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mathfp: remove TRAD_SYNOPSIS 

Signed-off-by: Yaakov Selkowitz <yselkowi@redhat.com>
This commit is contained in:
Yaakov Selkowitz 2017-11-30 02:51:13 -06:00
parent ec4c079f4b
commit 9f369d3c8d
28 changed files with 28 additions and 344 deletions
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10
newlib/libm/mathfp/e_acosh.c
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@ -10,19 +10,11 @@ acosh
INDEX
acoshf
ANSI_SYNOPSIS
SYNOPSIS
#include <math.h>
double acosh(double <[x]>);
float acoshf(float <[x]>);
TRAD_SYNOPSIS
#include <math.h>
double acosh(<[x]>)
double <[x]>;
float acoshf(<[x]>)
float <[x]>;
DESCRIPTION
<<acosh>> calculates the inverse hyperbolic cosine of <[x]>.
<<acosh>> is defined as

10
newlib/libm/mathfp/e_atanh.c
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@ -21,19 +21,11 @@ INDEX
INDEX
atanhf
ANSI_SYNOPSIS
SYNOPSIS
#include <math.h>
double atanh(double <[x]>);
float atanhf(float <[x]>);
TRAD_SYNOPSIS
#include <math.h>
double atanh(<[x]>)
double <[x]>;
float atanhf(<[x]>)
float <[x]>;
DESCRIPTION
<<atanh>> calculates the inverse hyperbolic tangent of <[x]>.

9
newlib/libm/mathfp/e_hypot.c
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@ -19,18 +19,11 @@ INDEX
INDEX
hypotf
ANSI_SYNOPSIS
SYNOPSIS
#include <math.h>
double hypot(double <[x]>, double <[y]>);
float hypotf(float <[x]>, float <[y]>);
TRAD_SYNOPSIS
double hypot(<[x]>, <[y]>)
double <[x]>, <[y]>;
float hypotf(<[x]>, <[y]>)
float <[x]>, <[y]>;
DESCRIPTION
<<hypot>> calculates the Euclidean distance
@tex

9
newlib/libm/mathfp/e_remainder.c
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@ -19,18 +19,11 @@ INDEX
INDEX
remainderf
ANSI_SYNOPSIS
SYNOPSIS
#include <math.h>
double remainder(double <[x]>, double <[y]>);
float remainderf(float <[x]>, float <[y]>);
TRAD_SYNOPSIS
#include <math.h>
double remainder(<[x]>,<[y]>)
double <[x]>, <[y]>;
float remainderf(<[x]>,<[y]>)
float <[x]>, <[y]>;
DESCRIPTION
<<remainder>> and <<remainderf>> find the remainder of
<[x]>/<[y]>; this value is in the range -<[y]>/2 .. +<[y]>/2.

25
newlib/libm/mathfp/er_lgamma.c
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@ -34,7 +34,7 @@ lgamma_r
INDEX
lgammaf_r
ANSI_SYNOPSIS
SYNOPSIS
#include <math.h>
double gamma(double <[x]>);
float gammaf(float <[x]>);
@ -45,29 +45,6 @@ float gammaf_r(float <[x]>, int *<[signgamp]>);
double lgamma_r(double <[x]>, int *<[signgamp]>);
float lgammaf_r(float <[x]>, int *<[signgamp]>);
TRAD_SYNOPSIS
#include <math.h>
double gamma(<[x]>)
double <[x]>;
float gammaf(<[x]>)
float <[x]>;
double lgamma(<[x]>)
double <[x]>;
float lgammaf(<[x]>)
float <[x]>;
double gamma_r(<[x]>, <[signgamp]>)
double <[x]>;
int <[signgamp]>;
float gammaf_r(<[x]>, <[signgamp]>)
float <[x]>;
int <[signgamp]>;
double lgamma_r(<[x]>, <[signgamp]>)
double <[x]>;
int <[signgamp]>;
float lgammaf_r(<[x]>, <[signgamp]>)
float <[x]>;
int <[signgamp]>;
DESCRIPTION
<<gamma>> calculates
@tex

12
newlib/libm/mathfp/s_acos.c
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@ -10,21 +10,11 @@ INDEX
INDEX
acosf
ANSI_SYNOPSIS
SYNOPSIS
#include <math.h>
double acos(double <[x]>);
float acosf(float <[x]>);
TRAD_SYNOPSIS
#include <math.h>
double acos(<[x]>)
double <[x]>;
float acosf(<[x]>)
float <[x]>;
DESCRIPTION
<<acos>> computes the inverse cosine (arc cosine) of the input value.

