00001
00002
00003
00004
00005
00006
00007
00008
00009
00010
00011
00012
00013
00014
00015
00016
00017
00018
00019
00020
00021
00022
00023
00024
00025
00026
00027
00028
00029
00030
00031
00032
00033
00034
00035
00036
00037
00038
00039
00040
00041
00042
00043
00044
00045
00046
00047
00048
00049
00050
00051
00052
00053
00054
00055
00056
00057
00058
00059
00060
00061
00062
00063
00064
00065 #include "plumeinput.h"
00066 #include "plumevars.h"
00067 #include <stdio.h>
00068 #include <string.h>
00069
00070 int plumeout1(char fname[] , Plume_enviro *env , Plume_grid *grid )
00071 {
00072 FILE *fiddata;
00073 char fndata[20];
00074 int ii, jj, kk, nn, zz;
00075
00076 zz = 0;
00077
00078
00079 for( kk=0; kk<5; kk++ )
00080 {
00081
00082
00083
00084 strcpy( fndata, fname );
00085 if( kk == 0 )
00086 strcat( fndata, ".ccnc" );
00087 else if( kk == 1 )
00088 strcat( fndata, ".ncnc" );
00089 else if( kk == 2 )
00090 strcat( fndata, ".deps" );
00091 else if( kk == 3 )
00092 strcat( fndata, ".sln" );
00093 else
00094 strcat( fndata, ".ualb" );
00095
00096
00097
00098 if( (fiddata = fopen(fndata,"w")) == NULL)
00099 {
00100 fprintf( stderr ,
00101 " PlumeOut1 ERROR: Unable to open the output file. \n");
00102 fprintf(stderr, " fndata = %s \n", fndata);
00103 eh_exit(1);
00104 }
00105
00106
00107
00108 fwrite( &grid->lx, sizeof(int), 1, fiddata );
00109 fwrite( &grid->ly, sizeof(int), 1, fiddata );
00110 if( kk == 0 || kk == 1 || kk == 2 )
00111 fwrite( &env->n_grains, sizeof(int), 1, fiddata );
00112 else
00113 fwrite( &zz , sizeof(int) , 1 , fiddata );
00114 fwrite( &env->river->d0 , sizeof(double) , 1 , fiddata );
00115
00116
00117
00118 for( ii=0; ii<grid->lx; ii++ )
00119 fwrite( &grid->xval[ii], sizeof(double), 1, fiddata );
00120 for( jj=0; jj<grid->ly; jj++ )
00121 fwrite( &grid->yval[jj], sizeof(double), 1, fiddata );
00122
00123
00124
00125 if( kk == 0 ) {
00126 for( nn=0; nn<env->n_grains; nn++ ) {
00127 for( ii=0; ii<grid->lx; ii++ ) {
00128 for( jj=0; jj<grid->ly; jj++ ) {
00129 fwrite( &grid->ccnc[ii][jj][nn], sizeof(double), 1, fiddata );
00130 } } } }
00131 else if( kk == 1 ) {
00132 for( nn=0; nn<env->n_grains; nn++ ) {
00133 for( ii=0; ii<grid->lx; ii++ ) {
00134 for( jj=0; jj<grid->ly; jj++ ) {
00135 fwrite( &grid->ncnc[ii][jj][nn], sizeof(double), 1, fiddata );
00136 } } } }
00137 else if( kk == 2 ) {
00138 for( nn=0; nn<env->n_grains; nn++ ) {
00139 for( ii=0; ii<grid->lx; ii++ ) {
00140 for( jj=0; jj<grid->ly; jj++ ) {
00141 fwrite( &grid->deps[ii][jj][nn], sizeof(double), 1, fiddata );
00142 } } } }
00143 else if( kk == 3 ) {
00144 for( ii=0; ii<grid->lx; ii++ ) {
00145 for( jj=0; jj<grid->ly; jj++ ) {
00146 fwrite( &grid->sln[ii][jj], sizeof(double), 1, fiddata );
00147 } } }
00148 else {
00149 for( ii=0; ii<grid->lx; ii++ ) {
00150 for( jj=0; jj<grid->ly; jj++ ) {
00151 fwrite( &grid->ualb[ii][jj], sizeof(double), 1, fiddata );
00152 } } }
00153
00154 fclose(fiddata);
00155 }
00156 return(0);
00157 }
00158