// Generated by gtkmmproc -- DO NOT MODIFY! #include #include // -*- c++ -*- /* $Id: optiongroup.ccg,v 1.15.4.3 2006/03/30 12:19:58 murrayc Exp $ */ /* Copyright (C) 2002 The gtkmm Development Team * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation; either * version 2.1 of the License, or (at your option) any later version. * * This library is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with this library; if not, write to the Free * Software Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. */ #include #include #include //#include #include // g_malloc namespace Glib { namespace //anonymous { extern "C" { static gboolean g_callback_pre_parse(GOptionContext* context, GOptionGroup* /* group */, gpointer data, GError** /* TODO error */) { OptionContext cppContext(context, false /* take_ownership */); //OptionGroup cppGroup(group, true /* take_copy */); //Maybe this should be option_group. OptionGroup* option_group = static_cast(data); if(option_group) return option_group->on_pre_parse(cppContext, *option_group); else return false; } static gboolean g_callback_post_parse(GOptionContext* context, GOptionGroup* /* group */, gpointer data, GError** /* TODO error */) { OptionContext cppContext(context, false /* take_ownership */); //OptionGroup cppGroup(group, true /* take_copy */); //Maybe this should be option_group. OptionGroup* option_group = static_cast(data); if(option_group) { return option_group->on_post_parse(cppContext, *option_group); } else return false; } static void g_callback_error(GOptionContext* context, GOptionGroup* /* group */, gpointer data, GError** /* TODO error*/) { OptionContext cppContext(context, false /* take_ownership */); //OptionGroup cppGroup(group); //Maybe this should be option_group. OptionGroup* option_group = static_cast(data); if(option_group) return option_group->on_error(cppContext, *option_group); } } /* extern "C" */ } //anonymous namespace OptionGroup::OptionGroup(const Glib::ustring& name, const Glib::ustring& description, const Glib::ustring& help_description) : gobject_( g_option_group_new(name.c_str(), description.c_str(), help_description.c_str(), this, 0 /* destroy_func */) ), has_ownership_(true) { //Connect callbacks, so that derived classes can override the virtual methods: g_option_group_set_parse_hooks(gobj(), &g_callback_pre_parse, &g_callback_post_parse); g_option_group_set_error_hook(gobj(), &g_callback_error); } OptionGroup::OptionGroup(GOptionGroup* castitem) : gobject_(castitem), has_ownership_(true) { //Always takes ownership - never takes copy. } OptionGroup::~OptionGroup() { //Free any C types that were allocated during add_entry(): for(type_map_entries::iterator iter = map_entries_.begin(); iter != map_entries_.end(); ++iter) { CppOptionEntry& cpp_entry = iter->second; cpp_entry.release_c_arg(); } if(has_ownership_) { g_option_group_free(gobj()); gobject_ = 0; } } void OptionGroup::add_entry(const OptionEntry& entry) { //It does not copy the entry, so it needs to live as long as the group. //g_option_group_add_entries takes an array, with the last item in the array having a null long_name. //Hopefully this will be properly documented eventually - see bug # //Create a temporary array, just so we can give the correct thing to g_option_group_add_entries: GOptionEntry array[2]; array[0] = *(entry.gobj()); //Copy contents. GLIBMM_INITIALIZE_STRUCT(array[1], GOptionEntry); g_option_group_add_entries(gobj(), array); } void OptionGroup::add_entry(const OptionEntry& entry, bool& arg) { add_entry_with_wrapper(entry, G_OPTION_ARG_NONE /* Actually a boolean on/off, depending on whether the argument name was given, without argument parameters. */, &arg); } void OptionGroup::add_entry(const OptionEntry& entry, int& arg) { add_entry_with_wrapper(entry, G_OPTION_ARG_INT, &arg); } void OptionGroup::add_entry(const OptionEntry& entry, Glib::ustring& arg) { add_entry_with_wrapper(entry, G_OPTION_ARG_STRING, &arg); } void OptionGroup::add_entry(const OptionEntry& entry, vecustrings& arg) { add_entry_with_wrapper(entry, G_OPTION_ARG_STRING_ARRAY, &arg); } void OptionGroup::add_entry_filename(const