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Change @verbatim to @example.
Add link near hexadecimal floating constants to
the node that documents them.
Change http links to https.

Richard Stallman 2 năm trước cách đây
mục cha
commit
b79376cac2
1 tập tin đã thay đổi với 17 bổ sung16 xóa
  1. 17 16
      fp.texi

+ 17 - 16
fp.texi

@@ -914,11 +914,11 @@ the other.
 In GNU C, you can create a value of negative Infinity in software like
 In GNU C, you can create a value of negative Infinity in software like
 this:
 this:
 
 
-@verbatim
+@example
 double x;
 double x;
 
 
 x = -1.0 / 0.0;
 x = -1.0 / 0.0;
-@end verbatim
+@end example
 
 
 GNU C supplies the @code{__builtin_inf}, @code{__builtin_inff}, and
 GNU C supplies the @code{__builtin_inf}, @code{__builtin_inff}, and
 @code{__builtin_infl} macros, and the GNU C Library provides the
 @code{__builtin_infl} macros, and the GNU C Library provides the
@@ -1303,13 +1303,14 @@ eps_pos = nextafter (x, +inf() - x);
 @noindent
 @noindent
 In such cases, if @var{x} is Infinity, then @emph{the @code{nextafter}
 In such cases, if @var{x} is Infinity, then @emph{the @code{nextafter}
 functions return @var{y} if @var{x} equals @var{y}}.  Our two
 functions return @var{y} if @var{x} equals @var{y}}.  Our two
-assignments then produce @code{+0x1.fffffffffffffp+1023} (about
-1.798e+308) for @var{eps_neg} and Infinity for @var{eps_pos}.  Thus,
-the call @code{nextafter (INFINITY, -INFINITY)} can be used to find
-the largest representable finite number, and with the call
-@code{nextafter (0.0, 1.0)}, the smallest representable number (here,
-@code{0x1p-1074} (about 4.491e-324), a number that we saw before as
-the output from @code{macheps (0.0)}).
+assignments then produce @code{+0x1.fffffffffffffp+1023} (that is a
+hexadecimal floating point constant and its value is around
+1.798e+308; see @ref{Floating Constants}) for @var{eps_neg}, and
+Infinity for @var{eps_pos}.  Thus, the call @code{nextafter (INFINITY,
+-INFINITY)} can be used to find the largest representable finite
+number, and with the call @code{nextafter (0.0, 1.0)}, the smallest
+representable number (here, @code{0x1p-1074} (about 4.491e-324), a
+number that we saw before as the output from @code{macheps (0.0)}).
 
 
 @c =====================================================================
 @c =====================================================================
 
 
@@ -1657,7 +1658,7 @@ a substantial portion of the functions described in the famous
 @cite{NIST Handbook of Mathematical Functions}, Cambridge (2018),
 @cite{NIST Handbook of Mathematical Functions}, Cambridge (2018),
 ISBN 0-521-19225-0.
 ISBN 0-521-19225-0.
 See
 See
-@uref{http://www.math.utah.edu/pub/mathcw}
+@uref{https://www.math.utah.edu/pub/mathcw}
 for compilers and libraries.
 for compilers and libraries.
 
 
 @item   @c sort-key: Clinger-1990
 @item   @c sort-key: Clinger-1990
@@ -1669,13 +1670,13 @@ See also the papers by Steele & White.
 @item   @c sort-key: Clinger-2004
 @item   @c sort-key: Clinger-2004
 William D. Clinger, @cite{Retrospective: How to read floating
 William D. Clinger, @cite{Retrospective: How to read floating
 point numbers accurately}, ACM SIGPLAN Notices @b{39}(4) 360--371 (April 2004),
 point numbers accurately}, ACM SIGPLAN Notices @b{39}(4) 360--371 (April 2004),
-@uref{http://doi.acm.org/10.1145/989393.989430}.  Reprint of 1990 paper,
+@uref{https://doi.acm.org/10.1145/989393.989430}.  Reprint of 1990 paper,
 with additional commentary.
 with additional commentary.
 