22
newlib/libm/mathfp/s_asine.c
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@ -24,7 +24,7 @@ INDEX
INDEX
asinef
ANSI_SYNOPSIS
SYNOPSIS
#include <math.h>
double asine(double <[x]>);
float asinef(float <[x]>);
@ -33,26 +33,6 @@ ANSI_SYNOPSIS
double acos(double <[x]>);
float acosf(float <[x]>);
TRAD_SYNOPSIS
#include <math.h>
double asine(<[x]>);
double <[x]>;
float asinef(<[x]>);
float <[x]>;
double asin(<[x]>)
double <[x]>;
float asinf(<[x]>)
float <[x]>;
double acos(<[x]>)
double <[x]>;
float acosf(<[x]>)
float <[x]>;
DESCRIPTION
<<asin>> computes the inverse sine or cosine of the argument <[x]>.

10
newlib/libm/mathfp/s_asinh.c
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@ -20,19 +20,11 @@ INDEX
INDEX
asinhf
ANSI_SYNOPSIS
SYNOPSIS
#include <math.h>
double asinh(double <[x]>);
float asinhf(float <[x]>);
TRAD_SYNOPSIS
#include <math.h>
double asinh(<[x]>)
double <[x]>;
float asinhf(<[x]>)
float <[x]>;
DESCRIPTION
<<asinh>> calculates the inverse hyperbolic sine of <[x]>.
<<asinh>> is defined as

10
newlib/libm/mathfp/s_atan.c
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@ -10,19 +10,11 @@ INDEX
INDEX
atanf
ANSI_SYNOPSIS
SYNOPSIS
#include <math.h>
double atan(double <[x]>);
float atanf(float <[x]>);
TRAD_SYNOPSIS
#include <math.h>
double atan(<[x]>);
double <[x]>;
float atanf(<[x]>);
float <[x]>;
DESCRIPTION
<<atan>> computes the inverse tangent (arc tangent) of the input value.

12
newlib/libm/mathfp/s_atan2.c
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@ -10,21 +10,11 @@ INDEX
INDEX
atan2f
ANSI_SYNOPSIS
SYNOPSIS
#include <math.h>
double atan2(double <[y]>,double <[x]>);
float atan2f(float <[y]>,float <[x]>);
TRAD_SYNOPSIS
#include <math.h>
double atan2(<[y]>,<[x]>);
double <[y]>;
double <[x]>;
float atan2f(<[y]>,<[x]>);
float <[y]>;
float <[x]>;
DESCRIPTION
<<atan2>> computes the inverse tangent (arc tangent) of <[y]>/<[x]>.

19
newlib/libm/mathfp/s_atangent.c
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@ -20,30 +20,13 @@ INDEX
INDEX
atanf
ANSI_SYNOPSIS
SYNOPSIS
#include <math.h>
double atan(double <[x]>);
float atan(float <[x]>);
double atan2(double <[y]>,double <[x]>);
float atan2f(float <[y]>,float <[x]>);
TRAD_SYNOPSIS
#include <math.h>
double atan2(<[y]>,<[x]>);
double <[y]>;
double <[x]>;
float atan2f(<[y]>,<[x]>);
float <[y]>;
float <[x]>;
#include <math.h>
double atan(<[x]>);
double <[x]>;
float atanf(<[x]>);
float <[x]>;
DESCRIPTION
<<atan2>> computes the inverse tangent (arc tangent) of y / x.

10
newlib/libm/mathfp/s_cosh.c
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@ -6,19 +6,11 @@
FUNCTION
<<cosh>>, <<coshf>>---hyperbolic cosine
ANSI_SYNOPSIS
SYNOPSIS
#include <math.h>
double cosh(double <[x]>);
float coshf(float <[x]>);
TRAD_SYNOPSIS
#include <math.h>
double cosh(<[x]>);
double <[x]>;
float coshf(<[x]>);
float <[x]>;
DESCRIPTION
<<cosh>> computes the hyperbolic cosine of the argument <[x]>.

16
newlib/libm/mathfp/s_erf.c
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@ -23,26 +23,12 @@ INDEX
INDEX
erfcf
ANSI_SYNOPSIS
SYNOPSIS
#include <math.h>
double erf(double <[x]>);
float erff(float <[x]>);
double erfc(double <[x]>);
float erfcf(float <[x]>);
TRAD_SYNOPSIS
#include <math.h>
double erf(<[x]>)
double <[x]>;
float erff(<[x]>)
float <[x]>;
double erfc(<[x]>)
double <[x]>;
float erfcf(<[x]>)
float <[x]>;
DESCRIPTION
<<erf>> calculates an approximation to the ``error function'',

10
newlib/libm/mathfp/s_exp.c
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@ -15,19 +15,11 @@ INDEX
INDEX
expf
ANSI_SYNOPSIS
SYNOPSIS
#include <math.h>
double exp(double <[x]>);
float expf(float <[x]>);
TRAD_SYNOPSIS
#include <math.h>
double exp(<[x]>);
double <[x]>;
float expf(<[x]>);
float <[x]>;
DESCRIPTION
<<exp>> and <<expf>> calculate the exponential of <[x]>, that is,
@ifnottex

