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authorJoseph Myers <joseph@codesourcery.com>2021-11-10 15:52:21 +0000
committerJoseph Myers <joseph@codesourcery.com>2021-11-10 15:52:21 +0000
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Support C2X printf %b, %B
C2X adds a printf %b format (see <http://www.open-std.org/jtc1/sc22/wg14/www/docs/n2630.pdf>, accepted for C2X), for outputting integers in binary. It also has recommended practice for a corresponding %B format (like %b, but %#B starts the output with 0B instead of 0b). Add support for these formats to glibc. One existing test uses %b as an example of an unknown format, to test how glibc printf handles unknown formats; change that to %v. Use of %b and %B as user-registered format specifiers continues to work (and we already have a test that covers that, tst-printfsz.c). Note that C2X also has scanf %b support, plus support for binary constants starting 0b in strtol (base 0 and 2) and scanf %i (strtol base 0 and scanf %i coming from a previous paper that added binary integer literals). I intend to implement those features in a separate patch or patches; as discussed in the thread starting at <https://sourceware.org/pipermail/libc-alpha/2020-December/120414.html>, they will be more complicated because they involve adding extra public symbols to ensure compatibility with existing code that might not expect 0b constants to be handled by strtol base 0 and 2 and scanf %i, whereas simply adding a new format specifier poses no such compatibility concerns. Note that the actual conversion from integer to string uses existing code in _itoa.c. That code has special cases for bases 8, 10 and 16, probably so that the compiler can optimize division by an integer constant in the code for those bases. If desired such special cases could easily be added for base 2 as well, but that would be an optimization, not actually needed for these printf formats to work. Tested for x86_64 and x86. Also tested with build-many-glibcs.py for aarch64-linux-gnu with GCC mainline to make sure that the test does indeed build with GCC 12 (where format checking warnings are enabled for most of the test).
Diffstat (limited to 'manual/stdio.texi')
-rw-r--r--manual/stdio.texi30
1 files changed, 21 insertions, 9 deletions
diff --git a/manual/stdio.texi b/manual/stdio.texi
index 1d235be68d..29d01b9ec9 100644
--- a/manual/stdio.texi
+++ b/manual/stdio.texi
@@ -1664,9 +1664,9 @@ an @code{int} argument should be printed in decimal notation, the
the @samp{%%} conversion to print a literal @samp{%} character.
There are also conversions for printing an integer argument as an
-unsigned value in octal, decimal, or hexadecimal radix (@samp{%o},
-@samp{%u}, or @samp{%x}, respectively); or as a character value
-(@samp{%c}).
+unsigned value in binary, octal, decimal, or hexadecimal radix
+(@samp{%b}, @samp{%o}, @samp{%u}, or @samp{%x}, respectively); or as a
+character value (@samp{%c}).
Floating-point numbers can be printed in normal, fixed-point notation
using the @samp{%f} conversion or in exponential notation using the
@@ -1825,6 +1825,13 @@ Conversions}, for details. @samp{%d} and @samp{%i} are synonymous for
output, but are different when used with @code{scanf} for input
(@pxref{Table of Input Conversions}).
+@item @samp{%b}, @samp{%B}
+Print an integer as an unsigned binary number. @samp{%b} uses
+lower-case @samp{b} with the @samp{#} flag and @samp{%B} uses
+upper-case. @samp{%b} is an ISO C2X feature; @samp{%B} is an
+extension recommended by ISO C2X. @xref{Integer Conversions}, for
+details.
+
@item @samp{%o}
Print an integer as an unsigned octal number. @xref{Integer
Conversions}, for details.
@@ -1901,15 +1908,17 @@ simply ignored; this is sometimes useful.
@subsection Integer Conversions
This section describes the options for the @samp{%d}, @samp{%i},
-@samp{%o}, @samp{%u}, @samp{%x}, and @samp{%X} conversion
+@samp{%b}, @samp{%B}, @samp{%o}, @samp{%u}, @samp{%x}, and @samp{%X} conversion
specifications. These conversions print integers in various formats.
The @samp{%d} and @samp{%i} conversion specifications both print an
-@code{int} argument as a signed decimal number; while @samp{%o},
-@samp{%u}, and @samp{%x} print the argument as an unsigned octal,
+@code{int} argument as a signed decimal number; while @samp{b}, @samp{%o},
+@samp{%u}, and @samp{%x} print the argument as an unsigned binary, octal,
decimal, or hexadecimal number (respectively). The @samp{%X} conversion
specification is just like @samp{%x} except that it uses the characters
-@samp{ABCDEF} as digits instead of @samp{abcdef}.
+@samp{ABCDEF} as digits instead of @samp{abcdef}. The @samp{%B}
+conversion specification is just like @samp{%b} except that, with the
+@samp{#} flag, the output starts with @samp{0B} instead of @samp{0b}.
The following flags are meaningful:
@@ -1931,7 +1940,9 @@ includes a sign, this flag is ignored if you supply both of them.
@item @samp{#}
For the @samp{%o} conversion, this forces the leading digit to be
@samp{0}, as if by increasing the precision. For @samp{%x} or
-@samp{%X}, this prefixes a leading @samp{0x} or @samp{0X} (respectively)
+@samp{%X}, this prefixes a leading @samp{0x} or @samp{0X}
+(respectively) to the result. For @samp{%b} or @samp{%B}, this
+prefixes a leading @samp{0b} or @samp{0B} (respectively)
to the result. This doesn't do anything useful for the @samp{%d},
@samp{%i}, or @samp{%u} conversions. Using this flag produces output
which can be parsed by the @code{strtoul} function (@pxref{Parsing of
@@ -1957,7 +1968,8 @@ characters at all are produced.
Without a type modifier, the corresponding argument is treated as an
@code{int} (for the signed conversions @samp{%i} and @samp{%d}) or
-@code{unsigned int} (for the unsigned conversions @samp{%o}, @samp{%u},
+@code{unsigned int} (for the unsigned conversions @samp{%b},
+@samp{%B}, @samp{%o}, @samp{%u},
@samp{%x}, and @samp{%X}). Recall that since @code{printf} and friends
are variadic, any @code{char} and @code{short} arguments are
automatically converted to @code{int} by the default argument