netcdf-c/nc_test/test_get.m4
2010-06-03 13:24:43 +00:00

901 lines
28 KiB
Plaintext

dnl This is m4 source.
dnl Process using m4 to produce 'C' language file.
dnl
dnl If you see this line, you can ignore the next one.
/* Do not edit this file. It is produced from the corresponding .m4 source */
dnl
/*********************************************************************
* Copyright 1996, UCAR/Unidata
* See netcdf/COPYRIGHT file for copying and redistribution conditions.
* $Id: test_get.m4,v 1.16 2005/03/08 03:04:19 ed Exp $
*********************************************************************/
undefine(`index')dnl
dnl dnl dnl
dnl
dnl Macros
dnl
dnl dnl dnl
dnl
dnl Upcase(str)
dnl
define(`Upcase',dnl
`dnl
translit($1, abcdefghijklmnopqrstuvwxyz, ABCDEFGHIJKLMNOPQRSTUVWXYZ)')dnl
dnl dnl dnl
dnl
dnl NCT_ITYPE(type)
dnl
define(`NCT_ITYPE', ``NCT_'Upcase($1)')dnl
dnl
#include "tests.h"
dnl TEST_NC_GET_VAR1(TYPE)
dnl
define(`TEST_NC_GET_VAR1',dnl
`dnl
void
test_nc_get_var1_$1(void)
{
int ncid;
int i;
int j;
int err;
int nok = 0; /* count of valid comparisons */
size_t index[MAX_RANK];
double expect;
int canConvert; /* Both text or both numeric */
$1 value;
err = nc_open(testfile, NC_NOWRITE, &ncid);
IF (err)
error("nc_open: %s", nc_strerror(err));
for (i = 0; i < NVARS; i++) {
canConvert = (var_type[i] == NC_CHAR) == (NCT_ITYPE($1) == NCT_TEXT);
for (j = 0; j < var_rank[i]; j++)
index[j] = 0;
err = nc_get_var1_$1(BAD_ID, i, index, &value);
IF (err != NC_EBADID)
error("bad ncid: status = %d", err);
err = nc_get_var1_$1(ncid, BAD_VARID, index, &value);
IF (err != NC_ENOTVAR)
error("bad var id: status = %d", err);
for (j = 0; j < var_rank[i]; j++) {
index[j] = var_shape[i][j];
err = nc_get_var1_$1(ncid, i, index, &value);
if(!canConvert) {
IF(err != NC_ECHAR)
error("conversion: status = %d", err);
} else IF (err != NC_EINVALCOORDS)
error("bad index: status = %d", err);
index[j] = 0;
}
for (j = 0; j < var_nels[i]; j++) {
err = toMixedBase(j, var_rank[i], var_shape[i], index);
IF (err)
error("error in toMixedBase 1");
expect = hash4( var_type[i], var_rank[i], index, NCT_ITYPE($1) );
if (var_rank[i] == 0 && i%2 )
err = nc_get_var1_$1(ncid, i, NULL, &value);
else
err = nc_get_var1_$1(ncid, i, index, &value);
if (canConvert) {
if (inRange3(expect,var_type[i], NCT_ITYPE($1))) {
if (expect >= $1_min && expect <= $1_max) {
IF (err) {
error("%s", nc_strerror(err));
} else {
IF (!equal(value,expect,var_type[i],NCT_ITYPE($1))) {
error("expected: %G, got: %G", expect,
(double) value);
} else {
nok++;
}
}
} else {
IF (err != NC_ERANGE)
error("Range error: status = %d", err);
}
} else {
IF (err != 0 && err != NC_ERANGE)
error("OK or Range error: status = %d", err);
}
} else {
IF (err != NC_ECHAR)
error("wrong type: status = %d", err);
}
}
}
err = nc_close(ncid);
IF (err)
error("nc_close: %s", nc_strerror(err));
print_nok(nok);
}
')dnl
TEST_NC_GET_VAR1(text)
TEST_NC_GET_VAR1(uchar)
TEST_NC_GET_VAR1(schar)
TEST_NC_GET_VAR1(short)
TEST_NC_GET_VAR1(int)
TEST_NC_GET_VAR1(long)
TEST_NC_GET_VAR1(float)
TEST_NC_GET_VAR1(double)
dnl TEST_NC_GET_VAR(TYPE)
dnl
define(`TEST_NC_GET_VAR',dnl
