CodeDOMUtility.cs source code in C# .NET

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/ Dotnetfx_Vista_SP2 / Dotnetfx_Vista_SP2 / 8.0.50727.4016 / DEVDIV / depot / DevDiv / releases / whidbey / NetFxQFE / ndp / fx / src / xsp / System / Web / Compilation / CodeDOMUtility.cs / 1 / CodeDOMUtility.cs

                            //------------------------------------------------------------------------------ 
// 
//     Copyright (c) Microsoft Corporation.  All rights reserved.
// 
//----------------------------------------------------------------------------- 

namespace System.Web.Compilation { 
 
using System.Text;
using System.Runtime.Serialization.Formatters; 
using System.ComponentModel;
using System.ComponentModel.Design.Serialization;
using System;
using System.Collections; 
using System.Reflection;
using System.IO; 
using System.Globalization; 
using System.Web.Util;
using System.Web.UI; 
using System.Web.Configuration;
using System.Diagnostics;
using Debug = System.Diagnostics.Debug;
using System.CodeDom; 
using System.CodeDom.Compiler;
using Util = System.Web.UI.Util; 
 
internal static class CodeDomUtility {
 
    internal static BooleanSwitch WebFormsCompilation = new BooleanSwitch("WebFormsCompilation", "Outputs information about the WebForms compilation of ASPX templates");

    internal /*public*/ static CodeExpression GenerateExpressionForValue(PropertyInfo propertyInfo, object value, Type valueType) {
#if DEBUG 
        if (WebFormsCompilation.Enabled) {
            Debug.WriteLine("GenerateExpressionForValue() {"); 
            Debug.Indent(); 
        }
#endif // DEBUG 
        CodeExpression rightExpr = null;

        if (valueType == null) {
            throw new ArgumentNullException("valueType"); 
        }
 
        PropertyDescriptor pd = null; 
        if (propertyInfo != null) {
            pd = TypeDescriptor.GetProperties(propertyInfo.ReflectedType)[propertyInfo.Name]; 
        }

        if (valueType == typeof(string) && value is string) {
            if (WebFormsCompilation.Enabled) Debug.WriteLine("simple string"); 
            rightExpr = new CodePrimitiveExpression((string)value);
        } 
        else if (valueType.IsPrimitive) { 
            if (WebFormsCompilation.Enabled) Debug.WriteLine("primitive");
            rightExpr = new CodePrimitiveExpression(value); 
        }
        else if (propertyInfo == null && valueType == typeof(object) &&
            (value == null || value.GetType().IsPrimitive)) {
 
            // If the type is object, and the value is a primitive, simply use a
            // CodePrimitiveExpression instead of trying to use a TypeConverter (VSWhidbey 518773) 
            if (WebFormsCompilation.Enabled) Debug.WriteLine("primitive to object"); 
            rightExpr = new CodePrimitiveExpression(value);
        } 
        else if (valueType.IsArray) {
            if (WebFormsCompilation.Enabled) Debug.WriteLine("array");
            Array array = (Array)value;
            CodeArrayCreateExpression exp = new CodeArrayCreateExpression(); 
            exp.CreateType = new CodeTypeReference(valueType.GetElementType());
            if (array != null) { 
                foreach (object o in array) { 
                    exp.Initializers.Add(GenerateExpressionForValue(null, o, valueType.GetElementType()));
                } 
            }
            rightExpr = exp;
        }
        else if (valueType == typeof(Type)) { 
            rightExpr = new CodeTypeOfExpression((Type) value);
        } 
        else { 
            if (WebFormsCompilation.Enabled) Debug.WriteLine("other");
            TypeConverter converter = null; 
            if (pd != null) {
                converter = pd.Converter;
            }
            else { 
                converter = TypeDescriptor.GetConverter(valueType);
            } 
 
            bool added = false;
 
            if (converter != null) {
                InstanceDescriptor desc = null;

                if (converter.CanConvertTo(typeof(InstanceDescriptor))) { 
                    desc = (InstanceDescriptor)converter.ConvertTo(value, typeof(InstanceDescriptor));
                } 
                if (desc != null) { 
                    if (WebFormsCompilation.Enabled) Debug.WriteLine("has converter with instance descriptor");
 
