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netcdf-c/nc_test/test_get.c
Ward Fisher d0a665f83f Including .c files generated from .m4 to accomodate 
Windows users (who generally will lack m4).  This policy
can be re-evaluated if need be.
2012-10-02 16:45:27 +00:00

6252 lines
204 KiB
C
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/* Do not edit this file. It is produced from the corresponding .m4 source */
/*********************************************************************
* 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 $
*********************************************************************/
#include "tests.h"
void
test_nc_get_var1_text(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 */
text 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_TEXT == NCT_TEXT);
for (j = 0; j < var_rank[i]; j++)
index[j] = 0;
err = nc_get_var1_text(BAD_ID, i, index, &value);
IF (err != NC_EBADID)
error("bad ncid: status = %d", err);
err = nc_get_var1_text(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_text(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_TEXT );
if (var_rank[i] == 0 && i%2 )
err = nc_get_var1_text(ncid, i, NULL, &value);
else
err = nc_get_var1_text(ncid, i, index, &value);
if (canConvert) {
if (inRange3(expect,var_type[i], NCT_TEXT)) {
if (expect >= text_min && expect <= text_max) {
IF (err) {
error("%s", nc_strerror(err));
} else {
IF (!equal(value,expect,var_type[i],NCT_TEXT)) {
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);
}
void
test_nc_get_var1_uchar(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 */
uchar 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_UCHAR == NCT_TEXT);
for (j = 0; j < var_rank[i]; j++)
index[j] = 0;
err = nc_get_var1_uchar(BAD_ID, i, index, &value);
IF (err != NC_EBADID)
error("bad ncid: status = %d", err);
err = nc_get_var1_uchar(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_uchar(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_UCHAR );
if (var_rank[i] == 0 && i%2 )
err = nc_get_var1_uchar(ncid, i, NULL, &value);
else
err = nc_get_var1_uchar(ncid, i, index, &value);
if (canConvert) {
if (inRange3(expect,var_type[i], NCT_UCHAR)) {
if (expect >= uchar_min && expect <= uchar_max) {
IF (err) {
error("%s", nc_strerror(err));
} else {
IF (!equal(value,expect,var_type[i],NCT_UCHAR)) {
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);
}
void
test_nc_get_var1_schar(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 */
schar 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_SCHAR == NCT_TEXT);
for (j = 0; j < var_rank[i]; j++)
index[j] = 0;
err = nc_get_var1_schar(BAD_ID, i, index, &value);
IF (err != NC_EBADID)
error("bad ncid: status = %d", err);
err = nc_get_var1_schar(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_schar(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_SCHAR );
if (var_rank[i] == 0 && i%2 )
err = nc_get_var1_schar(ncid, i, NULL, &value);
else
err = nc_get_var1_schar(ncid, i, index, &value);
if (canConvert) {
if (inRange3(expect,var_type[i], NCT_SCHAR)) {
if (expect >= schar_min && expect <= schar_max) {
IF (err) {
error("%s", nc_strerror(err));
} else {
IF (!equal(value,expect,var_type[i],NCT_SCHAR)) {
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);
}
void
test_nc_get_var1_short(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 */
short 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_SHORT == NCT_TEXT);
for (j = 0; j < var_rank[i]; j++)
index[j] = 0;
err = nc_get_var1_short(BAD_ID, i, index, &value);
IF (err != NC_EBADID)
error("bad ncid: status = %d", err);
err = nc_get_var1_short(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_short(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_SHORT );
if (var_rank[i] == 0 && i%2 )
err = nc_get_var1_short(ncid, i, NULL, &value);
else
err = nc_get_var1_short(ncid, i, index, &value);
if (canConvert) {
if (inRange3(expect,var_type[i], NCT_SHORT)) {
if (expect >= short_min && expect <= short_max) {
IF (err) {
error("%s", nc_strerror(err));
} else {
IF (!equal(value,expect,var_type[i],NCT_SHORT)) {
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);
}
void
test_nc_get_var1_int(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 */
int 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_INT == NCT_TEXT);
for (j = 0; j < var_rank[i]; j++)
index[j] = 0;
err = nc_get_var1_int(BAD_ID, i, index, &value);
IF (err != NC_EBADID)
error("bad ncid: status = %d", err);
err = nc_get_var1_int(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_int(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_INT );
if (var_rank[i] == 0 && i%2 )
err = nc_get_var1_int(ncid, i, NULL, &value);
else
err = nc_get_var1_int(ncid, i, index, &value);
if (canConvert) {
if (inRange3(expect,var_type[i], NCT_INT)) {
if (expect >= int_min && expect <= int_max) {
IF (err) {
error("%s", nc_strerror(err));
} else {
IF (!equal(value,expect,var_type[i],NCT_INT)) {
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);
}
void
test_nc_get_var1_long(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 */
long 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_LONG == NCT_TEXT);
for (j = 0; j < var_rank[i]; j++)
index[j] = 0;
err = nc_get_var1_long(BAD_ID, i, index, &value);
IF (err != NC_EBADID)
error("bad ncid: status = %d", err);
err = nc_get_var1_long(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_long(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_LONG );
if (var_rank[i] == 0 && i%2 )
err = nc_get_var1_long(ncid, i, NULL, &value);
else
err = nc_get_var1_long(ncid, i, index, &value);
if (canConvert) {
if (inRange3(expect,var_type[i], NCT_LONG)) {
if (expect >= long_min && expect <= long_max) {
IF (err) {
error("%s", nc_strerror(err));
} else {
IF (!equal(value,expect,var_type[i],NCT_LONG)) {
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);
}
void
test_nc_get_var1_float(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 */
float 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_FLOAT == NCT_TEXT);
for (j = 0; j < var_rank[i]; j++)
index[j] = 0;
err = nc_get_var1_float(BAD_ID, i, index, &value);
IF (err != NC_EBADID)
error("bad ncid: status = %d", err);
err = nc_get_var1_float(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_float(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_FLOAT );
if (var_rank[i] == 0 && i%2 )
