int TestMTD_main(int argc,char ** argv)
{
MMD_InitArgcArgv(argc,argv,1);
std::string aNameIm;
ElInitArgMain
(
argc,argv,
LArgMain() << EAMC(aNameIm,"Image name", eSAM_IsPatFile),
LArgMain()
);
if (MMVisualMode) return EXIT_SUCCESS;
std::string aDir,aPat;
SplitDirAndFile(aDir,aPat,aNameIm);
cInterfChantierNameManipulateur::BasicAlloc(aDir);
cMetaDataPhoto aMTD = cMetaDataPhoto::CreateExiv2(aNameIm);
std::cout << "FocMm " << aMTD.FocMm(true) << "\n";
std::cout << "Foc35 " << aMTD.Foc35(true) << "\n";
std::cout << "Cam [" << aMTD.Cam(true) << "]\n";
return 1;
}
cAppli_MPI2Ply::cAppli_MPI2Ply(int argc,char ** argv):
mDS (1.0)
{
ElInitArgMain
(
argc,argv,
LArgMain() << EAMC(mName,"Dir or PMI-Type (QuickMac ....)",eSAM_None,ListOfVal(eNbTypeMMByP)),
LArgMain()
<< EAM(mDS,"DS",true,"Dowscale, Def=1.0")
<< EAM(mMergeOut,"Out",true,"Ply File Results")
<< EAM(mPat,"Pat",true,"Pattern for selecting images (Def=All image in files)",eSAM_IsPatFile)
);
if(MMVisualMode) return;
mCFPI = new cChantierFromMPI(mName,mDS,mPat);
mComNuageMerge = MM3dBinFile("TestLib MergeCloud ")
+ mCFPI-> mStrImOri0
+ " ModeMerge=" + mCFPI->mStrType
+ " DownScale=" +ToString(mDS)
+ " SzNorm=3"
+ " PlyCoul=true"
;
std::string aPatPly = "Nuage-Merge-" +mPat + ".*.ply";
if (! EAMIsInit(&mMergeOut)) mMergeOut = mCFPI->mFullDirChantier+"C3DC_"+ mCFPI->mStrType + ".ply";
mComCatPly = MM3dBinFile("MergePly ") + QUOTE( mCFPI->mFullDirPIm + aPatPly) + " Out=" + mMergeOut;
}
int AperoProg_main(int argc,char ** argv)
{
MMD_InitArgcArgv(argc,argv);
std::string aFullDir= "";
std::string AeroIn= "";
std::string AeroOut="";
/*double aSigmaTieP = 1;
double aFactResElimTieP = 5;
double Viscos = 1.0;
bool ExpTxt = false;*/
ElInitArgMain
(
argc,argv,
LArgMain() << EAMC(aFullDir,"Full Directory (Dir+Pattern)", eSAM_IsPatFile)
<< EAMC(AeroIn,"Input Orientation", eSAM_IsExistDirOri)
<< EAMC(AeroOut,"Output Orientation", eSAM_IsOutputDirOri),
LArgMain()
);
if (!MMVisualMode)
{
std::string aDir,aPat;
#if (ELISE_windows)
replace( aFullDir.begin(), aFullDir.end(), '\\', '/' );
#endif
SplitDirAndFile(aDir,aPat,aFullDir);
StdCorrecNameOrient(AeroIn,aDir);
}
return EXIT_SUCCESS;
}
int XeresMergeTieP_Main(int argc,char** argv)
{
MMD_InitArgcArgv(argc,argv);
std::vector<std::string> aVSeq;
std::string aDir="./";
std::string aPostMerge;
ElInitArgMain
(
argc,argv,
LArgMain() << EAMC(aVSeq, "Sequence"),
LArgMain() << EAM(aDir,"Dir",true,"Folder of data, Def=./")
<< EAM(aPostMerge,"Postfix of merged folder")
);
if (! EAMIsInit(&aPostMerge))
{
aPostMerge = "Merge-" + aVSeq[0];
}
std::vector<cAppliXeres *> aVAp;
for (int aK=0 ; aK<int(aVSeq.size()) ; aK++)
{
aVAp.push_back(new cAppliXeres (aDir,aVSeq[aK]));
}
cAppliXeres::FusionneHom(aVAp,aPostMerge);
return EXIT_SUCCESS;
}
int DigitalGlobe2Grid_main(int argc, char **argv)
{
std::string aNameFile; // .RPB file from Digital Globe
std::string inputSyst = "+proj=longlat +datum=WGS84 "; //input syst proj4
std::string targetSyst;//output syst proj4
std::string refineCoef="";
bool binaire = true;
double altiMin, altiMax;
int nbLayers;
double stepPixel = 100.f;
double stepCarto = 50.f;
ElInitArgMain
(
argc, argv,
LArgMain() << EAMC(aNameFile, "RPB from DigitalGlobe file")
<< EAMC(altiMin, "min altitude (ellipsoidal)")
<< EAMC(altiMax, "max altitude (ellipsoidal)")
<< EAMC(nbLayers, "number of layers (min 4)")
<< EAMC(targetSyst, "targetSyst - target system in Proj4 format (ex : \"+proj=utm +zone=32 +north +datum=WGS84 +units=m +no_defs\""),
LArgMain()
//caracteristique du systeme geodesique saisies sans espace (+proj=utm +zone=10 +north +datum=WGS84...)
