HG_REPOSITORIES/LPP/INSTRUMENTATION/USERS/JEANDET/PythonQt Files · generator/shellimplgenerator.cpp

Added generator to install targets and removed examples from build.

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      /****************************************************************************

      **

      ** Copyright (C) 2008-2009 Nokia Corporation and/or its subsidiary(-ies).

      ** All rights reserved.

      ** Contact: Nokia Corporation (qt-info@nokia.com)

      **

      ** This file is part of the Qt Script Generator project on Qt Labs.

      **

      ** $QT_BEGIN_LICENSE:LGPL$

      ** No Commercial Usage

      ** This file contains pre-release code and may not be distributed.

      ** You may use this file in accordance with the terms and conditions

      ** contained in the Technology Preview License Agreement accompanying

      ** this package.

      **

      ** GNU Lesser General Public License Usage

      ** Alternatively, this file may be used under the terms of the GNU Lesser

      ** General Public License version 2.1 as published by the Free Software

      ** Foundation and appearing in the file LICENSE.LGPL included in the

      ** packaging of this file.  Please review the following information to

      ** ensure the GNU Lesser General Public License version 2.1 requirements

      ** will be met: http://www.gnu.org/licenses/old-licenses/lgpl-2.1.html.

      **

      ** In addition, as a special exception, Nokia gives you certain additional

      ** rights.  These rights are described in the Nokia Qt LGPL Exception

      ** version 1.1, included in the file LGPL_EXCEPTION.txt in this package.

      **

      ** If you have questions regarding the use of this file, please contact

      ** Nokia at qt-info@nokia.com.

      **

      **

      **

      **

      **

      **

      **

      **

      ** $QT_END_LICENSE$

      **

      ****************************************************************************/

      #include "shellimplgenerator.h"

      #include "reporthandler.h"

      #include "fileout.h"

      #include <iostream>

      extern void declareFunctionMetaTypes(QTextStream &stream,

                                           const AbstractMetaFunctionList &functions,

                                           QSet<QString> &registeredTypeNames);

      QString ShellImplGenerator::fileNameForClass(const AbstractMetaClass *meta_class) const

      {

        return QString("PythonQtWrapper_%1.cpp").arg(meta_class->name());

      }

      static bool include_less_than(const Include &a, const Include &b) 

      {

        return a.name < b.name;

      }

      static void writeHelperCode(QTextStream &s, const AbstractMetaClass *)

      {

      }

      void ShellImplGenerator::write(QTextStream &s, const AbstractMetaClass *meta_class)

      {

        QString builtIn = ShellGenerator::isBuiltIn(meta_class->name())?"_builtin":"";

        QString pro_file_name = meta_class->package().replace(".", "_") + builtIn + "/" + meta_class->package().replace(".", "_") + builtIn + ".pri";

        priGenerator->addSource(pro_file_name, fileNameForClass(meta_class));

        s << "#include \"PythonQtWrapper_" << meta_class->name() << ".h\"" << endl << endl;

        s << "#include <PythonQtSignalReceiver.h>" << endl;

        s << "#include <PythonQtMethodInfo.h>" << endl;

        s << "#include <PythonQtConversion.h>" << endl;

        //if (!meta_class->generateShellClass())

        //    return;

        IncludeList list = meta_class->typeEntry()->extraIncludes();

        qSort(list.begin(), list.end());

        foreach (const Include &inc, list) {

          ShellGenerator::writeInclude(s, inc);

        }  

        s << endl;

        writeHelperCode(s, meta_class);

        // find constructors

        AbstractMetaFunctionList ctors;

        ctors = meta_class->queryFunctions(AbstractMetaClass::Constructors

          | AbstractMetaClass::WasVisible

          | AbstractMetaClass::NotRemovedFromTargetLang);

        // find member functions

        AbstractMetaFunctionList functions = getFunctionsToWrap(meta_class);

