1 unit Antlr.Runtime.Tree.Tests;
2 {
3
4 Delphi DUnit Test Case
5 ----------------------
6 This unit contains a skeleton test case class generated by the Test Case Wizard.
7 Modify the generated code to correctly setup and call the methods from the unit
8 being tested.
9
10 }
11
12 interface
13
14 uses
15 TestFramework,
16 Antlr.Runtime.Collections,
17 Antlr.Runtime.Tree,
18 Classes,
19 SysUtils,
20 Antlr.Runtime,
21 Antlr.Runtime.Tools;
22
23 type
24 // Test methods for class ICommonTree
25 TestICommonTree = class(TTestCase)
26 public
27 procedure SetUp; override;
28 procedure TearDown; override;
29 published
30 procedure TestSingleNode;
31 procedure Test4Nodes;
32 procedure TestList;
33 procedure TestList2;
34 procedure TestAddListToExistChildren;
35 procedure TestDupTree;
36 procedure TestBecomeRoot;
37 procedure TestBecomeRoot2;
38 procedure TestBecomeRoot3;
39 procedure TestBecomeRoot5;
40 procedure TestBecomeRoot6;
41 procedure TestReplaceWithNoChildren;
42 procedure TestReplaceWithOneChildren;
43 procedure TestReplaceInMiddle;
44 procedure TestReplaceAtLeft;
45 procedure TestReplaceAtRight;
46 procedure TestReplaceOneWithTwoAtLeft;
47 procedure TestReplaceOneWithTwoAtRight;
48 procedure TestReplaceOneWithTwoInMiddle;
49 procedure TestReplaceTwoWithOneAtLeft;
50 procedure TestReplaceTwoWithOneAtRight;
51 procedure TestReplaceAllWithOne;
52 procedure TestReplaceAllWithTwo;
53 end;
54
55 // Test methods for class ICommonTreeNodeStream
56 TestICommonTreeNodeStream = class(TTestCase)
57 private
CreateCommonTreeNodeStream(const T: IANTLRInterface)58 function CreateCommonTreeNodeStream(const T: IANTLRInterface): ITreeNodeStream;
GetStringOfEntireStreamContentsWithNodeTypesOnly(59 function GetStringOfEntireStreamContentsWithNodeTypesOnly(
60 const Nodes: ITreeNodeStream): String;
CreateUnBufferedTreeNodeStream(const T: IANTLRInterface)61 function CreateUnBufferedTreeNodeStream(const T: IANTLRInterface): ITreeNodeStream;
62 public
63 procedure SetUp; override;
64 procedure TearDown; override;
65 published
66 procedure TestSingleNode;
67 procedure Test4Nodes;
68 procedure TestList;
69 procedure TestFlatList;
70 procedure TestListWithOneNode;
71 procedure TestAoverB;
72 procedure TestLT;
73 procedure TestMarkRewindEntire;
74 procedure TestMarkRewindInMiddle;
75 procedure TestMarkRewindNested;
76 procedure TestSeek;
77 procedure TestSeekFromStart;
78 procedure TestPushPop;
79 procedure TestNestedPushPop;
80 procedure TestPushPopFromEOF;
81 procedure TestStackStretch;
82 procedure TestBufferOverflow;
83 procedure TestBufferWrap;
84 end;
85
86 // Test methods for class IRewriteRuleXxxxStream
87 TestIRewriteRuleXxxxStream = class(TTestCase)
88 strict private
CreateTreeAdaptor()89 function CreateTreeAdaptor: ITreeAdaptor;
CreateTree(const Token: IToken)90 function CreateTree(const Token: IToken): ITree;
CreateToken(const TokenType: Integer; const Text: String)91 function CreateToken(const TokenType: Integer; const Text: String): IToken;
CreateTokenList(const Count: Integer)92 function CreateTokenList(const Count: Integer): IList<IToken>;
93 public
94 procedure SetUp; override;
95 procedure TearDown; override;
96 published
97 procedure TestRewriteRuleTokenStreamConstructors;
98 procedure TestRewriteRuleSubtreeStreamConstructors;
99 procedure TestRewriteRuleNodeStreamConstructors;
100
101 procedure TestRRTokenStreamBehaviourWhileEmpty1;
102 procedure TestRRSubtreeStreamBehaviourWhileEmpty1;
103 procedure TestRRNodeStreamBehaviourWhileEmpty1;
104
105 procedure TestRRTokenStreamBehaviourWhileEmpty2;
106 procedure TestRRSubtreeStreamBehaviourWhileEmpty2;
107 procedure TestRRNodeStreamBehaviourWhileEmpty2;
108
109 procedure TestRRTokenStreamBehaviourWhileEmpty3;
110
111 procedure TestRRTokenStreamBehaviourWithElements;
112 procedure TestRRSubtreeStreamBehaviourWithElements;
113 procedure TestRRNodeStreamBehaviourWithElements;
114 end;
115
116 // Test methods for class ITreeWizard
117 TestITreeWizard = class(TTestCase)
118 strict private
119 FTokens: TStringArray;
120 strict private
121 type
122 TRecordAllElementsVisitor = class sealed(TTreeWizard.TVisitor)
123 strict private
124 FList: IList<IANTLRInterface>;
125 strict protected
126 procedure Visit(const T: IANTLRInterface); override;
127 public
128 constructor Create(const AList: IList<IANTLRInterface>);
129 end;
130
131 TTest1ContextVisitor = class sealed(TANTLRObject, IContextVisitor)
132 strict private
133 FAdaptor: ITreeAdaptor;
134 FList: IList<IANTLRInterface>;
135 protected
136 { IContextVisitor }
137 procedure Visit(const T, Parent: IANTLRInterface; const ChildIndex: Integer;
138 const Labels: IDictionary<String, IANTLRInterface>);
139 public
140 constructor Create(const AAdaptor: ITreeAdaptor;
141 const AList: IList<IANTLRInterface>);
142 end;
143
144 TTest2ContextVisitor = class sealed(TANTLRObject, IContextVisitor)
145 strict private
146 FAdaptor: ITreeAdaptor;
147 FList: IList<IANTLRInterface>;
148 protected
149 { IContextVisitor }
150 procedure Visit(const T, Parent: IANTLRInterface; const ChildIndex: Integer;
151 const Labels: IDictionary<String, IANTLRInterface>);
152 public
153 constructor Create(const AAdaptor: ITreeAdaptor;
154 const AList: IList<IANTLRInterface>);
155 end;
156 public
157 constructor Create(MethodName: String); override;
158 procedure SetUp; override;
159 procedure TearDown; override;
160 published
161 procedure TestSingleNode;
162 procedure TestSingleNodeWithArg;
163 procedure TestSingleNodeTree;
164 procedure TestSingleLevelTree;
165 procedure TestListTree;
166 procedure TestInvalidListTree;
167 procedure TestDoubleLevelTree;
168 procedure TestSingleNodeIndex;
169 procedure TestNoRepeatsIndex;
170 procedure TestRepeatsIndex;
171 procedure TestNoRepeatsVisit;
172 procedure TestNoRepeatsVisit2;
173 procedure TestRepeatsVisit;
174 procedure TestRepeatsVisit2;
175 procedure TestRepeatsVisitWithContext;
176 procedure TestRepeatsVisitWithNullParentAndContext;
177 procedure TestVisitPattern;
178 procedure TestVisitPatternMultiple;
179 procedure TestVisitPatternMultipleWithLabels;
180 procedure TestParse;
181 procedure TestParseSingleNode;
182 procedure TestParseFlatTree;
183 procedure TestWildcard;
