netcdf-c/nc_test/t_nc_p5.c
2015-10-09 10:12:11 -06:00

663 lines
16 KiB
C

/* Copyright 1988-2010 University Corporation for Atmospheric Research
See netcdf/COPYRIGHT file for copying and redistribution
conditions.
Program to create a cdf, exercise all cdf functions. Creates cdf,
stuff it full of numbers, closes it. Then reopens it, and checks
for consistency. Leaves the file around afterwards.
Based on a program to test the nasa look-alike program, so not the
most appropropriate test. See ../nctest for a complete spec test.
$Id: t_nc.c 2792 2014-10-27 06:02:59Z wkliao $ */
#define REDEF
/* #define SYNCDEBUG */
#undef NDEBUG /* always active assert() in this file */
#include <config.h>
#include <stdio.h>
#include <stddef.h>
#include <stdlib.h>
#include <string.h>
#include <assert.h>
#include <mpi.h>
#include <netcdf.h>
#include <netcdf_par.h>
#define MAXSHORT 32767
#define MAXINT 2147483647
#define MAXBYTE 127
#define FNAME "t_nc.nc"
#define NUM_DIMS 3
#define DONT_CARE -1
/* make these numbers big when you want to give this a real workout */
#define NUM_RECS 8
#define SIZE_1 7
#define SIZE_2 8
static struct {
int num_dims;
int num_vars;
int num_attrs;
int xtendim;
} cdesc[1];
static struct {
char mnem[NC_MAX_NAME];
nc_type type;
int ndims;
int dims[NC_MAX_VAR_DIMS];
int num_attrs;
} vdesc[1];
static struct {
char mnem[NC_MAX_NAME];
nc_type type;
size_t len;
} adesc[1];
union getret
{
char by[8];
short sh[4];
int in[2];
float fl[2];
double dbl;
};
static void
chkgot(nc_type type, union getret got, double check)
{
switch(type){
case NC_BYTE :
assert( (char)check == got.by[0] );
break;
case NC_CHAR : /* TODO */
assert( (char)check == got.by[0] );
break;
case NC_SHORT :
assert( (short)check == got.sh[0] );
break;
case NC_INT :
assert( (int)check == got.in[0] );
break;
case NC_FLOAT :
assert( (float)check == got.fl[0] );
break;
case NC_DOUBLE :
assert( check == got.dbl );
break;
default:
break;
}
}
static const char *fname = FNAME;
static size_t num_dims = NUM_DIMS;
static size_t sizes[] = { NC_UNLIMITED, SIZE_1 , SIZE_2 };
static const char * const dim_names[] = { "record", "ixx", "iyy"};
static void
createtestdims(int cdfid, size_t num_dims, const size_t *sizes, const char * const dim_names[])
{
int dimid;
while(num_dims-- != 0)
{
assert( nc_def_dim(cdfid, *dim_names++, *sizes, &dimid)
== NC_NOERR);
sizes++;
}
}
static void
testdims(int cdfid, size_t num_dims, size_t *sizes, const char * const dim_names[])
{
int ii;
size_t size;
char cp[NC_MAX_NAME];
for(ii=0; (size_t) ii < num_dims; ii++, sizes++)
{
assert( nc_inq_dim(cdfid, ii, cp, &size) == NC_NOERR);
if( size != *sizes)
(void) fprintf(stderr, "%d: %lu != %lu\n",
ii, (unsigned long)size, (unsigned long)*sizes);
assert( size == *sizes);
assert( strcmp(cp, *dim_names++) == 0);
}
}
static const char * const reqattr[] = {
"UNITS",
"VALIDMIN",
"VALIDMAX",
"SCALEMIN",
"SCALEMAX",
"FIELDNAM",
_FillValue
};
#define NUM_RATTRS 6
static struct tcdfvar {
const char *mnem;
nc_type type;
const char *fieldnam;
double validmin;
double validmax;
double scalemin;
double scalemax;
const char *units;
int ndims;
int dims[NUM_DIMS];
} const testvars[] = {
