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/*****************************************************************************
TRAVIS - Trajectory Analyzer and Visualizer
http://www.travis-analyzer.de/
Copyright (c) 2009-2020 Martin Brehm
2012-2020 Martin Thomas
2016-2020 Sascha Gehrke
Please cite: J. Chem. Phys. 2020, 152 (16), 164105. (DOI 10.1063/5.0005078 )
J. Chem. Inf. Model. 2011, 51 (8), 2007-2023. (DOI 10.1021/ci200217w )
This file was written by Martin Brehm and Martin Thomas.
---------------------------------------------------------------------------
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 3 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, see <http://www.gnu.org/licenses/>.
*****************************************************************************/
#ifndef GLOBALVAR_H
#define GLOBALVAR_H
// This must always be the first include directive
#include "config.h"
#include "asciiart.h"
#include "database.h"
#include "timestep.h"
#include "domain.h"
#include "vorowrapper.h"
#include "tetrapak.h"
#include "roa.h"
#include "bqb.h"
#include "fixplproj.h"
#include "order.h"
#include "contactmatrix.h"
#include "tddf.h"
#include "geodens.h"
#include "aggrtopo.h"
class CxString;
class CReactiveEngine;
extern CxObArray g_oaAtoms; // Die Atomsorten der Simulation
extern CxObArray g_oaMolecules; // Die Molekuelsorten der Simulation
extern CxObArray g_oaSingleMolecules;
extern CxObArray g_oaObserv;
extern CxObArray g_oaVirtualAtoms;
extern CTimeStep g_TimeStep;
extern char g_iFixMol; // Welches Molekuel fixieren wir?
extern int g_iFixAtomType[3]; // Welches Element fixieren wir? (3 mal wegen den 3 Fixpunkten)
extern int g_iFixRealAtomType[3]; // Wie Eben, nur Index auf g_pAtoms
extern int g_iFixAtom[3]; // Welche Atome in in dem Molekuel fixieren?
extern int g_iCurrentTimeStep, g_iLastTimeStep, g_iNextTimeStep;
extern unsigned long g_iSteps; // Zaehler fuer die schon verarbeiteten Zeitschritte
extern unsigned char g_iBinning;
extern bool g_bFold;
extern bool g_bWarnUnsteady;
extern double g_fUnsteadyLimit;
extern FILE *g_fSaveJustTraj;
extern unsigned char g_iVirtAtomType;
extern double g_fVelLimit, g_fForceLimit;
extern double g_fMSVDFLevel, g_fMSFDFLevel;
extern bool g_bCalcVel, g_bCalcForces;
extern bool g_bManSVDFLevel, g_bManSFDFLevel;
extern bool g_bManSMeanVDFLevel, g_bManSMeanFDFLevel;
extern bool g_bManSMaxVDFLevel, g_bManSMaxFDFLevel;
extern double g_fSVDFLevel[16];
extern double g_fSMeanVDFLevel[16];
extern double g_fSMaxVDFLevel[16];
extern double g_fSFDFLevel[16];
extern double g_fSMeanFDFLevel[16];
extern double g_fSMaxFDFLevel[16];
//extern char g_sRefEnv[256];
extern CxString g_sRefEnv;
extern bool g_bUseVelocities;
extern bool g_bUseForces;
extern double g_fBoxX, g_fBoxY, g_fBoxZ;
extern CxDVec3Array g_pRefMol; // Die Koordinaten des Referenzmolekueles (zum akkumulieren)
extern bool g_bAvg; // Gemitteltes Referenzmolekuel ausgeben
extern bool g_bMiddleAvg; // Soll das Referenzmolekuel wirklich gemittelt werden (true), oder soll einfach das erstbeste Molekuel genommen werden (false)?
extern int g_iGesAtomCount; // Gesamtzahl der Atome pro Zeitschritt - also in der Simulation
extern int g_iGesVirtAtomCount;
extern int g_iMaxStep; // Bis zu welchem Zeitschritt geht die Analyse? -1 fuer alle
extern unsigned char g_iSwapAtoms; // Sollen Atome, die sich frei drehen oder sich vertauschen, zurueckgetauscht werden?