                    // static field ref...
                    //
                    if (desc.MemberInfo is FieldInfo) {
                        if (WebFormsCompilation.Enabled) Debug.WriteLine("persistinfo is a field ref"); 
                        CodeFieldReferenceExpression fieldRef = new CodeFieldReferenceExpression(new CodeTypeReferenceExpression(desc.MemberInfo.DeclaringType.FullName), desc.MemberInfo.Name);
                        rightExpr = fieldRef; 
                        added = true; 
                    }
                    // static property ref 
                    else if (desc.MemberInfo is PropertyInfo) {
                        if (WebFormsCompilation.Enabled) Debug.WriteLine("persistinfo is a property ref");
                        CodePropertyReferenceExpression propRef = new CodePropertyReferenceExpression(new CodeTypeReferenceExpression(desc.MemberInfo.DeclaringType.FullName), desc.MemberInfo.Name);
                        rightExpr = propRef; 
                        added = true;
                    } 
 
                    // static method invoke
                    // 
                    else {
                        object[] args = new object[desc.Arguments.Count];
                        desc.Arguments.CopyTo(args, 0);
                        CodeExpression[] expressions = new CodeExpression[args.Length]; 

                        if (desc.MemberInfo is MethodInfo) { 
                            MethodInfo mi = (MethodInfo)desc.MemberInfo; 
                            ParameterInfo[] parameters = mi.GetParameters();
 
                            for(int i = 0; i < args.Length; i++) {
                                expressions[i] = GenerateExpressionForValue(null, args[i], parameters[i].ParameterType);
                            }
 
                            if (WebFormsCompilation.Enabled) Debug.WriteLine("persistinfo is a method invoke");
                            CodeMethodInvokeExpression methCall = new CodeMethodInvokeExpression(new CodeTypeReferenceExpression(desc.MemberInfo.DeclaringType.FullName), desc.MemberInfo.Name); 
                            foreach (CodeExpression e in expressions) { 
                                methCall.Parameters.Add(e);
                            } 
                            rightExpr = new CodeCastExpression(valueType, methCall);
                            added = true;
                        }
                        else if (desc.MemberInfo is ConstructorInfo) { 
                            ConstructorInfo ci = (ConstructorInfo)desc.MemberInfo;
                            ParameterInfo[] parameters = ci.GetParameters(); 
 
                            for(int i = 0; i < args.Length; i++) {
                                expressions[i] = GenerateExpressionForValue(null, args[i], parameters[i].ParameterType); 
                            }

                            if (WebFormsCompilation.Enabled) Debug.WriteLine("persistinfo is a constructor call");
                            CodeObjectCreateExpression objectCreate = new CodeObjectCreateExpression(desc.MemberInfo.DeclaringType.FullName); 
                            foreach (CodeExpression e in expressions) {
                                objectCreate.Parameters.Add(e); 
                            } 
                            rightExpr = objectCreate;
                            added = true; 
                        }
                    }
                }
            } 

            if (!added) { 
#if DEBUG 
                if (WebFormsCompilation.Enabled) {
                    Debug.WriteLine("unabled to determine type, attempting Parse"); 
                    Debug.Indent();
                    Debug.WriteLine("value.GetType  == " + value.GetType().FullName);
                    Debug.WriteLine("value.ToString == " + value.ToString());
                    Debug.WriteLine("valueType      == " + valueType.FullName); 
                    if (propertyInfo != null) {
                        Debug.WriteLine("propertyInfo   == " + propertyInfo.ReflectedType.FullName + "." + propertyInfo.Name + " : " + propertyInfo.PropertyType.FullName); 
                    } 
                    else {
                        Debug.WriteLine("propertyInfo   == (null)"); 
                    }

