// Copyright (C) 2003 Dominique Devriese // 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. // This program 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 General Public License for more details. // You should have received a copy of the GNU General Public License // along with this program; if not, write to the Free Software // Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA // 02110-1301, USA. #include "object_calcer.h" #include "object_holder.h" #include "object_imp.h" #include "object_type.h" #include "../misc/coordinate.h" #include "common.h" #include #include void ObjectTypeCalcer::calc( const KigDocument& doc ) { Args a; a.reserve( mparents.size() ); std::transform( mparents.begin(), mparents.end(), std::back_inserter( a ), std::mem_fun( &ObjectCalcer::imp ) ); ObjectImp* n = mtype->calc( a, doc ); delete mimp; mimp = n; } ObjectTypeCalcer::ObjectTypeCalcer( const ObjectType* type, const std::vector& parents, bool sort ) : mparents( ( sort )?type->sortArgs( parents ):parents ), mtype( type ), mimp( 0 ) { std::for_each( mparents.begin(), mparents.end(), std::bind2nd( std::mem_fun( &ObjectCalcer::addChild ), this ) ); } ObjectCalcer::~ObjectCalcer() { } ObjectConstCalcer::ObjectConstCalcer( ObjectImp* imp ) : mimp( imp ) { } ObjectConstCalcer::~ObjectConstCalcer() { delete mimp; } const ObjectImp* ObjectConstCalcer::imp() const { return mimp; } void ObjectConstCalcer::calc( const KigDocument& ) { } std::vector ObjectConstCalcer::parents() const { // we have no parents.. return std::vector(); } void ObjectCalcer::ref() { ++refcount; } void ObjectCalcer::deref() { if ( --refcount <= 0 ) delete this; } void intrusive_ptr_add_ref( ObjectCalcer* p ) { p->ref(); } void intrusive_ptr_release( ObjectCalcer* p ) { p->deref(); } const ObjectImp* ObjectTypeCalcer::imp() const { return mimp; } std::vector ObjectTypeCalcer::parents() const { return mparents; } void ObjectCalcer::addChild( ObjectCalcer* c ) { mtqchildren.push_back( c ); ref(); } void ObjectCalcer::delChild( ObjectCalcer* c ) { std::vector::iterator i = std::find( mtqchildren.begin(), mtqchildren.end(), c ); assert( i != mtqchildren.end() ); mtqchildren.erase( i ); deref(); } ObjectTypeCalcer::~ObjectTypeCalcer() { std::for_each( mparents.begin(), mparents.end(), std::bind2nd( std::mem_fun( &ObjectCalcer::delChild ), this ) ); delete mimp; } const ObjectType* ObjectTypeCalcer::type() const { return mtype; } ObjectPropertyCalcer::ObjectPropertyCalcer( ObjectCalcer* tqparent, int propid ) : mimp( 0 ), mtqparent( tqparent ), mpropid( propid ) { // Some weird C++ thing prevents me from calling protected members // of ObjectCalcer on mtqparent.. This is an ugly workaround.. ( mtqparent->*&ObjectCalcer::addChild )( this ); //mtqparent->addChild( this ); } ObjectPropertyCalcer::~ObjectPropertyCalcer() { // Some weird C++ thing prevents me from calling protected members // of ObjectCalcer on mtqparent.. This is an ugly workaround.. ( mtqparent->*&ObjectCalcer::delChild )( this ); //mtqparent->delChild( this ); delete mimp; } const ObjectImp* ObjectPropertyCalcer::imp() const { return mimp; } std::vector ObjectPropertyCalcer::parents() const { std::vector ret; ret.push_back( mtqparent ); return ret; } void ObjectPropertyCalcer::calc( const KigDocument& doc ) { ObjectImp* n = mtqparent->imp()->property( mpropid, doc ); delete mimp; mimp = n; } ObjectImp* ObjectConstCalcer::switchImp( ObjectImp* newimp ) { ObjectImp* ret = mimp; mimp = newimp; return ret; } std::vector ObjectCalcer::tqchildren() const { return mtqchildren; } const ObjectImpType* ObjectPropertyCalcer::impRequirement( ObjectCalcer*, const std::vector& ) const { return mtqparent->imp()->impRequirementForProperty( mpropid ); } const ObjectImpType* ObjectConstCalcer::impRequirement( ObjectCalcer*, const std::vector& ) const { assert( false ); return ObjectImp::stype(); } const ObjectImpType* ObjectTypeCalcer::impRequirement( ObjectCalcer* o, const std::vector& os ) const { Args args; args.reserve( mparents.size() ); std::transform( os.begin(), os.end(), std::back_inserter( args ), std::mem_fun( &ObjectCalcer::imp ) ); assert( std::find( args.begin(), args.end(), o->imp() ) != args.end() ); return mtype->impRequirement( o->imp(), args ); } int ObjectPropertyCalcer::propId() const { return mpropid; } void ObjectConstCalcer::setImp( ObjectImp* newimp ) { delete switchImp( newimp ); } void ObjectTypeCalcer::setParents( const std::vector np ) { std::for_each( np.begin(), np.end(), std::bind2nd( std::mem_fun( &ObjectCalcer::addChild ), this ) ); std::for_each( mparents.begin(), mparents.end(), std::bind2nd( std::mem_fun( &ObjectCalcer::delChild ), this ) ); mparents = np; } void ObjectTypeCalcer::setType( const ObjectType* t ) { mtype = t; } bool ObjectCalcer::canMove() const { return false; } bool ObjectCalcer::isFreelyTranslatable() const { return false; } Coordinate ObjectCalcer::moveReferencePoint() const { assert( false ); return Coordinate::invalidCoord(); } void ObjectCalcer::move( const Coordinate&, const KigDocument& ) { assert( false ); } bool ObjectTypeCalcer::canMove() const { return mtype->canMove( *this ); } bool ObjectTypeCalcer::isFreelyTranslatable() const { return mtype->isFreelyTranslatable( *this ); } Coordinate ObjectTypeCalcer::moveReferencePoint() const { return mtype->moveReferencePoint( *this ); } void ObjectTypeCalcer::move( const Coordinate& to, const KigDocument& doc ) { // we need to check if type can in fact move, because this check is // not done for us in all circumstances ( e.g. LineABType::move uses // move on its parents to move them ), and the ObjectType's depend // on move only being called if canMove() returns true.. if ( mtype->canMove( *this ) ) mtype->move( *this, to, doc ); } ObjectCalcer* ObjectPropertyCalcer::tqparent() const { return mtqparent; } ObjectCalcer::ObjectCalcer() : refcount( 0 ) { } std::vector ObjectCalcer::movableParents() const { return std::vector(); } std::vector ObjectTypeCalcer::movableParents() const { return mtype->movableParents( *this ); } bool ObjectConstCalcer::isDefinedOnOrThrough( const ObjectCalcer* ) const { return false; } bool ObjectPropertyCalcer::isDefinedOnOrThrough( const ObjectCalcer* o ) const { return o == mtqparent && mtqparent->imp()->isPropertyDefinedOnOrThroughThisImp( propId() ); } bool ObjectTypeCalcer::isDefinedOnOrThrough( const ObjectCalcer* o ) const { Args args; args.reserve( mparents.size() ); std::transform( mparents.begin(), mparents.end(), std::back_inserter( args ), std::mem_fun( &ObjectCalcer::imp ) ); if ( std::find( args.begin(), args.end(), o->imp() ) == args.end() ) return false; return mtype->isDefinedOnOrThrough( o->imp(), args ); }