extern unsigned char g_iNormSDF; // 0 - jede SDF einzeln auf 100, 1 - gar nicht normieren
extern unsigned char g_iSVDFLevel, g_iSFDFLevel;
extern bool g_bMegaMat;
extern bool g_bMatOnlyBind;
extern bool g_bVFHisto;
extern unsigned short g_iHistogramRes;
extern FILE *g_fRefTrajec, *g_fRefEnv, *g_fVRDF[32];
extern CTimeStep *g_pTempTimestep;
extern bool g_bFoldAtomwise;
extern double g_fBondFactor;
extern bool g_bSaveJustTraj;
extern bool g_bSaveVirtAtoms;
extern FILE *g_fVFCorr[64];
extern unsigned short g_iVFCorrCount;
extern bool g_bSaveRefWithEnv;
extern bool g_bRefEnvCenter;
extern bool g_bPeriodicX, g_bPeriodicY, g_bPeriodicZ;
extern bool g_bPeriodic;
extern int g_iStride;
extern CAsciiArt g_oAsciiArt;
extern CTimeStep *g_pT2Timestep;
//extern CNbSearch *g_pNbAll;
extern int g_iClusterPos;
extern CxByteArray g_baAtomIndex;
extern bool g_bScanMolecules;
extern CACF *g_pGlobalVACF;
extern CACF *g_pGlobalDipACF;
extern int g_iRefSystemDim;
//extern bool g_bSaveTrajVirt;
extern FILE *g_fPos, *g_fVel, *g_fForce;
extern double g_fTimestepLength;
extern CFFT *g_pFFT;
extern long g_iHighestStepNumber;
extern int g_iDotCounter;
extern bool g_bStepSkipped;
extern bool g_bAbortAnalysis;
extern CxIntArray g_laBondBlackList;
extern CxIntArray g_laBondAddList;
extern bool g_bMolRecNoDomain;
extern int g_iBondBlackListUsed;
extern int g_iFirstStepSkipped;
extern bool g_bGlobalPsycho;
extern int g_iWannierAtomType;
extern double g_fWannierCharge;
extern bool g_bCombinedDF;
extern bool g_bSDF, g_bRDF;
extern bool g_bVDF, g_bFDF, g_bADF;
extern bool g_bDipole;
extern CxObArray g_oaAnalysisGroups;
extern CxObArray g_oaAnalyses;
extern int g_iStepHistory;
extern CxObArray g_oaTimeSteps;
extern double g_fMaxVel, g_fMaxForce;
extern double g_fLMaxVel, g_fLMaxForce;
extern double g_fLMidVel, g_fLMidForce;
extern bool g_bAsciiArt;
//extern char g_sInputVel[256];
//extern char g_sInputForce[256];
//extern char g_sInputCtrl[256];
extern CxString g_sInputVel;
extern CxString g_sInputForce;
extern CxString g_sInputCtrl;
extern CDatabase *g_pDatabase;
extern CxIntArray g_laAtomSMIndex; // Enthaelt fuer jedes Atom, in welchem SingleMolecule es sich befindet, oder -1 wenn gar nicht
extern CxIntArray g_laAtomSMLocalIndex;
extern CxWordArray g_waAtomElement;
extern CxWordArray g_waAtomMolNumber;
extern CxWordArray g_waAtomMolIndex;
extern CxWordArray g_waAtomRealElement;
//extern CxDoubleArray g_faAtomCode;
extern std::vector<LargeInteger> g_liAtomCode;
extern CxDoubleArray g_faVdWRadius;
extern CxWordArray g_waAtomMolUID;
extern CxObArray g_oaMolAtoms;
extern std::vector<std::vector<int> > g_iaaMoleculeTypeSplit;
extern CxByteArray g_baAtomPassedCondition;
extern int g_iCDFChannels;
extern bool g_bWannier;
extern int g_iScanMolStep;
extern char *g_sInputTraj;
extern bool g_bCDF;
extern int *g_iObsChannel; // 1 - RDF, 2 - ADF, 3 - DDF, 4 - DipDF, 5 - VDF, 6 - FDF
extern bool g_bDDF;
extern bool g_bRevSDF;
extern bool g_bMSD;
extern bool g_bCutCluster;
extern bool g_bSaveRefEnv;
extern unsigned char g_iSaveRefMol;
extern bool g_bRefEnvFix;
extern int g_iClusterSteps, g_iClusterCount;
extern CxIntArray g_iaClusterSteps, g_iaClusterMol;
extern bool g_bNbAnalysis;
extern bool g_bVHDF;
//extern CxObArray g_oaNbSearches;
extern CNbSet *g_pNbSet;
extern bool g_bVACF;
extern bool g_bVFDF;
extern bool g_bGlobalVACF;
extern bool g_bGlobalDipACF;
extern int g_iSDFSmoothGrade;
extern bool g_bACFWindowFunction;
extern bool g_bSaveVelForce;
extern double g_fVelPercentage, g_fForcePercentage;
//extern bool g_bRefNoVirt;
extern unsigned long g_iSaveGesAtoms;
extern bool g_bUnwrap;
extern CxObArray g_oaSaveMolecules;
extern CxDVec3Array g_vaUnwrapArray;
extern int g_iBeginStep;
extern bool g_bSkipDoubleSteps;
extern int g_iNumberPos; // Die wievielte Nummer in der XYZ-Kommentarzeile ist die Schrittzahl?
