/* [The "BSD licence"] Copyright (c) 2005-2007 Kunle Odutola All rights reserved. Redistribution and use in source and binary forms, with or without modification, are permitted provided that the following conditions are met: 1. Redistributions of source code MUST RETAIN the above copyright notice, this list of conditions and the following disclaimer. 2. Redistributions in binary form MUST REPRODUCE the above copyright notice, this list of conditions and the following disclaimer in the documentation and/or other materials provided with the distribution. 3. The name of the author may not be used to endorse or promote products derived from this software without specific prior WRITTEN permission. 4. Unless explicitly state otherwise, any contribution intentionally submitted for inclusion in this work to the copyright owner or licensor shall be under the terms and conditions of this license, without any additional terms or conditions. THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ namespace Antlr.Runtime.Tests { using System; using StringBuilder = System.Text.StringBuilder; using IToken = Antlr.Runtime.IToken; using Token = Antlr.Runtime.TokenTypes; using CommonToken = Antlr.Runtime.CommonToken; using ITree = Antlr.Runtime.Tree.ITree; using ITreeNodeStream = Antlr.Runtime.Tree.ITreeNodeStream; using CommonTree = Antlr.Runtime.Tree.CommonTree; using CommonTreeNodeStream = Antlr.Runtime.Tree.CommonTreeNodeStream; using BufferedTreeNodeStream = Antlr.Runtime.Tree.BufferedTreeNodeStream; using MbUnit.Framework; [TestFixture] public class ITreeNodeStreamFixture : TestFixtureBase { #region BufferedTreeNodeStream Tests [Test] public void testSingleNode() { ITree t = new CommonTree(new CommonToken(101)); ITreeNodeStream stream = CreateCommonTreeNodeStream(t); string expected = " 101"; string actual = GetStringOfEntireStreamContentsWithNodeTypesOnly(stream); Assert.AreEqual(expected, actual); expected = " 101"; actual = stream.ToString(); Assert.AreEqual(expected, actual); } [Test] ///

/// Test a tree with four nodes - ^(101 ^(102 103) 104) ///

public void test4Nodes() { ITree t = new CommonTree(new CommonToken(101)); t.AddChild(new CommonTree(new CommonToken(102))); t.GetChild(0).AddChild(new CommonTree(new CommonToken(103))); t.AddChild(new CommonTree(new CommonToken(104))); ITreeNodeStream stream = CreateBufferedTreeNodeStream(t); string expected = " 101 102 103 104"; string actual = GetStringOfEntireStreamContentsWithNodeTypesOnly(stream); Assert.AreEqual(expected, actual); expected = " 101 2 102 2 103 3 104 3"; actual = stream.ToString(); Assert.AreEqual(expected, actual); } [Test] public void testList() { ITree root = new CommonTree((IToken)null); ITree t = new CommonTree(new CommonToken(101)); t.AddChild(new CommonTree(new CommonToken(102))); t.GetChild(0).AddChild(new CommonTree(new CommonToken(103))); t.AddChild(new CommonTree(new CommonToken(104))); ITree u = new CommonTree(new CommonToken(105)); root.AddChild(t); root.AddChild(u); BufferedTreeNodeStream stream = new BufferedTreeNodeStream(root); string expected = " 101 102 103 104 105"; string actual = GetStringOfEntireStreamContentsWithNodeTypesOnly(stream); Assert.AreEqual(expected, actual); expected = " 101 2 102 2 103 3 104 3 105"; actual = stream.ToString(); Assert.AreEqual(expected, actual); } [Test] public void testFlatList() { ITree