err = nc_get_var1_float(ncid, i, NULL, &value);
else
err = nc_get_var1_float(ncid, i, index, &value);
if (canConvert) {
if (inRange3(expect,var_type[i], NCT_FLOAT)) {
if (expect >= float_min && expect <= float_max) {
IF (err) {
error("%s", nc_strerror(err));
} else {
IF (!equal(value,expect,var_type[i],NCT_FLOAT)) {
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);
}
void
test_nc_get_var1_double(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 */
double 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_DOUBLE == NCT_TEXT);
for (j = 0; j < var_rank[i]; j++)
index[j] = 0;
err = nc_get_var1_double(BAD_ID, i, index, &value);
IF (err != NC_EBADID)
error("bad ncid: status = %d", err);
err = nc_get_var1_double(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_double(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_DOUBLE );
if (var_rank[i] == 0 && i%2 )
err = nc_get_var1_double(ncid, i, NULL, &value);
else
err = nc_get_var1_double(ncid, i, index, &value);
if (canConvert) {
if (inRange3(expect,var_type[i], NCT_DOUBLE)) {
if (expect >= double_min && expect <= double_max) {
IF (err) {
error("%s", nc_strerror(err));
} else {
IF (!equal(value,expect,var_type[i],NCT_DOUBLE)) {
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);
}
void
test_nc_get_var_text(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 */
text 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_TEXT == NCT_TEXT);
assert(var_rank[i] <= MAX_RANK);
assert(var_nels[i] <= MAX_NELS);
err = nc_get_var_text(BAD_ID, i, value);
IF (err != NC_EBADID)
error("bad ncid: status = %d", err);
err = nc_get_var_text(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_TEXT);
if (inRange3(expect[j],var_type[i], NCT_TEXT)) {
allInIntRange = allInIntRange && expect[j] >= text_min
&& expect[j] <= text_max;
} else {
allInExtRange = 0;
}
}
err = nc_get_var_text(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_TEXT)
&& expect[j] >= text_min && expect[j] <= text_max) {
IF (!equal(value[j],expect[j],var_type[i],NCT_TEXT)){
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);
}
void
test_nc_get_var_uchar(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 */
uchar 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_UCHAR == NCT_TEXT);
assert(var_rank[i] <= MAX_RANK);
assert(var_nels[i] <= MAX_NELS);
err = nc_get_var_uchar(BAD_ID, i, value);
IF (err != NC_EBADID)
error("bad ncid: status = %d", err);
err = nc_get_var_uchar(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_UCHAR);
if (inRange3(expect[j],var_type[i], NCT_UCHAR)) {
allInIntRange = allInIntRange && expect[j] >= uchar_min
&& expect[j] <= uchar_max;
} else {
allInExtRange = 0;
}
}
err = nc_get_var_uchar(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_UCHAR)
&& expect[j] >= uchar_min && expect[j] <= uchar_max) {
IF (!equal(value[j],expect[j],var_type[i],NCT_UCHAR)){
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);
}
void
test_nc_get_var_schar(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 */
schar 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_SCHAR == NCT_TEXT);
assert(var_rank[i] <= MAX_RANK);
assert(var_nels[i] <= MAX_NELS);
err = nc_get_var_schar(BAD_ID, i, value);
IF (err != NC_EBADID)
error("bad ncid: status = %d", err);
err = nc_get_var_schar(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_SCHAR);
if (inRange3(expect[j],var_type[i], NCT_SCHAR)) {
allInIntRange = allInIntRange && expect[j] >= schar_min
&& expect[j] <= schar_max;
} else {
allInExtRange = 0;
}
}
err = nc_get_var_schar(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_SCHAR)
&& expect[j] >= schar_min && expect[j] <= schar_max) {
IF (!equal(value[j],expect[j],var_type[i],NCT_SCHAR)){
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);
}
void
test_nc_get_var_short(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 */
short 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_SHORT == NCT_TEXT);
assert(var_rank[i] <= MAX_RANK);
assert(var_nels[i] <= MAX_NELS);
err = nc_get_var_short(BAD_ID, i, value);
IF (err != NC_EBADID)
error("bad ncid: status = %d", err);
err = nc_get_var_short(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_SHORT);
if (inRange3(expect[j],var_type[i], NCT_SHORT)) {
allInIntRange = allInIntRange && expect[j] >= short_min
&& expect[j] <= short_max;
} else {
allInExtRange = 0;
}
}
err = nc_get_var_short(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_SHORT)
&& expect[j] >= short_min && expect[j] <= short_max) {
IF (!equal(value[j],expect[j],var_type[i],NCT_SHORT)){
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);
}
void
test_nc_get_var_int(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 */
int 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_INT == NCT_TEXT);
assert(var_rank[i] <= MAX_RANK);
assert(var_nels[i] <= MAX_NELS);
err = nc_get_var_int(BAD_ID, i, value);
IF (err != NC_EBADID)
error("bad ncid: status = %d", err);
err = nc_get_var_int(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_INT);
if (inRange3(expect[j],var_type[i], NCT_INT)) {
allInIntRange = allInIntRange && expect[j] >= int_min
&& expect[j] <= int_max;
} else {
allInExtRange = 0;
}
}
err = nc_get_var_int(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_INT)
&& expect[j] >= int_min && expect[j] <= int_max) {
IF (!equal(value[j],expect[j],var_type[i],NCT_INT)){
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);
}
void
test_nc_get_var_long(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 */
long 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_LONG == NCT_TEXT);
assert(var_rank[i] <= MAX_RANK);
assert(var_nels[i] <= MAX_NELS);
err = nc_get_var_long(BAD_ID, i, value);
IF (err != NC_EBADID)
error("bad ncid: status = %d", err);
err = nc_get_var_long(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_LONG);
if (inRange3(expect[j],var_type[i], NCT_LONG)) {
allInIntRange = allInIntRange && expect[j] >= long_min
&& expect[j] <= long_max;
} else {
allInExtRange = 0;
}
}
err = nc_get_var_long(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_LONG)
&& expect[j] >= long_min && expect[j] <= long_max) {
IF (!equal(value[j],expect[j],var_type[i],NCT_LONG)){
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);
}
void
test_nc_get_var_float(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 */
float 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_FLOAT == NCT_TEXT);
