本文章来自于msdn,对想做自动代码生成器的朋友有好处!
Code
using System;
using System.Reflection;
using System.IO;
using System.CodeDom;
using System.CodeDom.Compiler;
using Microsoft.CSharp;
namespace SampleCodeDom
{
/**//// <summary>
/// This code example creates a graph using a CodeCompileUnit and
/// generates source code for the graph using the CSharpCodeProvider.
/// </summary>
class Sample
{
/**//// <summary>
/// Define the compile unit to use for code generation.
/// </summary>
CodeCompileUnit targetUnit;
/**//// <summary>
/// The only class in the compile unit. This class contains 2 fields,
/// 3 properties, a constructor, an entry point, and 1 simple method.
/// </summary>
CodeTypeDeclaration targetClass;
/**//// <summary>
/// The name of the file to contain the source code.
/// </summary>
private const string outputFileName = "SampleCode.cs";
/**//// <summary>
/// Define the class.
/// </summary>
public Sample()
{
targetUnit = new CodeCompileUnit();
CodeNamespace samples = new CodeNamespace("CodeDOMSample");
samples.Imports.Add(new CodeNamespaceImport("System"));
targetClass = new CodeTypeDeclaration("CodeDOMCreatedClass");
targetClass.IsClass = true;
targetClass.TypeAttributes =
TypeAttributes.Public | TypeAttributes.Sealed;
samples.Types.Add(targetClass);
targetUnit.Namespaces.Add(samples);
}
/**//// <summary>
/// Adds two fields to the class.
/// </summary>
public void AddFields()
{
// Declare the widthValue field.
CodeMemberField widthValueField = new CodeMemberField();
widthValueField.Attributes = MemberAttributes.Private;
widthValueField.Name = "widthValue";
widthValueField.Type = new CodeTypeReference(typeof(System.Double));
widthValueField.Comments.Add(new CodeCommentStatement(
"The width of the object."));
targetClass.Members.Add(widthValueField);
// Declare the heightValue field
CodeMemberField heightValueField = new CodeMemberField();
heightValueField.Attributes = MemberAttributes.Private;
heightValueField.Name = "heightValue";
heightValueField.Type =
new CodeTypeReference(typeof(System.Double));
heightValueField.Comments.Add(new CodeCommentStatement(
"The height of the object."));
targetClass.Members.Add(heightValueField);
}
/**//// <summary>
/// Add three properties to the class.
/// </summary>
public void AddProperties()
{
// Declare the read-only Width property.
CodeMemberProperty widthProperty = new CodeMemberProperty();
widthProperty.Attributes =
MemberAttributes.Public | MemberAttributes.Final;
widthProperty.Name = "Width";
widthProperty.HasGet = true;
widthProperty.Type = new CodeTypeReference(typeof(System.Double));
widthProperty.Comments.Add(new CodeCommentStatement(
"The Width property for the object."));
widthProperty.GetStatements.Add(new CodeMethodReturnStatement(
new CodeFieldReferenceExpression(
new CodeThisReferenceExpression(), "widthValue")));
targetClass.Members.Add(widthProperty);
// Declare the read-only Height property.
CodeMemberProperty heightProperty = new CodeMemberProperty();
heightProperty.Attributes =
MemberAttributes.Public | MemberAttributes.Final;
heightProperty.Name = "Height";
heightProperty.HasGet = true;
heightProperty.Type = new CodeTypeReference(typeof(System.Double));
heightProperty.Comments.Add(new CodeCommentStatement(
"The Height property for the object."));
heightProperty.GetStatements.Add(new CodeMethodReturnStatement(
new CodeFieldReferenceExpression(
new CodeThisReferenceExpression(), "heightValue")));
targetClass.Members.Add(heightProperty);
// Declare the read only Area property.
CodeMemberProperty areaProperty = new CodeMemberProperty();
areaProperty.Attributes =
MemberAttributes.Public | MemberAttributes.Final;
areaProperty.Name = "Area";
areaProperty.HasGet = true;
areaProperty.Type = new CodeTypeReference(typeof(System.Double));
areaProperty.Comments.Add(new CodeCommentStatement(
"The Area property for the object."));
// Create an expression to calculate the area for the get accessor
// of the Area property.
CodeBinaryOperatorExpression areaExpression =
new CodeBinaryOperatorExpression(
new CodeFieldReferenceExpression(
new CodeThisReferenceExpression(), "widthValue"),
CodeBinaryOperatorType.Multiply,
new CodeFieldReferenceExpression(
new CodeThisReferenceExpression(), "heightValue"));
areaProperty.GetStatements.Add(
new CodeMethodReturnStatement(areaExpression));
targetClass.Members.Add(areaProperty);
}
/**//// <summary>
/// Adds a method to the class. This method multiplies values stored
/// in both fields.