<< EAM(stepPixel, "stepPixel", true, "Step in pixel (Def=100pix)")
<< EAM(stepCarto, "stepCarto", true, "Step in m (carto) (Def=50m)")
<< EAM(refineCoef, "refineCoef", true, "File of Coef to refine Grid")
<< EAM(binaire, "Bin", true, "Export Grid in binaries (Def=True)")
);
//Reading Inverse RPC, computing Direct RPC and setting up RPC object
RPC aRPC;
aRPC.ReadRPB(aNameFile);
cout << "RPB File read" << endl;
//Generating a 50*50*50 grid on the normalized space with random normalized heights
Pt3di aGridSz(50, 50, 50);
vector<Pt3dr> aGridGeoNorm = aRPC.GenerateNormGrid(aGridSz);//50 is the size of grid for generated GCPs (50*50)
//Converting the points to image space
vector<Pt3dr> aGridImNorm;
for (u_int i = 0; i < aGridGeoNorm.size(); i++)
{
aGridImNorm.push_back(aRPC.InverseRPCNorm(aGridGeoNorm[i]));
}
aRPC.GCP2Direct(aGridGeoNorm, aGridImNorm);
cout << "Direct RPC estimated" << endl;
aRPC.ReconstructValidity();
aRPC.info();
//Computing Grid
std::string aNameIm = StdPrefix(aNameFile) + ".TIF";
aRPC.RPC2Grid(nbLayers, altiMin, altiMax, refineCoef, aNameIm, stepPixel, stepCarto, targetSyst, inputSyst, binaire);
return EXIT_SUCCESS;
}
int GCPCtrl_main(int argc,char ** argv)
{
// MemoArg(argc,argv);
MMD_InitArgcArgv(argc,argv);
std::string aDir,aPat,aFullDir;
std::string AeroIn;
std::string DicoPts;
std::string MesureIm;
bool CPI = false;
bool ShowUnused = true;
ElInitArgMain
(
argc,argv,
LArgMain() << EAMC(aFullDir,"Full name (Dir+Pat)", eSAM_IsPatFile)
<< EAMC(AeroIn,"Orientation in", eSAM_IsExistDirOri)
<< EAMC(DicoPts,"Ground Control Points File", eSAM_IsExistFile)
<< EAMC(MesureIm,"Image Measurements File", eSAM_IsExistFile),
LArgMain()
<< EAM(CPI,"CPI",true,"when Calib Per Image has to be used", eSAM_IsBool)
<< EAM(ShowUnused,"ShowU",true,"Show unused point (def=true)", eSAM_IsBool)
);
if (!MMVisualMode)
{
#if (ELISE_windows)
replace( aFullDir.begin(), aFullDir.end(), '\\', '/' );
#endif
SplitDirAndFile(aDir,aPat,aFullDir);
StdCorrecNameOrient(AeroIn,aDir);
std::string aCom = MM3dBinFile_quotes( "Apero" )
+ ToStrBlkCorr( MMDir()+"include/XML_MicMac/Apero-GCP-Control.xml" )+" "
+ std::string(" DirectoryChantier=") +aDir + std::string(" ")
+ std::string(" +PatternAllIm=") + QUOTE(aPat) + std::string(" ")
+ std::string(" +AeroIn=") + AeroIn
+ std::string(" +DicoApp=") + DicoPts
+ std::string(" +SaisieIm=") + MesureIm
;
if (EAMIsInit(&ShowUnused)) aCom = aCom + " +ShowUnused=" + ToString(ShowUnused);
if (CPI) aCom += " +CPI=true ";
std::cout << "Com = " << aCom << "\n";
int aRes = System(aCom.c_str(),false,true,true);
return aRes;
}
else return EXIT_SUCCESS;
}
int TD_Exemple_main(int argc,char ** argv)
{
std::string aNameCam,aNameAppuis;
std::string toto;
ElInitArgMain
(
argc,argv,
LArgMain() << EAMC(aNameCam,"Name of camera")
<< EAMC(aNameAppuis,"Name of GCP"),
LArgMain() << EAM(toto,"toto",true,"Do no stuff")
);
//On créé un objet camera (aCam) et un objet liste de points d'appui (aSetGCP)
cTD_Camera aCam(aNameCam);
cTD_SetAppuis aSetGCP(aNameAppuis);
//Pour chaque point d'appui, on calcul la distance entre la coordonnée image données par le fichier et la coordonnée image projetée à partir du point 3D et des infos de camera
for (int aKP=0 ; aKP<int(aSetGCP.PTer().size()) ; aKP++)
{
Pt3dr aPTer = aSetGCP.PTer()[aKP];//Point 3D
Pt2dr aPIm = aSetGCP.PIm()[aKP];//Point image
Pt2dr aPProj = aCam.Ter2Image(aPTer);//Point projeté
std::cout << "dist[" << aKP << "]= " << euclid (aPIm,aPProj) << "\n";
}
//On créé 3 int correspondant à des identifiants de points d'appui
int aK1,aK2,aK3;
std::cout << "ENTER K1 K2 K3 \n";
cin >> aK1 >> aK2 >> aK3;
//Avec ces 3 points, on calcule les positions et orientations possibles de la caméra
std::vector<cTD_Camera> aSols = aCam.RelvtEspace
(
