From 554fd8c5195424bdbcabf5de30fdc183aba391bd Mon Sep 17 00:00:00 2001 From: upstream source tree Date: Sun, 15 Mar 2015 20:14:05 -0400 Subject: obtained gcc-4.6.4.tar.bz2 from upstream website; verified gcc-4.6.4.tar.bz2.sig; imported gcc-4.6.4 source tree from verified upstream tarball. downloading a git-generated archive based on the 'upstream' tag should provide you with a source tree that is binary identical to the one extracted from the above tarball. if you have obtained the source via the command 'git clone', however, do note that line-endings of files in your working directory might differ from line-endings of the respective files in the upstream repository. --- .../gnu/java/beans/encoder/ScanEngine.java | 860 +++++++++++++++++++++ 1 file changed, 860 insertions(+) create mode 100644 libjava/classpath/gnu/java/beans/encoder/ScanEngine.java (limited to 'libjava/classpath/gnu/java/beans/encoder/ScanEngine.java') diff --git a/libjava/classpath/gnu/java/beans/encoder/ScanEngine.java b/libjava/classpath/gnu/java/beans/encoder/ScanEngine.java new file mode 100644 index 000000000..9ced143f0 --- /dev/null +++ b/libjava/classpath/gnu/java/beans/encoder/ScanEngine.java @@ -0,0 +1,860 @@ +/* ScanEngine.java + -- Scans the input and generates an object tree that can be written as XML. + Copyright (C) 2005 Free Software Foundation, Inc. + + This file is part of GNU Classpath. + + GNU Classpath is free software; you can redistribute it and/or modify + it under the terms of the GNU General Public License as published by + the Free Software Foundation; either version 2, or (at your option) + any later version. + + GNU Classpath is distributed in the hope that it will be useful, but + WITHOUT ANY WARRANTY; without even the implied warranty of + MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU + General Public License for more details. + + You should have received a copy of the GNU General Public License + along with GNU Classpath; see the file COPYING. If not, write to the + Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA + 02110-1301 USA. + + Linking this library statically or dynamically with other modules is + making a combined work based on this library. Thus, the terms and + conditions of the GNU General Public License cover the whole + combination. + + As a special exception, the copyright holders of this library give you + permission to link this library with independent modules to produce an + executable, regardless of the license terms of these independent + modules, and to copy and distribute the resulting executable under + terms of your choice, provided that you also meet, for each linked + independent module, the terms and conditions of the license of that + module. An independent module is a module which is not derived from + or based on this library. If you modify this library, you may extend + this exception to your version of the library, but you are not + obligated to do so. If you do not wish to do so, delete this + exception statement from your version. */ + + +package gnu.java.beans.encoder; + +import java.beans.Expression; +import java.beans.Statement; +import java.io.OutputStream; +import java.lang.reflect.Array; +import java.util.HashMap; +import java.util.IdentityHashMap; +import java.util.List; +import java.util.Stack; + +/**

The ScanEngine is the main class of the backend of the + * XML persistence algorithm. It scans {@link java.beans.Expression} and + * {@link java.beans.Statement} instances and some raw objects via the + * {@link #writeObject} method and feeds it to a state machine. The + * state machine then constructs and object tree which is finally + * written as XML by a {@link Writer} implementation.

+ * + *

How does it work?

+ *

The ScanEngine sits below the {@link java.beans.XMLEncoder} + * class and is called by it exclusively. The XMLEncoder sends + * interpretive data by invoking {@link #writeExpression}, {@link #writeStatement} + * and {@link #writeObject}. The invocations of writeExpression and + * writeStatement are usually nested into each other and provide + * more information then necessary to generate the XML representation. + * Furthermore the meaning of certain Expressions differs + * depending on the enclosing elements or the inner elements have to be + * simply discarded.

