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435 lines
12 KiB
Java
435 lines
12 KiB
Java
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package processing.app.preproc;
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import antlr.collections.AST;
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import antlr.CommonAST;
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import antlr.Token;
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import java.lang.reflect.*;
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import java.util.Hashtable;
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import java.util.Enumeration;
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//import CToken;
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/**
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Class TNode is an implementation of the AST interface
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and adds many useful features:
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It is double-linked for reverse searching.
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(this is currently incomplete, in that method doubleLink() must
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be called after any changes to the tree to maintain the
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reverse links).
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It can store a definition node (defNode), so that nodes such
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as scoped names can refer to the node that defines the name.
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It stores line numbers for nodes.
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Searches for parents and children of a tree can be done
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based on their type.
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The tree can be printed to System.out using a lisp-style syntax.
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*/
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public class TNode extends CommonAST {
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protected int ttype;
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protected String text;
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protected int lineNum = 0;
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protected TNode defNode;
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protected TNode up;
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protected TNode left;
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protected boolean marker = false;
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protected Hashtable attributes = null;
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static String tokenVocabulary;
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/** Set the token vocabulary to a tokentypes class
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generated by antlr.
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*/
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public static void setTokenVocabulary(String s) {
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tokenVocabulary = s;
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}
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public void initialize(Token token) {
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CToken tok = (CToken) token;
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setText(tok.getText());
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setType(tok.getType());
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setLineNum(tok.getLine());
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setAttribute("source", tok.getSource());
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setAttribute("tokenNumber", new Integer(tok.getTokenNumber()));
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}
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public void initialize(AST tr) {
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TNode t = (TNode) tr;
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setText(t.getText());
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setType(t.getType());
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setLineNum(t.getLineNum());
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setDefNode(t.getDefNode());
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this.attributes = t.getAttributesTable();
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}
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/** Get the token type for this node */
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public int getType() { return ttype; }
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/** Set the token type for this node */
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public void setType(int ttype_) {
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ttype = ttype_;
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}
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/** Get the marker value for this node.
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This member is a general-use marker.
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*/
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public boolean getMarker() { return marker; }
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/** Set the marker value for this node.
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This property is a general-use boolean marker.
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*/
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public void setMarker(boolean marker_) {
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marker = marker_;
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}
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/** get the hashtable that holds attribute values.
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*/
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public Hashtable getAttributesTable() {
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if(attributes == null)
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attributes = new Hashtable(7);
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return attributes;
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}
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/** set an attribute in the attribute table.
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*/
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public void setAttribute(String attrName, Object value) {
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if(attributes == null)
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attributes = new Hashtable(7);
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attributes.put(attrName,value);
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}
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/** lookup the attribute name in the attribute table.
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If the value does not exist, it returns null.
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*/
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public Object getAttribute(String attrName) {
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if(attributes == null)
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return null;
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else
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return attributes.get(attrName);
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}
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/** Get the line number for this node.
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If the line number is 0, search for a non-zero line num among children */
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public int getLineNum() {
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if(lineNum != 0)
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return lineNum;
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else
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if(down == null)
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return lineNum;
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else
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return ((TNode)down).getLocalLineNum();
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}
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public int getLocalLineNum() {
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if(lineNum != 0)
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return lineNum;
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else
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if(down == null)
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if(right == null)
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return lineNum;
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else
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return ((TNode)right).getLocalLineNum();
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else
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return ((TNode)down).getLocalLineNum();
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}
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/** Set the line number for this node */
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public void setLineNum(int lineNum_) {
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lineNum = lineNum_;
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}
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/** Get the token text for this node */
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public String getText() { return text; }
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/** Set the token text for this node */
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public void setText(String text_) {
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text = text_;
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}
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/** return the last child of this node, or null if there is none */
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public TNode getLastChild() {
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TNode down = (TNode)getFirstChild();
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if(down != null)
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return down.getLastSibling();
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else
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return null;
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}
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/** return the last sibling of this node, which is
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this if the next sibling is null */
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public TNode getLastSibling() {
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TNode next = (TNode)getNextSibling();
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if(next != null)
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return next.getLastSibling();
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else
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return this;
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}
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/** return the first sibling of this node, which is
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this if the prev sibling is null */
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public TNode getFirstSibling() {
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TNode prev = (TNode)left;
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if(prev != null)
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return prev.getFirstSibling();
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else
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return this;
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}
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/** return the parent node of this node */
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public TNode getParent() {
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return (TNode)getFirstSibling().up;
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}
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/** add the new node as a new sibling, inserting it ahead of any
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existing next sibling. This method maintains double-linking.
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if node is null, nothing happens. If the node has siblings,
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then they are added in as well.
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*/
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public void addSibling(AST node) {
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if(node == null) return;
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TNode next = (TNode)right;
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right = (TNode)node;
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((TNode)node).left = this;
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TNode nodeLastSib = ((TNode)node).getLastSibling();
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nodeLastSib.right = next;
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if(next != null)
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next.left = nodeLastSib;
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}
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/** return the number of children of this node */
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public int numberOfChildren() {
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int count = 0;
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AST child = getFirstChild();
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while(child != null) {
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count++;
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child = child.getNextSibling();
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}
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return count;
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}
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/** remove this node from the tree, resetting sibling and parent
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pointers as necessary. This method maintains double-linking */
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public void removeSelf() {
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TNode parent = (TNode)up;
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TNode prev = (TNode)left;
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TNode next = (TNode)right;
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if(parent != null) {
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parent.down = next;
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if(next != null) {
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next.up = parent;
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next.left = prev; // which should be null
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}
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}
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else {
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if(prev != null)
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prev.right = next;
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if(next != null)
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next.left = prev;
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}
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}
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/** return the def node for this node */
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public TNode getDefNode() {
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return defNode;
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}
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/** set the def node for this node */
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public void setDefNode(TNode n) {
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defNode = n;
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}
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/** return a deep copy of this node, and all sub nodes.
