void cMMTP::MaskProgDyn(const cParamFiltreDepthByPrgDyn & aParam) { std::cout << "BEGIN MASK PRGD\n"; mImMasqFinal = FiltrageDepthByProgDyn(mContBT,mImLabel,aParam); std::cout << "END MASK PRGD\n"; #ifdef ELISE_X11 if(TheWTiePCor) { ELISE_COPY(mImLabel.all_pts(),mImLabel.in(),TheWTiePCor->odisc()); ELISE_COPY ( select(mImLabel.all_pts(),mImMasqFinal.in() && (mImLabel.in()==1)), P8COL::green, TheWTiePCor->odisc() ); ELISE_COPY ( select(mImLabel.all_pts(),mImMasqFinal.in() && (mImLabel.in()==2)), P8COL::blue, TheWTiePCor->odisc() ); TheWTiePCor->clik_in(); } #endif }
Im2D_U_INT1 Icone(const std::string & aName,const Pt2di & aSzCase,bool Floutage,bool Negatif) { cElBitmFont & aFont = cElBitmFont::BasicFont_10x8() ; Im2D_Bits<1> aImBin = aFont.MultiLineImageString(aName,Pt2di(0,5),-aSzCase,0); ELISE_COPY(aImBin.border(3),1,aImBin.out()); ELISE_COPY(aImBin.border(1),0,aImBin.out()); Pt2di aSz = aImBin.sz(); Im2D_U_INT1 aRes(aSz.x,aSz.y); if (Negatif) { ELISE_COPY(line(Pt2di(0,0),aSz),1,aImBin.oclip()); ELISE_COPY(line(Pt2di(aSz.x,0),Pt2di(0,aSz.y)),1,aImBin.oclip()); ELISE_COPY(aImBin.all_pts(),!aImBin.in(),aImBin.out()); } ELISE_COPY ( aRes.all_pts(), (!aImBin.in(0)) *255, aRes.out() ); if (Floutage) { ELISE_COPY ( aRes.all_pts(), ( Negatif ? Max(aRes.in(),rect_som(aRes.in(0),1)/9.0) : Min(aRes.in(),rect_som(aRes.in(0),1)/9.0) ), aRes.out() ); } return aRes; }
void ShowMasq(Im2D_Bits<1> aMasq) { #ifdef ELISE_X11 if (TheWTiePCor) { ELISE_COPY ( select(aMasq.all_pts(),aMasq.in()==0), P8COL::green, TheWTiePCor->odisc() ); } #endif }
void cMMTP::MaskRegulMaj(const cParamFiltreDetecRegulProf & aParam) { double aPasPx = mAppli.CurEtape()->GeomTer().PasPxRel0(); Im2D_REAL4 anIm(mSzTiep.x,mSzTiep.y); ELISE_COPY(anIm.all_pts(),mImProf.in()*aPasPx,anIm.out()); Im2D_Bits<1> aNewMasq = FiltreDetecRegulProf(anIm,mImMasqInit,aParam); #ifdef ELISE_X11 if(TheWTiePCor) { std::cout << "SHOW FiltreDetecRegulProf\n"; ELISE_COPY(mImLabel.all_pts(),mImMasqInit.in(),TheWTiePCor->odisc()); ELISE_COPY ( select(mImLabel.all_pts(),aNewMasq.in()), P8COL::green, TheWTiePCor->odisc() ); TheWTiePCor->clik_in(); } #endif mImMasqInit = aNewMasq; }
Fonc_Num cImage_LumRas::MoyGlobImage(Fonc_Num aF) { Im2D_Bits<1> aIM = mAppli.mImMasq; Fonc_Num aFMasq = aIM.in(0); double aVS[2]; ELISE_COPY ( aIM.all_pts(), Virgule(aF*aFMasq,aFMasq), sigma(aVS,2) ); return aVS[0] / aVS[1]; }
void cMMTP::DoOneEnv(Im2D_REAL4 anEnvRed,Im2D_Bits<1> aNewM,bool isMax,const cXML_ParamNuage3DMaille & aTargetNuage,const cXML_ParamNuage3DMaille & aCurNuage,double aRedFact) { int aSign = isMax ? 1 : - 1; int aDefVal = -(aSign * 32000); Fonc_Num aFMasqBin; Fonc_Num fChCo = Virgule(FX,FY)/ (aRedFact); Fonc_Num aRes = FoncChCoordWithMasq(anEnvRed.in(aDefVal),aNewM.in(0),fChCo,aDefVal,aFMasqBin); aRes = aRes + mDilatAlti * aSign; aRes = isMax ? rect_max(aRes,mDilatPlani) : rect_min(aRes,mDilatPlani); aRes = ::AdaptDynOut(aRes,aTargetNuage,aCurNuage); Tiff_Im aFileRes = FileEnv(isMax?"EnvMax":"EnvMin",false); ELISE_COPY(rectangle(mBoxOutEnv._p0,mBoxOutEnv._p1),trans(aRes * aFMasqBin,-mBoxInEnv._p0),aFileRes.out()); if (isMax) { Tiff_Im aFileMasq = FileEnv("EnvMasq",true); ELISE_COPY(rectangle(mBoxOutEnv._p0,mBoxOutEnv._p1),trans(aFMasqBin,-mBoxInEnv._p0),aFileMasq.out()); } }
