File: gxi588.c

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/***********************************************************************
* 
*               *****   ***    ***
*                  *   *   *  *   *
*                 *     ***    ***
*                *     *   *  *   *
*               *****   ***    ***
*
* 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
* 
* V12.0  February 14, 2005
*
* 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.
***********************************************************************/ 
/***********************************************************************
* Compilerunit gxi588 enthaelt:
* g1i588
* g2i588
* 15.9.2005 Rieg
***********************************************************************/

/***********************************************************************
* Fuer UNIX
***********************************************************************/
#ifdef FR_UNIX
#include <z88v.h>
#include <stdio.h>   /* FILE,printf */
#include <string.h>  /* strcpy */
#endif

/***********************************************************************
* Functions
***********************************************************************/
void erif88(FR_INT4 izeile);

/***********************************************************************
* Start G1I588
***********************************************************************/
int g1i588(void)
{
extern FILE *fdatei;

extern FR_INT4 ne,npr,izeile,LANG;

int ier;

char *cresult;
char cline[256];

/**********************************************************************
* Checken der 1.Zeile
**********************************************************************/
izeile= 1; 

cresult= fgets(cline,256,fdatei);
if(!cresult)
  {
  erif88(izeile);
  return(2);
  }

ier= sscanf(cline,"%ld",&npr);
if(ier != 1) 
  {
  printf("%s\n",cline);
  if(LANG == 1)
    printf("### Schreibfehler oder fehlende Daten in Zeile 1 entdeckt\n");
  if(LANG == 2)
    printf("### typing error or missing entries in line 1 detected\n");
  return(2);
  }
        
/*----------------------------------------------------------------------
* logische Pruefung npr 
*---------------------------------------------------------------------*/
if(npr > ne)
  {
  printf("%s\n",cline);
  if(LANG == 1)
    printf("### Zuviele Flaechenlasten in Zeile 1 entdeckt\n");
  if(LANG == 2)
    printf("### too many surface loads in line 1 detected\n");
  return(2);
  }

if(npr <= 0)
  {
  printf("%s\n",cline);
  if(LANG == 1)
    printf("### Zuwenig Flaechenlasten in Zeile 1 entdeckt\n");
  if(LANG == 2)
    printf("### too few surface loads in line 1 detected\n");
  return(2);
  }

return(0);
}
          
/***********************************************************************
* Start G2I588
***********************************************************************/
int g2i588(void)
{
extern FILE *fdatei;

extern FR_INT4AY jtyp;

extern FR_INT4 nkp,ne,npr,izeile,LANG;

FR_DOUBLE pree,tr1e,tr2e;

FR_INT4 noi[9];

FR_INT4 i,j,k,jele,ityp,jmax;

int ier;

char *cresult;
char cline[256];

/**********************************************************************
* Checken der 2.Gruppe, Schleife ueber alle Elemente mit Flaechenlasten
**********************************************************************/
for(i = 1;i <= npr;i++) 
  {
  izeile++;
           
/*---------------------------------------------------------------------
* welcher Typ?
*--------------------------------------------------------------------*/ 
  cresult= fgets(cline,256,fdatei);
  if(!cresult)
    {
    erif88(izeile);
    return(2);
    }

  ier= sscanf(cline,"%ld",&jele);

  if(jele < 1 || jele > ne)
    {
    printf("%s\n",cline);
    if(LANG == 1)
      printf("### Elementnummer in Zeile %ld gibts garnicht\n",izeile);
    if(LANG == 2)
      printf("### element number in line %ld does not exist\n",izeile);
    return(2);
    }

  ityp= jtyp[jele];
  
  if(ityp == 2 || ityp == 3 || ityp == 4 || ityp == 5 || ityp == 6 ||
     ityp == 9 || ityp == 13)
    {
    printf("%s\n",cline);
    if(LANG == 1)
      printf(
      "### Elementtyp in Zeile %ld nicht geeignet fuer Flaechenlasten\n",
      izeile);
    if(LANG == 2)
      printf(
      "### element type in line %ld not allowed for surface loads\n",
      izeile);
    return(2);
    }

/*=====================================================================
* Elementtyp 1
*====================================================================*/ 
  if(ityp == 1)
    {
    ier= sscanf(cline,"%ld %lf %lf %lf %ld %ld %ld %ld",
         &jele,&pree,&tr1e,&tr2e,&noi[1],&noi[2],&noi[3],&noi[4]);

    if(ier != 8) 
      {
      printf("%s\n",cline);
      if(LANG == 1)
        {
        printf(
        "### Schreibfehler oder fehlende Daten in Zeile %ld entdeckt\n",
        izeile);
            }
      if(LANG == 2)
        {
        printf(
        "### typing error or missing entries in line %ld detected\n",
        izeile);
        }
      return(2);
      }
    jmax= 4;
    }

/*=====================================================================
* Elementtyp 10
*====================================================================*/ 
  if(ityp == 10)
    {
    ier= sscanf(cline,"%ld %lf %lf %lf %ld %ld %ld %ld  %ld %ld %ld %ld",
         &jele,&pree,&tr1e,&tr2e,&noi[1],&noi[2],&noi[3],&noi[4],
         &noi[5],&noi[6],&noi[7],&noi[8]);

    if(ier != 12) 
      {
      printf("%s\n",cline);
      if(LANG == 1)
        {
        printf(
        "### Schreibfehler oder fehlende Daten in Zeile %ld entdeckt\n",
        izeile);
            }
      if(LANG == 2)
        {
        printf(
        "### typing error or missing entries in line %ld detected\n",
        izeile);
        }
      return(2);
      }
    jmax= 8;
    }

