- Closes#9486
- All tests are succeeding or marked pending
- Created follow up tickets for things that still need to be addressed, including:
- Fixing upload / table update #10609
- Fixing `Count_Distinct` on Boolean columns #10611
- Running the tests on CI is not part of this PR - to be addressed separately
Closes#10564. Dashboard accepts only projects with non-empty namespace.
The change in project-manager ensures that we serialize `namespace` even if it is a default one.
The change in dashboard ensures that namespace can be empty.
* Eliminating circe-yaml
This change adds our very-own YAML parser on top of SnakeYAML. Compared
to Circe parser on top of SnakeYAML. The advantage? In some not-so-distant
future we might actually get rid of circe and the related performance
issues.
The logic is similar to what circe does i.e. analyzing SnakeYAML to
build our own structure.
This change is not complete, as there are still some tests failing, but
most common Configs are already parseable.
We _could_ auto-generate some of the code but still some of the logic
would have to be tweaked by hand; the current logic has a number of
special cases, as I found out the hard way.
* wip: more tests passing
* Fix remaining tests in ConfigSpec
* Fixing YAML decoder for editions
Dropping circe as a decoder for Editions revealed some problems. Turns
out the current implementation had even more special cases to deal with.
* nit
* Allow for empty exports
* Mostly complete encodin part
Replaced almost all `toYAML` locations with SnakeYAML equivalent.
The encoding has to use Java collections for which there exists a
built-in support. If we were to use Scala collections we would have to
deal with tagging, at the very least.
* Remove the last remaining Circe's YAML parser
* Bug fix + further loop optimization
* removal of some dependencies
* Remove circe-yaml
Added a custom SnakeYAML Node updater to mimick the JSON -> YAML -> JSON
conversion needed for updating fields. The algorithm recursively follows
the key-path and inserts the desired Node. This is not a performance
oriented code on purpose.
* Fix compilation issues
`circe-core` was marked as `provided` but no one eventually included it
in the final jar, hence `NoClassFoundException`.
* fix licensing
* Removing obsolete circe definitions
* fmt
* nits
* s/SnakeYamlDecoder/YamlDecoder
* fmt
* Partial revert, PM needs JSON decoders/encoders
* style
* incremental compilation gone wrong
The current implementation contains logic that should enable us to make some backward compatibility config changes.
At the same time, the logic is tightly integrated with circe's JSON library, which we want to eventually to get rid off.
Rather than trying to keep it somehow around and maintain via some hacks this PR proposes to ditch that logic completely as we currently have no use-case for such scenarios.
As a result, classes modelling YAML configs now don't have the extra fields and there is 1:1 correspondence.
Performance has also improved although that wasn't the main objective, yet. Follow up PR will attempt to replace `circe-yaml` with `snakeyaml` directly.
In preparation for #9113. Note that the dependency upgrade is necessary because it brings latest available `snakeyaml` (as part of `circe-yaml`).
`Bump` library uses parser combinators behind the scenes which are known to be good at expressing grammars but are not performance-oriented.
This change ditches the dependency in favour of an existing Java implementation. `jsemver` implements the full specification, which is probably an overkill in our case, but proved to be an almost drop-in replacement for the previous library.
Closes#8692
# Important Notes
Peformance improvements:
- roughly 50ms compared to the previous approach (from 80ms to 20-40ms)
I don't see any time spent in the new implementation during startup so it could be potentially aggressively inlined.
Further more, we could use a facade and offer our own strip down version of semver.
For our users "Nodes" are called "Components". Which the users selects using the component browser. This MR just sets the text in the default workflow.
Add a local clone of javaFormatter plugin. The upstream is not maintained anymore. And we need to update it to use the newest Google java formatter because the old one, that we use, cannot format sources with Java 8+ syntax.
# Important Notes
Update to Google java formatter 1.18.1 - https://github.com/google/google-java-format/releases/tag/v1.18.1
* Test illustrating problems with FQNs
Inline execution fails with `Compile error: The name `Standard` could
not be found.`.
* Ensure InlineContext carries Package Repos info
Previously, there was no requirement that inline execution should allow
for FQNs. This meant that the omission of Package Repository info went
unnoticed.