+ * + *

To cope with this state dependant nature the ScanEngine + * contains a state machine which is programmed statically (no adjustments are + * needed, all ScanEngine engines use the same setup). The + * ScanEngine's job is to decode the Expressions, + * Statements and certain objects (namely String, + * null objects and instances which are repeatedly provided to + * the encoder) into 13 low-level (event) methods, which denote the meaning of the + * argument. For example an Expression can be an array + * instantiation which provokes a call to {@link arrayInstantiation} or + * it can be a class resolution leading to a call to {@link #classResolution}. + * For the state machione the 13 methods are the distinct way to transit + * from one state to another. Whenever the ScanEngine calls + * one of the event methods the current's state successor for that event + * is fetched from the state machine configuration, the successpr becomes + * the current state and then the event method is called in the new current + * state. The last step allows the state instance to do something meaningful + * to the object tree.

+ * + *

The state machine knows the concept of returning to the previous + * state. This is done using a stack of states which is popped every + * time a call to writeStatement, writeExpression + * in the XMLEncoder ends by calling the {@link #end} method. + * Note that due to the inheritance relationship of Encoder + * and XMLEncoder it is impossible for the + * ScanEngine itself to decide when an expression or statement + * ended. This can only be done in case of {@link #writeObject} calls because + * they are not nested.

+ * + *

When the XML persistence mechanism reaches an object twice (and more) + * it should generate an XML element using the "idref" attribute and add + * an "id" attribute to its first instantiation. This complicates things a bit + * because the first instantiation will always be part of the object tree + * as some {@link gnu.java.beans.encoder.elements.Element} subclass instance when the + * second and further objects accesses are written. Therefore the {@link ObjectId} + * class was introduced which is shared between all the object tree elements + * and has the notion of an "unused" state meaning that no identification + * is needed. The relationship between an object and its ObjectId + * instance is stored in the ScanEngine and gets cleared whenever + * the {@link #flush} method is called. This method also writes the currently + * built object tree and generates the XML representation.