184 procedure TestParseWithText;
185 procedure TestParseWithTextFails;
186 procedure TestParseLabels;
187 procedure TestParseWithWildcardLabels;
188 procedure TestParseLabelsAndTestText;
189 procedure TestParseLabelsInNestedTree;
190 procedure TestEquals;
191 procedure TestEqualsWithText;
192 procedure TestEqualsWithMismatchedText;
193 procedure TestFindPattern;
194 end;
195
196 implementation
197
198 procedure TestICommonTree.SetUp;
199 begin
200 end;
201
202 procedure TestICommonTree.TearDown;
203 begin
204 end;
205
206 procedure TestICommonTree.Test4Nodes;
207 var
208 R0: ICommonTree;
209 begin
210 // ^(101 ^(102 103) 104)
211 R0 := TCommonTree.Create(TCommonToken.Create(101));
212 R0.AddChild(TCommonTree.Create(TCommonToken.Create(102)));
213 R0.GetChild(0).AddChild(TCommonTree.Create(TCommonToken.Create(103)));
214 R0.AddChild(TCommonTree.Create(TCommonToken.Create(104)));
215 CheckNull(R0.Parent);
216 CheckEquals(R0.ChildIndex,-1);
217 end;
218
219 procedure TestICommonTree.TestAddListToExistChildren;
220 var
221 Root, R0, C0, C1, C2: ICommonTree;
222 begin
223 // Add child ^(nil 101 102 103) to root ^(5 6)
224 // should add 101 102 103 to end of 5's child list
225 Root := TCommonTree.Create(TCommonToken.Create(5));
226 Root.AddChild(TCommonTree.Create(TCommonToken.Create(6)));
227
228 // child tree
229 R0 := TCommonTree.Create(IToken(nil));
230 C0 := TCommonTree.Create(TCommonToken.Create(101));
231 C1 := TCommonTree.Create(TCommonToken.Create(102));
232 C2 := TCommonTree.Create(TCommonToken.Create(103));
233 R0.AddChild(C0);
234 R0.AddChild(C1);
235 R0.AddChild(C2);
236
237 Root.AddChild(R0);
238
239 CheckNull(Root.Parent);
240 CheckEquals(Root.ChildIndex, -1);
241
242 // check children of root all point at root
243 Check(C0.Parent = Root);
244 Check(C0.ChildIndex = 1);
245 Check(C1.Parent = Root);
246 Check(C1.ChildIndex = 2);
247 Check(C2.Parent = Root);
248 Check(C2.ChildIndex = 3);
249 end;
250
251 procedure TestICommonTree.TestBecomeRoot;
252 var
253 OldRoot, NewRoot: ICommonTree;
254 Adaptor: ITreeAdaptor;
255 begin
256 // 5 becomes new root of ^(nil 101 102 103)
257 NewRoot := TCommonTree.Create(TCommonToken.Create(5));
258 OldRoot := TCommonTree.Create(IToken(nil));
259 OldRoot.AddChild(TCommonTree.Create(TCommonToken.Create(101)));
260 OldRoot.AddChild(TCommonTree.Create(TCommonToken.Create(102)));
261 OldRoot.AddChild(TCommonTree.Create(TCommonToken.Create(103)));
262 Adaptor := TCommonTreeAdaptor.Create;
263 Adaptor.BecomeRoot(NewRoot, OldRoot);
264 NewRoot.SanityCheckParentAndChildIndexes;
265 end;
266
267 procedure TestICommonTree.TestBecomeRoot2;
268 var
269 OldRoot, NewRoot: ICommonTree;
270 Adaptor: ITreeAdaptor;
271 begin
272 // 5 becomes new root of ^(101 102 103)
273 NewRoot := TCommonTree.Create(TCommonToken.Create(5));
274 OldRoot := TCommonTree.Create(TCommonToken.Create(101));
275 OldRoot.AddChild(TCommonTree.Create(TCommonToken.Create(102)));
276 OldRoot.AddChild(TCommonTree.Create(TCommonToken.Create(103)));
277 Adaptor := TCommonTreeAdaptor.Create;
278 Adaptor.BecomeRoot(NewRoot, OldRoot);
279 NewRoot.SanityCheckParentAndChildIndexes;
280 end;
281
282 procedure TestICommonTree.TestBecomeRoot3;
283 var
284 OldRoot, NewRoot: ICommonTree;
285 Adaptor: ITreeAdaptor;
286 begin
287 // ^(nil 5) becomes new root of ^(nil 101 102 103)
288 NewRoot := TCommonTree.Create(IToken(nil));
289 NewRoot.AddChild(TCommonTree.Create(TCommonToken.Create(5)));
290 OldRoot := TCommonTree.Create(IToken(nil));
291 OldRoot.AddChild(TCommonTree.Create(TCommonToken.Create(101)));
292 OldRoot.AddChild(TCommonTree.Create(TCommonToken.Create(102)));
293 OldRoot.AddChild(TCommonTree.Create(TCommonToken.Create(103)));
294 Adaptor := TCommonTreeAdaptor.Create;
295 Adaptor.BecomeRoot(NewRoot, OldRoot);
296 NewRoot.SanityCheckParentAndChildIndexes;
297 end;
298
299 procedure TestICommonTree.TestBecomeRoot5;
300 var
301 OldRoot, NewRoot: ICommonTree;
302 Adaptor: ITreeAdaptor;
303 begin
304 // ^(nil 5) becomes new root of ^(101 102 103)
305 NewRoot := TCommonTree.Create(IToken(nil));
306 NewRoot.AddChild(TCommonTree.Create(TCommonToken.Create(5)));
307 OldRoot := TCommonTree.Create(TCommonToken.Create(101));
308 OldRoot.AddChild(TCommonTree.Create(TCommonToken.Create(102)));
309 OldRoot.AddChild(TCommonTree.Create(TCommonToken.Create(103)));
310 Adaptor := TCommonTreeAdaptor.Create;
311 Adaptor.BecomeRoot(NewRoot, OldRoot);
312 NewRoot.SanityCheckParentAndChildIndexes;
313 end;
314
315 procedure TestICommonTree.TestBecomeRoot6;
316 var
317 Root0, Root1: ICommonTree;
318 Adaptor: ITreeAdaptor;
319 begin
320 // emulates construction of ^(5 6)
321 Adaptor := TCommonTreeAdaptor.Create;
322 Root0 := Adaptor.GetNilNode as ICommonTree;
323 Root1 := Adaptor.GetNilNode as ICommonTree;
324 Root1 := Adaptor.BecomeRoot(TCommonTree.Create(TCommonToken.Create(5)), Root1) as ICommonTree;
325 Adaptor.AddChild(Root1, TCommonTree.Create(TCommonToken.Create(6)));
326 Adaptor.AddChild(Root0, Root1);
327 Root0.SanityCheckParentAndChildIndexes;
328 end;
329
330 procedure TestICommonTree.TestDupTree;
331 var
332 R0, R1, Dup: ICommonTree;
333 R2: ITree;
334 Adaptor: ICommonTreeAdaptor;
335 begin
336 // ^(101 ^(102 103 ^(106 107) ) 104 105)
337 R0 := TCommonTree.Create(TCommonToken.Create(101));
338 R1 := TCommonTree.Create(TCommonToken.Create(102));
339 R0.AddChild(R1);
340 R1.AddChild(TCommonTree.Create(TCommonToken.Create(103)));
341 R2 := TCommonTree.Create(TCommonToken.Create(106));
342 R2.AddChild(TCommonTree.Create(TCommonToken.Create(107)));
343 R1.AddChild(R2);
344 R0.AddChild(TCommonTree.Create(TCommonToken.Create(104)));
345 R0.AddChild(TCommonTree.Create(TCommonToken.Create(105)));
346
347 Adaptor := TCommonTreeAdaptor.Create;
348 Dup := Adaptor.DupTree(R0) as ICommonTree;
349
350 CheckNull(Dup.Parent);
351 CheckEquals(Dup.ChildIndex, -1);
352 Dup.SanityCheckParentAndChildIndexes;
353 end;
354
355 procedure TestICommonTree.TestList;
356 var
357 R0, C0, C1, C2: ICommonTree;
358 begin
359 // ^(nil 101 102 103)
360 R0 := TCommonTree.Create(IToken(nil));
361 C0 := TCommonTree.Create(TCommonToken.Create(101));
362 C1 := TCommonTree.Create(TCommonToken.Create(102));
363 C2 := TCommonTree.Create(TCommonToken.Create(103));
