/********************************************************************* * Copyright 1993, UCAR/Unidata * See netcdf/COPYRIGHT file for copying and redistribution conditions. * $Id: varputg.c,v 1.10 2006/10/31 16:22:06 ed Exp $ *********************************************************************/ #include #include #include /* for free() */ #include "netcdf.h" #include "testcdf.h" /* defines in-memory test cdf structure */ #include "val.h" #include "error.h" #include "tests.h" #include "emalloc.h" /* * Test ncvarputg * check that proper call worked with ncvargetg * try with negative coords, edges, check error * try with too-large coords, edges, check error * try with non-positive strides, check error * try with bad variable handle, check error * try in define mode, check error * try with bad netCDF handle, check error */ int test_ncvarputg(path) const char *path; /* name of writable netcdf file to open */ { int nerrs = 0; static char pname[] = "test_ncvarputg"; int cdfid; /* netcdf id */ int iv; /* variable id */ struct cdfhc { /* a hypercube with generic values */ long cor[MAX_NC_DIMS]; /* netcdf coordinates for lower corner */ long edg[MAX_NC_DIMS]; /* netcdf edge lengths to upper corner */ void *vals; /* pointer to block of values */ } hc; /* test hypercube */ long tmp; int id; /* dimension id */ long strides[MAX_NC_DIMS]; /* external, I/O strides */ (void) fprintf(stderr, "*** Testing %s ...\t", &pname[5]); if ((cdfid = ncopen(path, NC_WRITE)) == -1) { error("%s: ncopen failed", pname); return ++nerrs; } /* opened in data mode, try putting and getting hypercubes of each type. * prints out messages for discrepencies */ nerrs += test_varputgetg (cdfid); /* find a variable with at least one dimension */ iv = 0; while (test.vars[iv].ndims <= 0 && iv < test.nvars) iv++; if (iv < test.nvars) { /* iv is first varid of var with dimensions */ /* set coords and strides */ for (id = 0; id < test.vars[iv].ndims; id++) { hc.cor[id] = 0; hc.edg[id] = 1; strides[id] = 1; } /* fill in vals with value of appropriate type */ hc.vals = emalloc(nctypelen(test.vars[iv].type)); val_fill(test.vars[iv].type, 1, hc.vals); # define TEST_FAILS(varid) \ (ncvarputg(cdfid, varid, hc.cor, hc.edg, \ strides, (long*)NULL, hc.vals) != -1) id = test.vars[iv].ndims - 1; tmp = hc.cor[id]; hc.cor[id] = -1; /* try negative coordinate, should fail */ if (TEST_FAILS(iv)) { error("%s: ncvarputg should fail for negative corner", pname); ncclose(cdfid); return ++nerrs; } hc.cor[id] = tmp; tmp = hc.edg[id]; hc.edg[id] = -1; /* try negative edge, should fail */ if (TEST_FAILS(iv)) { error("%s: ncvarputg should fail for negative edge", pname); ncclose(cdfid); return ++nerrs; } hc.edg[id] = tmp; tmp = hc.cor[id]; hc.cor[id] = test.dims[id].size; /* try big coordinate, should fail */ if (TEST_FAILS(iv)) { error("%s: ncvarputg should fail for too-high coordinate", pname); ncclose(cdfid); return ++nerrs; } hc.cor[id] = tmp; tmp = hc.edg[id]; hc.edg[id] = test.dims[id].size + 1; /* try big edge, should fail */ if (TEST_FAILS(iv)) { error("%s: ncvarputg should fail for too-high edge", pname); ncclose(cdfid); return ++nerrs; } hc.edg[id] = tmp; tmp = strides[id]; strides[id] = -1; /* try non-positive stride, * should fail */ if (TEST_FAILS(iv)) { error("%s: ncvarputg should fail for non-positive stride", pname); ncclose(cdfid); return ++nerrs; } strides[id] = tmp; if (ncredef(cdfid) == -1) { error("%s: ncredef failed", pname); ncclose(cdfid); return ++nerrs; } /* try in define mode, should fail */ if (TEST_FAILS(iv)) { error("%s: ncvarputg should fail in define mode", pname); ncclose(cdfid); return ++nerrs; } if (ncendef (cdfid) == -1) { error("%s: ncendef failed", pname); ncclose(cdfid); return ++nerrs; } } /* try with bad variable handle, should fail */ if (TEST_FAILS(-1)) { error("%s: ncvarputg should fail for bad variable handle", pname); ncclose(cdfid); return ++nerrs; } if (ncclose (cdfid) == -1) { error("%s: ncclose failed", pname); return ++nerrs; } /* try with bad netCDF handle, should fail */ if (TEST_FAILS(0)) { error("%s: ncvarputg failed to report bad netcdf handle", pname); nerrs++; } if(hc.vals != NULL) free (hc.vals); if (nerrs > 0) (void) fprintf(stderr,"FAILED! ***\n"); else (void) fprintf(stderr,"ok ***\n"); return nerrs; }