This PR introduces FileExt type, and consequently, one can generalise
methods and matches based on the file extension; for example,
`parseInputJuvixAsmFile` is now an app. `parseInputFile FileExtJuvixAsm`
This PR adds `--prefix-id`, `--no-path`, and `only-code` flags to the
HTML backend to manipulate the hyperlinks on the resulting HTML output
and the output itself by only keeping the content of the body in the
Html.
As a usage case, we can support `juvix-standalone` blocks, as
demonstrated in
- https://github.com/anoma/juvix-docs/pull/80
Simplifies arithmetic expressions in the Core optimization phase,
changing e.g. `(x - 1) + 1` to `x`. Such expressions appear as a result
of compiling pattern matching on natural numbers.
The special PathResolver puts files from the global package stdlib and
files from the global package description files in scope of the
$root/Package.juvix module.
Currently this means that PackageDescription module is in scope for the
module so that the user can write:
```
module Package;
import Stdlib.Prelude open;
import PackageDescription open;
package : Package :=
mkPackageDefault
(name := "foo")
{ version := mkVersion 0 1 0
; dependencies :=
[ github "anoma" "juvix-stdlib" "adf58a7180b361a022fb53c22ad9e5274ebf6f66"
; github "anoma" "juvix-containers" "v0.7.1"]};
```
* Closes#2154
* Evaluates closed applications with value arguments when the result
type is zero-order. For example, `3 + 4` is evaluated to `7`, and `id 3`
is evaluated to `3`, but `id id` is not evaluated because the target
type is not zero-order (it's a function type).
* Closes#2426
A coercion from trait `T` to `T'` can be declared with the syntax
```
coercion instance
coeName {A} {{T A}} : T' A := ...
```
Coercions can be seen as instances with special resolution rules.
Coercion resolution rules
-------------------------
* If a non-coercion instance can be applied in a single instance
resolution step, no coercions are considered. No ambiguity results if
there exists some coercion which could be applied, but a non-coercion
instance exists - the non-coercion instances have priority.
* If no non-coercion instance can be applied in a single resolution
step, all minimal coercion paths which lead to an applicable
non-coercion instance are considered. If there is more than one,
ambiguity is reported.
Examples
----------
The following type-checks because:
1. There is no non-coercion instance found for `U String`.
2. There are two minimal coercion paths `U` <- `U1` and `U` <- `U2`, but
only one of them (`U` <- `U2`) ends in an applicable non-coercion
instance (`instU2` for `U2 String`).
```
trait
type U A := mkU {pp : A -> A};
trait
type U1 A := mkU1 {pp : A -> A};
trait
type U2 A := mkU2 {pp : A -> A};
coercion instance
fromU1toU {A} {{U1 A}} : U A :=
mkU@{
pp := U1.pp
};
coercion instance
fromU2toU {A} {{U2 A}} : U A :=
mkU@{
pp := U2.pp
};
instance
instU2 : U2 String := mkU2 id;
main : IO := printStringLn (U.pp "X")
```
The following results in an ambiguity error because:
1. There is no non-coercion instance found for `T Unit`.
2. There are two minimal coercion paths `T` <- `T1` and `T` <- `T2`,
both of which end in applicable non-coercion instances.
```
trait
type T A := mkT { pp : A → A };
trait
type T1 A := mkT1 { pp : A → A };
trait
type T2 A := mkT2 { pp : A → A };
instance
unitT1 : T1 Unit := mkT1 (pp := λ{_ := unit});
instance
unitT2 : T2 Unit := mkT2 (pp := λ{_ := unit});
coercion instance
fromT1toT {A} {{T1 A}} : T A := mkT@{
pp := T1.pp
};
coercion instance
fromT2toT {A} {{T2 A}} : T A := mkT@{
pp := T2.pp
};
main : Unit := T.pp unit;
```
The following type-checks, because there exists a non-coercion instance
for `T2 String`, so the coercion `fromT1toT2` is ignored during instance
resolution.
```
trait
type T1 A := mkT1 {pp : A -> A};
trait
type T2 A := mkT2 {pp : A -> A};
instance
instT1 {A} : T1 A :=
mkT1@{
pp := id
};
coercion instance
fromT1toT2 {A} {{M : T1 A}} : T2 A :=
mkT2@{
pp := T1.pp {{M}}
};
instance
instT2 : T2 String :=
mkT2@{
pp (s : String) : String := s ++str "!"