aSetGCP.PTer()[aK1], aSetGCP.PIm()[aK1],
aSetGCP.PTer()[aK2], aSetGCP.PIm()[aK2],
aSetGCP.PTer()[aK3], aSetGCP.PIm()[aK3]
);
//Pour chaque solution, on calcul la distance entre la coordonnée image données par le fichier et la coordonnée image projetée à partir du point 3D et des infos calculées
for (int aKS=0 ; aKS<int(aSols.size()) ; aKS++)
{
for (int aKP=0 ; aKP<int(aSetGCP.PTer().size()) ; aKP++)
{
Pt3dr aPTer = aSetGCP.PTer()[aKP];
Pt2dr aPIm = aSetGCP.PIm()[aKP];
Pt2dr aPProj = aSols[aKS].Ter2Image(aPTer);
std::cout << " dist " << euclid (aPIm,aPProj) << "\n";
}
std::cout << "========================================\n";
}
return 0;
}
void PartitionRenato(int argc,char** argv)
{
std::string aName;
double aPropSzW=0.1,aSeuil=75;
double aPropExag = 0.1;
int aNbIter = 3;
ElInitArgMain
(
argc,argv,
LArgMain() << EAMC(aName,"Name Input"),
LArgMain() << EAM(aPropSzW,"PropSzW",true,"Prop Size of W, def =0.1")
<< EAM(aSeuil,"Seuil",true,"Threshold beetween Black & White, Def=75")
);
Tiff_Im aTIn = Tiff_Im::UnivConvStd(aName);
Pt2di aSz = aTIn.sz();
int aSzW = round_ni((euclid(aSz)*aPropSzW) / sqrt(aNbIter));
Im2D_REAL4 anIm0(aSz.x,aSz.y);
Im2D_REAL4 anIm1(aSz.x,aSz.y);
Im2D_U_INT1 aImInside(aSz.x,aSz.y,1);
ELISE_COPY(anIm0.all_pts(),255-aTIn.in(),anIm0.out());
int aNbF = 3;
for (int aKF=0 ; aKF<aNbF ; aKF++)
{
Im2D_REAL4 anImFond(aSz.x,aSz.y);
Fonc_Num aFIn = anIm0.in(0);
for (int aK=0 ; aK<aNbIter ; aK++)
aFIn = (rect_som(aFIn,aSzW)*aImInside.in(0)) / Max(1.0,rect_som(aImInside.in(0),aSzW));
ELISE_COPY(anImFond.all_pts(),aFIn,anImFond.out());
if (aKF == (aNbF-1))
{
Fonc_Num aF = anIm0.in()-anImFond.in();
aF = aF / aSeuil;
aF = (aF -0.1) / (1-2*aPropExag);
aF = Max(0.0,Min(1.0,aF));
ELISE_COPY(anIm1.all_pts(),255.0 *(1-aF),anIm1.out());
}
else
{
ELISE_COPY
(
aImInside.all_pts(),
anIm0.in() < anImFond.in()+aSeuil,
aImInside.out()
);
}
}
Tiff_Im::Create8BFromFonc(std::string("Bin-")+StdPrefix(aName)+".tif",aTIn.sz(),anIm1.in());
}
int SplitMPO_main(int argc,char ** argv)
{
std::string aFullName;
std::string aPostR = "_R";
std::string aPostL = "_L";
bool DoTifGray = false;
ElInitArgMain
(
argc,argv,
LArgMain() << EAMC(aFullName,"Full name (Dir+Pat)", eSAM_IsPatFile) ,
LArgMain() << EAM(aPostR,"Right",true,"Right extension, def=_R")
<< EAM(aPostL,"Left",true,"Left extension, def=_L")
<< EAM(DoTifGray,"TG",true,"Tiff gray, def=false")
);
std::string aDir,aPat;
SplitDirAndFile(aDir,aPat,aFullName);
cInterfChantierNameManipulateur * aICNM = cInterfChantierNameManipulateur::BasicAlloc(aDir);
const std::vector<std::string> * aSetIm = aICNM->Get(aPat);
for (int aKIm=0 ; aKIm<int(aSetIm->size()) ; aKIm++)
{
std::string aNameIn = (*aSetIm)[aKIm];
for (int aK=0 ; aK<2 ; aK++)
{
std::string aPref = StdPrefix(aNameIn);
std::string aPost = StdPostfix(aNameIn);
std::string aNameOut = aPref+((aK==0)? aPostL : aPostR) + ".jpg";
std::string aCom = "exiftool ";
if (aK==0)
aCom = aCom + "-trailer:all= " + aNameIn + " -o " + aNameOut;
else
aCom = aCom+ aNameIn + " -mpimage2 -b> " + aNameOut;
std::cout << aCom << "\n";
VoidSystem(aCom.c_str());
if (DoTifGray)
{
aCom = "convert "
+ aNameOut
+ " -compress None -depth 8 -colorspace Gray "
+ StdPrefix(aNameOut) + "_Gray.tif";
std::cout << aCom << "\n";
VoidSystem(aCom.c_str());
}
}
}
return 1;
}
cAppli_MPI2Mnt::cAppli_MPI2Mnt(int argc,char ** argv) :
mDS (1.0),
mDeZoom (2),
mDirMTD ("PIMs-TmpMnt/"),
mDirBasc ("PIMs-TmpBasc/"),
mNameMerge ("PIMs-Merged.xml"),
mNameOriMerge ("PIMs-ZNUM-Merged.xml"),
mNameOriMasq ("PIMs-Merged_Masq.xml"),
mRepIsAnam (false),
mDoMnt (true),
mDoOrtho (false),
mMasqImGlob (""),
mDebug (false)
{
ElInitArgMain
(
argc,argv,
LArgMain() << EAMC(mName,"Dir or PMI-Type (QuickMac ....)",eSAM_None,ListOfVal(eNbTypeMMByP)), //pas gerable par les vCommandes...