extern FILE *g_fInput;
extern bool g_bDipACF;
extern bool g_bACF;
extern bool g_bDipDF;
extern bool g_bInputRedirected;
//extern int g_iSDFScale; // 0 = ppm, 1 = pm^-3, 2 = nm^-3, 3 = Rel. to Uniform Density
extern bool g_bSDFUniform;
extern bool g_bDDisp;
extern bool g_bDLDF;
extern bool g_bDLDisp;
extern bool g_bDACF;
extern bool g_bAggregation;
//extern CAggregation *g_pAggregation;
extern bool g_bKeepUnfoldedCoords;
extern CxObArray g_oaElements;
extern bool g_bTDO;
extern bool g_bTDOEqui;
extern int g_iTDOCount;
extern int g_iTDOStride;
extern int g_iTDOStart;
extern CxIntArray g_laTDOSteps;
extern double g_fTDOBleaching;
extern bool g_bMultiInterval;
extern int g_iMultiIntervalBegin;
extern int g_iMultiIntervalStride;
extern int g_iMultiIntervalLength;
extern CxIntArray g_laMultiIntervalStart;
extern CxIntArray g_laMultiIntervalEnd;
extern bool g_bDoubleBox;
extern int g_iDoubleBoxX;
extern int g_iDoubleBoxY;
extern int g_iDoubleBoxZ;
extern int g_iDoubleBoxFactor;
extern int g_iTrajSteps;
extern bool g_bRDyn;
extern bool g_bBondACF;
extern int g_iBondACFDepth;
extern bool g_bBondACFDebug;
extern bool g_bBondACFNormalize;
extern bool g_bBondACFSymmetrize;
extern bool g_bBondACFWindow;
extern bool g_bACFFFT;
extern bool g_bMSDCacheMode;
extern bool g_bRDynCacheMode;
extern bool g_bVACFCacheMode;
extern char *g_sInputFile;
extern FILE *g_fInputFile;
extern char *g_sControlFile;
extern bool g_bControlRun;
extern CDatabase *g_pControlDB;
extern int g_iControlRT;
extern bool g_bReactive;
extern CReactiveEngine *g_pReactEngine;
extern bool g_bSaveCondSnapshot;
extern bool g_bSaveCondWholeBox;
extern FILE *g_fSaveCondFile;
extern int g_iSaveCondCount;
extern bool g_bCond;
//extern CConditionGroup *g_pCondition;
extern bool g_bCombined;
extern unsigned long g_iFastForwardPos;
extern int g_iNbhMode;
extern bool g_bWriteAtomwise;
extern time_t g_iStartTime, g_iEndTime;
extern int g_iTrajFormat;
extern bool g_bScanVelocities;
extern int g_iScanNbhStart;
extern int g_iScanNbhSteps;
extern int g_iScanNbhStride;
extern int g_iScanVelStart;
extern int g_iScanVelSteps;
extern int g_iScanVelStride;
extern bool g_bSilentProgress;
extern char *g_sHomeDir;
extern char *g_sSettingsFile;
extern char *g_sHostName;
extern char *g_sWorkingDir;
extern bool g_bSMode;
extern bool g_bCreateRevSDF;
extern bool g_bNoColor;
extern int g_iColorIntensity;
extern bool g_bNPT;
//extern char g_sNPTFile[256];
extern CxString g_sNPTFile;
extern FILE *g_fNPTFile;
extern bool g_bNbExchange;
extern bool g_bVerbose;
extern bool *g_pUniteTemp;
extern bool g_bCenterZero;
extern bool g_bSaveJustCenter;
extern int g_iSaveJustMol;
extern int g_iSaveJustSM;
extern int g_iSaveJustAtomType;
extern int g_iSaveJustRealAtomType;
extern int g_iSaveJustAtom;
extern bool g_bTimeDiff;
extern bool g_bDeriv;
extern int g_iDerivLast;
extern int g_iDerivCurr;
extern int g_iDerivNext;
extern int g_iCloseAtomCounter;
extern bool g_bVoro;
extern CVoroWrapper *g_pVoroWrapper;
extern bool g_bRemoveCOM;
extern int g_iVoroMemory;
extern bool g_bSaxonize;
extern bool g_bUnknownElements;