10
newlib/libm/mathfp/s_fabs.c
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@ -9,19 +9,11 @@ INDEX
INDEX
fabsf
ANSI_SYNOPSIS
SYNOPSIS
#include <math.h>
double fabs(double <[x]>);
float fabsf(float <[x]>);
TRAD_SYNOPSIS
#include <math.h>
double fabs(<[x]>)
double <[x]>;
float fabsf(<[x]>)
float <[x]>;
DESCRIPTION
<<fabs>> and <<fabsf>> calculate
@tex

13
newlib/libm/mathfp/s_floor.c
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@ -13,24 +13,13 @@ INDEX
INDEX
ceilf
ANSI_SYNOPSIS
SYNOPSIS
#include <math.h>
double floor(double <[x]>);
float floorf(float <[x]>);
double ceil(double <[x]>);
float ceilf(float <[x]>);
TRAD_SYNOPSIS
#include <math.h>
double floor(<[x]>)
double <[x]>;
float floorf(<[x]>)
float <[x]>;
double ceil(<[x]>)
double <[x]>;
float ceilf(<[x]>)
float <[x]>;
DESCRIPTION
<<floor>> and <<floorf>> find
@tex

10
newlib/libm/mathfp/s_fmod.c
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@ -20,19 +20,11 @@ fmod
INDEX
fmodf
ANSI_SYNOPSIS
SYNOPSIS
#include <math.h>
double fmod(double <[x]>, double <[y]>);
float fmodf(float <[x]>, float <[y]>);
TRAD_SYNOPSIS
#include <math.h>
double fmod(<[x]>, <[y]>);
double (<[x]>, <[y]>);
float fmodf(<[x]>, <[y]>);
float (<[x]>, <[y]>);
DESCRIPTION
The <<fmod>> and <<fmodf>> functions compute the floating-point
remainder of <[x]>/<[y]> (<[x]> modulo <[y]>).

13
newlib/libm/mathfp/s_frexp.c
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@ -9,22 +9,11 @@ INDEX
INDEX
frexpf
ANSI_SYNOPSIS
SYNOPSIS
#include <math.h>
double frexp(double <[val]>, int *<[exp]>);
float frexpf(float <[val]>, int *<[exp]>);
TRAD_SYNOPSIS
#include <math.h>
double frexp(<[val]>, <[exp]>)
double <[val]>;
int *<[exp]>;
float frexpf(<[val]>, <[exp]>)
float <[val]>;
int *<[exp]>;
DESCRIPTION
All nonzero, normal numbers can be described as <[m]> * 2**<[p]>.
<<frexp>> represents the double <[val]> as a mantissa <[m]>

13
newlib/libm/mathfp/s_ldexp.c
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@ -10,22 +10,11 @@ INDEX
INDEX
ldexpf
ANSI_SYNOPSIS
SYNOPSIS
#include <math.h>
double ldexp(double <[val]>, int <[exp]>);
float ldexpf(float <[val]>, int <[exp]>);
TRAD_SYNOPSIS
#include <math.h>
double ldexp(<[val]>, <[exp]>)
double <[val]>;
int <[exp]>;
float ldexpf(<[val]>, <[exp]>)
float <[val]>;
int <[exp]>;
DESCRIPTION
<<ldexp>> calculates the value
@ifnottex

10
newlib/libm/mathfp/s_log10.c
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@ -23,19 +23,11 @@ log10
INDEX
log10f
ANSI_SYNOPSIS
SYNOPSIS
#include <math.h>
double log10(double <[x]>);
float log10f(float <[x]>);
TRAD_SYNOPSIS
#include <math.h>
double log10(<[x]>)
double <[x]>;
float log10f(<[x]>)
float <[x]>;
DESCRIPTION
<<log10>> returns the base 10 logarithm of <[x]>.
It is implemented as <<log(<[x]>) / log(10)>>.

16
newlib/libm/mathfp/s_logarithm.c
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@ -20,27 +20,13 @@ INDEX
INDEX
log10f
ANSI_SYNOPSIS
SYNOPSIS
#include <math.h>
double log(double <[x]>);
float logf(float <[x]>);
double log10(double <[x]>);
float log10f(float <[x]>);
TRAD_SYNOPSIS
#include <math.h>
double log(<[x]>);
double <[x]>;
float logf(<[x]>);
float <[x]>;
double log10(<[x]>);
double <[x]>;
float log10f(<[x]>);
float <[x]>;
DESCRIPTION
Return the natural or base 10 logarithm of <[x]>, that is, its logarithm base e
(where e is the base of the natural system of logarithms, 2.71828@dots{}) or

