- Closes#2373
Consider this:
```
let
x : _ := 0
in ...
```
When translating the let to internal, we build the dependency graph and
then use that to group definitions in mutually recursive blocks. Since
`x` has no edge, it was not being added to the dependency graph, so it
was not being translated to Internal, thus crashing later during
inference.
The _packageFile field of the Package record is used internally to track
the package file path and is used in error messages. It is not intended
to be present in the juvix.yaml file.
To express this the PackageFileType family with the Raw index is set to
`()`. However `()` is serialized to an empty array by Aeson, so the
`file: []` field was added to juvix.yaml.
NB: From aeson 2.2, fields with type `()` are ommitted when the
`omitNothingFields` flag is set to True, as it is for the package ToJSON
instance.
The solution in this PR is to set `PackageFileType 'Raw` to `Maybe ()`.
The
`omitNothingFields` flag then omits this field from the serialized
package object.
* Closes https://github.com/anoma/juvix/issues/2380
During path resolution, `git fetch` is called on every git dependency
clone. It's desirable to reduce the number of `git fetch` calls because
it makes a network call.
This PR changes the git dependency resolution to only call `git fetch`
if the existing clone does not already contain the specified ref.
With `-Os` ill-typed code is generated for the following:
```
module wasmcrash.juvix;
import Stdlib.Prelude open;
{-# inline: false #-}
I {A} (x : A) : A := x;
{-# inline: false #-}
I' {A} (x : A) : A := x;
main : Nat := I' (I I 1);
```
Running the generated WASM file with `wasmer` or `wasmtime` gives an
error:
```
Validation error: type mismatch: expected i32 but nothing on stack (at offset 740)
```
The issue occurs with clang version 16.0.5 but not 16.0.0. The issue
does not occur with any other optimization option (`-O1`, `-O2`, `-O3`).
There is no issue with `-Os` used with the native target.
This is thus likely a bug in a specific version of LLVM. It could be
theoretically some very subtle non-conformance to the C standard in our
generated code, but this seems less likely. Creating a minimum C file
exposing the bug would be very time-consuming, so I propose to just
avoid using the `-Os` option for now.
- Closes#2330
- Closes#2329
This pr implements the syntax changes described in #2330. It drops
support for the old yaml-based syntax.
Some valid examples:
```
syntax iterator for {init := 1; range := 1};
syntax fixity cons := binary {assoc := right};
syntax fixity cmp := binary;
syntax fixity cmp := binary {}; -- debatable whether we want to accept empty {} or not. I think we should
```
# Future work
This pr creates an asymmetry between iterators and operators
definitions. Iterators definition do not require a constructor. We could
add it to make it homogeneous, but it looks a bit redundant:
```
syntax iterator for := mkIterator {init := 1; range := 1};
```
We could consider merging iterator and fixity declarations with this
alternative syntax.
```
syntax XXX for := iterator {init := 1; range := 1};
syntax XXX cons := binary {assoc := right};
```
where `XXX` is a common keyword. Suggestion by @lukaszcz XXX = declare
---------
Co-authored-by: Łukasz Czajka <62751+lukaszcz@users.noreply.github.com>
Co-authored-by: Lukasz Czajka <lukasz@heliax.dev>
This PR removes the CaseBranchImplicit error from the scoper. This error
is already handled in the arity/typechecker with a good error message:
The arity checker error message for
```
case b of {
| {{true}} := false
```
is
```
Expected an explicit pattern but found an implicit instance pattern: {{true}}
```
* Closes https://github.com/anoma/juvix/issues/2356
This pr simplifies parsing by removing `FunctionParameterUnnamed`. It
also removes ghost wildcards introduced during parsing.
It also introduces an error for double braced atoms `{{x}}` that are not
on the left of an arrow `->`
* Closes#1646
Implements a basic trait framework. A simple instance search mechanism
is included which fails if there is more than one matching instance at
any step.
Example usage:
```
import Stdlib.Prelude open hiding {Show; mkShow; show};
trait
type Show A :=
mkShow {
show : A → String
};
instance
showStringI : Show String := mkShow (show := id);
instance
showBoolI : Show Bool := mkShow (show := λ{x := if x "true" "false"});
instance
showNatI : Show Nat := mkShow (show := natToString);
showList {A} : {{Show A}} → List A → String
| nil := "nil"
| (h :: t) := Show.show h ++str " :: " ++str showList t;
instance
showListI {A} {{Show A}} : Show (List A) := mkShow (show := showList);
showMaybe {A} {{Show A}} : Maybe A → String
| (just x) := "just (" ++str Show.show x ++str ")"
| nothing := "nothing";
instance
showMaybeI {A} {{Show A}} : Show (Maybe A) := mkShow (show := showMaybe);
main : IO :=
printStringLn (Show.show true) >>
printStringLn (Show.show false) >>
printStringLn (Show.show 3) >>
printStringLn (Show.show [true; false]) >>
printStringLn (Show.show [1; 2; 3]) >>
printStringLn (Show.show [1; 2]) >>
printStringLn (Show.show [true; false]) >>
printStringLn (Show.show [just true; nothing; just false]) >>
printStringLn (Show.show [just [1]; nothing; just [2; 3]]) >>
printStringLn (Show.show "abba") >>
printStringLn (Show.show ["a"; "b"; "c"; "d"]);
```
It is possible to manually provide an instance and to match on implicit
instances:
```
f {A} : {{Show A}} -> A -> String
| {{mkShow s}} x -> s x;
f' {A} : {{Show A}} → A → String
| {{M}} x := Show.show {{M}} x;
```
The trait parameters in instance types are checked to be structurally
decreasing to avoid looping in the instance search. So the following is
rejected:
```
type Box A := box A;
trait
type T A := mkT { pp : A → A };
instance
boxT {A} : {{T (Box A)}} → T (Box A) := mkT (λ{x := x});
```
We check whether each parameter is a strict subterm of some trait
parameter in the target. This ordering is included in the finite
multiset extension of the subterm ordering, hence terminating.