assert(var_rank[i] <= MAX_RANK);
assert(var_nels[i] <= MAX_NELS);
err = nc_get_var_float(BAD_ID, i, value);
IF (err != NC_EBADID)
error("bad ncid: status = %d", err);
err = nc_get_var_float(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_FLOAT);
if (inRange3(expect[j],var_type[i], NCT_FLOAT)) {
allInIntRange = allInIntRange && expect[j] >= float_min
&& expect[j] <= float_max;
} else {
allInExtRange = 0;
}
}
err = nc_get_var_float(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_FLOAT)
&& expect[j] >= float_min && expect[j] <= float_max) {
IF (!equal(value[j],expect[j],var_type[i],NCT_FLOAT)){
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);
}
void
test_nc_get_var_double(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 */
double 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_DOUBLE == NCT_TEXT);
assert(var_rank[i] <= MAX_RANK);
assert(var_nels[i] <= MAX_NELS);
err = nc_get_var_double(BAD_ID, i, value);
IF (err != NC_EBADID)
error("bad ncid: status = %d", err);
err = nc_get_var_double(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_DOUBLE);
if (inRange3(expect[j],var_type[i], NCT_DOUBLE)) {
allInIntRange = allInIntRange && expect[j] >= double_min
&& expect[j] <= double_max;
} else {
allInExtRange = 0;
}
}
err = nc_get_var_double(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_DOUBLE)
&& expect[j] >= double_min && expect[j] <= double_max) {
IF (!equal(value[j],expect[j],var_type[i],NCT_DOUBLE)){
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);
}
void
test_nc_get_vara_text(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 */
text 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_TEXT == 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_text(BAD_ID, i, start, edge, value);
IF (err != NC_EBADID)
error("bad ncid: status = %d", err);
err = nc_get_vara_text(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_text(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_text(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_text(BAD_ID, i, start, edge, value);
IF (err != NC_EBADID)
error("bad ncid: status = %d", err);
err = nc_get_vara_text(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_text(ncid, i, start, edge, value);
IF (canConvert && err != NC_EINVALCOORDS)
error("bad start: status = %d", err);
start[j] = 0;
}
}
err = nc_get_vara_text(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_TEXT);
if (inRange3(expect[j],var_type[i], NCT_TEXT)) {
allInIntRange = allInIntRange && expect[j] >= text_min
&& expect[j] <= text_max;
} else {
allInExtRange = 0;
}
}
if (var_rank[i] == 0 && i%2)
err = nc_get_vara_text(ncid, i, NULL, NULL, value);
else
err = nc_get_vara_text(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_TEXT)
&& expect[j] >= text_min && expect[j] <= text_max) {
IF (!equal(value[j],expect[j],var_type[i],NCT_TEXT)){
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);
}
void
test_nc_get_vara_uchar(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 */
uchar 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_UCHAR == 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_uchar(BAD_ID, i, start, edge, value);
IF (err != NC_EBADID)
error("bad ncid: status = %d", err);
err = nc_get_vara_uchar(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_uchar(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_uchar(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_uchar(BAD_ID, i, start, edge, value);
IF (err != NC_EBADID)
error("bad ncid: status = %d", err);
err = nc_get_vara_uchar(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_uchar(ncid, i, start, edge, value);
IF (canConvert && err != NC_EINVALCOORDS)
error("bad start: status = %d", err);
start[j] = 0;
}
}
err = nc_get_vara_uchar(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_UCHAR);
if (inRange3(expect[j],var_type[i], NCT_UCHAR)) {
allInIntRange = allInIntRange && expect[j] >= uchar_min
&& expect[j] <= uchar_max;
} else {
allInExtRange = 0;
}
}
if (var_rank[i] == 0 && i%2)
err = nc_get_vara_uchar(ncid, i, NULL, NULL, value);
else
err = nc_get_vara_uchar(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_UCHAR)
&& expect[j] >= uchar_min && expect[j] <= uchar_max) {
IF (!equal(value[j],expect[j],var_type[i],NCT_UCHAR)){
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);
}
void
test_nc_get_vara_schar(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 */
schar 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_SCHAR == 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_schar(BAD_ID, i, start, edge, value);
IF (err != NC_EBADID)
error("bad ncid: status = %d", err);
err = nc_get_vara_schar(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_schar(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_schar(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_schar(BAD_ID, i, start, edge, value);
IF (err != NC_EBADID)
error("bad ncid: status = %d", err);
err = nc_get_vara_schar(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_schar(ncid, i, start, edge, value);
IF (canConvert && err != NC_EINVALCOORDS)
error("bad start: status = %d", err);
start[j] = 0;
}
}
err = nc_get_vara_schar(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_SCHAR);
if (inRange3(expect[j],var_type[i], NCT_SCHAR)) {
allInIntRange = allInIntRange && expect[j] >= schar_min
&& expect[j] <= schar_max;
} else {
allInExtRange = 0;
}
}
if (var_rank[i] == 0 && i%2)
err = nc_get_vara_schar(ncid, i, NULL, NULL, value);
else
err = nc_get_vara_schar(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_SCHAR)
&& expect[j] >= schar_min && expect[j] <= schar_max) {
IF (!equal(value[j],expect[j],var_type[i],NCT_SCHAR)){
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);
}
void
test_nc_get_vara_short(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 */
short 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_SHORT == 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_short(BAD_ID, i, start, edge, value);
IF (err != NC_EBADID)
error("bad ncid: status = %d", err);
err = nc_get_vara_short(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_short(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_short(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_short(BAD_ID, i, start, edge, value);
IF (err != NC_EBADID)
error("bad ncid: status = %d", err);
