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/*
* Copyright 2005-2010 LAMP/EPFL
*/
// $Id$
package scala.tools.eclipse
import scala.collection.immutable
import scala.collection.mutable
import java.io.File.pathSeparator
import org.eclipse.core.resources.{ IContainer, IFile, IFolder, IMarker, IProject, IResource, IResourceProxy, IResourceProxyVisitor }
import org.eclipse.core.runtime.{ FileLocator, IPath, IProgressMonitor, Path, SubMonitor }
import org.eclipse.jdt.core.{ IClasspathEntry, IJavaProject, JavaCore, ICompilationUnit }
import org.eclipse.jdt.core.compiler.IProblem
import org.eclipse.jdt.internal.core.JavaProject
import org.eclipse.jdt.internal.core.util.Util
import org.eclipse.swt.widgets.{ Display, Shell }
import scala.tools.nsc.{ Settings, MissingRequirementError }
import scala.tools.nsc.util.SourceFile
import scala.tools.eclipse.javaelements.ScalaCompilationUnit
import scala.tools.eclipse.properties.PropertyStore
import scala.tools.eclipse.util.{ Cached, EclipseResource, OSGiUtils, ReflectionUtils, EclipseUtils }
import scala.tools.eclipse.properties.IDESettings
import util.SWTUtils.asyncExec
import EclipseUtils.workspaceRunnableIn
import scala.tools.eclipse.properties.CompilerSettings
import scala.tools.eclipse.logging.HasLogger
import scala.collection.mutable.ListBuffer
import scala.actors.Actor
import org.eclipse.jdt.core.IJarEntryResource
import java.util.Properties
import org.eclipse.jdt.core.IPackageFragmentRoot
import org.eclipse.core.runtime.jobs.Job
import org.eclipse.core.runtime.IStatus
import org.eclipse.core.runtime.Status
import scala.tools.eclipse.util.Utils
import org.eclipse.jdt.core.IJavaModelMarker
import scala.tools.eclipse.util.FileUtils
import scala.tools.nsc.util.BatchSourceFile
import java.io.InputStream
import java.io.InputStreamReader
import scala.tools.eclipse.util.Trim
import org.eclipse.jdt.launching.JavaRuntime
import org.eclipse.jdt.internal.core.util.Util
trait BuildSuccessListener {
def buildSuccessful(): Unit
}
object ScalaProject {
def apply(underlying: IProject) = new ScalaProject(underlying)
}
class ScalaProject private (val underlying: IProject) extends ClasspathManagement with HasLogger {
import ScalaPlugin.plugin
/** Implementing inherited abstract value from `ClasspathManagement` */
val scalaProject: ScalaProject = this
private var classpathUpdate: Long = IResource.NULL_STAMP
private var buildManager0: EclipseBuildManager = null
private var hasBeenBuilt = false
private val buildListeners = new mutable.HashSet[BuildSuccessListener]
case class InvalidCompilerSettings() extends RuntimeException(
"Scala compiler cannot initialize for project: " + underlying.getName +
". Please check that your classpath contains the standard Scala library.")
private val presentationCompiler = new Cached[Option[ScalaPresentationCompiler]] {
override def create() = {
try {
val settings = ScalaPlugin.defaultScalaSettings
settings.printtypes.tryToSet(Nil)
initialize(settings, isPCSetting(settings))
val pc = new ScalaPresentationCompiler(ScalaProject.this, settings)
logger.debug("Presentation compiler classpath: " + pc.classPath)
Some(pc)
} catch {
case ex @ MissingRequirementError(required) =>
failedCompilerInitialization("could not find a required class: " + required)
eclipseLog.error(ex)
None
case ex =>
logger.info("Throwable when intializing presentation compiler!!! " + ex.getMessage)
ex.printStackTrace()
if (underlying.isOpen)
failedCompilerInitialization("error initializing Scala compiler")
eclipseLog.error(ex)
None
}
}
override def destroy(compiler: Option[ScalaPresentationCompiler]) {
compiler.map(_.destroy())
}
}
/** Compiler settings that are honored by the presentation compiler. */
private def isPCSetting(settings: Settings): Set[Settings#Setting] = {
import settings.{ plugin => pluginSetting, _ }
Set(deprecation,
unchecked,
pluginOptions,
verbose,
Xexperimental,
future,
Ylogcp,
Xmigration28,
pluginSetting,
pluginsDir,
YpresentationDebug,
YpresentationVerbose,
YpresentationLog,
YpresentationReplay,
YpresentationDelay)
}
private var messageShowed = false
private def failedCompilerInitialization(msg: String) {
logger.debug("failedCompilerInitialization: " + msg)
import org.eclipse.jface.dialogs.MessageDialog
synchronized {
if (!ScalaPlugin.plugin.headlessMode && !messageShowed) {
messageShowed = true
asyncExec {
val doAdd = MessageDialog.openQuestion(ScalaPlugin.getShell, "Add Scala library to project classpath?",
("There was an error initializing the Scala compiler: %s. \n\n"+
"The editor compiler will be restarted when the project is cleaned or the classpath is changed.\n\n" +
"Add the Scala library to the classpath of project %s?")
