/*********************************************************************** * * ***** *** *** * * * * * * * * *** *** * * * * * * * ***** *** *** * * A FREE Finite Elements Analysis Program in ANSI C for the UNIX OS. * * Composed and edited and copyright by * Professor Dr.-Ing. Frank Rieg, University of Bayreuth, Germany * * eMail: * frank.rieg@uni-bayreuth.de * dr.frank.rieg@t-online.de * * V10.0 December 12, 2001 * * Z88 should compile and run under any UNIX OS and Motif 2.0. * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2, or (at your option) * any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; see the file COPYING. If not, write to * the Free Software Foundation, 675 Mass Ave, Cambridge, MA 02139, USA. ***********************************************************************/ /*********************************************************************** * wlog88i1 gibt Log-Datei-Meldungen aus (1 FR_INT4, 1 int) * 30.3.02 Rieg ***********************************************************************/ /*********************************************************************** * Fuer UNIX ***********************************************************************/ #ifdef FR_UNIX #include #include /* FILE,fprintf,fflush */ #endif /*********************************************************************** * Fuer Windows 95 ***********************************************************************/ #ifdef FR_WIN95 #include #include /* FILE,fprintf,fflush */ #endif /*********************************************************************** * hier beginnt Function wlog88i1 ***********************************************************************/ int wlog88i1(FR_INT4 i,int iatx) { extern FILE *fl1; extern FR_INT4 LANG; switch(iatx) { case LOG_BZ88I1: if(LANG == 1) fprintf(fl1,"Start Z88I1 Version 10"); if(LANG == 2) fprintf(fl1,"start Z88I1 version 10"); fflush(fl1); break; case LOG_OPENZ88DYN: if(LANG == 1) fprintf(fl1,"\nOeffnen der Datei Z88.DYN"); if(LANG == 2) fprintf(fl1,"\nopening file Z88.DYN"); fflush(fl1); break; case LOG_NODYN: if(LANG == 1) fprintf(fl1,"\n### kann Z88.DYN nicht oeffnen ..Stop ###"); if(LANG == 2) fprintf(fl1,"\n### cannot open Z88.DYN ..stop ###"); fflush(fl1); break; case LOG_WRONGDYN: if(LANG == 1) fprintf(fl1,"\n### File Z88.DYN ist nicht korrekt ..Stop ###"); if(LANG == 2) fprintf(fl1,"\n### file Z88.DYN is not correct ..stop ###"); fflush(fl1); break; case LOG_MAXSOR: #ifdef FR_XLOLO fprintf(fl1,"\nMAXSOR = %lld",i); #endif #ifdef FR_XLONG fprintf(fl1,"\nMAXSOR = %ld",i); #endif fflush(fl1); break; case LOG_MAXPUF: #ifdef FR_XLOLO fprintf(fl1,"\nMAXPUF = %lld",i); #endif #ifdef FR_XLONG fprintf(fl1,"\nMAXPUF = %ld",i); #endif fflush(fl1); break; case LOG_MAXKOI: #ifdef FR_XLOLO fprintf(fl1,"\nMAXKOI = %lld",i); #endif #ifdef FR_XLONG fprintf(fl1,"\nMAXKOI = %ld",i); #endif fflush(fl1); break; case LOG_MAXGS: #ifdef FR_XLOLO fprintf(fl1,"\nMAXGS = %lld",i); #endif #ifdef