netcdf-c/nctest/slabs.c

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/*********************************************************************
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* Copyright 2018, UCAR/Unidata
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* See netcdf/COPYRIGHT file for copying and redistribution conditions.
* $Header: /upc/share/CVS/netcdf-3/nctest/slabs.c,v 1.13 2009/02/11 16:17:39 ed Exp $
*********************************************************************/
#include <config.h>
#include <stdlib.h> /* for free() */
#include "netcdf.h"
#include "testcdf.h" /* defines in-memory test cdf structure */
#include "emalloc.h"
#include "add.h" /* functions to update in-memory netcdf */
#include "error.h"
#include "tests.h"
#define LEN_OF(array) ((sizeof array) / (sizeof array[0]))
/* dimension sizes */
#define NDIMS 4 /* number of dimensions */
#define WSIZE 7 /* sizes of dimensions */
#define XSIZE 5
#define YSIZE 6
#define ZSIZE 4
/* Any function that maps dimension values 1-1 to values is OK here */
#define VF(w) 1000*w[0]+100*w[1]+10*w[2]+w[3]
#define NVARS 6 /* number of variables */
/*
* Fill typed array element with specified value, that is
*
* v[ii] = val;
*/
static void
val_stuff(type, v, ii, val) /* v[ii] = val */
nc_type type; /* netcdf type of v, NC_BYTE, ..., NC_DOUBLE */
void *v; /* array of specified type */
int ii; /* it's v[ii] we want to store into */
long val; /* value to store */
{
static char pname[] = "val_stuff";
switch (type) {
case NC_BYTE:
case NC_CHAR:
((char *)v)[ii] = (char) val;
break;
case NC_SHORT:
((short *)v)[ii] = (short) val;
break;
case NC_LONG:
((nclong *)v)[ii] = (nclong) val;
break;
case NC_FLOAT:
((float *)v)[ii] = (float) val;
break;
case NC_DOUBLE:
((double *)v)[ii] = (double) val;
break;
default:
error("%s: bad type, test program error", pname);
}
}
/*
* Compare typed array element with specified value, that is return
*
* (v[ii] != val)
*
* returns 0 if equal, 1 if not equal
*/
static int
val_diff(type, v, ii, val) /* v[ii] != val */
nc_type type; /* netcdf type of v, NC_BYTE, ..., NC_DOUBLE */
void *v; /* array of specified type */
int ii; /* it's v[ii] we want to compare */
long val; /* value to compare with */
{
static char pname[] = "val_diff";
switch (type) {
case NC_BYTE:
case NC_CHAR:
return (((char *)v)[ii] != (char) val);
case NC_SHORT:
return (((short *)v)[ii] != (short) val);
case NC_LONG:
return (((nclong *)v)[ii] != (nclong) val);
case NC_FLOAT:
return (((float *)v)[ii] != (float) val);
case NC_DOUBLE:
return (((double *)v)[ii] != (double) val);
default:
error("%s: bad type, test program error", pname);
return (-1);
}
}
/*
* For each type of variable, put a four-dimensional hypercube of values
* with a single call to ncvarput. Then use ncvarget to retrieve a single
* interior value, an interior vector of values along each of the four
* dimensions, an interior plane of values along each of the six pairs of
* dimensions, and an interior cube of values along each of the four
* triples of dimensions. In each case, compare the retrieved values with
* the written values.
