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/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- */
/*
* This file is part of the LibreOffice project.
*
* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at http://mozilla.org/MPL/2.0/.
*
*/
#pragma once
#include <memory>
#include <utility>
#include <variant>
#include <rtl/ustring.hxx>
#include <com/sun/star/beans/PropertyValue.hpp>
class ScTable;
class ScDocShell;
namespace sc
{
// These values are MS compatible
enum ObjectiveType
{
OT_MAXIMIZE = 1,
OT_MINIMIZE = 2,
OT_VALUE = 3
};
enum SolverParameter
{
SP_OBJ_CELL, // Objective cell
SP_OBJ_TYPE, // Objective type (max, min, value)
SP_OBJ_VAL, // Value (used when objective is of type "value")
SP_VAR_CELLS, // Variable cells
SP_CONSTR_COUNT, // Number of constraints (MSO only)
SP_LO_ENGINE, // Engine name used in LO
SP_MS_ENGINE, // Engine ID used in MSO
SP_INTEGER, // Assume all variables are integer (0: no, 1: yes)
SP_NON_NEGATIVE, // Assume non negativity (1: yes, 2: no)
SP_EPSILON_LEVEL, // Epsilon level
SP_LIMIT_BBDEPTH, // Branch and bound depth
SP_TIMEOUT, // Time limit to return a solution
SP_ALGORITHM // Algorithm used by the SwarmSolver (1, 2 or 3)
};
// Starts at 1 to maintain MS compatibility
enum ConstraintOperator
{
CO_LESS_EQUAL = 1,
CO_EQUAL = 2,
CO_GREATER_EQUAL = 3,
CO_INTEGER = 4,
CO_BINARY = 5
};
// Parts of a constraint
enum ConstraintPart
{
CP_LEFT_HAND_SIDE,
CP_OPERATOR,
CP_RIGHT_HAND_SIDE
};
// Stores the information of a single constraint (condition)
struct ModelConstraint
{
OUString aLeftStr;
ConstraintOperator nOperator;
OUString aRightStr;
ModelConstraint()
: nOperator(CO_LESS_EQUAL)
{
}
bool IsDefault() const
{
return aLeftStr.isEmpty() && aRightStr.isEmpty() && nOperator == CO_LESS_EQUAL;
}
};
/* Class SolverSettings
*
* This class is used to load/save and manipulate solver settings in a Calc tab.
*
* During initialization, (see Initialize() method) all settings stored in the tab are loaded onto
* the object. Settings that are not defined use default values.
*
* Read/Write methods are private and are used internally to load/write solver settings from
* named ranges associated with the sheet.
*
* Get/Set methods are public methods used to change object properties (they do not save data
* to the file).
*
* The method SaveSolverSettings() is used to create the named ranges containing the current
* property values into the file.
*
*/
class SolverSettings
{
private:
ScTable& m_rTable;
ScDocument& m_rDoc;
ScDocShell* m_pDocShell;
// Used to read/write the named ranges in the tab
ScRangeName* m_pRangeName;
OUString m_sObjCell;
ObjectiveType m_eObjType;
OUString m_sObjVal;
OUString m_sVariableCells;
OUString m_sLOEngineName;
OUString m_sMSEngineId;
// Solver engine options
OUString m_sInteger;
OUString m_sNonNegative;
OUString m_sEpsilonLevel;
OUString m_sLimitBBDepth;
OUString m_sTimeout;
OUString m_sAlgorithm;
css::uno::Sequence<css::beans::PropertyValue> m_aEngineOptions;
std::vector<ModelConstraint> m_aConstraints;
void Initialize();
// Used to create or read a single solver parameter based on its named range
bool ReadParamValue(SolverParameter eParam, OUString& rValue, bool bRemoveQuotes = false);
void WriteParamValue(SolverParameter eParam, OUString sValue, bool bQuoted = false);
// Creates or reads all constraints stored in named ranges
