private void processDefaultAnnotation(final Class<?> cmb) {
final DefaultImplementation di = cmb.getAnnotation(DefaultImplementation.class);
// XXX hack: move to helper method + unify with rest of Tang!
if (di != null) {
final String diName =
di.value() == Void.class ? di.name() : ReflectionUtilities.getFullName(di.value());
final ClassNode<?> cn = (ClassNode<?>) ch.getNode(cmb);
final String cnS = cn.getFullName();
if (!usages.contains(diName, cnS)) {
usages.put(diName, cnS);
if (!knownClasses.contains(cn)) {
knownClasses.add(cn);
}
}
}
}
public String toHtmlString(final ClassNode<?> n, final String pack) {
final String fullName = stripPrefix(n.getFullName(), pack);
final String type;
try {
if (ch.classForName(n.getFullName()).isInterface()) {
type = "interface";
} else {
type = "class";
}
} catch (final ClassNotFoundException e) {
throw new RuntimeException(e);
}
final StringBuffer sb = new StringBuffer();
sb.append("<div class='decl-margin' id='" + n.getFullName() + "'>");
sb.append("<div class='decl'>");
sb.append(cell(type, "simpleName") + cell(fullName, FULLNAME));
final String instance;
if (n.getDefaultImplementation() != null) {
instance = " = " + stripPrefix(n.getDefaultImplementation(), pack);
} else {
instance = "";
}
sb.append(cell(instance, "simpleName"));
sb.append(cell("", "fullName")); // TODO[REEF-1118]: Support documentation string
final StringBuffer uses = new StringBuffer();
for (final String u : getUsesOf(n)) {
uses.append("<a href='#" + u + "'>" + stripPrefix(u, pack) + "</a> ");
}
sb.append(cell(uses, USES));
final StringBuffer settersStr = new StringBuffer();
for (final String f : getSettersOf(n)) {
settersStr.append("<a href='#" + f + "'>" + stripPrefix(f, pack) + "</a> ");
}
sb.append(cell(settersStr, SETTERS));
sb.append("</div>");
sb.append("</div>");
return row(sb);
}
public Set<Node> getNamesUsedAndSet() {
final Set<Node> names = new MonotonicSet<>();
final Set<String> userKeys = usages.keySet();
final Set<String> usedKeys = usages.values();
final Set<String> setterKeys = setters.keySet();
final NodeVisitor<Node> v =
new AbstractClassHierarchyNodeVisitor() {
@Override
public boolean visit(final NamedParameterNode<?> node) {
names.add(node);
return true;
}
@Override
public boolean visit(final PackageNode node) {
return true;
}
@Override
public boolean visit(final ClassNode<?> node) {
final String nodeS = node.getFullName();
if (userKeys.contains(nodeS)) {
names.add(node);
}
if (setterKeys.contains(nodeS)) {
names.add(node);
}
if (usedKeys.contains(nodeS) && !names.contains(node)) {
names.add(node);
}
return true;
}
};
Walk.preorder(v, null, ch.getNamespace());
return names;
}
public Set<NamedParameterNode<?>> getNames() {
final Set<NamedParameterNode<?>> names = new MonotonicSet<>();
final NodeVisitor<Node> v =
new AbstractClassHierarchyNodeVisitor() {
@Override
public boolean visit(final NamedParameterNode<?> node) {
names.add(node);
return true;
}
@Override
public boolean visit(final PackageNode node) {
return true;
}
@Override
public boolean visit(final ClassNode<?> node) {
return true;
}
};
Walk.preorder(v, null, ch.getNamespace());
return names;
}
@SuppressWarnings("unchecked")
public Tint(final URL[] jars, final boolean checkTang) {
final Object[] args = new Object[jars.length + 6];
for (int i = 0; i < jars.length; i++) {
args[i] = jars[i];
}
args[args.length - 1] = new TypeAnnotationsScanner();
args[args.length - 2] = new SubTypesScanner();
args[args.length - 3] = new MethodAnnotationsScanner();
args[args.length - 4] = new MethodParameterScanner();
args[args.length - 5] = "com.microsoft";
args[args.length - 6] = "org.apache";
final Reflections r = new Reflections(args);
// Set<Class<?>> classes = new MonotonicSet<>();
final Set<String> strings = new TreeSet<>();
final Set<String> moduleBuilders = new MonotonicSet<>();
// Workaround bug in Reflections by keeping things stringly typed, and using Tang to parse them.