FR_XLONG fprintf(fl1,"\nMAXGS = %ld",i); #endif fflush(fl1); break; case LOG_MAXK: #ifdef FR_XLOLO fprintf(fl1,"\nMAXK = %lld",i); #endif #ifdef FR_XLONG fprintf(fl1,"\nMAXK = %ld",i); #endif fflush(fl1); break; case LOG_MAXE: #ifdef FR_XLOLO fprintf(fl1,"\nMAXE = %lld",i); #endif #ifdef FR_XLONG fprintf(fl1,"\nMAXE = %ld",i); #endif fflush(fl1); break; case LOG_MAXNFG: #ifdef FR_XLOLO fprintf(fl1,"\nMAXNFG = %lld",i); #endif #ifdef FR_XLONG fprintf(fl1,"\nMAXNFG = %ld",i); #endif fflush(fl1); break; case LOG_MAXNEG: #ifdef FR_XLOLO fprintf(fl1,"\nMAXNEG = %lld",i); #endif #ifdef FR_XLONG fprintf(fl1,"\nMAXNEG = %ld",i); #endif fflush(fl1); break; case LOG_OKDYN: if(LANG == 1) fprintf(fl1,"\nDatei Z88.DYN gelesen..scheint formal o.k. zu sein"); if(LANG == 2) fprintf(fl1,"\nfile Z88.DYN read ..seems to be o.k."); fflush(fl1); break; case LOG_ALLOCMEMY: if(LANG == 1) fprintf(fl1,"\nDynamisches Memory anlegen:"); if(LANG == 2) fprintf(fl1,"\nallocating dynamic memory:"); fflush(fl1); break; case LOG_ARRAYNOTOK: #ifdef FR_XLOLO if(LANG == 1) fprintf(fl1,"\n### Memory Kennung %lld nicht o.k. ..Stop ###",i); if(LANG == 2) fprintf(fl1,"\n### memory id %lld is not o.k. ..stop ###",i); #endif #ifdef FR_XLONG if(LANG == 1) fprintf(fl1,"\n### Memory Kennung %ld nicht o.k. ..Stop ###",i); if(LANG == 2) fprintf(fl1,"\n### memory id %ld is not o.k. ..stop ###",i); #endif fflush(fl1); break; case LOG_ARRAYOK: #ifdef FR_XLOLO if(LANG == 1) fprintf(fl1,"\nMemory Kennung %lld angelegt",i); if(LANG == 2) fprintf(fl1,"\nmemory id %lld allocated",i); #endif #ifdef FR_XLONG if(LANG == 1) fprintf(fl1,"\nMemory Kennung %ld angelegt",i); if(LANG == 2) fprintf(fl1,"\nmemory id %ld allocated",i); #endif fflush(fl1); break; case LOG_SUMMEMY: #ifdef FR_XLOLO if(LANG == 1) fprintf(fl1,"\nDynamisches Memory vollstaendig angefordert: %lld Bytes",i); if(LANG == 2) fprintf(fl1,"\ndynamic memory totally allocated: %lld Bytes",i); #endif #ifdef FR_XLONG if(LANG == 1) fprintf(fl1,"\nDynamisches Memory vollstaendig angefordert: %ld Bytes",i); if(LANG == 2) fprintf(fl1,"\ndynamic memory totally allocated: %ld Bytes",i); #endif fflush(fl1); break; case LOG_EXITDYN88I1: if(LANG == 1) fprintf(fl1,"\nVerlassen Speichereinheit DYN88I1"); if(LANG == 2) fprintf(fl1,"\nleaving storage function DYN88I1"); fflush(fl1); break; case LOG_BRI188: if(LANG == 1) fprintf(fl1,"\nStart Leseeinheit RI188I\nEinlesen von Z88I1.TXT"); if(LANG == 2) fprintf(fl1,"\nstart reading function RI188I\nreading Z88I1.TXT"); fflush(fl1); break; case LOG_NOI1: if(LANG == 1) fprintf(fl1,"\n### kann Z88I1.TXT nicht oeffnen ..Stop ###"); if(LANG == 2) fprintf(fl1,"\n### cannot open Z88I1.TXT ..stop ###"); fflush(fl1); break; case LOG_WRONGDIM: #ifdef FR_XLOLO if(LANG == 1) fprintf(fl1,"\n### Dimension %lld falsch ..Stop ###",i); if(LANG == 2) fprintf(fl1,"\n### dimension %lld wrong ..stop ###",i); #endif #ifdef FR_XLONG if(LANG == 1) fprintf(fl1,"\n### Dimension %ld falsch ..Stop ###",i); if(LANG == 2) fprintf(fl1,"\n### dimension %ld wrong ..stop ###",i); #endif fflush(fl1); break; case LOG_EXMAXK: #ifdef FR_XLOLO if(LANG == 1) { fprintf(fl1,"\n### Nur %lld Knoten in Z88.DYN definiert ..Stop ###",i); fprintf(fl1,"\n### Abhilfe: MAXK in Z88.DYN erhoehen ###"); } if(LANG == 2) { fprintf(fl1,"\n### only %lld nodes in Z88.DYN defined ..stop ###",i); fprintf(fl1,"\n### recover: increase MAXK in Z88.DYN ###"); } #endif #ifdef FR_XLONG if(LANG == 1) { fprintf(fl1,"\n### Nur %ld Knoten in Z88.DYN definiert ..Stop ###",i); fprintf(fl1,"\n### Abhilfe: MAXK in Z88.DYN erhoehen ###"); } if(LANG == 2) { fprintf(fl1,"\n### only %ld nodes in Z88.DYN defined ..stop ###",i); fprintf(fl1,"\n### recover: increase MAXK in Z88.DYN ###"); } #endif fflush(fl1); break; case LOG_EXMAXE: #ifdef FR_XLOLO if(LANG == 1) { fprintf(fl1,"\n### Nur %lld Elemente in Z88.DYN definiert ..Stop ###",i); fprintf(fl1,"\n### Abhilfe: MAXE in Z88.DYN erhoehen ###"); } if(LANG == 2) { fprintf(fl1,"\n### only %lld elements in Z88.DYN defined ..stop ###",i); fprintf(fl1,"\n### recover: increase MAXE in Z88.DYN ###"); } #endif #ifdef FR_XLONG if(LANG == 1) { fprintf(fl1,"\n### Nur %ld Elemente in Z88.DYN definiert ..Stop ###",i); fprintf(fl1,"\n### Abhilfe: MAXE in Z88.DYN erhoehen ###"); } if(LANG == 2) { fprintf(fl1,"\n### only %ld elements in Z88.DYN defined ..stop ###",i); fprintf(fl1,"\n### recover: increase MAXE in Z88.DYN ###"); } #endif fflush(fl1); break; case LOG_EXMAXKOI: #ifdef FR_XLOLO if(LANG == 1) { fprintf(fl1,"\n### Nur MAXKOI=%lld in Z88.DYN definiert ..Stop ###",i); fprintf(fl1,"\n### Abhilfe: MAXKOI in Z88.DYN erhoehen ###"); } if(LANG == 2) { fprintf(fl1,"\n### only MAXKOI=%lld in Z88.DYN defined ..stop ###",i); fprintf(fl1,"\n### recover: increase MAXKOI in Z88.DYN ###"); } #endif #ifdef FR_XLONG if(LANG == 1) { fprintf(fl1,"\n### Nur MAXKOI=%ld in Z88.DYN definiert ..Stop ###",i); fprintf(fl1,"\n### Abhilfe: MAXKOI in Z88.DYN erhoehen ###"); } if(LANG == 2) { fprintf(fl1,"\n### only MAXKOI=%ld in Z88.DYN defined ..stop ###",i); fprintf(fl1,"\n### recover: increase MAXKOI in Z88.DYN ###"); } #endif fflush(fl1); break; case LOG_EXMAXNFG: #ifdef FR_XLOLO if(LANG == 1) { fprintf(fl1,"\n### Nur %lld FG in Z88.DYN definiert ..Stop ###",i); fprintf(fl1,"\n### Abhilfe: MAXNFG in Z88.DYN erhoehen ###"); } if(LANG == 2) { fprintf(fl1,"\n### only %lld DOF in Z88.DYN defined ..stop ###",i); fprintf(fl1,"\n### recover: increase MAXNFG in Z88.DYN ###"); } #endif #ifdef FR_XLONG if(LANG == 1) { fprintf(fl1,"\n### Nur %ld FG in Z88.DYN definiert ..Stop ###",i); fprintf(fl1,"\n### Abhilfe: MAXNFG in Z88.DYN erhoehen ###"); } if(LANG == 2) { fprintf(fl1,"\n### only %ld DOF in Z88.DYN defined ..stop ###",i); fprintf(fl1,"\n### recover: increase MAXNFG in Z88.DYN ###"); } #endif fflush(fl1); break; case LOG_EXMAXNEG: #ifdef FR_XLOLO if(LANG == 1) { fprintf(fl1,"\n### Nur %lld