/** * Maps a class name to another name in this hashtable. * The names are obtained with calling <code>Class.getName()</code>. * This method translates the given class names into the * internal form used in the JVM before putting it in * the hashtable. * * @param oldname the original class name * @param newname the substituted class name. */ public void put(CtClass oldname, CtClass newname) { put(oldname.getName(), newname.getName()); }
map.put(srcClass.getName(), declaring.getName()); try { boolean patch = false;
/** * Maps a class name to another name in this hashtable. * The names are obtained with calling <code>Class.getName()</code>. * This method translates the given class names into the * internal form used in the JVM before putting it in * the hashtable. * * @param oldname the original class name * @param newname the substituted class name. */ public void put(CtClass oldname, CtClass newname) { put(oldname.getName(), newname.getName()); }
map.put(srcClass.getName(), declaring.getName()); try { boolean patch = false;
index = n.length(); u = n.substring(0, index) + uid + n.substring(index); renames.put(n, u);
static void setBody0(CtClass srcClass, MethodInfo srcInfo, CtClass destClass, MethodInfo destInfo, ClassMap map) throws CannotCompileException { destClass.checkModify(); map = new ClassMap(map); map.put(srcClass.getName(), destClass.getName()); try { CodeAttribute cattr = srcInfo.getCodeAttribute(); if (cattr != null) { ConstPool cp = destInfo.getConstPool(); CodeAttribute ca = (CodeAttribute)cattr.copy(cp, map); destInfo.setCodeAttribute(ca); // a stack map table is copied to destInfo. } } catch (CodeAttribute.RuntimeCopyException e) { /* the exception may be thrown by copy() in CodeAttribute. */ throw new CannotCompileException(e); } destInfo.setAccessFlags(destInfo.getAccessFlags() & ~AccessFlag.ABSTRACT); destClass.rebuildClassFile(); }
static void setBody0(CtClass srcClass, MethodInfo srcInfo, CtClass destClass, MethodInfo destInfo, ClassMap map) throws CannotCompileException { destClass.checkModify(); map = new ClassMap(map); map.put(srcClass.getName(), destClass.getName()); try { CodeAttribute cattr = srcInfo.getCodeAttribute(); if (cattr != null) { ConstPool cp = destInfo.getConstPool(); CodeAttribute ca = (CodeAttribute)cattr.copy(cp, map); destInfo.setCodeAttribute(ca); // a stack map table is copied to destInfo. } } catch (CodeAttribute.RuntimeCopyException e) { /* the exception may be thrown by copy() in CodeAttribute. */ throw new CannotCompileException(e); } destInfo.setAccessFlags(destInfo.getAccessFlags() & ~AccessFlag.ABSTRACT); destClass.rebuildClassFile(); }
private static String addBodyMethod(CtClassType clazz, ClassFile classfile, CtMethod src) throws BadBytecode, CannotCompileException { Hashtable bodies = clazz.getHiddenMethods(); String bodyname = (String)bodies.get(src); if (bodyname == null) { do { bodyname = addedWrappedMethod + clazz.getUniqueNumber(); } while (classfile.getMethod(bodyname) != null); ClassMap map = new ClassMap(); map.put(src.getDeclaringClass().getName(), clazz.getName()); MethodInfo body = new MethodInfo(classfile.getConstPool(), bodyname, src.getMethodInfo2(), map); int acc = body.getAccessFlags(); body.setAccessFlags(AccessFlag.setPrivate(acc)); body.addAttribute(new SyntheticAttribute(classfile.getConstPool())); // a stack map is copied. rebuilding it is not needed. classfile.addMethod(body); bodies.put(src, bodyname); CtMember.Cache cache = clazz.hasMemberCache(); if (cache != null) cache.addMethod(new CtMethod(body, clazz)); } return bodyname; }