- Closes#2331.
The rules implemented in this pr are as follows.
1. If a type definition has only one constructor, no pipe is added. The
constructor is printed in the same line if it fits.
2. If a constructor is a record with a single field, the field is
printed in the same line if it fits. If the constructor has multiple
fields, they are printed aligned and indented after a line break.
Examples:
```
type T := constructT : T;
type T-wrapper := mkWrapper {unwrap : T};
type EnumRecord :=
| --- doc for C1
C1 {
c1a : T;
c1b : T
}
| C2 {
c2a : T;
c2b : T
};
```
This PR introduces a global `--offline` flag.
## Doctor
This replaces the `--offline` flag on the doctor command.
## Juvix package builds
The flag applies to juvix build commands like `juvix compile`, `juvix
repl`. This is so that users can continue to build packages offline that
have external dependencies when there's no network connection (as long
as they built the same package online previously).
Specifically, when the `--offline` flag is used in a package that has
external git dependencies.
* No `git clone` or `git fetch` commands are used
* `git checkout` will continue to be used
* Clones from previous builds are reused
This means that you can update the `ref` field in a git dependency, as
long as the ref existed the last time that the project was built without
the `--offline` flag.
* Closes https://github.com/anoma/juvix/issues/2333
This PR adds external git dependency support to the Juvix package
format.
## New dependency Git item
You can now add a `git` block to the dependencies list:
```yaml
name: HelloWorld
main: HelloWorld.juvix
dependencies:
- .juvix-build/stdlib
- git:
url: https://my.git.repo
name: myGitRepo
ref: main
version: 0.1.0
```
Git block required fields:
* `url`: The URL of the git repository
* `ref`: The git reference that should be checked out
* `name`: The name for the dependency. This is used to name the
directory of the clone, it is required. Perhaps we could come up with a
way to automatically name the clone directory. Current ideas are to
somehow encode the URL / ref combination or use a UUID. However there's
some value in having the clone directory named in a friendly way.
NB:
* The values of the `name` fields must be unique among the git blocks in
the dependencies list.
## Behaviour
When dependencies for a package are registered, at the beginning of the
compiler pipeline, all remote dependencies are processed:
1. If it doesn't already exist, the remote dependency is cloned to
`.juvix-build/deps/$name`
2. `git fetch` is run in the clone
3. `git checkout` at the specified `ref` is run in the clone
The clone is then processed by the PathResolver in the same way as path
dependencies.
NB:
* Remote dependencies of transitive dependencies are also processed.
* The `git fetch` step is required for the case where the remote is
updated. In this case we want the user to be able to update the `ref`
field.
## Errors
1. Missing fields in the Git dependency block are YAML parse errors
2. Duplicate `name` values in the dependencies list is an error thrown
when the package file is processed
3. The `ref` doesn't exist in the clone or the clone directory is
otherwise corrupt. An error with a suggestion to `juvix clean` is given.
The package file path is used as the location in the error message.
4. Other `git` command errors (command not found, etc.), a more verbose
error is given with the arguments that were passed to the git command.
## Future work
1. Add an offline mode
2. Add a lock file mechanism that resolves branch/tag git refs to commit
hashes
* closes https://github.com/anoma/juvix/issues/2083
---------
Co-authored-by: Jan Mas Rovira <janmasrovira@gmail.com>
- Closes#2293.
- Closes#2319
I've added an effect for termination. It keeps track of which functions
failed the termination checker, which is run just after translating to
Internal. During typechecking, non-terminating functions are not
normalized. After typechecking, if there is at least one function which
failed the termination checker, an error is reported.
Additionally, we now properly check for termination of functions defined
in a let expression in the repl.
- Closes#2188.
This pr introduces a new syntactical statement for defining aliases:
```
syntax alias newName := oldName;
```
where `oldName` can be any name in the expression namespace. Fixity and
module aliases are not supported at the moment.
- The `newName` does not inherit the fixity of `oldName`. We have agreed
that the goal is to inherit the fixity of `oldName` except if `newName`
has a fixity statement, but this will be done in a separate pr as it
requires #2310.