Two fixes in `EnsoCompilerTest` to align new parser with the previous behavior.
# Important Notes
Removes two `@Ignore` annotations. One test was already working. Another one is fixed by Kaz's idea to ignore _"empty block"_ application.
Libraries: Revert changes that were necessitated by a new rule we have decided not to introduce.
Parser:
- Support mixed constructors/bindings in types.
- Disallow zero-length hex sequences in character escapes: `\x`, `\u`, `\u{}`, `\U`, `\U{}` are no longer legal synonyms for `\0` (matches old parser behavior).
This change adds support for Version Controlled projects in language server.
Version Control supports operations:
- `init` - initialize VCS for a project
- `save` - commit all changes to the project in VCS
- `restore` - ability to restore project to some past `save`
- `status` - show the status of the project from VCS' perspective
- `list` - show a list of requested saves
# Important Notes
Behind the scenes, Enso's VCS uses git (or rather [jGit](https://www.eclipse.org/jgit/)) but nothing stops us from using a different implementation as long as it conforms to the establish API.
Computing length of a text takes time. Let's cache it after first computation.
# Important Notes
Wrote `StringBenchmarks` that sums lengths of (the same) `Text` present many time in a `Vector`. Initially it took `383.673 ms` per operation. Then it took `0.031 ms/op`. Looks like the `length` calls are returning instantly as they get cached.
This PR mimics test cases from #3860 and makes sure `IR.Syntax.Error` is constructed at appropriate places rather than just yielding an `UnhandledEntity` exception.
# Important Notes
Merge before #3611 to minimize disruption when changing the parser.
Ensure all tokens from the input are represented in trees resulting from invalid inputs--tests now cover every reachable code line that creates an `Invalid` node. (Also implemented stricter validation, mainly of `import`/`export` statements.)
See: https://www.pivotaltracker.com/story/show/183405907
This PR updates the build script:
* fixed issue where program version check was not properly triggering;
* improved `git-clean` command to correctly clear Scala artifacts;
* added `run.ps1` wrapper to the build script that works better with PowerShell than `run.cmd`;
* increased timeouts to work around failures on macOS nightly builds;
* replaced depracated GitHub Actions APIs (set-output) with their new equivalents;
* workaround for issue with electron builder (python2 lookup) on newer macOS runner images;
* GUI and backend dispatches to cloud were completed;
* release workflow allows creating RC releases.
- Added expression ANTLR4 grammar and sbt based build.
- Added expression support to `set` and `filter` on the Database and InMemory `Table`.
- Added expression support to `aggregate` on the Database and InMemory `Table`.
- Removed old aggregate functions (`sum`, `max`, `min` and `mean`) from `Column` types.
- Adjusted database `Column` `+` operator to do concatenation (`||`) when text types.
- Added power operator `^` to both `Column` types.
- Adjust `iif` to allow for columns to be passed for `when_true` and `when_false` parameters.
- Added `is_present` to database `Column` type.
- Added `coalesce`, `min` and `max` functions to both `Column` types performing row based operation.
- Added support for `Date`, `Time_Of_Day` and `Date_Time` constants in database.
- Added `read` method to InMemory `Column` returning `self` (or a slice).
# Important Notes
- Moved approximate type computation to `SQL_Type`.
- Fixed issue in `LongNumericOp` where it was always casting to a double.
- Removed `head` from InMemory Table (still has `first` method).
Another set of improvements extracted from #3611. This time it includes a fix to the Rust part of the parser.
# Important Notes
After digging into metadata parsing I realized the positions used to query the BTree data structure are wrong. This PR tries to address that by re-arranging the order of serialized fields and passing `startCode` and `endCode` locations in.
Originally I though I need changes on the Rust side to support `in` operator. Turned out I can do that just with changes on the Java side.
Qualified names in imports were missing UUIDs. Fixed now.
To minimize differences between #3611 and `develop` branch I propose to make following code changes that seem to work fine with the old as well as new parser. In addition to that there are new tests comparing the two parsers.
