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authorWilco Dijkstra <wilco.dijkstra@arm.com>2021-03-10 12:41:47 +0000
committerWilco Dijkstra <wdijkstr@arm.com>2021-03-11 14:26:36 +0000
commit47ad14d789ecc3f3e16fdc1d6c7f727637f4d055 (patch)
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parent4e1a870b9a4c664c9bc79afd07276ab660abd73f (diff)
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math: Remove mpa files [BZ #15267]
Finally remove all mpa related files, headers, declarations, probes, unused
tables and update makefiles.

Reviewed-By: Paul Zimmermann <Paul.Zimmermann@inria.fr>
Diffstat (limited to 'manual')
-rw-r--r--manual/probes.texi85
1 files changed, 0 insertions, 85 deletions
diff --git a/manual/probes.texi b/manual/probes.texi
index 61254bc430..4aae76b819 100644
--- a/manual/probes.texi
+++ b/manual/probes.texi
@@ -16,7 +16,6 @@ arguments.
 
 @menu
 * Memory Allocation Probes::  Probes in the memory allocation subsystem
-* Mathematical Function Probes::  Probes in mathematical functions
 * Non-local Goto Probes::  Probes in setjmp and longjmp
 @end menu
 
@@ -255,90 +254,6 @@ is the memory location as passed to @code{free}, Argument @var{$arg2}
 is the tcache bin it resides in.
 @end deftp
 
-@node Mathematical Function Probes
-@section Mathematical Function Probes
-
-Some mathematical functions fall back to multiple precision arithmetic for
-some inputs to get last bit precision for their return values.  This multiple
-precision fallback is much slower than the default algorithms and may have a
-significant impact on application performance.  The systemtap probe markers
-described in this section may help you determine if your application calls
-mathematical functions with inputs that may result in multiple-precision
-arithmetic.
-
-Unless explicitly mentioned otherwise, a precision of 1 implies 24 bits of
-precision in the mantissa of the multiple precision number.  Hence, a precision
-level of 32 implies 768 bits of precision in the mantissa.
-
-@deftp Probe slowatan2 (int @var{$arg1}, double @var{$arg2}, double @var{$arg3}, double @var{$arg4})
-This probe is triggered when the @code{atan2} function is called with
-an input that results in multiple precision computation.  Argument
-@var{$arg1} is the precision with which computation succeeded.
-Arguments @var{$arg2} and @var{$arg3} are inputs to the @code{atan2}
-function and @var{$arg4} is the computed result.
-@end deftp
-
-@deftp Probe slowatan2_inexact (int @var{$arg1}, double @var{$arg2}, double @var{$arg3}, double @var{$arg4})
-This probe is triggered when the @code{atan} function is called with
-an input that results in multiple precision computation and none of
-the multiple precision computations result in an accurate result.
-Argument @var{$arg1} is the maximum precision with which computations
-were performed.  Arguments @var{$arg2} and @var{$arg3} are inputs to
-the @code{atan2} function and @var{$arg4} is the computed result.
-@end deftp
-
-@deftp Probe slowatan (int @var{$arg1}, double @var{$arg2}, double @var{$arg3})
-This probe is triggered when the @code{atan} function is called with
-an input that results in multiple precision computation.  Argument
-@var{$arg1} is the precision with which computation succeeded.
-Argument @var{$arg2} is the input to the @code{atan} function and
-@var{$arg3} is the computed result.
-@end deftp
-
-@deftp Probe slowatan_inexact (int @var{$arg1}, double @var{$arg2}, double @var{$arg3})
-This probe is triggered when the @code{atan} function is called with
-an input that results in multiple precision computation and none of
-the multiple precision computations result in an accurate result.
-Argument @var{$arg1} is the maximum precision with which computations
-were performed.  Argument @var{$arg2} is the input to the @code{atan}
-function and @var{$arg3} is the computed result.
-@end deftp
-
-@deftp Probe slowtan (double @var{$arg1}, double @var{$arg2})
-This probe is triggered when the @code{tan} function is called with an
-input that results in multiple precision computation with precision
-32.  Argument @var{$arg1} is the input to the function and @var{$arg2}
-is the computed result.
-@end deftp
-
-@deftp Probe slowsin (double @var{$arg1}, double @var{$arg2})
-This probe is triggered when the @code{sin} function is called with an
-input that results in multiple precision computation with precision
-32.  Argument @var{$arg1} is the input to the function and @var{$arg2}
-is the computed result.
-@end deftp
-
-@deftp Probe slowcos (double @var{$arg1}, double @var{$arg2})
-This probe is triggered when the @code{cos} function is called with an
-input that results in multiple precision computation with precision
-32.  Argument @var{$arg1} is the input to the function and @var{$arg2}
-is the computed result.
-@end deftp
-
-@deftp Probe slowsin_dx (double @var{$arg1}, double @var{$arg2}, double @var{$arg3})
-This probe is triggered when the @code{sin} function is called with an
-input that results in multiple precision computation with precision
-32.  Argument @var{$arg1} is the input to the function, @var{$arg2} is
-the error bound of @var{$arg1} and @var{$arg3} is the computed result.
-@end deftp
-
-@deftp Probe slowcos_dx (double @var{$arg1}, double @var{$arg2}, double @var{$arg3})
-This probe is triggered when the @code{cos} function is called with an
-input that results in multiple precision computation with precision
-32.  Argument @var{$arg1} is the input to the function, @var{$arg2} is
-the error bound of @var{$arg1} and @var{$arg3} is the computed result.
-@end deftp
-
 @node Non-local Goto Probes
 @section Non-local Goto Probes