See e.g. Applicative instance in Data.Vect. This allows implementations
to use implicits at run time (by default, they'd be 0 multiplicity so
erased, but it might be useful to have an index available at run time).
At the moment, the parser requires implicits to be given before
constraints. Ideally it should be possible to give them in any order.
I'll come back to this.
When writing to ttc, need to take the length in bytes rather than the
length in characters. Also need to write to scheme in the appropriate
format for each scheme system.
While we're at it, Idris 1 supports unicode identifiers (although we
don't encourage it :)) so this allows any characeter >127 in an
identifier.
For the types of local names, don't write out the environment - it's
going to be repeated for every name, mostly it's unhelpful, and if you
want to see the types of other names you can ask directly. This can save
a huge amount of time when environments are slightly complicated.
If a default method implementation refers to another method in the
interface, it's going to be one from the interface being defined, so
push it through explicitly.
This is only going to be guaranteed to be the case for default method
implementations - we can't assume anything for other implementations.
Fixes#77
This is so that we can put other build artefacts (e.g. executables) in
properly organised subdirectories of build, e.g. build/bin/chez,
build/bin/js, etc.
Sometimes we swap the arguments, to reduce code duplication, but we need
to remember we've done that since (1 x : a) -> b is valid for an
argument of type (x : a) -> b, but not vice versa (that is, we have a
teensy bit of subtying to deal with, for convenience...).
This fix seems a bit ugly, but we do at least now propagate the
information. Fixes#82.
This is supported by Idris 1 and is handy for breaking cycles in
modules. To achieve this, we just need to make sure that complete
definitions aren't overwritten with empty definitions on loading.
Checking the let expression in full can break sharing when unifying the
types, and it's unnecessary because we've already checked the type of
the scope unifies with the expected type.
Fixes#63
for some reason running idris2 _without_ an input file fails which
throws this test in a spin. We start the interpreter in ide mode on a
socket loading an empty module without prelude and then request
loading a file that does not require Prelude.
Elaborate the scope of a let without the computational behaviour,
meaning that `let x = v in e` is equivalent to `(\x => e) v`. This makes
things more consistent (in that let bindings already don't propagate
inside case or with blocks) at the cost of not being able to rely on the
computational behaviour in types. More importantly, it removes a
significant potential source of slowness.
Fixes#58
If you need the computational behaviour, you can use a local function
definition instead.
Fixes#42. If we don't do this, the name is treated in the saem way as
an unbound implicit, which is not what we want, so update with the
method applied to the parameters.
We were only doing implicits, so add auto implicits too. It's slightly
tricky, because we might also have implicits given of the form @{x}
which stands for the next auto implicit.
Fixes#50
Just like all other pi-bound things, if m is an unbound implicit and we
have m ?x = m y as a unification problem, we can conclude ?x = y because
it has to be true for all ms.
This was implemented in Blodwen but I hadn't got around to it yet for
Idris2... fortunately it's a bit easier in Idris2!
Fixes#44
We were only checking parameters, meaning that there were potential
clashes leading to confusing behaviour, and meaning that it was somehow
relevant what the names were in the interface!