This is to make the bootstrap build with earlier versions of Chez - we
don't strictly need it because we don't use threads (yet) and some linux
distros only have Chez 9.5.
This is step 0 in a plan to use the scheme evaluator to evaluate Idris
expressions at compile time. As a proof of concept, I've got this
working for a toy language here: https://github.com/edwinb/SchemeEval
We won't be able to do anything interesting with this in Idris itself
until the next release because it involves updating the bootstrap code
and adding the ability to pass 'Integer' to foreign calls, which really
should have been allowed anyway since it's for a backend to decide what
it can cope with, not Idris itself.
In the `MkFix : f (Fix f) -> Fix f` example, using `Erased` for `f`
makes the type reduce to `[__] (Fix [__]) -> Fix [__]` and because
`[__] e1 ... en` computes to `[__]`, we end up with `[__] -> Fix [__]`
which does not reference `Fix` anymore.
We shouldn't strictly need this, but it doesn't do any harm, and it also
means we can use --inc chez in the build if we do. Let's see if it helps
or hinders the CI problem...
In theory argument elaboration order doesn't matter, but in practice we
sometimes make choices for performance reasons, like helping with
disambiguation by knowing the target type.
This was kind of messy, now we can more clearly see what's going on.
Also, more importantly, it gives us a bit more control which we
sometimes need. For example, if we go choose to go right to left for
some performance heuristic it might turn out we don't have enough
information yet, in which case we need to delay and try again later.
Fixes#1743
The `if then else` syntax expects a block for the `then` and `else`
parts. Before this patch, the token `InterpEnd` was not a valid
follow up token to end a block. This adds `InterpEnd` as a closing
token for blocks, allowing `if then else` in interpolation slices
without additional parens.
A few proofs have been rewritten, a few unnecessary cases cut, and
lots of unnecessary "explicit implicits" have been cut. Probably these
implicits were required when the code was initially written, and
inference has improved since then.
Instead of having an arbitrary looking priority number, record explicit
reasons for the delay, which helps order them sensibly when rerunning
them. Mostly this allows us to choose which ones to rerun, where it
helps, and helps order things to get better error messages.
`testInDir dir ...` lists all directories in `dir` which contains
`run` files, and such directories are considered tests.
This is done to make test addition/maintenance cheaper.
Convert some test directories to `testInDir`, but not all of them
because
* some directories are listed in several test groups
* other directories are have some tests disabled
These entries returned by `readdir` are legacy of Unix API, we don't
really need them. Most APIs do not return them (for example Java
`Files.newDirectoryStream` or Python `os.listdir`).
* add `nextDirEntry` which returns `Maybe String`, so `Nothing` on
the end of directory unlike `dirEntry` which returns unspecified error
on the end of directory
* `dirEntry` is deprecated now, but not removed because compiler depends on it
* native implementation of `dirEntry` is patched to explicitly reset `errno`
before the `readdir` call: without it end of directory and error were
indistinguishable
* test added
* Add trailing newline on non-empty list in unlines
There are several reasons to do that:
* a line in a text file is something which ends with newline,
and the last line is not special
* `unlines []` should be different from `unlines [""]`
* `unlines (a ++ b) = unlines a ++ unlines b`
* Haskell does it
* Change lines function behaviour
* Propagate 'do qualification' to inner bangs and comprehensions
* Minor
* Remove banner in test
* Move tests from reg045 to reg047
* Move mbNS from Desugar.idr to Name.idr, renaming it to mbApplyNS