/usr/include/wcslib-4.20/wcstrig.h is in wcslib-dev 4.20-2.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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WCSLIB 4.20 - an implementation of the FITS WCS standard.
Copyright (C) 1995-2013, Mark Calabretta
This file is part of WCSLIB.
WCSLIB is free software: you can redistribute it and/or modify it under the
terms of the GNU Lesser General Public License as published by the Free
Software Foundation, either version 3 of the License, or (at your option)
any later version.
WCSLIB 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 Lesser General Public License for
more details.
You should have received a copy of the GNU Lesser General Public License
along with WCSLIB. If not, see http://www.gnu.org/licenses.
Direct correspondence concerning WCSLIB to mark@calabretta.id.au
Author: Mark Calabretta, Australia Telescope National Facility, CSIRO.
http://www.atnf.csiro.au/people/Mark.Calabretta
$Id: wcstrig.h,v 4.20 2013/12/18 05:42:49 mcalabre Exp $
*=============================================================================
*
* Summary of the wcstrig routines
* -------------------------------
* When dealing with celestial coordinate systems and spherical projections
* (some moreso than others) it is often desirable to use an angular measure
* that provides an exact representation of the latitude of the north or south
* pole. The WCSLIB routines use the following trigonometric functions that
* take or return angles in degrees:
*
* - cosd()
* - sind()
* - tand()
* - acosd()
* - asind()
* - atand()
* - atan2d()
* - sincosd()
*
* These "trigd" routines are expected to handle angles that are a multiple of
* 90 degrees returning an exact result. Some C implementations provide these
* as part of a system library and in such cases it may (or may not!) be
* preferable to use them. WCSLIB provides wrappers on the standard trig
* functions based on radian measure, adding tests for multiples of 90 degrees.
*
* However, wcstrig.h also provides the choice of using preprocessor macro
* implementations of the trigd functions that don't test for multiples of
* 90 degrees (compile with -DWCSTRIG_MACRO). These are typically 20% faster
* but may lead to problems near the poles.
*
*
* cosd() - Cosine of an angle in degrees
* --------------------------------------
* cosd() returns the cosine of an angle given in degrees.
*
* Given:
* angle double [deg].
*
* Function return value:
* double Cosine of the angle.
*
*
* sind() - Sine of an angle in degrees
* ------------------------------------
* sind() returns the sine of an angle given in degrees.
*
* Given:
* angle double [deg].
*
* Function return value:
* double Sine of the angle.
*
*
* sincosd() - Sine and cosine of an angle in degrees
* --------------------------------------------------
* sincosd() returns the sine and cosine of an angle given in degrees.
*
* Given:
* angle double [deg].
*
* Returned:
* sin *double Sine of the angle.
*
* cos *double Cosine of the angle.
*
* Function return value:
* void
*
*
* tand() - Tangent of an angle in degrees
* ---------------------------------------
* tand() returns the tangent of an angle given in degrees.
*
* Given:
* angle double [deg].
*
* Function return value:
* double Tangent of the angle.
*
*
* acosd() - Inverse cosine, returning angle in degrees
* ----------------------------------------------------
* acosd() returns the inverse cosine in degrees.
*
* Given:
* x double in the range [-1,1].
*
* Function return value:
* double Inverse cosine of x [deg].
*
*
* asind() - Inverse sine, returning angle in degrees
* --------------------------------------------------
* asind() returns the inverse sine in degrees.
*
* Given:
* y double in the range [-1,1].
*
* Function return value:
* double Inverse sine of y [deg].
*
*
* atand() - Inverse tangent, returning angle in degrees
* -----------------------------------------------------
* atand() returns the inverse tangent in degrees.
*
* Given:
* s double
*
* Function return value:
* double Inverse tangent of s [deg].
*
*
* atan2d() - Polar angle of (x,y), in degrees
* -------------------------------------------
* atan2d() returns the polar angle, beta, in degrees, of polar coordinates
* (rho,beta) corresponding Cartesian coordinates (x,y). It is equivalent to
* the arg(x,y) function of WCS Paper II, though with transposed arguments.
*
* Given:
* y double Cartesian y-coordinate.
*
* x double Cartesian x-coordinate.
*
* Function return value:
* double Polar angle of (x,y) [deg].
*
*===========================================================================*/
#ifndef WCSLIB_WCSTRIG
#define WCSLIB_WCSTRIG
#include <math.h>
#include "wcsconfig.h"
#ifdef HAVE_SINCOS
void sincos(double angle, double *sin, double *cos);
#endif
#ifdef __cplusplus
extern "C" {
#endif
#ifdef WCSTRIG_MACRO
/* Macro implementation of the trigd functions. */
#include "wcsmath.h"
#define cosd(X) cos((X)*D2R)
#define sind(X) sin((X)*D2R)
#define tand(X) tan((X)*D2R)
#define acosd(X) acos(X)*R2D
#define asind(X) asin(X)*R2D
#define atand(X) atan(X)*R2D
#define atan2d(Y,X) atan2(Y,X)*R2D
#ifdef HAVE_SINCOS
#define sincosd(X,S,C) sincos((X)*D2R,(S),(C))
#else
#define sincosd(X,S,C) *(S) = sin((X)*D2R); *(C) = cos((X)*D2R);
#endif
#else
/* Use WCSLIB wrappers or native trigd functions. */
double cosd(double angle);
double sind(double angle);
void sincosd(double angle, double *sin, double *cos);
double tand(double angle);
double acosd(double x);
double asind(double y);
double atand(double s);
double atan2d(double y, double x);
/* Domain tolerance for asin() and acos() functions. */
#define WCSTRIG_TOL 1e-10
#endif /* WCSTRIG_MACRO */
#ifdef __cplusplus
}
#endif
#endif /* WCSLIB_WCSTRIG */
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