LArgMain()
<< EAM(mDS,"DS",true,"Downscale, Def=1.0")
<< EAM(mRep,"Repere",true,"Repair (Euclid or Cyl)",eSAM_IsExistFileRP)
<< EAM(mPat,"Pat",true,"Pattern, def = all existing clouds", eSAM_IsPatFile)
<< EAM(mDoMnt,"DoMnt",true," Compute DTM , def=true (use false to return only ortho)")
<< EAM(mDoOrtho,"DoOrtho",true,"Generate ortho photo, def=false")
<< EAM(mMasqImGlob,"MasqImGlob",true,"Global Masq for ortho: if used, give full name of masq (e.g. MasqGlob.tif) ",eSAM_IsExistFileRP)
<< EAM(mDebug,"Debug",true,"Debug !!!",eSAM_InternalUse)
);
if (mDoOrtho && (!EAMIsInit(&mDoMnt))) mDoMnt = mDoOrtho;
if (MMVisualMode) return;
mCFPI = new cChantierFromMPI(mName,mDS,mPat);
mDirApp = mCFPI->mFullDirChantier;
mICNM = cInterfChantierNameManipulateur::BasicAlloc(mDirApp);
mSetIm = mICNM->Get(mCFPI->mStrPat);
if (EAMIsInit(&mRep))
{
bool IsOrthoXCSte=false;
bool IsAnamXCsteOfCart=false;
mRepIsAnam = RepereIsAnam(mDirApp+mRep,IsOrthoXCSte,IsAnamXCsteOfCart);
}
ELISE_fp::MkDirSvp(mDirApp+mDirBasc);
if (EAMIsInit(&mRep))
mStrRep = " Repere=" + mRep;
// cMMByImNM * mMMI;
mTargetGeom = mDirApp+mDirMTD+ TheStringLastNuageMM ;
}
int MakeGrid_main(int argc,char ** argv)
{
MMD_InitArgcArgv(argc,argv);
NoInit = "XXXXXXXXXX";
MemoArg(argc,argv);
std::string aDir,aPat,aFullDir;
std::string AeroIn;
std::string AeroOut;
//std::vector<std::string> ImPl;
ElInitArgMain
(
argc,argv,
LArgMain() << EAMC(aFullDir, "Full Directory (Dir+Pattern)", eSAM_IsPatFile)
<< EAMC(AeroIn, "Input Orientation", eSAM_IsExistDirOri),
LArgMain()
<< EAM(AeroOut,"Out",true)
);
if (!MMVisualMode)
{
if (AeroOut=="")
AeroOut = "Grid-"+AeroIn;
#if (ELISE_windows)
replace( aFullDir.begin(), aFullDir.end(), '\\', '/' );
#endif
SplitDirAndFile(aDir,aPat,aFullDir);
#if (ELISE_windows)
std::string aCom = MMDir() + std::string("bin\\Apero ")
#else
std::string aCom = MMDir() + std::string("bin/Apero ")
#endif
+ MMDir() + std::string("include/XML_MicMac/AperoGrid.xml ")
+ std::string(" DirectoryChantier=") +aDir + std::string(" ")
+ std::string(" +PatternAllIm=") + QUOTE(aPat) + std::string(" ")
+ std::string(" +AeroOut=-") + AeroOut
+ std::string(" +AeroIn=-") + AeroIn
;
std::cout << "Com = " << aCom << "\n";
int aRes = system_call(aCom.c_str());
return aRes;
}
else
return EXIT_SUCCESS;
}
cAppliOptimTriplet::cAppliOptimTriplet(int argc,char ** argv,bool QuitExist) :
mDir ("./"),
// mNbMaxSel (StdDefNbMaxSel),
mShow (true),
mQuick (false),
mPrefHom (""),
mQuitExist (QuitExist),
m3S ("a","b","c"),
mNoIm1 (0),
mNoIm2 (0)
{
ElInitArgMain
(
argc,argv,
LArgMain() << EAMC(mN1,"Image one", eSAM_IsExistFile)
<< EAMC(mN2,"Image two", eSAM_IsExistFile)
<< EAMC(mN3,"Image three", eSAM_IsExistFile),
LArgMain() << EAM(mNameOriCalib,"OriCalib",true,"Orientation for calibration ", eSAM_IsExistDirOri)
<< EAM(mDir,"Dir",true,"Directory, Def=./ ",eSAM_IsDir)
<< EAM(mSzShow,"SzShow",true,"Sz of window to show the result in window (Def=none)")
<< EAM(mNbMaxSel,"NbPts",true,"Nb of selected points")
<< EAM(mShow,"Show",true,"Show Message")
<< EAM(mQuick,"Quick",true,"Quick version")
<< EAM(mPrefHom,"PrefHom",true,"Prefix Homologous points, def=\"\"")
);
m3S = cTplTriplet<std::string> (mN1,mN2,mN3);
std::string aNameMin = (mN1<mN2) ? mN1 : mN2;
std::string aNameMax = (mN1>mN2) ? mN1 : mN2;
mNM = new cNewO_NameManager(mPrefHom,mQuick,mDir,mNameOriCalib,"dat");
mNoIm1 = new cNewO_OneIm(*mNM,aNameMin);
mNoIm2 = new cNewO_OneIm(*mNM,aNameMax);
if (mN3== KeyCple )
{
std::string aNameLON = mNM->NameTripletsOfCple(mNoIm1,mNoIm2,true);
cListOfName aLON = StdGetFromPCP(aNameLON,ListOfName);
for (std::list<std::string>::const_iterator itN =aLON.Name().begin() ; itN!=aLON.Name().end() ; itN++)
{
mN3 = *itN;
m3S = cTplTriplet<std::string> (mN1,mN2,mN3);
Execute();
}
}
else
{
mQuitExist = false;
Execute();
}
}
cAppli_Martini::cAppli_Martini(int argc,char ** argv,bool Quick) :
mExe (true),
mQuick (Quick)
{
ElInitArgMain
(
argc,argv,