                    Debug.Unindent();
                } 
#endif // DEBUG
 
 
                // Not a known type: try calling Parse
 
                // If possible, pass it an InvariantCulture (ASURT 79412)
                if (valueType.GetMethod("Parse", new Type[] {typeof(string), typeof(CultureInfo)}) != null) {
                    CodeMethodInvokeExpression methCall = new CodeMethodInvokeExpression(new CodeTypeReferenceExpression(valueType.FullName), "Parse");
 
                    // Convert the object to a string.
                    // If we have a type converter, use it to convert to a string in a culture 
                    // invariant way (ASURT 87094) 
                    string s;
                    if (converter != null) { 
                        s = converter.ConvertToInvariantString(value);
                    }
                    else {
                        s = value.ToString(); 
                    }
 
                    methCall.Parameters.Add(new CodePrimitiveExpression(s)); 
                    methCall.Parameters.Add(new CodePropertyReferenceExpression(new CodeTypeReferenceExpression(typeof(CultureInfo)), "InvariantCulture"));
                    rightExpr = methCall; 

                }
                else if (valueType.GetMethod("Parse", new Type[] {typeof(string)}) != null) {
                    // Otherwise, settle for passing just the string 
                    CodeMethodInvokeExpression methCall = new CodeMethodInvokeExpression(new CodeTypeReferenceExpression(valueType.FullName), "Parse");
                    methCall.Parameters.Add(new CodePrimitiveExpression(value.ToString())); 
                    rightExpr = methCall; 

                } 
                else {
                    throw new HttpException(SR.GetString(SR.CantGenPropertySet, propertyInfo.Name, valueType.FullName));
                }
            } 
        }
 
#if DEBUG 
        if (WebFormsCompilation.Enabled) {
            Debug.Unindent(); 
            Debug.WriteLine("}");
        }
#endif // DEBUG
        return rightExpr; 
    }
 
    // Adds a property assignment statement to "statements". This takes into account 
    // checking for nulls when the destination property type is a value type. This can
    // also generate expressions that use IAttributeAccessor when desinationType is null. 
    internal static void CreatePropertySetStatements(CodeStatementCollection methodStatements, CodeStatementCollection statements,
        CodeExpression target, string targetPropertyName, Type destinationType,
        CodeExpression value,
        CodeLinePragma linePragma) { 
        // Generates:
        // If destination is property: 
        //     If destination type is string: 
        //         {{target}}.{{targetPropertyName}} = System.Convert.ToString( {{value}} );
        //     Else If destination type is reference type: 
        //         {{target}}.{{targetPropertyName}} = ( {{destinationType}} ) {{value}};
        //     Else destination type is value type:
        //         {{target}}.{{targetPropertyName}} = ( {{destinationType}} ) ({value});
        // Else use SetAttribute (expandos): 
        //     ((IAttributeAccessor) {{target}} ).SetAttribute( {{targetPropertyName}} , System.Convert.ToString( {{value}} ));
 
        bool useSetAttribute = false; 
        // This signifies it's using SetAttribute
        if (destinationType == null) { 
            useSetAttribute = true;
        }

        if (useSetAttribute) { 
            // ((IAttributeAccessor) {{target}} ).SetAttribute( {{targetPropertyName}} , System.Convert.ToString( {{value}} ));
            CodeMethodInvokeExpression methodInvoke = new CodeMethodInvokeExpression(); 
            CodeExpressionStatement setAttributeCall = new CodeExpressionStatement(methodInvoke); 
            setAttributeCall.LinePragma = linePragma;
 
            methodInvoke.Method.TargetObject = new CodeCastExpression(typeof(IAttributeAccessor), target);
            methodInvoke.Method.MethodName = "SetAttribute";
            methodInvoke.Parameters.Add(new CodePrimitiveExpression(targetPropertyName));
 
            methodInvoke.Parameters.Add(GenerateConvertToString(value));
 
            statements.Add(setAttributeCall); 
        }
        else { 
            // Use the property setter. Must take into account that null cannot be
            // cast to a value type, so we have to explicitly check for that in
            // the code we generate.
 