In order to be able to refer to `Standard.Visualization.Preprocessor` it
has to be exported as well.
It seems that Runtime Connector wasn't respecting the protocol it defined itself. The connector should be waiting on the `Api.InitializedNotification` message and only then start forwarding messages. So far it seems this hasn't been a problem, or at least wasn't reported as such, because initialization was fast enough.
Modified `Handler` so that we are certain that its fields hold initialized values when being accessed by different threads.
Should fix problems mentioned in #7898.
- Closes#7633
- Moves `Round_Spec.enso` from published `Standard.Test` into our `test/Tests` project; the `Table_Tests` that depend on it, simply `import enso_dev.Tests`.
- Changes the layout of the local libraries directory:
- It used to be `root/<namespace>/<name>`.
- Now it is `root/<dir>` - the namespace and name are now read from `package.yaml` instead.
- Adds the parent directory of the current project to the default `ENSO_LIBRARY_PATH`.
- It is treated as a secondary path, so the default `ENSO_HOME/lib` still takes precedence.
- This allows projects to reference and load 'sibling' projects easily - the only requirement is for the project to enable `prefer-local-libraries: true` or add the other local project to its edition. The edition resolution logic is **not changed**.
close#7604
After moving the rename action to the dashboard, IDE is unaware of the new project name. PR implements a new `refactoring/projectRenamed` notification that is sent from the server to clients and informs them about the changed project name.
# Important Notes
https://github.com/enso-org/enso/assets/357683/7c62726d-217e-4e69-8e48-568e0b7b8c34
This was meant to be a trivial change, but actually a dirty workaround needed to be applied. Because enter is used to both open searcher and accept input/entry, both actions were fired at once. I fixed it by debouncing opening searcher event (so the searcher will be opened only once key event handling is over)
close#7194
Changelog:
- add: `/projects/{project_id}/enso_project` HTTP endpoint returning an `.enso-project` archive structure
- update: archive enso project to a `.enso-project` `.tar.gz` archive
- update: make project `path` a required field
It is relatively easy to reach timeouts on weak systems for startup
operations on project manager. Once a timeout is reached, startup will
not proceed any further.
This PR is a bit of an experiment. It adds adds timeout retries to give a bit of a leeway to
under-powered machines and to log some progress on the way, so that we
know that certain actions are still in progress.
Package's config information, once loaded, never changed. While there is typically no need for it, this was problematic when the config became out-of-sync with the filesystem, like in the case of project rename action.
In rename, the config's properties would be updated in the FS, but that would never be reflected in module's package. Therefore further compilations would continue to ask for the old namespace.
Most of the changes are cosmetic (s/`.config`/`.getConfig()`) except for the new `reloadConfig` method on `Package` that is being called in `RenameProjectCmd` handler.
Closes#7062.
# Important Notes
The reported `ExecutionFailed` error should have been mostly fixed already via #7143. This change makes sure that all the related warnings are gone as well and the compiler uses the updated namespace.
Empty edition (null value) was parsed as NaN, which was confusing. This change correctly detects the case before trying different fallback mechanisms.
Addresses invalid warning mentioned in #6806.
close#5911
In interactive mode, perform writing IR caches in the background jobs queue. Background jobs execution is delayed until the first execution is complete.
This change downgrades hashing algorithm used in caching IR and library bindings to SHA-1. It is sufficient and significantly faster for the purpose of simple checksum we use it for.
Additionally, don't calculate the digest for serialized bytes - if we get the expected object type then we are confident about the integrity.
Don't initialize Jackson's ObjectMapper for every metadata serialization/de-serialization. Initialization is very costly.
Avoid unnecessary conversions between Scala and Java. Those back-and-forth `asScala` and `asJava` are pretty expensive.
Finally fix an SBT warning when generating library cache.
Closes https://github.com/enso-org/enso/issues/5763
# Important Notes
The change cuts roughly 0.8-1s from the overall startup.
This change will certainly lead to invalidation of existing caches. It is advised to simply start with a clean slate.
This change adds serialization and deserialization of library bindings.