        // write metatype declarations

        {

          //    QSet<QString> registeredTypeNames = m_qmetatype_declared_typenames;

          //    declareFunctionMetaTypes(s, functions, registeredTypeNames);

          //    s << endl;

        }

        if (meta_class->qualifiedCppName().contains("Ssl")) {

          s << "#ifndef QT_NO_OPENSSL"  << endl;

        }

        if (meta_class->generateShellClass() && !ctors.isEmpty()) {

          s << shellClassName(meta_class) << "::~" << shellClassName(meta_class) << "() {" << endl;

          s << "  PythonQtPrivate* priv = PythonQt::priv();" << endl;

          s << "  if (priv) { priv->shellClassDeleted(this); }" << endl;

          s << "}" << endl;

          AbstractMetaFunctionList virtualsForShell = getVirtualFunctionsForShell(meta_class);

          foreach (const AbstractMetaFunction *fun, virtualsForShell) {

            bool hasReturnValue = (fun->type());

            writeFunctionSignature(s, fun, meta_class, QString(),

              Option(OriginalName | ShowStatic | UnderscoreSpaces | UseIndexedName),

              "PythonQtShell_");

            s << endl << "{" << endl;

            Option typeOptions = Option(OriginalName | UnderscoreSpaces | SkipName);

            AbstractMetaArgumentList args = fun->arguments();

            // we can't handle return values which are references right now, do not send those to Python...

            if (!hasReturnValue || !fun->type()->isReference()) {

              s << "if (_wrapper && (((PyObject*)_wrapper)->ob_refcnt > 0)) {" << endl;

              s << "  static PyObject* name = PyString_FromString(\"" << fun->name() << "\");" << endl;

              s << "  PyObject* obj = PyBaseObject_Type.tp_getattro((PyObject*)_wrapper, name);" << endl;

              s << "  if (obj) {" << endl;

              s << "    static const char* argumentList[] ={\"";

              if (hasReturnValue) {

                // write the arguments, return type first

                writeTypeInfo(s, fun->type(), typeOptions);

              }

              s << "\"";

              for (int i = 0; i < args.size(); ++i) {

                s << " , \"";

                writeTypeInfo(s, args.at(i)->type(), typeOptions);

                s << "\"";

              }

              s << "};" << endl;

              s << "    static const PythonQtMethodInfo* methodInfo = PythonQtMethodInfo::getCachedMethodInfoFromArgumentList(" << QString::number(args.size() + 1) << ", argumentList);" << endl;

              if (hasReturnValue) {

                s << "      ";

                writeTypeInfo(s, fun->type(), typeOptions);

                s << " returnValue;" << endl;

                // TODO: POD init to default is missing...

              }

              s << "    void* args[" << QString::number(args.size() + 1) << "] = {NULL";

              for (int i = 0; i < args.size(); ++i) {

                s << ", (void*)&" << args.at(i)->indexedName();

              }

              s << "};" << endl;

              s << "    PyObject* result = PythonQtSignalTarget::call(obj, methodInfo, args, true);" << endl;

              if (hasReturnValue) {

                s << "    if (result) {" << endl;

                s << "      args[0] = PythonQtConv::ConvertPythonToQt(methodInfo->parameters().at(0), result, false, NULL, &returnValue);" << endl;

                s << "      if (args[0]!=&returnValue) {" << endl;

                s << "        if (args[0]==NULL) {" << endl;

                s << "          PythonQt::priv()->handleVirtualOverloadReturnError(\"" << fun->name() << "\", methodInfo, result);" << endl;

                s << "        } else {" << endl;

                s << "          returnValue = *((";

                writeTypeInfo(s, fun->type(), typeOptions);

                s << "*)args[0]);" << endl;

                s << "        }" << endl;

                s << "      }" << endl;

                s << "    }" << endl;

              }

              s << "    if (result) { Py_DECREF(result); } " << endl;

              s << "    Py_DECREF(obj);" << endl;

              if (hasReturnValue) {

                s << "    return returnValue;" << endl;