+ * + * @author Robert Schuster (robertschuster@fsfe.org) + */ +public class ScanEngine +{ + + /** Change this to true to let the ScanEngine print state transition + * information. + */ + boolean DEBUG = false; + + /** + * Stores the scanner engine states as values and their names as keys. + */ + HashMap states = new HashMap(); + + /** + * Stores former scanner state and makes it possible to come back to them. + */ + Stack parents = new Stack(); + + /** + * The currently active scanner state. + */ + ScannerState current; + + /** + * The root of an object tree that is later written to XML. + */ + Root root; + + /** + * The Writer used to generate the XML output. + */ + Writer writer; + + /** Stores the relationship between objects and their {@link ObjectId} instance. + */ + IdentityHashMap objects = new IdentityHashMap(); + + public ScanEngine(OutputStream os) + { + // TODO: Provide another Writer implementation (e.g. one that does not use + // the XML APIs at all). + writer = new StAXWriter(os); + root = new Root(); + + final ScannerState start = current = new GenericScannerState(root); + ScannerState conf; + + // Use the ReportingScannerState to debug serialization issues. + register(ScannerState.DEFAULT_STATE_NAME, new IgnoringScannerState()); + + register("start", start); + + // Special dead-end state where all transitions are ignored. + register("ignoreAll", new IgnoringScannerState()) + .setDefaultSuccessor("ignoreAll"); + + // Object reference, string reference, null object + start.putSuccessor(ScannerState.TRANSITION_OBJECT_REFERENCE, "simple"); + start.putSuccessor(ScannerState.TRANSITION_STRING_REFERENCE, "simple"); + start.putSuccessor(ScannerState.TRANSITION_NULL_OBJECT, "simple"); + register("simple", new GenericScannerState(root)) + .setDefaultSuccessor("ignoreAll"); + + // Class resolution. + start.putSuccessor(ScannerState.TRANSITION_CLASS_RESOLUTION, "classRes0"); + register("classRes0", + new GenericScannerState(root)).setDefaultSuccessor("ignoreAll"); + + // Object instantiation. + start.putSuccessor(ScannerState.TRANSITION_OBJECT_INSTANTIATION, + "newObj0"); + conf = register("newObj0", new GenericScannerState(root)); + conf.setDefaultSuccessor("ignoreAll"); + + // Simply use the start state to encode method invocations inside of + // objects. + conf.putSuccessor(ScannerState.TRANSITION_METHOD_INVOCATION, "start"); + + // Primitive instantiations. + start.putSuccessor(ScannerState.TRANSITION_PRIMITIVE_INSTANTIATION, + "newPrimitive0"); + register("newPrimitive0", + new GenericScannerState(root)).setDefaultSuccessor("ignoreAll"); + + // Object arrays use the ARRAY_GET transition to create setting the + // array values. + start.putSuccessor(ScannerState.TRANSITION_OBJECT_ARRAY_INSTANTIATION, + "newObjectArray"); + conf = register("newObjectArray", new GenericScannerState(root)); + conf.putSuccessor(ScannerState.TRANSITION_ARRAY_GET, "newOArrayGet"); + conf.putSuccessor(ScannerState.TRANSITION_ARRAY_SET, "ignoreAll"); + conf.putSuccessor(ScannerState.TRANSITION_CLASS_RESOLUTION, "ignoreAll"); + conf.putSuccessor(ScannerState.TRANSITION_PRIMITIVE_INSTANTIATION, + "ignoreAll"); + + // Get here when a value is set in the array. + register("newOArrayGet", + conf = new GenericScannerState(root)); + + conf.putSuccessor(ScannerState.TRANSITION_PRIMITIVE_INSTANTIATION, + "newOArrayGet_ignoreFirstInteger"); + + // "newArrayGet_ignoreFirstInteger" is set up mostly identical like the "start" + // state. Otherwise things would not behave the same when done inside + // arrays. + conf.putSuccessor(ScannerState.TRANSITION_OBJECT_REFERENCE, "simple"); + conf.putSuccessor(ScannerState.TRANSITION_STRING_REFERENCE, "simple"); + conf.putSuccessor(ScannerState.TRANSITION_NULL_OBJECT, "simple"); + conf.putSuccessor(ScannerState.TRANSITION_CLASS_RESOLUTION, "classRes0"); + conf.putSuccessor(ScannerState.TRANSITION_OBJECT_INSTANTIATION, "newObj0"); + conf.putSuccessor(ScannerState.TRANSITION_PRIMITIVE_ARRAY_INSTANTIATION, + "newPrimitiveArray"); + conf.putSuccessor(ScannerState.TRANSITION_OBJECT_ARRAY_INSTANTIATION, + "newObjectArray"); + + conf = register("newOArrayGet_ignoreFirstInteger", + new GenericScannerState(root, 1)); + + // In non-int primitive arrays class resolutions can happen + // but they should be ignored. + conf.putSuccessor(ScannerState.TRANSITION_CLASS_RESOLUTION, "ignoreAll"); + + // Spurious object and string references occur when setting array + // elements. This suppresses them. + conf.putSuccessor(ScannerState.TRANSITION_PRIMITIVE_INSTANTIATION, + "ignoreAll"); + conf.putSuccessor(ScannerState.TRANSITION_OBJECT_REFERENCE, "ignoreAll"); + conf.putSuccessor(ScannerState.TRANSITION_STRING_REFERENCE, "ignoreAll"); + + conf.setDefaultSuccessor("start"); + + // Primitive arrays use the ARRAY_SET transition to create setting the + // array values. This turned out to be the only working solution. + // When primitive arrays were handled by ARRAY_GET the values in boolean + // arrays were always skipped. + start.putSuccessor(ScannerState.TRANSITION_PRIMITIVE_ARRAY_INSTANTIATION, + "newPrimitiveArray"); + conf = register("newPrimitiveArray", new GenericScannerState(root)); + conf.putSuccessor(ScannerState.TRANSITION_ARRAY_GET, "ignoreAll"); + conf.putSuccessor(ScannerState.TRANSITION_ARRAY_SET, "newPArraySet"); + conf.putSuccessor(ScannerState.TRANSITION_CLASS_RESOLUTION, "ignoreAll"); + conf.putSuccessor(ScannerState.TRANSITION_PRIMITIVE_INSTANTIATION, + "ignoreAll"); + + conf = register("newPArraySet", new GenericScannerState(root)); + conf.putSuccessor(ScannerState.TRANSITION_PRIMITIVE_INSTANTIATION, + "newPArraySet_ignoreFirstInteger"); + + // Primitive arrays ignore all kinds of non-primitive object information. + conf.putSuccessor(ScannerState.TRANSITION_OBJECT_REFERENCE, + "ignoreAll"); + conf.putSuccessor(ScannerState.TRANSITION_STRING_REFERENCE, "ignoreAll"); + conf.putSuccessor(ScannerState.TRANSITION_NULL_OBJECT, "ignoreAll"); + conf.putSuccessor(ScannerState.TRANSITION_CLASS_RESOLUTION, "ingoreAll"); + conf.putSuccessor(ScannerState.TRANSITION_OBJECT_INSTANTIATION, "ignoreAll"); + conf.putSuccessor(ScannerState.TRANSITION_PRIMITIVE_ARRAY_INSTANTIATION, + "ignoreAll"); + conf.putSuccessor(ScannerState.TRANSITION_OBJECT_ARRAY_INSTANTIATION, + "ignoreAll"); + + conf = register("newPArraySet_ignoreFirstInteger", + new GenericScannerState(root, 1)); + + // In non-int primitive arrays class resolutions can happen + // but they should be ignored. + conf.putSuccessor(ScannerState.TRANSITION_CLASS_RESOLUTION, "ignoreAll"); + + // Spurious object and string references occur when setting array + // elements. This suppresses them. + conf.putSuccessor(ScannerState.TRANSITION_PRIMITIVE_INSTANTIATION, + "ignoreAll"); + conf.putSuccessor(ScannerState.TRANSITION_OBJECT_REFERENCE, "ignoreAll"); + conf.putSuccessor(ScannerState.TRANSITION_STRING_REFERENCE, "ignoreAll"); + conf.setDefaultSuccessor("start"); + + } + + /** Registers a ScannerState under a certain name. + * + * @param name Name of the state + * @param state The ScannerState instance. + * @return The second argument. + */ + private ScannerState register(String name, ScannerState state) + { + state.init(name); + + states.put(name, state); + + return state; + } + + /** Generates or returns an id for the given object which can be activated + * later if the object is suitable. + * + *