`dnl
void
test_nc_get_var_$1(void)
{
int ncid;
int i;
int j;
int err;
int allInExtRange; /* all values within external range? */
int allInIntRange; /* all values within internal range? */
int nels;
int nok = 0; /* count of valid comparisons */
size_t index[MAX_RANK];
int canConvert; /* Both text or both numeric */
$1 value[MAX_NELS];
double expect[MAX_NELS];
err = nc_open(testfile, NC_NOWRITE, &ncid);
IF (err)
error("nc_open: %s", nc_strerror(err));
for (i = 0; i < NVARS; i++) {
canConvert = (var_type[i] == NC_CHAR) == (NCT_ITYPE($1) == NCT_TEXT);
assert(var_rank[i] <= MAX_RANK);
assert(var_nels[i] <= MAX_NELS);
err = nc_get_var_$1(BAD_ID, i, value);
IF (err != NC_EBADID)
error("bad ncid: status = %d", err);
err = nc_get_var_$1(ncid, BAD_VARID, value);
IF (err != NC_ENOTVAR)
error("bad var id: status = %d", err);
nels = 1;
for (j = 0; j < var_rank[i]; j++) {
nels *= var_shape[i][j];
}
allInExtRange = allInIntRange = 1;
for (j = 0; j < nels; j++) {
err = toMixedBase(j, var_rank[i], var_shape[i], index);
IF (err)
error("error in toMixedBase 1");
expect[j] = hash4(var_type[i], var_rank[i], index, NCT_ITYPE($1));
if (inRange3(expect[j],var_type[i], NCT_ITYPE($1))) {
allInIntRange = allInIntRange && expect[j] >= $1_min
&& expect[j] <= $1_max;
} else {
allInExtRange = 0;
}
}
err = nc_get_var_$1(ncid, i, value);
if (canConvert) {
if (allInExtRange) {
if (allInIntRange) {
IF (err)
error("%s", nc_strerror(err));
} else {
IF (err != NC_ERANGE)
error("Range error: status = %d", err);
}
} else {
IF (err != 0 && err != NC_ERANGE)
error("OK or Range error: status = %d", err);
}
for (j = 0; j < nels; j++) {
if (inRange3(expect[j],var_type[i],NCT_ITYPE($1))
&& expect[j] >= $1_min && expect[j] <= $1_max) {
IF (!equal(value[j],expect[j],var_type[i],NCT_ITYPE($1))){
error("value read not that expected");
if (verbose) {
error("\n");
error("varid: %d, ", i);
error("var_name: %s, ", var_name[i]);
error("element number: %d ", j);
error("expect: %g", expect[j]);
error("got: %g", (double) value[j]);
}
} else {
nok++;
}
}
}
} else {
IF (nels > 0 && err != NC_ECHAR)
error("wrong type: status = %d", err);
}
}
err = nc_close(ncid);
IF (err)
error("nc_close: %s", nc_strerror(err));
print_nok(nok);
}
')dnl
TEST_NC_GET_VAR(text)
TEST_NC_GET_VAR(uchar)
TEST_NC_GET_VAR(schar)
TEST_NC_GET_VAR(short)
TEST_NC_GET_VAR(int)
TEST_NC_GET_VAR(long)
TEST_NC_GET_VAR(float)
TEST_NC_GET_VAR(double)
dnl TEST_NC_GET_VARA(TYPE)
dnl
define(`TEST_NC_GET_VARA',dnl
`dnl
void
test_nc_get_vara_$1(void)
{
int ncid;
int d;
int i;
int j;
int k;
int err;
int allInExtRange; /* all values within external range? */
int allInIntRange; /* all values within internal range? */
int nels;
int nslabs;
int nok = 0; /* count of valid comparisons */
size_t start[MAX_RANK];
size_t edge[MAX_RANK];
size_t index[MAX_RANK];
size_t mid[MAX_RANK];
int canConvert; /* Both text or both numeric */
$1 value[MAX_NELS];
double expect[MAX_NELS];
err = nc_open(testfile, NC_NOWRITE, &ncid);
IF (err)
error("nc_open: %s", nc_strerror(err));
for (i = 0; i < NVARS; i++) {
canConvert = (var_type[i] == NC_CHAR) == (NCT_ITYPE($1) == NCT_TEXT);
