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author | Will Newton <will.newton@linaro.org> | 2014-02-11 10:11:32 +0000 |
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committer | Will Newton <will.newton@linaro.org> | 2014-02-11 10:21:00 +0000 |
commit | d35f1e80730ce5afbd4694f2d2e537e4af32a797 (patch) | |
tree | 83ddf6c30b44c1d4dffaa734f8b61cc75677aaa8 /manual/probes.texi | |
parent | 7b3436d468bbd1107ec11191d9ff385b1a339cfb (diff) | |
download | glibc-d35f1e80730ce5afbd4694f2d2e537e4af32a797.zip glibc-d35f1e80730ce5afbd4694f2d2e537e4af32a797.tar.gz glibc-d35f1e80730ce5afbd4694f2d2e537e4af32a797.tar.bz2 |
manual/probes.texi: Use "triggered" instead of "hit"
Use the term "triggered" instead of "hit" when talking about probe
points.
ChangeLog:
2014-02-11 Will Newton <will.newton@linaro.org>
* manual/probes.texi (Mathematical Function Probes): Use
"triggered" instead of "hit".
Diffstat (limited to 'manual/probes.texi')
-rw-r--r-- | manual/probes.texi | 152 |
1 files changed, 79 insertions, 73 deletions
diff --git a/manual/probes.texi b/manual/probes.texi index 8fe8a78..b064e33 100644 --- a/manual/probes.texi +++ b/manual/probes.texi @@ -247,127 +247,133 @@ 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 slowexp_p6 (double @var{$arg1}, double @var{$arg2}) -This probe is hit when the @code{exp} function is called with an input that -results in multiple precision computation with precision 6. Argument -@var{$arg1} is the input value and @var{$arg2} is the computed output. +This probe is triggered when the @code{exp} function is called with an +input that results in multiple precision computation with precision +6. Argument @var{$arg1} is the input value and @var{$arg2} is the +computed output. @end deftp @deftp Probe slowexp_p32 (double @var{$arg1}, double @var{$arg2}) -This probe is hit when the @code{exp} function is called with an input that -results in multiple precision computation with precision 32. Argument -@var{$arg1} is the input value and @var{$arg2} is the computed output. +This probe is triggered when the @code{exp} function is called with an +input that results in multiple precision computation with precision +32. Argument @var{$arg1} is the input value and @var{$arg2} is the +computed output. @end deftp @deftp Probe slowpow_p10 (double @var{$arg1}, double @var{$arg2}, double @var{$arg3}, double @var{$arg4}) -This probe is hit when the @code{pow} function is called with inputs that -result in multiple precision computation with precision 10. Arguments -@var{$arg1} and @var{$arg2} are the input values, @code{$arg3} is the value -computed in the fast phase of the algorithm and @code{$arg4} is the final -accurate value. +This probe is triggered when the @code{pow} function is called with +inputs that result in multiple precision computation with precision +10. Arguments @var{$arg1} and @var{$arg2} are the input values, +@code{$arg3} is the value computed in the fast phase of the algorithm +and @code{$arg4} is the final accurate value. @end deftp @deftp Probe slowpow_p32 (double @var{$arg1}, double @var{$arg2}, double @var{$arg3}, double @var{$arg4}) -This probe is hit when the @code{pow} function is called with an input that -results in multiple precision computation with precision 32. Arguments -@var{$arg1} and @var{$arg2} are the input values, @code{$arg3} is the value -computed in the fast phase of the algorithm and @code{$arg4} is the final -accurate value. +This probe is triggered when the @code{pow} function is called with an +input that results in multiple precision computation with precision +32. Arguments @var{$arg1} and @var{$arg2} are the input values, +@code{$arg3} is the value computed in the fast phase of the algorithm +and @code{$arg4} is the final accurate value. @end deftp @deftp Probe slowlog (int @var{$arg1}, double @var{$arg2}, double @var{$arg3}) -This probe is hit when the @code{log} function is called with an input that -results in multiple precision computation. Argument @var{$arg1} is the -precision with which the computation succeeded. Argument @var{$arg2} is the -input and @var{$arg3} is the computed output. +This probe is triggered when the @code{log} function is called with an +input that results in multiple precision computation. Argument +@var{$arg1} is the precision with which the computation succeeded. +Argument @var{$arg2} is the input and @var{$arg3} is the computed +output. @end deftp @deftp Probe slowlog_inexact (int @var{$arg1}, double @var{$arg2}, double @var{$arg3}) -This probe is hit when the @code{log} 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 and @var{$arg3} is the computed output. +This probe is triggered when the @code{log} function is called with an +input that results in multiple precision computation and none of the +multiple precision computations result in an accurate result. +Argument @var{$arg1} is the maximum precision with which computations +were performed. Argument @var{$arg2} is the input and @var{$arg3} is +the computed output. @end deftp @deftp Probe slowatan2 (int @var{$arg1}, double @var{$arg2}, double @var{$arg3}, double @var{$arg4}) -This probe is hit 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. +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 hit 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. +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{$arg3}) -This probe is hit when the @code{atan} function is called with an input that -results in multiple precision computation. Argument @var{$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. +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 hit 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{$arg3} is the computed result. +This probe is triggered when the @code{atan} function is called with +an input that results in multiple precision computation and none of +the multiple precision computations result in an accurate result. +Argument @var{$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 hit 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. +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 slowasin (double @var{$arg1}, double @var{$arg2}) -This probe is hit when the @code{asin} 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. +This probe is triggered when the @code{asin} 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 slowacos (double @var{$arg1}, double @var{$arg2}) -This probe is hit when the @code{acos} 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. +This probe is triggered when the @code{acos} 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 hit 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. +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 hit 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. +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{$arg3}) -This probe is hit when the @code{sin} function is called with an input that -results in multiple precision computation with precision 32. Argument -@var{$arg1} is the input to the function, @var{$arg2} is the error bound of -@var{$arg1} and @var{$arg3} is the computed result. +This probe is triggered when the @code{sin} function is called with an +input that results in multiple precision computation with precision +32. Argument @var{$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 hit 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. +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 |