              }

              else {

                s << "    return;" << endl;

              }

              s << "  } else {" << endl;

              s << "    PyErr_Clear();" << endl;

              s << "  }" << endl;

              s << "}" << endl;

            }

            s << "  ";

            if (fun->isAbstract()) {

              if (fun->type()) {

                // return empty default object

                s << "return ";

                if (fun->type()->indirections()>0) {

                  s << "0;";

                } else {

                  writeTypeInfo(s, fun->type(), typeOptions);

                  s << "();";

                }

              }

            } else {

              if (fun->type()) {

                s << "return ";

              }

              s << meta_class->qualifiedCppName() << "::";

              s << fun->originalName() << "(";

              for (int i = 0; i < args.size(); ++i) {

                if (i > 0) {

                  s << ", ";

                }

                s << args.at(i)->indexedName();

              }

              s << ");";

            }

            s << endl << "}" << endl;

          }

        }

        if (meta_class->generateShellClass() || !meta_class->isAbstract()) {

          // write constructors

          foreach (const AbstractMetaFunction *ctor, ctors) {

            if (ctor->isAbstract() || (!meta_class->generateShellClass() && !ctor->isPublic())) { continue; }

            s << meta_class->qualifiedCppName() << "* ";

            s << "PythonQtWrapper_" << meta_class->name() << "::";

            writeFunctionSignature(s, ctor, 0, "new_", Option(OriginalName | ShowStatic));

            s << endl;

            s << "{ " << endl;

            s << "return new " << (meta_class->generateShellClass()?shellClassName(meta_class):meta_class->qualifiedCppName()) << "(";

            AbstractMetaArgumentList args = ctor->arguments();

            for (int i = 0; i < args.size(); ++i) {

              if (i > 0)

                s << ", ";

              s << args.at(i)->argumentName();

            }

            s << ");" << " }" << endl << endl;

          }

        }

        QString wrappedObject = " (*theWrappedObject)";

        // write member functions

        for (int i = 0; i < functions.size(); ++i) {

          AbstractMetaFunction *fun = functions.at(i);

          bool needsWrapping = (!fun->isSlot() || fun->isVirtual());

          if (!needsWrapping) {

            continue;

          }

          writeFunctionSignature(s, fun, meta_class, QString(),

            Option(ConvertReferenceToPtr | FirstArgIsWrappedObject | OriginalName | ShowStatic | UnderscoreSpaces | ProtectedEnumAsInts),

            "PythonQtWrapper_");

          s << endl << "{" << endl;

          s << "  ";

          if (ShellGenerator::isSpecialStreamingOperator(fun)) {

            s << fun->arguments().at(0)->argumentName();

            if (fun->originalName().startsWith("operator>>")) {

              s << " >> ";

            } else {

              s << " << ";

            }

            s << wrappedObject;

          } else {

            QString scriptFunctionName = fun->originalName();

            AbstractMetaArgumentList args = fun->arguments();

            // call the C++ implementation

            if (fun->type()) {

              s << "return ";

              // call the C++ implementation

              if (fun->type()->isReference()) {

                s << "&";

              }

            }

            s << "(";

            if (scriptFunctionName.startsWith("operator>>")) {

              s << wrappedObject << " >>" << args.at(0)->argumentName();

            } else if (scriptFunctionName.startsWith("operator<<")) {

              s << wrappedObject << " <<" << args.at(0)->argumentName();

            } else if (scriptFunctionName.startsWith("operator[]")) {

              s << wrappedObject << "[" << args.at(0)->argumentName() << "]";

            } else if (scriptFunctionName.startsWith("operator") && args.size()==1) {

              QString op = scriptFunctionName.mid(8);

              s << wrappedObject << op << " " << args.at(0)->argumentName();

            } else {

              if (fun->isStatic()) {

                if (fun->wasProtected()) {

                  s << promoterClassName(meta_class) << "::promoted_";