int HomFilterMasq_main(int argc,char ** argv) { // MemoArg(argc,argv); MMD_InitArgcArgv(argc,argv); std::string aDir,aPat,aFullDir; bool ExpTxt=false; std::string PostPlan="_Masq"; std::string KeyCalcMasq; std::string KeyEquivNoMasq; std::string MasqGlob; double aResol=10; bool AcceptNoMask; std::string aPostIn= ""; std::string aPostOut= "MasqFiltered"; ElInitArgMain ( argc,argv, LArgMain() << EAMC(aFullDir,"Full name (Dir+Pat)", eSAM_IsPatFile), LArgMain() << EAM(PostPlan,"PostPlan",true,"Post to plan, Def : toto ->toto_Masq.tif like with SaisieMasq") << EAM(MasqGlob,"GlobalMasq",true,"Global Masq to add to all image") << EAM(KeyCalcMasq,"KeyCalculMasq",true,"For tuning masq per image") << EAM(KeyEquivNoMasq,"KeyEquivNoMasq",true,"When given if KENM(i1)==KENM(i2), don't masq") << EAM(aResol,"Resol",true,"Sub Resolution for masq storing, Def=10") << EAM(AcceptNoMask,"ANM",true,"Accept no mask, def = true if MasqGlob and false else") << EAM(ExpTxt,"ExpTxt",true,"Ascii format for in and out, def=false") << EAM(aPostIn,"PostIn",true,"Post for Input dir Hom, Def=") << EAM(aPostOut,"PostOut",true,"Post for Output dir Hom, Def=MasqFiltered") ); #if (ELISE_windows) replace( aFullDir.begin(), aFullDir.end(), '\\', '/' ); #endif SplitDirAndFile(aDir,aPat,aFullDir); if (EAMIsInit(&PostPlan)) { CorrecNameMasq(aDir,aPat,PostPlan); } if (!EAMIsInit(&AcceptNoMask)) AcceptNoMask = EAMIsInit(&MasqGlob); cInterfChantierNameManipulateur * anICNM = cInterfChantierNameManipulateur::BasicAlloc(aDir); Im2D_Bits<1> aImMasqGlob(1,1); if (EAMIsInit(&MasqGlob)) aImMasqGlob = GetMasqSubResol(aDir+MasqGlob,aResol); const std::vector<std::string> * aVN = anICNM->Get(aPat); std::vector<Im2D_Bits<1> > aVMasq; for (int aKN = 0 ; aKN<int(aVN->size()) ; aKN++) { std::string aNameIm = (*aVN)[aKN]; Tiff_Im aTF = Tiff_Im::StdConvGen(aNameIm,1,false); Pt2di aSzG = aTF.sz(); Pt2di aSzR (round_ni(Pt2dr(aSzG)/aResol)); Im2D_Bits<1> aImMasq(aSzR.x,aSzR.y,1); std::string aNameMasq = StdPrefix(aNameIm)+PostPlan + ".tif"; if (EAMIsInit(&KeyCalcMasq)) { aNameMasq = anICNM->Assoc1To1(KeyCalcMasq,aNameIm,true); } if (ELISE_fp::exist_file(aNameMasq)) { Im2D_Bits<1> aImMasqLoc = GetMasqSubResol(aDir+aNameMasq,aResol); ELISE_COPY(aImMasq.all_pts(),aImMasq.in() && aImMasqLoc.in(0),aImMasq.out()); } else { if (!AcceptNoMask) { std::cout << "For Im " << aNameIm << " file " << aNameMasq << " does not exist\n"; ELISE_ASSERT(false,"Masq not found"); } } if (EAMIsInit(&MasqGlob)) { ELISE_COPY(aImMasq.all_pts(),aImMasq.in() && aImMasqGlob.in(0),aImMasq.out()); } aVMasq.push_back(aImMasq); // Tiff_Im::CreateFromIm(aImMasq,"SousRes"+aNameMasq); } std::string