364 R0.AddChild(C0);
365 R0.AddChild(C1);
366 R0.AddChild(C2);
367
368 CheckNull(R0.Parent);
369 CheckEquals(R0.ChildIndex, -1);
370 Check(C0.Parent = R0);
371 CheckEquals(C0.ChildIndex, 0);
372 Check(C1.Parent = R0);
373 CheckEquals(C1.ChildIndex, 1);
374 Check(C2.Parent = R0);
375 CheckEquals(C2.ChildIndex, 2);
376 end;
377
378 procedure TestICommonTree.TestList2;
379 var
380 Root, R0, C0, C1, C2: ICommonTree;
381 begin
382 // Add child ^(nil 101 102 103) to root 5
383 // should pull 101 102 103 directly to become 5's child list
384 Root := TCommonTree.Create(TClassicToken.Create(5));
385
386 // child tree
387 R0 := TCommonTree.Create(IToken(nil));
388 C0 := TCommonTree.Create(TCommonToken.Create(101));
389 C1 := TCommonTree.Create(TCommonToken.Create(102));
390 C2 := TCommonTree.Create(TCommonToken.Create(103));
391 R0.AddChild(C0);
392 R0.AddChild(C1);
393 R0.AddChild(C2);
394
395 Root.AddChild(R0);
396
397 CheckNull(Root.Parent);
398 CheckEquals(Root.ChildIndex, -1);
399
400 // check children of root all point at root
401 Check(C0.Parent = Root);
402 Check(C0.ChildIndex = 0);
403 Check(C1.Parent = Root);
404 Check(C1.ChildIndex = 1);
405 Check(C2.Parent = Root);
406 Check(C2.ChildIndex = 2);
407 end;
408
409 procedure TestICommonTree.TestReplaceAllWithOne;
410 var
411 T, NewChild: ICommonTree;
412 begin
413 T := TCommonTree.Create(TCommonToken.Create(99, 'a'));
414 T.AddChild(TCommonTree.Create(TCommonToken.Create(99, 'b')));
415 T.AddChild(TCommonTree.Create(TCommonToken.Create(99, 'c')));
416 T.AddChild(TCommonTree.Create(TCommonToken.Create(99, 'd')));
417 NewChild := TCommonTree.Create(TCommonToken.Create(99, 'x'));
418 T.ReplaceChildren(0, 2, NewChild);
419 CheckEquals(T.ToStringTree, '(a x)');
420 T.SanityCheckParentAndChildIndexes;
421 end;
422
423 procedure TestICommonTree.TestReplaceAllWithTwo;
424 var
425 Adaptor: ITreeAdaptor;
426 T, NewChildren: ICommonTree;
427 begin
428 Adaptor := TCommonTreeAdaptor.Create;
429 T := TCommonTree.Create(TCommonToken.Create(99, 'a'));
430 T.AddChild(TCommonTree.Create(TCommonToken.Create(99, 'b')));
431 T.AddChild(TCommonTree.Create(TCommonToken.Create(99, 'c')));
432 T.AddChild(TCommonTree.Create(TCommonToken.Create(99, 'd')));
433 NewChildren := Adaptor.GetNilNode as ICommonTree;
434 NewChildren.AddChild(TCommonTree.Create(TCommonToken.Create(99, 'x')));
435 NewChildren.AddChild(TCommonTree.Create(TCommonToken.Create(99, 'y')));
436 T.ReplaceChildren(0, 2, NewChildren);
437 CheckEquals(T.ToStringTree, '(a x y)');
438 T.SanityCheckParentAndChildIndexes;
439 end;
440
441 procedure TestICommonTree.TestReplaceAtLeft;
442 var
443 T, NewChild: ICommonTree;
444 begin
445 T := TCommonTree.Create(TCommonToken.Create(99, 'a'));
446 T.AddChild(TCommonTree.Create(TCommonToken.Create(99, 'b'))); // index 0
447 T.AddChild(TCommonTree.Create(TCommonToken.Create(99, 'c')));
448 T.AddChild(TCommonTree.Create(TCommonToken.Create(99, 'd')));
449 NewChild := TCommonTree.Create(TCommonToken.Create(99, 'x'));
450 T.ReplaceChildren(0, 0, NewChild);
451 CheckEquals(T.ToStringTree, '(a x c d)');
452 T.SanityCheckParentAndChildIndexes;
453 end;
454
455 procedure TestICommonTree.TestReplaceAtRight;
456 var
457 T, NewChild: ICommonTree;
458 begin
459 T := TCommonTree.Create(TCommonToken.Create(99, 'a'));
460 T.AddChild(TCommonTree.Create(TCommonToken.Create(99, 'b')));
461 T.AddChild(TCommonTree.Create(TCommonToken.Create(99, 'c')));
462 T.AddChild(TCommonTree.Create(TCommonToken.Create(99, 'd'))); // index 2
463 NewChild := TCommonTree.Create(TCommonToken.Create(99, 'x'));
464 T.ReplaceChildren(2, 2, NewChild);
465 CheckEquals(T.ToStringTree, '(a b c x)');
466 T.SanityCheckParentAndChildIndexes;
467 end;
468
469 procedure TestICommonTree.TestReplaceInMiddle;
470 var
471 T, NewChild: ICommonTree;
472 begin
473 T := TCommonTree.Create(TCommonToken.Create(99, 'a'));
474 T.AddChild(TCommonTree.Create(TCommonToken.Create(99, 'b')));
475 T.AddChild(TCommonTree.Create(TCommonToken.Create(99, 'c'))); // index 1
476 T.AddChild(TCommonTree.Create(TCommonToken.Create(99, 'd')));
477 NewChild := TCommonTree.Create(TCommonToken.Create(99, 'x'));
478 T.ReplaceChildren(1, 1, NewChild);
479 CheckEquals(T.ToStringTree, '(a b x d)');
480 T.SanityCheckParentAndChildIndexes;
481 end;
482
483 procedure TestICommonTree.TestReplaceOneWithTwoAtLeft;
484 var
485 Adaptor: ITreeAdaptor;
486 T, NewChildren: ICommonTree;
487 begin
488 Adaptor := TCommonTreeAdaptor.Create;
489 T := TCommonTree.Create(TCommonToken.Create(99, 'a'));
490 T.AddChild(TCommonTree.Create(TCommonToken.Create(99, 'b')));
491 T.AddChild(TCommonTree.Create(TCommonToken.Create(99, 'c')));
492 T.AddChild(TCommonTree.Create(TCommonToken.Create(99, 'd')));
493 NewChildren := Adaptor.GetNilNode as ICommonTree;
494 NewChildren.AddChild(TCommonTree.Create(TCommonToken.Create(99, 'x')));
495 NewChildren.AddChild(TCommonTree.Create(TCommonToken.Create(99, 'y')));
496 T.ReplaceChildren(0, 0, NewChildren);
497 CheckEquals(T.ToStringTree, '(a x y c d)');
498 T.SanityCheckParentAndChildIndexes;
499 end;
500
501 procedure TestICommonTree.TestReplaceOneWithTwoAtRight;
502 var
503 Adaptor: ITreeAdaptor;
504 T, NewChildren: ICommonTree;
505 begin
506 Adaptor := TCommonTreeAdaptor.Create;
507 T := TCommonTree.Create(TCommonToken.Create(99, 'a'));
508 T.AddChild(TCommonTree.Create(TCommonToken.Create(99, 'b')));
509 T.AddChild(TCommonTree.Create(TCommonToken.Create(99, 'c')));
510 T.AddChild(TCommonTree.Create(TCommonToken.Create(99, 'd')));
511 NewChildren := Adaptor.GetNilNode as ICommonTree;
512 NewChildren.AddChild(TCommonTree.Create(TCommonToken.Create(99, 'x')));
513 NewChildren.AddChild(TCommonTree.Create(TCommonToken.Create(99, 'y')));
514 T.ReplaceChildren(2, 2, NewChildren);
515 CheckEquals(T.ToStringTree, '(a b c x y)');
516 T.SanityCheckParentAndChildIndexes;
517 end;
518
519 procedure TestICommonTree.TestReplaceOneWithTwoInMiddle;
520 var
521 Adaptor: ITreeAdaptor;
522 T, NewChildren: ICommonTree;
523 begin
524 Adaptor := TCommonTreeAdaptor.Create;
525 T := TCommonTree.Create(TCommonToken.Create(99, 'a'));
526 T.AddChild(TCommonTree.Create(TCommonToken.Create(99, 'b')));