assert(var_rank[i] <= MAX_RANK);
assert(var_nels[i] <= MAX_NELS);
for (j = 0; j < var_rank[i]; j++) {
start[j] = 0;
edge[j] = 1;
}
err = nc_get_vara_$1(BAD_ID, i, start, edge, value);
IF (err != NC_EBADID)
error("bad ncid: status = %d", err);
err = nc_get_vara_$1(ncid, BAD_VARID, start, edge, value);
IF (err != NC_ENOTVAR)
error("bad var id: status = %d", err);
for (j = 0; j < var_rank[i]; j++) {
start[j] = var_shape[i][j];
err = nc_get_vara_$1(ncid, i, start, edge, value);
IF (canConvert && err != NC_EINVALCOORDS)
error("bad index: status = %d", err);
start[j] = 0;
edge[j] = var_shape[i][j] + 1;
err = nc_get_vara_$1(ncid, i, start, edge, value);
IF (canConvert && err != NC_EEDGE)
error("bad edge: status = %d", err);
edge[j] = 1;
}
/* Check non-scalars for correct error returned even when */
/* there is nothing to get (edge[j]==0) */
if(var_rank[i] > 0) {
for (j = 0; j < var_rank[i]; j++) {
edge[j] = 0;
}
err = nc_get_vara_$1(BAD_ID, i, start, edge, value);
IF (err != NC_EBADID)
error("bad ncid: status = %d", err);
err = nc_get_vara_$1(ncid, BAD_VARID, start, edge, value);
IF (err != NC_ENOTVAR)
error("bad var id: status = %d", err);
for (j = 0; j < var_rank[i]; j++) {
if (var_dimid[i][j] > 0) { /* skip record dim */
start[j] = var_shape[i][j];
err = nc_get_vara_$1(ncid, i, start, edge, value);
IF (canConvert && err != NC_EINVALCOORDS)
error("bad start: status = %d", err);
start[j] = 0;
}
}
err = nc_get_vara_$1(ncid, i, start, edge, value);
if (canConvert) {
IF (err)
error("%s", nc_strerror(err));
} else {
IF (err != NC_ECHAR)
error("wrong type: status = %d", err);
}
for (j = 0; j < var_rank[i]; j++) {
edge[j] = 1;
}
} /* Choose a random point dividing each dim into 2 parts */
/* get 2^rank (nslabs) slabs so defined */
nslabs = 1;
for (j = 0; j < var_rank[i]; j++) {
mid[j] = roll( var_shape[i][j] );
nslabs *= 2;
}
/* bits of k determine whether to get lower or upper part of dim */
for (k = 0; k < nslabs; k++) {
nels = 1;
for (j = 0; j < var_rank[i]; j++) {
if ((k >> j) & 1) {
start[j] = 0;
edge[j] = mid[j];
}else{
start[j] = mid[j];
edge[j] = var_shape[i][j] - mid[j];
}
nels *= edge[j];
}
allInExtRange = allInIntRange = 1;
for (j = 0; j < nels; j++) {
err = toMixedBase(j, var_rank[i], edge, index);
IF (err)
error("error in toMixedBase 1");
for (d = 0; d < var_rank[i]; d++)
index[d] += start[d];
expect[j] = hash4(var_type[i], var_rank[i], index, NCT_ITYPE($1));
if (inRange3(expect[j],var_type[i], NCT_ITYPE($1))) {
allInIntRange = allInIntRange && expect[j] >= $1_min
&& expect[j] <= $1_max;
} else {
allInExtRange = 0;
}
}
if (var_rank[i] == 0 && i%2)
err = nc_get_vara_$1(ncid, i, NULL, NULL, value);
else
err = nc_get_vara_$1(ncid, i, start, edge, value);
if (canConvert) {
if (allInExtRange) {
if (allInIntRange) {
IF (err)
error("%s", nc_strerror(err));
} else {
IF (err != NC_ERANGE)
error("Range error: status = %d", err);
}
} else {
IF (err != 0 && err != NC_ERANGE)
error("OK or Range error: status = %d", err);
}
for (j = 0; j < nels; j++) {
if (inRange3(expect[j],var_type[i],NCT_ITYPE($1))
&& expect[j] >= $1_min && expect[j] <= $1_max) {
