C CLI152 SOURCE OF166741 24/12/13 21:15:20 12097 SUBROUTINE CLI152(MELEMF,MELEMC,MELECB,MELEFC,MELRES,INORM,ICHPVO, & ICHPSU,IROC,IVITC,IPC,IGAMC,ICHLIM,ILIINC,ILIINP,IJAC,IJACO) C************************************************************************ C C PROJET : CASTEM 2000 C C NOM : CLI152 C C DESCRIPTION : Subroutine appellée par CLIM11 C C LANGAGE : FORTRAN 77 + ESOPE 2000 (avec estensions CISI) C C AUTEUR : A. BECCANTINI, DRN/DMT/SEMT/LTMF C C************************************************************************ C C APPELES (Calcul) : C C************************************************************************ C C HISTORIQUE (Anomalies et modifications éventuelles) C C HISTORIQUE : C C************************************************************************ C IMPLICIT INTEGER(I-N) -INC PPARAM -INC CCOPTIO -INC SMLMOTS -INC SMELEME POINTEUR MELEFC.MELEME -INC SMLENTI POINTEUR MLEMC.MLENTI, MLEMCB.MLENTI,MLEMF.MLENTI -INC SMCHPOI POINTEUR MPNORM.MPOVAL, MPVOL.MPOVAL, MPSURF.MPOVAL, MPRC.MPOVAL, & MPVC.MPOVAL, MPPC.MPOVAL, MPGAMC.MPOVAL, MPLIM.MPOVAL -INC SMMATRIK POINTEUR RR.IZAFM, RUX.IZAFM, RUY.IZAFM, RRET.IZAFM, & UXR.IZAFM, UXUX.IZAFM, UXUY.IZAFM, UXRET.IZAFM, & UYR.IZAFM, UYUX.IZAFM, UYUY.IZAFM, UYRET.IZAFM, & RETR.IZAFM, RETUX.IZAFM, RETUY.IZAFM, RETRET.IZAFM C INTEGER MELEMF,MELEMC,MELECB,INORM,ICHPVO,ICHPSU, IROC,IVITC,IPC & ,IGAMC,ICHLIM,ICEL,NFAC,IFAC,MELRES,IJACO & ,NGF,NGC,NLF,NLC,NLCB & ,ILIINC,ILIINP,IJAC & ,MP, NBEL, NBME, NBSOUS, NKID, NKMT, NMATRI, NP, NRIGE REAL*8 VOLU,SURF,RC,PC,UXC,UYC,GAMC,CNX,CNY,CTX,CTY,PF & ,VECG(4),VECD(4),DFDUG(4,4),DFDUD(4,4) & ,NVEC(2),TVEC(2) & ,DRORO,DROUX,DROUY,DROP & ,DUXRO,DUXUX,DUXUY,DUXP & ,DUYRO,DUYUX,DUYUY,DUYP & ,DPRO,DPUX,DPUY,DPP & ,COEF1,COEF2,COEF3,GM1,COEF CHARACTER*(8) TYPE C C C**** KRIPAD pour la correspondance global/local C CALL KRIPAD(MELEMC,MLEMC) C SEGINI MLEMC CALL KRIPAD(MELECB,MLEMCB) C SEGINI MLEMCB CALL KRIPAD(MELEMF,MLEMF) C SEGINI MLEMF C C**** CHPOINTs de la table DOMAINE C CALL LICHT(INORM,MPNORM,TYPE,ICEL) CALL LICHT(ICHPVO,MPVOL,TYPE,ICEL) CALL LICHT(ICHPSU,MPSURF,TYPE,ICEL) C C**** LICHT active les MPOVALs en *MOD C C SEGACT MPNORM*MOD C SEGACT MPOVSU*MOD C SEGACT MPOVOL*MOD C C C**** CHPOINTs des variables C CALL LICHT(IROC,MPRC,TYPE,ICEL) CALL LICHT(IVITC,MPVC,TYPE,ICEL) CALL LICHT(IPC,MPPC,TYPE,ICEL) CALL LICHT(IGAMC,MPGAMC,TYPE,ICEL) CALL LICHT(ICHLIM,MPLIM,TYPE,ICEL) C C SEGACT *MOD C SEGACT *MOD C SEGACT *MOD C SEGACT *MOD C SEGACT *MOD C C C**** Boucle sur le face pour le calcul des invariants de C Riemann et du flux C SEGACT MELEFC NFAC=MELEFC.NUM(/2) C