/*************************************************************************** * Copyright (C) 2005 by David Saxton * * david@bluehaze.org * * * * This program is free software; you can redistribute it and/or modify * * it under the terms of the GNU General Public License as published by * * the Free Software Foundation; either version 2 of the License, or * * (at your option) any later version. * ***************************************************************************/ #include "icndocument.h" #include "item.h" #include "itemgroup.h" #include "mechanicsdocument.h" #include ItemGroup::ItemGroup( ItemDocument *view, const char *name ) : TQObject( view, name ) { m_activeItem = 0l; b_itemsAreSameType = true; p_view = view; p_icnDocument = dynamic_cast(p_view); p_mechanicsDocument = dynamic_cast(p_view); TQTimer::singleShot( 0, this, TQT_SLOT(getViewPtrs()) ); } ItemGroup::~ItemGroup() { } void ItemGroup::getViewPtrs() { p_icnDocument = dynamic_cast(p_view); p_mechanicsDocument = dynamic_cast(p_view); } ItemList ItemGroup::items( bool excludeParentedItems ) const { if (excludeParentedItems) return m_itemList; ItemList items = m_itemList; ItemList parents = m_itemList; uint oldSize = items.size(); do { oldSize = items.size(); ItemList tqchildren; ItemList::iterator end = parents.end(); for ( ItemList::iterator it = parents.begin(); it != end; ++it ) tqchildren += (*it)->tqchildren(); end = tqchildren.end(); for ( ItemList::iterator it = tqchildren.begin(); it != end; ++it ) { if ( tqchildren.contains(*it) > 1 ) *it = 0l; } tqchildren.remove((Item*)0l); items += tqchildren; parents = tqchildren; } while ( oldSize != items.size() ); return items; } bool ItemGroup::itemsHaveSameDataValue( const TQString &id ) const { if ( m_itemList.size() < 1 ) { return true; } if (!itemsAreSameType()) { return false; } ItemList::const_iterator it = m_itemList.begin(); const ItemList::const_iterator end = m_itemList.end(); TQVariant firstData = (*it)->property(id)->value(); for ( ++it; it != end; ++it ) { if ( (*it) && (*it)->property(id) && (*it)->property(id)->value() != firstData ) { return false; } } return true; } bool ItemGroup::itemsHaveSameData() const { if ( m_itemList.size() < 1 ) { return true; } if (!itemsAreSameType()) { return false; } VariantDataMap *variantMap = m_itemList.first()->variantMap(); const VariantDataMap::const_iterator vitEnd = variantMap->end(); for ( VariantDataMap::const_iterator vit = variantMap->begin(); vit != vitEnd; ++vit ) { if ( !itemsHaveSameDataValue(vit.key()) ) { return false; } } return true; } bool ItemGroup::itemsHaveDefaultData() const { if (!itemsHaveSameData()) { return false; } if ( m_itemList.size() < 1 ) { return true; } VariantDataMap *variantMap = (*m_itemList.begin())->variantMap(); const VariantDataMap::const_iterator vitEnd = variantMap->end(); for ( VariantDataMap::const_iterator vit = variantMap->begin(); vit != vitEnd; ++vit ) { if ( !vit.data()->isHidden() && vit.data()->value() != vit.data()->defaultValue() ) return false; } return true; } void ItemGroup::registerItem( Item *item ) { if ( !item || m_itemList.contains(item) ) { return; } m_itemList += item; updateAreSameStatus(); } void ItemGroup::unregisterItem( Item *item ) { if ( m_itemList.remove(item) > 0 ) { updateAreSameStatus(); } } void ItemGroup::updateAreSameStatus() { b_itemsAreSameType = true; if ( m_itemList.size() < 2 ) { return; } TQString activeId = (*m_itemList.begin())->id(); int discardIndex = activeId.findRev("__"); if ( discardIndex != -1 ) activeId.truncate(discardIndex); const ItemList::iterator