extern bool g_bNeedMoleculeWrap;
extern bool g_bAdvanced1;
extern bool g_bAdvanced2;
extern bool g_bVoid;
extern bool g_bDipoleDefined;
extern bool g_bDipolGrimme;
extern bool g_bContactMatrix;
extern CContactMatrix *g_pContactMatrix;
extern bool g_bSaveCoordsUnchanged;
extern bool g_bDens;
extern bool g_bSaveTrajNoRot;
extern bool g_bCheckWrite;
extern bool g_bRaman;
extern bool g_bIRSpec;
extern bool g_bPowerSpec;
extern bool g_bKeepOriginalCoords;
extern bool g_bShowConf;
extern bool g_bWriteConf;
extern char *g_sConfFile;
extern bool g_bPDF;
extern int g_iStrideDetect;
extern double g_fMinPeriodic;
extern bool g_bAggrTopo;
extern CAggrTopoEngine *g_pAggrTopoEngine;
extern bool g_bSankey;
extern char g_sSankeyFile[512];
extern bool g_bRegionAnalysis;
extern CxIntArray g_iaSMRegion;
extern bool g_bDumpDipoleVector;
extern bool g_bDumpDipoleAbs;
extern bool g_bDumpDipoleXYZ;
extern CxObArray g_oaDumpDipoleVector; // Contains CxIntAtrrays
extern FILE *g_fDumpDipole;
extern FILE *g_fDumpDipoleXYZ;
extern FILE *g_fDumpDipolePURE;
extern int g_iDumpDipoleSMCount;
extern int g_iDumpDipoleXYZAtoms;
extern double g_fDumpDipoleScale;
extern bool g_bPlDF;
extern bool g_bLiDF;
extern bool g_bStreamInput;
extern bool g_bGlobalIR;
extern CReorDyn *g_pGlobalIR;
extern bool g_bLMFitSilent;
extern int g_iFitDegree;
extern double *g_pExpSpecExpo;
extern bool g_bLMFitSmooth;
typedef struct {
const double *x;
const double *y;
} lmcurve_data_struct;
extern int g_iLMMaxIter;
extern bool g_bUnwrapWannier;
extern bool g_bDipoleRefFixed;
extern double *g_fLSpecEvolveBuf;
extern bool g_bXYZ4thCol;
extern bool g_bXYZComment6Numbers;
extern bool g_bXYZComment3Numbers;
extern bool g_bReadChargesFrom4thXYZ;
extern bool g_bProcSplit;
extern int g_iProcSplitLength;
extern bool g_bPDFFixAtom;
extern int g_iPDFFixAtom;
extern int g_iRemoveCOMFixAtom;
extern bool g_bPairMSD;
extern bool g_bSFac;
//extern CStructureFactor *g_pSFac;
extern bool g_bEnvWriteDetailedInfo;
extern bool g_bEnvSortNb;
extern bool g_bEnvDisableSortNb;
extern bool g_bShowCredits;
extern bool g_bWriteInputOrder;
extern bool g_bPlProj;
extern bool g_bNormalCoordinate;
extern bool g_bChiral;
extern bool g_bSortWannier;
extern bool g_bVCD;
extern bool g_bEckartTransform;
extern bool g_bPower;
extern bool g_bIR;
extern CTetraPak *g_pTetraPak;
extern bool g_bTegri;
extern CxDoubleArray g_faVoronoiRadii;
extern bool g_bBoxNonOrtho;
extern bool g_bFoundNonOrtho;
extern double g_fBoxAngleA;
extern double g_fBoxAngleB;
extern double g_fBoxAngleC;
extern CxDMatrix3 g_mBoxToOrtho;
extern CxDMatrix3 g_mBoxFromOrtho;
extern double g_fBoxMinDiamA;
extern double g_fBoxMinDiamB;
extern double g_fBoxMinDiamC;
extern double g_fBoxMinDiam;
extern double g_fBoxVolume;
extern bool g_bWriteOrtho;
extern double g_fWriteOrthoFac;
extern bool g_bSDFVoro;
extern int g_iVoroPrintLevel;
extern bool g_bSDFMap;
extern CxObArray g_oaSDFMaps;
extern int g_iSDFMapSmoothGrade;
extern bool g_bCHDF;
extern int g_iCubeRes[3];
extern double g_fCubeXStep;
extern double g_fCubeYStep;
extern double g_fCubeZStep;
extern double g_fCubeXVector[3];
