/* sbt -- Simple Build Tool * Copyright 2011 Mark Harrah */ package sbt import java.io.File import java.net.URI import compiler.{Discovered,Discovery,Eval,EvalImports} import classpath.ClasspathUtilities import scala.annotation.tailrec import collection.mutable import Compiler.{Compilers,Inputs} import Project.{inScope, ScopedKey, ScopeLocal, Setting} import Keys.{appConfiguration, baseDirectory, configuration, streams, Streams, thisProject, thisProjectRef} import Keys.{isDummy, parseResult, resolvedScoped, taskDefinitionKey} import tools.nsc.reporters.ConsoleReporter import Build.{analyzed, data} import Scope.{GlobalScope, ThisScope} object Load { import BuildPaths._ import BuildStreams._ // note that there is State passed in but not pulled out def defaultLoad(state: State, baseDirectory: File, log: Logger): (() => Eval, BuildStructure) = { val provider = state.configuration.provider val scalaProvider = provider.scalaProvider val stagingDirectory = defaultStaging.getCanonicalFile val base = baseDirectory.getCanonicalFile val loader = getClass.getClassLoader val classpath = provider.mainClasspath ++ scalaProvider.jars val compilers = Compiler.compilers(ClasspathOptions.boot)(state.configuration, log) val evalPluginDef = EvaluateTask.evalPluginDef(log) _ val delegates = defaultDelegates val inject: Seq[Project.Setting[_]] = ((appConfiguration in GlobalScope) :== state.configuration) +: EvaluateTask.injectSettings val rawConfig = new LoadBuildConfiguration(stagingDirectory, Nil, classpath, loader, compilers, evalPluginDef, delegates, EvaluateTask.injectStreams, inject, log) val commonPlugins = buildGlobalPlugins(defaultGlobalPlugins, state, rawConfig) val config = rawConfig.copy(commonPluginClasspath = commonPlugins) apply(base, state, config) } def buildGlobalPlugins(baseDirectory: File, state: State, config: LoadBuildConfiguration): Seq[Attributed[File]] = if(baseDirectory.isDirectory) buildPluginDefinition(baseDirectory, state, config) else Nil def defaultDelegates: LoadedBuild => Scope => Seq[Scope] = (lb: LoadedBuild) => { val rootProject = getRootProject(lb.units) def resolveRef(project: Reference): ResolvedReference = Scope.resolveReference(lb.root, rootProject, project) Scope.delegates( lb.allProjectRefs, (_: ResolvedProject).configurations.map(c => ConfigKey(c.name)), resolveRef, rootProject, project => projectInherit(lb, project), (project, config) => configInherit(lb, project, config, rootProject), task => task.extend, (project, extra) => Nil ) } def configInherit(lb: LoadedBuild, ref: ResolvedReference, config: ConfigKey, rootProject: URI => String): Seq[ConfigKey] = ref match { case pr: ProjectRef => configInheritRef(lb, pr, config) case BuildRef(uri) => configInheritRef(lb, ProjectRef(uri, rootProject(uri)), config) } def configInheritRef(lb: LoadedBuild, ref: ProjectRef, config: ConfigKey): Seq[ConfigKey] = configurationOpt(lb.units, ref.build, ref.project, config).toList.flatMap(_.extendsConfigs).map(c => ConfigKey(c.name)) def projectInherit(lb: LoadedBuild, ref: ProjectRef): Seq[ProjectRef] = getProject(lb.units, ref.build, ref.project).delegates // build, load, and evaluate all units. // 1) Compile all plugin definitions // 2) Evaluate plugin definitions to obtain and compile plugins and get the resulting classpath for the build definition // 3) Instantiate Plugins on that classpath // 4) Compile all build definitions using plugin classpath // 5) Load build definitions. // 6) Load all configurations using build definitions and plugins (their classpaths and loaded instances). // 7) Combine settings from projects, plugins, and configurations // 8) Evaluate settings def apply(rootBase: File, s: State, config: LoadBuildConfiguration): (() => Eval, BuildStructure) = { // load, which includes some resolution, but can't fill in project IDs yet, so follow with full resolution val loaded = resolveProjects(load(rootBase, s, config)) val projects = loaded.units lazy val rootEval = lazyEval(loaded.units(loaded.root).unit) val settings = finalTransforms(config.injectSettings ++ buildConfigurations(loaded, getRootProject(projects), rootEval)) val delegates = config.delegates(loaded) val data = Project.makeSettings(settings, delegates, config.scopeLocal) val index = structureIndex(data) val streams = mkStreams(projects, loaded.root, data) (rootEval, new BuildStructure(projects, loaded.root, settings, data, index, streams, delegates, config.scopeLocal)) } // map dependencies on the special tasks so that the scope is the same as the defining key // additionally, set the task axis to the defining key if it is not set def finalTransforms(ss: Seq[Setting[_]]): Seq[Setting[_]] = { import Keys.{parseResult, resolvedScoped} def isSpecial(key: AttributeKey[_]) = key == streams.key || key == resolvedScoped.key || key == parseResult.key def mapSpecial(to: ScopedKey[_]) = new (ScopedKey ~> ScopedKey){ def apply[T](key: ScopedKey[T]) = if(isSpecial(key.key)) { val replaced = Scope.replaceThis(to.scope)(key.scope) val scope = if(key.key == resolvedScoped.key) replaced else Scope.fillTaskAxis(replaced, to.key) ScopedKey(scope, key.key) } else key } def setDefining[T] = (key: ScopedKey[T], value: T) => value match { case tk: Task[t] => setDefinitionKey(tk, key).asInstanceOf[T] case ik: InputTask[t] => ik.mapTask( tk => setDefinitionKey(tk, key) ).asInstanceOf[T] case _ => value } ss.map(s => s mapReferenced mapSpecial(s.key) mapInit setDefining ) } def setDefinitionKey[T](tk: Task[T], key: ScopedKey[_]): Task[T] = if(isDummy(tk)) tk else Task(tk.info.set(Keys.taskDefinitionKey, key), tk.work) def structureIndex(settings: Settings[Scope]): StructureIndex = new StructureIndex(Index.stringToKeyMap(settings), Index.taskToKeyMap(settings), Index.triggers(settings), KeyIndex(settings.allKeys( (s,k) => ScopedKey(s,k)))) // Reevaluates settings after modifying them. Does not recompile or reload any build components. def reapply(newSettings: Seq[Setting[_]], structure: BuildStructure): BuildStructure = { val newData = Project.makeSettings(newSettings, structure.delegates, structure.scopeLocal) val newIndex = structureIndex(newData) val newStreams = mkStreams(structure.units, structure.root, newData) new BuildStructure(units = structure.units, root = structure.root, settings = newSettings, data = newData, index = newIndex, streams = newStreams, delegates = structure.delegates, scopeLocal = structure.scopeLocal) } def isProjectThis(s: Setting[_]) = s.key.scope.project match { case This | Select(ThisProject) => true; case _ => false } def buildConfigurations(loaded: LoadedBuild, rootProject: URI => String, rootEval: () => Eval): Seq[Setting[_]] = loaded.units.toSeq flatMap { case (uri, build) => val eval = if(uri == loaded.root) rootEval else lazyEval(build.unit) val pluginSettings = build.unit.plugins.plugins val (pluginThisProject, pluginGlobal) = pluginSettings partition isProjectThis val projectSettings = build.defined flatMap { case (id, project) => val srcs = configurationSources(project.base) val ref = ProjectRef(uri, id) val defineConfig = for(c <- project.configurations) yield ( (configuration in (ref, ConfigKey(c.name))) :== c) val settings = (thisProject :== project) +: (thisProjectRef :== ref) +: (defineConfig ++ project.settings ++ pluginThisProject ++ configurations(srcs, eval, build.imports)) // map This to thisScope, Select(p) to mapRef(uri, rootProject, p) transformSettings(projectScope(ref), uri, rootProject, settings) } val buildScope = Scope(Select(BuildRef(uri)), Global, Global, Global) val buildBase = baseDirectory :== build.localBase pluginGlobal ++ inScope(buildScope)(buildBase +: build.buildSettings) ++ projectSettings } def transformSettings(thisScope: Scope, uri: URI, rootProject: URI => String, settings: Seq[Setting[_]]): Seq[Setting[_]] = Project.transform(Scope.resolveScope(thisScope, uri, rootProject), settings) def projectScope(project: Reference): Scope = Scope(Select(project), Global, Global, Global) def lazyEval(unit: BuildUnit): () => Eval = { lazy val eval = mkEval(unit) () => eval } def mkEval(unit: BuildUnit): Eval = mkEval(unit.definitions, unit.plugins, Nil) def mkEval(defs: LoadedDefinitions, plugs: LoadedPlugins, options: Seq[String]): Eval = new Eval(options, defs.target +: plugs.classpath, s => new ConsoleReporter(s), defs.loader, Some(evalOutputDirectory(defs.base))) def configurations(srcs: Seq[File], eval: () => Eval, imports: Seq[String]): Seq[Setting[_]] = if(srcs.isEmpty) Nil else EvaluateConfigurations(eval(), srcs, imports) def load(file: File, s: State, config: LoadBuildConfiguration): PartBuild = { val loader = (uri: URI, local: File) => loadUnit(uri, local, s, config) val fail = (uri: URI) => error("Invalid build URI: " + uri) val builtinLoader = BuildLoader(loader, info => RetrieveUnit(info.staging, info.build), fail, config) load(file, builtinLoader) } def load(file: File, loaders: BuildLoader): PartBuild = loadURI(IO.directoryURI(file), loaders) def loadURI(uri: URI, loaders: BuildLoader): PartBuild = { IO.assertAbsolute(uri) val (referenced, map) = loadAll(uri :: Nil, Map.empty, loaders, Map.empty) checkAll(referenced, map) new PartBuild(uri, map) } def addResolvers(unit: BuildUnit, isRoot: Boolean, loaders: BuildLoader): BuildLoader = unit.definitions.builds.flatMap(_.buildResolvers) match { case Nil => loaders case x :: xs => import Alternatives._ val resolver = (x /: xs){ _ | _ } if(isRoot) loaders.setRoot(resolver) else loaders.addNonRoot(unit.uri, resolver) } def loaded(unit: BuildUnit): (PartBuildUnit, List[ProjectReference]) = { val defined = projects(unit) if(defined.isEmpty) error("No projects defined in build unit " + unit) // since base directories are resolved at this point (after 'projects'), // we can compare Files instead of converting to URIs def isRoot(p: Project) = p.base == unit.localBase val externals = referenced(defined).toList val projectsInRoot = defined.filter(isRoot).map(_.id) val rootProjects = if(projectsInRoot.isEmpty) defined.head.id :: Nil else projectsInRoot (new PartBuildUnit(unit, defined.map(d => (d.id, d)).toMap, rootProjects, buildSettings(unit)), externals) } def buildSettings(unit: BuildUnit): Seq[Setting[_]] = { val buildScope = GlobalScope.copy(project = Select(BuildRef(unit.uri))) val resolve = Scope.resolveBuildScope(buildScope, unit.uri) Project.transform(resolve, unit.definitions.builds.flatMap(_.settings)) } @tailrec def loadAll(bases: List[URI], references: Map[URI, List[ProjectReference]], loaders: BuildLoader, builds: Map[URI, PartBuildUnit]): (Map[URI, List[ProjectReference]], Map[URI, PartBuildUnit]) = bases match { case b :: bs => if(builds contains b) loadAll(bs, references, loaders, builds) else { val (loadedBuild, refs) = loaded(loaders(b)) checkBuildBase(loadedBuild.unit.localBase) val newLoader = addResolvers(loadedBuild.unit, builds.isEmpty, loaders) loadAll(refs.flatMap(Reference.uri) reverse_::: bs, references.updated(b, refs), newLoader, builds.updated(b, loadedBuild)) } case Nil => (references, builds) } def checkProjectBase(buildBase: File, projectBase: File) { checkDirectory(projectBase) assert(buildBase == projectBase || IO.relativize(buildBase, projectBase).isDefined, "Directory " + projectBase + " is not contained in build root " + buildBase) } def checkBuildBase(base: File) = checkDirectory(base) def checkDirectory(base: File) { assert(base.isAbsolute, "Not absolute: " + base) if(base.isFile) error("Not a directory: " + base) else if(!base.exists) IO createDirectory base } def resolveAll(builds: Map[URI, PartBuildUnit]): Map[URI, LoadedBuildUnit] = { val rootProject = getRootProject(builds) builds map { case (uri,unit) => (uri, unit.resolveRefs( ref => Scope.resolveProjectRef(uri, rootProject, ref) )) } toMap; } def checkAll(referenced: Map[URI, List[ProjectReference]], builds: Map[URI, PartBuildUnit]) { val rootProject = getRootProject(builds) for( (uri, refs) <- referenced; ref <- refs) { val ProjectRef(refURI, refID) = Scope.resolveProjectRef(uri, rootProject, ref) val loadedUnit = builds(refURI) if(! (loadedUnit.defined contains refID) ) error("No project '" + refID + "' in '" + refURI + "'") } } def resolveBase(against: File): Project => Project = { def resolve(f: File) = { val fResolved = new File(IO.directoryURI(IO.resolve(against, f))) checkProjectBase(against, fResolved) fResolved } p => p.copy(base = resolve(p.base)) } def resolveProjects(loaded: PartBuild): LoadedBuild = { val rootProject = getRootProject(loaded.units) new LoadedBuild(loaded.root, loaded.units map { case (uri, unit) => IO.assertAbsolute(uri) (uri, resolveProjects(uri, unit, rootProject)) }) } def resolveProjects(uri: URI, unit: PartBuildUnit, rootProject: URI => String): LoadedBuildUnit = { IO.assertAbsolute(uri) val resolve = (_: Project).resolve(ref => Scope.resolveProjectRef(uri, rootProject, ref)) new LoadedBuildUnit(unit.unit, unit.defined mapValues resolve toMap, unit.rootProjects, unit.buildSettings) } def projects(unit: BuildUnit): Seq[Project] = { // we don't have the complete build graph loaded, so we don't have the rootProject function yet. // Therefore, we use resolveProjectBuild instead of resolveProjectRef. After all builds are loaded, we can fully resolve ProjectReferences. val resolveBuild = (_: Project).resolveBuild(ref => Scope.resolveProjectBuild(unit.uri, ref)) val resolve = resolveBuild compose resolveBase(unit.localBase) unit.definitions.builds.flatMap(_.projects map resolve) } def getRootProject(map: Map[URI, BuildUnitBase]): URI => String = uri => getBuild(map, uri).rootProjects.headOption getOrElse emptyBuild(uri) def getConfiguration(map: Map[URI, LoadedBuildUnit], uri: URI, id: String, conf: ConfigKey): Configuration = configurationOpt(map, uri, id, conf) getOrElse noConfiguration(uri, id, conf.name) def configurationOpt(map: Map[URI, LoadedBuildUnit], uri: URI, id: String, conf: ConfigKey): Option[Configuration] = getProject(map, uri, id).configurations.find(_.name == conf.name) def getProject(map: Map[URI, LoadedBuildUnit], uri: URI, id: String): ResolvedProject = getBuild(map, uri).defined.getOrElse(id, noProject(uri, id)) def getBuild[T](map: Map[URI, T], uri: URI): T = map.getOrElse(uri, noBuild(uri)) def emptyBuild(uri: URI) = error("No root project defined for build unit '" + uri + "'") def noBuild(uri: URI) = error("Build unit '" + uri + "' not defined.") def noProject(uri: URI, id: String) = error("No project '" + id + "' defined in '" + uri + "'.") def noConfiguration(uri: URI, id: String, conf: String) = error("No configuration '" + conf + "' defined in project '" + id + "' in '" + uri +"'") def loadUnit(uri: URI, localBase: File, s: State, config: LoadBuildConfiguration): BuildUnit = { val normBase = localBase.getCanonicalFile val defDir = selectProjectDir(normBase) val pluginDir = pluginDirectory(defDir) val plugs = plugins(pluginDir, s, config) val defs = definitionSources(defDir) val target = buildOutputDirectory(defDir, config.compilers) IO.createDirectory(target) val loadedDefs = if(defs.isEmpty) new LoadedDefinitions(defDir, target, plugs.loader, Build.default(normBase) :: Nil, Nil) else definitions(defDir, target, defs, plugs, config.compilers, config.log, normBase) new BuildUnit(uri, normBase, loadedDefs, plugs) } def plugins(dir: File, s: State, config: LoadBuildConfiguration): LoadedPlugins = if(dir.exists) buildPlugins(dir, s, config) else noPlugins(dir, config) def noPlugins(dir: File, config: LoadBuildConfiguration): LoadedPlugins = loadPluginDefinition(dir, config, config.commonPluginClasspath) def buildPlugins(dir: File, s: State, config: LoadBuildConfiguration): LoadedPlugins = loadPluginDefinition(dir, config, buildPluginDefinition(dir, s, config)) def loadPluginDefinition(dir: File, config: LoadBuildConfiguration, pluginClasspath: Seq[Attributed[File]]): LoadedPlugins = { val definitionClasspath = if(pluginClasspath.isEmpty) config.classpath else (data(pluginClasspath) ++ config.classpath).distinct val pluginLoader = if(pluginClasspath.isEmpty) config.loader else ClasspathUtilities.toLoader(definitionClasspath, config.loader) loadPlugins(dir, definitionClasspath, pluginLoader, analyzed(pluginClasspath)) } def buildPluginDefinition(dir: File, s: State, config: LoadBuildConfiguration): Seq[Attributed[File]] = { val (eval,pluginDef) = apply(dir, s, config) val pluginState = Project.setProject(Load.initialSession(pluginDef, eval), pluginDef, s) val thisPluginClasspath = config.evalPluginDef(pluginDef, pluginState) (thisPluginClasspath ++ config.commonPluginClasspath).distinct } def definitions(base: File, targetBase: File, srcs: Seq[File], plugins: LoadedPlugins, compilers: Compilers, log: Logger, buildBase: File): LoadedDefinitions = { val (inputs, defAnalysis) = build(plugins.classpath, srcs, targetBase, compilers, log) val target = inputs.config.classesDirectory val definitionLoader = ClasspathUtilities.toLoader(target :: Nil, plugins.loader) val defNames = findDefinitions(defAnalysis) val defs = if(defNames.isEmpty) Build.default(buildBase) :: Nil else loadDefinitions(definitionLoader, defNames) new LoadedDefinitions(base, target, definitionLoader, defs, defNames) } def loadDefinitions(loader: ClassLoader, defs: Seq[String]): Seq[Build] = defs map { definition => loadDefinition(loader, definition) } def loadDefinition(loader: ClassLoader, definition: String): Build = ModuleUtilities.getObject(definition, loader).asInstanceOf[Build] def build(classpath: Seq[File], sources: Seq[File], target: File, compilers: Compilers, log: Logger): (Inputs, inc.Analysis) = { val inputs = Compiler.inputs(classpath, sources, target, Nil, Nil, Compiler.DefaultMaxErrors, CompileOrder.Mixed)(compilers, log) val analysis = try { Compiler(inputs, log) } catch { case _: xsbti.CompileFailed => throw new NoMessageException } // compiler already logged errors (inputs, analysis) } def loadPlugins(dir: File, classpath: Seq[File], loader: ClassLoader, analysis: Seq[inc.Analysis]): LoadedPlugins = { val (pluginNames, plugins) = if(classpath.isEmpty) (Nil, Nil) else { val names = ( binaryPlugins(loader) ++ (analysis flatMap findPlugins) ).distinct (names, loadPlugins(loader, names) ) } new LoadedPlugins(dir, classpath, loader, plugins, pluginNames) } def binaryPlugins(loader: ClassLoader): Seq[String] = { import collection.JavaConversions._ loader.getResources("sbt/sbt.plugins").toSeq flatMap { u => IO.readLinesURL(u) map { _.trim } filter { !_.isEmpty } }; } def loadPlugins(loader: ClassLoader, pluginNames: Seq[String]): Seq[Setting[_]] = pluginNames.flatMap(pluginName => loadPlugin(pluginName, loader)) def loadPlugin(pluginName: String, loader: ClassLoader): Seq[Setting[_]] = ModuleUtilities.getObject(pluginName, loader).asInstanceOf[Plugin].settings def importAll(values: Seq[String]) = if(values.isEmpty) Nil else values.map( _ + "._" ).mkString("import ", ", ", "") :: Nil def findPlugins(analysis: inc.Analysis): Seq[String] = discover(analysis, "sbt.Plugin") def findDefinitions(analysis: inc.Analysis): Seq[String] = discover(analysis, "sbt.Build") def discover(analysis: inc.Analysis, subclasses: String*): Seq[String] = { val subclassSet = subclasses.toSet val ds = Discovery(subclassSet, Set.empty)(Tests.allDefs(analysis)) ds.flatMap { case (definition, Discovered(subs,_,_,true)) => if((subs & subclassSet).isEmpty) Nil else definition.name :: Nil case _ => Nil } } def initialSession(structure: BuildStructure, rootEval: () => Eval): SessionSettings = new SessionSettings(structure.root, rootProjectMap(structure.units), structure.settings, Map.empty, Map.empty, rootEval) def rootProjectMap(units: Map[URI, LoadedBuildUnit]): Map[URI, String] = { val getRoot = getRootProject(units) units.keys.map(uri => (uri, getRoot(uri))).toMap } def baseImports = "import sbt._, Process._, Keys._" :: Nil final class EvaluatedConfigurations(val