.format(msg, underlying.getName))
if (doAdd) {
Utils tryExecute {
Nature.addScalaLibAndSave(underlying)
}
}
}
}
}
}
override def toString = underlying.getName
/** Does this project have the Scala nature? */
def hasScalaNature =
ScalaPlugin.plugin.isScalaProject(underlying)
/** Generic build error, without a source position. It creates a marker in the
* Problem views.
*/
def buildError(severity: Int, msg: String, monitor: IProgressMonitor) =
workspaceRunnableIn(underlying.getWorkspace, monitor) { m =>
val mrk = underlying.createMarker(plugin.problemMarkerId)
mrk.setAttribute(IMarker.SEVERITY, severity)
val string = msg.map {
case '\n' => ' '
case '\r' => ' '
case c => c
}.mkString("", "", "")
mrk.setAttribute(IMarker.MESSAGE, string)
}
def settingsError(severity: Int, msg: String, monitor: IProgressMonitor) =
workspaceRunnableIn(underlying.getWorkspace, monitor) { m =>
val mrk = underlying.createMarker(plugin.settingProblemMarkerId)
mrk.setAttribute(IMarker.SEVERITY, severity)
mrk.setAttribute(IMarker.MESSAGE, msg)
}
def clearBuildErrors() =
workspaceRunnableIn(underlying.getWorkspace) { m =>
underlying.deleteMarkers(plugin.problemMarkerId, true, IResource.DEPTH_ZERO)
}
def clearSettingsErrors() =
workspaceRunnableIn(underlying.getWorkspace) { m =>
underlying.deleteMarkers(plugin.settingProblemMarkerId, true, IResource.DEPTH_ZERO)
}
/** The direct dependencies of this project. */
def directDependencies: Seq[IProject] =
underlying.getReferencedProjects
/** All direct and indirect dependencies of this project.
*
* Indirect dependencies are considered only if that dependency is exported by the dependent project.
* Consider the following dependency graph:
* A -> B -> C
*
* transitiveDependencies(C) = {A, B} iff B *exports* the A project in its classpath
*/
def transitiveDependencies: Seq[IProject] = {
import ScalaPlugin.plugin
directDependencies ++ (directDependencies flatMap (p => plugin.getScalaProject(p).exportedDependencies))
}
/** Return the exported dependencies of this project. An exported dependency is
* another project this project depends on, and which is exported to downstream
* dependencies.
*/
def exportedDependencies: Seq[IProject] = {
for { entry <- javaProject.getRawClasspath
if entry.getEntryKind == IClasspathEntry.CPE_PROJECT && entry.isExported
} yield ScalaPlugin.plugin.workspaceRoot.getProject(entry.getPath().toString)
}
lazy val javaProject = {
JavaCore.create(underlying)
}
def sourceFolders: Seq[IPath] = {
val all = for (cpe <- javaProject.getResolvedClasspath(true) if cpe.getEntryKind == IClasspathEntry.CPE_SOURCE) yield {
val resource = plugin.workspaceRoot.findMember(cpe.getPath)
if (resource == null) null else resource.getLocation
}
all.filter { _ ne null }
}
/** Return the output folders of this project. Paths are relative to the workspace root,
* and they are handles only (may not exist).
*/
def outputFolders: Seq[IPath] =
sourceOutputFolders map (_._2.getFullPath())
/** Return the fully resolved classpath of this project.
*
* It includes the Scala library and the JDK entries.