#define Byte_id 0
{ "Byte", NC_BYTE, "Byte sized integer variable",
-MAXBYTE, MAXBYTE, -MAXBYTE, MAXBYTE , "ones",
2, {0,1,DONT_CARE} },
#define Char_id 1
{ "Char", NC_CHAR, "char (string) variable",
DONT_CARE, DONT_CARE, DONT_CARE, DONT_CARE, "(unitless)",
2, {0,2,DONT_CARE} },
#define Short_id 2
{ "Short", NC_SHORT, "Short variable",
-MAXSHORT, MAXSHORT, -MAXSHORT, MAXSHORT , "ones",
2, {0, 2, DONT_CARE }},
#define Long_id 3
{ "Long", NC_INT, "Long Integer variable", /* 2.x backward strings */
-MAXINT, MAXINT, -MAXINT, MAXINT, "ones",
2, {1, 2, DONT_CARE}},
#define Float_id 4
{ "Float", NC_FLOAT, "Single Precision Floating Point variable",
-MAXINT, MAXINT, -MAXINT, MAXINT, "flots",
3, {0, 1, 2 }},
#define Double_id 5
{ "Double", NC_DOUBLE, "Double Precision Floating Point variable",
-MAXINT, MAXINT, -MAXINT, MAXINT, "dflots",
3, {0, 1, 2 }},
};
#define NUM_TESTVARS 6
static void
createtestvars(int id, const struct tcdfvar *testvars, size_t count)
{
int ii;
int varid;
const struct tcdfvar *vp = testvars;
for(ii = 0; (size_t) ii < count; ii++, vp++ )
{
assert(nc_def_var(id, vp->mnem, vp->type, vp->ndims, vp->dims,
&varid)
== NC_NOERR );
assert(
nc_put_att_text(id,ii,reqattr[0],strlen(vp->units),
vp->units)
== NC_NOERR);
assert(
nc_put_att_double(id,ii,reqattr[1],NC_DOUBLE,1,
&vp->validmin)
== NC_NOERR);
assert(
nc_put_att_double(id,ii,reqattr[2],NC_DOUBLE,1,
&vp->validmax)
== NC_NOERR);
assert(
nc_put_att_double(id,ii,reqattr[3],NC_DOUBLE,1,
&vp->scalemin)
== NC_NOERR);
assert(
nc_put_att_double(id,ii,reqattr[4],NC_DOUBLE,1,
&vp->scalemax)
== NC_NOERR);
assert(
nc_put_att_text(id,ii,reqattr[5],strlen(vp->fieldnam),
vp->fieldnam)
== NC_NOERR);
}
}
/* static void */
/* parray(const char *label, size_t count, const size_t array[]) */
/* { */
/* (void) fprintf(stdout, "%s", label); */
/* (void) fputc('\t',stdout); */
/* for(; count != 0; count--, array++) */
/* (void) fprintf(stdout," %lu", (unsigned long) *array); */
/* } */
static void
fill_seq(int id)
{
float values[NUM_RECS * SIZE_1 * SIZE_2];
size_t vindices[NUM_DIMS];
{
size_t ii = 0;
for(; ii < sizeof(values)/sizeof(values[0]); ii++)
{
values[ii] = (float) ii;
}
}
/* zero the vindices */
{
size_t *cc = vindices;
while (cc < &vindices[num_dims])
*cc++ = 0;
}
sizes[0] = NUM_RECS;
assert( nc_put_vara_float(id, Float_id, vindices, sizes, values)== NC_NOERR);
}
static void
check_fill_seq(int id)
{
size_t vindices[NUM_DIMS];
size_t *cc, *mm;
union getret got;
int ii = 0;
/*float val;*/
sizes[0] = NUM_RECS;
cc = vindices;
while (cc < &vindices[num_dims])
*cc++ = 0;
/* ripple counter */
cc = vindices;
mm = sizes;
while (*vindices < *sizes)
{
while (*cc < *mm)
{
if (mm == &sizes[num_dims - 1])
{
if(nc_get_var1_float(id, Float_id, vindices, &got.fl[0]) == -1)
goto bad_ret;
/* val = (float) ii; */
/* if(val != got.fl[0]) */
/* { */
/* parray("indices", NUM_DIMS, vindices); */
/* (void) printf("\t%f != %f\n", val, got.fl[0]); */
/* } */
(*cc)++; ii++;
continue;
}
cc++;
mm++;
}
if(cc == vindices)
break;
*cc = 0;
cc--;
mm--;
(*cc)++;
}
return;
bad_ret :
(void) printf("couldn't get a var in check_fill_seq() %d\n",
ii);
return;
