* Closes#2562
Checklist
---------
- [x] Translation from JuvixReg to CASM
- [x] CASM runtime
- [x] Juvix to CASM pipeline: combine the right transformations and
check prerequisites
- [x] CLI commands: add target `casm` to the `compile` commands
- [x] Tests:
- [x] Test the translation from JuvixReg to CASM
- [x] Test the entire pipeline from Juvix to CASM
* Closes#2571
* It is reasonable to finish this PR before tackling #2562, because the
field element type is the primary data type in Cairo.
* Depends on #2653
Checklist
---------
- [x] Add field type and operations to intermediate representations
(JuvixCore, JuvixTree, JuvixAsm, JuvixReg).
- [x] Add CLI option to choose field size.
- [x] Add frontend field builtins.
- [x] Automatic conversion of integer literals to field elements.
- [x] Juvix standard library support for fields.
- [x] Check if field size matches when loading a stored module.
- [x] Update the Cairo Assembly (CASM) interpreter to use the field type
instead of integer type.
- [x] Add field type to VampIR backend.
- [x] Tests
---------
Co-authored-by: Jan Mas Rovira <janmasrovira@gmail.com>
Quoting the [release notes of gnu
`grep-3.8`](https://lists.gnu.org/archive/html/info-gnu/2022-09/msg00001.html)
> The egrep and fgrep commands, which have been deprecated since
release 2.5.3 (2007), now warn that they are obsolescent and should
be replaced by grep -E and grep -F.
In order to fix the warning, I've replaced all instances of `egrep` with
`grep -E`
* Moves the "apply" transformation from JuivxAsm to JuvixTree. This
transformation removes the `CallClosures` nodes.
* Makes Nockma compilation tests use JuvixTree instead of JuvixAsm
files.
* Depends on #2594
* Depends on #2590
* Depends on #2589
* Depends on #2587
After this change there are only two types of variables in JuvixReg:
arguments and local variables. The previous distinction between stack
and temporary variables was spurious and complicated things
unnecessarily.
This makes the syntax more uniform. It was especially confusing with
nested branching, where some closing braces had to and others couldn't
be followed by a semicolon. Now all have to be followed by a semicolon
(except function ending braces).
This is an attempt to fix a confusing situation where a user:
1. Builds the runtime with clang that does not support wasm32-wasi
2. Attempts to rebuild the runtime by passing the CC parameter pointing
to another installation of clang that does support wasm32-wasi.
In step 1. the runtime Makefile generates dependencies files which
contain the resolved value of `$(CC)`. When the user passes the correct
`CC` variable to the Makefile in step 2., the dependencies files are not
regenerated, the old value of `CC` is used in the build and the build
continues to fail.
In this PR we change the dependency file generation so that the
variables like `$(CC)` are written into the dependency file verbatim.
They are resolved when they are run in step 2. using the new value of
the CC parameter.
* Closes https://github.com/anoma/juvix/issues/2537
- Closes#1642.
This pr introduces syntax for convenient record updates.
Example:
```
type Triple (A B C : Type) :=
| mkTriple {
fst : A;
snd : B;
thd : C;
};
main : Triple Nat Nat Nat;
main :=
let
p : Triple Nat Nat Nat := mkTriple 2 2 2;
p' :
Triple Nat Nat Nat :=
p @Triple{
fst := fst + 1;
snd := snd * 3
};
f : Triple Nat Nat Nat -> Triple Nat Nat Nat := (@Triple{fst := fst * 10});
in f p';
```
We write `@InductiveType{..}` to update the contents of a record. The
`@` is used for parsing. The `InductiveType` symbol indicates the type
of the record update. Inside the braces we have a list of `fieldName :=
newValue` items separated by semicolon. The `fieldName` is bound in
`newValue` with the old value of the field. Thus, we can write something
like `p @Triple{fst := fst + 1;}`.
Record updates `X@{..}` are parsed as postfix operators with higher
priority than application, so `f x y @X{q := 1}` is equivalent to `f x
(y @X{q := 1})`.
It is possible the use a record update with no argument by wrapping the
update in parentheses. See `f` in the above example.
An implementation of the translation from JuvixCore to JuvixAsm. After
merging this PR, the only remaining step to complete the basic
compilation pipeline (#1556) is the compilation of complex pattern
matching (#1531).
* Fixes several bugs in lambda-lifting.
* Fixes several bugs in the RemoveTypeArgs transformation.
* Fixes several bugs in the TopEtaExpand transformation.
* Adds the ConvertBuiltinTypes transformation which converts the builtin
bool inductive type to Core primitive bool.
* Adds the `juvix dev core strip` command.
* Adds the `juvix dev core asm` command.
* Adds the `juvix dev core compile` command.
* Adds two groups of tests:
- JuvixCore to JuvixAsm translation: translate JuvixCore tests to
JuvixAsm and run the results with the JuvixAsm interpreter,
- JuvixCore compilation: compile JuvixCore tests to native code and WASM
and execute the results.
* Closes#1520
* Closes#1549