err = nc_get_vara_short(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_short(ncid, i, start, edge, value);
IF (canConvert && err != NC_EINVALCOORDS)
error("bad start: status = %d", err);
start[j] = 0;
}
}
err = nc_get_vara_short(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_SHORT);
if (inRange3(expect[j],var_type[i], NCT_SHORT)) {
allInIntRange = allInIntRange && expect[j] >= short_min
&& expect[j] <= short_max;
} else {
allInExtRange = 0;
}
}
if (var_rank[i] == 0 && i%2)
err = nc_get_vara_short(ncid, i, NULL, NULL, value);
else
err = nc_get_vara_short(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_SHORT)
&& expect[j] >= short_min && expect[j] <= short_max) {
IF (!equal(value[j],expect[j],var_type[i],NCT_SHORT)){
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);
}
void
test_nc_get_vara_int(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 */
int 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_INT == 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_int(BAD_ID, i, start, edge, value);
IF (err != NC_EBADID)
error("bad ncid: status = %d", err);
err = nc_get_vara_int(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_int(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_int(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_int(BAD_ID, i, start, edge, value);
IF (err != NC_EBADID)
error("bad ncid: status = %d", err);
err = nc_get_vara_int(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_int(ncid, i, start, edge, value);
IF (canConvert && err != NC_EINVALCOORDS)
error("bad start: status = %d", err);
start[j] = 0;
}
}
err = nc_get_vara_int(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_INT);
if (inRange3(expect[j],var_type[i], NCT_INT)) {
allInIntRange = allInIntRange && expect[j] >= int_min
&& expect[j] <= int_max;
} else {
allInExtRange = 0;
}
}
if (var_rank[i] == 0 && i%2)
err = nc_get_vara_int(ncid, i, NULL, NULL, value);
else
err = nc_get_vara_int(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_INT)
&& expect[j] >= int_min && expect[j] <= int_max) {
IF (!equal(value[j],expect[j],var_type[i],NCT_INT)){
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);
}
void
test_nc_get_vara_long(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 */
long 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_LONG == 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_long(BAD_ID, i, start, edge, value);
IF (err != NC_EBADID)
error("bad ncid: status = %d", err);
err = nc_get_vara_long(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_long(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_long(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_long(BAD_ID, i, start, edge, value);
IF (err != NC_EBADID)
error("bad ncid: status = %d", err);
err = nc_get_vara_long(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_long(ncid, i, start, edge, value);
IF (canConvert && err != NC_EINVALCOORDS)
error("bad start: status = %d", err);
start[j] = 0;
}
}
err = nc_get_vara_long(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_LONG);
if (inRange3(expect[j],var_type[i], NCT_LONG)) {
allInIntRange = allInIntRange && expect[j] >= long_min
&& expect[j] <= long_max;
} else {
allInExtRange = 0;
}
}
if (var_rank[i] == 0 && i%2)
err = nc_get_vara_long(ncid, i, NULL, NULL, value);
else
err = nc_get_vara_long(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_LONG)
&& expect[j] >= long_min && expect[j] <= long_max) {
IF (!equal(value[j],expect[j],var_type[i],NCT_LONG)){
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);
}
void
test_nc_get_vara_float(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 */
float 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_FLOAT == 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_float(BAD_ID, i, start, edge, value);
IF (err != NC_EBADID)
error("bad ncid: status = %d", err);
err = nc_get_vara_float(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_float(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_float(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_float(BAD_ID, i, start, edge, value);
IF (err != NC_EBADID)
error("bad ncid: status = %d", err);
err = nc_get_vara_float(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_float(ncid, i, start, edge, value);
IF (canConvert && err != NC_EINVALCOORDS)
error("bad start: status = %d", err);
start[j] = 0;
}
}
err = nc_get_vara_float(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_FLOAT);
if (inRange3(expect[j],var_type[i], NCT_FLOAT)) {
allInIntRange = allInIntRange && expect[j] >= float_min
&& expect[j] <= float_max;
} else {
allInExtRange = 0;
}
}
if (var_rank[i] == 0 && i%2)
err = nc_get_vara_float(ncid, i, NULL, NULL, value);
else
err = nc_get_vara_float(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_FLOAT)
&& expect[j] >= float_min && expect[j] <= float_max) {
IF (!equal(value[j],expect[j],var_type[i],NCT_FLOAT)){
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);
}
void
test_nc_get_vara_double(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 */
double 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_DOUBLE == 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_double(BAD_ID, i, start, edge, value);
IF (err != NC_EBADID)
error("bad ncid: status = %d", err);
err = nc_get_vara_double(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_double(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_double(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_double(BAD_ID, i, start, edge, value);
IF (err != NC_EBADID)
error("bad ncid: status = %d", err);
err = nc_get_vara_double(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_double(ncid, i, start, edge, value);
IF (canConvert && err != NC_EINVALCOORDS)
error("bad start: status = %d", err);
start[j] = 0;
}
}
err = nc_get_vara_double(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_DOUBLE);
if (inRange3(expect[j],var_type[i], NCT_DOUBLE)) {
allInIntRange = allInIntRange && expect[j] >= double_min
&& expect[j] <= double_max;
} else {
allInExtRange = 0;
}
}
if (var_rank[i] == 0 && i%2)
err = nc_get_vara_double(ncid, i, NULL, NULL, value);
else
err = nc_get_vara_double(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_DOUBLE)
&& expect[j] >= double_min && expect[j] <= double_max) {
IF (!equal(value[j],expect[j],var_type[i],NCT_DOUBLE)){