}
static size_t indices[][3] = {
{0, 1, 3},
{0, 3, 0},
{1, 2, 3},
{3, 2, 1},
{2, 1, 3},
{1, 0, 0},
{0, 0, 0},
};
static const char chs[] = {'A','B', ((char)0xff) };
static const size_t s_start[] = {0,1};
static const size_t s_edges[] = {NUM_RECS, SIZE_1 - 1};
static char sentence[NUM_RECS* SIZE_1 -1] =
"The red death had long devastated the country.";
static short shs[] = {97, 99};
static int birthday = 82555;
#define M_E 2.7182818284590452354
static float e = (float) M_E;
static double pinot = 3.25;
static double zed = 0.0;
/*ARGSUSED*/
int
main(int argc, char *argv[])
{
int cmode=NC_CLOBBER, omode, ret;
int id;
char buf[256];
#ifdef SYNCDEBUG
char *str = "one";
#endif
int ii;
size_t ui;
const struct tcdfvar *tvp = testvars;
union getret got;
const size_t initialsz = 8192;
size_t chunksz = 8192;
size_t align = 8192/32;
MPI_Init(&argc, &argv);
/* cmode |= NC_PNETCDF |NC_64BIT_OFFSET; */
cmode != NC_PNETCDF |NC_64BIT_DATA;
ret = nc_create_par(fname,cmode, MPI_COMM_WORLD, MPI_INFO_NULL, &id);
if(ret != NC_NOERR) {
fprintf(stderr,"Error %s in file %s at line %d\n",nc_strerror(ret),__FILE__,__LINE__);
exit(ret);
}
assert( nc_put_att_text(id, NC_GLOBAL,
"TITLE", 12, "another name") == NC_NOERR);
assert( nc_get_att_text(id, NC_GLOBAL,
"TITLE", buf) == NC_NOERR);
/* (void) printf("title 1 \"%s\"\n", buf); */
assert( nc_put_att_text(id, NC_GLOBAL,
"TITLE", strlen(fname), fname) == NC_NOERR);
assert( nc_get_att_text(id, NC_GLOBAL,
"TITLE", buf) == NC_NOERR);
buf[strlen(fname)] = 0;
/* (void) printf("title 2 \"%s\"\n", buf); */
assert( strcmp(fname, buf) == 0);
createtestdims(id, NUM_DIMS, sizes, dim_names);
testdims(id, NUM_DIMS, sizes, dim_names);
createtestvars(id, testvars, NUM_TESTVARS);
{
int ifill = -1; double dfill = -9999;
assert( nc_put_att_int(id, Long_id,
_FillValue, NC_INT, 1, &ifill) == NC_NOERR);
assert( nc_put_att_double(id, Double_id,
_FillValue, NC_DOUBLE, 1, &dfill) == NC_NOERR);
}
#ifdef REDEF
assert( nc__enddef(id, 0, align, 0, 2*align) == NC_NOERR );
assert( nc_put_var1_int(id, Long_id, indices[3], &birthday)
== NC_NOERR );
fill_seq(id);
assert( nc_redef(id) == NC_NOERR );
/* assert( nc_rename_dim(id,2, "a long dim name") == NC_NOERR); */
#endif
assert( nc_rename_dim(id,1, "IXX") == NC_NOERR);
assert( nc_inq_dim(id, 1, buf, &ui) == NC_NOERR);
/* (void) printf("dimrename: %s\n", buf); */
assert( nc_rename_dim(id,1, dim_names[1]) == NC_NOERR);
#ifdef ATTRX
assert( nc_rename_att(id, 1, "UNITS", "units") == NC_NOERR);
assert( nc_del_att(id, 4, "FIELDNAM")== NC_NOERR);
assert( nc_del_att(id, 2, "SCALEMIN")== NC_NOERR);
assert( nc_del_att(id, 2, "SCALEMAX")== NC_NOERR);
#endif /* ATTRX */
assert( nc__enddef(id, 0, align, 0, 2*align) == NC_NOERR );
#ifndef REDEF
fill_seq(id);
assert( nc_put_var1_int(id, Long_id, indices[3], &birthday)== NC_NOERR );
#endif
assert( nc_put_vara_schar(id, Byte_id, s_start, s_edges,
(signed char *)sentence)
== NC_NOERR);
assert( nc_put_var1_schar(id, Byte_id, indices[6], (signed char *)(chs+1))
== NC_NOERR);
assert( nc_put_var1_schar(id, Byte_id, indices[5], (signed char *)chs)
== NC_NOERR);
assert( nc_put_vara_text(id, Char_id, s_start, s_edges, sentence)