*/
int
test_slabs(cdfid)
int cdfid; /* handle of netcdf open and in data mode */
{
int nerrs = 0;
static char pname[] = "test_slabs";
static struct cdfdim dims[NDIMS] = {
{"w", WSIZE},
{"x", XSIZE},
{"y", YSIZE},
{"z", ZSIZE}
};
int dimids[NDIMS]; /* dimension ids */
long corner[NDIMS], edge[NDIMS], point[NDIMS];
static struct cdfvar va[NVARS] = { /* variables of all types */
{"bytevar", NC_BYTE, NDIMS, ___, 0},
{"charvar", NC_CHAR, NDIMS, ___, 0},
{"shortvar", NC_SHORT, NDIMS, ___, 0},
{"longvar", NC_LONG, NDIMS, ___, 0},
{"floatvar", NC_FLOAT, NDIMS, ___, 0},
{"doublevar", NC_DOUBLE, NDIMS, ___, 0},
};
void *v;
int varid[NVARS], iv; /* variable id */
int idim, jdim, kdim, ldim;
int iw, ix, iy, iz, ii, jj, kk;
if (ncredef(cdfid) == -1) {
error("%s: cdredef failed", pname);
ncclose(cdfid); return 1;
}
/* back in define mode OK, now add dimensions */
for (idim = 0; idim < NDIMS; idim++) {
dimids[idim] = ncdimdef(cdfid, dims[idim].name, dims[idim].size);
if (dimids[idim] == -1) {
error("%s: ncdimdef failed", pname);
ncclose(cdfid);
return 1;
}
add_dim(&test, &dims[idim]);
}
/* define a multi-dimensional variable of each type */
for (iv = 0; iv < NVARS; iv++) {
va[iv].dims = (int *) emalloc(sizeof(int) * va[iv].ndims);
for (idim = 0; idim < va[iv].ndims; idim++)
va[iv].dims[idim] = dimids[idim];
varid[iv] = ncvardef(cdfid, va[iv].name, va[iv].type, va[iv].ndims,
va[iv].dims);
if (varid[iv] == -1) {
error("%s: ncvardef failed", pname);
ncclose(cdfid); return 1;
}
add_var(&test, &va[iv]); /* keep in-memory netcdf in sync */
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free(va[iv].dims);
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}
if (ncendef (cdfid) == -1) {
error("%s: ncendef failed", pname);
ncclose(cdfid); return 1;
}
for (iv = 0; iv < NVARS; iv++) { /* test each type of variable */
v = emalloc(WSIZE*XSIZE*YSIZE*ZSIZE * nctypelen(va[iv].type));
/* fill it with values using a function of dimension indices */
ii = 0;
for (iw=0; iw < WSIZE; iw++) {
corner[0] = iw;
for (ix=0; ix < XSIZE; ix++) {
corner[1] = ix;
for (iy=0; iy < YSIZE; iy++) {
corner[2] = iy;
for (iz=0; iz < ZSIZE; iz++) {
corner[3] = iz;
/* v[ii++] = VF(corner); */
val_stuff(va[iv].type, v, ii, VF(corner));
ii++;
}
}
}
}
for (idim = 0; idim < NDIMS; idim++) {
corner[idim] = 0;
edge[idim] = dims[idim].size;
}
/* ncvarput the whole variable */
if (ncvarput(cdfid, varid[iv], corner, edge, (void *) v) == -1) {
error("%s: ncvarput failed", pname);
nerrs++;
}
add_data(&test, varid[iv], corner, edge); /* keep test in sync */
/*
* For several combinations of fixed dimensions, get a slab and compare
* values to function values.