10
newlib/libm/mathfp/s_pow.c
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@ -10,19 +10,11 @@ INDEX
powf
ANSI_SYNOPSIS
SYNOPSIS
#include <math.h>
double pow(double <[x]>, double <[y]>);
float pow(float <[x]>, float <[y]>);
TRAD_SYNOPSIS
#include <math.h>
double pow(<[x]>, <[y]>);
double <[x]>, <[y]>;
float pow(<[x]>, <[y]>);
float <[x]>, <[y]>;
DESCRIPTION
<<pow>> and <<powf>> calculate <[x]> raised to the exponent <[y]>.
@tex

14
newlib/libm/mathfp/s_sine.c
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@ -18,25 +18,13 @@ INDEX
cos
INDEX
cosf
ANSI_SYNOPSIS
SYNOPSIS
#include <math.h>
double sin(double <[x]>);
float sinf(float <[x]>);
double cos(double <[x]>);
float cosf(float <[x]>);
TRAD_SYNOPSIS
#include <math.h>
double sin(<[x]>)
double <[x]>;
float sinf(<[x]>)
float <[x]>;
double cos(<[x]>)
double <[x]>;
float cosf(<[x]>)
float <[x]>;
DESCRIPTION
<<sin>> and <<cos>> compute (respectively) the sine and cosine
of the argument <[x]>. Angles are specified in radians.

15
newlib/libm/mathfp/s_sineh.c
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@ -20,25 +20,12 @@ INDEX
INDEX
coshf
ANSI_SYNOPSIS
SYNOPSIS
#include <math.h>
double sinh(double <[x]>);
float sinhf(float <[x]>);
double cosh(double <[x]>);
float coshf(float <[x]>);
TRAD_SYNOPSIS
#include <math.h>
double sinh(<[x]>)
double <[x]>;
float sinhf(<[x]>)
float <[x]>;
double cosh(<[x]>)
double <[x]>;
float coshf(<[x]>)
float <[x]>;
DESCRIPTION
<<sinh>> and <<cosh>> compute the hyperbolic sine or cosine

7
newlib/libm/mathfp/s_sqrt.c
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@ -16,16 +16,11 @@ INDEX
INDEX
sqrtf
ANSI_SYNOPSIS
SYNOPSIS
#include <math.h>
double sqrt(double <[x]>);
float sqrtf(float <[x]>);
TRAD_SYNOPSIS
#include <math.h>
double sqrt(<[x]>);
float sqrtf(<[x]>);
DESCRIPTION
<<sqrt>> computes the positive square root of the argument.

11
newlib/libm/mathfp/s_tan.c
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@ -16,20 +16,11 @@ tan
INDEX
tanf
ANSI_SYNOPSIS
SYNOPSIS
#include <math.h>
double tan(double <[x]>);
float tanf(float <[x]>);
TRAD_SYNOPSIS
#include <math.h>
double tan(<[x]>)
double <[x]>;
float tanf(<[x]>)
float <[x]>;
DESCRIPTION
<<tan>> computes the tangent of the argument <[x]>.
Angles are specified in radians.

11
newlib/libm/mathfp/s_tanh.c
View File

@ -17,20 +17,11 @@ tanh
INDEX
tanhf
ANSI_SYNOPSIS
SYNOPSIS
#include <math.h>
double tanh(double <[x]>);
float tanhf(float <[x]>);
TRAD_SYNOPSIS
#include <math.h>
double tanh(<[x]>)
double <[x]>;
float tanhf(<[x]>)
float <[x]>;
DESCRIPTION
<<tanh>> computes the hyperbolic tangent of

35
newlib/libm/mathfp/w_jn.c
View File

@ -40,7 +40,7 @@ yn
INDEX
ynf
ANSI_SYNOPSIS
SYNOPSIS
#include <math.h>
double j0(double <[x]>);
float j0f(float <[x]>);
@ -55,39 +55,6 @@ float y1f(float <[x]>);
double yn(int <[n]>, double <[x]>);
float ynf(int <[n]>, float <[x]>);
TRAD_SYNOPSIS
#include <math.h>
double j0(<[x]>)
double <[x]>;
float j0f(<[x]>)
float <[x]>;
double j1(<[x]>)
double <[x]>;
float j1f(<[x]>)
float <[x]>;
double jn(<[n]>, <[x]>)
int <[n]>;
double <[x]>;
float jnf(<[n]>, <[x]>)
int <[n]>;
float <[x]>;
double y0(<[x]>)
double <[x]>;
float y0f(<[x]>)
float <[x]>;
double y1(<[x]>)
double <[x]>;
float y1f(<[x]>)
float <[x]>;
double yn(<[n]>, <[x]>)
int <[n]>;
double <[x]>;
float ynf(<[n]>, <[x]>)
int <[n]>;
float <[x]>;
DESCRIPTION
The Bessel functions are a family of functions that solve the
differential equation