private static String addBodyMethod(CtClassType clazz, ClassFile classfile, CtMethod src) throws BadBytecode, CannotCompileException { Map<CtMethod,String> bodies = clazz.getHiddenMethods(); String bodyname = bodies.get(src); if (bodyname == null) { do { bodyname = addedWrappedMethod + clazz.getUniqueNumber(); } while (classfile.getMethod(bodyname) != null); ClassMap map = new ClassMap(); map.put(src.getDeclaringClass().getName(), clazz.getName()); MethodInfo body = new MethodInfo(classfile.getConstPool(), bodyname, src.getMethodInfo2(), map); int acc = body.getAccessFlags(); body.setAccessFlags(AccessFlag.setPrivate(acc)); body.addAttribute(new SyntheticAttribute(classfile.getConstPool())); // a stack map is copied. rebuilding it is not needed. classfile.addMethod(body); bodies.put(src, bodyname); CtMember.Cache cache = clazz.hasMemberCache(); if (cache != null) cache.addMethod(new CtMethod(body, clazz)); } return bodyname; }
/** * Maps a class name to another name in this hashtable. * The names are obtained with calling <code>Class.getName()</code>. * This method translates the given class names into the * internal form used in the JVM before putting it in * the hashtable. * * @param oldname the original class name * @param newname the substituted class name. */ public void put(CtClass oldname, CtClass newname) { put(oldname.getName(), newname.getName()); }
/** * Maps a class name to another name in this hashtable. * The names are obtained with calling <code>Class.getName()</code>. * This method translates the given class names into the * internal form used in the JVM before putting it in * the hashtable. * * @param oldname the original class name * @param newname the substituted class name. */ public void put(CtClass oldname, CtClass newname) { put(oldname.getName(), newname.getName()); }
/** * Maps a class name to another name in this hashtable. * The names are obtained with calling <code>Class.getName()</code>. * This method translates the given class names into the * internal form used in the JVM before putting it in * the hashtable. * * @param oldname the original class name * @param newname the substituted class name. */ public void put(CtClass oldname, CtClass newname) { put(oldname.getName(), newname.getName()); }
/** * Maps a class name to another name in this hashtable. * The names are obtained with calling <code>Class.getName()</code>. * This method translates the given class names into the * internal form used in the JVM before putting it in * the hashtable. * * @param oldname the original class name * @param newname the substituted class name. */ public void put(CtClass oldname, CtClass newname) { put(oldname.getName(), newname.getName()); }
/** * Maps a class name to another name in this hashtable. * The names are obtained with calling <code>Class.getName()</code>. * This method translates the given class names into the * internal form used in the JVM before putting it in * the hashtable. * * @param oldname the original class name * @param newname the substituted class name. */ public void put(CtClass oldname, CtClass newname) { put(oldname.getName(), newname.getName()); }
static void setBody0(CtClass srcClass, MethodInfo srcInfo, CtClass destClass, MethodInfo destInfo, ClassMap map) throws CannotCompileException { destClass.checkModify(); map = new ClassMap(map); map.put(srcClass.getName(), destClass.getName()); try { CodeAttribute cattr = srcInfo.getCodeAttribute(); if (cattr != null) { ConstPool cp = destInfo.getConstPool(); CodeAttribute ca = (CodeAttribute)cattr.copy(cp, map); destInfo.setCodeAttribute(ca); // a stack map table is copied to destInfo. } } catch (CodeAttribute.RuntimeCopyException e) { /* the exception may be thrown by copy() in CodeAttribute. */ throw new CannotCompileException(e); } destInfo.setAccessFlags(destInfo.getAccessFlags() & ~AccessFlag.ABSTRACT); }