anExt = ExpTxt ? "txt" : "dat"; std::string aKHIn = std::string("NKS-Assoc-CplIm2Hom@") + std::string(aPostIn) + std::string("@") + std::string(anExt); std::string aKHOut = std::string("NKS-Assoc-CplIm2Hom@") + std::string(aPostOut) + std::string("@") + std::string(anExt); for (int aKN1 = 0 ; aKN1<int(aVN->size()) ; aKN1++) { for (int aKN2 = 0 ; aKN2<int(aVN->size()) ; aKN2++) { std::string aNameIm1 = (*aVN)[aKN1]; std::string aNameIm2 = (*aVN)[aKN2]; std::string aNameIn = aDir + anICNM->Assoc1To2(aKHIn,aNameIm1,aNameIm2,true); if (ELISE_fp::exist_file(aNameIn)) { bool UseMasq = true; if (EAMIsInit(&KeyEquivNoMasq)) { UseMasq = (anICNM->Assoc1To1(KeyEquivNoMasq,aNameIm1,true) != anICNM->Assoc1To1(KeyEquivNoMasq,aNameIm2,true) ); } TIm2DBits<1> aMasq1 ( aVMasq[aKN1]); TIm2DBits<1> aMasq2 ( aVMasq[aKN2]); ElPackHomologue aPackIn = ElPackHomologue::FromFile(aNameIn); ElPackHomologue aPackOut; for (ElPackHomologue::const_iterator itP=aPackIn.begin(); itP!=aPackIn.end() ; itP++) { Pt2dr aP1 = itP->P1(); Pt2dr aP2 = itP->P2(); Pt2di aQ1 = round_ni(aP1/aResol); Pt2di aQ2 = round_ni(aP2/aResol); if ((aMasq1.get(aQ1,0) && aMasq2.get(aQ2,0)) || (! UseMasq)) { ElCplePtsHomologues aCple(aP1,aP2); aPackOut.Cple_Add(aCple); } } std::string aNameOut = aDir + anICNM->Assoc1To2(aKHOut,aNameIm1,aNameIm2,true); aPackOut.StdPutInFile(aNameOut); std::cout << "IN " << aNameIn << " " << aNameOut << " UseM " << UseMasq << "\n"; } } } // std::vector<cImFMasq *> mVIm; return 0; }
int HomFilterMasq_main(int argc,char ** argv) { // MemoArg(argc,argv); MMD_InitArgcArgv(argc,argv); std::string aDir,aPat,aFullDir; bool ExpTxt=false; std::string PostPlan="_Masq"; std::string KeyCalcMasq; std::string KeyEquivNoMasq; std::string MasqGlob; double aResol=10; bool AcceptNoMask; std::string aPostIn= ""; std::string aPostOut= "MasqFiltered"; std::string aOriMasq3D,aNameMasq3D; cMasqBin3D * aMasq3D = 0; Pt2dr aSelecTer; ElInitArgMain ( argc,argv, LArgMain() << EAMC(aFullDir,"Full name (Dir+Pat)", eSAM_IsPatFile), LArgMain() << EAM(PostPlan,"PostPlan",true,"Post to plan, Def : toto ->toto_Masq.tif like with SaisieMasq") << EAM(MasqGlob,"GlobalMasq",true,"Global Masq to add to all image") << EAM(KeyCalcMasq,"KeyCalculMasq",true,"For tuning masq per image") << EAM(KeyEquivNoMasq,"KeyEquivNoMasq",true,"When given if KENM(i1)==KENM(i2), don't masq") << EAM(aResol,"Resol",true,"Sub Resolution for masq storing, Def=10") << EAM(AcceptNoMask,"ANM",true,"Accept no mask, def = true if MasqGlob and false else") << EAM(ExpTxt,"ExpTxt",true,"Ascii format for in and out, def=false") << EAM(aPostIn,"PostIn",true,"Post for Input dir Hom, Def=") << EAM(aPostOut,"PostOut",true,"Post for Output dir Hom, Def=MasqFiltered") << EAM(aOriMasq3D,"OriMasq3D",true,"Orientation for Masq 3D") << EAM(aNameMasq3D,"Masq3D",true,"File of