*/
def classpath: Seq[IPath] = {
val path = new mutable.LinkedHashSet[IPath]
def computeClasspath(project: IJavaProject, exportedOnly: Boolean): Unit = {
val cpes = project.getResolvedClasspath(true)
for (cpe <- cpes if !exportedOnly || cpe.isExported ||
cpe.getEntryKind == IClasspathEntry.CPE_SOURCE) cpe.getEntryKind match {
case IClasspathEntry.CPE_PROJECT =>
val depProject = plugin.workspaceRoot.getProject(cpe.getPath.lastSegment)
if (JavaProject.hasJavaNature(depProject)) {
computeClasspath(JavaCore.create(depProject), true)
}
case IClasspathEntry.CPE_LIBRARY =>
if (cpe.getPath != null) {
val absPath = plugin.workspaceRoot.findMember(cpe.getPath)
if (absPath != null)
path += absPath.getLocation
else {
path += cpe.getPath
}
} else
logger.error("Classpath computation encountered a null path for " + cpe, null)
case IClasspathEntry.CPE_SOURCE =>
val cpeOutput = cpe.getOutputLocation
val outputLocation = if (cpeOutput != null) cpeOutput else project.getOutputLocation
if (outputLocation != null) {
val absPath = plugin.workspaceRoot.findMember(outputLocation)
if (absPath != null)
path += absPath.getLocation
}
case _ =>
logger.warn("Classpath computation encountered unknown entry: " + cpe)
}
}
computeClasspath(javaProject, false)
path.toList
}
/** Return the source folders and their corresponding output locations
* without relying on NameEnvironment. Does not create folders if they
* don't exist already.
*
* @return A sequence of pairs of source folders and their corresponding
* output folder.
*/
def sourceOutputFolders: Seq[(IContainer, IContainer)] = {
val cpes = javaProject.getResolvedClasspath(true)
for (cpe <- cpes if cpe.getEntryKind == IClasspathEntry.CPE_SOURCE) yield {
val cpeOutput = cpe.getOutputLocation
val outputLocation = if (cpeOutput != null) cpeOutput else javaProject.getOutputLocation
val wsroot = ScalaPlugin.plugin.workspaceRoot
val binPath = wsroot.getFolder(outputLocation) // may not exist
val srcContainer = Option(wsroot.findMember(cpe.getPath()).asInstanceOf[IContainer]) getOrElse {
// may be null if source folder does not exist
logger.debug("Could not retrieve source folder %s for project %s".format(cpe.getPath(), underlying))
wsroot.getFolder(cpe.getPath())
}
(srcContainer, binPath)
}
}
/** Return all source files in the source path. It only returns buildable files (meaning
* Java or Scala sources).
*/
def allSourceFiles(): Set[IFile] = {
allFilesInSourceDirs() filter (f => plugin.isBuildable(f.getName))
}
/** Return all the files in the current project. It walks all source entries in the classpath
* and respects inclusion and exclusion filters. It returns both buildable files (java or scala)
* and all other files in the source path.
*/
def allFilesInSourceDirs(): Set[IFile] = {
/** Cache it for the duration of this call */
lazy val currentSourceOutputFolders = sourceOutputFolders
/** Return the inclusion patterns of `entry` as an Array[Array[Char]], ready for consumption
* by the JDT.
*
* @see org.eclipse.jdt.internal.core.ClassPathEntry.fullInclusionPatternChars()
*/
def fullPatternChars(entry: IClasspathEntry, patterns: Array[IPath]): Array[Array[Char]] = {
if (patterns.isEmpty)
null
else {
val prefixPath = entry.getPath().removeTrailingSeparator();
for (pattern <- patterns)
yield prefixPath.append(pattern).toString().toCharArray();
}
}
/** Logic is copied from existing code ('isExcludedFromProject'). Code is trying to
* see if the given path is a source or output folder for any source entry in the
* classpath of this project.
