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352 lines
11 KiB
C
352 lines
11 KiB
C
/*********************************************************************
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* Copyright 2008, University Corporation for Atmospheric Research
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* See netcdf/COPYRIGHT file for copying and redistribution conditions.
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* $Id: nctime.c,v 1.9 2010/05/05 22:15:39 dmh Exp $
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*********************************************************************/
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/*
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* This code was extracted with permission from the CDMS time
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* conversion and arithmetic routines developed by Bob Drach, Lawrence
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* Livermore National Laboratory as part of the cdtime library. Russ
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* Rew of the UCAR Unidata Program made changes and additions to
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* support the "-t" option of the netCDF ncdump utility, including a
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* 366-day climate calendar.
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*
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* For the complete time conversion and climate calendar facilities of
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* the CDMS library, get the original sources from LLNL.
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*/
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#include <stdlib.h>
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#include <stdio.h>
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#include <ctype.h>
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#include <math.h>
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#include <string.h>
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#include <stdarg.h>
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#include <assert.h>
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#include <netcdf.h>
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#include "utils.h"
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#include "nccomps.h"
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#include "dumplib.h" /* for sbuf_... prototypes */
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#include "ncdump.h" /* for fspec_t def */
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#include "nctime0.h"
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#include "vardata.h"
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static struct {
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size_t nbnds; /* number of bounds variables */
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bounds_node_t *first;
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} bounds_list;
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extern fspec_t formatting_specs; /* set from command-line options */
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/* rkr: added bounds functions to detect bounds variables of time variables */
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void
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bounds_add(char *bounds_name, int ncid, int varid) {
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bounds_node_t *bnode = emalloc(sizeof(bounds_node_t) + 1);
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bounds_list.nbnds++;
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bnode->ncid = ncid;
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bnode->varid = varid;
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bnode->bounds_name = strdup(bounds_name);
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bnode->next = bounds_list.first;
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bounds_list.first = bnode;
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}
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/* Check for optional "calendar" attribute and return specified
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* calendar type, if present. */
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cdCalenType
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calendar_type(int ncid, int varid) {
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int ctype;
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int stat;
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ncatt_t catt;
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static struct {
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char* attname;
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int type;
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} calmap[] = {
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{"gregorian", cdMixed},
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{"standard", cdMixed}, /* synonym */
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{"proleptic_gregorian", cdStandard},
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{"noleap", cdNoLeap},
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{"no_leap", cdNoLeap},
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{"365_day", cdNoLeap}, /* synonym */
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{"allleap", cd366},
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{"all_leap", cd366}, /* synonym */
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{"366_day", cd366}, /* synonym */
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{"360_day", cd360},
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{"julian", cdJulian},
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{"none", cdClim} /* TODO: test this */
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};
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#define CF_CAL_ATT_NAME "calendar"
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int ncals = (sizeof calmap)/(sizeof calmap[0]);
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ctype = cdMixed; /* default mixed Gregorian/Julian ala udunits */
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stat = nc_inq_att(ncid, varid, CF_CAL_ATT_NAME, &catt.type, &catt.len);
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if(stat == NC_NOERR && catt.type == NC_CHAR && catt.len > 0) {
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char *calstr = (char *)emalloc(catt.len + 1);
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int itype;
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NC_CHECK(nc_get_att(ncid, varid, CF_CAL_ATT_NAME, calstr));
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calstr[catt.len] = '\0';
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for(itype = 0; itype < ncals; itype++) {
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if(strncmp(calstr, calmap[itype].attname, catt.len) == 0) {
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ctype = calmap[itype].type;
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break;
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}
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}
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free(calstr);
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}
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return ctype;
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}
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bool_t
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is_bounds_var(char *varname, int *pargrpidp, int *parvaridp) {
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bounds_node_t *bp = bounds_list.first;
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for(; bp; bp = bp->next) {
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if(STREQ(bp->bounds_name, varname)) {
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*pargrpidp = bp->ncid;
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*parvaridp = bp->varid;
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return true;
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}
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}
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return false;
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}
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/* Test if attribute is of form required by cdtime:
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* <time_unit> since <base_time>
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* where
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* <time_unit>:
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*/
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bool_t
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is_valid_time_unit(const char *units) {
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char charunits[CD_MAX_RELUNITS];
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char basetime_1[CD_MAX_CHARTIME];
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char basetime_2[CD_MAX_CHARTIME];