Masq3D, Def=AperiCloud_${OriMasq3D}.ply") << EAM(aSelecTer,"SelecTer",true,"[Per,Prop] Period of tiling on ground selection, Prop=proporion of selected") ); bool aHasOri3D = EAMIsInit(&aOriMasq3D); bool HasTerSelec = EAMIsInit(&aSelecTer); #if (ELISE_windows) replace( aFullDir.begin(), aFullDir.end(), '\\', '/' ); #endif SplitDirAndFile(aDir,aPat,aFullDir); if (EAMIsInit(&PostPlan)) { CorrecNameMasq(aDir,aPat,PostPlan); } if (!EAMIsInit(&AcceptNoMask)) AcceptNoMask = EAMIsInit(&MasqGlob) || aHasOri3D; cInterfChantierNameManipulateur * anICNM = cInterfChantierNameManipulateur::BasicAlloc(aDir); std::string aKeyOri; if (aHasOri3D) { anICNM->CorrecNameOrient(aOriMasq3D); if (! EAMIsInit(&aNameMasq3D)) { aNameMasq3D = aDir + "AperiCloud_" + aOriMasq3D + "_polyg3d.xml"; } if (ELISE_fp::exist_file(aDir+aNameMasq3D)) { aMasq3D = cMasqBin3D::FromSaisieMasq3d(aDir+aNameMasq3D); } else { ELISE_ASSERT(EAMIsInit(&aSelecTer),"Unused OriMasq3D"); } aKeyOri = "NKS-Assoc-Im2Orient@" + aOriMasq3D; } Im2D_Bits<1> aImMasqGlob(1,1); if (EAMIsInit(&MasqGlob)) aImMasqGlob = GetMasqSubResol(aDir+MasqGlob,aResol); const std::vector<std::string> * aVN = anICNM->Get(aPat); std::vector<Im2D_Bits<1> > aVMasq; std::vector<CamStenope *> aVCam; double aResolMoy = 0; for (int aKN = 0 ; aKN<int(aVN->size()) ; aKN++) { std::string aNameIm = (*aVN)[aKN]; Tiff_Im aTF = Tiff_Im::StdConvGen(aNameIm,1,false); Pt2di aSzG = aTF.sz(); Pt2di aSzR (round_ni(Pt2dr(aSzG)/aResol)); Im2D_Bits<1> aImMasq(aSzR.x,aSzR.y,1); std::string aNameMasq = StdPrefix(aNameIm)+PostPlan + ".tif"; if (EAMIsInit(&KeyCalcMasq)) { aNameMasq = anICNM->Assoc1To1(KeyCalcMasq,aNameIm,true); } if (ELISE_fp::exist_file(aNameMasq)) { Im2D_Bits<1> aImMasqLoc = GetMasqSubResol(aDir+aNameMasq,aResol); ELISE_COPY(aImMasq.all_pts(),aImMasq.in() && aImMasqLoc.in(0),aImMasq.out()); } else { if (!AcceptNoMask) { std::cout << "For Im " << aNameIm << " file " << aNameMasq << " does not exist\n"; ELISE_ASSERT(false,"Masq not found"); } } if (EAMIsInit(&MasqGlob)) { ELISE_COPY(aImMasq.all_pts(),aImMasq.in() && aImMasqGlob.in(0),aImMasq.out()); } aVMasq.push_back(aImMasq); // Tiff_Im::CreateFromIm(aImMasq,"SousRes"+aNameMasq); if (aHasOri3D) { aVCam.push_back(anICNM->StdCamOfNames(aNameIm,aOriMasq3D)); aResolMoy += aVCam.back()->GlobResol(); } } if (aHasOri3D) aResolMoy /= aVCam.size(); std::string anExt = ExpTxt ? "txt" : "dat"; std::string aKHIn = std::string("NKS-Assoc-CplIm2Hom@") + std::string(aPostIn) + std::string("@") + std::string(anExt); std::string aKHOut = std::string("NKS-Assoc-CplIm2Hom@") + std::string(aPostOut) + std::string("@") + std::string(anExt); double aPeriodTer=0,aSeuilDistTer=0; if (HasTerSelec) { aPeriodTer = aSelecTer.x * aResolMoy; aSeuilDistTer = aPeriodTer * sqrt(aSelecTer.y); } double aNbInTer=0; double aNbTestTer=0; for (int aKN1 = 0 ; aKN1<int(aVN->size()) ; aKN1++) { for (int aKN2 = 0 ; aKN2<int(aVN->size()) ; aKN2++) { std::string aNameIm1 = (*aVN)[aKN1]; std::string aNameIm2 = (*aVN)[aKN2]; std::string aNameIn = aDir + anICNM->Assoc1To2(aKHIn,aNameIm1,aNameIm2,true); if (ELISE_fp::exist_file(aNameIn)) { bool UseMasq = true; if (EAMIsInit(&KeyEquivNoMasq)) { UseMasq = (anICNM->Assoc1To1(KeyEquivNoMasq,aNameIm1,true) != anICNM->Assoc1To1(KeyEquivNoMasq,aNameIm2,true) ); } TIm2DBits<1> aMasq1 ( aVMasq[aKN1]); TIm2DBits<1> aMasq2 ( aVMasq[aKN2]); ElPackHomologue aPackIn = ElPackHomologue::FromFile(aNameIn); ElPackHomologue aPackOut; for (ElPackHomologue::const_iterator itP=aPackIn.begin(); itP!=aPackIn.end() ; itP++) { Pt2dr aP1 = itP->P1(); Pt2dr aP2 = itP->P2(); Pt2di aQ1 = round_ni(aP1/aResol); Pt2di aQ2 = round_ni(aP2/aResol); bool Ok = ((aMasq1.get(aQ1,0) && aMasq2.get(aQ2,0)) || (! UseMasq)); if (Ok && aHasOri3D) { Pt3dr aPTer= aVCam[aKN1]->PseudoInter(aP1,*(aVCam[aKN2]),aP2); if (aMasq3D && (! aMasq3D->IsInMasq(aPTer))) Ok = false; if (Ok && HasTerSelec) { bool OkTer = (mod_real(aPTer.x,aPeriodTer) < aSeuilDistTer) && (mod_real(aPTer.y,aPeriodTer) < aSeuilDistTer); Ok = OkTer; aNbTestTer ++; aNbInTer += OkTer; } } if (Ok) { ElCplePtsHomologues aCple(aP1,aP2); aPackOut.Cple_Add(aCple); } } std::string aNameOut = aDir + anICNM->Assoc1To2(aKHOut,aNameIm1,aNameIm2,true); aPackOut.StdPutInFile(aNameOut); std::cout << "IN " << aNameIn << " " << aNameOut << " UseM " << UseMasq << "\n"; } } } // std::vector<cImFMasq *> mVIm; if (HasTerSelec) { std::cout << "A Posteriori Prop=" << aNbInTer / aNbTestTer << "\n"; } return EXIT_SUCCESS; }
void cMMTP::ContAndBoucheTrou() { int aDist32Close = 6; int aNbErod = 6; // 1- Quelques fitre morpho de base, pour calculer les points eligibles au bouche-trou int aLabelOut = 0; //int aLabelIn = 1; int aLabelClose = 2; int aLabelFront = 3; ELISE_COPY(mImMasqInit.all_pts(),mImMasqInit.in(),mImLabel.out()); ELISE_COPY(mImLabel.border(2),aLabelOut,mImLabel.out()); // 1.1 calcul des point dans le fermeture ELISE_COPY ( select ( mImLabel.all_pts(), close_32(mImLabel.in(0),aDist32Close) && (mImLabel.in()==aLabelOut) ), aLabelClose, mImLabel.out() ); ELISE_COPY(mImLabel.border(2),aLabelOut,mImLabel.out()); // 1.2 erosion de ces points Neighbourhood V4 = Neighbourhood::v4(); Neighbourhood V8 = Neighbourhood::v8(); Neigh_Rel aRelV4(V4); Liste_Pts_U_INT2 aLFront(2); ELISE_COPY ( select ( mImLabel.all_pts(), (mImLabel.in(0)==aLabelClose) && (aRelV4.red_max(mImLabel.in(0)==aLabelOut)) ), aLabelFront, mImLabel.out() | aLFront ); for (int aK=0 ; aK<aNbErod ; aK++) { Liste_Pts_U_INT2 aLNew(2); ELISE_COPY ( dilate ( aLFront.all_pts(), mImLabel.neigh_test_and_set(Neighbourhood::v4(),2,3,20) ), aLabelFront, aLNew ); aLFront = aLNew; } ELISE_COPY(select(mImLabel.all_pts(),mImLabel.in()==aLabelFront),0,mImLabel.out()); // Au cas ou on ferait un export premature ELISE_COPY(mImMasqFinal.all_pts(),mImLabel.in()!