            if (destinationType.IsValueType) {
                //         {{target}}.{{targetPropertyName}} = ( {{destinationType}} ) ({value}); 
                CodeAssignStatement assignStmt = new CodeAssignStatement( 
                        BuildPropertyReferenceExpression(target, targetPropertyName),
                        new CodeCastExpression(destinationType, value)); 
                assignStmt.LinePragma = linePragma;
                statements.Add(assignStmt);
            }
            else { 
                CodeExpression rightSide;
 
                if (destinationType == typeof(string)) { 
                    // {{target}}.{{targetPropertyName}} = System.Convert.ToString( {{value}} );
                    rightSide = GenerateConvertToString(value); 
                }
                else {
                    // {{target}}.{{targetPropertyName}} = ( {{destinationType}} ) {{value}};
                    rightSide = new CodeCastExpression(destinationType, value); 
                }
 
                CodeAssignStatement assignStmt = new CodeAssignStatement( 
                    BuildPropertyReferenceExpression(target, targetPropertyName),
                    rightSide); 
                assignStmt.LinePragma = linePragma;
                statements.Add(assignStmt);
            }
        } 
    }
 
    // Generate a call to System.Convert.ToString(value, CultureInfo.CurrentCulture) 
    internal static CodeExpression GenerateConvertToString(CodeExpression value) {
 
        CodeMethodInvokeExpression invokeExpr = new CodeMethodInvokeExpression();
        invokeExpr.Method.TargetObject = new CodeTypeReferenceExpression(typeof(System.Convert));
        invokeExpr.Method.MethodName = "ToString";
        invokeExpr.Parameters.Add(value); 
        invokeExpr.Parameters.Add(new CodePropertyReferenceExpression(
            new CodeTypeReferenceExpression(typeof(CultureInfo)), "CurrentCulture")); 
 
        return invokeExpr;
    } 

    // Prepend a string TO the CompilerOptions string
    internal static void PrependCompilerOption(
        CompilerParameters compilParams, string compilerOptions) { 

        if (compilParams.CompilerOptions == null) 
            compilParams.CompilerOptions = compilerOptions; 
        else
            compilParams.CompilerOptions = compilerOptions + " " + compilParams.CompilerOptions; 
    }

    // Append a string to the CompilerOptions string
    internal static void AppendCompilerOption( 
        CompilerParameters compilParams, string compilerOptions) {
 
        if (compilParams.CompilerOptions == null) 
            compilParams.CompilerOptions = compilerOptions;
        else 
            compilParams.CompilerOptions = compilParams.CompilerOptions + " " + compilerOptions;
    }

    internal static CodeExpression BuildPropertyReferenceExpression( 
        CodeExpression objRefExpr, string propName) {
 
        // The name may contain several '.' separated properties, so we 
        // need to make sure we build the CodeDom accordingly (ASURT 91875, VSWhidbey 313018)
        string[] parts = propName.Split('.'); 
        CodeExpression ret = objRefExpr;
        foreach (string part in parts)
            ret = new CodePropertyReferenceExpression(ret, part);
 
        return ret;
    } 
 
    internal static CodeCastExpression BuildJSharpCastExpression(Type castType, CodeExpression expression) {
 
        // VJ# does not support automatic boxing of value types, so passing a simple type, say a bool, into a method
        // expecting an object will give a compiler error.  We are working around this issue by adding special code for
        // VJ# that will cast the expression for boxing.  When the VJ# team adds implicit boxing of value types, we
        // should remove this code.  VSWhidbey 269028 
        CodeCastExpression castedExpression = new CodeCastExpression(castType, expression);
        castedExpression.UserData.Add("CastIsBoxing", true); 
        return castedExpression; 
    }
} 
}


