gcc/m2/gm2-libs-iso/ShortComplexMath.mod - gcc.git - Git at Google

 (* ShortComplexMath.mod implements access to the ShortComplex intrincics.

 Copyright (C) 2009-2025 Free Software Foundation, Inc.
 Contributed by Gaius Mulley <gaius.mulley@southwales.ac.uk>.

 This file is part of GNU Modula-2.

 GNU Modula-2 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 3, or (at your option)
 any later version.

 GNU Modula-2 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.

 Under Section 7 of GPL version 3, you are granted additional
 permissions described in the GCC Runtime Library Exception, version
 3.1, as published by the Free Software Foundation.

 You should have received a copy of the GNU General Public License and
 a copy of the GCC Runtime Library Exception along with this program;
 see the files COPYING3 and COPYING.RUNTIME respectively.  If not, see
 <http://www.gnu.org/licenses/>.  *)

 IMPLEMENTATION MODULE ShortComplexMath ;

 IMPORT cbuiltin ;


 (* Returns the length of z *)

 PROCEDURE __ATTRIBUTE__ __BUILTIN__ ((__builtin_cabsf)) abs (z: SHORTCOMPLEX): SHORTREAL;
 BEGIN
    RETURN cbuiltin.cabsf (z)
 END abs ;


 (* Returns the angle that z subtends to the positive real axis *)

 PROCEDURE __ATTRIBUTE__ __BUILTIN__ ((__builtin_cargf)) arg (z: SHORTCOMPLEX): SHORTREAL;
 BEGIN
    RETURN cbuiltin.cargf (z)
 END arg ;


 (* Returns the complex conjugate of z *)

 PROCEDURE __ATTRIBUTE__ __BUILTIN__ ((__builtin_conjf)) conj (z: SHORTCOMPLEX): SHORTCOMPLEX;
 BEGIN
    RETURN cbuiltin.conjf (z)
 END conj ;


 (* Returns the value of the number base raised to the power exponent *)

 PROCEDURE __ATTRIBUTE__ __BUILTIN__ ((__builtin_cpowerf)) power (base: SHORTCOMPLEX; exponent: SHORTREAL): SHORTCOMPLEX;
 BEGIN
    RETURN cbuiltin.cpowf (base, exponent)
 END power ;


 (* Returns the principal square root of z *)

 PROCEDURE __ATTRIBUTE__ __BUILTIN__ ((__builtin_csqrtf)) sqrt (z: SHORTCOMPLEX): SHORTCOMPLEX;
 BEGIN
    RETURN cbuiltin.csqrtf (z)
 END sqrt ;


 (* Returns the complex exponential of z *)

 PROCEDURE __ATTRIBUTE__ __BUILTIN__ ((__builtin_cexpf)) exp (z: SHORTCOMPLEX): SHORTCOMPLEX;
 BEGIN
    RETURN cbuiltin.cexpf (z)
 END exp ;


 (* Returns the principal value of the natural logarithm of z *)

 PROCEDURE __ATTRIBUTE__ __BUILTIN__ ((__builtin_clnf)) ln (z: SHORTCOMPLEX): SHORTCOMPLEX;
 BEGIN
    RETURN cbuiltin.clogf (z)
 END ln ;


 (* Returns the sine of z *)

 PROCEDURE __ATTRIBUTE__ __BUILTIN__ ((__builtin_csinf)) sin (z: SHORTCOMPLEX): SHORTCOMPLEX;
 BEGIN
    RETURN cbuiltin.csinf (z)
 END sin ;


 (* Returns the cosine of z *)

 PROCEDURE __ATTRIBUTE__ __BUILTIN__ ((__builtin_ccosf)) cos (z: SHORTCOMPLEX): SHORTCOMPLEX;
 BEGIN
    RETURN cbuiltin.ccosf (z)
 END cos ;


 (* Returns the tangent of z *)

 PROCEDURE __ATTRIBUTE__ __BUILTIN__ ((__builtin_ctanf)) tan (z: SHORTCOMPLEX): SHORTCOMPLEX;
 BEGIN
    RETURN cbuiltin.ctanf (z)
 END tan ;


