srp wraps the stock Scala 3 REPL and adds many features inspired by ammonite and scala-cli. srp has only one (direct) dependency: the scala3-compiler(*).
This is (also) a breeding ground for improvements to the stock Scala REPL: we're forking parts of the REPL to later bring the changes back into the dotty codebase.
# download latest release and make executable
curl -fL https://github.com/mpollmeier/scala-repl-pp/releases/latest/download/srp > srp
chmod +x srp
# move whereever you want to have it - the directory should be on your PATH, e.g.
sudo mv srp /usr/local/bin/srp
srp
Prerequisite: jdk11+
- Benefits over / comparison with
- Prerequisite for all of the below: run
sbt stage
or download the latest release - Usage
- REPL
- Scripting
- Additional dependency resolvers and credentials
- Server mode
- Embed into your own project
- Verbose mode
- Inherited classpath
- Parameters cheat sheet: the most important ones
- FAQ
- Contribution guidelines
- Fineprint
- add runtime dependencies on startup with maven coordinates - automatically handles all downstream dependencies via coursier
#>
,#>>
and#|
operators to redirect output to file and pipe to external command- customize greeting, prompt and shutdown code
- multiple @main with named arguments (regular Scala REPL only allows an argument list)
- predef code - i.e. run custom code before starting the REPL - via string and scripts
- server mode: REPL runs embedded
- easily embeddable into your own build
- structured rendering including product labels and type information:
Scala-REPL-PP:
Stock Scala REPL:
- Ammonite's Scala 3 support is far from complete - e.g. autocompletion for extension methods has many shortcomings. In comparison: srp uses the regular Scala3/dotty ReplDriver.
- Ammonite has some Scala2 dependencies intermixed, leading to downstream build problems like this. It's no longer easy to embed Ammonite into your own build.
- Note: Ammonite allows to add dependencies dynamically even in the middle of the REPL session - that's not supported by srp currently. You need to know which dependencies you want on startup.
- srp has a 66.6% shorter name 🙂 scala-cli wraps and invokes the regular Scala REPL (by default; or optionally Ammonite). It doesn't modify/fix the REPL itself, i.e. the above mentioned differences between srp and the stock scala repl (or alternatively Ammonite) apply, with the exception of dependencies: scala-cli does let you add them on startup as well.
The below features are all demonstrated using the REPL but also work when running scripts.
./srp
./srp --runBefore 'import Byte.MaxValue'
scala> MaxValue
val res0: Int = 127
You can specify this parameter multiple times, the given statements will be executed in the given order.
If you want to execute some code every single time you start a session, just write it to ~/.scala-repl-pp.sc
echo 'import Short.MaxValue' > ~/.scala-repl-pp.sc
./srp
scala> MaxValue
val res0: Int = 32767
Additional source files that are compiled added to the classpath, but unlike runBefore
not executed straight away can be provided via --predef
.
echo 'def foo = 42' > foo.sc
./srp --predef foo.sc
scala> foo
val res0: Int = 42
You can specify this parameter multiple times (--predef one.sc --predef two.sc
).
Why not use runBefore
instead? For simple examples like the one above, you can do so. If it gets more complicated and you have multiple files referencing each others, predef
allows you to treat it as one compilation unit, which isn't possible with runBefore
. And as you add more code it's get's easier to manage in files rather than command line arguments.
Note that predef files may not contain toplevel statements like println("foo")
- instead, these either belong into your main script (if you're executing one) and/or can be passed to the repl via runBefore
.
Inspired by unix shell redirection and pipe operators (>
, >>
and |
) you can redirect output into files with #>
(overrides existing file) and #>>
(create or append to file), and use #|
to pipe the output to a command, such as less
:
./srp
scala> "hey there" #> "out.txt"
scala> "hey again" #>> "out.txt"
scala> Seq("a", "b", "c") #>> "out.txt"
// pipe results to external command
scala> Seq("a", "b", "c") #| "cat"
val res0: String = """a
b
c"""
// pipe results to external command with arguments
scala> Seq("foo", "bar", "foobar") #| ("grep", "foo")
val res1: String = """foo
foobar"""
// pipe results to external command and let it inherit stdin/stdout
scala> Seq("a", "b", "c") #|^ "less"
// pipe results to external command with arguments and let it inherit stdin/stdout
scala> Seq("a", "b", "c") #|^ ("less", "-N")
All operators use the same pretty-printing that's used within the REPL, i.e. you get structured rendering including product labels etc.
