if (value instanceof String[]) { String[] typeconst = (String[]) value; av.visitEnum(name, typeconst[0], typeconst[1]); } else if (value instanceof AnnotationNode) { AnnotationNode an = (AnnotationNode) value; an.accept(av.visitAnnotation(name, an.desc)); } else if (value instanceof List) { AnnotationVisitor v = av.visitArray(name); List<?> array = (List<?>) value; for (int j = 0; j < array.size(); ++j) { accept(v, null, array.get(j)); v.visitEnd(); } else { av.visit(name, value);
/** * Visits the end of the annotation. */ public void visitEnd() { if (av != null) { av.visitEnd(); } } }
/** * Visits a primitive value of the annotation. * * @param name * the value name. * @param value * the actual value, whose type must be {@link Byte}, * {@link Boolean}, {@link Character}, {@link Short}, * {@link Integer} , {@link Long}, {@link Float}, {@link Double}, * {@link String} or {@link Type} or OBJECT or ARRAY sort. This * value can also be an array of byte, boolean, short, char, int, * long, float or double values (this is equivalent to using * {@link #visitArray visitArray} and visiting each array element * in turn, but is more convenient). */ public void visit(String name, Object value) { if (av != null) { av.visit(name, value); } }
/** * Visits an array value of the annotation. Note that arrays of primitive * types (such as byte, boolean, short, char, int, long, float or double) * can be passed as value to {@link #visit visit}. This is what * {@link ClassReader} does. * * @param name * the value name. * @return a visitor to visit the actual array value elements, or * <tt>null</tt> if this visitor is not interested in visiting these * values. The 'name' parameters passed to the methods of this * visitor are ignored. <i>All the array values must be visited * before calling other methods on this annotation visitor</i>. */ public AnnotationVisitor visitArray(String name) { if (av != null) { return av.visitArray(name); } return null; }
/** * Visits an enumeration value of the annotation. * * @param name * the value name. * @param desc * the class descriptor of the enumeration class. * @param value * the actual enumeration value. */ public void visitEnum(String name, String desc, String value) { if (av != null) { av.visitEnum(name, desc, value); } }
/** * Visits a nested annotation value of the annotation. * * @param name * the value name. * @param desc * the class descriptor of the nested annotation class. * @return a visitor to visit the actual nested annotation value, or * <tt>null</tt> if this visitor is not interested in visiting this * nested annotation. <i>The nested annotation value must be fully * visited before calling other methods on this annotation * visitor</i>. */ public AnnotationVisitor visitAnnotation(String name, String desc) { if (av != null) { return av.visitAnnotation(name, desc); } return null; }
@Override public void visitEnd() { p.visitAnnotationEnd(); super.visitEnd(); } }
@Override public void visit(final String name, final Object value) { p.visit(name, value); super.visit(name, value); }
@Override public AnnotationVisitor visitArray(String name) { AnnotationVisitor v = av.visitArray(name); return v == null ? null : (v == av ? this : new RemappingAnnotationAdapter(v, remapper)); } }
@Override public void visitEnum(final String name, final String desc, final String value) { p.visitEnum(name, desc, value); super.visitEnum(name, desc, value); }
@Override public AnnotationVisitor visitAnnotation(final String name, final String desc) { Printer p = this.p.visitAnnotation(name, desc); AnnotationVisitor av = this.av == null ? null : this.av .visitAnnotation(name, desc); return new TraceAnnotationVisitor(av, p); }
case 'F': // pointer to CONSTANT_Float case 'D': // pointer to CONSTANT_Double av.visit(name, readConst(readUnsignedShort(v), buf)); v += 2; break; case 'B': // pointer to CONSTANT_Byte av.visit(name, new Byte((byte) readInt(items[readUnsignedShort(v)]))); v += 2; break; case 'Z': // pointer to CONSTANT_Boolean av.visit(name, readInt(items[readUnsignedShort(v)]) == 0 ? Boolean.FALSE : Boolean.TRUE); break; case 'S': // pointer to CONSTANT_Short av.visit(name, new Short( (short) readInt(items[readUnsignedShort(v)]))); v += 2; break; case 'C': // pointer to CONSTANT_Char av.visit(name, new Character( (char) readInt(items[readUnsignedShort(v)]))); v += 2; break; case 's': // pointer to CONSTANT_Utf8 av.visit(name, readUTF8(v, buf)); v += 2;
/** * Makes the given visitor visit this annotation. * * @param av * an annotation visitor. Maybe <tt>null</tt>. */ public void accept(final AnnotationVisitor av) { if (av != null) { if (values != null) { for (int i = 0; i < values.size(); i += 2) { String name = (String) values.get(i); Object value = values.get(i + 1); accept(av, name, value); } } av.visitEnd(); } }
@Override public void visit(String name, Object value) { av.visit(name, remapper.mapValue(value)); }
@Override public AnnotationVisitor visitArray(final String name) { Printer p = this.p.visitArray(name); AnnotationVisitor av = this.av == null ? null : this.av .visitArray(name); return new TraceAnnotationVisitor(av, p); }
@Override public void visitEnum(String name, String desc, String value) { av.visitEnum(name, remapper.mapDesc(desc), value); }
@Override public AnnotationVisitor visitAnnotation(String name, String desc) { AnnotationVisitor v = av.visitAnnotation(name, remapper.mapDesc(desc)); return v == null ? null : (v == av ? this : new RemappingAnnotationAdapter(v, remapper)); }
@Override public void visitEnd() { if(!methodBodyOnly) { FieldVisitor fv = cw.visitField(Opcodes.ACC_PRIVATE, MANAGER_FIELD, MANAGER_TYPE.getDescriptor(), null, null); { AnnotationVisitor av = fv.visitAnnotation(INJECT_TYPE.getDescriptor(), true); av.visitEnd(); } fv.visitEnd(); } super.visitEnd(); }