org.antlr.runtime.tree.BaseTreeAdaptor Maven / Gradle / Ivy
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Copyright (c) 2005-2009 Terence Parr
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package org.antlr.runtime.tree;
import org.antlr.runtime.Token;
import org.antlr.runtime.TokenStream;
import org.antlr.runtime.RecognitionException;
import java.util.HashMap;
import java.util.Map;
/** A TreeAdaptor that works with any Tree implementation. */
public abstract class BaseTreeAdaptor implements TreeAdaptor {
/** System.identityHashCode() is not always unique; we have to
* track ourselves. That's ok, it's only for debugging, though it's
* expensive: we have to create a hashtable with all tree nodes in it.
*/
protected Map treeToUniqueIDMap;
protected int uniqueNodeID = 1;
public Object nil() {
return create(null);
}
/** create tree node that holds the start and stop tokens associated
* with an error.
*
* If you specify your own kind of tree nodes, you will likely have to
* override this method. CommonTree returns Token.INVALID_TOKEN_TYPE
* if no token payload but you might have to set token type for diff
* node type.
*
* You don't have to subclass CommonErrorNode; you will likely need to
* subclass your own tree node class to avoid class cast exception.
*/
public Object errorNode(TokenStream input, Token start, Token stop,
RecognitionException e)
{
CommonErrorNode t = new CommonErrorNode(input, start, stop, e);
//System.out.println("returning error node '"+t+"' @index="+input.index());
return t;
}
public boolean isNil(Object tree) {
return ((Tree)tree).isNil();
}
public Object dupTree(Object tree) {
return dupTree(tree, null);
}
/** This is generic in the sense that it will work with any kind of
* tree (not just Tree interface). It invokes the adaptor routines
* not the tree node routines to do the construction.
*/
public Object dupTree(Object t, Object parent) {
if ( t==null ) {
return null;
}
Object newTree = dupNode(t);
// ensure new subtree root has parent/child index set
setChildIndex(newTree, getChildIndex(t)); // same index in new tree
setParent(newTree, parent);
int n = getChildCount(t);
for (int i = 0; i < n; i++) {
Object child = getChild(t, i);
Object newSubTree = dupTree(child, t);
addChild(newTree, newSubTree);
}
return newTree;
}
/** Add a child to the tree t. If child is a flat tree (a list), make all
* in list children of t. Warning: if t has no children, but child does
* and child isNil then you can decide it is ok to move children to t via
* t.children = child.children; i.e., without copying the array. Just
* make sure that this is consistent with have the user will build
* ASTs.
*/
public void addChild(Object t, Object child) {
if ( t!=null && child!=null ) {
((Tree)t).addChild((Tree)child);
}
}
/** If oldRoot is a nil root, just copy or move the children to newRoot.
* If not a nil root, make oldRoot a child of newRoot.
*
* old=^(nil a b c), new=r yields ^(r a b c)
* old=^(a b c), new=r yields ^(r ^(a b c))
*
* If newRoot is a nil-rooted single child tree, use the single
* child as the new root node.
*
* old=^(nil a b c), new=^(nil r) yields ^(r a b c)
* old=^(a b c), new=^(nil r) yields ^(r ^(a b c))
*
* If oldRoot was null, it's ok, just return newRoot (even if isNil).
*
* old=null, new=r yields r
* old=null, new=^(nil r) yields ^(nil r)
*
* Return newRoot. Throw an exception if newRoot is not a
* simple node or nil root with a single child node--it must be a root
* node. If newRoot is ^(nil x) return x as newRoot.
*
* Be advised that it's ok for newRoot to point at oldRoot's
* children; i.e., you don't have to copy the list. We are
* constructing these nodes so we should have this control for
* efficiency.