// File provided for Reference Use Only by Microsoft Corporation (c) 2007.
//------------------------------------------------------------------------------ 
// 
//     Copyright (c) Microsoft Corporation.  All rights reserved.
// 
//----------------------------------------------------------------------------- 

namespace System.Web.Compilation { 
 
using System.Text;
using System.Runtime.Serialization.Formatters; 
using System.ComponentModel;
using System.ComponentModel.Design.Serialization;
using System;
using System.Collections; 
using System.Reflection;
using System.IO; 
using System.Globalization; 
using System.Web.Util;
using System.Web.UI; 
using System.Web.Configuration;
using System.Diagnostics;
using Debug = System.Diagnostics.Debug;
using System.CodeDom; 
using System.CodeDom.Compiler;
using Util = System.Web.UI.Util; 
 
internal static class CodeDomUtility {
 
    internal static BooleanSwitch WebFormsCompilation = new BooleanSwitch("WebFormsCompilation", "Outputs information about the WebForms compilation of ASPX templates");

    internal /*public*/ static CodeExpression GenerateExpressionForValue(PropertyInfo propertyInfo, object value, Type valueType) {
#if DEBUG 
        if (WebFormsCompilation.Enabled) {
            Debug.WriteLine("GenerateExpressionForValue() {"); 
            Debug.Indent(); 
        }
#endif // DEBUG 
        CodeExpression rightExpr = null;

        if (valueType == null) {
            throw new ArgumentNullException("valueType"); 
        }
 
        PropertyDescriptor pd = null; 
        if (propertyInfo != null) {
            pd = TypeDescriptor.GetProperties(propertyInfo.ReflectedType)[propertyInfo.Name]; 
        }

        if (valueType == typeof(string) && value is string) {
            if (WebFormsCompilation.Enabled) Debug.WriteLine("simple string"); 
            rightExpr = new CodePrimitiveExpression((string)value);
        } 
        else if (valueType.IsPrimitive) { 
            if (WebFormsCompilation.Enabled) Debug.WriteLine("primitive");
            rightExpr = new CodePrimitiveExpression(value); 
        }
        else if (propertyInfo == null && valueType == typeof(object) &&
            (value == null || value.GetType().IsPrimitive)) {
 
            // If the type is object, and the value is a primitive, simply use a
            // CodePrimitiveExpression instead of trying to use a TypeConverter (VSWhidbey 518773) 
            if (WebFormsCompilation.Enabled) Debug.WriteLine("primitive to object"); 
            rightExpr = new CodePrimitiveExpression(value);
        } 
        else if (valueType.IsArray) {
            if (WebFormsCompilation.Enabled) Debug.WriteLine("array");
            Array array = (Array)value;
            CodeArrayCreateExpression exp = new CodeArrayCreateExpression(); 
            exp.CreateType = new CodeTypeReference(valueType.GetElementType());
            if (array != null) { 
                foreach (object o in array) { 
                    exp.Initializers.Add(GenerateExpressionForValue(null, o, valueType.GetElementType()));
                } 
            }
            rightExpr = exp;
        }
        else if (valueType == typeof(Type)) { 
            rightExpr = new CodeTypeOfExpression((Type) value);
        } 
        else { 
            if (WebFormsCompilation.Enabled) Debug.WriteLine("other");
            TypeConverter converter = null; 
            if (pd != null) {
                converter = pd.Converter;
            }
            else { 
                converter = TypeDescriptor.GetConverter(valueType);
            } 
 
            bool added = false;
 
            if (converter != null) {
                InstanceDescriptor desc = null;

                if (converter.CanConvertTo(typeof(InstanceDescriptor))) { 
                    desc = (InstanceDescriptor)converter.ConvertTo(value, typeof(InstanceDescriptor));
                } 
                if (desc != null) { 
                    if (WebFormsCompilation.Enabled) Debug.WriteLine("has converter with instance descriptor");
 
