/* NSC -- new scala compiler * Copyright 2005 LAMP/EPFL * @author Martin Odersky */ // $Id$ package scala.tools.nsc; import java.io._; import java.nio.charset._; import scala.tools.nsc.io.{SourceReader,AbstractFile}; import scala.tools.nsc.util.ClassPath; import scala.tools.nsc.util.{Position,SourceFile}; import scala.tools.nsc.reporters._; import scala.collection.mutable.{HashSet,HashMap,ListBuffer} import symtab._; import symtab.classfile.{PickleBuffer, Pickler}; import util.Statistics; import ast._; import ast.parser._; import typechecker._; import matching.TransMatcher; import transform._; import backend.icode.{ICodes, GenICode, Checkers}; import backend.ScalaPrimitives; import backend.jvm.GenJVM; import backend.opt.{Inliners, ClosureElimination}; import backend.icode.analysis._; class Global(val settings: Settings, val reporter: Reporter) extends SymbolTable with Trees with CompilationUnits { // sub-components -------------------------------------------------- object treePrinters extends TreePrinters { val global: Global.this.type = Global.this } val treePrinter = treePrinters.create(); object treeBrowsers extends TreeBrowsers { val global: Global.this.type = Global.this } val treeBrowser = treeBrowsers.create(); object treeInfo extends TreeInfo { val global: Global.this.type = Global.this } object gen extends TreeGen { val global: Global.this.type = Global.this } object constfold extends ConstantFolder { val global: Global.this.type = Global.this } object checker extends TreeCheckers { val global: Global.this.type = Global.this } object icodes extends ICodes { val global: Global.this.type = Global.this } object analysis extends TypeFlowAnalysis { val global: Global.this.type = Global.this; } object copyPropagation extends CopyPropagation { val global: Global.this.type = Global.this; } object checkers extends Checkers { val global: Global.this.type = Global.this } object statistics extends Statistics { val global: Global.this.type = Global.this } object overridingPairs extends OverridingPairs { val global: Global.this.type = Global.this } val copy = new LazyTreeCopier(); val comments = if (onlyPresentation) new HashMap[Symbol,String]; else null; // reporting ------------------------------------------------------- def error(msg: String) = reporter.error(null, msg); def warning(msg: String) = reporter.warning(null, msg); def inform(msg: String) = System.err.println(msg); def inform[T](msg: String, value: T): T = { inform(msg+value); value } //reporter.info(null, msg, true); def informProgress(msg: String) = if (settings.verbose.value) inform("[" + msg + "]"); def informTime(msg: String, start: long) = informProgress(msg + " in " + (System.currentTimeMillis() - start) + "ms"); def log(msg: Object): unit = if (settings.log contains phase.name) inform("[log " + phase + "] " + msg); class ErrorWithPosition(val pos : Int, val error : Throwable) extends Error; def tryWith[T](pos : Int, body : => T) : T = try { body; } catch { case e : ErrorWithPosition => throw e; case te: TypeError => throw te; case e : Error => throw new ErrorWithPosition(pos, e); case e : RuntimeException => throw new ErrorWithPosition(pos, e); } def catchWith[T](source : SourceFile, body : => T) : T = try { body; } catch { case e : ErrorWithPosition => logError("POS: " + source.dbg(e.pos), e); throw e.error; } def logError(msg: String, t: Throwable): Unit = {}; def abort(msg: String) = throw new Error(msg); // file interface ------------------------------------------------------- private val reader: SourceReader = { def stdCharset: Charset = { settings.encoding.value = "ISO-8859-1"; // A mandatory charset Charset.forName(settings.encoding.value); } val charset = try { Charset.forName(settings.encoding.value); } catch { case _: IllegalCharsetNameException => error("illegal charset name '" + settings.encoding.value + "'"); stdCharset case _: UnsupportedCharsetException => error("unsupported charset '" + settings.encoding.value + "'"); stdCharset } new SourceReader(charset.newDecoder()); } val