I found that some packages do in fact run on Windows, so I've added them
where possible. I've also updated the description of which packages fail
tests and why.
This target was added purely for running tests, and it is currently
unused. When I try to use it, it causes runtime exceptions.
The replacement riscv-qemu is much better behaved.
This doesn't drop support for any actual hardware, the HiFive 1 B will
remain supported.
This commit fixes two related issues:
1. CanInterface was unimplemented. It now uses the same check as is
used in Interface() itself.
This issue led to https://github.com/tinygo-org/tinygo/issues/3033
2. Allow making an interface out of a string char element.
Doing this in one commit (instead of two) because they are shown to be
correct with the same tests.
This is just a papercut, and not really something important. But I
noticed something weird:
$ GOOS=windows GOARCH=arm tinygo info ""
LLVM triple: armv7-unknown-windows-gnueabihf-gnu
GOOS: windows
GOARCH: arm
That -gnueabihf-gnu ending is weird, it should pick one of the two. I've
fixed it as follows:
$ GOOS=windows GOARCH=arm tinygo info ""
LLVM triple: armv7-unknown-windows-gnu
GOOS: windows
GOARCH: arm
[...]
We're probably never going to support windows/arm (this is 32-bit arm,
not arm64) so it doesn't really matter which one we pick. And this patch
shouldn't affect any other system.
I think it is more confusing than helpful because it is only relevant
when compiling an actual linux/arm binary (and in that case, it is also
included in the LLVM triple).
See: https://github.com/tinygo-org/tinygo/issues/3034
This is really a few more-or-less separate changes:
* Remove all math aliases that were used in Go 1.16 and below (the
math.[A-Z] aliases).
* Replace math aliases with an assembly implementation (the math.arch*
aliases) with a LLVM intrinsic, where one is available.
* Include missing math functions in picolibc build.
This leaves just four math aliases:
* math.archHypot and math.archModf do not have a LLVM builtin
equivalent. They could be replaced with calls to libm, and I think
that would be a good idea in the long term.
* math.archMax and math.archMin do have a LLVM builtin equivalent
(llvm.maximum.f64, llvm.minimum.f64), but unfortunately they crash
when used. Apparently these exact operations are not yet widely
supported in hardware and they don't have a libm equivalent either.
There are more LLVM builtins that we could use for the math package
(such as FMA), but I will leave that to a future change. It could
potentially speed up some math operations.
Instead of changing the calls, replace the function bodies themselves.
This is useful for a number of reasons, see
https://github.com/tinygo-org/tinygo/pull/2920 for more information.
I have removed the math intrinsics tests because they are no longer
useful. Instead, I think `tinygo test math` should suffice.
This gives some more optimization opportunities to LLVM, because it
understands these intrinsics. For example, it might convert
llvm.sqrt.f64 to llvm.sqrt.f32 if possible.
This commit adds support for time.NewTimer and time.NewTicker. It also
adds support for the Stop() method on time.Timer, but doesn't (yet) add
support for the Reset() method.
The implementation has been carefully written so that programs that
don't use these timers will normally not see an increase in RAM or
binary size. None of the examples in the drivers repo change as a result
of this commit. This comes at the cost of slightly more complex code and
possibly slower execution of the timers when they are used.
For some reason, the type of a function parameter can sometimes be of
interface type, while it should be the underlying type. This might be a
bug in the x/tools/go/ssa package but this is a simple workaround.
ed25519vectors_test.go still fails because:
* It relies on "go mod download" which doesn't work, as well as fork/exec.
* It relies on JSON parsing which has problems with reflection.
But, with the vectors hard coded in the test file the tests *do* succeed, so the encryption is working.