527 T.AddChild(TCommonTree.Create(TCommonToken.Create(99, 'c')));
528 T.AddChild(TCommonTree.Create(TCommonToken.Create(99, 'd')));
529 NewChildren := Adaptor.GetNilNode as ICommonTree;
530 NewChildren.AddChild(TCommonTree.Create(TCommonToken.Create(99, 'x')));
531 NewChildren.AddChild(TCommonTree.Create(TCommonToken.Create(99, 'y')));
532 T.ReplaceChildren(1, 1, NewChildren);
533 CheckEquals(T.ToStringTree, '(a b x y d)');
534 T.SanityCheckParentAndChildIndexes;
535 end;
536
537 procedure TestICommonTree.TestReplaceTwoWithOneAtLeft;
538 var
539 T, NewChild: ICommonTree;
540 begin
541 T := TCommonTree.Create(TCommonToken.Create(99, 'a'));
542 T.AddChild(TCommonTree.Create(TCommonToken.Create(99, 'b')));
543 T.AddChild(TCommonTree.Create(TCommonToken.Create(99, 'c')));
544 T.AddChild(TCommonTree.Create(TCommonToken.Create(99, 'd')));
545 NewChild := TCommonTree.Create(TCommonToken.Create(99, 'x'));
546 T.ReplaceChildren(0, 1, NewChild);
547 CheckEquals(T.ToStringTree, '(a x d)');
548 T.SanityCheckParentAndChildIndexes;
549 end;
550
551 procedure TestICommonTree.TestReplaceTwoWithOneAtRight;
552 var
553 T, NewChild: ICommonTree;
554 begin
555 T := TCommonTree.Create(TCommonToken.Create(99, 'a'));
556 T.AddChild(TCommonTree.Create(TCommonToken.Create(99, 'b')));
557 T.AddChild(TCommonTree.Create(TCommonToken.Create(99, 'c')));
558 T.AddChild(TCommonTree.Create(TCommonToken.Create(99, 'd')));
559 NewChild := TCommonTree.Create(TCommonToken.Create(99, 'x'));
560 T.ReplaceChildren(1, 2, NewChild);
561 CheckEquals(T.ToStringTree, '(a b x)');
562 T.SanityCheckParentAndChildIndexes;
563 end;
564
565 procedure TestICommonTree.TestReplaceWithNoChildren;
566 var
567 T, NewChild: ICommonTree;
568 Error: Boolean;
569 begin
570 Exit; // already checked. Avoid exception
571 T := TCommonTree.Create(TCommonToken.Create(101));
572 NewChild := TCommonTree.Create(TCommonToken.Create(5));
573 Error := False;
574 try
575 T.ReplaceChildren(0, 0, NewChild);
576 except
577 Error := True;
578 end;
579 CheckTrue(Error);
580 end;
581
582 procedure TestICommonTree.TestReplaceWithOneChildren;
583 var
584 T, C0, NewChild: ICommonTree;
585 begin
586 // assume token type 99 and use text
587 T := TCommonTree.Create(TCommonToken.Create(99, 'a'));
588 C0 := TCommonTree.Create(TCommonToken.Create(99, 'b'));
589 T.AddChild(C0);
590 NewChild := TCommonTree.Create(TCommonToken.Create(99, 'c'));
591 T.ReplaceChildren(0, 0, NewChild);
592 CheckEquals(T.ToStringTree,'(a c)');
593 T.SanityCheckParentAndChildIndexes;
594 end;
595
596 procedure TestICommonTree.TestSingleNode;
597 var
598 T: ICommonTree;
599 begin
600 T := TCommonTree.Create(TCommonToken.Create(101));
601 CheckNull(T.Parent);
602 CheckEquals(T.ChildIndex, -1);
603 end;
604
CreateCommonTreeNodeStreamnull605 function TestICommonTreeNodeStream.CreateCommonTreeNodeStream(
606 const T: IANTLRInterface): ITreeNodeStream;
607 begin
608 Result := TCommonTreeNodeStream.Create(T);
609 end;
610
TestICommonTreeNodeStream.CreateUnBufferedTreeNodeStream(611 function TestICommonTreeNodeStream.CreateUnBufferedTreeNodeStream(
612 const T: IANTLRInterface): ITreeNodeStream;
613 begin
614 Result := TUnBufferedTreeNodeStream.Create(T);
615 end;
616
TestICommonTreeNodeStream.GetStringOfEntireStreamContentsWithNodeTypesOnly(617 function TestICommonTreeNodeStream.GetStringOfEntireStreamContentsWithNodeTypesOnly(
618 const Nodes: ITreeNodeStream): String;
619 var
620 Buf: TStringBuilder;
621 I, TokenType: Integer;
622 T: IANTLRInterface;
623 begin
624 Buf := TStringBuilder.Create;
625 try
626 for I := 0 to Nodes.Size - 1 do
627 begin
628 T := Nodes.LT(I + 1);
629 TokenType := Nodes.TreeAdaptor.GetNodeType(T);
630 if (TokenType <> TToken.DOWN) and (TokenType <> TToken.UP) then
631 begin
632 Buf.Append(' ');
633 Buf.Append(TokenType)
634 end;
635 end;
636 Result := Buf.ToString;
637 finally
638 Buf.Free;
639 end;
640 end;
641
642 procedure TestICommonTreeNodeStream.SetUp;
643 begin
644 end;
645
646 procedure TestICommonTreeNodeStream.TearDown;
647 begin
648 end;
649
650 procedure TestICommonTreeNodeStream.Test4Nodes;
651 var
652 T: ITree;
653 Stream: ITreeNodeStream;
654 begin
655 /// Test a tree with four nodes - ^(101 ^(102 103) 104)
656 T := TCommonTree.Create(TCommonToken.Create(101));
657 T.AddChild(TCommonTree.Create(TCommonToken.Create(102)));
658 T.GetChild(0).AddChild(TCommonTree.Create(TCommonToken.Create(103)));
659 T.AddChild(TCommonTree.Create(TCommonToken.Create(104)));
660
661 Stream := CreateCommonTreeNodeStream(T);
662 CheckEquals(GetStringOfEntireStreamContentsWithNodeTypesOnly(Stream),' 101 102 103 104');
663 CheckEquals(Stream.ToString, ' 101 2 102 2 103 3 104 3');
664 end;
665
666 procedure TestICommonTreeNodeStream.TestAoverB;
667 var
668 T: ITree;
669 Stream: ITreeNodeStream;
670 begin
671 T := TCommonTree.Create(TCommonToken.Create(101));
672 T.AddChild(TCommonTree.Create(TCommonToken.Create(102)));
673
674 Stream := CreateCommonTreeNodeStream(T);
675 CheckEquals(GetStringOfEntireStreamContentsWithNodeTypesOnly(Stream),' 101 102');
676 CheckEquals(Stream.ToString, ' 101 2 102 3');
677 end;
678
679 procedure TestICommonTreeNodeStream.TestBufferOverflow;
680 var
681 Buf, Buf2: TStringBuilder;
682 Stream: ITreeNodeStream;
683 T: ITree;
684 I: Integer;
685 begin
686 Buf := TStringBuilder.Create;
687 Buf2 := TStringBuilder.Create;
688 try
689 // make ^(101 102 ... n)
690 T := TCommonTree.Create(TCommonToken.Create(101));
691 Buf.Append(' 101');
692 Buf2.Append(' 101');
693 Buf2.Append(' ');
694 Buf2.Append(TToken.DOWN);
695
696 for I := 0 to TUnBufferedTreeNodeStream.INITIAL_LOOKAHEAD_BUFFER_SIZE + 10 do
697 begin
698 T.AddChild(TCommonTree.Create(TCommonToken.Create(102 + I)));
699 Buf.Append(' ');
700 Buf.Append(102 + I);
701 Buf2.Append(' ');
702 Buf2.Append(102 + I);
703 end;
704 Buf2.Append(' ');
705 Buf2.Append(TToken.UP);
706
707 Stream := CreateUnBufferedTreeNodeStream(T);
708 CheckEquals(GetStringOfEntireStreamContentsWithNodeTypesOnly(Stream), Buf.ToString);
709 CheckEquals(Stream.ToString, Buf2.ToString);
710 finally
711 Buf2.Free;
712 Buf.Free;
713 end;
714 end;
715
716 /// <summary>
717 /// Test what happens when tail hits the end of the buffer, but there
718 /// is more room left.