IF (!equal(value[j],expect[j],var_type[i],NCT_ITYPE($1))){
error("value read not that expected");
if (verbose) {
error("\n");
error("varid: %d, ", i);
error("var_name: %s, ", var_name[i]);
error("element number: %d ", j);
error("expect: %g", expect[j]);
error("got: %g", (double) value[j]);
}
} else {
nok++;
}
}
}
} else {
IF (nels > 0 && err != NC_ECHAR)
error("wrong type: status = %d", err);
}
}
}
err = nc_close(ncid);
IF (err)
error("nc_close: %s", nc_strerror(err));
print_nok(nok);
}
')dnl
TEST_NC_GET_VARA(text)
TEST_NC_GET_VARA(uchar)
TEST_NC_GET_VARA(schar)
TEST_NC_GET_VARA(short)
TEST_NC_GET_VARA(int)
TEST_NC_GET_VARA(long)
TEST_NC_GET_VARA(float)
TEST_NC_GET_VARA(double)
dnl TEST_NC_GET_VARS(TYPE)
dnl
define(`TEST_NC_GET_VARS',dnl
`dnl
void
test_nc_get_vars_$1(void)
{
int ncid;
int d;
int i;
int j;
int k;
int m;
int err;
int allInExtRange; /* all values within external range? */
int allInIntRange; /* all values within internal range? */
int nels;
int nslabs;
int nstarts; /* number of different starts */
int nok = 0; /* count of valid comparisons */
size_t start[MAX_RANK];
size_t edge[MAX_RANK];
size_t index[MAX_RANK];
size_t index2[MAX_RANK];
size_t mid[MAX_RANK];
size_t count[MAX_RANK];
size_t sstride[MAX_RANK];
ptrdiff_t stride[MAX_RANK];
int canConvert; /* Both text or both numeric */
$1 value[MAX_NELS];
double expect[MAX_NELS];
err = nc_open(testfile, NC_NOWRITE, &ncid);
IF (err)
error("nc_open: %s", nc_strerror(err));
for (i = 0; i < NVARS; i++) {
canConvert = (var_type[i] == NC_CHAR) == (NCT_ITYPE($1) == NCT_TEXT);
assert(var_rank[i] <= MAX_RANK);
assert(var_nels[i] <= MAX_NELS);
for (j = 0; j < var_rank[i]; j++) {
start[j] = 0;
edge[j] = 1;
stride[j] = 1;
}
err = nc_get_vars_$1(BAD_ID, i, start, edge, stride, value);
IF (err != NC_EBADID)
error("bad ncid: status = %d", err);
err = nc_get_vars_$1(ncid, BAD_VARID, start, edge, stride, value);
IF (err != NC_ENOTVAR)
error("bad var id: status = %d", err);
for (j = 0; j < var_rank[i]; j++) {
start[j] = var_shape[i][j];
err = nc_get_vars_$1(ncid, i, start, edge, stride, value);
if(!canConvert) {
IF (err != NC_ECHAR)
error("conversion: status = %d", err);
} else {
IF (err != NC_EINVALCOORDS)
error("bad index: status = %d", err);
start[j] = 0;
edge[j] = var_shape[i][j] + 1;
err = nc_get_vars_$1(ncid, i, start, edge, stride, value);
IF (err != NC_EEDGE)
error("bad edge: status = %d", err);
edge[j] = 1;
stride[j] = 0;
err = nc_get_vars_$1(ncid, i, start, edge, stride, value);
IF (err != NC_ESTRIDE)
error("bad stride: status = %d", err);
stride[j] = 1;
}
}
/* Choose a random point dividing each dim into 2 parts */
/* get 2^rank (nslabs) slabs so defined */
nslabs = 1;
for (j = 0; j < var_rank[i]; j++) {
mid[j] = roll( var_shape[i][j] );
nslabs *= 2;
}
/* bits of k determine whether to get lower or upper part of dim */
/* choose random stride from 1 to edge */
for (k = 0; k < nslabs; k++) {
nstarts = 1;
for (j = 0; j < var_rank[i]; j++) {
if ((k >> j) & 1) {
start[j] = 0;
edge[j] = mid[j];
}else{
start[j] = mid[j];
edge[j] = var_shape[i][j] - mid[j];
}
sstride[j] = stride[j] = edge[j] > 0 ? 1+roll(edge[j]) : 1;