In order to be functional, one needs to first generate IR and
serialize bindings using `--compiled <path-to-library>` command. The bindings
will be stored under the library with `.bindings` suffix.
Bindings are being generated during `buildEngineDistribution` task, thus not
requiring any extra steps.
When resolving import/exports the compiler will first try to load
module's bindings from cache. If successful, it will not schedule its
imports/exports for immediate compilation, as we always did, but use the
bindings info to infer the dependent modules.
The current change does not make any optimizations when it comes to
compiling the modules, yet. It only delays the actual
compilation/loading IR from cache so that it can be done in bulk.
Further optimizations will come from this opportunity such as parallel
loading of caches or lazily inferring only the necessary modules.
Part of https://github.com/enso-org/enso/issues/5568 work.
In cloud we want to allow users to create new project from the template. List of templates is a bit outdated and doesn't contain all from the https://github.com/enso-org/project-templates. This PR simply adds missing ones
This PR adds a possibility to generate native-image for engine-runner.
Note that due to on-demand loading of stdlib, programs that make use of it are currently not yet supported
(that will be resolved at a later point).
The purpose of this PR is only to make sure that we can generate a bare minimum runner because due to lack TruffleBoundaries or misconfiguration in reflection config, this can get broken very easily.
To generate a native image simply execute:
```
sbt> engine-runner-native/buildNativeImage
... (wait a few minutes)
```
The executable is called `runner` and can be tested via a simple test that is in the resources. To illustrate the benefits
see the timings difference between the non-native and native one:
```
>time built-distribution/enso-engine-0.0.0-dev-linux-amd64/enso-0.0.0-dev/bin/enso --no-ir-caches --in-project test/Tests/ --run engine/runner-native/src/test/resources/Factorial.enso 6
720
real 0m4.503s
user 0m9.248s
sys 0m1.494s
> time ./runner --run engine/runner-native/src/test/resources/Factorial.enso 6
720
real 0m0.176s
user 0m0.042s
sys 0m0.038s
```
# Important Notes
Notice that due to a [bug in GraalVM](https://github.com/oracle/graal/issues/4200), which is already fixed in 22.x, and us still being on 21.x for the time being, I had to add a workaround to our sbt build to build a different fat jar for native image. To workaround it I had to exclude sqlite jar. Hence native image task is on `engine-runner-native` and not on `engine-runner`.
Will need to add the above command to CI.
This change allows for importing modules using a qualified name and deals with any conflicts on the way.
Given a module C defined at `A/B/C.enso` with
```
type C
type C a
```
it is now possible to import it as
```
import project.A
...
val x = A.B.C 10
```
Given a module located at `A/B/C/D.enso`, we will generate
intermediate, synthetic, modules that only import and export the successor module along the path.
For example, the contents of a synthetic module B will look like
```
import <namespace>.<pkg-name>.A.B.C
export <namespace>.<pkg-name>.A.B.C
```
If module B is defined already by the developer, the compiler will _inject_ the above statements to the IR.
Also removed the last elements of some lowercase name resolution that managed to survive recent
changes (`Meta.Enso_Project` would now be ambiguous with `enso_project` method).
Finally, added a pass that detects shadowing of the synthetic module by the type defined along the path.
We print a warning in such a situation.
Related to https://www.pivotaltracker.com/n/projects/2539304
# Important Notes
There was an additional request to fix the annoying problem with `from` imports that would always bring
the module into the scope. The changes in stdlib demonstrate how it is now possible to avoid the workaround of
```
from X.Y.Z as Z_Module import A, B
```
(i.e. `as Z_Module` part is almost always unnecessary).
Result of automatic formatting with `scalafmtAll` and `javafmtAll`.
Prerequisite for https://github.com/enso-org/enso/pull/3394
### Important Notes
This touches a lot of files and might conflict with existing PRs that are in progress. If that's the case, just run
`scalafmtAll` and `javafmtAll` after merge and everything should be in order since formatters should be deterministic.
Changelog:
- add: component groups to package descriptions
- add: `executionContext/getComponentGroups` method that returns component groups of libraries that are currently loaded
- doc: cleanup unimplemented undo/redo commands
- refactor: internal component groups datatype