OptionEntry& entry, std::string& arg) { add_entry_with_wrapper(entry, G_OPTION_ARG_FILENAME, &arg); } void OptionGroup::add_entry_filename(const OptionEntry& entry, vecstrings& arg) { add_entry_with_wrapper(entry, G_OPTION_ARG_FILENAME_ARRAY, &arg); } void OptionGroup::add_entry_with_wrapper(const OptionEntry& entry, GOptionArg arg_type, void* cpp_arg) { const Glib::ustring name = entry.get_long_name(); type_map_entries::iterator iterFind = map_entries_.find(name); if( iterFind == map_entries_.end() ) //If we have not added this entry already { CppOptionEntry cppEntry; cppEntry.carg_type_ = arg_type; cppEntry.allocate_c_arg(); cppEntry.set_c_arg_default(cpp_arg); cppEntry.cpparg_ = cpp_arg; //Give the information to the C API: cppEntry.entry_ = new OptionEntry(entry); //g_option_group_add_entry() does not take its own copy, so we must keep the instance alive. */ //cppEntry.entry_ is deleted in release_c_arg(), via the destructor. cppEntry.entry_->gobj()->arg = arg_type; cppEntry.entry_->gobj()->arg_data = cppEntry.carg_; //Remember the C++/C mapping so that we can use it later: map_entries_[name] = cppEntry; add_entry(*(cppEntry.entry_)); } } bool OptionGroup::on_pre_parse(OptionContext& /* context */, OptionGroup& /* group */) { return true; } bool OptionGroup::on_post_parse(OptionContext& /* context */, OptionGroup& /* group */) { //Call this at the start of overrides. //TODO: Maybe put this in the C callback: //The C args have now been given values by GOption. //Convert C values to C++ values: for(type_map_entries::iterator iter = map_entries_.begin(); iter != map_entries_.end(); ++iter) { CppOptionEntry& cpp_entry = iter->second; cpp_entry.convert_c_to_cpp(); } return true; } void OptionGroup::on_error(OptionContext& /* context */, OptionGroup& /* group */) { } OptionGroup::CppOptionEntry::CppOptionEntry() : carg_type_(G_OPTION_ARG_NONE), carg_(0), cpparg_(0), entry_(0) {} void OptionGroup::CppOptionEntry::allocate_c_arg() { //Create an instance of the appropriate C type. //This will be destroyed in the OptionGroup destructor. // //We must also call set_c_arg_default() to give these C types the specified defaults based on the C++-typed arguments. switch(carg_type_) { case G_OPTION_ARG_STRING: //The char* will be for UTF8 strins. case G_OPTION_ARG_FILENAME: //The char* will be for strings in the current locale's encoding. { char** typed_arg = new char*; //The C code will allocate a char* and put it here, for us to g_free() later. //Alternatively, set_c_arg_default() might allocate a char*, and the C code might or might not free and replace that. *typed_arg = 0; carg_ = typed_arg; break; } case G_OPTION_ARG_INT: { int* typed_arg = new int; *typed_arg = 0; carg_ = typed_arg; break; } case G_OPTION_ARG_STRING_ARRAY: case G_OPTION_ARG_FILENAME_ARRAY: { char*** typed_arg = new char**; *typed_arg = 0; carg_ = typed_arg; break; } case G_OPTION_ARG_NONE: /* Actually a boolean. */ { gboolean* typed_arg = new gboolean; *typed_arg = 0; carg_ = typed_arg; break; } default: { break; } } } void OptionGroup::CppOptionEntry::set_c_arg_default(void* cpp_arg) { switch(carg_type_) { case G_OPTION_ARG_INT: { *static_cast(carg_) = *static_cast(cpp_arg); break; } case G_OPTION_ARG_NONE: { *static_cast(carg_) = *static_cast(cpp_arg); break; } case G_OPTION_ARG_STRING: { Glib::ustring* typed_cpp_arg = static_cast(cpp_arg); if(typed_cpp_arg && !typed_cpp_arg->empty()) { const char** typed_c_arg = static_cast(carg_); *typed_c_arg = g_strdup(typed_cpp_arg->c_str()); //Freed in release_c_arg(). } break; } case G_OPTION_ARG_FILENAME: { std::string* typed_cpp_arg = static_cast(cpp_arg); if(typed_cpp_arg && !typed_cpp_arg->empty()) { const char** typed_c_arg = static_cast(carg_); *typed_c_arg = g_strdup(typed_cpp_arg->c_str()); //Freed in release_c_arg(). } break; } case G_OPTION_ARG_STRING_ARRAY: { std::vector* typed_cpp_arg = static_cast*>(cpp_arg); if(typed_cpp_arg) { std::vector& vec = *typed_cpp_arg; const char** array = static_cast( g_malloc(sizeof(gchar*) * (vec.size() + 1)) ); for(std::vector::size_type i = 0; i < vec.size(); ++i) { array[i] = g_strdup( vec[i].c_str() ); } array[vec.size()] = 0; const char*** typed_c_arg = static_cast(carg_); *typed_c_arg = array; } break; } case G_OPTION_ARG_FILENAME_ARRAY: { std::vector* typed_cpp_arg = static_cast*>(cpp_arg); if(typed_cpp_arg) { std::vector& vec = *typed_cpp_arg; const char** array = static_cast( g_malloc(sizeof(gchar*) * (vec.size() + 1)) ); for(std::vector::size_type i = 0; i < vec.size(); ++i) { array[i] = g_strdup( vec[i].c_str() ); } array[vec.size()] = 0; const char*** typed_c_arg = static_cast(carg_); *typed_c_arg = array; } break; } default: { break; } } } void OptionGroup::CppOptionEntry::release_c_arg() { //Delete the instances that we created in allocate_c_arg(). //Notice that we delete the type that we created, but not the value to which it points. if(carg_) { switch(carg_type_) { case G_OPTION_ARG_STRING: case G_OPTION_ARG_FILENAME: { char** typed_arg = static_cast(carg_); g_free(*typed_arg); //Free the char* string at type_arg, which was allocated by the C code. delete typed_arg; //Delete the char** that we allocated in allocate_c_arg; break; } case G_OPTION_ARG_INT: { int* typed_arg = static_cast(carg_); delete typed_arg; break; } case G_OPTION_ARG_STRING_ARRAY: case G_OPTION_ARG_FILENAME_ARRAY: { delete (char**)carg_; break; } case G_OPTION_ARG_NONE: /* Actually a boolean. */ { gboolean* typed_arg = static_cast(carg_); delete typed_arg; break; } default: { /* TODO: G_OPTION_ARG_CALLBACK, */ break; } } carg_ = 0; } if(entry_) delete entry_; } void OptionGroup::CppOptionEntry::convert_c_to_cpp() { switch(carg_type_) { case G_OPTION_ARG_STRING: { char** typed_arg = static_cast(carg_); Glib::ustring* typed_cpp_arg = static_cast(cpparg_); if(typed_arg && typed_cpp_arg) { char* pch = *typed_arg; (*typed_cpp_arg) = Glib::convert_const_gchar_ptr_to_ustring(pch); break; } } case G_OPTION_ARG_FILENAME: { char** typed_arg = static_cast(carg_); std::string* typed_cpp_arg = static_cast(cpparg_); if(typed_arg && typed_cpp_arg) { char* pch = *typed_arg; (*typed_cpp_arg) = Glib::convert_const_gchar_ptr_to_stdstring(pch); break; } } case G_OPTION_ARG_INT: { *((int*)cpparg_) = *(static_cast(carg_)); break; } case G_OPTION_ARG_STRING_ARRAY: { char*** typed_arg = static_cast(carg_); vecustrings* typed_cpp_arg = static_cast(cpparg_); if(typed_arg && typed_cpp_arg) { typed_cpp_arg->clear(); //The C array seems to be null-terminated. //Glib::StringArrayHandle array_handle(*typed_arg, Glib::OWNERSHIP_NONE); //The SUN Forte compiler complains about this: // "optiongroup.cc", line 354: Error: Cannot assign Glib::ArrayHandle> to std::vector without // "std::vector::operator=(const std::vector&)";. // //(*typed_cpp_arg) = array_handle; // //And the Tru64 compiler does not even like us to instantiate the StringArrayHandle: // // cxx: Error: ../../glib/glibmm/containerhandle_shared.h, line 149: the operand // of a pointer dynamic_cast must be a pointer to a complete class type // return dynamic_cast(Glib::wrap_auto(cobj, false /* take_copy */)); //for(Glib::StringArrayHandle::iterator iter = array_handle.begin(); iter != array_handle.end(); ++iter) //{ // typed_cpp_arg->push_back(*iter); //} //So we do this: char** char_array_next = *typed_arg; while(char_array_next && *char_array_next) { typed_cpp_arg->push_back(*char_array_next); ++char_array_next; } } break; } case G_OPTION_ARG_FILENAME_ARRAY: { char*** typed_arg = static_cast(carg_); vecustrings* typed_cpp_arg = static_cast(cpparg_); if(typed_arg && typed_cpp_arg) { typed_cpp_arg->clear(); //See comments above about the SUN Forte and Tru64 compilers. char** char_array_next = *typed_arg; while(char_array_next && *char_array_next) { typed_cpp_arg->push_back(*char_array_next); ++char_array_next; } } break; } case G_OPTION_ARG_NONE: /* Actually a boolean. */ { *(static_cast(cpparg_)) = *(static_cast(carg_)); break; } default: { /* TODO: G_OPTION_ARG_CALLBACK, */ break; } } } GOptionGroup* OptionGroup::gobj_give_ownership() { has_ownership_ = false; return gobj(); } } // namespace Glib namespace { } // anonymous namespace namespace Glib { void OptionGroup::set_translation_domain(const Glib::ustring& domain) { g_option_group_set_translation_domain(gobj(), domain.c_str()); } } // namespace Glib