E-Gesetze in Z88.DYN definiert ..Stop ###",i); fprintf(fl1,"\n### Abhilfe: MAXNEG in Z88.DYN erhoehen ###"); } if(LANG == 2) { fprintf(fl1,"\n### only %lld mat lines in Z88.DYN defined ..stop ###",i); fprintf(fl1,"\n### recover: increase MAXNEG in Z88.DYN ###"); } #endif #ifdef FR_XLONG if(LANG == 1) { fprintf(fl1,"\n### Nur %ld E-Gesetze in Z88.DYN definiert ..Stop ###",i); fprintf(fl1,"\n### Abhilfe: MAXNEG in Z88.DYN erhoehen ###"); } if(LANG == 2) { fprintf(fl1,"\n### only %ld mat lines in Z88.DYN defined ..stop ###",i); fprintf(fl1,"\n### recover: increase MAXNEG in Z88.DYN ###"); } #endif fflush(fl1); break; case LOG_EXMAXSOR: #ifdef FR_XLOLO if(LANG == 1) { fprintf(fl1,"\n### Abbruch bei Element %lld ..Stop ###",i); fprintf(fl1,"\n### Sortierstructure IJ zu klein ..Stop ###"); fprintf(fl1,"\n### Abhilfe: MAXSOR in Z88.DYN erhoehen ###"); } if(LANG == 2) { fprintf(fl1,"\n### exiting at element %lld ..Stop ###",i); fprintf(fl1,"\n### sorting structure IJ exhausted ..stop ###"); fprintf(fl1,"\n### recover: increase MAXSOR in Z88.DYN ###"); } #endif #ifdef FR_XLONG if(LANG == 1) { fprintf(fl1,"\n### Abbruch bei Element %ld ..Stop ###",i); fprintf(fl1,"\n### Sortierstructure IJ zu klein ..Stop ###"); fprintf(fl1,"\n### Abhilfe: MAXSOR in Z88.DYN erhoehen ###"); } if(LANG == 2) { fprintf(fl1,"\n### exiting at element %ld ..Stop ###",i); fprintf(fl1,"\n### sorting structure IJ exhausted ..stop ###"); fprintf(fl1,"\n### recover: increase MAXSOR in Z88.DYN ###"); } #endif fflush(fl1); break; case LOG_WROKFLAG: #ifdef FR_XLOLO if(LANG == 1) fprintf(fl1,"\n### KFLAG %lld falsch ..Stop ###",i); if(LANG == 2) fprintf(fl1,"\n### KFLAG %lld wrong ..stop ###",i); #endif #ifdef FR_XLONG if(LANG == 1) fprintf(fl1,"\n### KFLAG %ld falsch ..Stop ###",i); if(LANG == 2) fprintf(fl1,"\n### KFLAG %ld wrong ..stop ###",i); #endif fflush(fl1); break; case LOG_KOOR: if(LANG == 1) fprintf(fl1,"\nEinlesen der Koordinaten"); if(LANG == 2) fprintf(fl1,"\nreading coordinates"); fflush(fl1); break; case LOG_KOIN: if(LANG == 1) fprintf(fl1,"\nEinlesen der Koinzidenz"); if(LANG == 2) fprintf(fl1,"\nreading element information"); fflush(fl1); break; case LOG_EGES: if(LANG == 1) fprintf(fl1,"\nEinlesen der Elastizitaetsgesetze"); if(LANG == 2) fprintf(fl1,"\nreading material informations"); fflush(fl1); break; case LOG_EXITRI188: if(LANG == 1) fprintf(fl1,"\nZ88I1.TXT eingelesen, Verlassen Leseeinheit RI188I"); if(LANG == 2) fprintf(fl1,"\nZ88I1.TXT read, leaving reading function RI188I"); fflush(fl1); break; case LOG_BWRIA88F: if(LANG == 1) fprintf(fl1,"\nStart Schreibeinheit WRIA88I"); if(LANG == 2) fprintf(fl1,"\nstart writing function WRIA88I"); fflush(fl1); break; case LOG_NO1Y: if(LANG == 1) fprintf(fl1,"\n### kann Z88O1.BNY nicht oeffnen ..Stop ###"); if(LANG == 2) fprintf(fl1,"\n### cannot open Z88O1.BNY ..stop ###"); fflush(fl1); break; case LOG_NO4Y: if(LANG == 1) fprintf(fl1,"\n### kann Z88O4.BNY nicht