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New tree is doubleLinked, with no parent or siblings.
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Marker value is not copied!
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*/
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public TNode deepCopy() {
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TNode copy = new TNode();
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copy.ttype = ttype;
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copy.text = text;
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copy.lineNum = lineNum;
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copy.defNode = defNode;
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if(attributes != null)
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copy.attributes = (Hashtable)attributes.clone();
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if(down != null)
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copy.down = ((TNode)down).deepCopyWithRightSiblings();
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copy.doubleLink();
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return copy;
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}
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/** return a deep copy of this node, all sub nodes,
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and right siblings.
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New tree is doubleLinked, with no parent or left siblings.
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defNode is not copied */
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public TNode deepCopyWithRightSiblings() {
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TNode copy = new TNode();
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copy.ttype = ttype;
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copy.text = text;
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copy.lineNum = lineNum;
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copy.defNode = defNode;
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if(attributes != null)
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copy.attributes = (Hashtable)attributes.clone();
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if(down != null)
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copy.down = ((TNode)down).deepCopyWithRightSiblings();
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if(right != null)
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copy.right = ((TNode)right).deepCopyWithRightSiblings();
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copy.doubleLink();
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return copy;
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}
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/** return a short string representation of the node */
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public String toString() {
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StringBuffer str = new StringBuffer( getNameForType(getType()) +
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"[" + getText() + ", " + "]");
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if(this.getLineNum() != 0)
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str.append(" line:" + (this.getLineNum() ) );
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Enumeration keys = (this.getAttributesTable().keys());
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while (keys.hasMoreElements()) {
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String key = (String) keys.nextElement();
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str.append(" " + key + ":" + (this.getAttribute(key)));
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}
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return str.toString();
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}
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/** print given tree to System.out */
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public static void printTree(AST t) {
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if (t == null) return;
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printASTNode(t,0);
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System.out.print("\n");
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}
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/** protected method that does the work of printing */
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protected static void printASTNode(AST t, int indent) {
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AST child1, next;
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child1 = t.getFirstChild();
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System.out.print("\n");
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for(int i = 0; i < indent; i++)
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System.out.print(" ");
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if(child1 != null)
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System.out.print("(");
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String s = t.getText();
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if(s != null && s.length() > 0) {
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System.out.print(getNameForType(t.getType()));
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System.out.print(": \"" + s + "\"");
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}
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else
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System.out.print(getNameForType(t.getType()));
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if(((TNode)t).getLineNum() != 0)
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System.out.print(" line:" + ((TNode)t).getLineNum() );
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Enumeration keys = ((TNode)t).getAttributesTable().keys();
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while (keys.hasMoreElements()) {
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String key = (String) keys.nextElement();
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System.out.print(" " + key + ":" + ((TNode)t).getAttribute(key));
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}
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TNode def = ((TNode)t).getDefNode();
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if(def != null)
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System.out.print("[" + getNameForType(def.getType()) + "]");
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if(child1 != null) {
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printASTNode(child1,indent + 1);
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System.out.print("\n");
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for(int i = 0; i < indent; i++)
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System.out.print(" ");
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System.out.print(")");
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}
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next = t.getNextSibling();
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if(next != null) {
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printASTNode(next,indent);
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}
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}
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/** converts an int tree token type to a name.
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Does this by reflecting on nsdidl.IDLTreeTokenTypes,
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and is dependent on how ANTLR 2.00 outputs that class. */
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public static String getNameForType(int t) {
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try{
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Class c = Class.forName(tokenVocabulary);
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Field[] fields = c.getDeclaredFields();
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if(t-2 < fields.length)
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return fields[t-2].getName();
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} catch (Exception e) { System.out.println(e); }
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return "unfoundtype: " + t;
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}
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/** set up reverse links between this node and its first
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child and its first sibling, and link those as well */
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public void doubleLink() {
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TNode right = (TNode)getNextSibling();
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if(right != null) {
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right.left = this;
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right.doubleLink();
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}
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TNode down = (TNode)getFirstChild();
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if(down != null) {
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down.up = this;
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down.doubleLink();
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}
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}
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/** find first parent of the given type,
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return null on failure */
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public TNode parentOfType(int type) {
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if(up == null) {
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if(left == null)
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return null;
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else
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return left.parentOfType(type);
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}
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if(up.getType() == type)
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return up;
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return up.parentOfType(type);
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}
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/** find the first child of the node
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of the given type, return null on failure */
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public TNode firstChildOfType(int type) {
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TNode down = (TNode)getFirstChild();
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if(down == null)
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return null;
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if(down.getType() == type)
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return down;
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return down.firstSiblingOfType(type);
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}
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/** find the first sibling of the node
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of the given type, return null on failure */
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public TNode firstSiblingOfType(int type) {
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TNode right = (TNode)getNextSibling();
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if(right == null)
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return null;
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if(right.getType() == type)
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return right;
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return right.firstSiblingOfType(type);
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}
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}
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