open the assembly with
        ' Ildasm and view the resource header for "MyBinaryData".
        asmBuilder.SetEntryPoint(main)
        asmBuilder.Save(asmName.Name + ".exe")
        
        Console.WriteLine("Now run EmittedManifestResourceAssembly.exe")
    
    End Sub 
End Class 

' This code example doesn't produce any output. The assembly it
' emits, EmittedManifestResourceAssembly.exe, produces the following
' output:
'
'105
'36
'74
'97
'109
'-1
'

備註

在元件指令清單中記錄的資源可以是受控資源或指令清單資源 BLOB,而且每個資源都可以透過連結或內嵌來包含在元件中。 動態元件支援這四種案例。

此外,可以使用 方法或 ModuleBuilder.DefineUnmanagedResource 方法,將單一 Win32 資源附加至元件AssemblyBuilder.DefineUnmanagedResource。 此資源不會出現在元件指令清單中。

適用於

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