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); }
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); }
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); }
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); }
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()); }
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); }
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); }
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); }
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); }
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); }