};
main : String := T2.pp "a";
```
* Introduces the `inline: case` pragma which causes an identifier to be
inlined if it is matched on. This is necessary to support GEB without
compromising optimization for other targets.
* Adapts to the new commits in
https://github.com/anoma/juvix-stdlib/pull/86
* Adapts to https://github.com/anoma/juvix-stdlib/pull/86
* Adds a pass in `toEvalTransformations` to automatically inline all
record projection functions, regardless of the optimization level. This
is necessary to ensure that arithmetic operations and comparisons on
`Nat` or `Int` are always represented directly with the corresponding
built-in Core functions. This is generally highly desirable and required
for the Geb target.
* Adds the `inline: always` pragma which indicates that a function
should always be inlined during the mandatory inlining phase, regardless
of optimization level.
- Closes#2402.
Changes:
1. Allow the definition of empty record types.
2. Introduce the _constructor wildcard_ pattern. That is, a pattern of
the form `constr@{}` that matches the constructor `constr` regardless of
its number of arguments.
Changes in the printing of Lambda terms necessary for the use of the Juvix
Geb backend, changing the names of binary operations, adding a
constructor for natural numbers. Appropriately changes tests when
necessary.
---------
Co-authored-by: Jonathan Cubides <jonathan.cubides@uib.no>
* Closes#2416
* Closes#2401
* Avoids generating identical specialisations by keeping a
specialisation signature for each specialised function application.
* Allows to specialise on a per-trait or per-instance basis:
```
{-# specialize: true #-}
trait
type Natural N := mkNatural {
+ : N -> N -> N;
* : N -> N -> N;
fromNat : Nat -> N;
};
```
or
```
{-# specialize: true #-}
instance
naturalNatI : Natural Nat := ...
```
* The above `specialize: bool` pragma actually works with any type or
function. To be able to simultaneously specify the boolean
specialisation flag and specialisation arguments, one can use
`specialize-args: [arg1, .., argn]` which works like `specialize: [arg1,
.., argn]`.
This PR adds a new command `juvix dependencies update` that fetches all
dependencies in a project and updates the project lock file.
Currently the only way to update the lock file is to delete it and
generate a new one.
## CLI Docs
```
juvix dependencies --help
Usage: juvix dependencies COMMAND
Subcommands related to dependencies
Available options:
-h,--help Show this help text
Available commands:
update Fetch package dependencies and update the lock file
```
## Example
A project containing the following `juvix.yaml`
```yaml
dependencies:
- .juvix-build/stdlib/
- git:
url: https://github.com/anoma/juvix-test
ref: v0.6.0
name: test
main: Example.juvix
name: example
version: 1.0.0
```
compile to generate the lockfile: `juvix compile`
```yaml
# This file was autogenerated by Juvix version 0.5.1.
# Do not edit this file manually.
dependencies:
- path: .juvix-build/stdlib/
dependencies: []
- git:
name: test
ref: a94c61749678ff57556ee6e4cb1f8fbbddbc4ab1
url: https://github.com/anoma/juvix-test
dependencies:
- git:
name: stdlib
ref: 4facf14d9b2d06b81ce1be1882aa9050f768cb45
url: https://github.com/anoma/juvix-stdlib
dependencies: []
```
Now update the test dependency version:
```yaml
- .juvix-build/stdlib/
- git:
url: https://github.com/anoma/juvix-test
ref: v0.6.1
name: test
main: Example.juvix
name: example
version: 1.0.0
```
And run `juvix dependencies update`
Now the lockfile has updated to the hash of v0.6.1:
```yaml
# This file was autogenerated by Juvix version 0.5.1.
# Do not edit this file manually.
dependencies:
- path: .juvix-build/stdlib/
dependencies: []
- git:
name: test
ref: a7ac74cac0db92e0b5e349f279d797c3788cdfdd
url: https://github.com/anoma/juvix-test
dependencies:
- git:
name: stdlib
ref: 4facf14d9b2d06b81ce1be1882aa9050f768cb45
url: https://github.com/anoma/juvix-stdlib
dependencies: []
```
---------
Co-authored-by: Jonathan Cubides <jonathan.cubides@uib.no>
.hlint.yaml was removed in:
* https://github.com/anoma/juvix/pull/2398
however it's useful to keep it because it is used by Haskell tooling
(emacs haskell-mode and vscode haskell extension).