*/
def sourceOrBinaryFolder(path: IPath): Boolean = {
if (path.segmentCount() > 2) return false // is a subfolder of a package
currentSourceOutputFolders exists {
case (srcFolder, binFolder) =>
(srcFolder.getFullPath() == path || binFolder.getFullPath() == path)
}
}
var sourceFiles = new immutable.HashSet[IFile]
for {
srcEntry <- javaProject.getResolvedClasspath(true)
if srcEntry.getEntryKind() == IClasspathEntry.CPE_SOURCE
srcFolder = ScalaPlugin.plugin.workspaceRoot.findMember(srcEntry.getPath())
if srcFolder ne null
} {
val inclusionPatterns = fullPatternChars(srcEntry, srcEntry.getInclusionPatterns())
val exclusionPatterns = fullPatternChars(srcEntry, srcEntry.getExclusionPatterns())
val isAlsoProject = srcFolder == underlying // source folder is the project itself
srcFolder.accept(
new IResourceProxyVisitor {
def visit(proxy: IResourceProxy): Boolean = {
proxy.getType match {
case IResource.FILE =>
if (!Util.isExcluded(proxy.requestFullPath(), inclusionPatterns, exclusionPatterns, false))
sourceFiles += proxy.requestResource().asInstanceOf[IFile] // must be an IFile, otherwise we wouldn't be here
false // don't recurse, it's a file anyway
case IResource.FOLDER =>
if (isAlsoProject) {
!sourceOrBinaryFolder(proxy.requestFullPath) // recurse if not on a source or binary folder path
} else if (exclusionPatterns != null) {
if (Util.isExcluded(proxy.requestFullPath, inclusionPatterns, exclusionPatterns, true)) {
// must walk children if inclusionPatterns != null, can skip them if == null
// but folder is excluded so do not create it in the output folder
inclusionPatterns != null
} else true
} else true // recurse into subfolders
case _ =>
true
}
}
}, IResource.NONE)
}
sourceFiles
}
def cleanOutputFolders(implicit monitor: IProgressMonitor) = {
def delete(container: IContainer, deleteDirs: Boolean)(f: String => Boolean): Unit =
if (container.exists()) {
container.members.foreach {
case cntnr: IContainer =>
if (deleteDirs) {
try {
cntnr.delete(true, monitor) // might not work.
} catch {
case _ =>
delete(cntnr, deleteDirs)(f)
if (deleteDirs)
try {
cntnr.delete(true, monitor) // try again
} catch {
case t => eclipseLog.error(t)
}
}
} else
delete(cntnr, deleteDirs)(f)
case file: IFile if f(file.getName) =>
try {
file.delete(true, monitor)
} catch {
case t => eclipseLog.error(t)
}
case _ =>
}
}
val outputLocation = javaProject.getOutputLocation
val resource = plugin.workspaceRoot.findMember(outputLocation)
resource match {
case container: IContainer => delete(container, container != javaProject.getProject)(_.endsWith(".class"))
case _ =>
}
}
private def refreshOutput: Unit = {
val res = plugin.workspaceRoot.findMember(javaProject.getOutputLocation)
if (res ne null)
res.refreshLocal(IResource.DEPTH_INFINITE, null)
}
def initialize(settings: Settings, filter: Settings#Setting => Boolean) = {
// if the workspace project doesn't exist, it is a virtual project used by Eclipse.
// As such the source folders don't exist.
if (underlying.exists()) {
for ((src, dst) <- sourceOutputFolders) {
logger.debug("Added output folder: " + src + ": " + dst)
settings.outputDirs.add(EclipseResource(src), EclipseResource(dst))
}
}
// TODO Per-file encodings
val sfs = sourceFolders
if (!sfs.isEmpty) {
val path = sfs.iterator.next
plugin.workspaceRoot.findContainersForLocation(path) match {
case Array(container) => settings.encoding.value = container.getDefaultCharset
case _ =>
}
}
setupCompilerClasspath(settings)
settings.sourcepath.value = sfs.map(_.toOSString).mkString(pathSeparator)
val store = storage
for (
box <- IDESettings.shownSettings(settings);
setting <- box.userSettings; if filter(setting)
) {
val value0 = Trim(store.getString(SettingConverterUtil.convertNameToProperty(setting.name)))
try {
value0 foreach setting.tryToSetFromPropertyValue
logger.debug("[%s] initializing %s to %s".format(underlying.getName(), setting.name, setting.value.toString))
} catch {
case t: Throwable => eclipseLog.error("Unable to set setting '" + setting.name + "' to '" + value0 + "'", t)
}
}
// handle additional parameters
val additional = store.getString(CompilerSettings.ADDITIONAL_PARAMS)