Objects are unsuitable if they are an instance of a primitive wrapper + * or String.

+ * + * @param value The object to retrieve an id for. + * @return The id for the object or null. + */ + private ObjectId retrieveId(Object value) + { + Class valueClass = value.getClass(); + ObjectId id = null; + + // Although multiple accesses to Class objects are not handled + // through ids we generate one for them, too. This allows us to detect + // second time references to such objects in the writeObject method + // and handle them in a special way. + if (valueClass != String.class + && valueClass.getSuperclass() != Number.class + && valueClass != Boolean.class) + { + if ((id = (ObjectId) objects.get(value)) == null) + { + id = new ObjectId(valueClass); + objects.put(value, id); + } + } + + return id; + } + + /** Scans the argument and calls one of event methods. See + * the introduction of this class for details. + * + * @param expr The expression to serialize. + */ + public void writeExpression(Expression expr) + { + String methodName = expr.getMethodName(); + Object[] args = expr.getArguments(); + Object target = expr.getTarget(); + Object value = null; + + try + { + value = expr.getValue(); + } + catch (Exception e) + { + throw (InternalError) + new InternalError( + "The Expression's value should be available at this point.") + .initCause(e); + } + + // TODO: What if the value is null? + ObjectId id; + Class valueClass = value.getClass(); + + if (target == Array.class) + { + if (methodName.equals("newInstance")) + { + id = retrieveId(value); + + Class ct = (Class) args[0]; + + if (ct.isPrimitive() || ct == Boolean.class || ct == Byte.class + || ct == Short.class || ct == Integer.class || ct == Long.class + || ct == Float.class || ct == Double.class) + primitiveArrayInstantiation(ct.getName(), + args[1].toString(), + id); + else + objectArrayInstantiation(ct.getName(), + args[1].toString(), + id); + + return; + } + else if (methodName.equals("get")) + { + arrayGet(args[1].toString()); + + // The encoder does not call the ScanEngine + // when an object is serialized that we already know. + // We test for this situation and insert the object reference + // manually. + // Since there is already a workaround for the Class class + // in writeObject we have to except it from this behavior. + id = (ObjectId) objects.get(value); + if (id != null && valueClass != Class.class) + { + objectReference(id); + end(); + } + + return; + } + else if (methodName.equals("set")) + { + arraySet(args[1].toString()); + return; + } + } + + id = retrieveId(value); + + if (target instanceof Class) + { + if (methodName.equals("new")) + { + Class targetClass = (Class) target; + + // All primitive types have short-hand forms for their + // constructors. + if (valueClass == Boolean.class) + primitiveInstantiation("boolean", args[0].toString()); + else if (valueClass == Byte.class) + primitiveInstantiation("byte", args[0].toString()); + else if (valueClass == Short.class) + primitiveInstantiation("short", args[0].toString()); + else if (valueClass == Integer.class) + primitiveInstantiation("int", args[0].toString()); + else if (valueClass == Long.class) + primitiveInstantiation("long", args[0].toString()); + else if (valueClass == Float.class) + primitiveInstantiation("float", args[0].toString()); + else if (valueClass == Double.class) + primitiveInstantiation("double", args[0].toString()); + else + objectInstantiation(targetClass.getName(), id); + + return; + } + else if (value instanceof Class) + { + String className = ((Class) value).getName(); + + // At this point we know that some *static* method will be called. + + if (methodName.equals("forName")) + { + // However "Class.forName" represents class resolution and has a + // special syntax. + classResolution(className); + return; + } + else if (methodName.equals("getField")) + { + // The same goes for "Class.getField". + // Note: The name of the wanted field is given in + // the argument array. + staticFieldAccess(className, args[0].toString()); + return; + } + else + { + // If nothing fits it is just a static method + // invocation which we decode as such. + staticMethodInvocation(className, methodName); + return; + } + } + } + else if (target instanceof List) + { + // Special behavior for indexed get and set method for list-style + // classes. + // The arguments are in the args array but we need them as subelements. + if (methodName.equals("get")) + { + listGet(); + return; + } + else if (methodName.equals("set")) + { + listSet(); + return; + } + } + + // If nothing else could be used then this is a normal + // method invocation. + methodInvocation(methodName); + } + + /** + * Ends the current state and returns to the last one. + */ + public void end() + { + current.end(); + + if (DEBUG) System.err.print("back from " + current.getName()); + + ScannerState oldCurrent = current; + current = (ScannerState) parents.pop(); + + if (DEBUG) System.err.println(" to " + current.getName()); + } + + /** + * Returns to the last state and deletes the last element in the object tree. + */ + public void revoke() + { + ScannerState oldCurrent = current; + current = (ScannerState) parents.pop(); + + root.deleteLast(); + } + + /** Scans the argument and calls one of event methods. See + * the introduction of this class for details. + * + * @param stmt The statement to serialize. + */ + public void writeStatement(Statement stmt) + { + // This is a simplified version of writeExpression. Everything + // that would not create something that is embedded in a tag + // is left out (instantiation, getters, ...). + // TODO: Is this the right thing to do? + + String methodName = stmt.getMethodName(); + Object target = stmt.getTarget(); + Object[] args = stmt.getArguments(); + + if (target == Array.class && methodName.equals("set")) + { + arraySet(args[1].toString()); + return; + } + + if (target instanceof List) + { + if (methodName.equals("set")) + { + listSet(); + return; + } + } + + // If nothing else could be used then this is a normal + // method invocation. + methodInvocation(methodName); + } + + /** Scans the argument and calls one of event methods. See + * the introduction of this class for details. + * + * @param o The object to serialize. + */ + public boolean writeObject(Object o) + { + ObjectId id = null; + + if (o == null) + { + // Handle null objects which have a special syntax. + nullObject(); + end(); + } + else if (o.getClass() == String.class) + { + // Handle strings which are treated extremely special + // in the encoder (they are never converted into a + // Expression). + stringReference((String) o); + end(); + } + else if ((id = (ObjectId) objects.get(o)) != null) + { + // Multiple references to a Class object do not generate + // an object reference but we use the id to detect that + // situation. + if (o.getClass() == Class.class) + { + classResolution(((Class) o).getName()); + end(); + return false; + } + + // If our object has a corresponding ObjectId instance + // then generate an objectReference. This will + // initialize the id (= brings it in the "used" state) + // when this is the first referal. + objectReference(id); + end(); + return false; + } + + return true; + } + + /** + * Writes the currently constructed object tree out as + * XML and clears the object to {@link ObjectId} relations. + */ + public void flush() + { + // Make all references unreachable. That means we have to generate + // new object ids. + objects.clear(); + + root.traverse(writer); + } + + /** Writes the final bits if the object tree and closes the stream + * afterwards. + */ + public void close() + { + flush(); + root.close(writer); + } + + /** + * Does a transition from one state to another using the given event. + * + *