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);
}
void
test_nc_get_vars_text(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 */
text 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_TEXT == 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_text(BAD_ID, i, start, edge, stride, value);
IF (err != NC_EBADID)
error("bad ncid: status = %d", err);
err = nc_get_vars_text(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_text(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_text(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_text(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_TEXT);
if (inRange3(expect[j],var_type[i],NCT_TEXT)) {
allInIntRange = allInIntRange && expect[j] >= text_min
&& expect[j] <= text_max;
} else {
allInExtRange = 0;
}
}
if (var_rank[i] == 0 && i%2 )
err = nc_get_vars_text(ncid, i, NULL, NULL, NULL, value);
else
err = nc_get_vars_text(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_TEXT)
&& expect[j] >= text_min && expect[j] <= text_max) {
IF (!equal(value[j],expect[j],var_type[i],
NCT_TEXT)){
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);
}
void
test_nc_get_vars_uchar(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 */
uchar 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_UCHAR == 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_uchar(BAD_ID, i, start, edge, stride, value);
IF (err != NC_EBADID)
error("bad ncid: status = %d", err);
err = nc_get_vars_uchar(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_uchar(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_uchar(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_uchar(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_UCHAR);
if (inRange3(expect[j],var_type[i],NCT_UCHAR)) {
allInIntRange = allInIntRange && expect[j] >= uchar_min
&& expect[j] <= uchar_max;
} else {
allInExtRange = 0;
}
}
if (var_rank[i] == 0 && i%2 )
err = nc_get_vars_uchar(ncid, i, NULL, NULL, NULL, value);
else
err = nc_get_vars_uchar(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_UCHAR)
&& expect[j] >= uchar_min && expect[j] <= uchar_max) {
IF (!equal(value[j],expect[j],var_type[i],
NCT_UCHAR)){
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);
}
void
test_nc_get_vars_schar(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 */
schar 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_SCHAR == 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_schar(BAD_ID, i, start, edge, stride, value);
IF (err != NC_EBADID)
error("bad ncid: status = %d", err);
err = nc_get_vars_schar(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_schar(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_schar(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_schar(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_SCHAR);
if (inRange3(expect[j],var_type[i],NCT_SCHAR)) {
allInIntRange = allInIntRange && expect[j] >= schar_min
&& expect[j] <= schar_max;
} else {
allInExtRange = 0;
}
}
if (var_rank[i] == 0 && i%2 )
err = nc_get_vars_schar(ncid, i, NULL, NULL, NULL, value);
else
err = nc_get_vars_schar(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_SCHAR)
&& expect[j] >= schar_min && expect[j] <= schar_max) {
IF (!equal(value[j],expect[j],var_type[i],
NCT_SCHAR)){
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);
}
void
test_nc_get_vars_short(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 */
short 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_SHORT == 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_short(BAD_ID, i, start, edge, stride, value);
IF (err != NC_EBADID)
error("bad ncid: status = %d", err);
err = nc_get_vars_short(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_short(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_short(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_short(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_SHORT);
if (inRange3(expect[j],var_type[i],NCT_SHORT)) {
allInIntRange = allInIntRange && expect[j] >= short_min
&& expect[j] <= short_max;
} else {
allInExtRange = 0;
}
}
if (var_rank[i] == 0 && i%2 )
err = nc_get_vars_short(ncid, i, NULL, NULL, NULL, value);
else
err = nc_get_vars_short(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_SHORT)
&& expect[j] >= short_min && expect[j] <= short_max) {
IF (!equal(value[j],expect[j],var_type[i],
NCT_SHORT)){
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);
}
void
test_nc_get_vars_int(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 */
int 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_INT == 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_int(BAD_ID, i, start, edge, stride, value);
IF (err != NC_EBADID)
error("bad ncid: status = %d", err);
err = nc_get_vars_int(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_int(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_int(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_int(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_INT);
if (inRange3(expect[j],var_type[i],NCT_INT)) {
allInIntRange = allInIntRange && expect[j] >= int_min
&& expect[j] <= int_max;
} else {
allInExtRange = 0;
}
}
if (var_rank[i] == 0 && i%2 )
err = nc_get_vars_int(ncid, i, NULL, NULL, NULL, value);
else
err = nc_get_vars_int(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_INT)
&& expect[j] >= int_min && expect[j] <= int_max) {
IF (!equal(value[j],expect[j],var_type[i],
NCT_INT)){
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);
}
void
test_nc_get_vars_long(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 */
long 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_LONG == 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_long(BAD_ID, i, start, edge, stride, value);
IF (err != NC_EBADID)
error("bad ncid: status = %d", err);
err = nc_get_vars_long(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_long(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_long(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_long(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_LONG);
if (inRange3(expect[j],var_type[i],NCT_LONG)) {
allInIntRange = allInIntRange && expect[j] >= long_min
&& expect[j] <= long_max;
} else {
allInExtRange = 0;
}
}
if (var_rank[i] == 0 && i%2 )
err = nc_get_vars_long(ncid, i, NULL, NULL, NULL, value);
else
err = nc_get_vars_long(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_LONG)