logger.info("setting additional parameters: " + additional)
settings.processArgumentString(additional)
}
private def setupCompilerClasspath(settings: Settings) {
val scalaCp = scalaClasspath // don't need to recompute it each time we use it
settings.javabootclasspath.value = scalaCp.jdkPaths.map(_.toOSString).mkString(pathSeparator)
settings.classpath.value = (scalaCp.userCp ++ scalaCp.scalaLib.toSeq).map(_.toOSString).mkString(pathSeparator)
scalaCp.scalaLib.foreach(scalaLib => settings.bootclasspath.value = scalaLib.toOSString)
logger.debug("javabootclasspath: " + settings.javabootclasspath.value)
logger.debug("scalabootclasspath: " + settings.bootclasspath.value)
logger.debug("user classpath: " + settings.classpath.value)
}
private def buildManagerInitialize: String =
storage.getString(SettingConverterUtil.convertNameToProperty(properties.ScalaPluginSettings.buildManager.name))
def storage = {
val workspaceStore = ScalaPlugin.prefStore
val projectStore = new PropertyStore(underlying, workspaceStore, plugin.pluginId)
val useProjectSettings = projectStore.getBoolean(SettingConverterUtil.USE_PROJECT_SETTINGS_PREFERENCE)
if (useProjectSettings) projectStore else workspaceStore
}
def isStandardSource(file: IFile, qualifiedName: String): Boolean = {
val pathString = file.getLocation.toString
val suffix = qualifiedName.replace(".", "/") + ".scala"
pathString.endsWith(suffix) && {
val suffixPath = new Path(suffix)
val sourceFolderPath = file.getLocation.removeLastSegments(suffixPath.segmentCount)
sourceFolders.exists(_ == sourceFolderPath)
}
}
/**
* Performs `op` on the presentation compiler, if the compiler has been initialized.
* Otherwise, do nothing (no exception thrown).
*/
def doWithPresentationCompiler(op: ScalaPresentationCompiler => Unit): Unit = {
presentationCompiler {
case Some(c) => op(c)
case None =>
}
}
def defaultOrElse[T]: T = {
if (underlying.isOpen)
failedCompilerInitialization("")
throw InvalidCompilerSettings()
}
/**
* If the presentation compiler has failed to initialize and no `orElse` is specified,
* the default handler throws an `InvalidCompilerSettings` exception
* If T = Unit, then doWithPresentationCompiler can be used, which does not throw.
*/
def withPresentationCompiler[T](op: ScalaPresentationCompiler => T)(orElse: => T = defaultOrElse): T = {
presentationCompiler {
case Some(c) => op(c)
case None => orElse
}
}
def withSourceFile[T](scu: ScalaCompilationUnit)(op: (SourceFile, ScalaPresentationCompiler) => T)(orElse: => T = defaultOrElse): T = {
withPresentationCompiler { compiler =>
compiler.withSourceFile(scu)(op)
} {orElse}
}
/** Shutdown the presentation compiler, and force a re-initialization but asking to reconcile all
* compilation units that were serviced by the previous instance of the PC. Does nothing if
* the presentation compiler is not yet initialized.
*
* @return true if the presentation compiler was initialized at the time of this call.
*/
def resetPresentationCompiler(): Boolean =
if (presentationCompiler.initialized) {
val units: Seq[ScalaCompilationUnit] = withPresentationCompiler(_.compilationUnits)(Nil)
presentationCompiler.invalidate
val existingUnits = units.filter(_.exists)
logger.info("Scheduling for reconcile: " + existingUnits.map(_.file))
existingUnits.foreach(_.scheduleReconcile())
true
} else {
logger.info("[%s] Presentation compiler was not yet initialized, ignoring reset.".format(underlying.getName()))
false
}
def buildManager = {
if (buildManager0 == null) {
val settings = ScalaPlugin.defaultScalaSettings(msg => settingsError(IMarker.SEVERITY_ERROR, msg, null))
clearSettingsErrors()
initialize(settings, _ => true)
// source path should be emtpy. The build manager decides what files get recompiled when.
// if scalac finds a source file newer than its corresponding classfile, it will 'compileLate'
// that file, using an AbstractFile/PlainFile instead of the EclipseResource instance. This later
// causes problems if errors are reported against that file. Anyway, it's wrong to have a sourcepath
// when using the build manager.
settings.sourcepath.value = ""
// Which build manager?