This involves saving the current state, retrieving it's + * successor and setting it as the current state.

+ * + * @param transition One of {@link ScannerStates]'s transition constants. + */ + private void transition(int transition) + { + parents.push(current); + + String stateName = current.getSuccessor(transition); + + if (DEBUG) + { + System.err.println("from state: " + current.getName() + "\n\troute: " + + ScannerState.transitionNames[transition] + + "\n\t\tto state: " + + stateName); + } + + ScannerState newState = (ScannerState) states.get(stateName); + + newState.enter(new Context(current.getName(), current.getCalls())); + + assert (newState != null) : "State '" + stateName + "' was not defined."; + + current = newState; + } + + /** Event method that denotes a (non-static) method invocation. + * + *

More details about this method can be found in this + * class' introduction.

+ * + * @param methodName The name of the method which is called. + */ + void methodInvocation(String methodName) + { + transition(ScannerState.TRANSITION_METHOD_INVOCATION); + + current.methodInvocation(methodName); + } + + /** Event method that denotes a static method invocation. + * + *

More details about this method can be found in this + * class' introduction.

+ * + * @param methodName The name of the method which is called. + * @param className The name of the class in which the method is called. + */ + void staticMethodInvocation(String className, String methodName) + { + transition(ScannerState.TRANSITION_STATIC_METHOD_INVOCATION); + + current.staticMethodInvocation(className, methodName); + } + + /** Event method that denotes the retrieval of a static field's value. + * + *

More details about this method can be found in this + * class' introduction.

+ * + * @param fieldName The name of the field whose value is retrieved. + * @param className The name of the class in which the method is called. + */ + void staticFieldAccess(String className, String fieldName) + { + transition(ScannerState.TRANSITION_STATIC_FIELD_ACCESS); + + current.staticFieldAccess(className, fieldName); + } + + /** Event method that denotes the resolution of a class. + * + *

More details about this method can be found in this + * class' introduction.