719 /// </summary>
720 /// <remarks>
721 /// Specifically that would mean that head is not at 0 but has
722 /// advanced somewhere to the middle of the lookahead buffer.
723 ///
724 /// Use Consume() to advance N nodes into lookahead. Then use LT()
725 /// to load at least INITIAL_LOOKAHEAD_BUFFER_SIZE-N nodes so the
726 /// buffer has to wrap.
727 /// </remarks>
728 procedure TestICommonTreeNodeStream.TestBufferWrap;
729 const
730 N = 10;
731 WrapBy = 4; // wrap around by 4 nodes
732 var
733 T: ITree;
734 I, Remaining: Integer;
735 Stream: ITreeNodeStream;
736 Node: ITree;
737 begin
738 // make tree with types: 1 2 ... INITIAL_LOOKAHEAD_BUFFER_SIZE+N
739 T := TCommonTree.Create(IToken(nil));
740 for I := 0 to TUnBufferedTreeNodeStream.INITIAL_LOOKAHEAD_BUFFER_SIZE + N - 1 do
741 T.AddChild(TCommonTree.Create(TCommonToken.Create(I + 1)));
742
743 // move head to index N
744 Stream := CreateUnBufferedTreeNodeStream(T);
745 for I := 1 to N do
746 begin
747 // consume N
748 Node := Stream.LT(1) as ITree;
749 CheckEquals(Node.TokenType, I);
750 Stream.Consume;
751 end;
752
753 // now use LT to lookahead past end of buffer
754 Remaining := TUnBufferedTreeNodeStream.INITIAL_LOOKAHEAD_BUFFER_SIZE - N;
755 CheckTrue(WrapBy < N);
756 for I := 1 to Remaining + WrapBy do
757 begin
758 // wrap past end of buffer
759 Node := Stream.LT(I) as ITree; // look ahead to ith token
760 CheckEquals(Node.TokenType, N + I);
761 end;
762 end;
763
764 procedure TestICommonTreeNodeStream.TestFlatList;
765 var
766 Root: ITree;
767 Stream: ITreeNodeStream;
768 begin
769 Root := TCommonTree.Create(IToken(nil));
770 Root.AddChild(TCommonTree.Create(TCommonToken.Create(101)));
771 Root.AddChild(TCommonTree.Create(TCommonToken.Create(102)));
772 Root.AddChild(TCommonTree.Create(TCommonToken.Create(103)));
773
774 Stream := CreateCommonTreeNodeStream(Root);
775 CheckEquals(GetStringOfEntireStreamContentsWithNodeTypesOnly(Stream),' 101 102 103');
776 CheckEquals(Stream.ToString, ' 101 102 103');
777 end;
778
779 procedure TestICommonTreeNodeStream.TestList;
780 var
781 Root, T, U: ITree;
782 Stream: ITreeNodeStream;
783 begin
784 Root := TCommonTree.Create(IToken(nil));
785
786 T := TCommonTree.Create(TCommonToken.Create(101));
787 T.AddChild(TCommonTree.Create(TCommonToken.Create(102)));
788 T.GetChild(0).AddChild(TCommonTree.Create(TCommonToken.Create(103)));
789 T.AddChild(TCommonTree.Create(TCommonToken.Create(104)));
790
791 U := TCommonTree.Create(TCommonToken.Create(105));
792
793 Root.AddChild(T);
794 Root.AddChild(U);
795
796 Stream := CreateCommonTreeNodeStream(Root);
797 CheckEquals(GetStringOfEntireStreamContentsWithNodeTypesOnly(Stream),' 101 102 103 104 105');
798 CheckEquals(Stream.ToString, ' 101 2 102 2 103 3 104 3 105');
799 end;
800
801 procedure TestICommonTreeNodeStream.TestListWithOneNode;
802 var
803 Root: ITree;
804 Stream: ITreeNodeStream;
805 begin
806 Root := TCommonTree.Create(IToken(nil));
807 Root.AddChild(TCommonTree.Create(TCommonToken.Create(101)));
808
809 Stream := CreateCommonTreeNodeStream(Root);
810 CheckEquals(GetStringOfEntireStreamContentsWithNodeTypesOnly(Stream),' 101');
811 CheckEquals(Stream.ToString, ' 101');
812 end;
813
814 procedure TestICommonTreeNodeStream.TestLT;
815 var
816 T: ITree;
817 Stream: ITreeNodeStream;
818 begin
819 // ^(101 ^(102 103) 104)
820 T := TCommonTree.Create(TCommonToken.Create(101));
821 T.AddChild(TCommonTree.Create(TCommonToken.Create(102)));
822 T.GetChild(0).AddChild(TCommonTree.Create(TCommonToken.Create(103)));
823 T.AddChild(TCommonTree.Create(TCommonToken.Create(104)));
824
825 Stream := CreateCommonTreeNodeStream(T);
826 CheckEquals((Stream.LT(1) as ITree).TokenType,101);
827 CheckEquals((Stream.LT(2) as ITree).TokenType,TToken.DOWN);
828 CheckEquals((Stream.LT(3) as ITree).TokenType,102);
829 CheckEquals((Stream.LT(4) as ITree).TokenType,TToken.DOWN);
830 CheckEquals((Stream.LT(5) as ITree).TokenType,103);
831 CheckEquals((Stream.LT(6) as ITree).TokenType,TToken.UP);
832 CheckEquals((Stream.LT(7) as ITree).TokenType,104);
833 CheckEquals((Stream.LT(8) as ITree).TokenType,TToken.UP);
834 CheckEquals((Stream.LT(9) as ITree).TokenType,TToken.EOF);
835 // check way ahead
836 CheckEquals((Stream.LT(100) as ITree).TokenType,TToken.EOF);
837 end;
838
839 procedure TestICommonTreeNodeStream.TestMarkRewindEntire;
840 var
841 R0, R1, R2: ITree;
842 Stream: ICommonTreeNodeStream;
843 M, K: Integer;
844 begin
845 // ^(101 ^(102 103 ^(106 107) ) 104 105)
846 // stream has 7 real + 6 nav nodes
847 // Sequence of types: 101 DN 102 DN 103 106 DN 107 UP UP 104 105 UP EOF
848 R0 := TCommonTree.Create(TCommonToken.Create(101));
849 R1 := TCommonTree.Create(TCommonToken.Create(102));
850 R0.AddChild(R1);
851 R1.AddChild(TCommonTree.Create(TCommonToken.Create(103)));
852 R2 := TCommonTree.Create(TCommonToken.Create(106));
853 R2.AddChild(TCommonTree.Create(TCommonToken.Create(107)));
854 R1.AddChild(R2);
855 R0.AddChild(TCommonTree.Create(TCommonToken.Create(104)));
856 R0.AddChild(TCommonTree.Create(TCommonToken.Create(105)));
857
858 Stream := TCommonTreeNodeStream.Create(R0);
859 M := Stream.Mark;
860 for K := 1 to 13 do
861 begin
862 // consume til end
863 Stream.LT(1);
864 Stream.Consume;
865 end;
866 CheckEquals((Stream.LT(1) as ITree).TokenType,TToken.EOF);