static void setBody0(CtClass srcClass, MethodInfo srcInfo, CtClass destClass, MethodInfo destInfo, ClassMap map) throws CannotCompileException { destClass.checkModify(); map = new ClassMap(map); map.put(srcClass.getName(), destClass.getName()); try { CodeAttribute cattr = srcInfo.getCodeAttribute(); if (cattr != null) { ConstPool cp = destInfo.getConstPool(); CodeAttribute ca = (CodeAttribute)cattr.copy(cp, map); destInfo.setCodeAttribute(ca); // a stack map table is copied to destInfo. } } catch (CodeAttribute.RuntimeCopyException e) { /* the exception may be thrown by copy() in CodeAttribute. */ throw new CannotCompileException(e); } destInfo.setAccessFlags(destInfo.getAccessFlags() & ~AccessFlag.ABSTRACT); destClass.rebuildClassFile(); }
static void setBody0(CtClass srcClass, MethodInfo srcInfo, CtClass destClass, MethodInfo destInfo, ClassMap map) throws CannotCompileException { destClass.checkModify(); map = new ClassMap(map); map.put(srcClass.getName(), destClass.getName()); try { CodeAttribute cattr = srcInfo.getCodeAttribute(); if (cattr != null) { ConstPool cp = destInfo.getConstPool(); CodeAttribute ca = (CodeAttribute)cattr.copy(cp, map); destInfo.setCodeAttribute(ca); // a stack map table is copied to destInfo. } } catch (CodeAttribute.RuntimeCopyException e) { /* the exception may be thrown by copy() in CodeAttribute. */ throw new CannotCompileException(e); } destInfo.setAccessFlags(destInfo.getAccessFlags() & ~AccessFlag.ABSTRACT); destClass.rebuildClassFile(); }
static void setBody0(CtClass srcClass, MethodInfo srcInfo, CtClass destClass, MethodInfo destInfo, ClassMap map) throws CannotCompileException { destClass.checkModify(); map = new ClassMap(map); map.put(srcClass.getName(), destClass.getName()); try { CodeAttribute cattr = srcInfo.getCodeAttribute(); if (cattr != null) { ConstPool cp = destInfo.getConstPool(); CodeAttribute ca = (CodeAttribute)cattr.copy(cp, map); destInfo.setCodeAttribute(ca); // a stack map table is copied to destInfo. } } catch (CodeAttribute.RuntimeCopyException e) { /* the exception may be thrown by copy() in CodeAttribute. */ throw new CannotCompileException(e); } destInfo.setAccessFlags(destInfo.getAccessFlags() & ~AccessFlag.ABSTRACT); destClass.rebuildClassFile(); }
private static String addBodyMethod(CtClassType clazz, ClassFile classfile, CtMethod src) throws BadBytecode, CannotCompileException { Hashtable bodies = clazz.getHiddenMethods(); String bodyname = (String)bodies.get(src); if (bodyname == null) { do { bodyname = addedWrappedMethod + clazz.getUniqueNumber(); } while (classfile.getMethod(bodyname) != null); ClassMap map = new ClassMap(); map.put(src.getDeclaringClass().getName(), clazz.getName()); MethodInfo body = new MethodInfo(classfile.getConstPool(), bodyname, src.getMethodInfo2(), map); int acc = body.getAccessFlags(); body.setAccessFlags(AccessFlag.setPrivate(acc)); // a stack map is copied. rebuilding it is not needed. classfile.addMethod(body); bodies.put(src, bodyname); CtMember.Cache cache = clazz.hasMemberCache(); if (cache != null) cache.addMethod(new CtMethod(body, clazz)); } return bodyname; }
private static String addBodyMethod(CtClassType clazz, ClassFile classfile, CtMethod src) throws BadBytecode, CannotCompileException { Hashtable bodies = clazz.getHiddenMethods(); String bodyname = (String)bodies.get(src); if (bodyname == null) { do { bodyname = addedWrappedMethod + clazz.getUniqueNumber(); } while (classfile.getMethod(bodyname) != null); ClassMap map = new ClassMap(); map.put(src.getDeclaringClass().getName(), clazz.getName()); MethodInfo body = new MethodInfo(classfile.getConstPool(), bodyname, src.getMethodInfo2(), map); int acc = body.getAccessFlags(); body.setAccessFlags(AccessFlag.setPrivate(acc)); body.addAttribute(new SyntheticAttribute(classfile.getConstPool())); // a stack map is copied. rebuilding it is not needed. classfile.addMethod(body); bodies.put(src, bodyname); CtMember.Cache cache = clazz.hasMemberCache(); if (cache != null) cache.addMethod(new CtMethod(body, clazz)); } return bodyname; }