root = new CommonTree((IToken)null); root.AddChild(new CommonTree(new CommonToken(101))); root.AddChild(new CommonTree(new CommonToken(102))); root.AddChild(new CommonTree(new CommonToken(103))); BufferedTreeNodeStream stream = new BufferedTreeNodeStream(root); string expected = " 101 102 103"; string actual = GetStringOfEntireStreamContentsWithNodeTypesOnly(stream); Assert.AreEqual(expected, actual); expected = " 101 102 103"; actual = stream.ToString(); Assert.AreEqual(expected, actual); } [Test] public void testListWithOneNode() { ITree root = new CommonTree((IToken)null); root.AddChild(new CommonTree(new CommonToken(101))); BufferedTreeNodeStream stream = new BufferedTreeNodeStream(root); string expected = " 101"; string actual = GetStringOfEntireStreamContentsWithNodeTypesOnly(stream); Assert.AreEqual(expected, actual); expected = " 101"; actual = stream.ToString(); Assert.AreEqual(expected, actual); } [Test] public void testAoverB() { ITree t = new CommonTree(new CommonToken(101)); t.AddChild(new CommonTree(new CommonToken(102))); ITreeNodeStream stream = CreateBufferedTreeNodeStream(t); string expected = " 101 102"; string actual = GetStringOfEntireStreamContentsWithNodeTypesOnly(stream); Assert.AreEqual(expected, actual); expected = " 101 2 102 3"; actual = stream.ToString(); Assert.AreEqual(expected, actual); } [Test] public void testLT() { // ^(101 ^(102 103) 104) ITree t = new CommonTree(new CommonToken(101)); t.AddChild(new CommonTree(new CommonToken(102))); t.GetChild(0).AddChild(new CommonTree(new CommonToken(103))); t.AddChild(new CommonTree(new CommonToken(104))); ITreeNodeStream stream = CreateBufferedTreeNodeStream(t); Assert.AreEqual(101, ((ITree)stream.LT(1)).Type); Assert.AreEqual(Token.Down, ((ITree)stream.LT(2)).Type); Assert.AreEqual(102, ((ITree)stream.LT(3)).Type); Assert.AreEqual(Token.Down, ((ITree)stream.LT(4)).Type); Assert.AreEqual(103, ((ITree)stream.LT(5)).Type); Assert.AreEqual(Token.Up, ((ITree)stream.LT(6)).Type); Assert.AreEqual(104, ((ITree)stream.LT(7)).Type); Assert.AreEqual(Token.Up, ((ITree)stream.LT(8)).Type); Assert.AreEqual(Token.EndOfFile, ((ITree)stream.LT(9)).Type); // check way ahead Assert.AreEqual(Token.EndOfFile, ((ITree)stream.LT(100)).Type); } [Test] public void testMarkRewindEntire() { // ^(101 ^(102 103 ^(106 107) ) 104 105) // stream has 7 real + 6 nav nodes // Sequence of types: 101 DN 102 DN 103 106 DN 107 Up Up 104 105 Up EndOfFile ITree r0 = new CommonTree(new CommonToken(101)); ITree r1 = new CommonTree(new CommonToken(102)); r0.AddChild(r1); r1.AddChild(new CommonTree(new CommonToken(103))); ITree r2 = new CommonTree(new CommonToken(106)); r2.AddChild(new CommonTree(new CommonToken(107))); r1.AddChild(r2); r0.AddChild(new CommonTree(new CommonToken(104))); r0.AddChild(new CommonTree(new CommonToken(105))); BufferedTreeNodeStream stream = new BufferedTreeNodeStream(r0); int m = stream.Mark(); // MARK for (int k = 1; k <= 13; k++) { // consume til end stream.LT(1); stream.Consume(); } Assert.AreEqual(Token.EndOfFile, ((ITree)stream.LT(1)).Type); Assert.AreEqual(Token.Up, ((ITree)stream.LT(-1)).Type); stream.Rewind(m); // REWIND // consume til end again :) for (int k = 1; k <= 13; k++) { // consume til end stream.LT(1); stream.Consume(); } Assert.AreEqual(Token.EndOfFile, ((ITree)stream.LT(1)).Type); Assert.AreEqual(Token.Up, ((ITree)stream.LT(-1)).Type); } [Test] public