                    // static field ref...
                    //
                    if (desc.MemberInfo is FieldInfo) {
                        if (WebFormsCompilation.Enabled) Debug.WriteLine("persistinfo is a field ref"); 
                        CodeFieldReferenceExpression fieldRef = new CodeFieldReferenceExpression(new CodeTypeReferenceExpression(desc.MemberInfo.DeclaringType.FullName), desc.MemberInfo.Name);
                        rightExpr = fieldRef; 
                        added = true; 
                    }
                    // static property ref 
                    else if (desc.MemberInfo is PropertyInfo) {
                        if (WebFormsCompilation.Enabled) Debug.WriteLine("persistinfo is a property ref");
                        CodePropertyReferenceExpression propRef = new CodePropertyReferenceExpression(new CodeTypeReferenceExpression(desc.MemberInfo.DeclaringType.FullName), desc.MemberInfo.Name);
                        rightExpr = propRef; 
                        added = true;
                    } 
 
                    // static method invoke
                    // 
                    else {
                        object[] args = new object[desc.Arguments.Count];
                        desc.Arguments.CopyTo(args, 0);
                        CodeExpression[] expressions = new CodeExpression[args.Length]; 

                        if (desc.MemberInfo is MethodInfo) { 
                            MethodInfo mi = (MethodInfo)desc.MemberInfo; 
                            ParameterInfo[] parameters = mi.GetParameters();
 
                            for(int i = 0; i < args.Length; i++) {
                                expressions[i] = GenerateExpressionForValue(null, args[i], parameters[i].ParameterType);
                            }
 
                            if (WebFormsCompilation.Enabled) Debug.WriteLine("persistinfo is a method invoke");
                            CodeMethodInvokeExpression methCall = new CodeMethodInvokeExpression(new CodeTypeReferenceExpression(desc.MemberInfo.DeclaringType.FullName), desc.MemberInfo.Name); 
                            foreach (CodeExpression e in expressions) { 
                                methCall.Parameters.Add(e);
                            } 
                            rightExpr = new CodeCastExpression(valueType, methCall);
                            added = true;
                        }
                        else if (desc.MemberInfo is ConstructorInfo) { 
                            ConstructorInfo ci = (ConstructorInfo)desc.MemberInfo;
                            ParameterInfo[] parameters = ci.GetParameters(); 
 
                            for(int i = 0; i < args.Length; i++) {
                                expressions[i] = GenerateExpressionForValue(null, args[i], parameters[i].ParameterType); 
                            }

                            if (WebFormsCompilation.Enabled) Debug.WriteLine("persistinfo is a constructor call");
                            CodeObjectCreateExpression objectCreate = new CodeObjectCreateExpression(desc.MemberInfo.DeclaringType.FullName); 
                            foreach (CodeExpression e in expressions) {
                                objectCreate.Parameters.Add(e); 
                            } 
                            rightExpr = objectCreate;
                            added = true; 
                        }
                    }
                }
            } 

            if (!added) { 
#if DEBUG 
                if (WebFormsCompilation.Enabled) {
                    Debug.WriteLine("unabled to determine type, attempting Parse"); 
                    Debug.Indent();
                    Debug.WriteLine("value.GetType  == " + value.GetType().FullName);
                    Debug.WriteLine("value.ToString == " + value.ToString());
                    Debug.WriteLine("valueType      == " + valueType.FullName); 
                    if (propertyInfo != null) {
                        Debug.WriteLine("propertyInfo   == " + propertyInfo.ReflectedType.FullName + "." + propertyInfo.Name + " : " + propertyInfo.PropertyType.FullName); 
                    } 
                    else {
                        Debug.WriteLine("propertyInfo   == (null)"); 
                    }

