7f925e6be9
The C standard states that, within the context of a printf-family function, when specifying the precision of a conversion specification: > A negative precision argument is taken as if the precision were > omitted. - Quoth the C Standard, 7.23.6.1. The fprintf function Cosmopolitan instead treated negative precision arguments as though they had a value of 0, which was non-conforming. This change fixes that. Another issue we found relates to: > For o conversion, it increases the precision, if and only if > necessary, to force the first digit of the result to be a zero (if > the value and precision are both 0, a single 0 is printed). - Quoth the C standard, 7.23.6.1.6. The fprintf function When printing numbers in their alternative form, with a precision and with a conversion specifier of o (octal), Cosmopolitan wasn't following the standard in two ways: 1. When printing a value with a precision that results in 0-padding, cosmopolitan would still add an extra 0 even though this should be done "if and only if necessary" 2. When printing a value of 0 with a precision of 0, nothing is printed, even though the standard specifically states that a single 0 is printed in this case This change fixes those issues too. Furthermore, regression tests have been introduced to ensure Cosmopolitan continues to be conformant going forward. Fixes #774 Fixes #782 Fixes #789 |
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| .. | ||
| calls | ||
| crt | ||
| dns | ||
| elf | ||
| fmt | ||
| integral | ||
| intrin | ||
| isystem | ||
| linux | ||
| log | ||
| mem | ||
| nexgen32e | ||
| nt | ||
| runtime | ||
| sock | ||
| stdio | ||
| str | ||
| stubs | ||
| sysv | ||
| testlib | ||
| thread | ||
| time | ||
| tinymath | ||
| vga | ||
| x | ||
| zipos | ||
| ar.h | ||
| assert.h | ||
| atomic.h | ||
| complex.h | ||
| dce.h | ||
| disclaimer.inc | ||
| dos.h | ||
| errno.h | ||
| imag.internal.h | ||
| inttypes.h | ||
| iso646.internal.h | ||
| libc.mk | ||
| limits.h | ||
| literal.h | ||
| mach.h | ||
| macho.internal.h | ||
| macros.internal.h | ||
| math.h | ||
| notice.inc | ||
| notice.internal.h | ||
| paths.h | ||
| README.md | ||
| stdalign.internal.h | ||
| type2str.h | ||
| zip.h | ||
Cosmopolitan Standard Library
This directory defines static archives defining functions, like
printf(), mmap(), win32, etc. Please note that the Cosmopolitan
build configuration doesn't link any C/C++ library dependencies
by default, so you still have the flexibility to choose the one
provided by your system. If you'd prefer Cosmopolitan, just add
$(LIBC) and $(CRT) to your linker arguments.
Your library is compromised of many bite-sized static archives. We use the checkdeps tool to guarantee that the contents of the archives are organized in a logical way that's easy to use with or without our makefile infrastructure, since there's no cyclic dependencies.
The Cosmopolitan Library exports only the most stable canonical
system calls for all supported operating systems, regardless of
which platform is used for compilation. We polyfill many of the
APIs, e.g. read(), write() so they work consistently everywhere
while other apis, e.g. CreateWindowEx(), might only work on one
platform, in which case they become no-op functions on others.
Cosmopolitan polyfill wrappers will usually use the dollar sign naming convention, so they may be bypassed when necessary. This same convention is used when multiple implementations of string library and other performance-critical function are provided to allow Cosmopolitan to go fast on both old and newer computers.
We take an approach to configuration that relies heavily on the
compiler's dead code elimination pass (libc/dce.h). Most of the
code is written so that, for example, folks not wanting support
for OpenBSD can flip a bit in SUPPORT_VECTOR and that code will
be omitted from the build. The same is true for builds that are
tuned using -march=native which effectively asks the library to
not include runtime support hooks for x86 processors older than
what you use.
Please note that, unlike Cygwin or MinGW, Cosmopolitan does not achieve broad support by bolting on a POSIX emulation layer. We do nothing more than (in most cases) stateless API translations that get you 90% of the way there in a fast lightweight manner. We therefore can't address some of the subtle differences, such as the nuances of absolute paths on Windows. Our approach could be compared to something more along the lines of, "the Russians just used a pencil to write in space", versus spending millions researching a pen like NASA.