void testMarkRewindInMiddle() { // ^(101 ^(102 103 ^(106 107) ) 104 105) // stream has 7 real + 6 nav nodes // Sequence of types: 101 DN 102 DN 103 106 DN 107 Up Up 104 105 Up EndOfFile ITree r0 = new CommonTree(new CommonToken(101)); ITree r1 = new CommonTree(new CommonToken(102)); r0.AddChild(r1); r1.AddChild(new CommonTree(new CommonToken(103))); ITree r2 = new CommonTree(new CommonToken(106)); r2.AddChild(new CommonTree(new CommonToken(107))); r1.AddChild(r2); r0.AddChild(new CommonTree(new CommonToken(104))); r0.AddChild(new CommonTree(new CommonToken(105))); BufferedTreeNodeStream stream = new BufferedTreeNodeStream(r0); for (int k = 1; k <= 7; k++) { // consume til middle //System.out.println(((ITree)stream.LT(1)).Type); stream.Consume(); } Assert.AreEqual(107, ((ITree)stream.LT(1)).Type); int m = stream.Mark(); // MARK stream.Consume(); // consume 107 stream.Consume(); // consume Up stream.Consume(); // consume Up stream.Consume(); // consume 104 stream.Rewind(m); // REWIND Assert.AreEqual(107, ((ITree)stream.LT(1)).Type); stream.Consume(); Assert.AreEqual(Token.Up, ((ITree)stream.LT(1)).Type); stream.Consume(); Assert.AreEqual(Token.Up, ((ITree)stream.LT(1)).Type); stream.Consume(); Assert.AreEqual(104, ((ITree)stream.LT(1)).Type); stream.Consume(); // now we're past rewind position Assert.AreEqual(105, ((ITree)stream.LT(1)).Type); stream.Consume(); Assert.AreEqual(Token.Up, ((ITree)stream.LT(1)).Type); stream.Consume(); Assert.AreEqual(Token.EndOfFile, ((ITree)stream.LT(1)).Type); Assert.AreEqual(Token.Up, ((ITree)stream.LT(-1)).Type); } [Test] public void testMarkRewindNested() { // ^(101 ^(102 103 ^(106 107) ) 104 105) // stream has 7 real + 6 nav nodes // Sequence of types: 101 DN 102 DN 103 106 DN 107 Up Up 104 105 Up EndOfFile ITree r0 = new CommonTree(new CommonToken(101)); ITree r1 = new CommonTree(new CommonToken(102)); r0.AddChild(r1); r1.AddChild(new CommonTree(new CommonToken(103))); ITree r2 = new CommonTree(new CommonToken(106)); r2.AddChild(new CommonTree(new CommonToken(107))); r1.AddChild(r2); r0.AddChild(new CommonTree(new CommonToken(104))); r0.AddChild(new CommonTree(new CommonToken(105))); BufferedTreeNodeStream stream = new BufferedTreeNodeStream(r0); int m = stream.Mark(); // MARK at start stream.Consume(); // consume 101 stream.Consume(); // consume DN int m2 = stream.Mark(); // MARK on 102 stream.Consume(); // consume 102 stream.Consume(); // consume DN stream.Consume(); // consume 103 stream.Consume(); // consume 106 stream.Rewind(m2); // REWIND to 102 Assert.AreEqual(102, ((ITree)stream.LT(1)).Type); stream.Consume(); Assert.AreEqual(Token.Down, ((ITree)stream.LT(1)).Type); stream.Consume(); // stop at 103 and rewind to start stream.Rewind(m); // REWIND to 101 Assert.AreEqual(101, ((ITree)stream.LT(1)).Type); stream.Consume(); Assert.AreEqual(Token.Down, ((ITree)stream.LT(1)).Type); stream.Consume(); Assert.AreEqual(102, ((ITree)stream.LT(1)).Type); stream.Consume(); Assert.AreEqual(Token.Down, ((ITree)stream.LT(1)).Type); } [Test] public void testSeek() { // ^(101 ^(102 103 ^(106 107) ) 104 105) // stream has 7 real + 6 nav nodes // Sequence of types: 101 DN 102 DN 103 106 DN 107 Up Up 104 105 Up EndOfFile ITree r0 = new CommonTree(new CommonToken(101)); ITree r1 = new CommonTree(new