scala> case class PrettyPrintable(s: String, i: Int)
scala> PrettyPrintable("two", 2) #> "out.txt"
// out.txt now contains `PrettyPrintable(s = "two", i = 2)` - in pretty colors
The operators have a special handling for two common use cases that are applied at the root level of the object you hand them: list- or iterator-type objects are unwrapped and their elements are rendered in separate lines, and Strings are rendered without the surrounding ""
. Examples:
scala> "a string" #> "out.txt"
// rendered as `a string` without quotes
scala> Seq("one", "two") #> "out.txt"
// rendered as two lines without quotes:
// one
// two
scala> Seq("one", Seq("two"), Seq("three", 4), 5) #> "out.txt"
// top-level list-types are unwrapped
// resulting top-level strings are rendered without quotes:
// one
// List("two")
// List("three", 4)
// 5
All operators are prefixed with #
in order to avoid naming clashes with more basic operators like >
for greater-than-comparisons. This naming convention is inspired by scala.sys.process.
Note: the dependencies must be known at startup time, either via --dep
parameter:
./srp --dep com.michaelpollmeier:versionsort:1.0.7
scala> versionsort.VersionHelper.compare("1.0", "0.9")
val res0: Int = 1
To add multiple dependencies, you can specify this parameter multiple times.
Alternatively, use the //> using dep
directive in predef code or predef files:
echo '//> using dep com.michaelpollmeier:versionsort:1.0.7' > predef.sc
./srp --predef predef.sc
scala> versionsort.VersionHelper.compare("1.0", "0.9")
val res0: Int = 1
For Scala dependencies use ::
:
./srp --dep com.michaelpollmeier::colordiff:0.36
colordiff.ColorDiff(List("a", "b"), List("a", "bb"))
// color coded diff
Note: if your dependencies are not hosted on maven central, you can specify additional resolvers - including those that require authentication)
Implementation note: srp uses coursier to fetch the dependencies. We invoke it in a subprocess via the coursier java launcher, in order to give our users maximum control over the classpath.
echo 'val bar = "foo"' > myScript.sc
./srp
//> using file myScript.sc
println(bar) //foo
You can specify the filename with relative or absolute paths:
//> using file scripts/myScript.sc
//> using file ../myScript.sc
//> using file /path/to/myScript.sc
Prerequisite: create some .class files:
mkdir foo
cd foo
echo 'class Foo { def foo = 42 } ' > Foo.scala
scalac Foo.scala
cd ..
Now let's start the repl with those in the classpath:
./srp --classpathEntry foo
scala> new Foo().foo
val res0: Int = 42
For scripts you can use the //> using classpath
directive:
echo '//> using classpath foo
println(new Foo().foo)' > myScript.sc
./srp --script myScript.sc
Unlike the stock Scala REPL, srp does not truncate the output by default. You can optionally specify the maxHeight parameter though:
./srp --maxHeight 5
scala> (1 to 100000).toSeq
val res0: scala.collection.immutable.Range.Inclusive = Range(
1,
2,
3,
...
Famously one of the most popular question on stackoverflow is about how to exit vim
- fortunately you can apply the answer as-is to exit srp 🙂
// all of the following exit the REPL
:exit
:quit
:q
When the REPL is waiting for input we capture Ctrl-c
and don't exit. If there's currently a long-running execution that you really might want to cancel you can press Ctrl-c
again immediately which will kill the entire repl:
scala> Thread.sleep(50000)
// press Ctrl-c
Captured interrupt signal `INT` - if you want to kill the REPL, press Ctrl-c again within three seconds
// press Ctrl-c again will exit the repl
$
Context: we'd prefer to cancel the long-running operation, but that's not so easy on the JVM.
./srp --prompt myprompt --greeting 'hey there!' --onExitCode 'println("see ya!")'
hey there!
myprompt> :exit
see ya!
