/* ---- This file is part of SECONDO. Copyright (C) 2004, University in Hagen, Department of Computer Science, Database Systems for New Applications. SECONDO 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. SECONDO 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 SECONDO; if not, write to the Free Software Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA ---- //paragraph [1] Title: [{\Large \bf \begin {center}] [\end {center}}] //[TOC] [\tableofcontents] //[_] [\_] [1] Header File for the class ~SimpleIntersectionAlgorithm~ [TOC] 1 Overview This header file contains the class ~SimpleIntersectionAlgorithm~. This file is not required for SECONDO. It is only used inside the test project. The ~SimpleIntersectionAlgorithm~ is the base class for all test intersection algorithms. The input and the output are handled inside this class. 1 Includes */ #pragma once #include "IntersectionAlgorithm.h" namespace RobustPlaneSweep { /* 1 Class ~SimpleIntersectionAlgorithm~ */ class SimpleIntersectionAlgorithm : public IntersectionAlgorithm { private: std::vector* _internalSegments; /* 1.1 ~CreateInternalLineSegments~ */ void CreateInternalLineSegments() { _internalSegments = new std::vector(); GetData()->InitializeFetch(); HalfSegment segment; Point point; bool belongsToSecondGeometry; while (GetData()->FetchInput(segment, point, belongsToSecondGeometry)) { if (segment.IsLeftDomPoint()) { bool isRegion; if (belongsToSecondGeometry) { isRegion = SecondGeometryIsRegion(); } else { isRegion = FirstGeometryIsRegion(); } InternalLineSegment* internalSegment = new InternalLineSegment(*GetTransformation(), segment, belongsToSecondGeometry, isRegion); if (!InternalPoint::IsEqual(internalSegment->GetLeft(), internalSegment->GetRight())) { _internalSegments->push_back(internalSegment); } else { delete internalSegment; } } } } /* 1.1 ~CreateResult~ */ void CreateResult(); protected: /* 1.1 ~GetInputBegin~ */ const std::vector::const_iterator GetInputBegin() const { return _internalSegments->begin(); } /* 1.1 ~GetInputEnd~ */ const std::vector::const_iterator GetInputEnd() const { return _internalSegments->end(); } /* 1.1 ~GetInputSize~ */ size_t GetInputSize() const { return _internalSegments->size(); } /* 1.1 ~DetermineIntersectionsInternal~ */ virtual void DetermineIntersectionsInternal() = 0; public: /* 1.1 ~DetermineIntersections~ */ void DetermineIntersections() { if (GetTransformation() == NULL) { CreateTransformation(); } CreateInternalLineSegments(); DetermineIntersectionsInternal(); CreateResult(); GetData()->OutputFinished(); } /* 1.1 Constructors */ explicit SimpleIntersectionAlgorithm(IntersectionAlgorithmData* data) : IntersectionAlgorithm(data) { _internalSegments = NULL; } ~SimpleIntersectionAlgorithm() { if (_internalSegments != NULL) { for (std::vector::const_iterator i = _internalSegments->begin(); i != _internalSegments->end(); ++i) { delete (*i); } delete _internalSegments; _internalSegments = NULL; } } }; }