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enso/project/FrgaalJavaCompiler.scala
Radosław Waśko 6f86115498
Proper implementation of Value Types in Table (#6073) 
This is the first part of the #5158 umbrella task. It closes #5158, follow-up tasks are listed as a comment in the issue.

- Updates all prototype methods dealing with `Value_Type` with a proper implementation.
- Adds a more precise mapping from in-memory storage to `Value_Type`.
- Adds a dialect-dependent mapping between `SQL_Type` and `Value_Type`.
- Removes obsolete methods and constants on `SQL_Type` that were not portable.
- Ensures that in the Database backend, operation results are computed based on what the Database is meaning to return (by asking the Database about expected types of each operation).
- But also ensures that the result types are sane.
- While SQLite does not officially support a BOOLEAN affinity, we add a set of type overrides to our operations to ensure that Boolean operations will return Boolean values and will not be changed to integers as SQLite would suggest.
- Some methods in SQLite fallback to a NUMERIC affinity unnecessarily, so stuff like `max(text, text)` will keep the `text` type instead of falling back to numeric as SQLite would suggest.
- Adds ability to use custom fetch / builder logic for various types, so that we can support vendor specific types (for example, Postgres dates).

# Important Notes
- There are some TODOs left in the code. I'm still aligning follow-up tasks - once done I will try to add references to relevant tasks in them.
2023-03-31 16:16:18 +00:00