&& expect[j] >= long_min && expect[j] <= long_max) {
IF (!equal(value[j],expect[j],var_type[i],
NCT_LONG)){
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);
}
void
test_nc_get_vars_float(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 */
float 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_FLOAT == 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_float(BAD_ID, i, start, edge, stride, value);
IF (err != NC_EBADID)
error("bad ncid: status = %d", err);
err = nc_get_vars_float(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_float(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_float(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_float(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_FLOAT);
if (inRange3(expect[j],var_type[i],NCT_FLOAT)) {
allInIntRange = allInIntRange && expect[j] >= float_min
&& expect[j] <= float_max;
} else {
allInExtRange = 0;
}
}
if (var_rank[i] == 0 && i%2 )
err = nc_get_vars_float(ncid, i, NULL, NULL, NULL, value);
else
err = nc_get_vars_float(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_FLOAT)
&& expect[j] >= float_min && expect[j] <= float_max) {
IF (!equal(value[j],expect[j],var_type[i],
NCT_FLOAT)){
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);
}
void
test_nc_get_vars_double(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 */
double 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_DOUBLE == 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_double(BAD_ID, i, start, edge, stride, value);
IF (err != NC_EBADID)
error("bad ncid: status = %d", err);
err = nc_get_vars_double(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_double(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_double(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_double(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_DOUBLE);
if (inRange3(expect[j],var_type[i],NCT_DOUBLE)) {
allInIntRange = allInIntRange && expect[j] >= double_min
&& expect[j] <= double_max;
} else {
allInExtRange = 0;
}
}
if (var_rank[i] == 0 && i%2 )
err = nc_get_vars_double(ncid, i, NULL, NULL, NULL, value);
else
err = nc_get_vars_double(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_DOUBLE)
&& expect[j] >= double_min && expect[j] <= double_max) {
IF (!equal(value[j],expect[j],var_type[i],
NCT_DOUBLE)){
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);
}
void
test_nc_get_varm_text(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 */
text 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_TEXT == 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_text(BAD_ID, i, start, edge, stride, imap, value);
IF (err != NC_EBADID)
error("bad ncid: status = %d", err);
err = nc_get_varm_text(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_text(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_text(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_text(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_TEXT);
if (inRange3(expect[j],var_type[i],NCT_TEXT)) {
allInIntRange = allInIntRange && expect[j] >= text_min
&& expect[j] <= text_max;
} else {
allInExtRange = 0;
}
}
if (var_rank[i] == 0 && i%2 )
err = nc_get_varm_text(ncid,i,NULL,NULL,NULL,NULL,value);
else
err = nc_get_varm_text(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_TEXT)
&& expect[j] >= text_min
&& expect[j] <= text_max) {
IF (!equal(value[j],expect[j],var_type[i],
NCT_TEXT)){
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);
}
void
test_nc_get_varm_uchar(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 */
uchar 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_UCHAR == 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_uchar(BAD_ID, i, start, edge, stride, imap, value);
IF (err != NC_EBADID)
error("bad ncid: status = %d", err);
err = nc_get_varm_uchar(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_uchar(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_uchar(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_uchar(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_UCHAR);
if (inRange3(expect[j],var_type[i],NCT_UCHAR)) {
allInIntRange = allInIntRange && expect[j] >= uchar_min
&& expect[j] <= uchar_max;
} else {
allInExtRange = 0;
}
}
if (var_rank[i] == 0 && i%2 )
err = nc_get_varm_uchar(ncid,i,NULL,NULL,NULL,NULL,value);
else
err = nc_get_varm_uchar(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_UCHAR)
&& expect[j] >= uchar_min
&& expect[j] <= uchar_max) {
IF (!equal(value[j],expect[j],var_type[i],
NCT_UCHAR)){
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);
}
void
test_nc_get_varm_schar(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 */
schar 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_SCHAR == 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_schar(BAD_ID, i, start, edge, stride, imap, value);
IF (err != NC_EBADID)
error("bad ncid: status = %d", err);
err = nc_get_varm_schar(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_schar(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_schar(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_schar(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_SCHAR);
if (inRange3(expect[j],var_type[i],NCT_SCHAR)) {
allInIntRange = allInIntRange && expect[j] >= schar_min
&& expect[j] <= schar_max;
} else {
allInExtRange = 0;
}
}
if (var_rank[i] == 0 && i%2 )
err = nc_get_varm_schar(ncid,i,NULL,NULL,NULL,NULL,value);
else
err = nc_get_varm_schar(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_SCHAR)
&& expect[j] >= schar_min
&& expect[j] <= schar_max) {
IF (!equal(value[j],expect[j],var_type[i],
NCT_SCHAR)){
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);
}
void
test_nc_get_varm_short(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 */
short 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_SHORT == 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_short(BAD_ID, i, start, edge, stride, imap, value);
IF (err != NC_EBADID)
error("bad ncid: status = %d", err);
err = nc_get_varm_short(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_short(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_short(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_short(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_SHORT);
if (inRange3(expect[j],var_type[i],NCT_SHORT)) {
allInIntRange = allInIntRange && expect[j] >= short_min