                    Debug.Unindent();
                } 
#endif // DEBUG
 
 
                // Not a known type: try calling Parse
 
                // If possible, pass it an InvariantCulture (ASURT 79412)
                if (valueType.GetMethod("Parse", new Type[] {typeof(string), typeof(CultureInfo)}) != null) {
                    CodeMethodInvokeExpression methCall = new CodeMethodInvokeExpression(new CodeTypeReferenceExpression(valueType.FullName), "Parse");
 
                    // Convert the object to a string.
                    // If we have a type converter, use it to convert to a string in a culture 
                    // invariant way (ASURT 87094) 
                    string s;
                    if (converter != null) { 
                        s = converter.ConvertToInvariantString(value);
                    }
                    else {
                        s = value.ToString(); 
                    }
 
                    methCall.Parameters.Add(new CodePrimitiveExpression(s)); 
                    methCall.Parameters.Add(new CodePropertyReferenceExpression(new CodeTypeReferenceExpression(typeof(CultureInfo)), "InvariantCulture"));
                    rightExpr = methCall; 

                }
                else if (valueType.GetMethod("Parse", new Type[] {typeof(string)}) != null) {
                    // Otherwise, settle for passing just the string 
                    CodeMethodInvokeExpression methCall = new CodeMethodInvokeExpression(new CodeTypeReferenceExpression(valueType.FullName), "Parse");
                    methCall.Parameters.Add(new CodePrimitiveExpression(value.ToString())); 
                    rightExpr = methCall; 

                } 
                else {
                    throw new HttpException(SR.GetString(SR.CantGenPropertySet, propertyInfo.Name, valueType.FullName));
                }
            } 
        }
 
#if DEBUG 
        if (WebFormsCompilation.Enabled) {
            Debug.Unindent(); 
            Debug.WriteLine("}");
        }
#endif // DEBUG
        return rightExpr; 
    }
 
    // Adds a property assignment statement to "statements". This takes into account 
    // checking for nulls when the destination property type is a value type. This can
    // also generate expressions that use IAttributeAccessor when desinationType is null. 
    internal static void CreatePropertySetStatements(CodeStatementCollection methodStatements, CodeStatementCollection statements,
        CodeExpression target, string targetPropertyName, Type destinationType,
        CodeExpression value,
        CodeLinePragma linePragma) { 
        // Generates:
        // If destination is property: 
        //     If destination type is string: 
        //         {{target}}.{{targetPropertyName}} = System.Convert.ToString( {{value}} );
        //     Else If destination type is reference type: 
        //         {{target}}.{{targetPropertyName}} = ( {{destinationType}} ) {{value}};
        //     Else destination type is value type:
        //         {{target}}.{{targetPropertyName}} = ( {{destinationType}} ) ({value});
        // Else use SetAttribute (expandos): 
        //     ((IAttributeAccessor) {{target}} ).SetAttribute( {{targetPropertyName}} , System.Convert.ToString( {{value}} ));
 
        bool useSetAttribute = false; 
        // This signifies it's using SetAttribute
        if (destinationType == null) { 
            useSetAttribute = true;
        }

        if (useSetAttribute) { 
            // ((IAttributeAccessor) {{target}} ).SetAttribute( {{targetPropertyName}} , System.Convert.ToString( {{value}} ));
            CodeMethodInvokeExpression methodInvoke = new CodeMethodInvokeExpression(); 
            CodeExpressionStatement setAttributeCall = new CodeExpressionStatement(methodInvoke); 
            setAttributeCall.LinePragma = linePragma;
 
            methodInvoke.Method.TargetObject = new CodeCastExpression(typeof(IAttributeAccessor), target);
            methodInvoke.Method.MethodName = "SetAttribute";
            methodInvoke.Parameters.Add(new CodePrimitiveExpression(targetPropertyName));
 
            methodInvoke.Parameters.Add(GenerateConvertToString(value));
 
            statements.Add(setAttributeCall); 
        }
        else { 
            // Use the property setter. Must take into account that null cannot be
            // cast to a value type, so we have to explicitly check for that in
            // the code we generate.
 