// Set<Constructor<?>> injectConstructors =
// (Set<Constructor<?>>)(Set)r.getMethodsAnnotatedWith(Inject.class);
// for(Constructor<?> c : injectConstructors) {
// classes.add(c.getDeclaringClass());
// }
final Set<String> injectConstructors =
r.getStore().getConstructorsAnnotatedWith(ReflectionUtilities.getFullName(Inject.class));
for (final String s : injectConstructors) {
strings.add(s.replaceAll("\\.<.+$", ""));
}
final Set<String> parameterConstructors =
r.getStore()
.get(MethodParameterScanner.class, ReflectionUtilities.getFullName(Parameter.class));
for (final String s : parameterConstructors) {
strings.add(s.replaceAll("\\.<.+$", ""));
}
// Set<Class> r.getConstructorsWithAnyParamAnnotated(Parameter.class);
// for(Constructor<?> c : parameterConstructors) {
// classes.add(c.getDeclaringClass());
// }
final Set<String> defaultStrings =
r.getStore()
.get(
TypeAnnotationsScanner.class,
ReflectionUtilities.getFullName(DefaultImplementation.class));
strings.addAll(defaultStrings);
strings.addAll(
r.getStore()
.get(
TypeAnnotationsScanner.class,
ReflectionUtilities.getFullName(NamedParameter.class)));
strings.addAll(
r.getStore()
.get(TypeAnnotationsScanner.class, ReflectionUtilities.getFullName(Unit.class)));
// classes.addAll(r.getTypesAnnotatedWith(DefaultImplementation.class));
// classes.addAll(r.getTypesAnnotatedWith(NamedParameter.class));
// classes.addAll(r.getTypesAnnotatedWith(Unit.class));
strings.addAll(
r.getStore().get(SubTypesScanner.class, ReflectionUtilities.getFullName(Name.class)));
moduleBuilders.addAll(
r.getStore()
.get(
SubTypesScanner.class,
ReflectionUtilities.getFullName(ConfigurationModuleBuilder.class)));
// classes.addAll(r.getSubTypesOf(Name.class));
ch =
Tang.Factory.getTang()
.getDefaultClassHierarchy(
jars, (Class<? extends ExternalConstructor<?>>[]) new Class[0]);
// for(String s : defaultStrings) {
// if(classFilter(checkTang, s)) {
// try {
// ch.getNode(s);
// } catch(ClassHierarchyException | NameResolutionException | ClassNotFoundException e)
// {
// System.err.println(e.getMessage());
// }
// }
// }
for (final String s : strings) {
if (classFilter(checkTang, s)) {
try {
ch.getNode(s);
} catch (ClassHierarchyException | NameResolutionException e) {
System.err.println(e.getMessage());
}
}
}
for (final String s : moduleBuilders) {
if (classFilter(checkTang, s)) {
try {
ch.getNode(s);
} catch (ClassHierarchyException | NameResolutionException e) {
e.printStackTrace();
}
}
}
final NodeVisitor<Node> v =
new AbstractClassHierarchyNodeVisitor() {
@Override
public boolean visit(final NamedParameterNode<?> node) {
final String nodeS = node.getFullName();
for (final String s : node.getDefaultInstanceAsStrings()) {
if (!usages.contains(s, nodeS)) {
usages.put(s, nodeS);
}
}
return true;
}
@Override
public boolean visit(final PackageNode node) {
return true;
}
@Override
public boolean visit(final ClassNode<?> node) {
final String nodeS = node.getFullName();
for (final ConstructorDef<?> d : node.getInjectableConstructors()) {
for (final ConstructorArg a : d.getArgs()) {
if (a.getNamedParameterName() != null
&& !usages.contains(a.getNamedParameterName(), nodeS)) {
