| Directory: | ./ |
|---|---|
| File: | dyn3d_common/rotatf.f |
| Date: | 2022-01-11 19:19:34 |
| Exec | Total | Coverage | |
|---|---|---|---|
| Lines: | 12 | 12 | 100.0% |
| Branches: | 10 | 10 | 100.0% |
| Line | Branch | Exec | Source |
|---|---|---|---|
| 1 | ! | ||
| 2 | ! $Header$ | ||
| 3 | ! | ||
| 4 | 1060 | SUBROUTINE rotatf (klevel, x, y, rot ) | |
| 5 | c | ||
| 6 | c Auteur : P.Le Van | ||
| 7 | c************************************************************** | ||
| 8 | c. calcule le rotationnel | ||
| 9 | c a tous les niveaux d'1 vecteur de comp. x et y .. | ||
| 10 | c x et y etant des composantes covariantes ... | ||
| 11 | c Only difference with rotat: call to filtreg. | ||
| 12 | c******************************************************************** | ||
| 13 | c klevel, x et y sont des arguments d'entree pour le s-prog | ||
| 14 | c rot est un argument de sortie pour le s-prog | ||
| 15 | c | ||
| 16 | IMPLICIT NONE | ||
| 17 | c | ||
| 18 | !----------------------------------------------------------------------- | ||
| 19 | ! INCLUDE 'dimensions.h' | ||
| 20 | ! | ||
| 21 | ! dimensions.h contient les dimensions du modele | ||
| 22 | ! ndm est tel que iim=2**ndm | ||
| 23 | !----------------------------------------------------------------------- | ||
| 24 | |||
| 25 | INTEGER iim,jjm,llm,ndm | ||
| 26 | |||
| 27 | PARAMETER (iim= 32,jjm=32,llm=39,ndm=1) | ||
| 28 | |||
| 29 | !----------------------------------------------------------------------- | ||
| 30 | ! | ||
| 31 | ! $Header$ | ||
| 32 | ! | ||
| 33 | ! | ||
| 34 | ! ATTENTION!!!!: ce fichier include est compatible format fixe/format libre | ||
| 35 | ! veillez n'utiliser que des ! pour les commentaires | ||
| 36 | ! et bien positionner les & des lignes de continuation | ||
| 37 | ! (les placer en colonne 6 et en colonne 73) | ||
| 38 | ! | ||
| 39 | ! | ||
| 40 | !----------------------------------------------------------------------- | ||
| 41 | ! INCLUDE 'paramet.h' | ||
| 42 | |||
| 43 | INTEGER iip1,iip2,iip3,jjp1,llmp1,llmp2,llmm1 | ||
| 44 | INTEGER kftd,ip1jm,ip1jmp1,ip1jmi1,ijp1llm | ||
| 45 | INTEGER ijmllm,mvar | ||
| 46 | INTEGER jcfil,jcfllm | ||
| 47 | |||
| 48 | PARAMETER( iip1= iim+1,iip2=iim+2,iip3=iim+3 & | ||
| 49 | & ,jjp1=jjm+1-1/jjm) | ||
| 50 | PARAMETER( llmp1 = llm+1, llmp2 = llm+2, llmm1 = llm-1 ) | ||
| 51 | PARAMETER( kftd = iim/2 -ndm ) | ||
| 52 | PARAMETER( ip1jm = iip1*jjm, ip1jmp1= iip1*jjp1 ) | ||
| 53 | PARAMETER( ip1jmi1= ip1jm - iip1 ) | ||
| 54 | PARAMETER( ijp1llm= ip1jmp1 * llm, ijmllm= ip1jm * llm ) | ||
| 55 | PARAMETER( mvar= ip1jmp1*( 2*llm+1) + ijmllm ) | ||
| 56 | PARAMETER( jcfil=jjm/2+5, jcfllm=jcfil*llm ) | ||
| 57 | |||
| 58 | !----------------------------------------------------------------------- | ||
| 59 | ! | ||
| 60 | ! $Header$ | ||
| 61 | ! | ||
| 62 | !CDK comgeom | ||
| 63 | COMMON/comgeom/ & | ||
| 64 | & cu(ip1jmp1),cv(ip1jm),unscu2(ip1jmp1),unscv2(ip1jm), & | ||
| 65 | & aire(ip1jmp1),airesurg(ip1jmp1),aireu(ip1jmp1), & | ||
| 66 | & airev(ip1jm),unsaire(ip1jmp1),apoln,apols, & | ||