classPath0 = new ClassPath(onlyPresentation); val classPath = new classPath0.Build( settings.classpath.value, settings.sourcepath.value, settings.outdir.value, settings.bootclasspath.value, settings.extdirs.value); if (settings.verbose.value) { System.err.println("classpath = " + classPath); } def getSourceFile(f: AbstractFile): SourceFile = new SourceFile(f, reader.read(f)); def getSourceFile(name: String): SourceFile = { val f = AbstractFile.getFile(name); if (f == null) throw new FileNotFoundException( "source file '" + name + "' could not be found"); getSourceFile(f) } def getSourceFile(clazz: Symbol): SourceFile = { val ret = classPath.root.find(clazz.fullNameString(File.separatorChar), false); if (!ret.isSourceFile) throw new FileNotFoundException( "source file for " + clazz + " could not be found"); getSourceFile(ret.sourceFile); } object loaders extends SymbolLoaders { val global: Global.this.type = Global.this } def rootLoader: LazyType = new loaders.PackageLoader(classPath.root /* getRoot() */); val migrateMsg = "migration problem when moving from Scala version 1.0 to version 2.0:\n"; // Phases ------------------------------------------------------------ var globalPhase: Phase = NoPhase; val MaxPhases = 64; val phaseWithId = new Array[Phase](MaxPhases); { for (val i <- List.range(0, MaxPhases)) phaseWithId(i) = NoPhase } abstract class GlobalPhase(prev: Phase) extends Phase(prev) { phaseWithId(id) = this; def run: unit = currentRun.units foreach applyPhase; def apply(unit: CompilationUnit): unit; private val isErased = prev.name == "erasure" || prev.erasedTypes; override def erasedTypes: boolean = isErased; private val isFlat = prev.name == "flatten" || prev.flatClasses; override def flatClasses: boolean = isFlat; final def applyPhase(unit: CompilationUnit): unit = { if (settings.debug.value) inform("[running phase " + name + " on " + unit + "]"); val unit0 = currentRun.currentUnit; currentRun.currentUnit = unit; apply(unit); currentRun.advanceUnit; assert(currentRun.currentUnit == unit); currentRun.currentUnit = unit0; } } object syntaxAnalyzer extends SyntaxAnalyzer { val global: Global.this.type = Global.this } object analyzer extends Analyzer { val global: Global.this.type = Global.this } object superAccessors extends SuperAccessors { val global: Global.this.type = Global.this } object pickler extends Pickler { val global: Global.this.type = Global.this } object refchecks extends RefChecks { val global: Global.this.type = Global.this } object liftcode extends LiftCode { val global: Global.this.type = Global.this; } object uncurry extends UnCurry { val global: Global.this.type = Global.this } object tailCalls extends TailCalls { val global: Global.this.type = Global.this } object transMatcher extends TransMatcher { val global: Global.this.type = Global.this } // object checkDefined extends CheckDefined { // val global: Global.this.type = Global.this // } object explicitOuter extends ExplicitOuter { val global: Global.this.type = Global.this } object erasure extends Erasure { val global: Global.this.type = Global.this } object lambdaLift extends LambdaLift { val global: Global.this.type = Global.this } object constructors extends Constructors { val global: Global.this.type = Global.this } object flatten extends Flatten { val global: Global.this.type = Global.this } object mixer extends Mixin { val global: Global.this.type = Global.this } object cleanup extends CleanUp { val global: Global.this.type = Global.this } object sampleTransform extends SampleTransform { val global: Global.this.type = Global.this } object genicode extends GenICode { val global: Global.this.type = Global.this } object icodePrinter extends backend.icode.Printers { val global: Global.this.type = Global.this } object scalaPrimitives extends ScalaPrimitives { val global: Global.this.type = Global.this } object inliner extends Inliners { val global: Global.this.type = Global.this } object closser extends ClosureElimination { val global: Global.this.type = Global.this } object genJVM extends GenJVM { val global: Global.this.type = Global.this } object icodeChecker extends checkers.ICodeChecker(); object typer extends analyzer.Typer( analyzer.NoContext.make(EmptyTree, Global.this.definitions.RootClass, new Scope())); def phaseDescriptors: List[SubComponent] = List( analyzer.namerFactory, analyzer.typerFactory, superAccessors, pickler, refchecks, liftcode, uncurry, tailCalls, transMatcher, // checkDefined, explicitOuter, erasure, lambdaLift, constructors, flatten, mixer, cleanup, genicode, inliner, closser, genJVM, sampleTransform) protected def insertBefore(c: SubComponent, cs: List[SubComponent], before: SubComponent): List[SubComponent] = cs match { case List() => List(c) case c1 :: cs1 => if (c1 == before) c :: cs else c1 :: insertBefore(c, cs1, before) } private var curRun: Run = NoRun; override def currentRun: Run = curRun; def onlyPresentation = settings.doc.value; def forCLDC: Boolean = settings.target.value == "cldc" class Run extends CompilerRun { var currentUnit: CompilationUnit = _; curRun = this; override val firstPhase = syntaxAnalyzer.newPhase(NoPhase); phase = firstPhase; definitions.init; // needs firstPhase and phase to be defined != NoPhase, // that's why it is placed here. icodes.init; private var p: Phase = firstPhase; private var stopped = false; for (val pd <- phaseDescriptors) { if (!stopped) { if (!(settings.skip contains pd.phaseName)) p = pd.newPhase(p); stopped = settings.stop contains pd.phaseName; } } // progress tracking def progress(current: Int, total: Int): Unit = {} private var phasec: Int = 0; private var unitc: Int = 0; def advancePhase: Unit = { unitc = 0; phasec = phasec + 1; refreshProgress; } def advanceUnit: Unit = { unitc = unitc + 1; refreshProgress; } private def refreshProgress = if (fileset.size > 0) progress((phasec * fileset.size) + unitc, (phaseDescriptors.length+1) * fileset.size); override def phaseNamed(name: String): Phase = { var p: Phase = firstPhase; while (p.next != p && p.name != name) p = p.next; if (p.name != name) NoPhase else p } override val namerPhase = phaseNamed("namer"); override val typerPhase = phaseNamed("typer"); override val refchecksPhase = phaseNamed("refchecks"); override val explicitOuterPhase = phaseNamed("explicitouter"); override val erasurePhase = phaseNamed("erasure"); override val flattenPhase = phaseNamed("flatten"); override val mixinPhase = phaseNamed("mixin"); override val icodePhase = phaseNamed("icode"); private var unitbuf = new ListBuffer[CompilationUnit]; private var fileset = new HashSet[AbstractFile]; override val terminalPhase : Phase = if (onlyPresentation) typerPhase.next.next; else new GlobalPhase(p) { def name = "terminal"; def apply(unit: CompilationUnit): unit = {} } private def addUnit(unit: CompilationUnit): unit = { unitbuf += unit; fileset += unit.source.getFile(); } def units: Iterator[CompilationUnit] = unitbuf.elements; /** A map from compiled top-level symbols to their source files */ val symSource = new HashMap[Symbol, AbstractFile]; /** A map from compiled top-level symbols to their picklers */ val symData = new HashMap[Symbol, PickleBuffer]; /** does this run compile given class, module, or case factory? */ def compiles(sym: Symbol): boolean = if (sym == NoSymbol) false else if (symSource.isDefinedAt(sym)) true else if (!sym.owner.isPackageClass) compiles(sym.toplevelClass) else if (sym.isModuleClass) compiles(sym.sourceModule) else false; def compileSources(sources: List[SourceFile]): unit = { val startTime = System.currentTimeMillis(); reporter.reset; for (val source <- sources) addUnit(new CompilationUnit(source)); globalPhase = firstPhase; while (globalPhase != terminalPhase && reporter.errors == 0) { val startTime = System.currentTimeMillis(); phase = globalPhase; globalPhase.run; if (settings.print contains globalPhase.name) if (globalPhase.id >= icodePhase.id) writeICode() else treePrinter.printAll(); if (settings.browse contains globalPhase.name) treeBrowser.browse(units); informTime(globalPhase.description, startTime); globalPhase = globalPhase.next; if (settings.check contains globalPhase.name) { phase = globalPhase; if (globalPhase.id >= icodePhase.id) icodeChecker.checkICodes; else checker.checkTrees; } if (settings.statistics.value) statistics.print(phase); advancePhase; } if (settings.Xshowcls.value != "") showDef(newTermName(settings.Xshowcls.value), false); if (settings.Xshowobj.value != "") showDef(newTermName(settings.Xshowobj.value), true); if (reporter.errors == 0) { assert(stopped || symData.isEmpty, symData.elements.toList); } else { for (val Pair(sym, file) <- symSource.elements) { sym.reset(new loaders.SourcefileLoader(file)); if (sym.isTerm) sym.moduleClass.reset(loaders.moduleClassLoader); } } for (val Pair(sym, file) <- symSource.elements) resetPackageClass(sym.owner); informTime("total", startTime); } def compileLate(file: AbstractFile): unit = if (fileset == null) { val msg = "No class file for " + file + " was found\n(This file cannot be loaded as a source file)"; System.err.println(msg); throw new FatalError(msg); } else if (!(fileset contains file)) { val unit = new CompilationUnit(getSourceFile(file)); addUnit(unit); var localPhase = firstPhase.asInstanceOf[GlobalPhase]; while ((localPhase.id < globalPhase.id || localPhase.id <= namerPhase.id) && reporter.errors == 0) { atPhase(localPhase)(localPhase.applyPhase(unit)); localPhase = localPhase.next.asInstanceOf[GlobalPhase]; } refreshProgress; } def compileFiles(files: List[AbstractFile]): unit = try { compileSources(files map getSourceFile) } catch { case ex: IOException => error(ex.getMessage()); } def compile(filenames: List[String]): unit = try { compileSources(filenames map getSourceFile) } catch { case ex: IOException => error(ex.getMessage()); } private def resetPackageClass(pclazz: Symbol): unit = { assert(pclazz.isPackageClass, pclazz); atPhase(firstPhase) { pclazz.setInfo(atPhase(typerPhase)(pclazz.info)) } if (!pclazz.isRoot) resetPackageClass(pclazz.owner); } } def showDef(name: Name, module: boolean): unit = { def getSym(name: Name, module: boolean): Symbol = { var i = name.length - 1; while (i != 0 && name(i) != '#' && name(i) != '.') i = i - 1; if (i == 0) definitions.getModule(name) else { val root = getSym(name.subName(0, i), name(i) == '.'); var selector = name.subName(i+1, name.length); if (module) selector = selector.toTypeName; root.info.member(selector) } } val sym = getSym(name, module); System.err.println("" + sym.name + ":" + (if (module) sym.tpe.symbol.info else sym.info)) } /** Returns the file with the given suffix for the given class. */ def getFile(clazz: Symbol, suffix: String) = { val outdirname = settings.outdir.value; var outdir = new File(if (outdirname == "") "." else outdirname); val filename = clazz.fullNameString('.'); var start = 0; var end = filename.indexOf('.', start); while (end >= start) { outdir = new File(outdir, filename.substring(start, end)); if (!outdir.exists()) outdir.mkdir(); start = end + 1; end = filename.indexOf('.', start); } new File(outdir, filename.substring(start) + suffix) } private def writeSymblFile(clazz: Symbol, pickled: PickleBuffer) = { val file = getFile(clazz, ".symbl"); try { val stream = new FileOutputStream(file); stream.write(pickled.bytes, 0, pickled.writeIndex); stream.close(); informProgress("wrote " + file); } catch { case ex: IOException => if (settings.debug.value) ex.printStackTrace(); error("could not write file " + file); } } private def writeICode(): Unit = { val printer = new icodePrinter.TextPrinter(null, icodes.linearizer); icodes.classes.values.foreach((cls) => { var file = getFile(cls.symbol, ".icode"); // if (file.exists()) // file = new File(file.getParentFile(), file.getName() + "1"); try { val stream = new FileOutputStream(file); printer.setWriter(new PrintWriter(stream, true)); printer.printClass(cls); informProgress("wrote " + file); } catch { case ex: IOException => if (settings.debug.value) ex.printStackTrace(); error("could not write file " + file); } }); } }