 (* Returns the arcsine of z *)

 PROCEDURE __ATTRIBUTE__ __BUILTIN__ ((__builtin_carcsinf)) arcsin (z: SHORTCOMPLEX): SHORTCOMPLEX;
 BEGIN
    RETURN cbuiltin.casinf (z)
 END arcsin ;


 (* Returns the arccosine of z *)

 PROCEDURE __ATTRIBUTE__ __BUILTIN__ ((__builtin_carccosf)) arccos (z: SHORTCOMPLEX): SHORTCOMPLEX;
 BEGIN
    RETURN cbuiltin.cacosf (z)
 END arccos ;


 (* Returns the arctangent of z *)

 PROCEDURE __ATTRIBUTE__ __BUILTIN__ ((__builtin_carctanf)) arctan (z: SHORTCOMPLEX): SHORTCOMPLEX;
 BEGIN
    RETURN cbuiltin.catanf (z)
 END arctan ;


 (* Returns the complex number with the specified polar coordinates *)

 PROCEDURE polarToComplex (abs, arg: SHORTREAL): SHORTCOMPLEX;
 BEGIN
    RETURN CMPLX (abs*cbuiltin.cosf(arg), abs*cbuiltin.sinf(arg))
 END polarToComplex ;


 (* Returns the scalar product of scalar with z *)

 PROCEDURE scalarMult (scalar: SHORTREAL; z: SHORTCOMPLEX): SHORTCOMPLEX;
 BEGIN
    RETURN CMPLX (RE(z)*scalar, IM(z)*scalar)
 END scalarMult ;


 (* Returns TRUE if the current coroutine is in the exceptional
    execution state because of the raising of an exception in a
    routine from this module; otherwise returns FALSE.
 *)

 PROCEDURE IsCMathException (): BOOLEAN;
 BEGIN
    (* --fixme-- we should really attempt to catch sigfpe in these procedures *)
    RETURN( FALSE )
 END IsCMathException ;


 END ShortComplexMath.
	(* ShortComplexMath.mod implements access to the ShortComplex intrincics.

	Copyright (C) 2009-2025 Free Software Foundation, Inc.
	Contributed by Gaius Mulley <gaius.mulley@southwales.ac.uk>.

	This file is part of GNU Modula-2.

	GNU Modula-2 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 3, or (at your option)
	any later version.

	GNU Modula-2 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.

	Under Section 7 of GPL version 3, you are granted additional
	permissions described in the GCC Runtime Library Exception, version
	3.1, as published by the Free Software Foundation.

	You should have received a copy of the GNU General Public License and
	a copy of the GCC Runtime Library Exception along with this program;
	see the files COPYING3 and COPYING.RUNTIME respectively. If not, see
	<http://www.gnu.org/licenses/>. *)

	IMPLEMENTATION MODULE ShortComplexMath ;

	IMPORT cbuiltin ;


	(* Returns the length of z *)

	PROCEDURE __ATTRIBUTE__ __BUILTIN__ ((__builtin_cabsf)) abs (z: SHORTCOMPLEX): SHORTREAL;
	BEGIN
	RETURN cbuiltin.cabsf (z)
	END abs ;


	(* Returns the angle that z subtends to the positive real axis *)

	PROCEDURE __ATTRIBUTE__ __BUILTIN__ ((__builtin_cargf)) arg (z: SHORTCOMPLEX): SHORTREAL;
	BEGIN
	RETURN cbuiltin.cargf (z)
	END arg ;


	(* Returns the complex conjugate of z *)

	PROCEDURE __ATTRIBUTE__ __BUILTIN__ ((__builtin_conjf)) conj (z: SHORTCOMPLEX): SHORTCOMPLEX;
	BEGIN
	RETURN cbuiltin.conjf (z)
	END conj ;


	(* Returns the value of the number base raised to the power exponent *)