| 67 | & unsairez(ip1jm),airuscv2(ip1jm),airvscu2(ip1jm), & | ||
| 68 | & aireij1(ip1jmp1),aireij2(ip1jmp1),aireij3(ip1jmp1), & | ||
| 69 | & aireij4(ip1jmp1),alpha1(ip1jmp1),alpha2(ip1jmp1), & | ||
| 70 | & alpha3(ip1jmp1),alpha4(ip1jmp1),alpha1p2(ip1jmp1), & | ||
| 71 | & alpha1p4(ip1jmp1),alpha2p3(ip1jmp1),alpha3p4(ip1jmp1), & | ||
| 72 | & fext(ip1jm),constang(ip1jmp1),rlatu(jjp1),rlatv(jjm), & | ||
| 73 | & rlonu(iip1),rlonv(iip1),cuvsurcv(ip1jm),cvsurcuv(ip1jm), & | ||
| 74 | & cvusurcu(ip1jmp1),cusurcvu(ip1jmp1),cuvscvgam1(ip1jm), & | ||
| 75 | & cuvscvgam2(ip1jm),cvuscugam1(ip1jmp1), & | ||
| 76 | & cvuscugam2(ip1jmp1),cvscuvgam(ip1jm),cuscvugam(ip1jmp1), & | ||
| 77 | & unsapolnga1,unsapolnga2,unsapolsga1,unsapolsga2, & | ||
| 78 | & unsair_gam1(ip1jmp1),unsair_gam2(ip1jmp1),unsairz_gam(ip1jm), & | ||
| 79 | & aivscu2gam(ip1jm),aiuscv2gam(ip1jm),xprimu(iip1),xprimv(iip1) | ||
| 80 | |||
| 81 | ! | ||
| 82 | REAL & | ||
| 83 | & cu,cv,unscu2,unscv2,aire,airesurg,aireu,airev,unsaire,apoln ,& | ||
| 84 | & apols,unsairez,airuscv2,airvscu2,aireij1,aireij2,aireij3,aireij4,& | ||
| 85 | & alpha1,alpha2,alpha3,alpha4,alpha1p2,alpha1p4,alpha2p3,alpha3p4 ,& | ||
| 86 | & fext,constang,rlatu,rlatv,rlonu,rlonv,cuvscvgam1,cuvscvgam2 ,& | ||
| 87 | & cvuscugam1,cvuscugam2,cvscuvgam,cuscvugam,unsapolnga1,unsapolnga2& | ||
| 88 | & ,unsapolsga1,unsapolsga2,unsair_gam1,unsair_gam2,unsairz_gam ,& | ||
| 89 | & aivscu2gam ,aiuscv2gam,cuvsurcv,cvsurcuv,cvusurcu,cusurcvu,xprimu& | ||
| 90 | & , xprimv | ||
| 91 | ! | ||
| 92 | c | ||
| 93 | c ..... variables en arguments ...... | ||
| 94 | c | ||
| 95 | INTEGER klevel | ||
| 96 | REAL rot( ip1jm,klevel ) | ||
| 97 | REAL x( ip1jmp1,klevel ), y( ip1jm,klevel ) | ||
| 98 | c | ||
| 99 | c ... variables locales ... | ||
| 100 | c | ||
| 101 | INTEGER l, ij | ||
| 102 | c | ||
| 103 | c | ||
| 104 |
2/2✓ Branch 0 taken 37540 times.
✓ Branch 1 taken 1060 times.
|
38600 | DO 10 l = 1,klevel |
| 105 | c | ||
| 106 |
2/2✓ Branch 0 taken 39604700 times.
✓ Branch 1 taken 37540 times.
|
39642240 | DO ij = 1, ip1jm - 1 |
| 107 | rot( ij,l ) = y( ij+1 , l ) - y( ij,l ) + | ||
| 108 | 39642240 | * x(ij +iip1, l ) - x( ij,l ) | |
| 109 | ENDDO | ||
| 110 | c | ||
| 111 | c .... correction pour rot( iip1,j,l) .... | ||
| 112 | c .... rot(iip1,j,l)= rot(1,j,l) ... | ||
| 113 | CDIR$ IVDEP | ||
| 114 | 1201280 | DO ij = iip1, ip1jm, iip1 | |
| 115 |
2/2✓ Branch 0 taken 1163740 times.
✓ Branch 1 taken 37540 times.
|
1201280 | rot( ij,l ) = rot( ij -iim,l ) |
| 116 | ENDDO | ||
| 117 | c | ||
| 118 | 1060 | 10 CONTINUE | |
| 119 | |||
| 120 | 1060 | CALL filtreg( rot, jjm, klevel, 2, 2, .FALSE., 1 ) | |
| 121 | |||
| 122 |
2/2✓ Branch 0 taken 37540 times.
✓ Branch 1 taken 1060 times.
|
38600 | DO l = 1, klevel |
| 123 |
2/2✓ Branch 0 taken 39642240 times.
✓ Branch 1 taken 37540 times.
|
39680840 | DO ij = 1, ip1jm |
| 124 | 39679780 | rot(ij,l) = rot(ij,l) * unsairez(ij) | |
| 125 | ENDDO | ||
| 126 | ENDDO | ||
| 127 | c | ||
| 128 | c | ||
| 129 | 1060 | RETURN | |
| 130 | END | ||
| 131 |