                } else {

                  s << meta_class->qualifiedCppName() << "::";

                }

              } else {

                if (fun->wasProtected() || (fun->isVirtual() && meta_class->typeEntry()->shouldCreatePromoter())) {

                  s << " (("  << promoterClassName(meta_class) << "*)theWrappedObject)->promoted_";

                } else {

                  s << " theWrappedObject->";

                }

              }

              s  << fun->originalName() << "(";

              for (int i = 0; i < args.size(); ++i) {

                if (i > 0)

                  s << ", ";

                s << args.at(i)->argumentName();

              }

              s << ")";

            }

            s << ")";

          }

          s << ";" << endl;

          s << "}" << endl << endl;

        }

        if (meta_class->hasDefaultToStringFunction()) {

          s << "QString PythonQtWrapper_" << meta_class->name() << "::py_toString(" << meta_class->qualifiedCppName() << "* obj) { return obj->toString(); }" << endl; 

        } else if (meta_class->hasToStringCapability()) {

          FunctionModelItem fun = meta_class->hasToStringCapability();

          int indirections = fun->arguments().at(1)->type().indirections();

          QString deref = QLatin1String(indirections == 0 ? "*" : "");

          s << "QString PythonQtWrapper_" << meta_class->name() << "::py_toString(" << meta_class->qualifiedCppName() << "* obj) {" << endl; 

          s << "  QString result;" << endl;

          s << "  QDebug d(&result);" << endl;

          s << "  d << " << deref  << "obj;" << endl;

          s << "  return result;" << endl;

          s << "}" << endl << endl;

        }

        writeInjectedCode(s, meta_class);

        if (meta_class->qualifiedCppName().contains("Ssl")) {

          s << "#endif"  << endl;

        }

      }

      void ShellImplGenerator::writeInjectedCode(QTextStream &s, const AbstractMetaClass *meta_class)

      {

        CodeSnipList code_snips = meta_class->typeEntry()->codeSnips();

        foreach (const CodeSnip &cs, code_snips) {

          if (cs.language == TypeSystem::PyWrapperCode) {

            s << cs.code() << endl;

          }

        }

      }

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				/****************************************************************************
				**
				** Copyright (C) 2008-2009 Nokia Corporation and/or its subsidiary(-ies).
				** All rights reserved.
				** Contact: Nokia Corporation (qt-info@nokia.com)
				**
				** This file is part of the Qt Script Generator project on Qt Labs.
				**
				** $QT_BEGIN_LICENSE:LGPL$
				** No Commercial Usage
				** This file contains pre-release code and may not be distributed.
				** You may use this file in accordance with the terms and conditions
				** contained in the Technology Preview License Agreement accompanying
				** this package.
				**
				** GNU Lesser General Public License Usage
				** Alternatively, this file may be used under the terms of the GNU Lesser
				** General Public License version 2.1 as published by the Free Software
				** Foundation and appearing in the file LICENSE.LGPL included in the
				** packaging of this file. Please review the following information to
				** ensure the GNU Lesser General Public License version 2.1 requirements
				** will be met: http://www.gnu.org/licenses/old-licenses/lgpl-2.1.html.
				**
				** In addition, as a special exception, Nokia gives you certain additional
				** rights. These rights are described in the Nokia Qt LGPL Exception
				** version 1.1, included in the file LGPL_EXCEPTION.txt in this package.
				**
				** If you have questions regarding the use of this file, please contact
				** Nokia at qt-info@nokia.com.
				**
				**
				**
				**
				**
				**
				**
				**
				** $QT_END_LICENSE$
				**
				****************************************************************************/

				#include "shellimplgenerator.h"
				#include "reporthandler.h"
				#include "fileout.h"
				#include <iostream>

				extern void declareFunctionMetaTypes(QTextStream &stream,
				const AbstractMetaFunctionList &functions,
				QSet<QString> &registeredTypeNames);

