Syntax ==== .. code-block:: text cara_elem = AFFE_CARA_ELEM ( ◆ MODELE = model, ◇ INFO =/1 (by default), /2, ◇ VERIF = "MAILLE" (or not specified), ◆ | BEAM = _F ( ◆ SECTION =/"GENERALE ", /"RECTANGLE ", /"CERCLE ", /"COUDE ", # If: equal_to (" SECTION ", 'GENERALE') ◆ GROUP_MA = GRMA, ◇ VARI_SECT =/"CONSTANT" (by default), /"HOMOTHETIQUE ", # If: equal_to (" VARI_SECT ", 'CONSTANT') ◇/TABLE_CARA = table, /CARA =/"A", /"IY", /"IZ", /"AY", /"AZ", /"AND", /"EZ", /"JX", /"RY", /"RIZ", /"RT", /"JG", /"IYR2 ", /"IZR2 ", /"AI", ◇ & NOM_SEC = text, ◇ & VALE = float, # If: equal_to (" VARI_SECT ", 'HOMOTHETIQUE') ◆ CARA =/"A1", /"IY1 ", /"IZ1 ", /"AY1 ", /"AZ1 ", /"EY1 ", /"EZ1 ", /"JX1 ", /"RY1 ", /"RZ1 ", /"RT1 ", /"JG1 ", /"IYR21 ", /"IZR21 ", /"A2", /"IY2 ", /"IZ2 ", /"AY2 ", /"AZ2 ", /"EY2 ", /"EZ2 ", /"JX2 ", /"RY2 ", /"RZ2 ", /"RT2 ", /"JG2 ", /"IYR22 ", /"IZR22 ", ◆ VALE = float, # If: equal_to (" SECTION ", 'RECTANGLE') ◆ GROUP_MA = GRMA, ◇ VARI_SECT =/"CONSTANT" (by default), /"HOMOTHETIQUE ", /"AFFINE ", # If: equal_to (" VARI_SECT ", 'CONSTANT') ◆ CARA =/"H", /"EP", /"HEY", /"HZ", /"EPY ", /"EPZ ", ◆ VALE = float, # If: equal_to (" VARI_SECT ", 'HOMOTHETIQUE') ◆ CARA =/"H1", /"HZ1 ", /"HY1 ", /"EP1 ", /"EPY1 ", /"EPZ1 ", /"H2", /"HZ2 ", /"HY2 ", /"EP2 ", /"EPY2 ", /"EPZ2 ", ◆ VALE = float, # If: equal_to (" VARI_SECT ", 'AFFINE') ◆ CARA =/"HY", /"EPY ", /"HZ1 ", /"EPZ1 ", /"HZ2 ", /"EPZ2 ", ◆ VALE = float, # If: equal_to (" SECTION ", 'CERCLE') ◇ VARI_SECT =/"CONSTANT" (by default), /"HOMOTHETIQUE ", # If: equal_to (" VARI_SECT ", 'CONSTANT') ◆ GROUP_MA = GRMA, ◆ CARA =/"R", /"EP", ◆ VALE = float, # If: equal_to (" VARI_SECT ", 'HOMOTHETIQUE') ◆ GROUP_MA = Grma, ◆ CARA =/"R_DEBUT ", /"R_FIN ", /"EP_DEBUT ", /"EP_FIN ", ◆ VALE = float, ◇ MODI_METRIQUE =/"OUI ", /"NON" (by default), ◇ FCX = formula/sheet/function, ◇ TUYAU_NSEC = int (default: 16), ◇ TUYAU_NCOU = int (default: 3), # If: equal_to (" SECTION ", 'COUDE') ◆ GROUP_MA = Grma, ◇/COEF_FLEX = float, /COEF_FLEX_XY = float, ◇/COEF_FLEX_XZ = float, ◇/INDI_SIGM = float, /INDI_SIGM_XY = float, ◇/INDI_SIGM_XZ = float, ), | BAR = _F ( ◆ GROUP_MA = Grma, ◆ SECTION =/"GENERALE ", /"RECTANGLE ", /"CERCLE ", # If: equal_to (" SECTION ", 'GENERALE') ◇/TABLE_CARA = table, /CARA = "A" (or not specified), ◇ & NOM_SEC = text, ◇ & VALE = float, # If: equal_to (" SECTION ", 'RECTANGLE') ◆ CARA =/"H", /"EP", /"HZ", /"HEY", /"EPY ", /"EPZ ", ◆ VALE = float, # If: equal_to (" SECTION ", 'CERCLE') ◆ CARA =/"R", /"EP", ◆ VALE = float, ◇ FCX = formula/sheet/function, ), | SHELL = _F ( ◆ GROUP_MA = Grma, ◆/EPAIS = float, /EPAIS_FO = formula/tablecloth/function, ◇/ANGL_REP = float, /VECTEUR = float, ◇ A_CIS = float (default: 0.8333333), ◇ COEF_RIGI_DRZ = float (default: 1e-05), ◇ COQUE_NCOU = int (default: 1), ◇/EXCENTREMENT = float, ◇ & INER_ROTA = "OUI" (or not specified), /EXCENTREMENT_FO = formula/tablecloth/function, ◇ MODI_METRIQUE =/"OUI ", /"NON" (by default), ), | CABLE = _F ( ◆ GROUP_MA = Grma, ◆ N_INIT = float, ◆ SECTION = float, ◇ FCX = formula/sheet/function, ), | DISCRETE = _F ( ◇ REPERE =/"LOCAL ", /"GLOBAL" (by default), ◇ AMOR_HYST = float, ◇ SYME =/"OUI" (by default), /"NON ", # If: equal_to (" SYME ", 'OUI') ◇ CARA =/"K_T_D_N ", /"K_T_D_L ", /"K_TR_D_N ", /"K_TR_D_L ", /"K_T_N ", /"K_T_L ", /"K_TR_N ", /"K_TR_L ", /"M_T_D_N ", /"M_T_D_L ", /"M_TR_D_N ", /"M_TR_D_L ", /"M_T_N ", /"M_T_L ", /"M_TR_N ", /"M_TR_L ", /"A_T_D_N ", /"A_T_D_L ", /"A_TR_D_N ", /"A_TR_D_L ", /"A_T_N ", /"A_T_L ", /"A_TR_N ", /"A_TR_L ", # If: ((equal_to (" CARA ", '",' K_T_D_N ') or (equal_to (" CARA ",' A_T_D_N '))))) ◆ GROUP_MA = Grma, ◆ VALE = float, # If: ((equal_to (" CARA ", '",' K_T_D_L ') or (equal_to (" CARA ",' A_T_D_L '))))) ◆ GROUP_MA = Grma, ◆ VALE = float, # If: ((equal_to (" CARA ", '",' K_TR_D_N ') or (equal_to (" CARA ",' A_TR_D_N '))))) ◆ GROUP_MA = Grma, ◆ VALE = float, # If: ((equal_to (" CARA ", '",' K_TR_D_L ') or (equal_to (" CARA ",' A_TR_D_L '))))) ◆ GROUP_MA = Grma, ◆ VALE = float, # If: ((equal_to (" CARA ", '",' K_T_N ') or (equal_to (" CARA ",' A_T_N ') or (equal_to (" CARA ",' ", '",' ',' ')))) M_T_N ◆ GROUP_MA = Grma, ◆ VALE = float, # If: ((equal_to (" CARA ", '",' K_T_L ') or (equal_to (" CARA ",' A_T_L ') or (equal_to (" CARA ",' ", '",' ',' ')))) M_T_L ◆ GROUP_MA = Grma, ◆ VALE = float, # If: ((equal_to (" CARA ", '",' K_TR_N ') or (equal_to (" CARA ",' A_TR_N ') or (equal_to (" CARA ",' ", '",' ',' ')))) M_TR_N ◆ GROUP_MA = Grma, ◆ VALE = float, # If: ((equal_to (" CARA ", '",' K_TR_L ') or (equal_to (" CARA ",' A_TR_L ') or (equal_to (" CARA ",' ", '",' ',' ')))) M_TR_L ◆ GROUP_MA = Grma, ◆ VALE = float, # If: (equal_to (" CARA ", 'M_T_D_N')) ◆ GROUP_MA = Grma, ◆ VALE = float, # If: (equal_to (" CARA ", 'M_T_D_L')) ◆ GROUP_MA = Grma, ◆ VALE = float, # If: (equal_to (" CARA ", 'M_TR_D_N')) ◆ GROUP_MA = Grma, ◆ VALE = float, # If: (equal_to (" CARA ", 'M_TR_D_L')) ◆ GROUP_MA = Grma, ◆ VALE = float, # If: equal_to (" SYME ", 'NON') ◇ CARA =/"K_T_N ", /"K_T_L ", /"K_TR_N ", /"K_TR_L ", /"M_T_N ", /"M_T_L ", /"M_TR_N ", /"M_TR_L ", /"A_T_N ", /"A_T_L ", /"A_TR_N ", /"A_TR_L ", # If: ((equal_to (" CARA ", '",' K_T_N ') or (equal_to (" CARA ",' A_T_N ') or (equal_to (" CARA ",' ", '",' ',' ')))) M_T_N ◆ GROUP_MA = Grma, ◆ VALE = float, # If: ((equal_to (" CARA ", '",' K_T_L ') or (equal_to (" CARA ",' A_T_L ') or (equal_to (" CARA ",' ", '",' ',' ')))) M_T_L ◆ GROUP_MA = Grma, ◆ VALE = float, # If: ((equal_to (" CARA ", '",' K_TR_N ') or (equal_to (" CARA ",' A_TR_N ') or (equal_to (" CARA ",' ", '",' ',' ')))) M_TR_N ◆ GROUP_MA = Grma, ◆ VALE = float, # If: ((equal_to (" CARA ", '",' K_TR_L ') or (equal_to (" CARA ",' A_TR_L ') or (equal_to (" CARA ",' ", '",' ',' ')))) M_TR_L ◆ GROUP_MA = Grma, ◆ VALE = float, ), | DISCRET_2D = _F ( ◇ REPERE =/"LOCAL ", /"GLOBAL" (by default), ◇ AMOR_HYST = float, ◇ SYME =/"OUI" (by default), /"NON ", # If: equal_to (" SYME ", 'OUI') ◇ CARA =/"K_T_D_N ", /"K_T_D_L ", /"K_TR_D_N ", /"K_TR_D_L ", /"K_T_N ", /"K_T_L ", /"K_TR_N ", /"K_TR_L ", /"M_T_D_N ", /"M_T_D_L ", /"M_TR_D_N ", /"M_TR_D_L ", /"M_T_N ", /"M_T_L ", /"M_TR_N ", /"M_TR_L ", /"A_T_D_N ", /"A_T_D_L ", /"A_TR_D_N ", /"A_TR_D_L ", /"A_T_N ", /"A_T_L ", /"A_TR_N ", /"A_TR_L ", # If: ((equal_to (" CARA ", '",' K_T_D_N ') or (equal_to (" CARA ",' A_T_D_N '))))) ◆ GROUP_MA = Grma, ◆ VALE = float, # If: ((equal_to (" CARA ", '",' K_T_D_L ') or (equal_to (" CARA ",' A_T_D_L '))))) ◆ GROUP_MA = Grma, ◆ VALE = float, # If: ((equal_to (" CARA ", '",' K_TR_D_N ') or (equal_to (" CARA ",' A_TR_D_N '))))) ◆ GROUP_MA = Grma, ◆ VALE = float, # If: ((equal_to (" CARA ", '",' K_TR_D_L ') or (equal_to (" CARA ",' A_TR_D_L '))))) ◆ GROUP_MA = Grma, ◆ VALE = float, # If: ((equal_to (" CARA ", '",' K_T_N ') or (equal_to (" CARA ",' A_T_N ') or (equal_to (" CARA ",' ", '",' ',' ')))) M_T_N ◆ GROUP_MA = Grma, ◆ VALE = float, # If: ((equal_to (" CARA ", '",' K_T_L ') or (equal_to (" CARA ",' A_T_L ') or (equal_to (" CARA ",' ", '",' ',' ')))) M_T_L ◆ GROUP_MA = Grma, ◆ VALE = float, # If: ((equal_to (" CARA ", '",' K_TR_N ') or (equal_to (" CARA ",' A_TR_N ') or (equal_to (" CARA ",' ", '",' ',' ')))) M_TR_N ◆ GROUP_MA = Grma, ◆ VALE = float, # If: ((equal_to (" CARA ", '",' K_TR_L ') or (equal_to (" CARA ",' A_TR_L ') or (equal_to (" CARA ",' ", '",' ',' ')))) M_TR_L ◆ GROUP_MA = Grma, ◆ VALE = float, # If: (equal_to (" CARA ", 'M_T_D_N')) ◆ GROUP_MA = Grma, ◆ VALE = float, # If: (equal_to (" CARA ", 'M_T_D_L')) ◆ GROUP_MA = Grma, ◆ VALE = float, # If: (equal_to (" CARA ", 'M_TR_D_N')) ◆ GROUP_MA = Grma, ◆ VALE = float, # If: (equal_to (" CARA ", 'M_TR_D_L')) ◆ GROUP_MA = GRMA, ◆ VALE = float, # If: equal_to (" SYME ", 'NON') ◇ CARA =/"K_T_N ", /"K_T_L ", /"K_TR_N ", /"K_TR_L ", /"M_T_N ", /"M_T_L ", /"M_TR_N ", /"M_TR_L ", /"A_T_N ", /"A_T_L ", /"A_TR_N ", /"A_TR_L ", # If: ((equal_to (" CARA ", '",' K_T_N ') or (equal_to (" CARA ",' A_T_N ') or (equal_to (" CARA ",' ", '",' ',' ')))) M_T_N ◆ GROUP_MA = GRMA, ◆ VALE = float, # If: ((equal_to (" CARA ", '",' K_T_L ') or (equal_to (" CARA ",' A_T_L ') or (equal_to (" CARA ",' ", '",' ',' ')))) M_T_L ◆ GROUP_MA = GRMA, ◆ VALE = float, # If: ((equal_to (" CARA ", '",' K_TR_N ') or (equal_to (" CARA ",' A_TR_N ') or (equal_to (" CARA ",' ", '",' ',' ')))) M_TR_N ◆ GROUP_MA = GRMA, ◆ VALE = float, # If: ((equal_to (" CARA ", '",' K_TR_L ') or (equal_to (" CARA ",' A_TR_L ') or (equal_to (" CARA ",' ", '",' ',' ')))) M_TR_L ◆ GROUP_MA = GRMA, ◆ VALE = float, ), | MASSIVE = _F ( ◆/GROUP_MA = grma, /TOUT = "OUI" (or not specified), ◆/CHAM_ORIE = card/cham_no, /ANGL_REP = float, /ANGL_AXE = float, /ANGL_EULER = float, ◇/ORIG_AXE = float, ), | GRID = _F ( ◆ GROUP_MA = GRMA, ◆/SECTION = float, /SECTION_FO = formula/tablecloth/function, ◆/ANGL_REP_1 = float, /ANGL_REP_2 = float, /VECT_1 = float, /VECT_2 = float, ◇/EXCENTREMENT = float, /EXCENTREMENT_FO = formula/tablecloth/function, ◇ REPERE =/"CYLINDRIQUE ", /"GLOBAL" (by default), # If: (equal_to (" REPERE "," CYLINDRIQUE "," ")) ◆ ORIGINE = float, ◆ AXE_Z = float, ◇ COEF_RIGI_DRZ = float (default: 1e-10), ), | MEMBRANE = _F ( ◆ GROUP_MA = GRMA, ◆ EPAIS = float, ◇/ANGL_REP_1 = float, /ANGL_REP_2 = float, /VECT_1 = float, /VECT_2 = float, ◇ N_INIT = float, ), | MULTIFIBER = _F ( ◆ GROUP_MA = GRMA, ◆ GROUP_FIBRE = text, ◇ PREC_AIRE = float (default: 0.01), ◇ PREC_INERTIE = float (default: 0.1), ), | RIGI_PARASOL = _F ( ◆ GROUP_MA = GRMA, ◆/GROUP_MA_POI1 = grma, /GROUP_MA_SEG2 = grma, ◆/FONC_GROUP = formula/tablecloth/function, /COEF_GROUP = float, ◇ REPERE =/"LOCAL ", /"GLOBAL" (by default), ◆ CARA =/"K_TR_D_N ", /"K_T_D_N ", /"K_TR_D_L ", /"K_T_D_L ", /"A_TR_D_N ", /"A_T_D_N ", /"A_TR_D_L ", /"A_T_D_L ", # If: exists (" CARA ") and (len (CARA) ==1 or (len (CARA) ==2 and CARA [0] [2:] == CARA [1] [2:]) == [1] [2:])) ◆ VALE = float, ◆/GROUP_NO_CENTRE = grno, /COOR_CENTRE = float, ◇ UNITE = unit, ), | MASS_REP = _F ( ◆ GROUP_MA = GRMA, ◆ GROUP_MA_POI1 = GRMA, ◆ VALE = float, ◆ TYPE =/"TOTALE ", /"LINEIQUE ", /"SURFACIQUE ", ◇ FONC_MULT = formula/sheet/function, ), ◇ ORIENTATION = _F ( ◆ CARA =/"VECT_Y ", /"ANGL_VRIL ", /"VECT_X_Y ", /"ANGL_NAUT ", /"GENE_TUYAU ", # If: (equal_to (" CARA ", 'VECT_Y')) ◆ GROUP_MA = GRMA, ◆ VALE = float, ◇ PRECISION = float, # If: (equal_to (" CARA ", 'ANGL_VRIL')) ◆ GROUP_MA = GRMA, ◆ VALE = float, ◇ PRECISION = float, # If: (equal_to (" CARA ", 'VECT_X_Y')) ◆ GROUP_MA = GRMA, ◆ VALE = float, ◇ PRECISION = float, # If: (equal_to (" CARA ", 'ANGL_NAUT')) ◆ GROUP_MA = GRMA, ◆ VALE = float, ◇ PRECISION = float, # If: (equal_to (" CARA ", 'GENE_TUYAU')) ◆ GROUP_NO = grno, ◆ VALE = float, ◇ PRECISION = float (default: 0.0001), ◇ CRITERE =/"RELATIF" (by default), /"ABSOLU ", ), ◇ POUTRE_FLUI = _F ( ◆ GROUP_MA = GRMA, ◆ B_T = float, ◆ B_N = float, ◇ B_TN = float, ◆ A_FLUI = float, ◆ A_CELL = float, ◆ COEF_ECHELLE = float, ), ◇ RIGI_MISS_3D = _F ( ◆ GROUP_MA_POI1 = GRMA, ◇ GROUP_MA_SEG2 = Grma, ◆ FREQ_EXTR = float, ◇ UNITE_RESU_IMPE = unit (default: 30), ), ◇ MASS_AJOU = _F ( ◆ GROUP_MA = GRMA, ◆ GROUP_MA_POI1 = GRMA, ◆ FONC_GROUP = formula/sheet/function, ), ◇ & GEOM_FIBRE = fiber, ) ◆: mandatory ◇: optional : present by default &: together /: only one among |: several possible choices