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int nconv1, nconv2;
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bool_t okunit = false;
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/* Allow ISO-8601 "T" date-time separator as well as blank separator */
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nconv1 = sscanf(units,"%s since %[^T]T%s", charunits, basetime_1, basetime_2);
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nconv2 = sscanf(units,"%s since %s %s", charunits, basetime_1, basetime_2);
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if (!(nconv1 > 1 || nconv2 > 1))
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return false;
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/* Check for unit compatible with cdtime library, no attempt
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* to enforce CF-compliance or udunits compliance here ... */
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if(!strncmp(charunits,"sec",3) || !strcmp(charunits,"s")){
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okunit = true;
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}
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else if(!strncmp(charunits,"min",3) || !strcmp(charunits,"mn")){
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okunit = true;
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}
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else if(!strncmp(charunits,"hour",4) || !strcmp(charunits,"hr")){
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okunit = true;
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}
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else if(!strncmp(charunits,"day",3) || !strcmp(charunits,"dy")){
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okunit = true;
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}
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else if(!strncmp(charunits,"week",4) || !strcmp(charunits,"wk")){
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okunit = true;
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}
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else if(!strncmp(charunits,"month",5) || !strcmp(charunits,"mo")){
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okunit = true;
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}
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else if(!strncmp(charunits,"season",6)){
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okunit = true;
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}
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else if(!strncmp(charunits,"year",4) || !strcmp(charunits,"yr")){
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okunit = true;
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}
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if (!okunit)
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return false;
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return true;
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}
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/* Return true only if this is a "bounds" attribute */
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bool_t
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is_bounds_att(ncatt_t *attp) {
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if(attp->type == NC_CHAR && attp->valgp && STREQ((char *)attp->name, "bounds")) {
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return true;
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}
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#ifdef USE_NETCDF4
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if(attp->type == NC_STRING && attp->valgp && STREQ((char *)attp->name, "bounds")) {
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return true;
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}
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#endif /* USE_NETCDF4 */
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return false;
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}
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/* Insert info about a bounds attribute into bounds list, so we can
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* later determine which variables are bounds variables for which
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* other variables. att must be a variable "bounds" attribute. */
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void
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insert_bounds_info(int ncid, int varid, ncatt_t *attp) {
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static bool_t uninitialized = true;
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if(uninitialized) {
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bounds_list.nbnds = 0;
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bounds_list.first = NULL;
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}
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assert(is_bounds_att(attp));
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bounds_add(attp->valgp, ncid, varid);
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}
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void
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get_timeinfo(int ncid1, int varid1, ncvar_t *vp) {
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ncatt_t uatt; /* units attribute */
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int nc_status; /* return from netcdf calls */
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char *units;
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int ncid = ncid1;
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int varid = varid1;
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vp->has_timeval = false; /* by default, turn on if criteria met */
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vp->timeinfo = 0;
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vp->is_bnds_var = false;
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/* for timeinfo, treat a bounds variable like its "parent" time variable */
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if(is_bounds_var(vp->name, &ncid, &varid)) {
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vp->is_bnds_var = true;
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}
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/* time variables must have appropriate units attribute or be a bounds variable */
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nc_status = nc_inq_att(ncid, varid, "units", &uatt.type, &uatt.len);
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if(nc_status == NC_NOERR && uatt.type == NC_CHAR) { /* TODO: NC_STRING? */
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units = emalloc(uatt.len + 1);
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NC_CHECK(nc_get_att(ncid, varid, "units", units));
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units[uatt.len] = '\0';
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if(!is_valid_time_unit(units)) {
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free(units);
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return;
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}
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/* check for calendar attribute (not required even for time vars) */
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vp->timeinfo = (timeinfo_t *)emalloc(sizeof(timeinfo_t));
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memset((void*)vp->timeinfo,0,sizeof(timeinfo_t));
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vp->timeinfo->calendar = calendar_type(ncid, varid);
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/* Parse relative units, returning the unit and base component time. */
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if(cdParseRelunits(vp->timeinfo->calendar, units,
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&vp->timeinfo->unit, &vp->timeinfo->origin) != 0) {
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/* error parsing units so just treat as not a time variable */
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free(vp->timeinfo);
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free(units);
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vp->timeinfo = NULL;
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return;
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}
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/* Currently this gets reparsed for every value, need function
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* like cdRel2Comp that resuses parsed units? */
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vp->timeinfo->units = strdup(units);
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vp->has_timeval = true;
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free(units);
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}
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return;
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}
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/* print_att_times
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* by Dave Allured, NOAA/PSD/CIRES.