				QString ShellImplGenerator::fileNameForClass(const AbstractMetaClass *meta_class) const
				{
				return QString("PythonQtWrapper_%1.cpp").arg(meta_class->name());
				}

				static bool include_less_than(const Include &a, const Include &b)
				{
				return a.name < b.name;
				}

				static void writeHelperCode(QTextStream &s, const AbstractMetaClass *)
				{
				}



				void ShellImplGenerator::write(QTextStream &s, const AbstractMetaClass *meta_class)
				{
				QString builtIn = ShellGenerator::isBuiltIn(meta_class->name())?"_builtin":"";
				QString pro_file_name = meta_class->package().replace(".", "_") + builtIn + "/" + meta_class->package().replace(".", "_") + builtIn + ".pri";
				priGenerator->addSource(pro_file_name, fileNameForClass(meta_class));

				s << "#include \"PythonQtWrapper_" << meta_class->name() << ".h\"" << endl << endl;

				s << "#include <PythonQtSignalReceiver.h>" << endl;
				s << "#include <PythonQtMethodInfo.h>" << endl;
				s << "#include <PythonQtConversion.h>" << endl;

				//if (!meta_class->generateShellClass())
				// return;

				IncludeList list = meta_class->typeEntry()->extraIncludes();
				qSort(list.begin(), list.end());
				foreach (const Include &inc, list) {
				ShellGenerator::writeInclude(s, inc);
				}
				s << endl;

				writeHelperCode(s, meta_class);

				// find constructors
				AbstractMetaFunctionList ctors;
				ctors = meta_class->queryFunctions(AbstractMetaClass::Constructors
				\| AbstractMetaClass::WasVisible
				\| AbstractMetaClass::NotRemovedFromTargetLang);
				// find member functions
				AbstractMetaFunctionList functions = getFunctionsToWrap(meta_class);

				// write metatype declarations
				{
				// QSet<QString> registeredTypeNames = m_qmetatype_declared_typenames;
				// declareFunctionMetaTypes(s, functions, registeredTypeNames);
				// s << endl;
				}
				if (meta_class->qualifiedCppName().contains("Ssl")) {
				s << "#ifndef QT_NO_OPENSSL" << endl;
				}

				if (meta_class->generateShellClass() && !ctors.isEmpty()) {

				s << shellClassName(meta_class) << "::~" << shellClassName(meta_class) << "() {" << endl;
				s << " PythonQtPrivate* priv = PythonQt::priv();" << endl;
				s << " if (priv) { priv->shellClassDeleted(this); }" << endl;
				s << "}" << endl;

				AbstractMetaFunctionList virtualsForShell = getVirtualFunctionsForShell(meta_class);
				foreach (const AbstractMetaFunction *fun, virtualsForShell) {
				bool hasReturnValue = (fun->type());
				writeFunctionSignature(s, fun, meta_class, QString(),
				Option(OriginalName \| ShowStatic \| UnderscoreSpaces \| UseIndexedName),
				"PythonQtShell_");
				s << endl << "{" << endl;

				Option typeOptions = Option(OriginalName \| UnderscoreSpaces \| SkipName);
				AbstractMetaArgumentList args = fun->arguments();

				// we can't handle return values which are references right now, do not send those to Python...
				if (!hasReturnValue \|\| !fun->type()->isReference()) {

				s << "if (_wrapper && (((PyObject*)_wrapper)->ob_refcnt > 0)) {" << endl;
				s << " static PyObject* name = PyString_FromString(\"" << fun->name() << "\");" << endl;
				s << " PyObject* obj = PyBaseObject_Type.tp_getattro((PyObject*)_wrapper, name);" << endl;
				s << " if (obj) {" << endl;
				s << " static const char* argumentList[] ={\"";
				if (hasReturnValue) {
				// write the arguments, return type first
				writeTypeInfo(s, fun->type(), typeOptions);
				}
				s << "\"";
				for (int i = 0; i < args.size(); ++i) {
				s << " , \"";
				writeTypeInfo(s, args.at(i)->type(), typeOptions);
				s << "\"";
				}
				s << "};" << endl;
				s << " static const PythonQtMethodInfo* methodInfo = PythonQtMethodInfo::getCachedMethodInfoFromArgumentList(" << QString::number(args.size() + 1) << ", argumentList);" << endl;