CommonToken(102)); r0.AddChild(r1); r1.AddChild(new CommonTree(new CommonToken(103))); ITree r2 = new CommonTree(new CommonToken(106)); r2.AddChild(new CommonTree(new CommonToken(107))); r1.AddChild(r2); r0.AddChild(new CommonTree(new CommonToken(104))); r0.AddChild(new CommonTree(new CommonToken(105))); BufferedTreeNodeStream stream = new BufferedTreeNodeStream(r0); stream.Consume(); // consume 101 stream.Consume(); // consume DN stream.Consume(); // consume 102 stream.Seek(7); // seek to 107 Assert.AreEqual(107, ((ITree)stream.LT(1)).Type); stream.Consume(); // consume 107 stream.Consume(); // consume Up stream.Consume(); // consume Up Assert.AreEqual(104, ((ITree)stream.LT(1)).Type); } [Test] public void testSeekFromStart() { // ^(101 ^(102 103 ^(106 107) ) 104 105) // stream has 7 real + 6 nav nodes // Sequence of types: 101 DN 102 DN 103 106 DN 107 Up Up 104 105 Up EndOfFile ITree r0 = new CommonTree(new CommonToken(101)); ITree r1 = new CommonTree(new CommonToken(102)); r0.AddChild(r1); r1.AddChild(new CommonTree(new CommonToken(103))); ITree r2 = new CommonTree(new CommonToken(106)); r2.AddChild(new CommonTree(new CommonToken(107))); r1.AddChild(r2); r0.AddChild(new CommonTree(new CommonToken(104))); r0.AddChild(new CommonTree(new CommonToken(105))); BufferedTreeNodeStream stream = new BufferedTreeNodeStream(r0); stream.Seek(7); // seek to 107 Assert.AreEqual(107, ((ITree)stream.LT(1)).Type); stream.Consume(); // consume 107 stream.Consume(); // consume Up stream.Consume(); // consume Up Assert.AreEqual(104, ((ITree)stream.LT(1)).Type); } [Test] public void testPushPop() { // ^(101 ^(102 103) ^(104 105) ^(106 107) 108 109) // stream has 9 real + 8 nav nodes // Sequence of types: 101 DN 102 DN 103 Up 104 DN 105 Up 106 DN 107 Up 108 109 Up ITree r0 = new CommonTree(new CommonToken(101)); ITree r1 = new CommonTree(new CommonToken(102)); r1.AddChild(new CommonTree(new CommonToken(103))); r0.AddChild(r1); ITree r2 = new CommonTree(new CommonToken(104)); r2.AddChild(new CommonTree(new CommonToken(105))); r0.AddChild(r2); ITree r3 = new CommonTree(new CommonToken(106)); r3.AddChild(new CommonTree(new CommonToken(107))); r0.AddChild(r3); r0.AddChild(new CommonTree(new CommonToken(108))); r0.AddChild(new CommonTree(new CommonToken(109))); BufferedTreeNodeStream stream = new BufferedTreeNodeStream(r0); String expecting = " 101 2 102 2 103 3 104 2 105 3 106 2 107 3 108 109 3"; String found = stream.ToString(); Assert.AreEqual(expecting, found); // Assume we want to hit node 107 and then "call 102" then return int indexOf102 = 2; int indexOf107 = 12; for (int k = 1; k <= indexOf107; k++) { // consume til 107 node stream.Consume(); } // CALL 102 Assert.AreEqual(107, ((ITree)stream.LT(1)).Type); stream.Push(indexOf102); Assert.AreEqual(102, ((ITree)stream.LT(1)).Type); stream.Consume(); // consume 102 Assert.AreEqual(Token.Down, ((ITree)stream.LT(1)).Type); stream.Consume(); // consume DN Assert.AreEqual(103, ((ITree)stream.LT(1)).Type); stream.Consume(); // consume 103 Assert.AreEqual(Token.Up, ((ITree)stream.LT(1)).Type); // RETURN stream.Pop(); Assert.AreEqual(107, ((ITree)stream.LT(1)).Type); } [Test] public void testNestedPushPop() { // ^(101 ^(102 103) ^(104 105) ^(106 107) 108 109) // stream has 9 real + 8 nav nodes // Sequence of types: 101 DN 102 DN 103 Up 104 DN 105 Up 106 DN 107 Up 108 109 Up ITree r0 = new