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* This version supports only primitive attribute types; do not call
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* for user defined types. Print interpreted, human readable (ISO)
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* time strings for an attribute of a CF-like time variable.
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*
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* Print strings as CDL comments, following the normal non-decoded
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* numeric values, which were already printed by the calling function.
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* In the following example, this function prints only the right hand
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* side, starting at the two slashes:
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*
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* time:actual_range = 51133., 76670. ; // "1940-01-01", "2009-12-01"
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*
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* This function may be called for ALL primitive attributes.
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* This function qualifies the attribute for numeric type and
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* inheriting valid time attributes (has_time). If the attribute
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* does not qualify, this function prints nothing and safely
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* returns.
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*
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* This function interprets and formats time values with the SAME
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* methods already used in ncdump -t for data variables.
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*
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* This version has special line wrapping rules:
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*
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* (1) If the attribute has one or two values, the time strings are
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* always printed on the same line.
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*
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* (2) If the attribute has three or more values, the time strings
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* are always printed on successive lines, with line wrapping
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* as needed.
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*
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* Assume: Preceding call to pr_att_valgs has already screened
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* this attribute for valid primitive types for the current netcdf
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* model (netcdf 3 or 4).
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*/
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void
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print_att_times(
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int ncid,
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int varid, /* parent var ID */
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const ncatt_t *att /* attribute structure */
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)
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{
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nc_type type = att->type; /* local copy */
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bool_t wrap;
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bool_t first_item;
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ncvar_t var; /* fake var structure for the att values; */
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/* will add only the minimum necessary info */
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/* For common disqualifications, print nothing and return immediately. */
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if (type == NC_CHAR || type == NC_STRING) /* must be numeric */
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return;
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if (varid == NC_GLOBAL) /* time units not defined for global atts */
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return;
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assert (att->len > 0); /* should already be eliminated by caller */
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#ifdef USE_NETCDF4
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assert ( type == NC_BYTE || type == NC_SHORT || type == NC_INT
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|| type == NC_FLOAT || type == NC_DOUBLE || type == NC_UBYTE
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|| type == NC_USHORT || type == NC_UINT || type == NC_INT64
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|| type == NC_UINT64 );
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#else /* NETCDF3 */
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assert ( type == NC_BYTE || type == NC_SHORT || type == NC_INT
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|| type == NC_FLOAT || type == NC_DOUBLE );
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#endif
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/* Get time info from parent variable, and qualify. */
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memset((void*)&var,0,sizeof(var)); /* clear the fake var structure */
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get_timeinfo(ncid, varid, &var); /* sets has_timeval, timeinfo members */
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if (var.has_timeval) { /* no print unless time qualified */
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/* Convert each value to ISO date/time string, and print. */
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size_t iel; /* attrib index */
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const char *valp = (const char *)att->valgp; /* attrib value pointer */
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safebuf_t *sb = sbuf_new(); /* allocate new string buffer */
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#ifdef NOTUSED
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int func; /* line wrap control */
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int separator = ' '; /* default between data and time */
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if(formatting_specs.iso_separator)
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separator = 'T';
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#endif
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var.type = att->type; /* insert attrib type into fake var */
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for (iel = 0; iel < att->len; iel++) {
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nctime_val_tostring(&var, sb, (void *)valp); /* convert to str. */
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valp += att->tinfo->size; /* increment value pointer, by type */
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if (iel < att->len - 1) /* add comma, except for final value */
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sbuf_cat(sb, ",");
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first_item = (iel == 0); /* identify start of list */
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wrap = (att->len > 2); /* specify line wrap variations: */
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/* 1 or 2 values: keep on same line, */
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/* more than 2: enable line wrap */
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lput2 (sbuf_str(sb), first_item, wrap);
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/* print string in CDL comment, */
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/* with auto newline */
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}
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sbuf_free(sb); /* clean up */
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if(var.timeinfo->units) /* clean up from get_timeinfo */
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free(var.timeinfo->units);
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free(var.timeinfo);
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}
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}
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