LArgMain() << EAMC(mPat,"Image Pat", eSAM_IsPatFile),
LArgMain() << EAM(mNameOriCalib,"OriCalib",true,"Orientation for calibration ", eSAM_IsExistDirOri)
<< EAM(mExe,"Exe",true,"Execute commands, def=true (if false, only print)")
// << EAM(mQuick,"Quick",true,"Quick version")
);
}
int ChgSysCo_main(int argc,char ** argv)
{
MMD_InitArgcArgv(argc,argv);
std::string aFullDir= "";
std::string AeroIn= "";
std::string aStrChSys="";
std::string AeroOut="";
bool ForceRot = false;
ElInitArgMain
(
argc,argv,
LArgMain() << EAMC(aFullDir,"Full Directory (Dir+Pattern)", eSAM_IsPatFile)
<< EAMC(AeroIn,"Input Orientation", eSAM_IsExistDirOri)
<< EAMC(aStrChSys,"Change coordinate file", eSAM_IsExistFile)
<< EAMC(AeroOut,"Output Orientation", eSAM_IsOutputDirOri),
LArgMain() << EAM(ForceRot,"FR",true,"Force orientation matrix to be pure rotation (Def = true)", eSAM_IsBool)
);
if (!MMVisualMode)
{
std::string aDir,aPat;
#if (ELISE_windows)
replace( aFullDir.begin(), aFullDir.end(), '\\', '/' );
#endif
SplitDirAndFile(aDir,aPat,aFullDir);
StdCorrecNameOrient(AeroIn,aDir);
std::cout << "DPPPP= " << aDir << " " << aPat << "\n";
std::string aCom = MM3dBinFile( "Apero" )
+ XML_MM_File("Apero-ChCo.xml")
+ std::string(" DirectoryChantier=") + aDir + " "
+ std::string(" +SetIm=") + aPat + " "
+ std::string(" +AeroIn=-") + AeroIn + " "
+ std::string(" +AeroOut=-") + AeroOut + " "
+ std::string(" +ChC=") + aStrChSys + " "
+ std::string(" +ChCFR=") + ToString(ForceRot)
;
std::cout << "COM = " << aCom << "\n";
int aRes = system_call(aCom.c_str());
return aRes;
}
else return EXIT_SUCCESS;
}
int MMAllAuto_main(int argc,char ** argv)
{
MMD_InitArgcArgv(argc,argv);
std::string aDir,aPat,aFullDir;
std::string AeroIn;
int aZoomF = 2;
ElInitArgMain
(
argc,argv,
LArgMain() << EAMC(aFullDir,"Dir + Pattern", eSAM_IsPatFile)
<< EAMC(AeroIn,"Orientation", eSAM_IsExistDirOri),
LArgMain()
<< EAM(aZoomF,"ZoomF",true,"Zoom Final, def=2",eSAM_IsPowerOf2)
);
#if (ELISE_windows)
replace( aFullDir.begin(), aFullDir.end(), '\\', '/' );
#endif
SplitDirAndFile(aDir,aPat,aFullDir);
StdCorrecNameOrient(AeroIn,aDir);
cInterfChantierNameManipulateur * aICNM = cInterfChantierNameManipulateur::BasicAlloc(aDir);
// Genere les pyramides pour que le paral ne s'ecrase pas les 1 les autres
const cInterfChantierNameManipulateur::tSet * aSetIm = aICNM->Get(aPat);
for (int aKIm=0 ; aKIm<int(aSetIm->size()) ; aKIm++)
{
std::string aCom = MM3dBinFile("MICMAC")
+ XML_MM_File("MM-AllAuto.xml")
+ std::string(" WorkDir=") +aDir + std::string(" ")
+ std::string(" +Im1=") + QUOTE((*aSetIm)[aKIm]) + std::string(" ")
+ std::string(" +Ori=-") + AeroIn
+ std::string(" +ZoomF=") + ToString(aZoomF)
;
system_call(aCom.c_str());
}
// int aRes = system_call(aCom.c_str());
return 0;
}
int XeresCalibMain_main(int argc,char** argv)
{
MMD_InitArgcArgv(argc,argv);
std::string aSeq,aDir,OutCal="Calib";
int aSz=1500;
ElInitArgMain
(
argc,argv,
LArgMain() // << EAMC(aSeq, "Sequence")
<< EAMC(aDir, "Directory"),
LArgMain() << EAM(aSeq,"Seq",true,"Folder of data, Def=./")
<< EAM(aSz,"Sz",true,"Sz of TieP, Def=1500")
<< EAM(OutCal,"Out",true,"")
);
// std::string aCdDir = "cd " + aDir + "/";
// System(aCdDir);
if (!EAMIsInit(&aSeq) ) aSeq = aDir;
cElemAppliSetFile anEASF(aDir+"/.*jpg");
const std::vector<std::string> * aVS = anEASF.SetIm();
int aNbIm = aVS->size();
for (int aK=0 ; aK<aNbIm ; aK++)
{
const std::string & aName = (*aVS)[aK];
ELISE_fp::MvFile(aDir+"/"+aName,aDir+"/"+aSeq+"_Calib" +ToString(aK) + ".jpg");
std::cout << "NAME = " << aName << "\n";
}
std::string aStrMMD= "MicMac-LocalChantierDescripteur.xml";
ELISE_fp::CpFile(aStrMMD,aDir+"/"+aStrMMD);
std::string aComTiep = MM3dBinFile_quotes("Tapioca") + " All " + aDir + "/.*jpg " + ToString(aSz);
System(aComTiep);
std::string aComOri = MM3dBinFile_quotes("Tapas ") + " FraserBasic " + aDir + "/.*jpg " + " Out=" + OutCal
+ " RankInitPP=0 RankInitF=1 RefineAll=0";
System(aComOri);
return EXIT_SUCCESS;
}