C**** Objet MATRIK C NRIGE = 7 NMATRI = 1 NKID = 9 NKMT = 7 C SEGINI MATRIK IJACO = MATRIK MATRIK.IRIGEL(1,1) = MELRES MATRIK.IRIGEL(2,1) = MELRES C C**** Matrice non symetrique C MATRIK.IRIGEL(7,1) = 2 C NBME = 16 NBSOUS = 1 SEGINI IMATRI IF(IJAC.EQ.1)THEN MLMOTS=ILIINC ELSEIF(IJAC.EQ.2)THEN MLMOTS=ILIINP ENDIF SEGACT MLMOTS MATRIK.IRIGEL(4,1) = IMATRI C IMATRI.LISPRI(1) = MLMOTS.MOTS(1) IMATRI.LISPRI(2) = MLMOTS.MOTS(2) IMATRI.LISPRI(3) = MLMOTS.MOTS(3) IMATRI.LISPRI(4) = MLMOTS.MOTS(4) IMATRI.LISPRI(5) = MLMOTS.MOTS(1) IMATRI.LISPRI(6) = MLMOTS.MOTS(2) IMATRI.LISPRI(7) = MLMOTS.MOTS(3) IMATRI.LISPRI(8) = MLMOTS.MOTS(4) IMATRI.LISPRI(9) = MLMOTS.MOTS(1) IMATRI.LISPRI(10) = MLMOTS.MOTS(2) IMATRI.LISPRI(11) = MLMOTS.MOTS(3) IMATRI.LISPRI(12) = MLMOTS.MOTS(4) IMATRI.LISPRI(13) = MLMOTS.MOTS(1) IMATRI.LISPRI(14) = MLMOTS.MOTS(2) IMATRI.LISPRI(15) = MLMOTS.MOTS(3) IMATRI.LISPRI(16) = MLMOTS.MOTS(4) C SEGDES MLMOTS MLMOTS=ILIINC SEGACT MLMOTS C IMATRI.LISDUA(1) = MLMOTS.MOTS(1) IMATRI.LISDUA(2) = MLMOTS.MOTS(1) IMATRI.LISDUA(3) = MLMOTS.MOTS(1) IMATRI.LISDUA(4) = MLMOTS.MOTS(1) IMATRI.LISDUA(5) = MLMOTS.MOTS(2) IMATRI.LISDUA(6) = MLMOTS.MOTS(2) IMATRI.LISDUA(7) = MLMOTS.MOTS(2) IMATRI.LISDUA(8) = MLMOTS.MOTS(2) IMATRI.LISDUA(9) = MLMOTS.MOTS(3) IMATRI.LISDUA(10) = MLMOTS.MOTS(3) IMATRI.LISDUA(11) = MLMOTS.MOTS(3) IMATRI.LISDUA(12) = MLMOTS.MOTS(3) IMATRI.LISDUA(13) = MLMOTS.MOTS(4) IMATRI.LISDUA(14) = MLMOTS.MOTS(4) IMATRI.LISDUA(15) = MLMOTS.MOTS(4) IMATRI.LISDUA(16) = MLMOTS.MOTS(4) C SEGDES MLMOTS NBEL = NFAC NBSOUS = 1 NP = 1 MP = 1 SEGINI RR , RUX , RUY , RRET , & UXR , UXUX , UXUY , UXRET , & UYR , UYUX , UYUY , UYRET , & RETR , RETUX , RETUY , RETRET C C**** Duale = IMATRI.LISDUA(1) = 'RN' C Primale = IMATRI.LISPRI(1) = 'RN' C -> IMATRI.LIZAFM(1,1) = RR C IMATRI.LIZAFM(1,1) = RR IMATRI.LIZAFM(1,2) = RUX IMATRI.LIZAFM(1,3) = RUY IMATRI.LIZAFM(1,4) = RRET IMATRI.LIZAFM(1,5) = UXR IMATRI.LIZAFM(1,6) = UXUX IMATRI.LIZAFM(1,7) = UXUY IMATRI.LIZAFM(1,8) = UXRET IMATRI.LIZAFM(1,9) = UYR IMATRI.LIZAFM(1,10) = UYUX IMATRI.LIZAFM(1,11) = UYUY IMATRI.LIZAFM(1,12) = UYRET IMATRI.LIZAFM(1,13) = RETR IMATRI.LIZAFM(1,14) = RETUX IMATRI.LIZAFM(1,15) = RETUY IMATRI.LIZAFM(1,16) = RETRET C SEGDES MATRIK SEGDES IMATRI C C**** Fin definition MATRIK C DO IFAC=1,NFAC,1 NGF=MELEFC.NUM(1,IFAC) NGC=MELEFC.NUM(2,IFAC) NLF=MLEMF.LECT(NGF) NLC=MLEMC.LECT(NGC) NLCB=MLEMCB.LECT(NGF) VOLU=MPVOL.VPOCHA(NLC,1) SURF=MPSURF.VPOCHA(NLF,1) C In CASTEM les normales sont sortantes CNX=MPNORM.VPOCHA(NLF,1) CNY=MPNORM.VPOCHA(NLF,2) CTX=-1.0D0*CNY CTY=CNX C Variables au centre