				if (hasReturnValue) {
				s << " ";
				writeTypeInfo(s, fun->type(), typeOptions);
				s << " returnValue;" << endl;
				// TODO: POD init to default is missing...
				}
				s << " void* args[" << QString::number(args.size() + 1) << "] = {NULL";
				for (int i = 0; i < args.size(); ++i) {
				s << ", (void*)&" << args.at(i)->indexedName();
				}
				s << "};" << endl;

				s << " PyObject* result = PythonQtSignalTarget::call(obj, methodInfo, args, true);" << endl;
				if (hasReturnValue) {
				s << " if (result) {" << endl;
				s << " args[0] = PythonQtConv::ConvertPythonToQt(methodInfo->parameters().at(0), result, false, NULL, &returnValue);" << endl;
				s << " if (args[0]!=&returnValue) {" << endl;
				s << " if (args[0]==NULL) {" << endl;
				s << " PythonQt::priv()->handleVirtualOverloadReturnError(\"" << fun->name() << "\", methodInfo, result);" << endl;
				s << " } else {" << endl;
				s << " returnValue = *((";
				writeTypeInfo(s, fun->type(), typeOptions);
				s << "*)args[0]);" << endl;
				s << " }" << endl;
				s << " }" << endl;
				s << " }" << endl;
				}
				s << " if (result) { Py_DECREF(result); } " << endl;
				s << " Py_DECREF(obj);" << endl;
				if (hasReturnValue) {
				s << " return returnValue;" << endl;
				}
				else {
				s << " return;" << endl;
				}
				s << " } else {" << endl;
				s << " PyErr_Clear();" << endl;
				s << " }" << endl;
				s << "}" << endl;
				}
				s << " ";
				if (fun->isAbstract()) {
				if (fun->type()) {
				// return empty default object
				s << "return ";
				if (fun->type()->indirections()>0) {
				s << "0;";
				} else {
				writeTypeInfo(s, fun->type(), typeOptions);
				s << "();";
				}
				}
				} else {
				if (fun->type()) {
				s << "return ";
				}
				s << meta_class->qualifiedCppName() << "::";
				s << fun->originalName() << "(";
				for (int i = 0; i < args.size(); ++i) {
				if (i > 0) {
				s << ", ";
				}
				s << args.at(i)->indexedName();
				}
				s << ");";
				}
				s << endl << "}" << endl;
				}
				}

				if (meta_class->generateShellClass() \|\| !meta_class->isAbstract()) {

				// write constructors
				foreach (const AbstractMetaFunction *ctor, ctors) {
				if (ctor->isAbstract() \|\| (!meta_class->generateShellClass() && !ctor->isPublic())) { continue; }

				s << meta_class->qualifiedCppName() << "* ";
				s << "PythonQtWrapper_" << meta_class->name() << "::";
				writeFunctionSignature(s, ctor, 0, "new_", Option(OriginalName \| ShowStatic));
				s << endl;
				s << "{ " << endl;
				s << "return new " << (meta_class->generateShellClass()?shellClassName(meta_class):meta_class->qualifiedCppName()) << "(";
				AbstractMetaArgumentList args = ctor->arguments();
				for (int i = 0; i < args.size(); ++i) {
				if (i > 0)
				s << ", ";
				s << args.at(i)->argumentName();
				}
				s << ");" << " }" << endl << endl;
				}
				}

				QString wrappedObject = " (*theWrappedObject)";