*/
public Object becomeRoot(Object newRoot, Object oldRoot) {
//System.out.println("becomeroot new "+newRoot.toString()+" old "+oldRoot);
Tree newRootTree = (Tree)newRoot;
Tree oldRootTree = (Tree)oldRoot;
if ( oldRoot==null ) {
return newRoot;
}
// handle ^(nil real-node)
if ( newRootTree.isNil() ) {
int nc = newRootTree.getChildCount();
if ( nc==1 ) newRootTree = (Tree)newRootTree.getChild(0);
else if ( nc >1 ) {
// TODO: make tree run time exceptions hierarchy
throw new RuntimeException("more than one node as root (TODO: make exception hierarchy)");
}
}
// add oldRoot to newRoot; addChild takes care of case where oldRoot
// is a flat list (i.e., nil-rooted tree). All children of oldRoot
// are added to newRoot.
newRootTree.addChild(oldRootTree);
return newRootTree;
}
/** Transform ^(nil x) to x and nil to null */
public Object rulePostProcessing(Object root) {
//System.out.println("rulePostProcessing: "+((Tree)root).toStringTree());
Tree r = (Tree)root;
if ( r!=null && r.isNil() ) {
if ( r.getChildCount()==0 ) {
r = null;
}
else if ( r.getChildCount()==1 ) {
r = (Tree)r.getChild(0);
// whoever invokes rule will set parent and child index
r.setParent(null);
r.setChildIndex(-1);
}
}
return r;
}
public Object becomeRoot(Token newRoot, Object oldRoot) {
return becomeRoot(create(newRoot), oldRoot);
}
public Object create(int tokenType, Token fromToken) {
fromToken = createToken(fromToken);
//((ClassicToken)fromToken).setType(tokenType);
fromToken.setType(tokenType);
Tree t = (Tree)create(fromToken);
return t;
}
public Object create(int tokenType, Token fromToken, String text) {
if (fromToken == null) return create(tokenType, text);
fromToken = createToken(fromToken);
fromToken.setType(tokenType);
fromToken.setText(text);
Tree t = (Tree)create(fromToken);
return t;
}
public Object create(int tokenType, String text) {
Token fromToken = createToken(tokenType, text);
Tree t = (Tree)create(fromToken);
return t;
}
public int getType(Object t) {
return ((Tree)t).getType();
}
public void setType(Object t, int type) {
throw new NoSuchMethodError("don't know enough about Tree node");
}
public String getText(Object t) {
return ((Tree)t).getText();
}
public void setText(Object t, String text) {
throw new NoSuchMethodError("don't know enough about Tree node");
}
public Object getChild(Object t, int i) {
return ((Tree)t).getChild(i);
}
public void setChild(Object t, int i, Object child) {
((Tree)t).setChild(i, (Tree)child);
}
public Object deleteChild(Object t, int i) {
return ((Tree)t).deleteChild(i);
}
public int getChildCount(Object t) {
return ((Tree)t).getChildCount();
}
public int getUniqueID(Object node) {
if ( treeToUniqueIDMap==null ) {
treeToUniqueIDMap = new HashMap();
}
Integer prevID = (Integer)treeToUniqueIDMap.get(node);
if ( prevID!=null ) {
return prevID.intValue();
}
int ID = uniqueNodeID;
treeToUniqueIDMap.put(node, new Integer(ID));
uniqueNodeID++;
return ID;
// GC makes these nonunique:
// return System.identityHashCode(node);
}
/** Tell me how to create a token for use with imaginary token nodes.
* For example, there is probably no input symbol associated with imaginary
* token DECL, but you need to create it as a payload or whatever for
* the DECL node as in ^(DECL type ID).
*
* If you care what the token payload objects' type is, you should
* override this method and any other createToken variant.
*/
public abstract Token createToken(int tokenType, String text);
/** Tell me how to create a token for use with imaginary token nodes.
* For example, there is probably no input symbol associated with imaginary
* token DECL, but you need to create it as a payload or whatever for
* the DECL node as in ^(DECL type ID).
*
* This is a variant of createToken where the new token is derived from
* an actual real input token. Typically this is for converting '{'
* tokens to BLOCK etc... You'll see
*
* r : lc='{' ID+ '}' -> ^(BLOCK[$lc] ID+) ;
*
* If you care what the token payload objects' type is, you should
* override this method and any other createToken variant.
*/
public abstract Token createToken(Token fromToken);
}
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