extern double g_fCubeYVector[3];
extern double g_fCubeZVector[3];
extern CxDMatrix3 g_mCubeCell;
extern int g_iCubeXStride;
extern int g_iCubeYStride;
extern int g_iCubeZStride;
extern int g_iCubeXMismatch;
extern int g_iCubeYMismatch;
extern int g_iCubeZMismatch;
extern bool g_bCubeTimeDev;
extern FILE *g_fPDESolverInfoFile;
extern double g_fBackgroundDensity;
extern double g_fPDEConvThresh;
extern int g_iPDEMaxIter;
extern bool g_bVoronoiMoments;
extern bool g_bVoroIntEquitable;
extern bool g_bVoroIntegrateCharge;
extern bool g_bVoroIntegrateDipoleMoment;
extern bool g_bVoroIntegrateQuadrupoleMoment;
extern bool g_bQuadrupoleKeepTrace;
extern bool g_bVoroIntegrateTotalCurrent;
extern bool g_bVoroIntegrateMagneticMoment;
extern bool g_bVoroSilent;
extern bool g_bDomA;
extern CDomainEngine *g_pDomainEngine;
extern CxString g_sAmberParmFile;
extern bool g_bCubeStream;
extern CxMemFile *g_fCubeMemFile;
extern int g_iCubeMemFileLines;
extern int g_iCubeMemFileSteps;
extern bool g_bDipoleRestart;
extern bool g_bLoadDipoleRestart;
extern FILE *g_fDipoleRestartFile;
extern bool g_bMagneticDipoleRestart;
extern bool g_bLoadMagneticDipoleRestart;
extern FILE *g_fMagneticDipoleRestartFile;
extern double g_fIntegratorTimestep;
extern bool g_bSetUpPolarizabilityCalc;
extern bool g_bPolarizabilityDefined;
extern int g_iPolarizabilityMode;
extern int g_iPolarizabilityConf[3];
extern FILE *g_fPolarizabilityFile[6];
extern double g_fPolarizabilityFieldStrength;
extern bool g_bLAMMPSCharge;
extern bool g_bReadLAMMPSCharges;
extern bool g_bLAMMPSForce;
extern bool g_bHBond;
extern bool g_bIonPair;
extern bool g_bHole;
extern int g_iRefMolNum;
extern bool g_bProcAlternativeLabels;
extern CxObArray g_oaProcAlternativeLabels;
extern bool g_bProcDumpAwkScript;
extern bool g_bProcWriteComments;
extern bool g_bProcCellComment;
extern bool g_bProcCellCommentAngles;
extern bool g_bInterWarning;
extern CBQBFile *g_pBQBFile;
//extern CBQBEngine *g_pBQBEngine;
extern bool g_bFlipCellVectorX;
extern bool g_bFlipCellVectorY;
extern bool g_bFlipCellVectorZ;
extern bool g_bVACFNew;
extern bool g_bOrder;
extern COrderEngine *g_pOrderEngine;
extern bool g_bTDDF;
extern CTDDFEngine *g_pTDDFEngine;
extern bool g_bGeoDens;
extern CGeoDensEngine *g_pGeoDensEngine;
extern bool g_bROA;
extern CROAEngine *g_pROAEngine;
extern FILE *g_fMolIntegralFile;
extern bool g_bVolumetricData;
extern bool g_bElMagProperties;
extern bool g_bReadVelocity;
extern double g_fVelocityConversion;
extern bool g_bStrideParsed;
extern bool g_bFixedPlProj;
extern CFixedPlProj *g_pFixedPlProj;
extern bool g_bProcAddMesh;
extern bool g_bProcAddMeshZ;
extern double g_fProcAddMeshZPos;
extern bool g_bProcAddMeshY;
extern double g_fProcAddMeshYPos;
extern bool g_bProcAddMeshX;
extern double g_fProcAddMeshXPos;
extern int g_iProcAddMeshGrid;
extern CxString g_sProcAddMeshLabel;
extern bool g_bProcAddMeshJitter;
extern double g_fProcAddMeshJitter;
extern CBQBInterface *g_pBQBInterface;
extern bool g_bUseBQB;
extern bool g_bKuehneLong;
#endif
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