OpenSceneGraph/examples/osgintrospection/osgintrospection.cpp

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#include <osg/ref_ptr>
#include <osgIntrospection/Reflection>
#include <osgIntrospection/Type>
#include <osgIntrospection/MethodInfo>
#include <osgIntrospection/PropertyInfo>
#include <osgDB/DynamicLibrary>
#include <iostream>
#include <algorithm>
using namespace osgIntrospection;
// borrowed from osgDB...
std::string createLibraryNameForWrapper(const std::string& ext)
{
#if defined(WIN32)
// !! recheck evolving Cygwin DLL extension naming protocols !! NHV
#ifdef __CYGWIN__
return "cygosgwrapper_"+ext+".dll";
#elif defined(__MINGW32__)
return "libosgwrapper_"+ext+".dll";
#else
#ifdef _DEBUG
return "osgwrapper_"+ext+"d.dll";
#else
return "osgwrapper_"+ext+".dll";
#endif
#endif
#elif macintosh
return "osgwrapper_"+ext;
#elif defined(__hpux__)
// why don't we use PLUGIN_EXT from the makefiles here?
return "osgwrapper_"+ext+".sl";
#else
return "osgwrapper_"+ext+".so";
#endif
}
bool type_order(const Type *v1, const Type *v2)
{
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if (!v1->isDefined()) return v2->isDefined();
if (!v2->isDefined()) return false;
return v1->getQualifiedName().compare(v2->getQualifiedName()) < 0;
}
void print_types()
{
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// get the map of types that have been reflected
const TypeMap &tm = Reflection::getTypes();
// create a sortable list of types
TypeList types(tm.size());
TypeList::iterator j = types.begin();
for (TypeMap::const_iterator i=tm.begin(); i!=tm.end(); ++i, ++j)
*j = i->second;
// sort the map
std::sort(types.begin(), types.end(), &type_order);
// iterate through the type map and display some
// details for each type
for (TypeList::const_iterator i=types.begin(); i!=types.end(); ++i)
{
// ignore pointer types and undefined types
if (!(*i)->isDefined() || (*i)->isPointer() || (*i)->isReference())
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continue;
// print the type name
std::cout << (*i)->getQualifiedName() << "\n";
// check whether the type is abstract
if ((*i)->isAbstract()) std::cout << "\t[abstract]\n";
// check whether the type is atomic
if ((*i)->isAtomic()) std::cout << "\t[atomic]\n";
// check whether the type is an enumeration. If yes, display
// the list of enumeration labels
if ((*i)->isEnum())
{
std::cout << "\t[enum]\n";
std::cout << "\tenumeration values:\n";
const EnumLabelMap &emap = (*i)->getEnumLabels();
for (EnumLabelMap::const_iterator j=emap.begin(); j!=emap.end(); ++j)
{
std::cout << "\t\t" << j->second << " = " << j->first << "\n";
}
}
// if the type has one or more base types, then display their
// names
if ((*i)->getNumBaseTypes() > 0)
{
std::cout << "\tderived from: ";
for (int j=0; j<(*i)->getNumBaseTypes(); ++j)
{
const Type &base = (*i)->getBaseType(j);
if (base.isDefined())
std::cout << base.getQualifiedName() << " ";
else
std::cout << "[undefined type] ";
}
std::cout << "\n";
}
// display a list of methods defined for the current type
const MethodInfoList &mil = (*i)->getMethods();
if (!mil.empty())
{
std::cout << "\t* methods:\n";
for (MethodInfoList::const_iterator j=mil.begin(); j!=mil.end(); ++j)
{
// get the MethodInfo object that describes the current
// method
const MethodInfo &mi = **j;
std::cout << "\t ";
// display the method's return type if defined
if (mi.getReturnType().isDefined())
std::cout << mi.getReturnType().getQualifiedName() << " ";
else
std::cout << "[UNDEFINED TYPE] ";
// display the method's name
std::cout << mi.getName() << "(";
// display method's parameters
const ParameterInfoList &params = mi.getParameters();
for (ParameterInfoList::const_iterator k=params.begin(); k!=params.end(); ++k)
{
// get the ParameterInfo object that describes the
// current parameter
const ParameterInfo &pi = **k;
// display the parameter's modifier
if (pi.isIn())
std::cout << "IN";
if (pi.isOut())
std::cout << "OUT";
if (pi.isIn() || pi.isOut())
std::cout << " ";
// display the parameter's type name
if (pi.getParameterType().isDefined())
std::cout << pi.getParameterType().getQualifiedName();
// display the parameter's name if defined
if (!pi.getName().empty())
std::cout << " " << pi.getName();
if ((k+1)!=params.end())
std::cout << ", ";
}
std::cout << ")";
if (mi.isConst())
std::cout << " const";
std::cout << "\n";
}
}
// display a list of properties defined for the current type
const PropertyInfoList &pil = (*i)->getProperties();
if (!pil.empty())
{
std::cout << "\t* properties:\n";
for (PropertyInfoList::const_iterator j=pil.begin(); j!=pil.end(); ++j)
{
// get the PropertyInfo object that describes the current
// property
const PropertyInfo &pi = **j;
std::cout << "\t ";
std::cout << "{";
std::cout << (pi.canGet()? "G": " ");
std::cout << (pi.canSet()? "S": " ");
std::cout << (pi.canCount()? "C": " ");
std::cout << (pi.canAdd()? "A": " ");
std::cout << "} ";
// display the property's name
std::cout << pi.getName();
// display the property's value type if defined
std::cout << " (";
if (pi.getPropertyType().isDefined())
std::cout << pi.getPropertyType().getQualifiedName();
else
std::cout << "UNDEFINED TYPE";
std::cout << ") ";
// check whether the property is an array property
if (pi.isArray())
{
std::cout << " [ARRAY]";
}
// check whether the property is an indexed property
if (pi.isIndexed())
{
std::cout << " [INDEXED]\n\t\t indices:\n";
const ParameterInfoList &ind = pi.getIndexParameters();
// print the list of indices
int num = 1;
for (ParameterInfoList::const_iterator k=ind.begin(); k!=ind.end(); ++k, ++num)
{
std::cout << "\t\t " << num << ") ";
const ParameterInfo &par = **k;
std::cout << par.getParameterType().getQualifiedName() << " " << par.getName();
std::cout << "\n";
}
}
std::cout << "\n";
}
}
std::cout << "\n" << std::string(75, '-') << "\n";
}
}
int main()
{
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// load the library of wrappers that reflect the
// classes defined in the 'osg' namespace. In the
// future this will be done automatically under
// certain circumstances (like deserialization).
osg::ref_ptr<osgDB::DynamicLibrary> osg_reflectors =
osgDB::DynamicLibrary::loadLibrary(createLibraryNameForWrapper("osg"));
// display a detailed list of reflected types
try
{
print_types();
}
catch(const osgIntrospection::Exception &e)
{
std::cerr << e.what() << std::endl;
}
return 0;
}