nstarts *= stride[j];
}
for (m = 0; m < nstarts; m++) {
err = toMixedBase(m, var_rank[i], sstride, index);
IF (err)
error("error in toMixedBase");
nels = 1;
for (j = 0; j < var_rank[i]; j++) {
count[j] = 1 + (edge[j] - index[j] - 1) / stride[j];
nels *= count[j];
index[j] += start[j];
}
/* Random choice of forward or backward */
/* TODO
if ( roll(2) ) {
for (j = 0; j < var_rank[i]; j++) {
index[j] += (count[j] - 1) * stride[j];
stride[j] = -stride[j];
}
}
*/
allInExtRange = allInIntRange = 1;
for (j = 0; j < nels; j++) {
err = toMixedBase(j, var_rank[i], count, index2);
IF (err)
error("error in toMixedBase 1");
for (d = 0; d < var_rank[i]; d++)
index2[d] = index[d] + index2[d] * stride[d];
expect[j] = hash4(var_type[i], var_rank[i], index2,
NCT_ITYPE($1));
if (inRange3(expect[j],var_type[i],NCT_ITYPE($1))) {
allInIntRange = allInIntRange && expect[j] >= $1_min
&& expect[j] <= $1_max;
} else {
allInExtRange = 0;
}
}
if (var_rank[i] == 0 && i%2 )
err = nc_get_vars_$1(ncid, i, NULL, NULL, NULL, value);
else
err = nc_get_vars_$1(ncid, i, index, count, stride, value);
if (canConvert) {
if (allInExtRange) {
if (allInIntRange) {
IF (err)
error("%s", nc_strerror(err));
} else {
IF (err != NC_ERANGE)
error("Range error: status = %d", err);
}
} else {
IF (err != 0 && err != NC_ERANGE)
error("OK or Range error: status = %d", err);
}
for (j = 0; j < nels; j++) {
if (inRange3(expect[j],var_type[i],NCT_ITYPE($1))
&& expect[j] >= $1_min && expect[j] <= $1_max) {
IF (!equal(value[j],expect[j],var_type[i],
NCT_ITYPE($1))){
error("value read not that expected");
if (verbose) {
error("\n");
error("varid: %d, ", i);
error("var_name: %s, ", var_name[i]);
error("element number: %d ", j);
error("expect: %g, ", expect[j]);
error("got: %g", (double) value[j]);
}
} else {
nok++;
}
}
}
} else {
IF (nels > 0 && err != NC_ECHAR)
error("wrong type: status = %d", err);
}
}
}
}
err = nc_close(ncid);
IF (err)
error("nc_close: %s", nc_strerror(err));
print_nok(nok);
}
')dnl
TEST_NC_GET_VARS(text)
TEST_NC_GET_VARS(uchar)
TEST_NC_GET_VARS(schar)
TEST_NC_GET_VARS(short)
TEST_NC_GET_VARS(int)
TEST_NC_GET_VARS(long)
TEST_NC_GET_VARS(float)
TEST_NC_GET_VARS(double)
dnl TEST_NC_GET_VARM(TYPE)
dnl
define(`TEST_NC_GET_VARM',dnl
`dnl
void
test_nc_get_varm_$1(void)
{
int ncid;
int d;
int i;
int j;
int k;
int m;
int err;
int allInExtRange; /* all values within external range? */
int allInIntRange; /* all values within internal range? */
int nels;
int nslabs;
int nstarts; /* number of different starts */
int nok = 0; /* count of valid comparisons */
size_t start[MAX_RANK];
size_t edge[MAX_RANK];
size_t index[MAX_RANK];
size_t index2[MAX_RANK];
size_t mid[MAX_RANK];
size_t count[MAX_RANK];
size_t sstride[MAX_RANK];
ptrdiff_t stride[MAX_RANK];
ptrdiff_t imap[MAX_RANK];
int canConvert; /* Both text or both numeric */
$1 value[MAX_NELS];
double expect[MAX_NELS];
err = nc_open(testfile, NC_NOWRITE, &ncid);
IF (err)
error("nc_open: %s", nc_strerror(err));
for (i = 0; i < NVARS; i++) {
canConvert = (var_type[i] == NC_CHAR) == (NCT_ITYPE($1) == NCT_TEXT);
assert(var_rank[i] <= MAX_RANK);
