cosmotool/external/sharp/libsharp/sharp_geomhelpers.c
2012-11-10 09:01:12 -05:00

223 lines
5.9 KiB
C

/*
* This file is part of libsharp.
*
* libsharp is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2 of the License, or
* (at your option) any later version.
*
* libsharp is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with libsharp; if not, write to the Free Software
* Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
*/
/*
* libsharp is being developed at the Max-Planck-Institut fuer Astrophysik
* and financially supported by the Deutsches Zentrum fuer Luft- und Raumfahrt
* (DLR).
*/
/*! \file sharp_geomhelpers.c
* Spherical transform library
*
* Copyright (C) 2006-2011 Max-Planck-Society
* \author Martin Reinecke
*/
#include <math.h>
#include "sharp_geomhelpers.h"
#include "c_utils.h"
void sharp_make_healpix_geom_info (int nside, int stride,
sharp_geom_info **geom_info)
{
double *weight=RALLOC(double,2*nside);
SET_ARRAY(weight,0,2*nside,1);
sharp_make_weighted_healpix_geom_info (nside, stride, weight, geom_info);
DEALLOC(weight);
}
void sharp_make_weighted_healpix_geom_info (int nside, int stride,
const double *weight, sharp_geom_info **geom_info)
{
const double pi=3.141592653589793238462643383279502884197;
ptrdiff_t npix=(ptrdiff_t)nside*nside*12;
ptrdiff_t ncap=2*(ptrdiff_t)nside*(nside-1);
int nrings=4*nside-1;
double *theta=RALLOC(double,nrings);
double *weight_=RALLOC(double,nrings);
int *nph=RALLOC(int,nrings);
double *phi0=RALLOC(double,nrings);
ptrdiff_t *ofs=RALLOC(ptrdiff_t,nrings);
int *stride_=RALLOC(int,nrings);
for (int m=0; m<nrings; ++m)
{
int ring=m+1;
ptrdiff_t northring = (ring>2*nside) ? 4*nside-ring : ring;
stride_[m] = stride;
if (northring < nside)
{
theta[m] = 2*asin(northring/(sqrt(6.)*nside));
nph[m] = 4*northring;
phi0[m] = pi/nph[m];
ofs[m] = 2*northring*(northring-1)*stride;
}
else
{
double fact1 = (8.*nside)/npix;
double costheta = (2*nside-northring)*fact1;
theta[m] = acos(costheta);
nph[m] = 4*nside;
if ((northring-nside) & 1)
phi0[m] = 0;
else
phi0[m] = pi/nph[m];
ofs[m] = (ncap + (northring-nside)*nph[m])*stride;
}
if (northring != ring) /* southern hemisphere */
{
theta[m] = pi-theta[m];
ofs[m] = (npix - nph[m])*stride - ofs[m];
}
weight_[m]=4.*pi/npix*weight[northring-1];
}
sharp_make_geom_info (nrings, nph, ofs, stride_, phi0, theta, weight_,
geom_info);
DEALLOC(theta);
DEALLOC(weight_);
DEALLOC(nph);
DEALLOC(phi0);
DEALLOC(ofs);
DEALLOC(stride_);
}
static void gauleg (double x1, double x2, double *x, double *w, int n)
{
const double pi = 3.141592653589793238462643383279502884197;
const double eps = 3.0E-14;
int m = (n+1)/2;
double xm = 0.5*(x2+x1);
double xl = 0.5*(x2-x1);
for(int i=1; i<=m; ++i)
{
double z = cos(pi*(i-0.25)/(n+0.5));
double pp;
int dobreak=0;
while(1)
{
double p1 = 1.0, p2 = 0.0;
double z1 = z;
int j;
for(j=1; j<=n; ++j)
{
double p3 = p2;
p2 = p1;
p1 = ((2*j-1)*z*p2-(j-1)*p3)/j;
}
pp = n*(z*p1-p2)/(z*z-1);
z = z1 - p1/pp;
if (dobreak) break;
if (fabs(z-z1) <= eps) dobreak=1;
}
x[i-1] = xm - xl*z;
x[n-i] = xm + xl*z;
w[i-1] = w[n-i] = 2*xl/((1-z*z)*pp*pp);
}
}
static void makeweights (int bw, double *weights)
{
const double pi = 3.141592653589793238462643383279502884197;
const double fudge = pi/(4*bw);
for (int j=0; j<2*bw; ++j)
{
double tmpsum = 0;
for (int k=0; k<bw; ++k)
tmpsum += 1./(2*k+1) * sin((2*j+1)*(2*k+1)*fudge);
tmpsum *= sin((2*j+1)*fudge);
tmpsum *= 2./bw;
weights[j] = tmpsum;
/* weights[j + 2*bw] = tmpsum * sin((2*j+1)*fudge); */
}
}
void sharp_make_gauss_geom_info (int nrings, int nphi, int stride_lon,
int stride_lat, sharp_geom_info **geom_info)
{
const double pi=3.141592653589793238462643383279502884197;
double *theta=RALLOC(double,nrings);
double *weight=RALLOC(double,nrings);
int *nph=RALLOC(int,nrings);
double *phi0=RALLOC(double,nrings);
ptrdiff_t *ofs=RALLOC(ptrdiff_t,nrings);
int *stride_=RALLOC(int,nrings);
gauleg(-1,1,theta,weight,nrings);
for (int m=0; m<nrings; ++m)
{
theta[m] = acos(-theta[m]);
nph[m]=nphi;
phi0[m]=0;
ofs[m]=(ptrdiff_t)m*stride_lat;
stride_[m]=stride_lon;
weight[m]*=2*pi/nphi;
}
sharp_make_geom_info (nrings, nph, ofs, stride_, phi0, theta, weight,
geom_info);
DEALLOC(theta);
DEALLOC(weight);
DEALLOC(nph);
DEALLOC(phi0);
DEALLOC(ofs);
DEALLOC(stride_);
}
void sharp_make_ecp_geom_info (int nrings, int nphi, double phi0,
int stride_lon, int stride_lat, sharp_geom_info **geom_info)
{
const double pi=3.141592653589793238462643383279502884197;
double *theta=RALLOC(double,nrings);
double *weight=RALLOC(double,nrings);
int *nph=RALLOC(int,nrings);
double *phi0_=RALLOC(double,nrings);
ptrdiff_t *ofs=RALLOC(ptrdiff_t,nrings);
int *stride_=RALLOC(int,nrings);
UTIL_ASSERT((nrings&1)==0,
"Even number of rings needed for equidistant grid!");
makeweights(nrings/2,weight);
for (int m=0; m<nrings; ++m)
{
theta[m] = (m+0.5)*pi/nrings;
nph[m]=nphi;
phi0_[m]=phi0;
ofs[m]=(ptrdiff_t)m*stride_lat;
stride_[m]=stride_lon;
weight[m]*=2*pi/nphi;
}
sharp_make_geom_info (nrings, nph, ofs, stride_, phi0_, theta, weight,
geom_info);
DEALLOC(theta);
DEALLOC(weight);
DEALLOC(nph);
DEALLOC(phi0_);
DEALLOC(ofs);
DEALLOC(stride_);
}