=0,mImMasqFinal.out()); int aSomMaskF; ELISE_COPY(mImMasqFinal.all_pts(),mImLabel.in()==1,sigma(aSomMaskF)); if (aSomMaskF < 100) return; // std::cout << "aSomMaskFaSomMaskF " << aSomMaskF << "\n"; // 2- Dequantifiication, adaptee au image a trou Im2D_REAL4 aProfCont(mSzTiep.x,mSzTiep.y,0.0); { Im2D_INT2 aPPV = BouchePPV(mImProf,mImLabel.in()==1); ElImplemDequantifier aDeq(mSzTiep); aDeq.DoDequantif(mSzTiep,aPPV.in()); ELISE_COPY(aProfCont.all_pts(),aDeq.ImDeqReelle(),aProfCont.out()); ELISE_COPY(select(aProfCont.all_pts(),mImLabel.in()!=1),0,aProfCont.out()); } //Im2D_REAL4 aImInterp(mSzTiep.x,mSzTiep.y); TIm2D<REAL4,REAL8> aTInterp(mContBT); // 3- Bouchage "fin" des trour par moinde L2 // 3.1 Valeur initial // Filtrage gaussien Fonc_Num aFMasq = (mImLabel.in(0)==1); Fonc_Num aFProf = (aProfCont.in(0) * aFMasq); for (int aK=0 ; aK<3 ; aK++) { aFMasq = rect_som(aFMasq,1) /9.0; aFProf = rect_som(aFProf,1) /9.0; } ELISE_COPY ( mContBT.all_pts(), aFProf / Max(aFMasq,1e-9), mContBT.out() ); // On remet la valeur init au point ayant un valeur propre ELISE_COPY ( select(mContBT.all_pts(),mImLabel.in()==1), aProfCont.in(), mContBT.out() ); // Et rien en dehors de l'image ELISE_COPY ( select(mContBT.all_pts(),mImLabel.in()==0), 0, mContBT.out() ); // 3.2 Iteration pour regulariser les points interpoles { std::vector<Pt2di> aVInterp; { Pt2di aP; for (aP.x=0 ; aP.x<mSzTiep.x ; aP.x++) { for (aP.y=0 ; aP.y<mSzTiep.y ; aP.y++) { if (mTLab.get(aP)==aLabelClose) aVInterp.push_back(aP); } } } for (int aKIter=0 ; aKIter<20 ; aKIter++) { std::vector<double> aVVals; for (int aKP=0 ; aKP<int(aVInterp.size()) ; aKP++) { double aSom=0; double aSomPds = 0; Pt2di aPK = aVInterp[aKP]; for (int aKV=0 ; aKV<9 ; aKV++) { Pt2di aVois = aPK+TAB_9_NEIGH[aKV]; if (mTLab.get(aVois)!=0) { int aPds = PdsGaussl9NEIGH[aKV]; aSom += aTInterp.get(aVois) * aPds; aSomPds += aPds; } } ELISE_ASSERT(aSomPds!=0,"Assert P!=0"); aVVals.push_back(aSom/aSomPds); } for (int aKP=0 ; aKP<int(aVInterp.size()) ; aKP++) { aTInterp.oset(aVInterp[aKP],aVVals[aKP]); } } } /* */ #ifdef ELISE_X11 if(0 && TheWTiePCor) { ELISE_COPY ( mImLabel.all_pts(), mContBT.in()*7, TheWTiePCor->ocirc() ); TheWTiePCor->clik_in(); ELISE_COPY ( mImLabel.all_pts(), nflag_close_sym(flag_front4(mImLabel.in(0)==1)), TheWTiePCor->out_graph(Line_St(TheWTiePCor->pdisc()(P8COL::black))) ); TheWTiePCor->clik_in(); ELISE_COPY ( mImLabel.all_pts(), mImLabel.in(0), TheWTiePCor->odisc() ); TheWTiePCor->clik_in(); ELISE_COPY ( mImLabel.all_pts(), mImMasqFinal.in(0), TheWTiePCor->odisc() ); TheWTiePCor->clik_in(); } #endif }