867 CheckEquals((Stream.LT(-1) as ITree).TokenType,TToken.UP);
868 Stream.Rewind(M);
869
870 for K := 1 to 13 do
871 begin
872 // consume til end
873 Stream.LT(1);
874 Stream.Consume;
875 end;
876 CheckEquals((Stream.LT(1) as ITree).TokenType,TToken.EOF);
877 CheckEquals((Stream.LT(-1) as ITree).TokenType,TToken.UP);
878 end;
879
880 procedure TestICommonTreeNodeStream.TestMarkRewindInMiddle;
881 var
882 R0, R1, R2: ITree;
883 Stream: ICommonTreeNodeStream;
884 M, K: Integer;
885 begin
886 // ^(101 ^(102 103 ^(106 107) ) 104 105)
887 // stream has 7 real + 6 nav nodes
888 // Sequence of types: 101 DN 102 DN 103 106 DN 107 UP UP 104 105 UP EOF
889 R0 := TCommonTree.Create(TCommonToken.Create(101));
890 R1 := TCommonTree.Create(TCommonToken.Create(102));
891 R0.AddChild(R1);
892 R1.AddChild(TCommonTree.Create(TCommonToken.Create(103)));
893 R2 := TCommonTree.Create(TCommonToken.Create(106));
894 R2.AddChild(TCommonTree.Create(TCommonToken.Create(107)));
895 R1.AddChild(R2);
896 R0.AddChild(TCommonTree.Create(TCommonToken.Create(104)));
897 R0.AddChild(TCommonTree.Create(TCommonToken.Create(105)));
898
899 Stream := TCommonTreeNodeStream.Create(R0);
900 for K := 1 to 7 do
901 begin
902 // consume til middle
903 Stream.Consume;
904 end;
905 CheckEquals((Stream.LT(1) as ITree).TokenType,107);
906 M := Stream.Mark;
907 Stream.Consume; // consume 107
908 Stream.Consume; // consume UP
909 Stream.Consume; // consume UP
910 Stream.Consume; // consume 104
911 Stream.Rewind(M);
912
913 CheckEquals((Stream.LT(1) as ITree).TokenType,107);
914 Stream.Consume;
915 CheckEquals((Stream.LT(1) as ITree).TokenType,TToken.UP);
916 Stream.Consume;
917 CheckEquals((Stream.LT(1) as ITree).TokenType,TToken.UP);
918 Stream.Consume;
919 CheckEquals((Stream.LT(1) as ITree).TokenType,104);
920 Stream.Consume;
921 // now we're past rewind position
922 CheckEquals((Stream.LT(1) as ITree).TokenType,105);
923 Stream.Consume;
924 CheckEquals((Stream.LT(1) as ITree).TokenType,TToken.UP);
925 Stream.Consume;
926 CheckEquals((Stream.LT(1) as ITree).TokenType,TToken.EOF);
927 CheckEquals((Stream.LT(-1) as ITree).TokenType,TToken.UP);
928 end;
929
930 procedure TestICommonTreeNodeStream.TestMarkRewindNested;
931 var
932 R0, R1, R2: ITree;
933 Stream: ICommonTreeNodeStream;
934 M, M2: Integer;
935 begin
936 // ^(101 ^(102 103 ^(106 107) ) 104 105)
937 // stream has 7 real + 6 nav nodes
938 // Sequence of types: 101 DN 102 DN 103 106 DN 107 UP UP 104 105 UP EOF
939 R0 := TCommonTree.Create(TCommonToken.Create(101));
940 R1 := TCommonTree.Create(TCommonToken.Create(102));
941 R0.AddChild(R1);
942 R1.AddChild(TCommonTree.Create(TCommonToken.Create(103)));
943 R2 := TCommonTree.Create(TCommonToken.Create(106));
944 R2.AddChild(TCommonTree.Create(TCommonToken.Create(107)));
945 R1.AddChild(R2);
946 R0.AddChild(TCommonTree.Create(TCommonToken.Create(104)));
947 R0.AddChild(TCommonTree.Create(TCommonToken.Create(105)));
948
949 Stream := TCommonTreeNodeStream.Create(R0);
950 M := Stream.Mark; // MARK at start
951 Stream.Consume; // consume 101
952 Stream.Consume; // consume DN
953 M2:= Stream.Mark; // MARK on 102
954 Stream.Consume; // consume 102
955 Stream.Consume; // consume DN
956 Stream.Consume; // consume 103
957 Stream.Consume; // consume 106
958 Stream.Rewind(M2);
959 CheckEquals((Stream.LT(1) as ITree).TokenType,102);
960 Stream.Consume;
961 CheckEquals((Stream.LT(1) as ITree).TokenType,TToken.DOWN);
962 Stream.Consume;
963 // stop at 103 and rewind to start
964 Stream.Rewind(M); // REWIND to 101
965 CheckEquals((Stream.LT(1) as ITree).TokenType,101);
966 Stream.Consume;
967 CheckEquals((Stream.LT(1) as ITree).TokenType,TToken.DOWN);
968 Stream.Consume;
969 CheckEquals((Stream.LT(1) as ITree).TokenType,102);
970 Stream.Consume;
971 CheckEquals((Stream.LT(1) as ITree).TokenType,TToken.DOWN);
972 end;
973
974 procedure TestICommonTreeNodeStream.TestNestedPushPop;
975 const
976 IndexOf102 = 2;
977 IndexOf104 = 6;
978 IndexOf107 = 12;
979 var
980 R0, R1, R2, R3: ITree;
981 Stream: ICommonTreeNodeStream;
982 K: Integer;
983 begin
984 // ^(101 ^(102 103) ^(104 105) ^(106 107) 108 109)
985 // stream has 9 real + 8 nav nodes
986 // Sequence of types: 101 DN 102 DN 103 UP 104 DN 105 UP 106 DN 107 UP 108 109 UP
987 R0 := TCommonTree.Create(TCommonToken.Create(101));
988 R1 := TCommonTree.Create(TCommonToken.Create(102));
989 R1.AddChild(TCommonTree.Create(TCommonToken.Create(103)));
990 R0.AddChild(R1);
991 R2 := TCommonTree.Create(TCommonToken.Create(104));
992 R2.AddChild(TCommonTree.Create(TCommonToken.Create(105)));
993 R0.AddChild(R2);
994 R3 := TCommonTree.Create(TCommonToken.Create(106));
995 R3.AddChild(TCommonTree.Create(TCommonToken.Create(107)));
996 R0.AddChild(R3);
997 R0.AddChild(TCommonTree.Create(TCommonToken.Create(108)));
998 R0.AddChild(TCommonTree.Create(TCommonToken.Create(109)));
999
1000 Stream := TCommonTreeNodeStream.Create(R0);
1001 CheckEquals(Stream.ToString, ' 101 2 102 2 103 3 104 2 105 3 106 2 107 3 108 109 3');
1002
1003 // Assume we want to hit node 107 and then "call 102", which
1004 // calls 104, then return
1005 for K := 1 to IndexOf107 do
1006 // consume til 107 node
1007 Stream.Consume;
1008
1009 CheckEquals((Stream.LT(1) as ITree).TokenType,107);
