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Diffstat (limited to 'winsup/mingw/mingwex/math/round_internal.h')
-rw-r--r-- | winsup/mingw/mingwex/math/round_internal.h | 155 |
1 files changed, 0 insertions, 155 deletions
diff --git a/winsup/mingw/mingwex/math/round_internal.h b/winsup/mingw/mingwex/math/round_internal.h deleted file mode 100644 index bb3c5ad23..000000000 --- a/winsup/mingw/mingwex/math/round_internal.h +++ /dev/null @@ -1,155 +0,0 @@ -#ifndef _ROUND_INTERNAL_H -/* - * round_internal.h - * - * $Id$ - * - * Provides a generic implementation of the numerical rounding - * algorithm, which is shared by all functions in the `round()', - * `lround()' and `llround()' families. - * - * Written by Keith Marshall <keithmarshall@users.sourceforge.net> - * - * This is free software. You may redistribute and/or modify it as you - * see fit, without restriction of copyright. - * - * This software is provided "as is", in the hope that it may be useful, - * but WITHOUT WARRANTY OF ANY KIND, not even any implied warranty of - * MERCHANTABILITY, nor of FITNESS FOR ANY PARTICULAR PURPOSE. At no - * time will the author accept any form of liability for any damages, - * however caused, resulting from the use of this software. - * - */ -#define _ROUND_INTERNAL_H - -#include <math.h> -#include <fenv.h> - -#define TYPE_PASTE( NAME, TYPE ) NAME##TYPE - -#define INPUT_TYPE INPUT_TYPEDEF( FUNCTION ) -#define INPUT_TYPEDEF( FUNCTION ) TYPE_PASTE( FUNCTION, _input_type ) -/* - * The types for the formal parameter, to each of the derived functions. - */ -#define round_input_type double -#define roundf_input_type float -#define roundl_input_type long double - -#define lround_input_type double -#define lroundf_input_type float -#define lroundl_input_type long double - -#define llround_input_type double -#define llroundf_input_type float -#define llroundl_input_type long double - -#define RETURN_TYPE RETURN_TYPEDEF( FUNCTION ) -#define RETURN_TYPEDEF( FUNCTION ) TYPE_PASTE( FUNCTION, _return_type ) -/* - * The types for the return value, from each of the derived functions. - */ -#define round_return_type double -#define roundf_return_type float -#define roundl_return_type long double - -#define lround_return_type long -#define lroundf_return_type long -#define lroundl_return_type long - -#define llround_return_type long long -#define llroundf_return_type long long -#define llroundl_return_type long long - -#define MAX_RETURN_VALUE RETURN_MAX( FUNCTION ) -#define RETURN_MAX( FUNCTION ) TYPE_PASTE( FUNCTION, _return_max ) -/* - * The maximum values which may be returned by each of the derived functions - * in the `lround' or the `llround' families. - */ -#define lround_return_max LONG_MAX -#define lroundf_return_max LONG_MAX -#define lroundl_return_max LONG_MAX - -#define llround_return_max LLONG_MAX -#define llroundf_return_max LLONG_MAX -#define llroundl_return_max LLONG_MAX - -#define MIN_RETURN_VALUE RETURN_MIN( FUNCTION ) -#define RETURN_MIN( FUNCTION ) TYPE_PASTE( FUNCTION, _return_min ) -/* - * The minimum values which may be returned by each of the derived functions - * in the `lround' or the `llround' families. - */ -#define lround_return_min LONG_MIN -#define lroundf_return_min LONG_MIN -#define lroundl_return_min LONG_MIN - -#define llround_return_min LLONG_MIN -#define llroundf_return_min LLONG_MIN -#define llroundl_return_min LLONG_MIN - -#define REF_VALUE( VALUE ) REF_TYPE( FUNCTION, VALUE ) -#define REF_TYPE( FUNC, VAL ) TYPE_PASTE( FUNC, _ref )( VAL ) -/* - * Macros for expressing constant values of the appropriate data type, - * for use in each of the derived functions. - */ -#define round_ref( VALUE ) VALUE -#define lround_ref( VALUE ) VALUE -#define llround_ref( VALUE ) VALUE - -#define roundl_ref( VALUE ) TYPE_PASTE( VALUE, L ) -#define lroundl_ref( VALUE ) TYPE_PASTE( VALUE, L ) -#define llroundl_ref( VALUE ) TYPE_PASTE( VALUE, L ) - -#define roundf_ref( VALUE ) TYPE_PASTE( VALUE, F ) -#define lroundf_ref( VALUE ) TYPE_PASTE( VALUE, F ) -#define llroundf_ref( VALUE ) TYPE_PASTE( VALUE, F ) - -static __inline__ -INPUT_TYPE __attribute__(( always_inline )) round_internal( INPUT_TYPE x ) -#define ROUND_MODES ( FE_TONEAREST | FE_UPWARD | FE_DOWNWARD | FE_TOWARDZERO ) -{ - /* Generic helper function, for rounding of the input parameter value to - * the nearest integer value. - */ - INPUT_TYPE z; - unsigned short saved_CW, tmp_required_CW; - - /* Rounding method suggested by Danny Smith <dannysmith@users.sf.net> - * - * Save the FPU control word state, set rounding mode TONEAREST, round the - * input value, then restore the original FPU control word state. - */ - __asm__( "fnstcw %0;" : "=m"( saved_CW )); - tmp_required_CW = ( saved_CW & ~ROUND_MODES ) | FE_TONEAREST; - __asm__( "fldcw %0;" :: "m"( tmp_required_CW )); - __asm__( "frndint;" : "=t"( z ) : "0"( x )); - __asm__( "fldcw %0;" :: "m"( saved_CW )); - - /* We now have a possible rounded value; unfortunately the FPU uses the - * `round-to-even' rule for exact mid-way cases, where both C99 and POSIX - * require us to always round away from zero, so we need to adjust those - * mid-way cases which the FPU rounded in the wrong direction. - * - * Correction method suggested by Greg Chicares <gchicares@sbcglobal.net> - */ - return x < REF_VALUE( 0.0 ) - ? /* - * For negative input values, an incorrectly rounded value will be - * exactly 0.5 greater than the original value; when we find such an - * exact rounding offset, we must subtract an additional 1.0 from the - * rounded result, otherwise we return the rounded result unchanged. - */ - z - x == REF_VALUE( 0.5 ) ? z - REF_VALUE( 1.0 ) : z - - : /* For positive input values, an incorrectly rounded value will be - * exactly 0.5 less than the original value; when we find such an exact - * rounding offset, we must add an additional 1.0 to the rounded result, - * otherwise we return the rounded result unchanged. - */ - x - z == REF_VALUE( 0.5 ) ? z + REF_VALUE( 1.0 ) : z; -} - -#endif /* !defined _ROUND_INTERNAL_H: $RCSfile$: end of file */ |