end = m_itemList.end(); for ( ItemList::iterator it = ++m_itemList.begin(); it != end && b_itemsAreSameType; ++it ) { if (*it) { TQString id = (*it)->id(); discardIndex = id.findRev("__"); if ( discardIndex != -1 ) id.truncate(discardIndex); if ( id != activeId ) { b_itemsAreSameType = false; } } } } void ItemGroup::slotAlignHorizontally() { if ( m_itemList.size() < 2 ) return; double avg_y = 0.; const ItemList::iterator end = m_itemList.end(); for ( ItemList::iterator it = m_itemList.begin(); it != end; ++it ) avg_y += (*it)->y(); int new_y = int(avg_y/(8*m_itemList.size()))*8+4; for ( ItemList::iterator it = m_itemList.begin(); it != end; ++it ) (*it)->move( (*it)->x(), new_y ); p_icnDocument->requestStateSave(); } void ItemGroup::slotAlignVertically() { if ( m_itemList.size() < 2 ) return; double avg_x = 0.; const ItemList::iterator end = m_itemList.end(); for ( ItemList::iterator it = m_itemList.begin(); it != end; ++it ) avg_x += (*it)->x(); int new_x = int(avg_x/(8*m_itemList.size()))*8+4; for ( ItemList::iterator it = m_itemList.begin(); it != end; ++it ) (*it)->move( new_x, (*it)->y() ); p_icnDocument->requestStateSave(); } void ItemGroup::slotDistributeHorizontally() { if ( m_itemList.size() < 2 ) return; // We sort the items by their horizontal position so that we can calculate // an average spacing typedef std::multimap< double, Item * > DIMap; DIMap ranked; const ItemList::iterator ilend = m_itemList.end(); for ( ItemList::iterator it = m_itemList.begin(); it != ilend; ++it ) ranked.insert( std::make_pair( (*it)->x(), *it ) ); double avg_spacing = 0; Item * previous = 0l; const DIMap::iterator rankedEnd = ranked.end(); for ( DIMap::iterator it = ranked.begin(); it != rankedEnd; ++it ) { Item * item = it->second; if (previous) { double spacing = item->x() + item->offsetX() - (previous->x() + previous->width() + previous->offsetX()); avg_spacing += spacing; } previous = item; } avg_spacing /= (m_itemList.size()-1); DIMap::iterator it = ranked.begin(); // Position that we are up to double at = it->second->x() + it->second->width() + it->second->offsetX(); for ( ++it; it != rankedEnd; ++it ) { Item * item = it->second; double new_x = at - item->offsetX() + avg_spacing; item->move( int(new_x/8)*8+4, item->y() ); at = new_x + item->width() + item->offsetX(); } p_icnDocument->requestStateSave(); } void ItemGroup::slotDistributeVertically() { if ( m_itemList.size() < 2 ) return; // We sort the items by their horizontal position so that we can calculate // an average spacing typedef std::multimap< double, Item * > DIMap; DIMap ranked; const ItemList::iterator ilend = m_itemList.end(); for ( ItemList::iterator it = m_itemList.begin(); it != ilend; ++it ) ranked.insert( std::make_pair( (*it)->y(), *it ) ); double avg_spacing = 0; Item * previous = 0l; const DIMap::iterator rankedEnd = ranked.end(); for ( DIMap::iterator it = ranked.begin(); it != rankedEnd; ++it ) { Item * item = it->second; if (previous) { double spacing = item->y() + item->offsetY() - (previous->y() + previous->height() + previous->offsetY()); avg_spacing += spacing; } previous = item; } avg_spacing /= (m_itemList.size()-1); DIMap::iterator it = ranked.begin(); // Position that we are up to double at = it->second->y() + it->second->height() + it->second->offsetY(); for ( ++it; it != rankedEnd; ++it ) { Item * item = it->second; double new_y = at - item->offsetY() + avg_spacing; item->move( item->x(), int(new_y/8)*8+4 ); at = new_y + item->height() + item->offsetY(); } p_icnDocument->requestStateSave(); } #include "itemgroup.moc"