            if (destinationType.IsValueType) {
                //         {{target}}.{{targetPropertyName}} = ( {{destinationType}} ) ({value}); 
                CodeAssignStatement assignStmt = new CodeAssignStatement( 
                        BuildPropertyReferenceExpression(target, targetPropertyName),
                        new CodeCastExpression(destinationType, value)); 
                assignStmt.LinePragma = linePragma;
                statements.Add(assignStmt);
            }
            else { 
                CodeExpression rightSide;
 
                if (destinationType == typeof(string)) { 
                    // {{target}}.{{targetPropertyName}} = System.Convert.ToString( {{value}} );
                    rightSide = GenerateConvertToString(value); 
                }
                else {
                    // {{target}}.{{targetPropertyName}} = ( {{destinationType}} ) {{value}};
                    rightSide = new CodeCastExpression(destinationType, value); 
                }
 
                CodeAssignStatement assignStmt = new CodeAssignStatement( 
                    BuildPropertyReferenceExpression(target, targetPropertyName),
                    rightSide); 
                assignStmt.LinePragma = linePragma;
                statements.Add(assignStmt);
            }
        } 
    }
 
    // Generate a call to System.Convert.ToString(value, CultureInfo.CurrentCulture) 
    internal static CodeExpression GenerateConvertToString(CodeExpression value) {
 
        CodeMethodInvokeExpression invokeExpr = new CodeMethodInvokeExpression();
        invokeExpr.Method.TargetObject = new CodeTypeReferenceExpression(typeof(System.Convert));
        invokeExpr.Method.MethodName = "ToString";
        invokeExpr.Parameters.Add(value); 
        invokeExpr.Parameters.Add(new CodePropertyReferenceExpression(
            new CodeTypeReferenceExpression(typeof(CultureInfo)), "CurrentCulture")); 
 
        return invokeExpr;
    } 

    // Prepend a string TO the CompilerOptions string
    internal static void PrependCompilerOption(
        CompilerParameters compilParams, string compilerOptions) { 

        if (compilParams.CompilerOptions == null) 
            compilParams.CompilerOptions = compilerOptions; 
        else
            compilParams.CompilerOptions = compilerOptions + " " + compilParams.CompilerOptions; 
    }

    // Append a string to the CompilerOptions string
    internal static void AppendCompilerOption( 
        CompilerParameters compilParams, string compilerOptions) {
 
        if (compilParams.CompilerOptions == null) 
            compilParams.CompilerOptions = compilerOptions;
        else 
            compilParams.CompilerOptions = compilParams.CompilerOptions + " " + compilerOptions;
    }

    internal static CodeExpression BuildPropertyReferenceExpression( 
        CodeExpression objRefExpr, string propName) {
 
        // The name may contain several '.' separated properties, so we 
        // need to make sure we build the CodeDom accordingly (ASURT 91875, VSWhidbey 313018)
        string[] parts = propName.Split('.'); 
        CodeExpression ret = objRefExpr;
        foreach (string part in parts)
            ret = new CodePropertyReferenceExpression(ret, part);
 
        return ret;
    } 
 
    internal static CodeCastExpression BuildJSharpCastExpression(Type castType, CodeExpression expression) {
 
        // VJ# does not support automatic boxing of value types, so passing a simple type, say a bool, into a method
        // expecting an object will give a compiler error.  We are working around this issue by adding special code for
        // VJ# that will cast the expression for boxing.  When the VJ# team adds implicit boxing of value types, we
        // should remove this code.  VSWhidbey 269028 
        CodeCastExpression castedExpression = new CodeCastExpression(castType, expression);
        castedExpression.UserData.Add("CastIsBoxing", true); 
        return castedExpression; 
    }
} 
}


// File provided for Reference Use Only by Microsoft Corporation (c) 2007.
                        

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