void ReadConstraints();
void WriteConstraints();
// Used to create or get a single constraint part
bool ReadConstraintPart(ConstraintPart ePart, tools::Long nIndex, OUString& rValue);
void WriteConstraintPart(ConstraintPart ePart, tools::Long nIndex, OUString sValue);
// Creates or reads all named ranges associated with solver engine options
void ReadEngine();
void WriteEngine();
void DeleteAllNamedRanges();
// Maps solver parameters to named ranges
std::map<SolverParameter, OUString> m_mNamedRanges
= { { SP_OBJ_CELL, "solver_opt" }, { SP_OBJ_TYPE, "solver_typ" },
{ SP_OBJ_VAL, "solver_val" }, { SP_VAR_CELLS, "solver_adj" },
{ SP_CONSTR_COUNT, "solver_num" }, { SP_LO_ENGINE, "solver_lo_eng" },
{ SP_MS_ENGINE, "solver_eng" }, { SP_INTEGER, "solver_int" },
{ SP_NON_NEGATIVE, "solver_neg" }, { SP_EPSILON_LEVEL, "solver_eps" },
{ SP_LIMIT_BBDEPTH, "solver_bbd" }, { SP_TIMEOUT, "solver_tim" },
{ SP_ALGORITHM, "solver_alg" } };
// Maps LO solver implementation names to MS engine codes
std::map<OUString, OUString> SolverNamesToExcelEngines = {
{ "com.sun.star.comp.Calc.CoinMPSolver", "2" }, // Simplex LP
{ "com.sun.star.comp.Calc.LpsolveSolver", "2" }, // Simplex LP
{ "com.sun.star.comp.Calc.SwarmSolver", "1" } // GRG Nonlinear
};
// Maps MS solver engine codes to LO solver implementation names
std::map<OUString, OUString> SolverCodesToLOEngines = {
{ "1", "com.sun.star.comp.Calc.SwarmSolver" }, // GRG Nonlinear
{ "2", "com.sun.star.comp.Calc.CoinMPSolver" }, // Simplex LP
{ "3", "com.sun.star.comp.Calc.SwarmSolver" } // Evolutionary
};
// Maps LO solver parameters to named ranges to be used
// NonNegative: for MS compatibility, use 1 for selected and 2 for not selected
typedef std::vector<std::variant<OUString, SolverParameter>> TParamInfo;
std::map<OUString, TParamInfo> SolverParamNames
= { { "Integer", { SP_INTEGER, "solver_int", "bool" } },
{ "NonNegative", { SP_NON_NEGATIVE, "solver_neg", "bool" } },
{ "EpsilonLevel", { SP_EPSILON_LEVEL, "solver_eps", "int" } },
{ "LimitBBDepth", { SP_LIMIT_BBDEPTH, "solver_bbd", "bool" } },
{ "Timeout", { SP_TIMEOUT, "solver_tim", "int" } },
{ "Algorithm", { SP_ALGORITHM, "solver_alg", "int" } } };
// Stores the roots used for named ranges of constraint parts
// Items here must be in the same order as in ConstraintPart enum
std::vector<OUString> m_aConstraintParts{ "solver_lhs", "solver_rel", "solver_rhs" };
public:
/* A SolverSettings object is linked to the ScTable where solver parameters
* are located and saved to */
SolverSettings(ScTable& pTable);
SC_DLLPUBLIC OUString GetParameter(SolverParameter eParam);
SC_DLLPUBLIC void SetParameter(SolverParameter eParam, OUString sValue);
SC_DLLPUBLIC ObjectiveType GetObjectiveType() { return m_eObjType; }
SC_DLLPUBLIC void SetObjectiveType(ObjectiveType eType);
SC_DLLPUBLIC void GetEngineOptions(css::uno::Sequence<css::beans::PropertyValue>& aOptions);
SC_DLLPUBLIC void SetEngineOptions(css::uno::Sequence<css::beans::PropertyValue>& aOptions);
SC_DLLPUBLIC std::vector<ModelConstraint> GetConstraints() { return m_aConstraints; }
SC_DLLPUBLIC void SetConstraints(std::vector<ModelConstraint> aConstraints);
SC_DLLPUBLIC void SaveSolverSettings();
SC_DLLPUBLIC void ResetToDefaults();
};
} // namespace sc
/* vim:set shiftwidth=4 softtabstop=4 expandtab: */
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