usages.put(a.getNamedParameterName(), nodeS);
}
}
}
if (!knownClasses.contains(node)) {
knownClasses.add(node);
}
return true;
}
};
int numClasses;
do {
numClasses = knownClasses.size();
Walk.preorder(v, null, ch.getNamespace());
for (final ClassNode<?> cn : knownClasses) {
try {
final String s = cn.getFullName();
if (classFilter(checkTang, s)) {
final Class<?> c = ch.classForName(s);
processDefaultAnnotation(c);
processConfigurationModules(c);
}
} catch (final ClassNotFoundException e) {
e.printStackTrace();
}
}
for (final Entry<Field, ConfigurationModule> entry : modules.entrySet()) {
final String fS = ReflectionUtilities.getFullName(entry.getKey());
final Set<NamedParameterNode<?>> nps = entry.getValue().getBoundNamedParameters();
for (final NamedParameterNode<?> np : nps) {
final String npS = np.getFullName();
if (!setters.contains(npS, fS)) {
setters.put(npS, fS);
}
}
}
} while (numClasses
!= knownClasses
.size()); // Note naive fixed point evaluation here. Semi-naive would be faster.
}
private void processConfigurationModules(final Class<?> cmb) {
for (final Field f : cmb.getFields()) {
if (ReflectionUtilities.isCoercable(ConfigurationModule.class, f.getType())) {
final int mod = f.getModifiers();
boolean ok = true;
if (Modifier.isPrivate(mod)) {
System.err.println("Found private ConfigurationModule " + f);
ok = false;
}
if (!Modifier.isFinal(mod)) {
System.err.println("Found non-final ConfigurationModule " + f);
ok = false;
}
if (!Modifier.isStatic(f.getModifiers())) {
System.err.println("Found non-static ConfigurationModule " + f);
ok = false;
}
if (ok) {
// System.err.println("OK: " + f);
try {
f.setAccessible(true);
final String fS = ReflectionUtilities.getFullName(f);
if (!modules.containsKey(f)) {
modules.put(f, (ConfigurationModule) (f.get(null)));
try {
modules.get(f).assertStaticClean();
} catch (final ClassHierarchyException e) {
System.err.println(fS + ": " + e.getMessage());
}
for (final Entry<String, String> e : modules.get(f).toStringPairs()) {
// System.err.println("e: " + e.getKey() + "=" + e.getValue());
try {
final Node n = ch.getNode(e.getKey());
if (!setters.contains(e.getKey(), fS)) {
setters.put(e.getKey(), fS);
}
if (n instanceof ClassNode) {
final ClassNode<?> cn = (ClassNode<?>) n;
if (!knownClasses.contains(cn)) {
knownClasses.add(cn);
}
}
} catch (final NameResolutionException ex) {
//
}
try {
final String s = e.getValue();
final Node n = ch.getNode(s);
if (!usages.contains(ReflectionUtilities.getFullName(f), s)) {
// System.err.println("Added usage: " + ReflectionUtilities.getFullName(f) +
// "=" + s);
usages.put(s, ReflectionUtilities.getFullName(f));
}
if (n instanceof ClassNode) {
final ClassNode<?> cn = (ClassNode<?>) n;
if (!knownClasses.contains(cn)) {
System.err.println("Added " + cn + " to known classes");
knownClasses.add(cn);
}
}
} catch (final NameResolutionException ex) {
//
}
}
}
} catch (final ExceptionInInitializerError e) {
System.err.println(
"Field " + ReflectionUtilities.getFullName(f) + ": " + e.getCause().getMessage());
} catch (final IllegalAccessException e) {
throw new RuntimeException(e);
}
}
}
}
}