// Copyright (C) 2007-2016 CEA/DEN, EDF R&D, OPEN CASCADE // // Copyright (C) 2003-2007 OPEN CASCADE, EADS/CCR, LIP6, CEA/DEN, // CEDRAT, EDF R&D, LEG, PRINCIPIA R&D, BUREAU VERITAS // // 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., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA // // See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com // // SMESH SMESH : implementaion of SMESH idl descriptions // File : StdMeshers_NumberOfSegments.hxx // Moved here from SMESH_NumberOfSegments.hxx // Author : Paul RASCLE, EDF // Module : SMESH // #ifndef _SMESH_NUMBEROFSEGMENTS_HXX_ #define _SMESH_NUMBEROFSEGMENTS_HXX_ #include "SMESH_StdMeshers.hxx" #include "SMESH_Hypothesis.hxx" #include "Utils_SALOME_Exception.hxx" #include /*! * \brief This class represents hypothesis for 1d algorithm * * It provides parameters for subdivision an edge by various * distribution types, considering the given number of resulting segments */ class STDMESHERS_EXPORT StdMeshers_NumberOfSegments: public SMESH_Hypothesis { public: StdMeshers_NumberOfSegments(int hypId, int studyId, SMESH_Gen* gen); virtual ~StdMeshers_NumberOfSegments(); // Builds point distribution according to passed function const std::vector& BuildDistributionExpr( const char*, int, int ) throw ( SALOME_Exception ); const std::vector& BuildDistributionTab( const std::vector&, int, int ) throw ( SALOME_Exception ); /*! * \brief Set the number of segments * \param segmentsNumber - must be greater than zero */ void SetNumberOfSegments(int segmentsNumber) throw (SALOME_Exception); /*! * \brief Get the number of segments */ int GetNumberOfSegments() const; /*! * \brief This enumeration presents available types of distribution */ enum DistrType { DT_Regular, //!< equidistant distribution DT_Scale, //!< scale distribution DT_TabFunc, //!< distribution with density function presented by table DT_ExprFunc //!< distribution with density function presented by expression }; /*! * \brief Set distribution type */ void SetDistrType(DistrType typ) throw (SALOME_Exception); /*! * \brief Get distribution type */ DistrType GetDistrType() const; /*! * \brief Set scale factor for scale distribution * \param scaleFactor - positive value different from 1 * * Throws SALOME_Exception if distribution type is not DT_Scale, * or scaleFactor is not a positive value different from 1 */ virtual void SetScaleFactor(double scaleFactor) throw (SALOME_Exception); /*! * \brief Get scale factor for scale distribution * * Throws SALOME_Exception if distribution type is not DT_Scale */ double GetScaleFactor() const throw (SALOME_Exception); /*! * \brief Set table function for distribution DT_TabFunc * \param table - this vector contains the pairs (parameter, value) * following each by other, so the number of elements in the vector * must be even. The parameters must be in range [0,1] and sorted in * increase order. The values of function must be positive. * * Throws SALOME_Exception if distribution type is not DT_TabFunc */ void SetTableFunction(const std::vector& table) throw (SALOME_Exception); /*! * \brief Get table function for distribution DT_TabFunc * * Throws SALOME_Exception if distribution type is not DT_TabFunc */ const std::vector& GetTableFunction() const throw (SALOME_Exception); /*! * \brief Set expression function for distribution DT_ExprFunc * \param expr - string containing the expression of the function * f(t), e.g. "sin(t)" * * Throws SALOME_Exception if distribution type is not DT_ExprFunc */ void SetExpressionFunction( const char* expr) throw (SALOME_Exception); /*! * \brief Get expression function for distribution DT_ExprFunc * * Throws SALOME_Exception if distribution type is not DT_ExprFunc */ const char* GetExpressionFunction() const throw (SALOME_Exception); /*! * \brief Checks validity of the expression of the function f(t), e.g. "sin(t)". * In case of validity returns a cleaned expression * \param convMode - 0 for "Exponent mode", 1 for "Cut negative mode" */ static std::string CheckExpressionFunction( const std::string& expr, const int convMode) throw (SALOME_Exception); /*! * \brief Set conversion mode. When it is 0, it means "exponent mode": * the function of distribution of density is used as an exponent of 10, i,e, 10^f(t). * When it is 1, it means "cut negative mode". The function of distribution is used as * F(t), where F(t0)=f(t0), if f(t0)>=0, otherwise F(t0) = 0. * This mode is sensible only when function distribution is used (DT_TabFunc or DT_ExprFunc) * * Throws SALOME_Exception if distribution type is not functional */ void SetConversionMode( int conv ) throw (SALOME_Exception); /*! * \brief Returns conversion mode * * Throws SALOME_Exception if distribution type is not functional */ int ConversionMode() const throw (SALOME_Exception); void SetReversedEdges( std::vector& ids); void SetObjectEntry( const char* entry ) { _objEntry = entry; } const char* GetObjectEntry() { return _objEntry.c_str(); } const std::vector& GetReversedEdges() const { return _edgeIDs; } /*! * \brief Initialize number of segments by the mesh built on the geometry * \param theMesh - the built mesh * \param theShape - the geometry of interest * \retval bool - true if parameter values have been successfully defined */ virtual bool SetParametersByMesh(const SMESH_Mesh* theMesh, const TopoDS_Shape& theShape); /*! * \brief Initialize my parameter values by default parameters. * \retval bool - true if parameter values have been successfully defined */ virtual bool SetParametersByDefaults(const TDefaults& dflts, const SMESH_Mesh* theMesh=0); virtual std::ostream & SaveTo(std::ostream & save); virtual std::istream & LoadFrom(std::istream & load); friend std::ostream& operator << (std::ostream & save, StdMeshers_NumberOfSegments & hyp); friend std::istream& operator >> (std::istream & load, StdMeshers_NumberOfSegments & hyp); protected: int _numberOfSegments; //!< an edge will be split on to this number of segments DistrType _distrType; //!< the type of distribution of density function double _scaleFactor; //!< the scale parameter for DT_Scale std::vector _table, _distr; //!< the table for DT_TabFunc, a sequence of pairs of numbers std::string _func; //!< the expression of the function for DT_ExprFunc int _convMode; //!< flag of conversion mode: 0=exponent, 1=cut negative std::vector _edgeIDs; //!< list of reversed edges ids std::string _objEntry; //!< Entry of the main object to reverse edges }; #endif