/usr/share/ncarg/hluex/contourplot/cn09c.c is in libncarg-data 6.3.0-6build1.
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** $Id: cn09c.c,v 1.8 2010-03-15 22:49:23 haley Exp $
*/
/***********************************************************************
* *
* Copyright (C) 1995 *
* University Corporation for Atmospheric Research *
* The use of this Software is governed by a License Agreement *
* *
***********************************************************************/
/*
** File: cn09c.c
**
** Author: Ethan Alpert (converted to C by Mary Haley)
** National Center for Atmospheric Research
** PO 3000, Boulder, Colorado
**
** Date: Thu Sep 28 08:32:16 MDT 1995
**
** Description: Reads a netCDF file and produces a series of
** surface pressure contour plots.
**
*/
#include <stdio.h>
#include <math.h>
#include <ncarg/hlu/hlu.h>
#include <ncarg/hlu/ResList.h>
#include <ncarg/hlu/App.h>
#include <ncarg/hlu/NcgmWorkstation.h>
#include <ncarg/hlu/PSWorkstation.h>
#include <ncarg/hlu/PDFWorkstation.h>
#include <ncarg/hlu/CairoWorkstation.h>
#include <ncarg/hlu/ContourPlot.h>
#include <ncarg/hlu/ScalarField.h>
#include <netcdf.h>
#define NCOLORS 23
int main()
{
/*
* Declare variables for the HLU routine calls.
*/
int appid, workid, field1, con1;
int srlist, i, j, k;
ng_size_t icount[2];
float cmap[NCOLORS][3];
/*
* Declare variables for getting information from netCDF file.
*/
int ncid, lon_id, lat_id, frtime_id, press_id;
float press[33][36], special_value;
float lon[36], lat[33];
long start[3], count[3], lonlen, latlen, frtimelen;
int frtime[7];
char filename[256], string[20];
const char *dir = _NGGetNCARGEnv("data");
/*
* Default is to create an NCGM file.
*/
char const *wks_type = "ncgm";
/*
* Initialize the HLU library and set up resource template.
*/
NhlInitialize();
srlist = NhlRLCreate(NhlSETRL);
/*
* Create Application object.
*/
NhlRLClear(srlist);
NhlRLSetString(srlist,NhlNappDefaultParent,"True");
NhlRLSetString(srlist,NhlNappUsrDir,"./");
NhlCreate(&appid,"cn09",NhlappClass,NhlDEFAULT_APP,srlist);
cmap[0][0] = 0.0; cmap[0][1] = 0.0; cmap[0][2] = 0.0;
cmap[1][0] = 1.0; cmap[1][1] = 1.0; cmap[1][2] = 1.0;
cmap[2][0] = 1.0; cmap[2][1] = 1.0; cmap[2][2] = 1.0;
cmap[3][0] = 1.0; cmap[3][1] = 0.0; cmap[3][2] = 0.0;
cmap[4][0] = 0.0; cmap[4][1] = 1.0; cmap[4][2] = 0.0;
cmap[5][0] = 0.0; cmap[5][1] = 0.0; cmap[5][2] = 1.0;
cmap[6][0] = 1.0; cmap[6][1] = 1.0; cmap[6][2] = 0.0;
cmap[7][0] = 0.0; cmap[7][1] = 1.0; cmap[7][2] = 1.0;
cmap[8][0] = 1.0; cmap[8][1] = 0.0; cmap[8][2] = 1.0;
cmap[9][0] = 0.5; cmap[9][1] = 0.0; cmap[9][2] = 0.0;
cmap[10][0] = 0.5; cmap[10][1] = 1.0; cmap[10][2] = 1.0;
cmap[11][0] = 0.0; cmap[11][1] = 0.0; cmap[11][2] = 0.5;
cmap[12][0] = 1.0; cmap[12][1] = 1.0; cmap[12][2] = 0.5;
cmap[13][0] = 0.5; cmap[13][1] = 0.0; cmap[13][2] = 1.0;
cmap[14][0] = 1.0; cmap[14][1] = 0.5; cmap[14][2] = 0.0;
cmap[15][0] = 0.0; cmap[15][1] = 0.5; cmap[15][2] = 1.0;
cmap[16][0] = 0.5; cmap[16][1] = 1.0; cmap[16][2] = 0.0;
cmap[17][0] = 0.5; cmap[17][1] = 0.0; cmap[17][2] = 0.5;
cmap[18][0] = 0.5; cmap[18][1] = 1.0; cmap[18][2] = 0.5;
cmap[19][0] = 1.0; cmap[19][1] = 0.5; cmap[19][2] = 1.0;
cmap[20][0] = 0.0; cmap[20][1] = 0.5; cmap[20][2] = 0.0;
cmap[21][0] = 0.5; cmap[21][1] = 0.5; cmap[21][2] = 1.0;
cmap[22][0] = 1.0; cmap[22][1] = 0.0; cmap[22][2] = 0.5;
icount[0] = NCOLORS;
icount[1] = 3;
if (!strcmp(wks_type,"ncgm") || !strcmp(wks_type,"NCGM")) {
/*
* Create a meta file object.