void cMMTP::ConputeEnveloppe(const cComputeAndExportEnveloppe & aCAEE,const cXML_ParamNuage3DMaille & aCurNuage) { mNameTargetEnv = mAppli.WorkDir() + TheDIRMergeEPI() + mAppli.PDV1()->Name() + "/NuageImProf_LeChantier_Etape_1.xml"; mNameTargetEnv = aCAEE.NuageExport().ValWithDef(mNameTargetEnv); cXML_ParamNuage3DMaille aTargetNuage = StdGetFromSI(mNameTargetEnv,XML_ParamNuage3DMaille); mZoomTargetEnv = aTargetNuage.SsResolRef().Val(); mSzTargetEnv = aTargetNuage.NbPixel(); double aZoomRel = mAppli.CurEtape()->DeZoomTer()/mZoomTargetEnv; mBoxOutEnv._p0 = round_ni(Pt2dr(mBoxOutGlob._p0) * aZoomRel); mBoxOutEnv._p1 = round_ni(Pt2dr(mBoxOutGlob._p1) * aZoomRel); mBoxInEnv._p0 = round_ni(Pt2dr(mBoxInGlob._p0) * aZoomRel); mBoxInEnv._p1 = round_ni(Pt2dr(mBoxInGlob._p1) * aZoomRel); ELISE_ASSERT(mP0Tiep==Pt2di(0,0),"Too lazy to handle box maping"); double aPasPx = mAppli.CurEtape()->GeomTer().PasPxRel0(); //=============== READ PARAMS ==================== double aStepSsEch = aCAEE.SsEchFilter().Val(); int aSzFiltrer = aCAEE.SzFilter().Val(); double aProp = aCAEE.ParamPropFilter().Val(); int aDistProl = round_up( ElMax(aCAEE.ProlResolCur().Val(),aCAEE.ProlResolCible().Val()/aZoomRel) /aStepSsEch); double aDistCum = (aCAEE.ProlDistAddMax().Val() / (aPasPx* aZoomRel)); double aDistAdd = (aCAEE.ProlDistAdd().Val()*aStepSsEch ) / (aPasPx); std::cout << "DIST CUM " << aDistCum << " DADD " << aDistAdd << "\n"; //=================================== ElTimer aChrono; int aSeuilNbV = 2 * (1+2*aSzFiltrer); // Au moins une bande de 2 pixel pour inferer qqch Pt2di aSzRed = round_up(Pt2dr(mSzTiep)/aStepSsEch); Im2D_Bits<1> aMasqRed(aSzRed.x,aSzRed.y,0); TIm2DBits<1> aTMR(aMasqRed); /* TIm2D<INT2,INT> aPMaxRed(aSzRed); TIm2D<INT2,INT> aPMinRed(aSzRed); */ TIm2D<REAL4,REAL> aPMaxRed(aSzRed); TIm2D<REAL4,REAL> aPMinRed(aSzRed); // Calcul du filtre de reduction Pt2di aPRed; for (aPRed.y = 0 ; aPRed.y<aSzRed.y ; aPRed.y++) { for (aPRed.x = 0 ; aPRed.x<aSzRed.x ; aPRed.x++) { Pt2di aPR1 = round_ni(Pt2dr(aPRed)*aStepSsEch); int anX0 = ElMax(0,aPR1.x-aSzFiltrer); int anX1 = ElMin(mSzTiep.x-1,aPR1.x+aSzFiltrer); int anY0 = ElMax(0,aPR1.y-aSzFiltrer); int anY1 = ElMin(mSzTiep.y-1,aPR1.y+aSzFiltrer); std::vector<REAL> aVVals; Pt2di aVoisR1; for (aVoisR1.x=anX0 ; aVoisR1.x<=anX1 ; aVoisR1.x++) { for (aVoisR1.y=anY0 ; aVoisR1.y<=anY1 ; aVoisR1.y++) { if (mTImMasqInit.get(aVoisR1)) aVVals.push_back( mTCBT.get(aVoisR1)); // aVVals.push_back( mTImProf.get(aVoisR1)); } } if (int(aVVals.size()) >= aSeuilNbV) { REAL4 aVMax = KthValProp(aVVals,aProp); REAL4 aVMin = KthValProp(aVVals,1-aProp); aPMaxRed.oset(aPRed,aVMax); aPMinRed.oset(aPRed,aVMin); aTMR.oset(aPRed,1); ELISE_ASSERT(aVMin<=aVMax,"Mic>Max !!!! in BasicMMTiep"); } else { aPMaxRed.oset(aPRed,-32000); aPMinRed.oset(aPRed, 32000); } } } //Tiff_Im::Create8BFromFonc("TDifInit.tif",aSzRed,Max(0,Min(255,Iconv(aPMaxRed._the_im.in()-aPMinRed._the_im.in())))); Im2D_Bits<1> aNewM(1,1); Im2D_REAL4 aNewMax = ProlongByCont (aNewM,aMasqRed,aPMaxRed._the_im,aDistProl,aDistAdd,aDistCum); Im2D_REAL4 aNewMin = ProlongByCont (aNewM,aMasqRed,aPMinRed._the_im,aDistProl,-aDistAdd,aDistCum); ELISE_COPY(select(aNewM.all_pts(),!aNewM.in()),0,aNewMax.out()|aNewMin.out()); // fChCo = Virgule(FX,FY)/ (aStepSsEch * aZoomRel); // fMasq = aNewM.in(0)[fChCo]; // fMasqBin = fMasq>0.5; mDilatPlani = ElMax(aCAEE.DilatPlaniCible().Val(),round_up(aCAEE.DilatPlaniCur().Val()*aZoomRel)); mDilatAlti = ElMax(aCAEE.DilatAltiCible ().Val(),round_up(aCAEE.DilatPlaniCur().Val()*aZoomRel)); DoOneEnv(aNewMax,aNewM,true ,aTargetNuage,aCurNuage,aStepSsEch * aZoomRel); DoOneEnv(aNewMin,aNewM,false,aTargetNuage,aCurNuage,aStepSsEch * aZoomRel); Fonc_Num aFMasqBin; Fonc_Num fChCo = Virgule(FX,FY)/ aZoomRel; std::cout << "ZRRRR " << aZoomRel << " 1/Z " << (1/aZoomRel) << " ;; " << mAppli.CurEtape()->DeZoomTer() << " , " << mZoomTargetEnv << "\n"; // Tiff_Im::CreateFromIm(mContBT,DirOfFile(mNameTargetEnv)+"CONTBT.tif"); Fonc_Num aFoncProf = FoncChCoordWithMasq(mContBT.in(0),mImMasqFinal.in(0),fChCo,0,aFMasqBin); aFoncProf = ::AdaptDynOut(aFoncProf,aTargetNuage,aCurNuage); Tiff_Im aFileProf = FileEnv("Depth",false); ELISE_COPY(rectangle(mBoxOutEnv._p0,mBoxOutEnv._p1),trans(aFoncProf,-mBoxInEnv._p0),aFileProf.out()); Tiff_Im aFileMasq = FileEnv("Masq",true); ELISE_COPY(rectangle(mBoxOutEnv._p0,mBoxOutEnv._p1),trans(aFMasqBin,-mBoxInEnv._p0),aFileMasq.out()); #ifdef ELISE_X11 if (0 && TheWTiePCor) { ELISE_COPY(TheWTiePCor->all_pts(),aFMasqBin,TheWTiePCor->odisc()); std::cout << "AAAAAAAAAAAAAAAAAAAAa\n"; TheWTiePCor->clik_in(); ELISE_COPY(TheWTiePCor->all_pts(),aFileMasq.in(),TheWTiePCor->odisc()); std::cout << "bbBBbbBBBBBBBbbb\n"; TheWTiePCor->clik_in(); } #endif }
void FiltreRemoveBorderHeter(Im2D_REAL4 anIm,Im2D_U_INT1 aImMasq,double aCostRegul,double aCostTrans) { Pt2di aSz = anIm.sz(); double aVMax,aVMin; ELISE_COPY(aImMasq.border(1),0,aImMasq.out()); ELISE_COPY(aImMasq.all_pts(),aImMasq.in()!=0,aImMasq.out()); ELISE_COPY(anIm.all_pts(),anIm.in(),VMax(aVMax)|VMin(aVMin)); Video_Win * aW = Video_Win::PtrWStd(aSz); ELISE_COPY(anIm.all_pts(),(anIm.in()-aVMin) * (255.0/(aVMax-aVMin)),aW->ogray()); std::cout << "VMAX " << aVMax << "\n"; //ELISE_COPY(aW->all_pts(),aImMasq.in(),aW->odisc()); //aW->clik_in(); ELISE_COPY ( aW->all_pts(), nflag_close_sym(flag_front8(aImMasq.in_proj()!=0)), aW->out_graph(Line_St(aW->pdisc()(P8COL::red))) ); cParamFiltreDepthByPrgDyn aParam = StdGetFromSI(Basic_XML_MM_File("DefFiltrPrgDyn.xml"),ParamFiltreDepthByPrgDyn); aParam.CostTrans() = aCostTrans; aParam.CostRegul() = aCostRegul; Im2D_Bits<1> aNewMasq = FiltrageDepthByProgDyn(anIm,aImMasq,aParam); ELISE_COPY ( select(aNewMasq.all_pts(),aNewMasq.in()), 2, aImMasq.out() ); TIm2D<U_INT1,INT> aTMasq(aImMasq); FiltrageCardCC(false,aTMasq,2,0,100); Neighbourhood aNV4=Neighbourhood::v4(); Neigh_Rel aNrV4 (aNV4); ELISE_COPY ( conc ( select(select(aImMasq.all_pts(),aImMasq.in()==1),aNrV4.red_sum(aImMasq.in()==0)), aImMasq.neigh_test_and_set(aNV4,1,0,256) ), 3, Output::onul() ); ELISE_COPY ( aNewMasq.all_pts(), aImMasq.in(), aW->odisc() ); /* ELISE_COPY ( aW->all_pts(), nflag_close_sym(flag_front8(aNewMasq.in_proj())), aW->out_graph(Line_St(aW->pdisc()(P8COL::green))) ); */ aW->clik_in(); }