/// </summary>
public void AddMethod()
{
// Declaring a ToString method
CodeMemberMethod toStringMethod = new CodeMemberMethod();
toStringMethod.Attributes =
MemberAttributes.Public | MemberAttributes.Override;
toStringMethod.Name = "ToString";
toStringMethod.ReturnType =
new CodeTypeReference(typeof(System.String));
CodeFieldReferenceExpression widthReference =
new CodeFieldReferenceExpression(
new CodeThisReferenceExpression(), "Width");
CodeFieldReferenceExpression heightReference =
new CodeFieldReferenceExpression(
new CodeThisReferenceExpression(), "Height");
CodeFieldReferenceExpression areaReference =
new CodeFieldReferenceExpression(
new CodeThisReferenceExpression(), "Area");
// Declaring a return statement for method ToString.
CodeMethodReturnStatement returnStatement =
new CodeMethodReturnStatement();
// This statement returns a string representation of the width,
// height, and area.
string formattedOutput = "The object:" + Environment.NewLine +
" width = {0}," + Environment.NewLine +
" height = {1}," + Environment.NewLine +
" area = {2}";
returnStatement.Expression =
new CodeMethodInvokeExpression(
new CodeTypeReferenceExpression("System.String"), "Format",
new CodePrimitiveExpression(formattedOutput),
widthReference, heightReference, areaReference);
toStringMethod.Statements.Add(returnStatement);
targetClass.Members.Add(toStringMethod);
}
/**//// <summary>
/// Add a constructor to the class.
/// </summary>
public void AddConstructor()
{
// Declare the constructor
CodeConstructor constructor = new CodeConstructor();
constructor.Attributes =
MemberAttributes.Public | MemberAttributes.Final;
// Add parameters.
constructor.Parameters.Add(new CodeParameterDeclarationExpression(
typeof(System.Double), "width"));
constructor.Parameters.Add(new CodeParameterDeclarationExpression(
typeof(System.Double), "height"));
// Add field initialization logic
CodeFieldReferenceExpression widthReference =
new CodeFieldReferenceExpression(
new CodeThisReferenceExpression(), "widthValue");
constructor.Statements.Add(new CodeAssignStatement(widthReference,
new CodeArgumentReferenceExpression("width")));
CodeFieldReferenceExpression heightReference =
new CodeFieldReferenceExpression(
new CodeThisReferenceExpression(), "heightValue");
constructor.Statements.Add(new CodeAssignStatement(heightReference,
new CodeArgumentReferenceExpression("height")));
targetClass.Members.Add(constructor);
}
/**//// <summary>
/// Add an entry point to the class.
/// </summary>
public void AddEntryPoint()
{
CodeEntryPointMethod start = new CodeEntryPointMethod();
CodeObjectCreateExpression objectCreate =
using System;
using System.Reflection;
using System.IO;
using System.CodeDom;
using System.CodeDom.Compiler;
using Microsoft.CSharp;
namespace SampleCodeDom
{
/**//// <summary>
/// This code example creates a graph using a CodeCompileUnit and
/// generates source code for the graph using the CSharpCodeProvider.
/// </summary>
class Sample
{
/**//// <summary>
/// Define the compile unit to use for code generation.
/// </summary>
CodeCompileUnit targetUnit;
/**//// <summary>
/// The only class in the compile unit. This class contains 2 fields,
/// 3 properties, a constructor, an entry point, and 1 simple method.
/// </summary>
CodeTypeDeclaration targetClass;
/**//// <summary>
/// The name of the file to contain the source code.
/// </summary>
private const string outputFileName = "SampleCode.cs";
/**//// <summary>
/// Define the class.
/// </summary>
public Sample()
{
targetUnit = new CodeCompileUnit();
CodeNamespace samples = new CodeNamespace("CodeDOMSample");
samples.Imports.Add(new CodeNamespaceImport("System"));
targetClass = new CodeTypeDeclaration("CodeDOMCreatedClass");
targetClass.IsClass = true;
targetClass.TypeAttributes =
TypeAttributes.Public | TypeAttributes.Sealed;
samples.Types.Add(targetClass);
targetUnit.Namespaces.Add(samples);
}
/**//// <summary>
/// Adds two fields to the class.
/// </summary>
public void AddFields()
{
// Declare the widthValue field.
CodeMemberField widthValueField = new CodeMemberField();
widthValueField.Attributes = MemberAttributes.Private;
widthValueField.Name = "widthValue";
widthValueField.Type = new CodeTypeReference(typeof(System.Double));
widthValueField.Comments.Add(new CodeCommentStatement(
"The width of the object."));
targetClass.Members.Add(widthValueField);
// Declare the heightValue field
CodeMemberField heightValueField = new CodeMemberField();
heightValueField.Attributes = MemberAttributes.Private;
heightValueField.Name = "heightValue";
heightValueField.Type =
new CodeTypeReference(typeof(System.Double));
heightValueField.Comments.Add(new CodeCommentStatement(
"The height of the object."));
targetClass.Members.Add(heightValueField);
}
/**//// <summary>
/// Add three properties to the class.
/// </summary>
public void AddProperties()
{
// Declare the read-only Width property.