# Important Notes
Old parser is still used everywhere except `EnsoCompilerTest` where the test compares `IR`s constructed by both parsers.
Another set of fixes extracted from #3611. `CodeLocationsTest` test has been made more flexible to allow _"off by one"_ differences in the offset locations between the old and new parser.
Split `HasOutputTypeLabel::output_type_label` method implementation non-generic part into a separate function. This significantly reduces compile time without risking any performance regressions. That function is currently only used for debug network visualization using graphviz, but still contributed a significant compilation time.
I've made a single attempt to profile the compiler itself, and it turned out that the compiler spent a significant amount of time trying to resolve `Pattern` implementation for closures in that method. Each of those also had to separately go through codegen and optimization. That happened for each node type in the codebase, per crate. Moving that into separate non-inline function removed all those unnecessary duplicates from. I also took this opportunity to rewrite that small piece of parsing to make it a bit cleaner.
The method of measurement is explained here: https://blog.rust-lang.org/inside-rust/2020/02/25/intro-rustc-self-profile.html
In this specific case, I've used `self-profile` to generate a profile for all crates, then used `crox` and [perfetto](https://ui.perfetto.dev/) to analyze the output.
This also shows a pattern to be aware of - using closures in generic context forces the compiler to make a separate closure type per each instantiation, even if that closure doesn't close on anything and could be a static function. This in effect forces even more instantiations or unnecessary type resolutions for all code paths that touch that closure. Using static functions or separating the non-generic part away in those cases would likely continue to help with compile times and file size.
## Comparison
The measurement was done on same machine under same environment, cleaning the build artifacts inbetween runs.
| | before | after |
|-|-|-|
|total build time|5m 5.5s|3m 59.0s|
| `ide-view-graph-editor` crate build time| 85.68s | 49.73s |
| `ide-view-component-list-panel-grid` crate build time | 49.88s | 32.07s |
| `ide-view` crate build time | 29.05s | 17.5s |
| `enso_gui.wasm` file size before wasm-opt | 83.6 MB | 80.9 MB |
| `enso_gui.wasm` file size after wasm-opt | 67.3 MB | 65.3 MB |
Make sure `libenso_parser.so`, `.dll` or `.dylib` are packaged and included when `sbt buildEngineDistribution`.
# Important Notes
There was [a discussion](https://discord.com/channels/401396655599124480/1036562819644141598) about proper location of the library. It was concluded that _"there's no functional difference between a dylib and a jar."_ and as such the library is placed in `component` folder.
Currently the old parser is still used for parsing. This PR just integrates the build system changes and makes us ready for smooth flipping of the parser in the future as part of #3611.
Wrap big and commonly copied `Application` struct into `Rc` to avoid large structure sizes for all widgets.
The `Application` struct by itself takes 704 bytes, measured by `size_of::<Application>()`. This structure is very often directly copied into components and widgets. Most notably, the generic `Widget` struct contains it. There are also cases, where structs (especially various `Model`s) contain multiple other child widgets directly, and end up indirectly copying the application multiple times.
All of `Application` clones are logical references (via `CloneRef`), so wrapping it into extra `Rc` doesn't change semantics in any way, but makes all structs that clone it way smaller. This reduces the amount of `memcpy`s and overall volume of allocated memory.
Measurement of a few example structs:
Before change:
```
size_of Application: 704 B
size_of Scrollbar: 712 B
size_of Scrollbar Model: 1576 B
```
After change:
```
size_of Application: 4 B
size_of ApplicationData: 704 B
size_of Scrollbar: 12 B
size_of Scrollbar Model: 176 B
```
Ideally we would not need to clone application reference into each component, but that's out of scope of this PR since it requires a lot more effort.
Fix bugs in `TreeToIr` (rewrite) and parser. Implement more undocumented features in parser. Emulate some old parser bugs and quirks for compatibility.
Changes in libs:
- Fix some bugs.