== NC_NOERR);
assert( nc_put_var1_text(id, Char_id, indices[6], (chs+1))
== NC_NOERR) ;
assert( nc_put_var1_text(id, Char_id, indices[5], chs)
== NC_NOERR);
assert( nc_put_var1_short(id, Short_id, indices[4], shs)
== NC_NOERR);
assert( nc_put_var1_float(id, Float_id, indices[2], &e)
== NC_NOERR);
assert( nc_put_var1_double(id, Double_id, indices[1], &zed)
== NC_NOERR);
assert( nc_put_var1_double(id, Double_id, indices[0], &pinot)
== NC_NOERR);
#ifdef SYNCDEBUG
(void) printf("Hit Return to sync\n");
gets(str);
nc_sync(id,0);
(void) printf("Sync done. Hit Return to continue\n");
gets(str);
#endif /* SYNCDEBUG */
ret = nc_close(id);
/* (void) printf("nc_close ret = %d\n\n", ret); */
/*
* read it
*/
omode = NC_NOWRITE;
omode = NC_NOWRITE | NC_PNETCDF;
if(ret != NC_NOERR)
{
(void) printf("Could not open %s: %s\n", fname,
nc_strerror(ret));
exit(1);
}
/* (void) printf("reopen id = %d for filename %s\n", */
/* id, fname); */
/* NC */
/* (void) printf("NC "); */
assert( nc_inq(id, &(cdesc->num_dims), &(cdesc->num_vars),
&(cdesc->num_attrs), &(cdesc->xtendim) ) == NC_NOERR);
assert((size_t) cdesc->num_dims == num_dims);
assert(cdesc->num_attrs == 1);
assert(cdesc->num_vars == NUM_TESTVARS);
/* (void) printf("done\n"); */
/* GATTR */
/* (void) printf("GATTR "); */
assert( nc_inq_attname(id, NC_GLOBAL, 0, adesc->mnem) == 0);
assert(strcmp("TITLE",adesc->mnem) == 0);
assert( nc_inq_att(id, NC_GLOBAL, adesc->mnem, &(adesc->type), &(adesc->len))== NC_NOERR);
assert( adesc->type == NC_CHAR );
assert( adesc->len == strlen(fname) );
assert( nc_get_att_text(id, NC_GLOBAL, "TITLE", buf)== NC_NOERR);
buf[adesc->len] = 0;
assert( strcmp(fname, buf) == 0);
/* VAR */
/* (void) printf("VAR "); */
assert( cdesc->num_vars == NUM_TESTVARS );
for(ii = 0; ii < cdesc->num_vars; ii++, tvp++ )
{
int jj;
assert( nc_inq_var(id, ii,
vdesc->mnem,
&(vdesc->type),
&(vdesc->ndims),
vdesc->dims,
&(vdesc->num_attrs)) == NC_NOERR);
if(strcmp(tvp->mnem , vdesc->mnem) != 0)
{
(void) printf("attr %d mnem mismatch %s, %s\n",
ii, tvp->mnem, vdesc->mnem);
continue;
}
if(tvp->type != vdesc->type)
{
(void) printf("attr %d type mismatch %d, %d\n",
ii, (int)tvp->type, (int)vdesc->type);
continue;
}
for(jj = 0; jj < vdesc->ndims; jj++ )
{
if(tvp->dims[jj] != vdesc->dims[jj] )
{
(void) printf(
"inconsistent dim[%d] for variable %d: %d != %d\n",
jj, ii, tvp->dims[jj], vdesc->dims[jj] );
continue;
}
}
/* VATTR */
/* (void) printf("VATTR\n"); */
for(jj=0; jj<vdesc->num_attrs; jj++ )
{
assert( nc_inq_attname(id, ii, jj, adesc->mnem) == NC_NOERR);
if( strcmp(adesc->mnem, reqattr[jj]) != 0 )
{
(void) printf("var %d attr %d mismatch %s != %s\n",
ii, jj, adesc->mnem, reqattr[jj] );
break;
}
}
if( nc_inq_att(id, ii, reqattr[0], &(adesc->type), &(adesc->len))
!= -1) {
assert( adesc->type == NC_CHAR );
assert( adesc->len == strlen(tvp->units) );
assert( nc_get_att_text(id,ii,reqattr[0],buf)== NC_NOERR);
buf[adesc->len] = 0;
assert( strcmp(tvp->units, buf) == 0);
}
if(
nc_inq_att(id, ii, reqattr[1], &(adesc->type), &(adesc->len))
!= -1)
{
assert( adesc->type == NC_DOUBLE );
assert( adesc->len == 1 );
