/* varm_test */ /* acm 9/15/09 */ /* ansley.b.manke@noaa.gov */ /* test nc_get_varm_float with calls similar to Ferret calls */ /* local file is correct results with stride: every second value */ /* remote url; incorrect results with stride linked with: cc varm_test.c -g -o varm_test /home/nstout/ansley/local/lib/libnetcdf.a -L/usr/lib64 -lc -lm -lcurl netcdf.a from the daily snapshot netcdf-4.1-beta2-snapshot2009091100 */ /* This particular test seems to occasionally expose a server error*/ #include #include #include #include #include "netcdf.h" #include "ncdispatch.h" #include "nctestserver.h" #undef STANDALONE #undef DEBUG #define TESTPATH "/dodsC/testdods/coads_climatology.nc" #define VAR "SST" static float expected_stride1[12] = { 29.430857, 29.403780, 29.325428, 29.578333, 29.660833, 29.378437, 29.151943, 29.109715, 29.114864, 29.550285, 29.542500, 29.500286 }; static float expected_stride2[6] = { 29.430857, 29.325428, 29.660833, 29.151943, 29.114864, 29.542500 }; static float expected_stride3[3] = { 29.430857, 29.378437, 29.542500 }; void check(int status, char* file, int line) { if(status == 0) return; fprintf(stderr,"error: %s at %s:%d\n",nc_strerror(status),file,line); exit(1); } int main() { int ncid; int varid; int i,fail; int err; size_t start[5], count[5]; ptrdiff_t stride[5], imap[5]; int idim; float dat[20]; char url[4096]; char* svc; #ifdef STANDALONE int ndim; #endif #ifdef DEBUG oc_loginit(); oc_setlogging(1); oc_logopen(NULL); #endif /* Find Test Server */ svc = nc_findtestserver("thredds",0,REMOTETESTSERVERS); if(svc == NULL) { fprintf(stderr,"Cannot locate test server\n"); exit(0); } strncpy(url,svc,sizeof(url)); strlcat(url,TESTPATH,sizeof(url)); printf("*** Test: varm on URL: %s\n",url); check(err = nc_open(url, NC_NOWRITE, &ncid),__FILE__,__LINE__); check(err = nc_inq_varid(ncid, VAR, &varid),__FILE__,__LINE__); for (idim=0; idim<4; idim++) { start[idim] = 0; count[idim] = 1; stride[idim] = 1; imap[idim] = 1; } #ifdef STANDALONE ndim=3; #endif printf("*** Testing: stride case 1\n"); start[1] = 44; start[2] = 66; count[0] = 12; #ifdef STANDALONE printf("start = "); for(i=0;i 0.0005 || delta < -0.0005) { fprintf(stderr,"*** Failure: unexpected value: delta=%g dat[%d]=%g expected[%d]=%g\n", delta, i, dat[i], i, expected_stride1[i]); fail = 1; } } printf("*** %s: stride case 1\n",(fail?"Fail":"Pass")); printf("*** Testing: stride case 2\n"); /* case with strides #1 where len % stride == 0 */ start[1] = 44; start[2] = 66; count[0] = 6; stride[0] = 2; #ifdef STANDALONE printf("start = "); for(i=0;i 0.0005 || delta < -0.0005) { fprintf(stderr,"*** Failure: unexpected value: delta=%g dat[%d]=%g expected[%d]=%g\n", delta, i, dat[i], i, expected_stride2[i]); fail=1; } } printf("*** %s: stride case 2\n",(fail?"Fail":"Pass")); /* case with strides #2: len % stride != 0 */ printf("*** Testing: stride case 3\n"); start[1] = 44; start[2] = 66; count[0] = 3; stride[0] = 5; #ifdef STANDALONE printf("start = "); for(i=0;i 0.0005 || delta < -0.0005) { fprintf(stderr,"*** Failure: stride case 2: unexpected value: delta=%g dat[%d]=%g expected[%d]=%g\n", delta, i, dat[i], i, expected_stride3[i]); fail=1; } } printf("*** %s: stride case 3\n",(fail?"Fail":"Pass")); nc_close(ncid); return fail; }