scala.tools.nsc.doc.model.diagram.DiagramFactory.scala Maven / Gradle / Ivy
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package scala.tools.nsc.doc
package model
package diagram
import model._
// statistics
import html.page.diagram.DiagramStats
import scala.collection.immutable.SortedMap
/**
* This trait takes care of generating the diagram for classes and packages
*
* @author Damien Obrist
* @author Vlad Ureche
*/
trait DiagramFactory extends DiagramDirectiveParser {
this: ModelFactory with ModelFactoryTypeSupport with DiagramFactory with CommentFactory with TreeFactory =>
import this.global.definitions._
import this.global._
// the following can used for hardcoding different relations into the diagram, for bootstrapping purposes
def aggregationNode(text: String) =
NormalNode(new TypeEntity { val name = text; val refEntity = SortedMap[Int, (base.LinkTo, Int)]() }, None)()
/** Create the inheritance diagram for this template */
def makeInheritanceDiagram(tpl: DocTemplateImpl): Option[Diagram] = {
tFilter = 0
tModel = -System.currentTimeMillis
// the diagram filter
val diagramFilter = makeInheritanceDiagramFilter(tpl)
def implicitTooltip(from: DocTemplateEntity, to: TemplateEntity, conv: ImplicitConversion) =
Some(from.qualifiedName + " can be implicitly converted to " + conv.targetType + " by the implicit method "
+ conv.conversionShortName + " in " + conv.convertorOwner.kind + " " + conv.convertorOwner.qualifiedName)
val result =
if (diagramFilter == NoDiagramAtAll)
None
else {
// the main node
val thisNode = ThisNode(tpl.resultType, Some(tpl))(Some(tpl.qualifiedName + " (this " + tpl.kind + ")"))
// superclasses
val superclasses: List[Node] =
tpl.parentTypes.collect {
case p: (TemplateEntity, TypeEntity) if !classExcluded(p._1) => NormalNode(p._2, Some(p._1))()
}.reverse
// incoming implcit conversions
lazy val incomingImplicitNodes = tpl.incomingImplicitlyConvertedClasses.map {
case (incomingTpl, conv) =>
ImplicitNode(makeType(incomingTpl.sym.tpe, tpl), Some(incomingTpl))(implicitTooltip(from=incomingTpl, to=tpl, conv=conv))
}
// subclasses
var subclasses: List[Node] =
tpl.directSubClasses.collect {
case d: TemplateImpl if !classExcluded(d) => NormalNode(makeType(d.sym.tpe, tpl), Some(d))()
}.sortBy(_.tpl.get.name)(implicitly[Ordering[String]].reverse)
// outgoing implicit coversions
lazy val outgoingImplicitNodes = tpl.outgoingImplicitlyConvertedClasses.map {
case (outgoingTpl, outgoingType, conv) =>
ImplicitNode(outgoingType, Some(outgoingTpl))(implicitTooltip(from=tpl, to=tpl, conv=conv))
}
// TODO: Everyone should be able to use the @{inherit,content}Diagram annotation to change the diagrams.
// Currently, it's possible to leave nodes and edges out, but there's no way to create new nodes and edges
// The implementation would need to add the annotations and the logic to select nodes (or create new ones)
// and add edges to the diagram -- I bet it wouldn't take too long for someone to do it (one or two days
// at most) and it would be a great add to the diagrams.
if (tpl.sym == AnyRefClass)
subclasses = List(aggregationNode("All user-defined classes and traits"))
val filteredSuperclasses = if (diagramFilter.hideSuperclasses) Nil else superclasses
val filteredIncomingImplicits = if (diagramFilter.hideIncomingImplicits) Nil else incomingImplicitNodes
val filteredSubclasses = if (diagramFilter.hideSubclasses) Nil else subclasses
val filteredImplicitOutgoingNodes = if (diagramFilter.hideOutgoingImplicits) Nil else outgoingImplicitNodes
// final diagram filter
filterDiagram(InheritanceDiagram(thisNode, filteredSuperclasses.reverse, filteredSubclasses.reverse, filteredIncomingImplicits, filteredImplicitOutgoingNodes), diagramFilter)
}
tModel += System.currentTimeMillis
DiagramStats.addFilterTime(tFilter)
DiagramStats.addModelTime(tModel-tFilter)
result
}
/** Create the content diagram for this template */
def makeContentDiagram(pack: DocTemplateImpl): Option[Diagram] = {
tFilter = 0
tModel = -System.currentTimeMillis
// the diagram filter
val diagramFilter = makeContentDiagramFilter(pack)
val result =
if (diagramFilter == NoDiagramAtAll)
None
else {
var mapNodes = Map[TemplateEntity, Node]()
var nodesShown = Set[TemplateEntity]()
var edgesAll = List[(TemplateEntity, List[TemplateEntity])]()
// classes is the entire set of classes and traits in the package, they are the superset of nodes in the diagram
// we collect classes, traits and objects without a companion, which are usually used as values(e.g. scala.None)
val nodesAll = pack.members collect {
case d: TemplateEntity if ((!diagramFilter.hideInheritedNodes) || (d.inTemplate == pack)) => d
}
def listSuperClasses(member: MemberTemplateImpl) = {
// TODO: Everyone should be able to use the @{inherit,content}Diagram annotation to add nodes to diagrams.