+ * + * @param className The name of the class in which the method is called. + */ + void classResolution(String className) + { + transition(ScannerState.TRANSITION_CLASS_RESOLUTION); + + current.classResolution(className); + } + + /** Event method that denotes the instantiation of an object. + * + *

More details about this method can be found in this + * class' introduction.

+ * + * @param className The name of the class in which the method is called. + * @param objectId An ObjectId instance which can be activated later. + */ + void objectInstantiation(String className, ObjectId objectId) + { + transition(ScannerState.TRANSITION_OBJECT_INSTANTIATION); + + current.objectInstantiation(className, objectId); + } + + /** Event method that denotes the instantiation of a primitive. + * + *

More details about this method can be found in this + * class' introduction.

+ * + * @param primitiveName One of "boolean, "byte", "short", "int", "long" + * , "float" or "double" + * @param valueAsString The value of the primitive as a String. + */ + void primitiveInstantiation(String primitiveName, String valueAsString) + { + transition(ScannerState.TRANSITION_PRIMITIVE_INSTANTIATION); + + current.primitiveInstantiation(primitiveName, valueAsString); + } + + /** Event method that denotes the instantiation of an object array. + * + *

More details about this method can be found in this + * class' introduction.

+ * + * @param arrayClassName The array's class name. + * @param objectId An ObjectId instance which can be activated later. + * @param lengthAsString The array's length as String. + */ + void objectArrayInstantiation(String arrayClassName, String lengthAsString, + ObjectId objectId) + { + transition(ScannerState.TRANSITION_OBJECT_ARRAY_INSTANTIATION); + + current.objectArrayInstantiation(arrayClassName, lengthAsString, objectId); + } + + /** Event method that denotes the instantiation of a primitive array. + * + *

More details about this method can be found in this + * class' introduction.

+ * + * @param arrayClassName The array's class name. + * @param objectId An ObjectId instance which can be activated later. + * @param lengthAsString The array's length as String. + */ + void primitiveArrayInstantiation(String arrayClassName, String lengthAsString, + ObjectId objectId) + { + transition(ScannerState.TRANSITION_PRIMITIVE_ARRAY_INSTANTIATION); + + current.objectArrayInstantiation(arrayClassName, lengthAsString, objectId); + } + + /** Event method that denotes the setting of a value in an array. + * + *

More details about this method can be found in this + * class' introduction.

+ * + * @param indexAsString The index to as a String. + */ + void arraySet(String indexAsString) + { + transition(ScannerState.TRANSITION_ARRAY_SET); + + current.arraySet(indexAsString); + } + + /** Event method that denotes the retrieval of a value in an array. + * + *

More details about this method can be found in this + * class' introduction.

+ * + * @param indexAsString The index to as a String. + */ + void arrayGet(String indexAsString) + { + transition(ScannerState.TRANSITION_ARRAY_GET); + + current.arrayGet(indexAsString); + } + + /** Event method that denotes the setting of a value in a list. + * + *

More details about this method can be found in this + * class' introduction.

+ */ + void listSet() + { + transition(ScannerState.TRANSITION_LIST_SET); + + current.listSet(); + } + + /** Event method that denotes the retrieval of a value in a list. + * + *

More details about this method can be found in this + * class' introduction.

+ */ + void listGet() + { + transition(ScannerState.TRANSITION_LIST_GET); + + current.listGet(); + } + + /** Event method that denotes the null value. + */ + void nullObject() + { + transition(ScannerState.TRANSITION_NULL_OBJECT); + + current.nullObject(); + } + + /** Event method that denotes a string. + * + * @param string The string that should be written. + */ + void stringReference(String string) + { + transition(ScannerState.TRANSITION_STRING_REFERENCE); + + current.stringReference(string); + } + + /** Event method that denotes a reference to an existing object. + * + * @param id The ObjectId to be used. + */ + void objectReference(ObjectId id) + { + transition(ScannerState.TRANSITION_OBJECT_REFERENCE); + + current.objectReference(id); + } + +} -- cgit v1.2.3