This PR adds lock file support to the compiler pipeline. The lock file
is generated whenever a compiler pipeline command (`juvix {compile,
typecheck, repl}`) is run.
The lock file contains all the information necessary to reproduce the
whole dependency source tree. In particular for git dependencies,
branch/tag references are resolved to git hash references.
## Lock file format
The lock file is a YAML `juvix.lock.yaml` file written by the compiler
alongside the package's `juvix.yaml` file.
```
LOCKFILE_SPEC: { dependencies: { DEPENDENCY_SPEC, dependencies: LOCKFILE_SPEC }
DEPENDENCY_SPEC: PATH_SPEC | GIT_SPEC
PATH_SPEC: { path: String }
GIT_SPEC: { git: {url: String, ref: String, name: String } }
```
## Example
Consider a project containing the following `juvix.yaml`:
```yaml
dependencies:
- .juvix-build/stdlib/
- git:
url: https://github.com/anoma/juvix-containers
ref: v0.7.1
name: containers
name: example
version: 1.0.0
```
After running `juvix compile` the following lockfile `juvix.lock.yaml`
is generated.
```yaml
# This file was autogenerated by Juvix version 0.5.1.
# Do not edit this file manually.
dependencies:
- path: .juvix-build/stdlib/
dependencies: []
- git:
name: containers
ref: 3debbc7f5776924eb9652731b3c1982a2ee0ff24
url: https://github.com/anoma/juvix-containers
dependencies:
- git:
name: stdlib
ref: 4facf14d9b2d06b81ce1be1882aa9050f768cb45
url: https://github.com/anoma/juvix-stdlib
dependencies: []
- git:
name: test
ref: a7ac74cac0db92e0b5e349f279d797c3788cdfdd
url: https://github.com/anoma/juvix-test
dependencies:
- git:
name: stdlib
ref: 4facf14d9b2d06b81ce1be1882aa9050f768cb45
url: https://github.com/anoma/juvix-stdlib
dependencies: []
```
For subsequent runs of the juvix compile pipeline, the lock file
dependency information is used.
## Behaviour when package file and lock file are out of sync
If a dependency is specified in `juvix.yaml` that is not present in the
lock file, an error is raised.
Continuing the example above, say we add an additional dependency:
```
dependencies:
- .juvix-build/stdlib/
- git:
url: https://github.com/anoma/juvix-containers
ref: v0.7.1
name: containers
- git:
url: https://github.com/anoma/juvix-test
ref: v0.6.1
name: test
name: example
version: 1.0.0
```
`juvix compile` will throw an error:
```
/Users/paul/tmp/lockfile/dep/juvix.yaml:1:1: error:
The dependency test is declared in the package's juvix.yaml but is not declared in the lockfile: /Users/paul/tmp/lockfile/dep/juvix.lock.json
Try removing /Users/paul/tmp/lockfile/dep/juvix.lock.yaml and then run Juvix again.
```
Closes:
* https://github.com/anoma/juvix/issues/2334
Adds a Partial trait to the standard library, similar to the one in
PureScript:
https://book.purescript.org/chapter6.html#nullary-type-classes
This enables using partial functions in an encapsulated manner and
without depending on the Debug module.
Adds a trait:
```
trait
type Partial := mkPartial {
fail : {A : Type} -> String -> A
};
runPartial {A} (f : {{Partial}} -> A) : A := f {{mkPartial Debug.failwith}};
```
* Small style improvements
* Update `mapfun.juvix` to use `Int` instead of `Nat` so that it is
semantically equivalent to the other implementations.
* Adapt to #2396
* Closes#2280
* Record creation syntax uses normal function definition syntax like at
the top-level or in lets.
* It is now allowed to omit the result type annotation in function
definitions (the `: ResultType` part) with `_` inserted by default. This
is allowed only for simple definitions of the form `x := value` in lets
and record creation, but not at the top level.
- 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.