1010 // CALL 102
1011 Stream.Push(IndexOf102);
1012 CheckEquals((Stream.LT(1) as ITree).TokenType,102);
1013 Stream.Consume; // consume 102
1014 CheckEquals((Stream.LT(1) as ITree).TokenType,TToken.DOWN);
1015 Stream.Consume; // consume DN
1016 CheckEquals((Stream.LT(1) as ITree).TokenType,103);
1017 Stream.Consume; // consume 103
1018
1019 // CALL 104
1020 Stream.Push(IndexOf104);
1021 CheckEquals((Stream.LT(1) as ITree).TokenType,104);
1022 Stream.Consume; // consume 104
1023 CheckEquals((Stream.LT(1) as ITree).TokenType,TToken.DOWN);
1024 Stream.Consume; // consume DN
1025 CheckEquals((Stream.LT(1) as ITree).TokenType,105);
1026 Stream.Consume; // consume 1045
1027 CheckEquals((Stream.LT(1) as ITree).TokenType,TToken.UP);
1028
1029 // RETURN (to UP node in 102 subtree)
1030 Stream.Pop;
1031 CheckEquals((Stream.LT(1) as ITree).TokenType,TToken.UP);
1032
1033 // RETURN (to empty stack)
1034 Stream.Pop;
1035 CheckEquals((Stream.LT(1) as ITree).TokenType,107);
1036 end;
1037
1038 procedure TestICommonTreeNodeStream.TestPushPop;
1039 const
1040 IndexOf102 = 2;
1041 IndexOf107 = 12;
1042 var
1043 R0, R1, R2, R3: ITree;
1044 Stream: ICommonTreeNodeStream;
1045 K: Integer;
1046 begin
1047 // ^(101 ^(102 103) ^(104 105) ^(106 107) 108 109)
1048 // stream has 9 real + 8 nav nodes
1049 // Sequence of types: 101 DN 102 DN 103 UP 104 DN 105 UP 106 DN 107 UP 108 109 UP
1050 R0 := TCommonTree.Create(TCommonToken.Create(101));
1051 R1 := TCommonTree.Create(TCommonToken.Create(102));
1052 R1.AddChild(TCommonTree.Create(TCommonToken.Create(103)));
1053 R0.AddChild(R1);
1054 R2 := TCommonTree.Create(TCommonToken.Create(104));
1055 R2.AddChild(TCommonTree.Create(TCommonToken.Create(105)));
1056 R0.AddChild(R2);
1057 R3 := TCommonTree.Create(TCommonToken.Create(106));
1058 R3.AddChild(TCommonTree.Create(TCommonToken.Create(107)));
1059 R0.AddChild(R3);
1060 R0.AddChild(TCommonTree.Create(TCommonToken.Create(108)));
1061 R0.AddChild(TCommonTree.Create(TCommonToken.Create(109)));
1062
1063 Stream := TCommonTreeNodeStream.Create(R0);
1064 CheckEquals(Stream.ToString, ' 101 2 102 2 103 3 104 2 105 3 106 2 107 3 108 109 3');
1065
1066 // Assume we want to hit node 107 and then "call 102" then return
1067 for K := 1 to IndexOf107 do
1068 // consume til 107 node
1069 Stream.Consume;
1070
1071 // CALL 102
1072 CheckEquals((Stream.LT(1) as ITree).TokenType,107);
1073 Stream.Push(IndexOf102);
1074 CheckEquals((Stream.LT(1) as ITree).TokenType,102);
1075 Stream.Consume; // consume 102
1076 CheckEquals((Stream.LT(1) as ITree).TokenType,TToken.DOWN);
1077 Stream.Consume; // consume DN
1078 CheckEquals((Stream.LT(1) as ITree).TokenType,103);
1079 Stream.Consume; // consume 103
1080 CheckEquals((Stream.LT(1) as ITree).TokenType,TToken.UP);
1081 // RETURN
1082 Stream.Pop;
1083 CheckEquals((Stream.LT(1) as ITree).TokenType,107);
1084 end;
1085
1086 procedure TestICommonTreeNodeStream.TestPushPopFromEOF;
1087 const
1088 IndexOf102 = 2;
1089 IndexOf104 = 6;
1090 var
1091 R0, R1, R2, R3: ITree;
1092 Stream: ICommonTreeNodeStream;
1093 begin
1094 // ^(101 ^(102 103) ^(104 105) ^(106 107) 108 109)
1095 // stream has 9 real + 8 nav nodes
1096 // Sequence of types: 101 DN 102 DN 103 UP 104 DN 105 UP 106 DN 107 UP 108 109 UP
1097 R0 := TCommonTree.Create(TCommonToken.Create(101));
1098 R1 := TCommonTree.Create(TCommonToken.Create(102));
1099 R1.AddChild(TCommonTree.Create(TCommonToken.Create(103)));
1100 R0.AddChild(R1);
1101 R2 := TCommonTree.Create(TCommonToken.Create(104));
1102 R2.AddChild(TCommonTree.Create(TCommonToken.Create(105)));
1103 R0.AddChild(R2);
1104 R3 := TCommonTree.Create(TCommonToken.Create(106));
1105 R3.AddChild(TCommonTree.Create(TCommonToken.Create(107)));
1106 R0.AddChild(R3);
1107 R0.AddChild(TCommonTree.Create(TCommonToken.Create(108)));
1108 R0.AddChild(TCommonTree.Create(TCommonToken.Create(109)));
1109
1110 Stream := TCommonTreeNodeStream.Create(R0);
1111 CheckEquals(Stream.ToString, ' 101 2 102 2 103 3 104 2 105 3 106 2 107 3 108 109 3');
1112
1113 while (Stream.LA(1) <> TToken.EOF) do
1114 Stream.Consume;
1115 CheckEquals((Stream.LT(1) as ITree).TokenType,TToken.EOF);
1116
1117 // CALL 102
1118 Stream.Push(IndexOf102);
1119 CheckEquals((Stream.LT(1) as ITree).TokenType,102);
1120 Stream.Consume; // consume 102
1121 CheckEquals((Stream.LT(1) as ITree).TokenType,TToken.DOWN);
1122 Stream.Consume; // consume DN
1123 CheckEquals((Stream.LT(1) as ITree).TokenType,103);
1124 Stream.Consume; // consume 103
1125 CheckEquals((Stream.LT(1) as ITree).TokenType,TToken.UP);
1126 // RETURN (to empty stack)
1127 Stream.Pop;
1128 CheckEquals((Stream.LT(1) as ITree).TokenType,TToken.EOF);
1129
1130 // CALL 104
1131 Stream.Push(IndexOf104);
1132 CheckEquals((Stream.LT(1) as ITree).TokenType,104);
1133 Stream.Consume; // consume 104
1134 CheckEquals((Stream.LT(1) as ITree).TokenType,TToken.DOWN);
1135 Stream.Consume; // consume DN
1136 CheckEquals((Stream.LT(1) as ITree).TokenType,105);
1137 Stream.Consume; // consume 105
1138 CheckEquals((Stream.LT(1) as ITree).TokenType,TToken.UP);
1139 // RETURN (to empty stack)
1140 Stream.Pop;
1141 CheckEquals((Stream.LT(1) as ITree).TokenType,TToken.EOF);
1142 end;
1143
1144 procedure TestICommonTreeNodeStream.TestSeek;
1145 var
1146 R0, R1, R2: ITree;
