X-Git-Url: http://git.megacz.com/?p=sbp.git;a=blobdiff_plain;f=src%2Fedu%2Fberkeley%2Fsbp%2FParser.java;h=e5cd67cbeccd21cf65ef61ae9356a49486cb0dd9;hp=95e3ba52a024c8e31223bf4271aee5b55d1450dd;hb=24219bdf084b45273e869cd19382d1640b396566;hpb=c805010980fc22bcd66c1684a772f66563cd6b72

diff --git a/src/edu/berkeley/sbp/Parser.java b/src/edu/berkeley/sbp/Parser.java
index 95e3ba5..e5cd67c 100644
--- a/src/edu/berkeley/sbp/Parser.java
+++ b/src/edu/berkeley/sbp/Parser.java
@@ -296,7 +296,7 @@ public abstract class Parser<Token, NodeType> implements Serializable {
          *  possible from it
          *
          *  A state corresponds to a set of Sequence.Pos's.  Each
-         *  Node in the GSS has a State; the Node represents a set of
+         *  StateNode in the GSS has a State; the StateNode represents a set of
          *  possible parses, one for each Pos in the State.
          *
          *  Every state is either "doomed" or "normal".  If a Pos
@@ -311,10 +311,10 @@ public abstract class Parser<Token, NodeType> implements Serializable {
          *  Nodes with non-doomed states represent nodes which
          *  contribute to actual valid parses.  Nodes with doomed
          *  States exist for no other purpose than to enable/disable
-         *  some future reduction from a non-doomed Node.  Because of
+         *  some future reduction from a non-doomed StateNode.  Because of
          *  this, we "garbage-collect" Nodes with doomed states if
          *  there are no more non-doomed Nodes which they could
-         *  affect (see Result, Reduction, and Node for details).
+         *  affect (see Result, Reduction, and StateNode for details).
          *
          *  Without this optimization, many seemingly-innocuous uses
          *  of positive and negative conjuncts can trigger O(n^2)
@@ -347,14 +347,14 @@ public abstract class Parser<Token, NodeType> implements Serializable {
             Iterable<Pos>  positions()             { return hs; }
 
             boolean                    canShift(Token t)       { return oshifts!=null && oshifts.contains(t); }
-            void                       invokeShifts(Token t, GSS.Phase phase, Node pred, Forest f) { oshifts.invoke(t, phase, pred, f); }
+            void                       invokeShifts(Token t, GSS.Phase phase, StateNode pred, Forest f) { oshifts.invoke(t, phase, pred, f); }
             boolean                    canReduce(Token t)        {
                 return oreductions != null && (t==null ? eofReductions.size()>0 : oreductions.contains(t)); }
-            void          invokeEpsilonReductions(Token t, Node node) {
+            void          invokeEpsilonReductions(Token t, StateNode node) {
                 if (t==null) for(Pos r : eofReductions) node.invoke(r, null, null);
                 else         oreductions.invoke(t, node, null, null);
             }
-            void          invokeReductions(Token t, Node node, Result b) {
+            void          invokeReductions(Token t, StateNode node, Result b) {
                 if (t==null) for(Pos r : eofReductions) node.invoke(r, b, null);
                 else         oreductions.invoke(t, node, b, null);
             }