CommonTree(new CommonToken(101)); ITree r1 = new CommonTree(new CommonToken(102)); r1.AddChild(new CommonTree(new CommonToken(103))); r0.AddChild(r1); ITree r2 = new CommonTree(new CommonToken(104)); r2.AddChild(new CommonTree(new CommonToken(105))); r0.AddChild(r2); ITree r3 = new CommonTree(new CommonToken(106)); r3.AddChild(new CommonTree(new CommonToken(107))); r0.AddChild(r3); r0.AddChild(new CommonTree(new CommonToken(108))); r0.AddChild(new CommonTree(new CommonToken(109))); BufferedTreeNodeStream stream = new BufferedTreeNodeStream(r0); // Assume we want to hit node 107 and then "call 102", which // calls 104, then return int indexOf102 = 2; int indexOf107 = 12; for (int k = 1; k <= indexOf107; k++) { // consume til 107 node stream.Consume(); } Assert.AreEqual(107, ((ITree)stream.LT(1)).Type); // CALL 102 stream.Push(indexOf102); Assert.AreEqual(102, ((ITree)stream.LT(1)).Type); stream.Consume(); // consume 102 Assert.AreEqual(Token.Down, ((ITree)stream.LT(1)).Type); stream.Consume(); // consume DN Assert.AreEqual(103, ((ITree)stream.LT(1)).Type); stream.Consume(); // consume 103 // CALL 104 int indexOf104 = 6; stream.Push(indexOf104); Assert.AreEqual(104, ((ITree)stream.LT(1)).Type); stream.Consume(); // consume 102 Assert.AreEqual(Token.Down, ((ITree)stream.LT(1)).Type); stream.Consume(); // consume DN Assert.AreEqual(105, ((ITree)stream.LT(1)).Type); stream.Consume(); // consume 103 Assert.AreEqual(Token.Up, ((ITree)stream.LT(1)).Type); // RETURN (to Up node in 102 subtree) stream.Pop(); Assert.AreEqual(Token.Up, ((ITree)stream.LT(1)).Type); // RETURN (to empty stack) stream.Pop(); Assert.AreEqual(107, ((ITree)stream.LT(1)).Type); } [Test] public void testPushPopFromEOF() { // ^(101 ^(102 103) ^(104 105) ^(106 107) 108 109) // stream has 9 real + 8 nav nodes // Sequence of types: 101 DN 102 DN 103 Up 104 DN 105 Up 106 DN 107 Up 108 109 Up ITree r0 = new CommonTree(new CommonToken(101)); ITree r1 = new CommonTree(new CommonToken(102)); r1.AddChild(new CommonTree(new CommonToken(103))); r0.AddChild(r1); ITree r2 = new CommonTree(new CommonToken(104)); r2.AddChild(new CommonTree(new CommonToken(105))); r0.AddChild(r2); ITree r3 = new CommonTree(new CommonToken(106)); r3.AddChild(new CommonTree(new CommonToken(107))); r0.AddChild(r3); r0.AddChild(new CommonTree(new CommonToken(108))); r0.AddChild(new CommonTree(new CommonToken(109))); BufferedTreeNodeStream stream = new BufferedTreeNodeStream(r0); while (stream.LA(1) != Token.EndOfFile) { stream.Consume(); } int indexOf102 = 2; int indexOf104 = 6; Assert.AreEqual(Token.EndOfFile, ((ITree)stream.LT(1)).Type); // CALL 102 stream.Push(indexOf102); Assert.AreEqual(102, ((ITree)stream.LT(1)).Type); stream.Consume(); // consume 102 Assert.AreEqual(Token.Down, ((ITree)stream.LT(1)).Type); stream.Consume(); // consume DN Assert.AreEqual(103, ((ITree)stream.LT(1)).Type); stream.Consume(); // consume 103 Assert.AreEqual(Token.Up, ((ITree)stream.LT(1)).Type); // RETURN (to empty stack) stream.Pop(); Assert.AreEqual(Token.EndOfFile, ((ITree)stream.LT(1)).Type); // CALL 104 stream.Push(indexOf104); Assert.AreEqual(104, ((ITree)stream.LT(1)).Type); stream.Consume(); // consume 102 Assert.AreEqual(Token.Down, ((ITree)stream.LT(1)).Type); stream.Consume(); // consume DN Assert.AreEqual(105, ((ITree)stream.LT(1)).Type); stream.Consume(); // consume 