assert(var_nels[i] <= MAX_NELS);
for (j = 0; j < var_rank[i]; j++) {
start[j] = 0;
edge[j] = 1;
stride[j] = 1;
imap[j] = 1;
}
err = nc_get_varm_$1(BAD_ID, i, start, edge, stride, imap, value);
IF (err != NC_EBADID)
error("bad ncid: status = %d", err);
err = nc_get_varm_$1(ncid, BAD_VARID, start, edge, stride, imap, value);
IF (err != NC_ENOTVAR)
error("bad var id: status = %d", err);
for (j = 0; j < var_rank[i]; j++) {
start[j] = var_shape[i][j];
err = nc_get_varm_$1(ncid, i, start, edge, stride, imap, value);
if(!canConvert) {
IF (err != NC_ECHAR)
error("conversion: status = %d", err);
} else {
IF (err != NC_EINVALCOORDS)
error("bad index: status = %d", err);
start[j] = 0;
edge[j] = var_shape[i][j] + 1;
err = nc_get_varm_$1(ncid, i, start, edge, stride, imap, value);
IF (err != NC_EEDGE)
error("bad edge: status = %d", err);
edge[j] = 1;
stride[j] = 0;
err = nc_get_varm_$1(ncid, i, start, edge, stride, imap, value);
IF (err != NC_ESTRIDE)
error("bad stride: status = %d", err);
stride[j] = 1;
}
}
/* Choose a random point dividing each dim into 2 parts */
/* get 2^rank (nslabs) slabs so defined */
nslabs = 1;
for (j = 0; j < var_rank[i]; j++) {
mid[j] = roll( var_shape[i][j] );
nslabs *= 2;
}
/* bits of k determine whether to get lower or upper part of dim */
/* choose random stride from 1 to edge */
for (k = 0; k < nslabs; k++) {
nstarts = 1;
for (j = 0; j < var_rank[i]; j++) {
if ((k >> j) & 1) {
start[j] = 0;
edge[j] = mid[j];
}else{
start[j] = mid[j];
edge[j] = var_shape[i][j] - mid[j];
}
sstride[j] = stride[j] = edge[j] > 0 ? 1+roll(edge[j]) : 1;
nstarts *= stride[j];
}
for (m = 0; m < nstarts; m++) {
err = toMixedBase(m, var_rank[i], sstride, index);
IF (err)
error("error in toMixedBase");
nels = 1;
for (j = 0; j < var_rank[i]; j++) {
count[j] = 1 + (edge[j] - index[j] - 1) / stride[j];
nels *= count[j];
index[j] += start[j];
}
/* Random choice of forward or backward */
/* TODO
if ( roll(2) ) {
for (j = 0; j < var_rank[i]; j++) {
index[j] += (count[j] - 1) * stride[j];
stride[j] = -stride[j];
}
}
*/
if (var_rank[i] > 0) {
j = var_rank[i] - 1;
imap[j] = 1;
for (; j > 0; j--)
imap[j-1] = imap[j] * count[j];
}
allInExtRange = allInIntRange = 1;
for (j = 0; j < nels; j++) {
err = toMixedBase(j, var_rank[i], count, index2);
IF (err)
error("error in toMixedBase 1");
for (d = 0; d < var_rank[i]; d++)
index2[d] = index[d] + index2[d] * stride[d];
expect[j] = hash4(var_type[i], var_rank[i], index2,
NCT_ITYPE($1));
if (inRange3(expect[j],var_type[i],NCT_ITYPE($1))) {
allInIntRange = allInIntRange && expect[j] >= $1_min
&& expect[j] <= $1_max;
} else {
allInExtRange = 0;
}
}
if (var_rank[i] == 0 && i%2 )
err = nc_get_varm_$1(ncid,i,NULL,NULL,NULL,NULL,value);
else
err = nc_get_varm_$1(ncid,i,index,count,stride,imap,value);
if (canConvert) {
if (allInExtRange) {
if (allInIntRange) {
IF (err)
error("%s", nc_strerror(err));
} else {
IF (err != NC_ERANGE)
error("Range error: status = %d", err);
}
} else {
IF (err != 0 && err != NC_ERANGE)
error("OK or Range error: status = %d", err);
}
for (j = 0; j < nels; j++) {
if (inRange3(expect[j],var_type[i],NCT_ITYPE($1))