assert( nc_get_att_double(id, ii, reqattr[1], &got.dbl)== NC_NOERR);
chkgot(adesc->type, got, tvp->validmin);
}
if(
nc_inq_att(id, ii, reqattr[2], &(adesc->type), &(adesc->len))
!= -1)
{
assert( adesc->type == NC_DOUBLE );
assert( adesc->len == 1 );
assert( nc_get_att_double(id, ii, reqattr[2], &got.dbl)== NC_NOERR);
chkgot(adesc->type, got, tvp->validmax);
}
if(
nc_inq_att(id, ii, reqattr[3], &(adesc->type), &(adesc->len))
!= -1)
{
assert( adesc->type == NC_DOUBLE );
assert( adesc->len ==1 );
assert( nc_get_att_double(id, ii, reqattr[3], &got.dbl)== NC_NOERR);
chkgot(adesc->type, got, tvp->scalemin);
}
if(
nc_inq_att(id, ii, reqattr[4], &(adesc->type), &(adesc->len))
!= -1)
{
assert( adesc->type == NC_DOUBLE );
assert( adesc->len == 1 );
assert( nc_get_att_double(id, ii, reqattr[4], &got.dbl)== NC_NOERR);
chkgot(adesc->type, got, tvp->scalemax);
}
if( nc_inq_att(id, ii, reqattr[5], &(adesc->type), &(adesc->len))== NC_NOERR)
{
assert( adesc->type == NC_CHAR );
assert( adesc->len == strlen(tvp->fieldnam) );
assert( nc_get_att_text(id,ii,reqattr[5],buf)== NC_NOERR);
buf[adesc->len] = 0;
assert( strcmp(tvp->fieldnam, buf) == 0);
}
}
/* (void) printf("fill_seq "); */
check_fill_seq(id);
/* (void) printf("Done\n"); */
assert( nc_get_var1_double(id, Double_id, indices[0], &got.dbl)== NC_NOERR);
/* (void) printf("got val = %f\n", got.dbl ); */
assert( nc_get_var1_double(id, Double_id, indices[1], &got.dbl)== NC_NOERR);
/* (void) printf("got val = %f\n", got.dbl ); */
assert( nc_get_var1_float(id, Float_id, indices[2], &got.fl[0])== NC_NOERR);
/* (void) printf("got val = %f\n", got.fl[0] ); */
assert( nc_get_var1_int(id, Long_id, indices[3], &got.in[0])== NC_NOERR);
/* (void) printf("got val = %d\n", got.in[0] ); */
assert( nc_get_var1_short(id, Short_id, indices[4], &got.sh[0])== NC_NOERR);
/* (void) printf("got val = %d\n", got.sh[0] ); */
assert( nc_get_var1_text(id, Char_id, indices[5], &got.by[0]) == NC_NOERR);
/* (void) printf("got NC_CHAR val = %c (0x%02x) \n", */
/* got.by[0] , got.by[0]); */
assert( nc_get_var1_text(id, Char_id, indices[6], &got.by[0]) == NC_NOERR);
/* (void) printf("got NC_CHAR val = %c (0x%02x) \n", */
/* got.by[0], got.by[0] ); */
(void) memset(buf,0,sizeof(buf));
assert( nc_get_vara_text(id, Char_id, s_start, s_edges, buf) == NC_NOERR);
/* (void) printf("got NC_CHAR val = \"%s\"\n", buf); */
assert( nc_get_var1_schar(id, Byte_id, indices[5],
(signed char *)&got.by[0])== NC_NOERR);
/* (void) printf("got val = %c (0x%02x) \n", got.by[0] , got.by[0]); */
assert( nc_get_var1_schar(id, Byte_id, indices[6],
(signed char *)&got.by[0])== NC_NOERR);
/* (void) printf("got val = %c (0x%02x) \n", got.by[0], got.by[0] ); */
(void) memset(buf,0,sizeof(buf));
assert( nc_get_vara_schar(id, Byte_id, s_start, s_edges,
(signed char *)buf)== NC_NOERR );
/* (void) printf("got val = \"%s\"\n", buf); */
{
double dbuf[NUM_RECS * SIZE_1 * SIZE_2];
assert(nc_get_var_double(id, Float_id, dbuf) == NC_NOERR);
/* (void) printf("got vals = %f ... %f\n", dbuf[0], */
/* dbuf[NUM_RECS * SIZE_1 * SIZE_2 -1] ); */
}
ret = nc_close(id);
/* (void) printf("re nc_close ret = %d\n", ret); */
MPI_Finalize();
return 0;
}