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s2let_idl_hpx.c
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s2let_idl_hpx.c
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// S2LET package
// Copyright (C) 2012
// Boris Leistedt & Jason McEwen
#include "s2let/s2let.h"
/*
* IDL integer types. For historical reasons, we use UCHAR for TYP_BYTE
* instead of defining an IDL_BYTE type.
*/
#if defined(ALPHA_OSF) || defined(SUN_64) || defined(LINUX_X86_64) || \
defined(HPUX_64) || defined(IRIX_64) || defined(AIX_64)
#define IDL_SIZEOF_C_LONG 8
#else
#define IDL_SIZEOF_C_LONG 4
#endif
#if (IDL_SIZEOF_C_LONG == 8) || defined(MSWIN_64)
#define IDL_SIZEOF_C_PTR 8
#else
#define IDL_SIZEOF_C_PTR 4
#endif
typedef short IDL_INT;
typedef unsigned short IDL_UINT;
#if IDL_SIZEOF_C_LONG == 8
typedef int IDL_LONG;
typedef unsigned int IDL_ULONG;
#elif IDL_SIZEOF_C_LONG == 4
typedef long IDL_LONG;
typedef unsigned long IDL_ULONG;
#else
#error "IDL_LONG not defined --- unexpected value of IDL_SIZEOF_C_LONG"
#endif
int s2let_idl_axisym_hpx_wav_analysis_real(int argc, void *argv[]) {
if (argc != 8)
return 0;
double *f_wav = (double *)argv[0];
double *f_scal = (double *)argv[1];
double *f = (double *)argv[2];
IDL_INT *nside = (IDL_INT *)argv[3];
IDL_INT *B = (IDL_INT *)argv[4];
IDL_INT *L = (IDL_INT *)argv[5];
IDL_INT *J_min = (IDL_INT *)argv[6];
IDL_INT *wavtype = (IDL_INT *)argv[7];
s2let_switch_wavtype(*wavtype);
s2let_parameters_t parameters = {};
parameters.B = *B;
parameters.L = *L;
parameters.J_min = *J_min;
s2let_transform_axisym_wav_analysis_hpx_real(f_wav, f_scal, f, *nside, ¶meters);
// s2let_transform_axisym_wav_analysis_hpx_real(f_wav, f_scal, f, *nside, *B, *L,
// *J_min);
return 1;
}
int s2let_idl_axisym_hpx_wav_synthesis_real(int argc, void *argv[]) {
if (argc != 8)
return 0;
double *f = (double *)argv[0];
double *f_wav = (double *)argv[1];
double *f_scal = (double *)argv[2];
IDL_INT *nside = (IDL_INT *)argv[3];
IDL_INT *B = (IDL_INT *)argv[4];
IDL_INT *L = (IDL_INT *)argv[5];
IDL_INT *J_min = (IDL_INT *)argv[6];
IDL_INT *wavtype = (IDL_INT *)argv[7];
s2let_switch_wavtype(*wavtype);
s2let_parameters_t parameters = {};
parameters.B = *B;
parameters.L = *L;
parameters.J_min = *J_min;
s2let_transform_axisym_wav_synthesis_hpx_real(f, f_wav, f_scal, *nside, ¶meters);
// s2let_transform_axisym_wav_synthesis_hpx_real(f, f_wav, f_scal, *nside, *B, *L,
// *J_min);
return 1;
}
int s2let_idl_hpx_map2alm_real(int argc, void *argv[]) {
if (argc != 4)
return 0;
complex double *flm = (complex double *)argv[0];
double *f = (double *)argv[1];
IDL_INT *nside = (IDL_INT *)argv[2];
IDL_INT *L = (IDL_INT *)argv[3];
s2let_hpx_map2alm_real(flm, f, *nside, *L);
return 1;
}
int s2let_idl_hpx_alm2map_real(int argc, void *argv[]) {
if (argc != 4)
return 0;
double *f = (double *)argv[0];
complex double *flm = (complex double *)argv[1];
IDL_INT *nside = (IDL_INT *)argv[2];
IDL_INT *L = (IDL_INT *)argv[3];
s2let_hpx_alm2map_real(f, flm, *nside, *L);
return 1;
}