In case you want to adjust your output rendering to the available terminal size, you can look it up:
scala> replpp.util.terminalWidth
val res0: util.Try[Int] = Success(value = 202)
See ScriptRunnerTest for a more complete and in-depth overview.
echo 'println("Hello!")' > test-simple.sc
./srp --script test-simple.sc
cat out.txt # prints 'i was here'
echo 'val foo = 42' > foo.sc
echo '//> using file foo.sc
println(foo)' > test.sc
./srp --script test.sc
Dependencies can be added via //> using dep
syntax (like in scala-cli).
echo '//> using dep com.michaelpollmeier:versionsort:1.0.7
val compareResult = versionsort.VersionHelper.compare("1.0", "0.9")
assert(compareResult == 1,
s"result of comparison should be `1`, but was `$compareResult`")
' > test-dependencies.sc
./srp --script test-dependencies.sc
Note: this also works with using
directives in your predef code - for script and REPL mode.
echo '@main def main() = println("Hello, world!")' > test-main.sc
./srp --script test-main.sc
echo '
@main def foo() = println("foo!")
@main def bar() = println("bar!")
' > test-main-multiple.sc
./srp --script test-main-multiple.sc --command foo
echo '
@main def main(first: String, last: String) = {
println(s"Hello, $first $last!")
} ' > test-main-withargs.sc
./srp --script test-main-withargs.sc --param first=Michael --param last=Pollmeier
If your parameter value contains whitespace, just wrap it quotes so that your shell doesn't split it up, e.g. --param "text=value with whitespace"
On windows the parameters need to be triple-quoted in any case:
srp.bat --script test-main-withargs.sc --param """first=Michael""" --param """last=Pollmeier"""
Via --repo
parameter on startup:
./srp --repo "https://repo.gradle.org/gradle/libs-releases" --dep org.gradle:gradle-tooling-api:7.6.1
scala> org.gradle.tooling.GradleConnector.newConnector()
To add multiple dependency resolvers, you can specify this parameter multiple times.
Or via //> using resolver
directive as part of your script or predef code:
echo '
//> using resolver https://repo.gradle.org/gradle/libs-releases
//> using dep org.gradle:gradle-tooling-api:7.6.1
println(org.gradle.tooling.GradleConnector.newConnector())
' > script-with-resolver.sc
./srp --script script-with-resolver.sc
If one or multiple of your resolvers require authentication, you can configure your username/passwords in a credentials.properties
file:
mycorp.realm=Artifactory Realm
mycorp.host=shiftleft.jfrog.io
mycorp.username=michael
mycorp.password=secret
otherone.username=j
otherone.password=imj
otherone.host=nexus.other.com
The prefix is arbitrary and is only used to specify several credentials in a single file. srp uses coursier to resolve dependencies.
For the REPL itself:
export JAVA_OPTS='-Xdebug -Xrunjdwp:transport=dt_socket,address=5005,server=y,suspend=y'
./srp
unset JAVA_OPTS
Then attach your favorite IDE / debugger on port 5005.
If you want to debug a script, it's slightly different. Scripts are executed in a separate subprocess - just specify the following parameter (and make sure JAVA_OPTS
isn't also set).
./srp --script myScript.sc --remoteJvmDebug
Note: srp-server isn't currently available as a bootstrapped binary, so you have to stage it locally first using sbt stage
.
./srp-server
curl http://localhost:8080/query-sync -X POST -d '{"query": "val foo = 42"}'
# {"success":true,"stdout":"val foo: Int = 42\n",...}
curl http://localhost:8080/query-sync -X POST -d '{"query": "val bar = foo + 1"}'
# {"success":true,"stdout":"val bar: Int = 43\n",...}
curl http://localhost:8080/query-sync -X POST -d '{"query":"println(\"OMG remote code execution!!1!\")"}'
# {"success":true,"stdout":"",...}%
The same for windows and powershell:
./srp-server.bat
Invoke-WebRequest -Method 'Post' -Uri http://localhost:8080/query-sync -ContentType "application/json" -Body '{"query": "val foo = 42"}'
# Content : {"success":true,"stdout":"val foo: Int = 42\r\n","uuid":"02f843ba-671d-4fb5-b345-91c1dcf5786d"}
Invoke-WebRequest -Method 'Post' -Uri http://localhost:8080/query-sync -ContentType "application/json" -Body '{"query": "foo + 1"}'
# Content : {"success":true,"stdout":"val res0: Int = 43\r\n","uuid":"dc49df42-a390-4177-98d0-ac87a277c7d5"}
Predef code works with server as well:
echo val foo = 99 > foo.sc
./srp-server --predef foo.sc
curl -XPOST http://localhost:8080/query-sync -d '{"query":"val baz = foo + 1"}'
# {"success":true,"stdout":"val baz: Int = 100\n",...}
Adding dependencies:
echo '//> using dep com.michaelpollmeier:versionsort:1.0.7' > foo.sc
./srp-server --predef foo.sc
curl http://localhost:8080/query-sync -X POST -d '{"query": "versionsort.VersionHelper.compare(\"1.0\", \"0.9\")"}'
# {"success":true,"stdout":"val res0: Int = 1\n",...}%
srp-server can be used in an asynchronous mode:
./srp-server
curl http://localhost:8080/query -X POST -d '{"query": "val baz = 93"}'
# {"success":true,"uuid":"e2640fcb-3193-4386-8e05-914b639c3184"}%
curl http://localhost:8080/result/e2640fcb-3193-4386-8e05-914b639c3184
{"success":true,"uuid":"e2640fcb-3193-4386-8e05-914b639c3184","stdout":"val baz: Int = 93\n"}%
And there's even a websocket channel that allows you to get notified when the query has finished. For more details and other use cases check out ReplServerTests.scala
Server-specific configuration options as per srp --help
:
--server-host <value> Hostname on which to expose the REPL server
--server-port <value> Port on which to expose the REPL server
--server-auth-username <value> Basic auth username for the REPL server
--server-auth-password <value> Basic auth password for the REPL server
Try out the working string calculator example in this repo:
cd core/src/test/resources/demo-project
sbt stage
./stringcalc
Welcome to the magical world of string calculation!