&& expect[j] >= $1_min
&& expect[j] <= $1_max) {
IF (!equal(value[j],expect[j],var_type[i],
NCT_ITYPE($1))){
error("value read not that expected");
if (verbose) {
error("\n");
error("varid: %d, ", i);
error("var_name: %s, ", var_name[i]);
error("element number: %d ", j);
error("expect: %g, ", expect[j]);
error("got: %g", (double) value[j]);
}
} else {
nok++;
}
}
}
} else {
IF (nels > 0 && err != NC_ECHAR)
error("wrong type: status = %d", err);
}
}
}
}
err = nc_close(ncid);
IF (err)
error("nc_close: %s", nc_strerror(err));
print_nok(nok);
}
')dnl
TEST_NC_GET_VARM(text)
TEST_NC_GET_VARM(uchar)
TEST_NC_GET_VARM(schar)
TEST_NC_GET_VARM(short)
TEST_NC_GET_VARM(int)
TEST_NC_GET_VARM(long)
TEST_NC_GET_VARM(float)
TEST_NC_GET_VARM(double)
dnl TEST_NC_GET_ATT(TYPE)
dnl
define(`TEST_NC_GET_ATT',dnl
`dnl
void
test_nc_get_att_$1(void)
{
int ncid;
int i;
int j;
size_t k;
int err;
int allInExtRange;
int allInIntRange;
int canConvert; /* Both text or both numeric */
$1 value[MAX_NELS];
double expect[MAX_NELS];
int nok = 0; /* count of valid comparisons */
err = nc_open(testfile, NC_NOWRITE, &ncid);
IF (err)
error("nc_open: %s", nc_strerror(err));
for (i = -1; i < NVARS; i++) {
for (j = 0; j < NATTS(i); j++) {
canConvert = (ATT_TYPE(i,j) == NC_CHAR) == (NCT_ITYPE($1) == NCT_TEXT);
err = nc_get_att_$1(BAD_ID, i, ATT_NAME(i,j), value);
IF (err != NC_EBADID)
error("bad ncid: status = %d", err);
err = nc_get_att_$1(ncid, BAD_VARID, ATT_NAME(i,j), value);
IF (err != NC_ENOTVAR)
error("bad var id: status = %d", err);
err = nc_get_att_$1(ncid, i, "noSuch", value);
IF (err != NC_ENOTATT)
error("Bad attribute name: status = %d", err);
allInExtRange = allInIntRange = 1;
for (k = 0; k < ATT_LEN(i,j); k++) {
expect[k] = hash4(ATT_TYPE(i,j), -1, &k, NCT_ITYPE($1));
if (inRange3(expect[k],ATT_TYPE(i,j),NCT_ITYPE($1))) {
allInIntRange = allInIntRange && expect[k] >= $1_min
&& expect[k] <= $1_max;
} else {
allInExtRange = 0;
}
}
err = nc_get_att_$1(ncid, i, ATT_NAME(i,j), value);
if (canConvert || ATT_LEN(i,j) == 0) {
if (allInExtRange) {
if (allInIntRange) {
IF (err)
error("%s", nc_strerror(err));
} else {
IF (err != NC_ERANGE)
error("Range error: status = %d", err);
}
} else {
IF (err != 0 && err != NC_ERANGE)
error("OK or Range error: status = %d", err);
}
for (k = 0; k < ATT_LEN(i,j); k++) {
if (inRange3(expect[k],ATT_TYPE(i,j),NCT_ITYPE($1))
&& expect[k] >= $1_min && expect[k] <= $1_max) {
IF (!equal(value[k],expect[k],ATT_TYPE(i,j),
NCT_ITYPE($1))){
error("value read not that expected");
if (verbose) {
error("\n");
error("varid: %d, ", i);
error("att_name: %s, ", ATT_NAME(i,j));
error("element number: %d ", k);
error("expect: %g", expect[k]);
error("got: %g", (double) value[k]);
}
} else {
nok++;
}
}
}
} else {
IF (err != NC_ECHAR)
error("wrong type: status = %d", err);
}
}
}
err = nc_close(ncid);
IF (err)
error("nc_close: %s", nc_strerror(err));
print_nok(nok);
}
')dnl
TEST_NC_GET_ATT(text)
TEST_NC_GET_ATT(uchar)
TEST_NC_GET_ATT(schar)
TEST_NC_GET_ATT(short)
TEST_NC_GET_ATT(int)
TEST_NC_GET_ATT(long)
TEST_NC_GET_ATT(float)
TEST_NC_GET_ATT(double)