Export (0) Print
Expand All

Reflection (C++/CLI)

Reflection allows known data types to be inspected at runtime. Reflection allows the enumeration of data types in a given assembly, and the members of a given class or value type can be discovered. This is true regardless of whether the type was known or referenced at compile time. This makes reflection a useful feature for development and code management tools.

Note that the assembly name provided is the strong name (see Strong-Named Assemblies), which includes the assembly version, culture, and signing information. Note also that the name of the namespace in which the data type is defined can be retrieved, along with the name of the base class.

The most common way to access reflection features is through the GetType method. This method is provided by System::Object, from which all garbage-collected classes derive.

Reflection on an .exe built with the Visual C++ compiler is allowed if the .exe is built with the /clr:pure or /clr:safe compiler options. See /clr (Common Language Runtime Compilation) for more information.

Topics in this section:

For more information, see System.Reflection Namespace

The GetType method returns a pointer to a Type class object, which describes the type upon when the object is based. (The Type object does not contain any instance-specific information.) One such item is the full name of the type, which can be displayed as follows:

Note that the type name includes the full scope in which the type is defined, including the namespace, and that it is displayed in .NET syntax, with a dot as the scope resolution operator.

// vcpp_reflection.cpp
// compile with: /clr
using namespace System;
int main() {
   String ^ s = "sample string";
   Console::WriteLine("full type name of '{0}' is '{1}'", s, s->GetType());
full type name of 'sample string' is 'System.String'

Value types can be used with the GetType function as well, but they must be boxed first.

// vcpp_reflection_2.cpp
// compile with: /clr
using namespace System;
int main() {
   Int32 i = 100; 
   Object ^ o = i;
   Console::WriteLine("type of i = '{0}'", o->GetType());
type of i = 'System.Int32'

As with the GetType method, the typeid (C++ Component Extensions) operator returns a pointer to a Type object, so this code indicates the type name System.Int32. Displaying type names is the most basic feature of reflection, but a potentially more useful technique is to inspect or discover the valid values for enumerated types. This can be done by using the static Enum::GetNames function, which returns an array of strings, each containing an enumeration value in text form. The following sample retrieves an array of strings that describes the value enumeration values for the Options (CLR) enum and displays them in a loop.

If a fourth option is added to the Options enumeration, this code will report the new option without recompilation, even if the enumeration is defined in a separate assembly.

// vcpp_reflection_3.cpp
// compile with: /clr
using namespace System;

enum class Options {   // not a native enum
   Option1, Option2, Option3

int main() {
   array<String^>^ names = Enum::GetNames(Options::typeid);

   Console::WriteLine("there are {0} options in enum '{1}'", 
               names->Length, Options::typeid);

   for (int i = 0 ; i < names->Length ; i++)
      Console::WriteLine("{0}: {1}", i, names[i]);

   Options o = Options::Option2;
   Console::WriteLine("value of 'o' is {0}", o);
there are 3 options in enum 'Options'
0: Option1
1: Option2
2: Option3
value of 'o' is Option2

The GetType object supports a number of members and properties that can be used to examine a type. This code retrieves and displays some of this information:

// vcpp_reflection_4.cpp
// compile with: /clr
using namespace System;
int main() {
   Console::WriteLine("type information for 'String':");
   Type ^ t = String::typeid;

   String ^ assemblyName = t->Assembly->FullName;
   Console::WriteLine("assembly name: {0}", assemblyName);

   String ^ nameSpace = t->Namespace;
   Console::WriteLine("namespace: {0}", nameSpace);

   String ^ baseType = t->BaseType->FullName;
   Console::WriteLine("base type: {0}", baseType);

   bool isArray = t->IsArray;
   Console::WriteLine("is array: {0}", isArray);

   bool isClass = t->IsClass;
   Console::WriteLine("is class: {0}", isClass);
type information for 'String':
assembly name: mscorlib, Version=1.0.5000.0, Culture=neutral, 
namespace: System
base type: System.Object
is array: False
is class: True

Reflection also allows the enumeration of types within an assembly and the members within classes. To demonstrate this feature, define a simple class:

// vcpp_reflection_5.cpp
// compile with: /clr /LD
using namespace System;
public ref class TestClass {
   int m_i;
   TestClass() {}
   void SimpleTestMember1() {}
   String ^ SimpleMember2(String ^ s) { return s; } 
   int TestMember(int i) { return i; }
   property int Member {
      int get() { return m_i; }
      void set(int i) { m_i = i; }

If the code above is compiled into a DLL called vcpp_reflection_6.dll, you can then use reflection to inspect the contents of this assembly. This involves using the static reflection API function Assembly::Load to load the assembly. This function returns the address of an Assembly object that can then be queried about the modules and types within.

Once the reflection system successfully loads the assembly, an array of Type objects is retrieved with the Assembly::GetTypes function. Each array element contains information about a different type, although in this case, only one class is defined. Using a loop, each Type in this array is queried about the type members using the Type::GetMembers function. This function returns an array of MethodInfo objects, each object containing information about the member function, data member, or property in the type.

Note that the list of methods includes the functions explicitly defined in TestClass and the functions implicitly inherited from the System::Object class. As part of being described in .NET rather than in Visual C++ syntax, properties appear as the underlying data member accessed by the get/set functions. The get/set functions appear in this list as regular methods. Reflection is supported through the common language runtime, not by the Visual C++ compiler.

Although you used this code to inspect an assembly that you defined, you can also use this code to inspect .NET assemblies. For example, if you change TestAssembly to mscorlib, then you will see a listing of every type and method defined in mscorlib.dll.

// vcpp_reflection_6.cpp
// compile with: /clr
using namespace System;
using namespace System::IO;
using namespace System::Reflection;
int main() {
   Assembly ^ a = nullptr;
   try {
      // load assembly -- do not use file extension
      // will look for .dll extension first
      // then .exe with the filename
      a = Assembly::Load("vcpp_reflection_5");
   catch (FileNotFoundException ^ e) {
      return -1;

   Console::WriteLine("assembly info:");
   array<Type^>^ typeArray = a->GetTypes();

   Console::WriteLine("type info ({0} types):", typeArray->Length);

   int totalTypes = 0;
   int totalMembers = 0;
   for (int i = 0 ; i < typeArray->Length ; i++) {
      // retrieve array of member descriptions
      array<MemberInfo^>^ member = typeArray[i]->GetMembers();

      Console::WriteLine("  members of {0} ({1} members):", 
      typeArray[i]->FullName, member->Length);
      for (int j = 0 ; j < member->Length ; j++) {
         Console::Write("       ({0})", 
         member[j]->MemberType.ToString() );
         Console::Write("{0}  ", member[j]);
   Console::WriteLine("{0} total types, {1} total members",
   totalTypes, totalMembers);

Community Additions

© 2014 Microsoft