				// write member functions
				for (int i = 0; i < functions.size(); ++i) {
				AbstractMetaFunction *fun = functions.at(i);
				bool needsWrapping = (!fun->isSlot() \|\| fun->isVirtual());
				if (!needsWrapping) {
				continue;
				}
				writeFunctionSignature(s, fun, meta_class, QString(),
				Option(ConvertReferenceToPtr \| FirstArgIsWrappedObject \| OriginalName \| ShowStatic \| UnderscoreSpaces \| ProtectedEnumAsInts),
				"PythonQtWrapper_");
				s << endl << "{" << endl;
				s << " ";
				if (ShellGenerator::isSpecialStreamingOperator(fun)) {
				s << fun->arguments().at(0)->argumentName();
				if (fun->originalName().startsWith("operator>>")) {
				s << " >> ";
				} else {
				s << " << ";
				}
				s << wrappedObject;
				} else {
				QString scriptFunctionName = fun->originalName();
				AbstractMetaArgumentList args = fun->arguments();
				// call the C++ implementation
				if (fun->type()) {
				s << "return ";
				// call the C++ implementation
				if (fun->type()->isReference()) {
				s << "&";
				}
				}
				s << "(";
				if (scriptFunctionName.startsWith("operator>>")) {
				s << wrappedObject << " >>" << args.at(0)->argumentName();
				} else if (scriptFunctionName.startsWith("operator<<")) {
				s << wrappedObject << " <<" << args.at(0)->argumentName();
				} else if (scriptFunctionName.startsWith("operator[]")) {
				s << wrappedObject << "[" << args.at(0)->argumentName() << "]";
				} else if (scriptFunctionName.startsWith("operator") && args.size()==1) {
				QString op = scriptFunctionName.mid(8);
				s << wrappedObject << op << " " << args.at(0)->argumentName();
				} else {
				if (fun->isStatic()) {
				if (fun->wasProtected()) {
				s << promoterClassName(meta_class) << "::promoted_";
				} else {
				s << meta_class->qualifiedCppName() << "::";
				}
				} else {
				if (fun->wasProtected() \|\| (fun->isVirtual() && meta_class->typeEntry()->shouldCreatePromoter())) {
				s << " ((" << promoterClassName(meta_class) << "*)theWrappedObject)->promoted_";
				} else {
				s << " theWrappedObject->";
				}
				}
				s << fun->originalName() << "(";
				for (int i = 0; i < args.size(); ++i) {
				if (i > 0)
				s << ", ";
				s << args.at(i)->argumentName();
				}
				s << ")";
				}
				s << ")";
				}
				s << ";" << endl;

				s << "}" << endl << endl;
				}

				if (meta_class->hasDefaultToStringFunction()) {
				s << "QString PythonQtWrapper_" << meta_class->name() << "::py_toString(" << meta_class->qualifiedCppName() << "* obj) { return obj->toString(); }" << endl;
				} else if (meta_class->hasToStringCapability()) {
				FunctionModelItem fun = meta_class->hasToStringCapability();
				int indirections = fun->arguments().at(1)->type().indirections();
				QString deref = QLatin1String(indirections == 0 ? "*" : "");
				s << "QString PythonQtWrapper_" << meta_class->name() << "::py_toString(" << meta_class->qualifiedCppName() << "* obj) {" << endl;
				s << " QString result;" << endl;
				s << " QDebug d(&result);" << endl;
				s << " d << " << deref << "obj;" << endl;
				s << " return result;" << endl;
				s << "}" << endl << endl;
				}

				writeInjectedCode(s, meta_class);

				if (meta_class->qualifiedCppName().contains("Ssl")) {
				s << "#endif" << endl;
				}
				}

				void ShellImplGenerator::writeInjectedCode(QTextStream &s, const AbstractMetaClass *meta_class)
				{
				CodeSnipList code_snips = meta_class->typeEntry()->codeSnips();
				foreach (const CodeSnip &cs, code_snips) {
				if (cs.language == TypeSystem::PyWrapperCode) {
				s << cs.code() << endl;
				}
				}
				}