&& expect[j] <= short_max;
} else {
allInExtRange = 0;
}
}
if (var_rank[i] == 0 && i%2 )
err = nc_get_varm_short(ncid,i,NULL,NULL,NULL,NULL,value);
else
err = nc_get_varm_short(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_SHORT)
&& expect[j] >= short_min
&& expect[j] <= short_max) {
IF (!equal(value[j],expect[j],var_type[i],
NCT_SHORT)){
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);
}
void
test_nc_get_varm_int(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 */
int 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_INT == 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_int(BAD_ID, i, start, edge, stride, imap, value);
IF (err != NC_EBADID)
error("bad ncid: status = %d", err);
err = nc_get_varm_int(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_int(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_int(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_int(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_INT);
if (inRange3(expect[j],var_type[i],NCT_INT)) {
allInIntRange = allInIntRange && expect[j] >= int_min
&& expect[j] <= int_max;
} else {
allInExtRange = 0;
}
}
if (var_rank[i] == 0 && i%2 )
err = nc_get_varm_int(ncid,i,NULL,NULL,NULL,NULL,value);
else
err = nc_get_varm_int(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_INT)
&& expect[j] >= int_min
&& expect[j] <= int_max) {
IF (!equal(value[j],expect[j],var_type[i],
NCT_INT)){
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);
}
void
test_nc_get_varm_long(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 */
long 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_LONG == 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_long(BAD_ID, i, start, edge, stride, imap, value);
IF (err != NC_EBADID)
error("bad ncid: status = %d", err);
err = nc_get_varm_long(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_long(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_long(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_long(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_LONG);
if (inRange3(expect[j],var_type[i],NCT_LONG)) {
allInIntRange = allInIntRange && expect[j] >= long_min
&& expect[j] <= long_max;
} else {
allInExtRange = 0;
}
}
if (var_rank[i] == 0 && i%2 )
err = nc_get_varm_long(ncid,i,NULL,NULL,NULL,NULL,value);
else
err = nc_get_varm_long(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_LONG)
&& expect[j] >= long_min
&& expect[j] <= long_max) {
IF (!equal(value[j],expect[j],var_type[i],
NCT_LONG)){
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);
}
void
test_nc_get_varm_float(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 */
float 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_FLOAT == 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_float(BAD_ID, i, start, edge, stride, imap, value);
IF (err != NC_EBADID)
error("bad ncid: status = %d", err);
err = nc_get_varm_float(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_float(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_float(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_float(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_FLOAT);
if (inRange3(expect[j],var_type[i],NCT_FLOAT)) {
allInIntRange = allInIntRange && expect[j] >= float_min
&& expect[j] <= float_max;
} else {
allInExtRange = 0;
}
}
if (var_rank[i] == 0 && i%2 )
err = nc_get_varm_float(ncid,i,NULL,NULL,NULL,NULL,value);
else
err = nc_get_varm_float(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_FLOAT)
&& expect[j] >= float_min
&& expect[j] <= float_max) {
IF (!equal(value[j],expect[j],var_type[i],
NCT_FLOAT)){
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);
}
void
test_nc_get_varm_double(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 */
double 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_DOUBLE == 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_double(BAD_ID, i, start, edge, stride, imap, value);
IF (err != NC_EBADID)
error("bad ncid: status = %d", err);
err = nc_get_varm_double(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_double(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_double(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_double(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_DOUBLE);
if (inRange3(expect[j],var_type[i],NCT_DOUBLE)) {
allInIntRange = allInIntRange && expect[j] >= double_min
&& expect[j] <= double_max;
} else {
allInExtRange = 0;
}
}
if (var_rank[i] == 0 && i%2 )
err = nc_get_varm_double(ncid,i,NULL,NULL,NULL,NULL,value);
else
err = nc_get_varm_double(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_DOUBLE)
&& expect[j] >= double_min
&& expect[j] <= double_max) {
IF (!equal(value[j],expect[j],var_type[i],
NCT_DOUBLE)){
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);
}
void
test_nc_get_att_text(void)
{
int ncid;
int i;
int j;
size_t k;
int err;
int allInExtRange;
int allInIntRange;
int canConvert; /* Both text or both numeric */
text 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_TEXT == NCT_TEXT);
err = nc_get_att_text(BAD_ID, i, ATT_NAME(i,j), value);
IF (err != NC_EBADID)
error("bad ncid: status = %d", err);
err = nc_get_att_text(ncid, BAD_VARID, ATT_NAME(i,j), value);
IF (err != NC_ENOTVAR)
error("bad var id: status = %d", err);
err = nc_get_att_text(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_TEXT);
if (inRange3(expect[k],ATT_TYPE(i,j),NCT_TEXT)) {
allInIntRange = allInIntRange && expect[k] >= text_min
&& expect[k] <= text_max;
} else {
allInExtRange = 0;
}
}
err = nc_get_att_text(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_TEXT)
&& expect[k] >= text_min && expect[k] <= text_max) {
IF (!equal(value[k],expect[k],ATT_TYPE(i,j),
NCT_TEXT)){
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);
}
void
test_nc_get_att_uchar(void)
{
int ncid;
int i;
int j;
size_t k;
int err;
int allInExtRange;
int allInIntRange;
int canConvert; /* Both text or both numeric */
uchar 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_UCHAR == NCT_TEXT);
err = nc_get_att_uchar(BAD_ID, i, ATT_NAME(i,j), value);
IF (err != NC_EBADID)
error("bad ncid: status = %d", err);
err = nc_get_att_uchar(ncid, BAD_VARID, ATT_NAME(i,j), value);
IF (err != NC_ENOTVAR)
error("bad var id: status = %d", err);
err = nc_get_att_uchar(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_UCHAR);
if (inRange3(expect[k],ATT_TYPE(i,j),NCT_UCHAR)) {