	PROCEDURE __ATTRIBUTE__ __BUILTIN__ ((__builtin_cpowerf)) power (base: SHORTCOMPLEX; exponent: SHORTREAL): SHORTCOMPLEX;
	BEGIN
	RETURN cbuiltin.cpowf (base, exponent)
	END power ;


	(* Returns the principal square root of z *)

	PROCEDURE __ATTRIBUTE__ __BUILTIN__ ((__builtin_csqrtf)) sqrt (z: SHORTCOMPLEX): SHORTCOMPLEX;
	BEGIN
	RETURN cbuiltin.csqrtf (z)
	END sqrt ;


	(* Returns the complex exponential of z *)

	PROCEDURE __ATTRIBUTE__ __BUILTIN__ ((__builtin_cexpf)) exp (z: SHORTCOMPLEX): SHORTCOMPLEX;
	BEGIN
	RETURN cbuiltin.cexpf (z)
	END exp ;


	(* Returns the principal value of the natural logarithm of z *)

	PROCEDURE __ATTRIBUTE__ __BUILTIN__ ((__builtin_clnf)) ln (z: SHORTCOMPLEX): SHORTCOMPLEX;
	BEGIN
	RETURN cbuiltin.clogf (z)
	END ln ;


	(* Returns the sine of z *)

	PROCEDURE __ATTRIBUTE__ __BUILTIN__ ((__builtin_csinf)) sin (z: SHORTCOMPLEX): SHORTCOMPLEX;
	BEGIN
	RETURN cbuiltin.csinf (z)
	END sin ;


	(* Returns the cosine of z *)

	PROCEDURE __ATTRIBUTE__ __BUILTIN__ ((__builtin_ccosf)) cos (z: SHORTCOMPLEX): SHORTCOMPLEX;
	BEGIN
	RETURN cbuiltin.ccosf (z)
	END cos ;


	(* Returns the tangent of z *)

	PROCEDURE __ATTRIBUTE__ __BUILTIN__ ((__builtin_ctanf)) tan (z: SHORTCOMPLEX): SHORTCOMPLEX;
	BEGIN
	RETURN cbuiltin.ctanf (z)
	END tan ;


	(* Returns the arcsine of z *)

	PROCEDURE __ATTRIBUTE__ __BUILTIN__ ((__builtin_carcsinf)) arcsin (z: SHORTCOMPLEX): SHORTCOMPLEX;
	BEGIN
	RETURN cbuiltin.casinf (z)
	END arcsin ;


	(* Returns the arccosine of z *)

	PROCEDURE __ATTRIBUTE__ __BUILTIN__ ((__builtin_carccosf)) arccos (z: SHORTCOMPLEX): SHORTCOMPLEX;
	BEGIN
	RETURN cbuiltin.cacosf (z)
	END arccos ;


	(* Returns the arctangent of z *)

	PROCEDURE __ATTRIBUTE__ __BUILTIN__ ((__builtin_carctanf)) arctan (z: SHORTCOMPLEX): SHORTCOMPLEX;
	BEGIN
	RETURN cbuiltin.catanf (z)
	END arctan ;


	(* Returns the complex number with the specified polar coordinates *)

	PROCEDURE polarToComplex (abs, arg: SHORTREAL): SHORTCOMPLEX;
	BEGIN
	RETURN CMPLX (abscbuiltin.cosf(arg), abscbuiltin.sinf(arg))
	END polarToComplex ;


	(* Returns the scalar product of scalar with z *)

	PROCEDURE scalarMult (scalar: SHORTREAL; z: SHORTCOMPLEX): SHORTCOMPLEX;
	BEGIN
	RETURN CMPLX (RE(z)scalar, IM(z)scalar)
	END scalarMult ;


	(* Returns TRUE if the current coroutine is in the exceptional
	execution state because of the raising of an exception in a
	routine from this module; otherwise returns FALSE.
	*)

	PROCEDURE IsCMathException (): BOOLEAN;
	BEGIN
	(* --fixme-- we should really attempt to catch sigfpe in these procedures *)
	RETURN( FALSE )
	END IsCMathException ;


	END ShortComplexMath.