/*=====================================================================
* Elementtyp 17
*====================================================================*/ 
  if(ityp == 17)
    {
    ier= sscanf(cline,"%ld %lf %ld %ld %ld",
         &jele,&pree,&noi[1],&noi[2],&noi[3]);

    if(ier != 5) 
      {
      printf("%s\n",cline);
      if(LANG == 1)
        {
        printf(
        "### Schreibfehler oder fehlende Daten in Zeile %ld entdeckt\n",
        izeile);
            }
      if(LANG == 2)
        {
        printf(
        "### typing error or missing entries in line %ld detected\n",
        izeile);
        }
      return(2);
      }
    jmax= 3;
    }

/*=====================================================================
* Elementtyp 16
*====================================================================*/ 
  if(ityp == 16)
    {
    ier= sscanf(cline,"%ld %lf %ld %ld %ld %ld %ld %ld",
         &jele,&pree,&noi[1],&noi[2],&noi[3],&noi[4],&noi[5],&noi[6]);

    if(ier != 8) 
      {
      printf("%s\n",cline);
      if(LANG == 1)
        {
        printf(
        "### Schreibfehler oder fehlende Daten in Zeile %ld entdeckt\n",
        izeile);
            }
      if(LANG == 2)
        {
        printf(
        "### typing error or missing entries in line %ld detected\n",
        izeile);
        }
      return(2);
      }
    jmax= 6;
    }

/*=====================================================================
* Elementtyp 7,8,14,15
*====================================================================*/ 
  if(ityp == 7 || ityp == 8 || ityp == 14 || ityp == 15)
    {
    ier= sscanf(cline,"%ld %lf %lf %ld %ld %ld",
         &jele,&pree,&tr1e,&noi[1],&noi[2],&noi[3]);

    if(ier != 6) 
      {
      printf("%s\n",cline);
      if(LANG == 1)
        {
        printf(
        "### Schreibfehler oder fehlende Daten in Zeile %ld entdeckt\n",
        izeile);
            }
      if(LANG == 2)
        {
        printf(
        "### typing error or missing entries in line %ld detected\n",
        izeile);
        }
      return(2);
      }
    jmax= 3;
    }

/*=====================================================================
* Elementtyp 11,12
*====================================================================*/ 
  if(ityp == 11 || ityp == 12)
    {
    ier= sscanf(cline,"%ld %lf %lf %ld %ld %ld %ld",
         &jele,&pree,&tr1e,&noi[1],&noi[2],&noi[3],&noi[4]);

    if(ier != 7) 
      {
      printf("%s\n",cline);
      if(LANG == 1)
        {
        printf(
        "### Schreibfehler oder fehlende Daten in Zeile %ld entdeckt\n",
        izeile);
            }
      if(LANG == 2)
        {
        printf(
        "### typing error or missing entries in line %ld detected\n",
        izeile);
        }
      return(2);
      }
    jmax= 4;
    }

/*=====================================================================
* Elementtyp 18,19 & 20
*====================================================================*/ 
  if(ityp == 18 || ityp == 19 || ityp == 20)
    {
    ier= sscanf(cline,"%ld %lf",&jele,&pree);

    if(ier != 2) 
      {
      printf("%s\n",cline);
      if(LANG == 1)
        {
        printf(
        "### Schreibfehler oder fehlende Daten in Zeile %ld entdeckt\n",
        izeile);
            }
      if(LANG == 2)
        {
        printf(
        "### typing error or missing entries in line %ld detected\n",
        izeile);
        }
      return(2);
      }
    jmax= 0;
    }

/*======================================================================
* koi(j) innerhalb logischer Grenzen ?
*=====================================================================*/
  for(j = 1;j <= jmax;j++)
    {
    if(!(noi[j] > 0 && noi[j] <= nkp))
      {
      printf("%s\n",cline);
      if(LANG == 1)
        {
        printf(
        "### Knoten nicht zwischen 1 und %ld fuer Element %ld entdeckt\n",
        nkp,i);
        printf("### Zeile %ld ueberpruefen\n",izeile);
        }
      if(LANG == 2)
        {
        printf(
        "### node number not in range (1 to %ld) for element %ld detected\n",
        nkp,i);
        printf("### check line %ld\n",izeile);
        }
      return(2);
      }
    }

  for(j = 1;j <= jmax-1;j++)
    {
    for(k= j+1;k <= jmax;k++)
      {
      if(noi[j] == noi[k])
        {
        printf("%s\n",cline);
        if(LANG == 1)
          {
          printf(
          "### Identische Knoten fuer Element %ld in Zeile %ld entdeckt\n",
          jele,izeile);
          }
        if(LANG == 2)
          {
          printf(
          "### identical nodes for element %ld in line %ld detected\n",
          jele,izeile);
          }
        return(2);
        }
      }
    }

/*---------------------------------------------------------------------
* Schleifenende
*--------------------------------------------------------------------*/ 
  }

return(0);
}