cAppliReechHomogr::cAppliReechHomogr(int argc,char ** argv) :
mPostMasq ("Masq"),
mH1To2 (cElHomographie::Id()),
mH2To1 (cElHomographie::Id())
{
ElInitArgMain
(
argc,argv,
LArgMain() << EAMC(mFullNameI1,"Name of \"Master\" Image", eSAM_IsExistFile)
<< EAMC(mFullNameI2,"Name of \"Slave\" Image", eSAM_IsExistFile)
<< EAMC(mNameI2Redr,"Name of resulting registered Image", eSAM_IsExistFile),
LArgMain() << EAM (mPostMasq,"PostMasq",true,"Name of Masq , Def = \"Masq\"")
);
mNameI1 = NameWithoutDir(mFullNameI1);
mNameI2 = NameWithoutDir(mFullNameI2);
mEASF.Init(mFullNameI1);
mKeyHom = "NKS-Assoc-CplIm2Hom@@dat";
std::string aNameH = mEASF.mDir + mEASF.mICNM->Assoc1To2(mKeyHom,mNameI1,mNameI2,true);
ElPackHomologue aPack = ElPackHomologue::FromFile(aNameH);
double anEcart,aQuality;
bool Ok;
mH1To2 = cElHomographie::RobustInit(anEcart,&aQuality,aPack,Ok,50,80.0,2000);
mH2To1 = mH1To2.Inverse();
std::cout << "Ecart " << anEcart << " ; Quality " << aQuality << " \n";
cMetaDataPhoto aMTD1 = cMetaDataPhoto::CreateExiv2(mFullNameI1);
cMetaDataPhoto aMTD2 = cMetaDataPhoto::CreateExiv2(mFullNameI2);
ReechFichier
(
false,
mFullNameI2,
Box2dr(Pt2dr(0,0),Pt2dr(aMTD2.TifSzIm())),
this,
Box2dr(Pt2dr(0,0),Pt2dr(aMTD1.TifSzIm())),
10.0,
mNameI2Redr,
mPostMasq,
5
);
}
int CASA_main(int argc,char ** argv)
{
std::string aNameN1;
std::string aNameN2;
std::string aNameN3;
std::string aNameN4;
std::string Out="TheCyl.xml";
std::vector<std::string> aVPts;
ElInitArgMain
(
argc,argv,
LArgMain() << EAMC(aNameN1,"Name of Cloud", eSAM_IsExistFile),
LArgMain() << EAM(Out,"Out",true,"Name of result (Def=TheCyl.xml)")
<< EAM(aNameN2,"N2",true,"Name of optional second cloud", eSAM_IsExistFile)
<< EAM(aNameN3,"N3",true,"Name of optional third cloud", eSAM_IsExistFile)
<< EAM(aNameN4,"N4",true,"Name of optional fourth cloud", eSAM_IsExistFile)
<< EAM(aVPts,"PtsOri",true,"[Pts2D.xml,Ori], points and Orientation (used for seizing) to specify surface")
);
if (MMVisualMode) return EXIT_SUCCESS;
std::string aCom = MM3dBinFile(" TestLib CASALL ")
+ XML_MM_File("ParamCasa.xml")
+ " +Out=" + Out
+ " +N1=" + aNameN1;
if (EAMIsInit(&aNameN2))
aCom = aCom + " +UseN2=true +N2=" + aNameN2;
if (EAMIsInit(&aNameN3))
aCom = aCom + " +UseN3=true +N3=" + aNameN3;
if (EAMIsInit(&aNameN4))
aCom = aCom + " +UseN4=true +N4=" + aNameN4;
if (EAMIsInit(&aVPts))
{
ELISE_ASSERT(aVPts.size()==2,"Require 2 args for PtsOri");
aCom = aCom + " +Pts=" + aVPts[0] + " +PtsOri=" + aVPts[1] + " +UsePts=true" ;
}
System(aCom);
Casa_Banniere();
return 1;
}
int Arsenic_main(int argc,char ** argv)
{
std::string aFullPattern,aDirOut="Egal/",InVig="";
//bool InTxt=false;
int ResolModel=16;
double TPA=16,aThresh=1.4;
int nbIte=5;
//Reading the arguments
ElInitArgMain
(
argc,argv,
LArgMain() << EAMC(aFullPattern,"Images Pattern", eSAM_IsPatFile),
LArgMain() << EAM(aDirOut,"Out",true,"Output folder (end with /) and/or prefix (end with another char)")
<< EAM(InVig,"InVig",true,"Input vignette folder (for example : Vignette/ )", eSAM_IsDir)
<< EAM(ResolModel,"ResolModel",true,"Resol of input model (Def=16)")
<< EAM(TPA,"TPA",true,"Tie Point Accuracy (Higher is better, lower gives more points Def=16)")
<< EAM(nbIte,"NbIte",true,"Number of iteration of the process (default=5)")
<< EAM(aThresh,"ThreshDisp",true,"Disparity threshold between the tie points (Def=1.4 for 40%)")
);
if (!MMVisualMode)
{
std::string aDir,aPatIm;
SplitDirAndFile(aDir,aPatIm,aFullPattern);
cInterfChantierNameManipulateur * aICNM = cInterfChantierNameManipulateur::BasicAlloc(aDir);
const std::vector<std::string> * aSetIm = aICNM->Get(aPatIm);
std::vector<std::string> aVectIm=*aSetIm;
int nbIm=aVectIm.size();
ELISE_ASSERT(nbIm>1,"Less than two images found with this pattern");
//Computing homologous points
cout<<"Computing homologous points"<<endl;
cl_MatPtsHom aMatPtsHomol=ReadPtsHom3D(aDir, aPatIm, InVig, ResolModel, TPA);
//Computing and applying the equalization surface
