/**
* @ast method
* @aspect GenerateClassfile
* @declaredat /home/uoji/JastAddJ/Java1.4Backend/GenerateClassfile.jrag:142
*/
public void generateClassfile() {
super.generateClassfile();
String fileName = destinationPath() + File.separator + constantPoolName() + ".class";
if (options().verbose()) System.out.println("Writing class file to " + fileName);
try {
ConstantPool cp = constantPool();
// force building of constant pool
cp.addClass(constantPoolName());
cp.addClass("java/lang/Object");
for (int i = 0; i < getNumSuperInterfaceId(); i++) {
cp.addClass(getSuperInterfaceId(i).type().constantPoolName());
}
for (Iterator iter = bcFields().iterator(); iter.hasNext(); ) {
FieldDeclaration field = (FieldDeclaration) iter.next();
cp.addUtf8(field.name());
cp.addUtf8(field.type().typeDescriptor());
field.attributes();
}
for (Iterator iter = bcMethods().iterator(); iter.hasNext(); ) {
Object obj = iter.next();
if (obj instanceof MethodDecl) {
MethodDecl m = (MethodDecl) obj;
cp.addUtf8(m.name());
cp.addUtf8(m.descName());
m.attributes();
}
}
attributes();
if (hasClinit()) {
cp.addUtf8("<clinit>");
cp.addUtf8("()V");
clinit_attributes();
}
// actual classfile generation
File dest = new File(fileName);
File parentFile = dest.getParentFile();
if (parentFile != null) parentFile.mkdirs();
FileOutputStream f = new FileOutputStream(fileName);
DataOutputStream out = new DataOutputStream(new BufferedOutputStream(f));
out.writeInt(magicHeader());
out.writeChar(minorVersion());
out.writeChar(majorVersion());
cp.emit(out);
int flags = flags();
if (isNestedType()) flags = mangledFlags(flags);
if (isInterfaceDecl()) flags |= Modifiers.ACC_INTERFACE;
out.writeChar(flags);
out.writeChar(cp.addClass(constantPoolName()));
out.writeChar(cp.addClass("java/lang/Object"));
if (getNumSuperInterfaceId() == 1 && getSuperInterfaceId(0).type().isObject())
out.writeChar(0);
else out.writeChar(getNumSuperInterfaceId());
for (int i = 0; i < getNumSuperInterfaceId(); i++) {
TypeDecl typeDecl = getSuperInterfaceId(i).type();
if (typeDecl.isInterfaceDecl()) out.writeChar(cp.addClass(typeDecl.constantPoolName()));
}
Collection fields = bcFields();
out.writeChar(fields.size());
for (Iterator iter = fields.iterator(); iter.hasNext(); ) {
FieldDeclaration field = (FieldDeclaration) iter.next();
out.writeChar(field.flags());
out.writeChar(cp.addUtf8(field.name()));
out.writeChar(cp.addUtf8(field.type().typeDescriptor()));
out.writeChar(field.attributes().size());
for (Iterator itera = field.attributes().iterator(); itera.hasNext(); )
((Attribute) itera.next()).emit(out);
}
Collection methods = bcMethods();
out.writeChar(methods.size() + (hasClinit() ? 1 : 0));
for (Iterator iter = methods.iterator(); iter.hasNext(); ) {
BodyDecl b = (BodyDecl) iter.next();
b.generateMethod(out, cp);
}
if (hasClinit()) {
out.writeChar(Modifiers.ACC_STATIC);
out.writeChar(cp.addUtf8("<clinit>"));
out.writeChar(cp.addUtf8("()V"));
out.writeChar(clinit_attributes().size());
for (Iterator itera = clinit_attributes().iterator(); itera.hasNext(); )
((Attribute) itera.next()).emit(out);
}
out.writeChar(attributes().size());
for (Iterator itera = attributes().iterator(); itera.hasNext(); )
((Attribute) itera.next()).emit(out);
out.close();
} catch (IOException e) {
e.printStackTrace();
}
}
@Override
protected ClassDecl contributeBody(
ClassDecl decl, ImportManager importManager, TreeClassDescriptor[] arg) {
importManager.addImports(
listOf(
importDecl(qualifiedName("org.jlato.internal.bu")).setOnDemand(true),
importDecl(qualifiedName("org.jlato.internal.bu.coll")).setOnDemand(true),
importDecl(qualifiedName("org.jlato.internal.bu.decl")).setOnDemand(true),
importDecl(qualifiedName("org.jlato.internal.bu.expr")).setOnDemand(true),
importDecl(qualifiedName("org.jlato.internal.bu.name")).setOnDemand(true),
importDecl(qualifiedName("org.jlato.internal.bu.stmt")).setOnDemand(true),
importDecl(qualifiedName("org.jlato.internal.bu.type")).setOnDemand(true),
importDecl(qualifiedName("org.jlato.internal.parser.Token")),
importDecl(qualifiedName("org.jlato.internal.parser.TokenType")),
importDecl(qualifiedName("org.jlato.tree.Problem.Severity")),
importDecl(qualifiedName("org.jlato.parser.ParseException")),
importDecl(qualifiedName("org.jlato.tree.expr.AssignOp")),
importDecl(qualifiedName("org.jlato.tree.expr.BinaryOp")),
importDecl(qualifiedName("org.jlato.tree.expr.UnaryOp")),
importDecl(qualifiedName("org.jlato.tree.decl.ModifierKeyword")),
importDecl(qualifiedName("org.jlato.tree.type.Primitive"))));
List<GProduction> allProductions = productions.getAll();
int memoizedProductionCount = MEMOIZE_ALL_MATCHES ? allProductions.size() : 0;
if (!MEMOIZE_ALL_MATCHES) {
for (GProduction production : allProductions) {
if (production.memoizeMatches) memoizedProductionCount++;
}
}
NodeList<MemberDecl> members = Trees.emptyList();
members =
members.append(
memberDecl(
"protected int memoizedProductionCount() { return "
+ memoizedProductionCount
+ "; }")
.build());
for (GProduction production : allProductions) {
if (excluded(production)) continue;
parseMethods = parseMethods.append(parseMethod(importManager, production));
}
for (MethodDecl parseMethod : parseMethods) {
members = members.append(parseMethod);
String id = parseMethod.name().id();
int indexOfUnderscore = id.indexOf('_');
String symbol =
id.substring("parse".length(), indexOfUnderscore == -1 ? id.length() : indexOfUnderscore);
List<MethodDecl> methods = perSymbolMatchMethods.get(symbol);
if (methods != null) {
Collections.sort(methods, (m1, m2) -> m1.name().id().compareTo(m2.name().id()));
members = members.appendAll(listOf(methods));
}
}
return decl.withMembers(members);
}