RC=MPRC.VPOCHA(NLC,1) PC=MPPC.VPOCHA(NLC,1) UXC=MPVC.VPOCHA(NLC,1) UYC=MPVC.VPOCHA(NLC,2) GAMC=MPGAMC.VPOCHA(NLC,1) C Variables à la face PF=MPLIM.VPOCHA(NLCB,1) C C******* Jacobian with respect to primitive variables C VECG(1)=RC VECG(2)=UXC VECG(3)=UYC VECG(4)=PC VECD(1)=RC VECD(2)=UXC VECD(3)=UYC VECD(4)=PF NVEC(1)=CNX NVEC(2)=CNY TVEC(1)=CTX TVEC(2)=CTY CALL CONJP2(DFDUG,DFDUD,VECG,VECD,NVEC,TVEC,GAMC) C COEF=-1*SURF/VOLU DRORO=(DFDUG(1,1)+DFDUD(1,1))*COEF DROUX=(DFDUG(1,2)+DFDUD(1,2))*COEF DROUY=(DFDUG(1,3)+DFDUD(1,3))*COEF DROP=DFDUG(1,4)*COEF C DPRO=(DFDUG(4,1)+DFDUD(4,1))*COEF DPUX=(DFDUG(4,2)+DFDUD(4,2))*COEF DPUY=(DFDUG(4,3)+DFDUD(4,3))*COEF DPP=DFDUG(4,4)*COEF C DUXRO=(DFDUG(2,1)+DFDUD(2,1))*COEF DUXUX=(DFDUG(2,2)+DFDUD(2,2))*COEF DUXUY=(DFDUG(2,3)+DFDUD(2,3))*COEF DUXP =DFDUG(2,4)*COEF C DUYRO=(DFDUG(3,1)+DFDUD(3,1))*COEF DUYUX=(DFDUG(3,2)+DFDUD(3,2))*COEF DUYUY=(DFDUG(3,3)+DFDUD(3,3))*COEF DUYP =DFDUG(3,4)*COEF C C******* Jacobian with respect to conservative variables C IF(IJAC.EQ.1)THEN GM1=GAMC-1.0D0 COEF1=-1.0D0*UXC/RC COEF2=-1.0D0*UYC/RC COEF3=0.5D0*GM1*((UXC*UXC)+(UYC*UYC)) C RR.AM(IFAC,1,1)=DRORO+(DROUX*COEF1)+(DROUY*COEF2)+(DROP $ *COEF3) RUX.AM(IFAC,1,1)=(DROUX/RC)-((UXC*GM1)*DROP) RUY.AM(IFAC,1,1)=(DROUY/RC)-((UYC*GM1)*DROP) RRET.AM(IFAC,1,1)=GM1*DROP C UXR.AM(IFAC,1,1)=DUXRO+(DUXUX*COEF1)+(DUXUY*COEF2)+(DUXP $ *COEF3) UXUX.AM(IFAC,1,1)=(DUXUX/RC)-((UXC*GM1)*DUXP) UXUY.AM(IFAC,1,1)=(DUXUY/RC)-((UYC*GM1)*DUXP) UXRET.AM(IFAC,1,1)=GM1*DUXP C UYR.AM(IFAC,1,1)=DUYRO+(DUYUX*COEF1)+(DUYUY*COEF2)+(DUYP $ *COEF3) UYUX.AM(IFAC,1,1)=(DUYUX/RC)-((UXC*GM1)*DUYP) UYUY.AM(IFAC,1,1)=(DUYUY/RC)-((UYC*GM1)*DUYP) UYRET.AM(IFAC,1,1)=GM1*DUYP C RETR.AM(IFAC,1,1)=DPRO+(DPUX*COEF1)+(DPUY*COEF2)+(DPP $ *COEF3) RETUX.AM(IFAC,1,1)=(DPUX/RC)-((UXC*GM1)*DPP) RETUY.AM(IFAC,1,1)=(DPUY/RC)-((UYC*GM1)*DPP) RETRET.AM(IFAC,1,1)=GM1*DPP C ELSEIF(IJAC.EQ.2)THEN RR.AM(IFAC,1,1)=DRORO RUX.AM(IFAC,1,1)=DROUX RUY.AM(IFAC,1,1)=DROUY RRET.AM(IFAC,1,1)=DROP C UXR.AM(IFAC,1,1)=DUXRO UXUX.AM(IFAC,1,1)=DUXUX UXUY.AM(IFAC,1,1)=DUXUY UXRET.AM(IFAC,1,1)=DUXP C UYR.AM(IFAC,1,1)=DUYRO UYUX.AM(IFAC,1,1)=DUYUX UYUY.AM(IFAC,1,1)=DUYUY UYRET.AM(IFAC,1,1)=DUYP C RETR.AM(IFAC,1,1)=DPRO RETUX.AM(IFAC,1,1)=DPUX RETUY.AM(IFAC,1,1)=DPUY RETRET.AM(IFAC,1,1)=DPP ENDIF ENDDO C SEGDES MELEFC C SEGSUP MLEMC SEGSUP MLEMCB SEGSUP MLEMF C SEGDES MPNORM SEGDES MPVOL SEGDES MPSURF SEGDES MPRC SEGDES MPPC SEGDES MPVC SEGDES MPGAMC SEGDES MPLIM C SEGDES RR , RUX , RUY , RRET , & UXR , UXUX , UXUY , UXRET , & UYR , UYUX , UYUY , UYRET , & RETR , RETUX , RETUY , RETRET C 9999 CONTINUE RETURN END