Rather than lowering float negation as `0.0 - x`.
* Add AIR instruction for float negation.
* Add compiler-rt functions for f128, f80 negation
closes#11853
The previous float-parsing method was lacking in a lot of areas. This
commit introduces a state-of-the art implementation that is both
accurate and fast to std.
Code is derived from working repo https://github.com/tiehuis/zig-parsefloat.
This includes more test-cases and performance numbers that are present
in this commit.
* Accuracy
The primary testing regime has been using test-data found at
https://github.com/tiehuis/parse-number-fxx-test-data. This is a fork of
upstream with support for f128 test-cases added. This data has been
verified against other independent implementations and represents
accurate round-to-even IEEE-754 floating point semantics.
* Performance
Compared to the existing parseFloat implementation there is ~5-10x
performance improvement using the above corpus. (f128 parsing excluded
in below measurements).
** Old
$ time ./test_all_fxx_data
3520298/5296694 succeeded (1776396 fail)
________________________________________________________
Executed in 28.68 secs fish external
usr time 28.48 secs 0.00 micros 28.48 secs
sys time 0.08 secs 694.00 micros 0.08 secs
** This Implementation
$ time ./test_all_fxx_data
5296693/5296694 succeeded (1 fail)
________________________________________________________
Executed in 4.54 secs fish external
usr time 4.37 secs 515.00 micros 4.37 secs
sys time 0.10 secs 171.00 micros 0.10 secs
Further performance numbers can be seen using the
https://github.com/tiehuis/simple_fastfloat_benchmark/ repository, which
compares against some other well-known string-to-float conversion
functions. A breakdown can be found here:
0d9f020f1a/PERFORMANCE.md (commit-b15406a0d2e18b50a4b62fceb5a6a3bb60ca5706)
In summary, we are within 20% of the C++ reference implementation and
have about ~600-700MB/s throughput on a Intel I5-6500 3.5Ghz.
* F128 Support
Finally, f128 is now completely supported with full accuracy. This does
use a slower path which is possible to improve in future.
* Behavioural Changes
There are a few behavioural changes to note.
- `parseHexFloat` is now redundant and these are now supported directly
in `parseFloat`.
- We implement round-to-even in all parsing routines. This is as
specified by IEEE-754. Previous code used different rounding
mechanisms (standard was round-to-zero, hex-parsing looked to use
round-up) so there may be subtle differences.
Closes#2207.
Fixes#11169.
* The `@bitCast` workaround is removed in favor of `@ptrCast` properly
doing element casting for slice element types. This required an
enhancement both to stage1 and stage2.
* stage1 incorrectly accepts `.{}` instead of `{}`. stage2 code that
abused this is fixed.
* Make some parameters comptime to support functions in switch
expressions (as opposed to making them function pointers).
* Avoid relying on local temporaries being mutable.
* Workarounds for when stage1 and stage2 disagree on function pointer
types.
* Workaround recursive formatting bug with a `@panic("TODO")`.
* Remove unreachable `else` prongs for some inferred error sets.
All in effort towards #89.
I consider this an interim workaround/hack until #1299 is finished.
There is a bug in the original C implementation of the errol3 (and errol4)
algorithm that can result in undefined behavior or an obviously incorrect
result (leading ':' in the output)
This change checks for those two problems and uses a slower fallback
path if they occur. I can't guarantee that this will always produce
the correct result, but since the workaround is only used if the original
algorithm is guaranteed to fail, it should never turn a previously-correct
result into an incorrect one.
Fixes#11283
std.fmt.parseHexFloat allow both 0x and 0X as prefix, so in order to
keep things consistent. This commit modifies std.fmt.parseWithSign to
check for the prefix case insensitively in order to allow both upper
case and lower case prefix.
This change now allows: 0O, 0B and 0X as prefixes for parsing.
This commit fixes an out of bounds write that can occur when
formatting certain float values. The write messes up the stack and
causes incorrect results, segfaults, or nothing at all, depending on the
optimization mode used.
The `errol` function writes the digits of the float into `buffer`
starting from index 1, leaving index 0 untouched, and returns `buffer[1..]`
and the exponent. This is because `roundToPrecision` relies on index 0 being
unused in case the rounding adds a digit (e.g rounding 999.99
to 1000.00). When this happens, pointer arithmetic is used
[here](0e6d2184ca/lib/std/fmt/errol.zig (L61-L65))
to access index 0 and put the ones digit in the right place.
However, `errol3u` contains two special cases: `errolInt` and `errolFixed`,
which return from the function early. For these two special cases
index 0 was never reserved, and the return value contains `buffer`
instead of `buffer[1..]`. This causes the pointer arithmetic in
`roundToPrecision` to write out of bounds, which in the case of
`std.fmt.formatFloatDecimal` messes up the stack and causes undefined behavior.
The fix is to move the slicing of `buffer` to `buffer[1..]` from `errol3u`
to `errol` so that both the default and the special cases operate on the sliced
buffer.
This saves on comptime format string parsing, as the compiler caches
comptime calls. The catch here, is that parsePlaceHolder cannot take the
placeholder string as a slice. It must take it as an array by value for
the caching to occure.
There is also some logic in here that ensures that the specifier_arg is
always them same slice when the items they contain are the same. This
makes the compiler stamp out less copies of formatType.
Conflicts:
* cmake/Findclang.cmake
* cmake/Findlld.cmake
* cmake/Findllvm.cmake
In master branch, more search paths were added to these files with "12"
in the path. In this commit I updated them to "13".
* src/stage1/codegen.cpp
* src/zig_llvm.cpp
* src/zig_llvm.h
In master branch, ZigLLVMBuildCmpXchg is improved to add
`is_single_threaded`. However, the LLVM 13 C API has this already, and
in the llvm13 branch, ZigLLVMBuildCmpXchg is deleted in favor of the C
API. In this commit I updated stage2 to use the LLVM 13 C API rather
than depending on an improved ZigLLVMBuildCmpXchg.
Additionally, src/target.zig largestAtomicBits needed to be updated to
include the new m68k ISA.
We already have a LICENSE file that covers the Zig Standard Library. We
no longer need to remind everyone that the license is MIT in every single
file.
Previously this was introduced to clarify the situation for a fork of
Zig that made Zig's LICENSE file harder to find, and replaced it with
their own license that required annual payments to their company.
However that fork now appears to be dead. So there is no need to
reinforce the copyright notice in every single file.
* Add support for recursive objects to std.json.parse
* Remove previously defined error set
* Try with function which returns an error set
* Don't analyze already inferred types
* Add comptime to inferred_type parameter
* Make ParseInternalError to accept only a single argument
* Add public `ParseError` for `parse` function
* Use error.Foo syntax for errors instead of a named error set
* Better formatting
* Update to latest code changes
When working with durations it often makes sense to use signed integers
and allow negative durations, and there is currently no nice way to
format these in std.fmt. This patch adds a simple wrapper for the
existing fmtDurtion to fit this need.