*/
NhlRLClear(srlist);
NhlRLSetMDFloatArray(srlist,NhlNwkColorMap,&cmap[0][0],2,icount);
NhlRLSetString(srlist,NhlNwkMetaName,"./cn09c.ncgm");
NhlCreate(&workid,"cn09Work",NhlncgmWorkstationClass,
NhlDEFAULT_APP,srlist);
}
else if (!strcmp(wks_type,"x11") || !strcmp(wks_type,"X11")) {
/*
* Create an X11 workstation.
*/
NhlRLClear(srlist);
NhlRLSetMDFloatArray(srlist,NhlNwkColorMap,&cmap[0][0],2,icount);
NhlRLSetInteger(srlist,NhlNwkPause,True);
NhlCreate(&workid,"cn09Work",NhlcairoWindowWorkstationClass,
NhlDEFAULT_APP,srlist);
}
else if (!strcmp(wks_type,"oldps") || !strcmp(wks_type,"OLDPS")) {
/*
* Create an older-style PostScript workstation.
*/
NhlRLClear(srlist);
NhlRLSetMDFloatArray(srlist,NhlNwkColorMap,&cmap[0][0],2,icount);
NhlRLSetString(srlist,NhlNwkPSFileName,"./cn09c.ps");
NhlCreate(&workid,"cn09Work",NhlpsWorkstationClass,
NhlDEFAULT_APP,srlist);
}
else if (!strcmp(wks_type,"oldpdf") || !strcmp(wks_type,"OLDPDF")) {
/*
* Create an older-style PDF workstation.
*/
NhlRLClear(srlist);
NhlRLSetMDFloatArray(srlist,NhlNwkColorMap,&cmap[0][0],2,icount);
NhlRLSetString(srlist,NhlNwkPDFFileName,"./cn09c.pdf");
NhlCreate(&workid,"cn09Work",NhlpdfWorkstationClass,
NhlDEFAULT_APP,srlist);
}
else if (!strcmp(wks_type,"pdf") || !strcmp(wks_type,"PDF") ||
!strcmp(wks_type,"ps") || !strcmp(wks_type,"PS")) {
/*
* Create a cairo PS/PDF workstation.
*/
NhlRLClear(srlist);
NhlRLSetMDFloatArray(srlist,NhlNwkColorMap,&cmap[0][0],2,icount);
NhlRLSetString(srlist,NhlNwkFileName,"./cn09c");
NhlRLSetString(srlist,NhlNwkFormat,(char*)wks_type);
NhlCreate(&workid,"cn09Work",NhlcairoDocumentWorkstationClass,
NhlDEFAULT_APP,srlist);
}
else if (!strcmp(wks_type,"png") || !strcmp(wks_type,"PNG")) {
/*
* Create a cairo PNG workstation.
*/
NhlRLClear(srlist);
NhlRLSetMDFloatArray(srlist,NhlNwkColorMap,&cmap[0][0],2,icount);
NhlRLSetString(srlist,NhlNwkFileName,"./cn09c");
NhlRLSetString(srlist,NhlNwkFormat,(char*)wks_type);
NhlCreate(&workid,"cn09Work",NhlcairoImageWorkstationClass,
NhlDEFAULT_APP,srlist);
}
/*
* Open data file containing surface pressure data for
* entire globe.
*/
sprintf( filename, "%s/cdf/contour.cdf", dir );
ncid = ncopen(filename,NC_NOWRITE);
/*
* Get the lat/lon dimensions.
*/
lat_id = ncdimid(ncid,"lat");
lon_id = ncdimid(ncid,"lon");
frtime_id = ncdimid(ncid,"frtime");
ncdiminq(ncid,lat_id,(char *)0,&latlen);
ncdiminq(ncid,lon_id,(char *)0,&lonlen);
ncdiminq(ncid,frtime_id,(char *)0,&frtimelen);
/*
* Read in surface pressure and convert it to millibars.