allInIntRange = allInIntRange && expect[k] >= uchar_min
&& expect[k] <= uchar_max;
} else {
allInExtRange = 0;
}
}
err = nc_get_att_uchar(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_UCHAR)
&& expect[k] >= uchar_min && expect[k] <= uchar_max) {
IF (!equal(value[k],expect[k],ATT_TYPE(i,j),
NCT_UCHAR)){
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);
}
void
test_nc_get_att_schar(void)
{
int ncid;
int i;
int j;
size_t k;
int err;
int allInExtRange;
int allInIntRange;
int canConvert; /* Both text or both numeric */
schar 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_SCHAR == NCT_TEXT);
err = nc_get_att_schar(BAD_ID, i, ATT_NAME(i,j), value);
IF (err != NC_EBADID)
error("bad ncid: status = %d", err);
err = nc_get_att_schar(ncid, BAD_VARID, ATT_NAME(i,j), value);
IF (err != NC_ENOTVAR)
error("bad var id: status = %d", err);
err = nc_get_att_schar(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_SCHAR);
if (inRange3(expect[k],ATT_TYPE(i,j),NCT_SCHAR)) {
allInIntRange = allInIntRange && expect[k] >= schar_min
&& expect[k] <= schar_max;
} else {
allInExtRange = 0;
}
}
err = nc_get_att_schar(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_SCHAR)
&& expect[k] >= schar_min && expect[k] <= schar_max) {
IF (!equal(value[k],expect[k],ATT_TYPE(i,j),
NCT_SCHAR)){
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);
}
void
test_nc_get_att_short(void)
{
int ncid;
int i;
int j;
size_t k;
int err;
int allInExtRange;
int allInIntRange;
int canConvert; /* Both text or both numeric */
short 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_SHORT == NCT_TEXT);
err = nc_get_att_short(BAD_ID, i, ATT_NAME(i,j), value);
IF (err != NC_EBADID)
error("bad ncid: status = %d", err);
err = nc_get_att_short(ncid, BAD_VARID, ATT_NAME(i,j), value);
IF (err != NC_ENOTVAR)
error("bad var id: status = %d", err);
err = nc_get_att_short(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_SHORT);
if (inRange3(expect[k],ATT_TYPE(i,j),NCT_SHORT)) {
allInIntRange = allInIntRange && expect[k] >= short_min
&& expect[k] <= short_max;
} else {
allInExtRange = 0;
}
}
err = nc_get_att_short(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_SHORT)
&& expect[k] >= short_min && expect[k] <= short_max) {
IF (!equal(value[k],expect[k],ATT_TYPE(i,j),
NCT_SHORT)){
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);
}
void
test_nc_get_att_int(void)
{
int ncid;
int i;
int j;
size_t k;
int err;
int allInExtRange;
int allInIntRange;
int canConvert; /* Both text or both numeric */
int 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_INT == NCT_TEXT);
err = nc_get_att_int(BAD_ID, i, ATT_NAME(i,j), value);
IF (err != NC_EBADID)
error("bad ncid: status = %d", err);
err = nc_get_att_int(ncid, BAD_VARID, ATT_NAME(i,j), value);
IF (err != NC_ENOTVAR)
error("bad var id: status = %d", err);
err = nc_get_att_int(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_INT);
if (inRange3(expect[k],ATT_TYPE(i,j),NCT_INT)) {
allInIntRange = allInIntRange && expect[k] >= int_min
&& expect[k] <= int_max;
} else {
allInExtRange = 0;
}
}
err = nc_get_att_int(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_INT)
&& expect[k] >= int_min && expect[k] <= int_max) {
IF (!equal(value[k],expect[k],ATT_TYPE(i,j),
NCT_INT)){
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);
}
void
test_nc_get_att_long(void)
{
int ncid;
int i;
int j;
size_t k;
int err;
int allInExtRange;
int allInIntRange;
int canConvert; /* Both text or both numeric */
long 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_LONG == NCT_TEXT);
err = nc_get_att_long(BAD_ID, i, ATT_NAME(i,j), value);
IF (err != NC_EBADID)
error("bad ncid: status = %d", err);
err = nc_get_att_long(ncid, BAD_VARID, ATT_NAME(i,j), value);
IF (err != NC_ENOTVAR)
error("bad var id: status = %d", err);
err = nc_get_att_long(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_LONG);
if (inRange3(expect[k],ATT_TYPE(i,j),NCT_LONG)) {
allInIntRange = allInIntRange && expect[k] >= long_min
&& expect[k] <= long_max;
} else {
allInExtRange = 0;
}
}
err = nc_get_att_long(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_LONG)
&& expect[k] >= long_min && expect[k] <= long_max) {
IF (!equal(value[k],expect[k],ATT_TYPE(i,j),
NCT_LONG)){
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);
}
void
test_nc_get_att_float(void)
{
int ncid;
int i;
int j;
size_t k;
int err;
int allInExtRange;
int allInIntRange;
int canConvert; /* Both text or both numeric */
float 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_FLOAT == NCT_TEXT);
err = nc_get_att_float(BAD_ID, i, ATT_NAME(i,j), value);
IF (err != NC_EBADID)
error("bad ncid: status = %d", err);
err = nc_get_att_float(ncid, BAD_VARID, ATT_NAME(i,j), value);
IF (err != NC_ENOTVAR)
error("bad var id: status = %d", err);
err = nc_get_att_float(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_FLOAT);
if (inRange3(expect[k],ATT_TYPE(i,j),NCT_FLOAT)) {
allInIntRange = allInIntRange && expect[k] >= float_min
&& expect[k] <= float_max;
} else {
allInExtRange = 0;
}
}
err = nc_get_att_float(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_FLOAT)
&& expect[k] >= float_min && expect[k] <= float_max) {
IF (!equal(value[k],expect[k],ATT_TYPE(i,j),
NCT_FLOAT)){
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);
}
void
test_nc_get_att_double(void)
{
int ncid;
int i;
int j;
size_t k;
int err;
int allInExtRange;
int allInIntRange;
int canConvert; /* Both text or both numeric */
double 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_DOUBLE == NCT_TEXT);
err = nc_get_att_double(BAD_ID, i, ATT_NAME(i,j), value);
IF (err != NC_EBADID)
error("bad ncid: status = %d", err);
err = nc_get_att_double(ncid, BAD_VARID, ATT_NAME(i,j), value);
IF (err != NC_ENOTVAR)
error("bad var id: status = %d", err);
err = nc_get_att_double(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_DOUBLE);
if (inRange3(expect[k],ATT_TYPE(i,j),NCT_DOUBLE)) {
allInIntRange = allInIntRange && expect[k] >= double_min
&& expect[k] <= double_max;
} else {
allInExtRange = 0;
}
}
err = nc_get_att_double(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_DOUBLE)
&& expect[k] >= double_min && expect[k] <= double_max) {
IF (!equal(value[k],expect[k],ATT_TYPE(i,j),
NCT_DOUBLE)){
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);
}
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