eval: Eval, val settings: Seq[Setting[_]]) final class LoadedDefinitions(val base: File, val target: File, val loader: ClassLoader, val builds: Seq[Build], val buildNames: Seq[String]) final class LoadedPlugins(val base: File, val classpath: Seq[File], val loader: ClassLoader, val plugins: Seq[Setting[_]], val pluginNames: Seq[String]) final class BuildUnit(val uri: URI, val localBase: File, val definitions: LoadedDefinitions, val plugins: LoadedPlugins) { override def toString = if(uri.getScheme == "file") localBase.toString else (uri + " (locally: " + localBase +")") } final class LoadedBuild(val root: URI, val units: Map[URI, LoadedBuildUnit]) { checkCycles(units) def allProjectRefs: Seq[(ProjectRef, ResolvedProject)] = for( (uri, unit) <- units.toSeq; (id, proj) <- unit.defined ) yield ProjectRef(uri, id) -> proj } def checkCycles(units: Map[URI, LoadedBuildUnit]) { def getRef(pref: ProjectRef) = units(pref.build).defined(pref.project) def deps(proj: ResolvedProject)(base: ResolvedProject => Seq[ProjectRef]): Seq[ResolvedProject] = Dag.topologicalSort(proj)(p => base(p) map getRef) // check for cycles for( (_, lbu) <- units; proj <- lbu.defined.values) { deps(proj)(_.dependencies.map(_.project)) deps(proj)(_.delegates) deps(proj)(_.aggregate) } } final class PartBuild(val root: URI, val units: Map[URI, PartBuildUnit]) sealed trait BuildUnitBase { def rootProjects: Seq[String]; def buildSettings: Seq[Setting[_]] } final class PartBuildUnit(val unit: BuildUnit, val defined: Map[String, Project], val rootProjects: Seq[String], val buildSettings: Seq[Setting[_]]) extends BuildUnitBase { def resolve(f: Project => ResolvedProject): LoadedBuildUnit = new LoadedBuildUnit(unit, defined mapValues f toMap, rootProjects, buildSettings) def resolveRefs(f: ProjectReference => ProjectRef): LoadedBuildUnit = resolve(_ resolve f) } final class LoadedBuildUnit(val unit: BuildUnit, val defined: Map[String, ResolvedProject], val rootProjects: Seq[String], val buildSettings: Seq[Setting[_]]) extends BuildUnitBase { assert(!rootProjects.isEmpty, "No root projects defined for build unit " + unit) def localBase = unit.localBase def classpath = unit.definitions.target +: unit.plugins.classpath def loader = unit.definitions.loader def imports = getImports(unit) override def toString = unit.toString } def getImports(unit: BuildUnit) = baseImports ++ importAll(unit.plugins.pluginNames ++ unit.definitions.buildNames) def referenced[PR <: ProjectReference](definitions: Seq[ProjectDefinition[PR]]): Seq[PR] = definitions flatMap { _.referenced } final class BuildStructure(val units: Map[URI, LoadedBuildUnit], val root: URI, val settings: Seq[Setting[_]], val data: Settings[Scope], val index: StructureIndex, val streams: Streams, val delegates: Scope => Seq[Scope], val scopeLocal: ScopeLocal) { def allProjects: Seq[ResolvedProject] = units.values.flatMap(_.defined.values).toSeq def allProjects(build: URI): Seq[ResolvedProject] = units(build).defined.values.toSeq def allProjectRefs: Seq[ProjectRef] = units.toSeq flatMap { case (build, unit) => refs(build, unit.defined.values.toSeq) } def allProjectRefs(build: URI): Seq[ProjectRef] = refs(build, allProjects(build)) private[this] def refs(build: URI, projects: Seq[ResolvedProject]): Seq[ProjectRef] = projects.map { p => ProjectRef(build, p.id) } } final case class LoadBuildConfiguration(stagingDirectory: File, commonPluginClasspath: Seq[Attributed[File]], classpath: Seq[File], loader: ClassLoader, compilers: Compilers, evalPluginDef: (BuildStructure, State) => Seq[Attributed[File]], delegates: LoadedBuild => Scope => Seq[Scope], scopeLocal: ScopeLocal, injectSettings: Seq[Setting[_]], log: Logger) // information that is not original, but can be reconstructed from the rest of BuildStructure final class StructureIndex(val keyMap: Map[String, AttributeKey[_]], val taskToKey: Map[Task[_], ScopedKey[Task[_]]], val triggers: Triggers[Task], val keyIndex: KeyIndex) }