- Clean up some odd syntaxes that the old parser translates idiosyncratically.
- Constructors are now required to precede methods.
# Important Notes
Out of 221 files:
- 215 match the old parser
- 6 contain complex types the old parser is known not to handle correctly
So, compared to the old parser, the new parser parses 103% of files correctly.
This PR adds `Period` type, which is a date-only complement to `Duration` builtin type.
# Important Notes
- `Period` replaces `Date_Period`, and `Time_Period`.
- Added shorthand constructors for `Duration` and `Period`. For example: `Period.days 10` instead of `Period.new days=10`.
- `Period` can be compared to other `Period` in some cases, other cases throw an error.
Fixes [#183511669](https://www.pivotaltracker.com/story/show/183511669)
This PR improves the `ImportInfo` structure from Double Representation crate so it provides information what names are brought into the scope with this import. The from_ast method also recognized [various ways of defining imports](https://github.com/enso-org/enso/blob/develop/docs/syntax/imports.md)
# Important Notes
The parser seems to not recognize properly imports with aliases. I have not fixed that, as we expect a new parser to be merged very soon.
Define start of Enso epoch as 15th of October 1582 - start of the Gregorian calendar.
# Important Notes
- Some (Gregorian) calendar related functionalities within `Date` and `Date_Time` now produces a warning if the receiving Date/Date_Time is before the epoch start, e.g., `week_of_year`, `is_leap_year`, etc.
1. Changes how we do monadic state – rather than a haskelly solution, we now have an implicit env with mutable data inside. It's better for the JVM. It also opens the possibility to have state ratained on exceptions (previously not possible) – both can now be implemented.
2. Introduces permission check system for IO actions.
Moved loading of Builtin Types and Methods to a static initializer. That way the information is available at Native Image build time and one does not have to update a corresponding entry in `reflect-config` which would be a real pain when we start using it in anger.
Fixes https://www.pivotaltracker.com/story/show/183374932
Fixes https://www.pivotaltracker.com/story/show/182926584
[Task link](https://www.pivotaltracker.com/story/show/183426449)
This PR fixes an IDE freeze introduced by https://github.com/enso-org/enso/pull/3732 and reimplements reverting edited nodes to their previous state.
The cause of the IDE freeze is quite interesting. A detailed investigation is available [here](https://gist.github.com/vitvakatu/785e34881368b8cfda61715d7543cbd0).
The graph editor needs to update the Presenter state only if the user is editing the node. Before this PR, the graph editor notified the Presenter with a visual representation of the node content instead of code expression. It caused inconsistency between the states of the controller and Presenter and caused severe performance issues.
https://user-images.githubusercontent.com/6566674/195831224-6d6e8258-e347-48b4-890a-d89c7300bc39.mp4
# Important Notes
- ~~There is a more complex alternative solution – it requires refactoring of the `component::node::input::area` module. The Presenter can be notified with `expression.code` changes, not `expression.viz_code`. I found a simpler solution (`.gate(&edit_mode)`), which has the same effect but does not require additional refactoring.~~ Said solution is implemented in a separate commit
Most of the time, rather than defining the type of the parameter of the builtin, we want to accept every Array-like object i.e. Vector, Array, polyglot Array etc.
Rather than writing all possible combinations, and likely causing bugs on the way anyway as we already saw, one should use `CoerceArrayNode` to convert to Java's `Object[]`.
Added various test cases to illustrate the problem.
We've had an old attempt at integrating a Rust parser with our Scala/Java projects. It seems to have been abandoned and is not used anywhere - it is also superseded by the new integration of the Rust parser. I think it was used as an experiment to see how to approach such an integration.
Since it is not used anymore - it make sense to remove it, because it only adds some (slight, but non-zero) maintenance effort. We can always bring it back from git history if necessary.
Another part of #3611 with few more `TreeToIr` improvements.
# Important Notes
Unofficial `LoadParser.sh` check from #3611 of all library files now reports just 54 failures out of 222 files - e.g. 75% success rate.