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Scala
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/*
* The FrgaalJavaCompiler adapts ForkedJava from Zinc
* to invoke Frgaal compiler instead of javac.
*
* Zinc - The incremental compiler for Scala.
* Copyright Lightbend, Inc. and Mark Harrah
*
* Licensed under Apache License 2.0
* (http://www.apache.org/licenses/LICENSE-2.0).
*/
import sbt._
import sbt.internal.inc.CompilerArguments
import sbt.internal.inc.javac.JavacLogger
import sbt.io.IO
import sbt.util.Logger
import xsbti.{PathBasedFile, Reporter, VirtualFile, Logger => XLogger}
import xsbti.compile.{IncToolOptions, Output, JavaCompiler => XJavaCompiler}
import java.io.File
import java.nio.file.{Path, Paths}
import scala.sys.process.Process
import scala.util.Using
import java.io.FileWriter
object FrgaalJavaCompiler {
private val ENSO_SOURCES = ".enso-sources"
val frgaal = "org.frgaal" % "compiler" % "19.0.1" % "provided"
val sourceLevel = "19"
def compilers(
classpath: sbt.Keys.Classpath,
sbtCompilers: xsbti.compile.Compilers,
javaVersion: String
) = {
// Enable Java 11+ features by invoking Frgaal instead of regular javac
val javaHome = Option(System.getProperty("java.home")).map(Paths.get(_))
// Locate frgaal compiler jar from the list of dependencies
val frgaalModule = FrgaalJavaCompiler.frgaal
val frgaalCheck = (module: ModuleID) =>
module.organization == frgaalModule.organization &&
module.name == frgaalModule.name &&
module.revision == frgaalModule.revision
val frgaalOnClasspath =
classpath
.find(f =>
f.metadata
.get(AttributeKey[ModuleID]("moduleID"))
.map(frgaalCheck)
.getOrElse(false)
)
.map(_.data.toPath)
if (frgaalOnClasspath.isEmpty) {
throw new RuntimeException("Failed to resolve Frgaal compiler. Aborting!")
}
val frgaalJavac = new FrgaalJavaCompiler(
javaHome,
frgaalOnClasspath.get,
target = javaVersion
)
val javaTools = sbt.internal.inc.javac
.JavaTools(frgaalJavac, sbtCompilers.javaTools.javadoc())
xsbti.compile.Compilers.of(sbtCompilers.scalac, javaTools)
}
/** Helper method to launch programs. */
def launch(
javaHome: Option[Path],
compilerJar: Path,
sources0: Seq[VirtualFile],
options: Seq[String],
output: Output,
log: Logger,
reporter: Reporter,
source: Option[String],
target: String
): Boolean = {
val (jArgs, nonJArgs) = options.partition(_.startsWith("-J"))
val outputOption = CompilerArguments.outputOption(output)
val sources = sources0 map { case x: PathBasedFile =>
x.toPath.toAbsolutePath.toString
}
def asPath(a: Any): Path = a match {
case p: PathBasedFile => p.toPath
case p: Path => p
}
def asCommon(a: Any, b: Any): Path = {
var ap = asPath(a)
val bp = asPath(b)
var i = 0
while (
i < Math.min(ap.getNameCount(), bp.getNameCount()) && ap.getName(
i
) == bp.getName(i)
) {
i += 1;
}
while (ap.getNameCount() > i) {
ap = ap.getParent()
}
ap
}
val out = output.getSingleOutputAsPath().get()
val shared = sources0.fold(out)(asCommon).asInstanceOf[Path]
// searching for $shared/src/main/java or
// $shared/src/test/java or
// $shared/src/bench/java or etc.
def findUnder(depth: Int, dir: Path): Path = {
var d = dir
while (d.getNameCount() > depth) {
val threeUp = d.subpath(0, d.getNameCount() - depth)
val relShare = shared.subpath(0, shared.getNameCount())
if (relShare.equals(threeUp)) {
return d
} else {
d = d.getParent()
}
}
throw new IllegalArgumentException(
"Cannot findUnder for " + dir + " and " + shared +
"\nout: " + out + "\nsources: " + sources
)
}
def checkTarget(x: Any) = {
val p = asPath(x)
val namesCheck =
for (i <- 0 until p.getNameCount)
yield "target".equals(p.getName(i).toString()) || p
.getName(i)
.toString()
.endsWith("-windows") || p.getName(i).toString().endsWith("-unix")
val inATargetDir = namesCheck.exists(x => x)
inATargetDir
}
val (withTarget, noTarget) = sources0.partition(checkTarget)
val in = if (noTarget.isEmpty) {
None
} else {
Some(
findUnder(
3,
noTarget.tail.fold(asPath(noTarget.head))(asCommon).asInstanceOf[Path]
)
)
}
val generated = if (withTarget.isEmpty) {
None
} else {
Some(
findUnder(
4,
withTarget.tail
.fold(asPath(withTarget.head))(asCommon)
.asInstanceOf[Path]
)
)
}
if (shared.toFile().exists()) {
val ensoMarker = new File(shared.toFile(), ENSO_SOURCES)
val ensoConfig = new File(
shared.toFile(),
ENSO_SOURCES + "-" + out.getFileName().toString()
)
val ensoProperties = new java.util.Properties()
def storeArray(name: String, values: Seq[String]) = {
values.zipWithIndex.foreach { case (value, idx) =>
ensoProperties.setProperty(s"$name.$idx", value)
}
}
if (in.isDefined) {
ensoProperties.setProperty("input", in.get.toString())
}
if (generated.isDefined) {
ensoProperties.setProperty("generated", generated.get.toString())
}
ensoProperties.setProperty("output", out.toString())
storeArray("options", options)
source.foreach(v => ensoProperties.setProperty("source", v))
ensoProperties.setProperty("target", target)
javaHome.foreach(v =>
ensoProperties.setProperty("java.home", v.toString())
)
Using(new FileWriter(ensoConfig)) { w =>
ensoProperties.store(w, "# Enso compiler configuration")
}
Using(new FileWriter(ensoMarker)) { _ => }
} else {
throw new IllegalStateException(
"Cannot write Enso source options to " + shared + " values:\n" +
"options: " + options + " sources0: " + sources + " output: " + output
)
}
val frgaalOptions: Seq[String] =
source.map(v => Seq("-source", v)).getOrElse(Seq()) ++ Seq(
"-target",
target
)
val allArguments = outputOption ++ frgaalOptions ++ nonJArgs ++ sources
withArgumentFile(allArguments) { argsFile =>
// Need to disable standard compiler tools that come with used jdk and replace them
// with the ones provided with Frgaal.
val forkArgs = (jArgs ++ Seq(
"--limit-modules",
"java.base,jdk.zipfs,jdk.internal.vm.compiler.management",
"-jar",
compilerJar.toString
)) :+
s"@${normalizeSlash(argsFile.getAbsolutePath)}"
val exe = getJavaExecutable(javaHome, "java")
val cwd = new File(new File(".").getAbsolutePath).getCanonicalFile
val javacLogger = new JavacLogger(log, reporter, cwd)
var exitCode = -1
try {
exitCode = Process(exe +: forkArgs, cwd) ! javacLogger
} finally {
javacLogger.flush("frgaal", exitCode)
}
// We return true or false, depending on success.
exitCode == 0
}
}
/** Helper method to create an argument file that we pass to Javac. Gets over the windows
* command line length limitation.
* @param args The string arguments to pass to Javac.
* @param f A function which is passed the arg file.
* @tparam T The return type.
* @return The result of using the argument file.
*/
def withArgumentFile[T](args: Seq[String])(f: File => T): T = {
import IO.{withTemporaryDirectory, write, Newline}
withTemporaryDirectory { tmp =>
val argFile = new File(tmp, "argfile")
write(argFile, args.map(escapeSpaces).mkString(Newline))
f(argFile)
}
}
// javac's argument file seems to allow naive space escaping with quotes. escaping a quote with a backslash does not work
private def escapeSpaces(s: String): String = '\"' + normalizeSlash(s) + '\"'
private def normalizeSlash(s: String) = s.replace(File.separatorChar, '/')
/** create the executable name for java */
def getJavaExecutable(javaHome: Option[Path], name: String): String =
javaHome match {
case None => name
case Some(jh) =>
jh.resolve("bin").resolve(name).toAbsolutePath.toString
}
}
/** An implementation of compiling java which forks Frgaal instance. */
final class FrgaalJavaCompiler(
javaHome: Option[Path],
compilerPath: Path,
target: String,
source: Option[String] = None
) extends XJavaCompiler {
def run(
sources: Array[VirtualFile],
options: Array[String],
output: Output,
incToolOptions: IncToolOptions,
reporter: Reporter,
log: XLogger
): Boolean =
FrgaalJavaCompiler.launch(
javaHome,
compilerPath,
sources,
options,
output,
log,
reporter,
source,
target
)
}
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