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package com.sun.tools.jdeps;
import java.io.IOException;
import java.io.PrintWriter;
import java.lang.module.ModuleDescriptor;
import java.util.Comparator;
import java.util.HashMap;
import java.util.HashSet;
import java.util.Map;
import java.util.Set;
import java.util.TreeSet;
import java.util.stream.Collectors;
import java.util.stream.Stream;
/**
* Analyze module dependences and any reference to JDK internal APIs.
* It can apply transition reduction on the resulting module graph.
*
* The result prints one line per module it depends on
* one line per JDK internal API package it references:
* $MODULE[/$PACKAGE]
*
*/
public class ModuleExportsAnalyzer extends DepsAnalyzer {
// source archive to its dependences and JDK internal APIs it references
private final Map<Archive, Map<Archive,Set<String>>> deps = new HashMap<>();
private final Map<String, Set<String>> missingDeps = new HashMap<>();
private final boolean showInternals;
private final boolean reduced;
private final PrintWriter writer;
private final String separator;
public ModuleExportsAnalyzer(JdepsConfiguration config,
JdepsFilter filter,
boolean showInternals,
boolean reduced,
PrintWriter writer,
String separator) {
super(config, filter, null,
Analyzer.Type.PACKAGE,
false /* all classes */);
this.showInternals = showInternals;
this.reduced = reduced;
this.writer = writer;
this.separator = separator;
}
public boolean run(int maxDepth, boolean ignoreMissingDeps) throws IOException {
// use compile time view so that the entire archive on classpath is analyzed
boolean rc = super.run(true, maxDepth);
// A visitor to record the module-level dependences as well as
// use of internal APIs
Analyzer.Visitor visitor = (origin, originArchive, target, targetArchive) -> {
Set<String> internals =
deps.computeIfAbsent(originArchive, _k -> new HashMap<>())
.computeIfAbsent(targetArchive, _k -> new HashSet<>());
Module module = targetArchive.getModule();
if (showInternals && originArchive.getModule() != module &&
module.isNamed() && !module.isExported(target, module.name())) {
// use of internal APIs
internals.add(target);
}
if (!ignoreMissingDeps && Analyzer.notFound(targetArchive)) {
Set<String> notFound =
missingDeps.computeIfAbsent(origin, _k -> new HashSet<>());
notFound.add(target);
}
};
// visit the dependences
archives.stream()
.filter(analyzer::hasDependences)
.sorted(Comparator.comparing(Archive::getName))
.forEach(archive -> analyzer.visitDependences(archive, visitor));
// error if any missing dependence
if (!rc || !missingDeps.isEmpty()) {
return false;
}
Map<Module, Set<String>> internalPkgs = internalPackages();
Set<Module> modules = modules();
if (showInternals) {
// print modules and JDK internal API dependences
Stream.concat(modules.stream(), internalPkgs.keySet().stream())
.sorted(Comparator.comparing(Module::name))
.distinct()
.forEach(m -> {
if (internalPkgs.containsKey(m)) {
internalPkgs.get(m).stream()
.forEach(pn -> writer.format(" %s/%s%s", m, pn, separator));
} else {
writer.format(" %s%s", m, separator);
}
});
} else {
// print module dependences
writer.println(modules.stream().map(Module::name).sorted()
.collect(Collectors.joining(separator)));
}
return rc;
}
/*
* Prints missing dependences
*/
void visitMissingDeps(Analyzer.Visitor visitor) {
archives.stream()
.filter(analyzer::hasDependences)
.sorted(Comparator.comparing(Archive::getName))
.filter(m -> analyzer.requires(m).anyMatch(Analyzer::notFound))
.forEach(m -> {
analyzer.visitDependences(m, visitor, Analyzer.Type.VERBOSE, Analyzer::notFound);
});
}
private Set<Module> modules() {
// build module graph
ModuleGraphBuilder builder = new ModuleGraphBuilder(configuration);
Module root = new RootModule();
builder.addModule(root);
// find named module dependences
dependenceStream()
.flatMap(map -> map.keySet().stream())
.filter(m -> m.getModule().isNamed() && !configuration.rootModules().contains(m))
.map(Archive::getModule)
.forEach(m -> builder.addEdge(root, m));
// build module dependence graph
// if reduced is set, apply transition reduction
Graph<Module> g = reduced ? builder.reduced() : builder.build();
return g.adjacentNodes(root);
}
private Map<Module, Set<String>> internalPackages() {
Map<Module, Set<String>> internalPkgs = new HashMap<>();
dependenceStream()
.flatMap(map -> map.entrySet().stream())
.filter(e -> e.getValue().size() > 0)
.forEach(e -> internalPkgs.computeIfAbsent(e.getKey().getModule(),
_k -> new TreeSet<>())
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