 
 @item   @c sort-key: Goldberg-1967
 @item   @c sort-key: Goldberg-1967
 I. Bennett Goldberg, @cite{27  Bits Are Not Enough For 8-Digit Accuracy},
 I. Bennett Goldberg, @cite{27  Bits Are Not Enough For 8-Digit Accuracy},
 Communications of the ACM @b{10}(2) 105--106 (February 1967),
 Communications of the ACM @b{10}(2) 105--106 (February 1967),
-@uref{http://doi.acm.org/10.1145/363067.363112}.  This paper,
+@uref{https://doi.acm.org/10.1145/363067.363112}.  This paper,
 and its companions by David Matula, address the base-conversion
 and its companions by David Matula, address the base-conversion
 problem, and show that the naive formulas are wrong by one or
 problem, and show that the naive formulas are wrong by one or
 two digits.
 two digits.
@@ -1692,7 +1693,7 @@ and then rereading from time to time.
 @item   @c sort-key: Juffa
 @item   @c sort-key: Juffa
 Norbert Juffa and Nelson H. F. Beebe, @cite{A Bibliography of
 Norbert Juffa and Nelson H. F. Beebe, @cite{A Bibliography of
 Publications on Floating-Point Arithmetic},
 Publications on Floating-Point Arithmetic},
-@uref{http://www.math.utah.edu/pub/tex/bib/fparith.bib}.
+@uref{https://www.math.utah.edu/pub/tex/bib/fparith.bib}.
 This is the largest known bibliography of publications about
 This is the largest known bibliography of publications about
 floating-point, and also integer, arithmetic.  It is actively
 floating-point, and also integer, arithmetic.  It is actively
 maintained, and in mid 2019, contains more than 6400 references to
 maintained, and in mid 2019, contains more than 6400 references to
@@ -1708,7 +1709,7 @@ base-conversion problem.
 @item   @c sort-key: Kahan
 @item   @c sort-key: Kahan
 William Kahan, @cite{Branch Cuts for Complex Elementary Functions, or
 William Kahan, @cite{Branch Cuts for Complex Elementary Functions, or
 Much Ado About Nothing's Sign Bit}, (1987),
 Much Ado About Nothing's Sign Bit}, (1987),
-@uref{http://people.freebsd.org/~das/kahan86branch.pdf}.
+@uref{https://people.freebsd.org/~das/kahan86branch.pdf}.
 This Web document about the fine points of complex arithmetic
 This Web document about the fine points of complex arithmetic
 also appears in the volume edited by A. Iserles and
 also appears in the volume edited by A. Iserles and
 M. J. D. Powell, @cite{The State of the Art in Numerical
 M. J. D. Powell, @cite{The State of the Art in Numerical
@@ -1775,7 +1776,7 @@ Michael Overton, @cite{Numerical Computing with IEEE Floating
 Point Arithmetic, Including One Theorem, One Rule of Thumb, and
 Point Arithmetic, Including One Theorem, One Rule of Thumb, and
 One Hundred and One Exercises}, SIAM (2001), ISBN 0-89871-482-6
 One Hundred and One Exercises}, SIAM (2001), ISBN 0-89871-482-6
 (xiv + 104 pages),
 (xiv + 104 pages),
-@uref{http://www.ec-securehost.com/SIAM/ot76.html}.
+@uref{https://www.ec-securehost.com/SIAM/ot76.html}.
 This is a small volume that can be covered in a few hours.
 This is a small volume that can be covered in a few hours.
 
 
 @item   @c sort-key: Steele-1990
 @item   @c sort-key: Steele-1990
@@ -1789,7 +1790,7 @@ See also the papers by Clinger.
 Guy L. Steele Jr. and Jon L. White, @cite{Retrospective: How to
 Guy L. Steele Jr. and Jon L. White, @cite{Retrospective: How to
 Print Floating-Point Numbers Accurately}, ACM SIGPLAN Notices
 Print Floating-Point Numbers Accurately}, ACM SIGPLAN Notices
 @b{39}(4) 372--389 (April 2004),
 @b{39}(4) 372--389 (April 2004),
-@uref{http://doi.acm.org/10.1145/989393.989431}.  Reprint of 1990
+@uref{https://doi.acm.org/10.1145/989393.989431}.  Reprint of 1990
 paper, with additional commentary.
 paper, with additional commentary.
 
 
 @item   @c sort-key: Sterbenz
 @item   @c sort-key: Sterbenz