cout<<"Computing and applying the equalization surface"<<endl;
Egal_field_correct_ite(aDir, & aVectIm, aMatPtsHomol, aDirOut, InVig, ResolModel, nbIm, nbIte, aThresh);
Arsenic_Banniere();
}
return 0;
}
int cod_main(int argc,char ** argv)
{
string Name;
INT decoder = 0;
ElInitArgMain
(
argc,argv,
LArgMain() << EAM(Name) ,
LArgMain() << EAM(decoder,"dc",true)
);
FileCode FC(!decoder);
// code_file(Name.c_str());
ElParseDir(strdup(Name.c_str()),FC);
return 0;
}
int AllReechHom_main(int argc,char ** argv)
{
std::string aFullName1,aPat,aPref,aPostMasq = "Masq";
ElInitArgMain
(
argc,argv,
LArgMain() << EAMC(aFullName1,"Name of \"Master\" Image", eSAM_IsExistFile)
<< EAMC(aPat,"Name of all \"Slaves\" Image", eSAM_IsExistFile)
<< EAMC(aPref,"Name of Prefix for registered Images", eSAM_IsExistFile),
LArgMain() << EAM(aPostMasq,"PostMasq",true,"Name of Masq , Def = \"Masq\"")
);
cElemAppliSetFile anEASF(aPat);
const cInterfChantierNameManipulateur::tSet * aSet = anEASF.SetIm();
std::string aName1 = NameWithoutDir(aFullName1);
std::list<std::string> aLCom;
for (int aK=0 ; aK<int(aSet->size()) ; aK++)
{
std::string aName2 = (*aSet)[aK];
if (aName1 != aName2)
{
std::string aNameRes = anEASF.mDir + aPref +aName2 + ".tif";
if (! ELISE_fp::exist_file(aNameRes))
{
// std::cout << "RES = " << aNameRes << "\n";
std::string aCom = MM3dBinFile_quotes("TestLib")
+ " OneReechHom "
+ aFullName1
+ " " + anEASF.mDir + aName2
+ " " + aNameRes
+ " PostMasq=" + aPostMasq;
aLCom.push_back(aCom);
// std::cout << "COM= " << aCom << "\n";
}
}
}
cEl_GPAO::DoComInParal(aLCom);
return EXIT_SUCCESS;
}
int XeresTest_Main(int argc,char** argv)
{
MMD_InitArgcArgv(argc,argv);
std::string aSeq;
ElInitArgMain
(
argc,argv,
LArgMain() << EAMC(aSeq, "Sequence"),
LArgMain() // << EAM(mCalib,"OriCalib",true,"Calibration folder if any")
);
cAppliXeres anAppli("./",aSeq);
anAppli.TestInteractNeigh();
return EXIT_SUCCESS;
}
int LucasChCloud_main(int argc,char ** argv)
{
//===================== PARAMETRES EN DUR ==============
std::string aNameNuage,aNameOut;
ElInitArgMain
(
argc,argv,
LArgMain() << EAMC(aNameNuage,"Name input "),
LArgMain() << EAM(aNameOut,"Out",true)
);
if (! EAMIsInit(&aNameOut))
aNameOut = DirOfFile(aNameNuage) + "TestScale_" + NameWithoutDir(aNameNuage);
cXML_ParamNuage3DMaille aXML = StdGetObjFromFile<cXML_ParamNuage3DMaille>
(
aNameNuage,
StdGetFileXMLSpec("SuperposImage.xml"),
"XML_ParamNuage3DMaille",
"XML_ParamNuage3DMaille"
);
double aScale = 2;
cRepereCartesien aRep;
aRep.Ori() = Pt3dr(0,0,0);
aRep.Ox() = Pt3dr(aScale,0,0);
aRep.Oy() = Pt3dr(0,aScale,0);
aRep.Oz() = Pt3dr(0,0,aScale);
aXML.RepereGlob().SetVal(aRep);
MakeFileXML(aXML,aNameOut);
return 0;
}
int TestSet_main(int argc,char ** argv)
{
MMD_InitArgcArgv(argc,argv,2);
std::string aDir,aPat,aFullDir;
int aNbMax=10;
ElInitArgMain
(
argc,argv,
LArgMain() << EAMC(aFullDir,"Full Directory (Dir+Pattern)", eSAM_IsPatFile),
LArgMain() << EAM(aNbMax,"Nb",true,"Nb Max printed (def=10)")
);
if (MMVisualMode) return EXIT_SUCCESS;
#if (ELISE_windows)
replace( aFullDir.begin(), aFullDir.end(), '\\', '/' );
#endif
SplitDirAndFile(aDir,aPat,aFullDir);
cInterfChantierNameManipulateur * aICNM = cInterfChantierNameManipulateur::BasicAlloc(aDir);
const cInterfChantierNameManipulateur::tSet * mSetIm = aICNM->Get(aPat);
int aNb = ElMin(aNbMax,int(mSetIm->size()));
for (int aK=0 ; aK< aNb ; aK++)
{
std::string aName = (*mSetIm)[aK];
printf("%3d ",aK);
std::cout << aName ;
std::cout << "\n";
}
if (1)
{
// std::list<std::string> aL = RegexListFileMatch(aDir,aPat,1,false);
std::cout << "NB BY RFLM " << mSetIm->size() << "\n";
}
return EXIT_SUCCESS;
}
int TestNameCalib_main(int argc,char ** argv)
{
std::string aFullNameIm,aNameCalib="TestNameCalib";
ElInitArgMain
(
argc,argv,
LArgMain() << EAMC(aFullNameIm, "Name of images", eSAM_IsPatFile),
LArgMain() << EAM(aNameCalib,"Nb",true,"Name of caib (def=TestNameCalib)")
);
std::string aDir,aNameIm;
SplitDirAndFile(aDir,aNameIm,aFullNameIm);