CodeMemberProperty widthProperty = new CodeMemberProperty();
widthProperty.Attributes =
MemberAttributes.Public | MemberAttributes.Final;
widthProperty.Name = "Width";
widthProperty.HasGet = true;
widthProperty.Type = new CodeTypeReference(typeof(System.Double));
widthProperty.Comments.Add(new CodeCommentStatement(
"The Width property for the object."));
widthProperty.GetStatements.Add(new CodeMethodReturnStatement(
new CodeFieldReferenceExpression(
new CodeThisReferenceExpression(), "widthValue")));
targetClass.Members.Add(widthProperty);
// Declare the read-only Height property.
CodeMemberProperty heightProperty = new CodeMemberProperty();
heightProperty.Attributes =
MemberAttributes.Public | MemberAttributes.Final;
heightProperty.Name = "Height";
heightProperty.HasGet = true;
heightProperty.Type = new CodeTypeReference(typeof(System.Double));
heightProperty.Comments.Add(new CodeCommentStatement(
"The Height property for the object."));
heightProperty.GetStatements.Add(new CodeMethodReturnStatement(
new CodeFieldReferenceExpression(
new CodeThisReferenceExpression(), "heightValue")));
targetClass.Members.Add(heightProperty);
// Declare the read only Area property.
CodeMemberProperty areaProperty = new CodeMemberProperty();
areaProperty.Attributes =
MemberAttributes.Public | MemberAttributes.Final;
areaProperty.Name = "Area";
areaProperty.HasGet = true;
areaProperty.Type = new CodeTypeReference(typeof(System.Double));
areaProperty.Comments.Add(new CodeCommentStatement(
"The Area property for the object."));
// Create an expression to calculate the area for the get accessor
// of the Area property.
CodeBinaryOperatorExpression areaExpression =
new CodeBinaryOperatorExpression(
new CodeFieldReferenceExpression(
new CodeThisReferenceExpression(), "widthValue"),
CodeBinaryOperatorType.Multiply,
new CodeFieldReferenceExpression(
new CodeThisReferenceExpression(), "heightValue"));
areaProperty.GetStatements.Add(
new CodeMethodReturnStatement(areaExpression));
targetClass.Members.Add(areaProperty);
}
/**//// <summary>
/// Adds a method to the class. This method multiplies values stored
/// in both fields.
/// </summary>
public void AddMethod()
{
// Declaring a ToString method
CodeMemberMethod toStringMethod = new CodeMemberMethod();
toStringMethod.Attributes =
MemberAttributes.Public | MemberAttributes.Override;
toStringMethod.Name = "ToString";
toStringMethod.ReturnType =
new CodeTypeReference(typeof(System.String));
CodeFieldReferenceExpression widthReference =
new CodeFieldReferenceExpression(
new CodeThisReferenceExpression(), "Width");
CodeFieldReferenceExpression heightReference =
new CodeFieldReferenceExpression(
new CodeThisReferenceExpression(), "Height");
CodeFieldReferenceExpression areaReference =
new CodeFieldReferenceExpression(
new CodeThisReferenceExpression(), "Area");
// Declaring a return statement for method ToString.
CodeMethodReturnStatement returnStatement =
new CodeMethodReturnStatement();
// This statement returns a string representation of the width,
// height, and area.
string formattedOutput = "The object:" + Environment.NewLine +
" width = {0}," + Environment.NewLine +
" height = {1}," + Environment.NewLine +
" area = {2}";
returnStatement.Expression =
new CodeMethodInvokeExpression(
new CodeTypeReferenceExpression("System.String"), "Format",
new CodePrimitiveExpression(formattedOutput),
widthReference, heightReference, areaReference);
toStringMethod.Statements.Add(returnStatement);
targetClass.Members.Add(toStringMethod);
}
/**//// <summary>
/// Add a constructor to the class.
/// </summary>
public void AddConstructor()
{
// Declare the constructor
CodeConstructor constructor = new CodeConstructor();
constructor.Attributes =
MemberAttributes.Public | MemberAttributes.Final;
// Add parameters.
constructor.Parameters.Add(new CodeParameterDeclarationExpression(
typeof(System.Double), "width"));
constructor.Parameters.Add(new CodeParameterDeclarationExpression(
typeof(System.Double), "height"));
// Add field initialization logic
CodeFieldReferenceExpression widthReference =
new CodeFieldReferenceExpression(
new CodeThisReferenceExpression(), "widthValue");
constructor.Statements.Add(new CodeAssignStatement(widthReference,
new CodeArgumentReferenceExpression("width")));
CodeFieldReferenceExpression heightReference =
new CodeFieldReferenceExpression(
new CodeThisReferenceExpression(), "heightValue");
constructor.Statements.Add(new CodeAssignStatement(heightReference,
new CodeArgumentReferenceExpression("height")));
targetClass.Members.Add(constructor);
}
/**//// <summary>
/// Add an entry point to the class.
/// </summary>
public void AddEntryPoint()
{
CodeEntryPointMethod start = new CodeEntryPointMethod();
CodeObjectCreateExpression objectCreate =
作者: stclassykiss
- 该日志由 stclassykiss 于12年前发表在综合分类下,最后更新于 2012年09月02日.
- 转载请注明: 如何:使用 CodeDOM 创建类 | 学步园 +复制链接
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