oeffnen ..Stop ###"); if(LANG == 2) fprintf(fl1,"\n### cannot open Z88O4.BNY ..stop ###"); fflush(fl1); break; case LOG_NOO0: if(LANG == 1) fprintf(fl1,"\n### kann Z88O0.TXT nicht oeffnen ..Stop ###"); if(LANG == 2) fprintf(fl1,"\n### cannot open Z88O0.TXT ..stop ###"); fflush(fl1); break; case LOG_NOO1: if(LANG == 1) fprintf(fl1,"\n### kann Z88O1.TXT nicht oeffnen ..Stop ###"); if(LANG == 2) fprintf(fl1,"\n### cannot open Z88O1.TXT ..stop ###"); fflush(fl1); break; case LOG_WRI1Y: if(LANG == 1) fprintf(fl1,"\nBeschreiben von Z88O1.BNY"); if(LANG == 2) fprintf(fl1,"\nwriting Z88O1.BNY"); fflush(fl1); break; case LOG_WRI4Y: if(LANG == 1) fprintf(fl1,"\nBeschreiben von Z88O4.BNY"); if(LANG == 2) fprintf(fl1,"\nwriting Z88O4.BNY"); fflush(fl1); break; case LOG_WRI4YOK: if(LANG == 1) fprintf(fl1,"\nZ88O4.BNY fertig geschrieben"); if(LANG == 2) fprintf(fl1,"\nZ88O4.BNY written"); fflush(fl1); break; case LOG_WRIO0: if(LANG == 1) fprintf(fl1,"\nBeschreiben von Z88O0.TXT"); if(LANG == 2) fprintf(fl1,"\nwriting Z88O0.TXT"); fflush(fl1); break; case LOG_WRIO1: if(LANG == 1) fprintf(fl1,"\nBeschreiben von Z88O1.TXT"); if(LANG == 2) fprintf(fl1,"\nwriting Z88O1.TXT"); fflush(fl1); break; case LOG_GSERF: #ifdef FR_XLOLO if(LANG == 1) fprintf(fl1,"\nVektor GS braucht %lld Elemente",i); if(LANG == 2) fprintf(fl1,"\nvector GS needs %lld Elemente",i); #endif #ifdef FR_XLONG if(LANG == 1) fprintf(fl1,"\nVektor GS braucht %ld Elemente",i); if(LANG == 2) fprintf(fl1,"\nvector GS needs %ld Elemente",i); #endif fflush(fl1); break; case LOG_KOIERF: #ifdef FR_XLOLO if(LANG == 1) fprintf(fl1,"\nVektor KOI braucht %lld Elemente",i); if(LANG == 2) fprintf(fl1,"\nvector KOI needs %lld Elemente",i); #endif #ifdef FR_XLONG if(LANG == 1) fprintf(fl1,"\nVektor KOI braucht %ld Elemente",i); if(LANG == 2) fprintf(fl1,"\nvector KOI needs %ld Elemente",i); #endif fflush(fl1); break; case LOG_EXITWRIA88F: if(LANG == 1) fprintf(fl1,"\nVerlassen Schreibeinheit WRIA88I"); if(LANG == 2) fprintf(fl1,"\nleaving writing function WRIA88I"); fflush(fl1); break; case LOG_Z88A: if(LANG == 1) fprintf(fl1,"\nStart Z88AI : Pass 1 von Z88I1"); if(LANG == 2) fprintf(fl1,"\nstart Z88AI : pass 1 of Z88I1"); fflush(fl1); break; case LOG_FORMA: if(LANG == 1) fprintf(fl1,"\n*** Formatieren ***"); if(LANG == 2) fprintf(fl1,"\n*** formatting ***"); fflush(fl1); break; case LOG_WROETYP: #ifdef FR_XLOLO if(LANG == 1) fprintf(fl1,"\n### Falschen Elementtyp %lld entdeckt ..Stop ###",i); if(LANG == 2) fprintf(fl1,"\n### wrong element type %lld detected ..stop ###",i); #endif #ifdef FR_XLONG if(LANG == 1) fprintf(fl1,"\n### Falschen Elementtyp %ld entdeckt ..Stop ###",i); if(LANG == 2) fprintf(fl1,"\n### wrong element type %ld detected ..stop ###",i); #endif fflush(fl1); break; case LOG_EXITZ88A: if(LANG == 1) fprintf(fl1,"\nVerlassen Z88AI, Pass 1 erledigt"); if(LANG == 2) fprintf(fl1,"\nleaving Z88AI, pass 1 done"); fflush(fl1); break; } return(0); }