Type `help` for help
stringcalc> add(One, Two)
val res0: stringcalc.Number = Number(3)
If verbose mode is enabled, you'll get additional information about classpaths and complete scripts etc.
To enable it, you can either pass --verbose
or set the environment variable SCALA_REPL_PP_VERBOSE=true
.
srp comes with it's own classpath dependencies, and depending on how you invoke it there are different requirements for controlling the inherited classpath. E.g. if you add srp
as a dependency to your project and want to simply use all dependencies from that same project, you can configure --cpinherit
(or programatically replpp.Config.classpathConfig.inheritClasspath
). You can also include or exclude dependencies via regex expressions.
Here's only the most important ones - run srp --help
for all parameters.
parameter | short | description |
---|---|---|
--predef |
-p |
Import additional files |
--dep |
-d |
Add dependencies via maven coordinates |
--repo |
-r |
Add repositories to resolve dependencies |
--script |
Execute given script | |
--param |
key/value pair for main function in script | |
--verbose |
-v |
Verbose mode |
Technically it is a fork, i.e. we copied parts of the ReplDriver to make some adjustments.
However, semantically, srp can be considered an extension of the stock repl. We don't want to create and maintain a competing REPL implementation,
instead the idea is to provide a space for exploring new ideas and bringing them back into the dotty codebase.
When we forked the stock ReplDriver, we made sure to separate the commits into bitesized chunks so we can easily rebase. The changes are clearly marked, and whenever there's a new dotty version we're bringing in the relevant changes here (git diff 3.3.0-RC5..3.3.0-RC6 compiler/src/dotty/tools/repl/
).
srp includes some small libraries (e.g. most of the com-haoyili universe) that have been copied as-is, but then moved into the replpp.shaded
namespace. We didn't include them as regular dependencies, because repl users may want to use a different version of them, which may be incompatible with the version the repl uses. Thankfully their license is very permissive - a big thanks to the original authors! The instructions of how to (re-) import then and which versions were used are available in import-instructions.md.
The cache? The caches you mean! :)
There's ~/.cache/scala-repl-pp
for the repl itself. Since we use coursier (via a subprocess) there's also ~/.cache/coursier
.
sbt stage
./srp
While maven central jar releases are created for each commit on master (a new version tag is assigned automatically), the binary (bootstrapped) releases that end up in https://github.com/mpollmeier/scala-repl-pp/releases/latest are being triggered manually. Contributors can run the bootstrap action.
- bump version in build.sbt
- get relevant diff from dotty repo
cd /path/to/dotty
git fetch
OLD=3.4.2 # set to version that was used before you bumped it
NEW=3.5.2-RC2 # set to version that you bumped it to
git checkout $NEW
git diff $OLD..$NEW compiler/src/dotty/tools/repl
- check if any of those changes need to be reapplied to this repo
(*) To keep our codebase concise we do use libraries, most importantly the com.lihaoyi stack. We want to ensure that users can freely use their own dependencies without clashing with the srp classpath though, so we copied them into our build and changed the namespace to replpp.shaded
. Many thanks to the original authors, also for choosing permissive licenses.