*/
press_id = ncvarid(ncid,"Psl");
start[0] = start[1] = start[2] = 0;
count[0] = 1; count[1] = latlen; count[2] = lonlen;
ncvarget(ncid,press_id,(long const *)start,(long const *)count,press);
ncattget(ncid,press_id,"_FillValue",&special_value);
for( j = 0; j < latlen; j++ ) {
for( k = 0; k < lonlen; k++ ) {
press[j][k] /= 100.;
}
}
/*
* Read in lat/lon/frtime values.
*/
lat_id = ncvarid(ncid,"lat");
count[0] = latlen;
ncvarget(ncid,lat_id,(long const *)start,(long const *)count,lat);
lon_id = ncvarid(ncid,"lon");
count[0] = lonlen;
ncvarget(ncid,lon_id,(long const *)start,(long const *)count,lon);
frtime_id = ncvarid(ncid,"frtime");
count[0] = frtimelen;
ncvarget(ncid,frtime_id,(long const *)start,(long const *)count,frtime);
/*
* Create scalar field configured with first time step
* of pressure data.
*/
icount[0] = latlen; icount[1] = lonlen;
NhlRLClear(srlist);
NhlRLSetMDFloatArray(srlist,NhlNsfDataArray,&press[0][0],2,icount);
NhlRLSetFloat(srlist,NhlNsfMissingValueV,special_value);
NhlRLSetFloat(srlist,NhlNsfXCStartV,lon[0]);
NhlRLSetFloat(srlist,NhlNsfXCEndV,lon[lonlen-1]);
NhlRLSetFloat(srlist,NhlNsfYCStartV,lat[0]);
NhlRLSetFloat(srlist,NhlNsfYCEndV,lat[latlen-1]);
NhlCreate(&field1,"field1",NhlscalarFieldClass,appid,srlist);
/*
* Create contour object using manual level spacing and solid
* color fill
*/
NhlRLClear(srlist);
NhlRLSetInteger(srlist,NhlNcnScalarFieldData,field1);
NhlRLSetString(srlist,NhlNcnLevelSelectionMode, "ManualLevels");
NhlRLSetFloat(srlist,NhlNcnMinLevelValF,960.0);
NhlRLSetFloat(srlist,NhlNcnMaxLevelValF,1040.0);
NhlRLSetFloat(srlist,NhlNcnLevelSpacingF,5.0);
NhlRLSetInteger(srlist,NhlNcnMaxLevelCount,25);
NhlRLSetString(srlist,NhlNcnInfoLabelOn,"OFF");
NhlRLSetString(srlist,NhlNcnHighLabelsOn,"OFF");
NhlRLSetString(srlist,NhlNcnLowLabelsOn,"OFF");
NhlRLSetString(srlist,NhlNcnLineLabelsOn,"False");
NhlRLSetString(srlist,NhlNcnLinesOn,"False");
NhlRLSetString(srlist,NhlNcnFillOn,"True");
NhlRLSetString(srlist,NhlNtiMainString,"Forecast Time 0");
NhlCreate(&con1,"con1",NhlcontourPlotClass,workid,srlist);
/*
* Draw first frame
*/
NhlDraw(con1);
NhlFrame(workid);
/*
* Loop and draw remaining frames reseting the scalar field object
* with a new array for each iteration
*/
for( i = 1; i <= frtimelen-1; i++ ) {
/*
* Read in surface pressure and convert it to millibars.
*/
start[0] = i; start[1] = start[2] = 0;
count[0] = 1; count[1] = latlen; count[2] = lonlen;
ncvarget(ncid,press_id,(long const *)start,(long const *)count,press);
for( j = 0; j < latlen; j++ ) {
for( k = 0; k < lonlen; k++ ) {
press[j][k] /= 100.;
}
}
NhlRLClear(srlist);
icount[0] = latlen; icount[1] = lonlen;
NhlRLSetMDFloatArray(srlist,NhlNsfDataArray,&press[0][0],2,icount);
/*
* Create new scalar field.
*/
NhlSetValues(field1,srlist);
NhlRLClear(srlist);
sprintf(string,"Forecast Time %d", frtime[i] );
NhlRLSetString(srlist,NhlNtiMainString,string);
NhlSetValues(con1,srlist);
NhlDraw(con1);
NhlFrame(workid);
}
/*
* Close the netCDF file.
*/
ncclose(ncid);
/*
* NhlDestroy destroys the given id and all of its children.
*/
NhlRLDestroy(srlist);
NhlDestroy(appid);
/*
* Restores state.
*/
NhlClose();
exit(0);
}
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