// We assume that build manager setting has only single box
val choice = buildManagerInitialize
choice match {
case "refined" =>
logger.info("BM: Refined Build Manager")
buildManager0 = new buildmanager.refined.EclipseRefinedBuildManager(this, settings)
case "sbt" =>
logger.info("BM: SBT enhanced Build Manager for " + ScalaPlugin.plugin.scalaVer + " Scala library")
buildManager0 = new buildmanager.sbtintegration.EclipseSbtBuildManager(this, settings)
case _ =>
logger.info("Invalid build manager choice '" + choice + "'. Setting to (default) refined build manager")
buildManager0 = new buildmanager.refined.EclipseRefinedBuildManager(this, settings)
}
//buildManager0 = new EclipseBuildManager(this, settings)
}
buildManager0
}
/* If true, then it means that all source files have to be reloaded */
def prepareBuild(): Boolean = if (!hasBeenBuilt) buildManager.invalidateAfterLoad else false
def build(addedOrUpdated: Set[IFile], removed: Set[IFile], monitor: SubMonitor) {
if (addedOrUpdated.isEmpty && removed.isEmpty)
return
hasBeenBuilt = true
clearBuildErrors
buildManager.build(addedOrUpdated, removed, monitor)
refreshOutput
// Already performs saving the dependencies
if (!buildManager.hasErrors) {
// reset presentation compilers of projects that depend on this one
// since the output directory now contains the up-to-date version of this project
// note: ScalaBuilder resets the presentation compiler when a referred project
// is built, but only when it has changes! this call makes sure that a rebuild,
// even when there are no changes, propagates the classpath to dependent projects
resetDependentProjects()
buildListeners foreach { _.buildSuccessful }
}
}
/** Reset the presentation compiler of projects that depend on this one.
* This should be done after a successful build, since the output directory
* now contains an up-to-date version of this project.
*/
def resetDependentProjects() {
for {
prj <- underlying.getReferencingProjects()
if prj.isOpen() && ScalaPlugin.plugin.isScalaProject(prj)
dependentScalaProject <- ScalaPlugin.plugin.asScalaProject(prj)
} {
logger.debug("[%s] Reset PC of referring project %s".format(this, dependentScalaProject))
dependentScalaProject.resetPresentationCompiler()
}
}
def addBuildSuccessListener(listener: BuildSuccessListener) {
buildListeners add listener
}
def removeBuildSuccessListener(listener: BuildSuccessListener) {
buildListeners remove listener
}
def clean(implicit monitor: IProgressMonitor) = {
underlying.deleteMarkers(plugin.problemMarkerId, true, IResource.DEPTH_INFINITE)
resetClasspathCheck()
if (buildManager0 != null)
buildManager0.clean(monitor)
cleanOutputFolders
resetCompilers // reset them only after the output directory is emptied
}
def resetBuildCompiler() {
buildManager0 = null
hasBeenBuilt = false
}
def resetCompilers(implicit monitor: IProgressMonitor = null) = {
logger.info("resetting compilers! project: " + this.toString)
resetBuildCompiler()
resetPresentationCompiler()
}
def shutDownCompilers() {
resetBuildCompiler()
shutDownPresentationCompiler()
}
/** Shut down presentation compiler without scheduling a reconcile for open files. */
def shutDownPresentationCompiler() {
presentationCompiler.invalidate()
}
/**
* Tell the presentation compiler to refresh the given files,
* if they are not managed by the presentation compiler already.
*/
def refreshChangedFiles(files: List[IFile]) {
// transform to batch source files
val abstractfiles = files.collect {
// When a compilation unit is moved (e.g. using the Move refactoring) between packages,
// an ElementChangedEvent is fired but with the old IFile name. Ignoring the file does
// not seem to cause any bad effects later on, so we simply ignore these files -- Mirko
// using an Util class from jdt.internal to read the file, Eclipse doesn't seem to
// provide an API way to do it -- Luc
case file if file.exists => new BatchSourceFile(EclipseResource(file), Util.getResourceContentsAsCharArray(file))
}
withPresentationCompiler {compiler =>
import compiler._
// only the files not already managed should be refreshed
val notLoadedFiles= abstractfiles.filter(compiler.getUnitOf(_).isEmpty)
notLoadedFiles.foreach(file => {
// call askParsedEntered to force the refresh without loading the file
val r = new Response[Tree]
compiler.askParsedEntered(file, false, r)
r.get.left
})
// reconcile the opened editors if some files have been refreshed
if (notLoadedFiles.nonEmpty)
compiler.compilationUnits.foreach(_.scheduleReconcile())
}(Nil)
}
}
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