(pack.sym, member.sym) match {
case (ScalaPackage, NullClass) =>
List(makeTemplate(AnyRefClass))
case (ScalaPackage, NothingClass) =>
(List(NullClass) ::: ScalaValueClasses) map { makeTemplate(_) }
case _ =>
member.parentTypes map {
case (template, tpe) => template
} filter {
nodesAll.contains(_)
}
}
}
// for each node, add its subclasses
for (node <- nodesAll if !classExcluded(node)) {
node match {
case dnode: MemberTemplateImpl =>
val superClasses = listSuperClasses(dnode)
if (!superClasses.isEmpty) {
nodesShown += dnode
nodesShown ++= superClasses
}
edgesAll ::= dnode -> superClasses
case _ =>
}
mapNodes += node -> (
if (node.inTemplate == pack && (node.isDocTemplate || node.isAbstractType || node.isAliasType))
NormalNode(node.resultType, Some(node))()
else
OutsideNode(node.resultType, Some(node))()
)
}
if (nodesShown.isEmpty)
None
else {
val nodes = nodesAll.filter(nodesShown.contains(_)).flatMap(mapNodes.get(_))
val edges = edgesAll.map {
case (entity, superClasses) => {
(mapNodes(entity), superClasses flatMap { mapNodes.get(_) })
}
} filterNot {
case (node, superClassNodes) => superClassNodes.isEmpty
}
val diagram =
// TODO: Everyone should be able to use the @{inherit,content}Diagram annotation to change the diagrams.
if (pack.sym == ScalaPackage) {
// Tried it, but it doesn't look good:
// var anyRefSubtypes: List[Node] = List(mapNodes(makeTemplate(AnyRefClass)))
// var dirty = true
// do {
// val length = anyRefSubtypes.length
// anyRefSubtypes :::= edges.collect { case p: (Node, List[Node]) if p._2.exists(anyRefSubtypes.contains(_)) => p._1 }
// anyRefSubtypes = anyRefSubtypes.distinct
// dirty = (anyRefSubtypes.length != length)
// } while (dirty)
// println(anyRefSubtypes)
val anyRefSubtypes = Nil
val allAnyRefTypes = aggregationNode("All AnyRef subtypes")
val nullTemplate = makeTemplate(NullClass)
if (nullTemplate.isDocTemplate)
ContentDiagram(allAnyRefTypes::nodes, (mapNodes(nullTemplate), allAnyRefTypes::anyRefSubtypes)::edges.filterNot(_._1.tpl == Some(nullTemplate)))
else
ContentDiagram(nodes, edges)
} else
ContentDiagram(nodes, edges)
filterDiagram(diagram, diagramFilter)
}
}
tModel += System.currentTimeMillis
DiagramStats.addFilterTime(tFilter)
DiagramStats.addModelTime(tModel-tFilter)
result
}
/** Diagram filtering logic */
private def filterDiagram(diagram: Diagram, diagramFilter: DiagramFilter): Option[Diagram] = {
tFilter -= System.currentTimeMillis
val result =
if (diagramFilter == FullDiagram)
Some(diagram)
else if (diagramFilter == NoDiagramAtAll)
None
else {
// Final diagram, with the filtered nodes and edges
diagram match {
case InheritanceDiagram(thisNode, _, _, _, _) if diagramFilter.hideNode(thisNode) =>
None
case InheritanceDiagram(thisNode, superClasses, subClasses, incomingImplicits, outgoingImplicits) =>
def hideIncoming(node: Node): Boolean =
diagramFilter.hideNode(node) || diagramFilter.hideEdge(node, thisNode)
def hideOutgoing(node: Node): Boolean =
diagramFilter.hideNode(node) || diagramFilter.hideEdge(thisNode, node)
// println(thisNode)
// println(superClasses.map(cl => "super: " + cl + " " + hideOutgoing(cl)).mkString("\n"))
// println(subClasses.map(cl => "sub: " + cl + " " + hideIncoming(cl)).mkString("\n"))
Some(InheritanceDiagram(thisNode,
superClasses.filterNot(hideOutgoing(_)),
subClasses.filterNot(hideIncoming(_)),
incomingImplicits.filterNot(hideIncoming(_)),
outgoingImplicits.filterNot(hideOutgoing(_))))
case ContentDiagram(nodes0, edges0) =>
// Filter out all edges that:
// (1) are sources of hidden classes
// (2) are manually hidden by the user
// (3) are destinations of hidden classes
val edges: List[(Node, List[Node])] =
diagram.edges.flatMap({
case (source, dests) if !diagramFilter.hideNode(source) =>
val dests2 = dests.collect({ case dest if (!(diagramFilter.hideEdge(source, dest) || diagramFilter.hideNode(dest))) => dest })
if (dests2 != Nil)
List((source, dests2))
else
Nil
case _ => Nil
})
// Only show the the non-isolated nodes
// TODO: Decide if we really want to hide package members, I'm not sure that's a good idea (!!!)
// TODO: Does .distinct cause any stability issues?
val sourceNodes = edges.map(_._1)
val sinkNodes = edges.map(_._2).flatten
val nodes = (sourceNodes ::: sinkNodes).distinct
Some(ContentDiagram(nodes, edges))
}
}
tFilter += System.currentTimeMillis
// eliminate all empty diagrams
if (result.isDefined && result.get.edges.forall(_._2.isEmpty))
None
else
result
}
}