*/
/* get an interior point */
for (idim=0; idim < NDIMS; idim++) {
corner[idim] = dims[idim].size/2;
edge[idim] = 1;
point[idim] = corner[idim];
}
if (ncvarget(cdfid, varid[iv], corner, edge, (void *) v) == -1) {
error("%s: ncvarget of one point failed", pname);
nerrs++;
}
/* if (v[0] != VF(point)) */
if (val_diff(va[iv].type, v, 0, VF(point))) {
error("%s: ncvarget got wrong value for point", pname);
nerrs++;
}
/* get an interior vector in each direction */
for (idim=0; idim < NDIMS; idim++) {
for (jdim=0; jdim < NDIMS; jdim++) {
corner[jdim] = dims[jdim].size/2;
edge[jdim] = 1;
point[jdim] = corner[jdim];
}
corner[idim] = 1; /* get vector along dimension idim */
edge[idim] = dims[idim].size - 2;
if (ncvarget(cdfid, varid[iv], corner, edge, (void *) v) == -1) {
error("%s: ncvarget of vector failed", pname);
nerrs++;
}
for (ii=(int)corner[idim]; ii <= edge[idim]; ii++) {
point[idim] = ii;
/* if (v[ii-1] != VF(point)) */
if (val_diff(va[iv].type, v, ii-1, VF(point))) {
error("%s: ncvarget got wrong value for vector", pname);
nerrs++;
}
}
}
/* get an interior plane in each direction */
for (idim=0; idim < NDIMS; idim++) {
for (jdim=idim+1; jdim < NDIMS; jdim++) {
for (kdim=0; kdim < NDIMS; kdim++) { /* reset corners and edges */
corner[kdim] = dims[kdim].size/2;
edge[kdim] = 1;
point[kdim] = corner[kdim];
}
corner[idim] = 1; /* interior plane along dimensions idim jdim */
corner[jdim] = 1;
edge[idim] = dims[idim].size - 2;
edge[jdim] = dims[jdim].size - 2;
if (ncvarget(cdfid, varid[iv], corner, edge, (void *) v) == -1) {
error("%s: ncvarget of plane failed", pname);
nerrs++;
}
for (ii=(int)corner[idim]; ii <= edge[idim]; ii++) {
for (jj=(int)corner[jdim]; jj <= edge[jdim]; jj++) {
point[idim] = ii;
point[jdim] = jj;
/* if (v[(ii-1)*edge[jdim]+jj-1] != VF(point)) { */
if (val_diff(va[iv].type, v,
(ii-1)*(int)edge[jdim]+jj-1, VF(point))) {
error("%s: ncvarget got wrong value in plane", pname);
error("idim=%d,jdim=%d,ii=%d,jj=%d",
idim,
jdim,
ii,
jj);
nerrs++;
}
}
}
}
}
/* get an interior cube in each direction */
for (idim=0; idim < NDIMS; idim++) {
for (jdim=idim+1; jdim < NDIMS; jdim++) {
for (kdim=jdim+1; kdim < NDIMS; kdim++) {
for (ldim=0; ldim < NDIMS; ldim++) { /* reset corners, edges */
corner[ldim] = dims[ldim].size/2;
edge[ldim] = 1;
point[ldim] = corner[ldim];
}
corner[idim] = 1; /* intr. cube along idim jdim kdim */
corner[jdim] = 1;
corner[kdim] = 1;
edge[idim] = dims[idim].size - 2;
edge[jdim] = dims[jdim].size - 2;
edge[kdim] = dims[kdim].size - 2;
if (ncvarget(cdfid, varid[iv], corner, edge, (void *) v) == -1) {
error("%s: ncvarget of cube failed", pname);
nerrs++;
}
for (ii=(int)corner[idim]; ii <= edge[idim]; ii++) {
for (jj=(int)corner[jdim]; jj <= edge[jdim]; jj++) {
for (kk=(int)corner[kdim]; kk <= edge[kdim]; kk++) {
point[idim] = ii;
point[jdim] = jj;
point[kdim] = kk;
/* if (v[((ii-1)*edge[jdim]+jj-1)*
edge[kdim]+kk-1] != VF(point)) { */
if (val_diff(va[iv].type,v,
((ii-1)*(int)edge[jdim]+jj-1)*
(int)edge[kdim]+kk-1,VF(point))) {
error("%s: ncvarget got wrong value in cube", pname);
error("idim=%d,jdim=%d,kdim=%d,ii=%d,jj=%d,kk=%d",
idim,
jdim,
kdim,
ii,
jj,
kk);
nerrs++;
}
}
}
}
}
}
}
free(v);
}
return nerrs;
}