103 Assert.AreEqual(Token.Up, ((ITree)stream.LT(1)).Type); // RETURN (to empty stack) stream.Pop(); Assert.AreEqual(Token.EndOfFile, ((ITree)stream.LT(1)).Type); } [Test] public void testStackStretch() { // make more than INITIAL_CALL_STACK_SIZE pushes ITree r0 = new CommonTree(new CommonToken(101)); BufferedTreeNodeStream stream = new BufferedTreeNodeStream(r0); // go 1 over initial size for (int i = 1; i <= BufferedTreeNodeStream.INITIAL_CALL_STACK_SIZE + 1; i++) { stream.Push(i); } Assert.AreEqual(10, stream.Pop()); Assert.AreEqual(9, stream.Pop()); } #endregion #region CommonTreeNodeStream Tests [Test] public void testBufferOverflow() { StringBuilder buf = new StringBuilder(); StringBuilder buf2 = new StringBuilder(); // make ^(101 102 ... n) ITree t = new CommonTree(new CommonToken(101)); buf.Append(" 101"); buf2.Append(" 101"); buf2.Append(" "); buf2.Append(Token.Down); for (int i = 0; i <= CommonTreeNodeStream.DEFAULT_INITIAL_BUFFER_SIZE + 10; i++) { t.AddChild(new CommonTree(new CommonToken(102 + i))); buf.Append(" "); buf.Append(102 + i); buf2.Append(" "); buf2.Append(102 + i); } buf2.Append(" "); buf2.Append(Token.Up); ITreeNodeStream stream = CreateCommonTreeNodeStream(t); String expecting = buf.ToString(); String found = GetStringOfEntireStreamContentsWithNodeTypesOnly(stream); Assert.AreEqual(expecting, found); expecting = buf2.ToString(); found = stream.ToString(); Assert.AreEqual(expecting, found); } ///

/// Test what happens when tail hits the end of the buffer, but there /// is more room left. ///

/// /// Specifically that would mean that head is not at 0 but has /// advanced somewhere to the middle of the lookahead buffer. /// /// Use Consume() to advance N nodes into lookahead. Then use LT() /// to load at least INITIAL_LOOKAHEAD_BUFFER_SIZE-N nodes so the /// buffer has to wrap. /// [Test] public void testBufferWrap() { int N = 10; // make tree with types: 1 2 ... INITIAL_LOOKAHEAD_BUFFER_SIZE+N ITree t = new CommonTree((IToken)null); for (int i = 0; i < CommonTreeNodeStream.DEFAULT_INITIAL_BUFFER_SIZE + N; i++) { t.AddChild(new CommonTree(new CommonToken(i + 1))); } // move head to index N ITreeNodeStream stream = CreateCommonTreeNodeStream(t); for (int i = 1; i <= N; i++) { // consume N ITree node = (ITree)stream.LT(1); Assert.AreEqual(i, node.Type); stream.Consume(); } // now use LT to lookahead past end of buffer int remaining = CommonTreeNodeStream.DEFAULT_INITIAL_BUFFER_SIZE - N; int wrapBy = 4; // wrap around by 4 nodes Assert.IsTrue(wrapBy < N, "bad test code; wrapBy must be less than N"); for (int i = 1; i <= remaining + wrapBy; i++) { // wrap past end of buffer ITree node = (ITree)stream.LT(i); // look ahead to ith token Assert.AreEqual(N + i, node.Type); } } #endregion #region Helper Methods protected ITreeNodeStream CreateBufferedTreeNodeStream(object t) { return new BufferedTreeNodeStream(t); } protected ITreeNodeStream CreateCommonTreeNodeStream(object t) { return new CommonTreeNodeStream(t); } public string GetStringOfEntireStreamContentsWithNodeTypesOnly(ITreeNodeStream nodes) { StringBuilder buf = new StringBuilder(); for (int i = 0; i < nodes.Count; i++) { object t = nodes.LT(i + 1); int type = nodes.TreeAdaptor.GetType(t); if (!((type == Token.Down) || (type == Token.Up))) { buf.Append(" "); buf.Append(type); } } return buf.ToString(); } #endregion } }