cInterfChantierNameManipulateur * aICNM = cInterfChantierNameManipulateur::BasicAlloc(aDir);
std::cout << aICNM->StdNameCalib(aNameCalib,aNameIm) << "\n";
return EXIT_SUCCESS;
}
int PastDevlop_main(int argc,char ** argv)
{
MMD_InitArgcArgv(argc,argv);
std::string aFullName;
int aSz1 = -1;
int aSz2 = -1;
bool aCoul8B = false;
ElInitArgMain
(
argc,argv,
LArgMain() << EAMC(aFullName, "Full Directory (Dir+Pattern)", eSAM_IsPatFile),
LArgMain() << EAM(aSz1,"Sz1",true)
<< EAM(aSz2,"Sz2",true)
<< EAM(aCoul8B,"Coul8B",true)
);
if (!MMVisualMode)
{
cInterfChantierNameManipulateur::BasicAlloc(DirOfFile(aFullName));
Tiff_Im::StdConvGen(aFullName,1,true,true);
Tiff_Im::StdConvGen(aFullName,1,false,true);
if (aCoul8B)
{
Tiff_Im::StdConvGen(aFullName,3,false,true);
}
cTplValGesInit<std::string> aTName;
cInterfChantierNameManipulateur::StdAlloc(argc,argv,DirOfFile(aFullName),aTName);
DoSimplePastisSsResol(aFullName,-1);
if (aSz1 >0)
DoSimplePastisSsResol(aFullName,aSz1);
if (aSz2 >0)
DoSimplePastisSsResol(aFullName,aSz2);
}
return EXIT_SUCCESS;
}
cAppliStephane::cAppliStephane(int argc,char ** argv)
{
ElInitArgMain
(
argc,argv,
LArgMain() << EAMC(mN1,"Name of camera 1")
<< EAMC(mN2,"Name of camera 2")
<< EAMC(mN3,"Name of camera 3"),
LArgMain() << EAM(mCalib,"OriCalib",true,"Optionnal calibration")
);
mNM = cVirtInterf_NewO_NameManager::StdAlloc(DirOfFile(mN1),mCalib);
mNM->LoadTriplet(mN1,mN2,mN3,&mVP1,&mVP2,&mVP3);
std::cout << " SIZE " << mVP1.size() << " " << mVP2.size() << " " << mVP3.size() << "\n";
std::cout << " SIZE " << mVP1[0] << " " << mVP2[0] << " " << mVP3[0] << "\n";
}
int PreGenerateDuTriplet(int argc,char ** argv,const std::string & aComIm)
{
MMD_InitArgcArgv(argc,argv);
std::string aFullName,anOriCalib;
bool aQuick;
ElInitArgMain
(
argc,argv,
LArgMain() << EAMC(aFullName,"Name of Image"),
LArgMain() << EAM(anOriCalib,"OriCalib",true,"Calibration directory ")
<< EAM(aQuick,"Quick",true,"Quick version")
);
cElemAppliSetFile anEASF(aFullName);
if (!EAMIsInit(&anOriCalib))
{
MakeXmlXifInfo(aFullName,anEASF.mICNM);
}
cNewO_NameManager aNM(aQuick,anEASF.mDir,anOriCalib,"dat");
aNM.Dir3P(true);
const cInterfChantierNameManipulateur::tSet * aSetIm = anEASF.SetIm();
std::list<std::string> aLCom;
for (int aKIm=0 ; aKIm<int(aSetIm->size()) ; aKIm++)
{
std::string aCom = MM3dBinFile_quotes( "TestLib ") + aComIm + " " + anEASF.mDir+(*aSetIm)[aKIm] ;
if (EAMIsInit(&anOriCalib)) aCom = aCom + " OriCalib=" + anOriCalib;
aCom += " Quick=" +ToString(aQuick);
aLCom.push_back(aCom);
//std::cout << aCom << "\n";
}
cEl_GPAO::DoComInParal(aLCom);
return EXIT_SUCCESS;
}
int XeresHomMatch_main(int argc,char** argv)
{
MMD_InitArgcArgv(argc,argv);
std::string aDir="./";
std::string aSeq;
std::string anOri;
ElInitArgMain
(
argc,argv,
LArgMain() << EAMC(aSeq, "Sequence")
<< EAMC(anOri,"Orientation"),
LArgMain() << EAM(aDir,"Dir",true,"Folder of data, Def=./")
);
cAppliXeres anAppli(aDir,aSeq);
StdCorrecNameOrient(anOri,aDir);
anAppli.CalculHomMatch(anOri);
return EXIT_SUCCESS;
}
int Drunk_main(int argc,char ** argv)
{
//Testing the existence of argument (if not, print help file)
if(!MMVisualMode && argc==1)
{
argv[1]=(char*)"";//Compulsory to call MMD_InitArgcArgv
MMD_InitArgcArgv(argc,argv);
string cmdhelp;
cmdhelp=MMDir()+"bin/Drunk -help";
system_call(cmdhelp.c_str());
}
else
{
MMD_InitArgcArgv(argc,argv);
string aFullPattern,aOri;
string DirOut="DRUNK/";
bool Talk=true;
//Reading the arguments
ElInitArgMain
(
argc,argv,
LArgMain() << EAMC(aFullPattern,"Images Pattern", eSAM_IsPatFile)
<< EAMC(aOri,"Orientation name", eSAM_IsExistDirOri),
LArgMain() << EAM(DirOut,"Out",true,"Output folder (end with /) and/or prefix (end with another char)")
<< EAM(Talk,"Talk",true,"Turn on-off commentaries")
);
//Processing the files
string aPattern, aDir;
SplitDirAndFile(aDir, aPattern, aFullPattern);
StdCorrecNameOrient(aOri, aDir);
Drunk(aPattern,aOri,DirOut,Talk);
}
return EXIT_SUCCESS;
}