1147 Stream: ICommonTreeNodeStream;
1148 begin
1149 // ^(101 ^(102 103 ^(106 107) ) 104 105)
1150 // stream has 7 real + 6 nav nodes
1151 // Sequence of types: 101 DN 102 DN 103 106 DN 107 UP UP 104 105 UP EOF
1152 R0 := TCommonTree.Create(TCommonToken.Create(101));
1153 R1 := TCommonTree.Create(TCommonToken.Create(102));
1154 R0.AddChild(R1);
1155 R1.AddChild(TCommonTree.Create(TCommonToken.Create(103)));
1156 R2 := TCommonTree.Create(TCommonToken.Create(106));
1157 R2.AddChild(TCommonTree.Create(TCommonToken.Create(107)));
1158 R1.AddChild(R2);
1159 R0.AddChild(TCommonTree.Create(TCommonToken.Create(104)));
1160 R0.AddChild(TCommonTree.Create(TCommonToken.Create(105)));
1161
1162 Stream := TCommonTreeNodeStream.Create(R0);
1163 Stream.Consume; // consume 101
1164 Stream.Consume; // consume DN
1165 Stream.Consume; // consume 102
1166 Stream.Seek(7); // seek to 107
1167 CheckEquals((Stream.LT(1) as ITree).TokenType,107);
1168 Stream.Consume; // consume 107
1169 Stream.Consume; // consume UP
1170 Stream.Consume; // consume UP
1171 CheckEquals((Stream.LT(1) as ITree).TokenType,104);
1172 end;
1173
1174 procedure TestICommonTreeNodeStream.TestSeekFromStart;
1175 var
1176 R0, R1, R2: ITree;
1177 Stream: ICommonTreeNodeStream;
1178 begin
1179 // ^(101 ^(102 103 ^(106 107) ) 104 105)
1180 // stream has 7 real + 6 nav nodes
1181 // Sequence of types: 101 DN 102 DN 103 106 DN 107 UP UP 104 105 UP EOF
1182 R0 := TCommonTree.Create(TCommonToken.Create(101));
1183 R1 := TCommonTree.Create(TCommonToken.Create(102));
1184 R0.AddChild(R1);
1185 R1.AddChild(TCommonTree.Create(TCommonToken.Create(103)));
1186 R2 := TCommonTree.Create(TCommonToken.Create(106));
1187 R2.AddChild(TCommonTree.Create(TCommonToken.Create(107)));
1188 R1.AddChild(R2);
1189 R0.AddChild(TCommonTree.Create(TCommonToken.Create(104)));
1190 R0.AddChild(TCommonTree.Create(TCommonToken.Create(105)));
1191
1192 Stream := TCommonTreeNodeStream.Create(R0);
1193 Stream.Seek(7); // seek to 107
1194 CheckEquals((Stream.LT(1) as ITree).TokenType,107);
1195 Stream.Consume; // consume 107
1196 Stream.Consume; // consume UP
1197 Stream.Consume; // consume UP
1198 CheckEquals((Stream.LT(1) as ITree).TokenType,104);
1199 end;
1200
1201 procedure TestICommonTreeNodeStream.TestSingleNode;
1202 var
1203 T: ITree;
1204 Stream: ITreeNodeStream;
1205 begin
1206 T := TCommonTree.Create(TCommonToken.Create(101));
1207 Stream := CreateCommonTreeNodeStream(T);
1208 CheckEquals(GetStringOfEntireStreamContentsWithNodeTypesOnly(Stream),' 101');
1209 CheckEquals(Stream.ToString, ' 101');
1210 end;
1211
1212 procedure TestICommonTreeNodeStream.TestStackStretch;
1213 var
1214 R0: ICommonTree;
1215 Stream: ICommonTreeNodeStream;
1216 I: Integer;
1217 begin
1218 // make more than INITIAL_CALL_STACK_SIZE pushes
1219 R0 := TCommonTree.Create(TCommonToken.Create(101));
1220 Stream := TCommonTreeNodeStream.Create(R0);
1221
1222 // go 1 over initial size
1223 for I := 1 to TCommonTreeNodeStream.INITIAL_CALL_STACK_SIZE + 1 do
1224 Stream.Push(I);
1225
1226 CheckEquals(Stream.Pop, 10);
1227 CheckEquals(Stream.Pop, 9);
1228 end;
1229
CreateTokennull1230 function TestIRewriteRuleXxxxStream.CreateToken(const TokenType: Integer;
1231 const Text: String): IToken;
1232 begin
1233 Result := TCommonToken.Create(TokenType, Text);
1234 end;
1235
CreateTokenListnull1236 function TestIRewriteRuleXxxxStream.CreateTokenList(
1237 const Count: Integer): IList<IToken>;
1238 var
1239 I: Integer;
1240 begin
1241 Result := TList<IToken>.Create;
1242 for I := 0 to Count - 1 do
1243 Result.Add(TCommonToken.Create(I + 1,'test token ' + IntToStr(I + 1)
1244 + ' without any real context'));
1245 end;
1246
CreateTreenull1247 function TestIRewriteRuleXxxxStream.CreateTree(const Token: IToken): ITree;
1248 begin
1249 Result := TCommonTree.Create(Token);
1250 end;
1251
CreateTreeAdaptornull1252 function TestIRewriteRuleXxxxStream.CreateTreeAdaptor: ITreeAdaptor;
1253 begin
1254 Result := TCommonTreeAdaptor.Create;
1255 end;
1256
1257 procedure TestIRewriteRuleXxxxStream.SetUp;
1258 begin
1259 end;
1260
1261 procedure TestIRewriteRuleXxxxStream.TearDown;
1262 begin
1263 end;
1264
1265 procedure TestIRewriteRuleXxxxStream.TestRewriteRuleNodeStreamConstructors;
1266 var
1267 NodeTest1, NodeTest2, NodeTest3: IRewriteRuleNodeStream;
1268 begin
1269 NodeTest1 := TRewriteRuleNodeStream.Create(CreateTreeAdaptor,
1270 'RewriteRuleNodeStream test1');
1271
1272 NodeTest2 := TRewriteRuleNodeStream.Create(CreateTreeAdaptor,
1273 'RewriteRuleNodeStream test2',
1274 CreateToken(1,'test token without any real context'));
1275
1276 NodeTest3 := TRewriteRuleNodeStream.Create(CreateTreeAdaptor,
1277 'RewriteRuleNodeStream test3', CreateTokenList(4));
1278 end;
1279
1280 procedure TestIRewriteRuleXxxxStream.TestRewriteRuleSubtreeStreamConstructors;
1281 var
1282 SubtreeTest1, SubtreeTest2, SubtreeTest3: IRewriteRuleSubtreeStream;
1283 begin
1284 SubtreeTest1 := TRewriteRuleSubtreeStream.Create(CreateTreeAdaptor,
1285 'RewriteRuleSubtreeStream test1');
1286
1287 SubtreeTest2 := TRewriteRuleSubtreeStream.Create(CreateTreeAdaptor,
1288 'RewriteRuleSubtreeStream test2',
1289 CreateToken(1,'test token without any real context'));
1290
1291 SubtreeTest3 := TRewriteRuleSubtreeStream.Create(CreateTreeAdaptor,
1292 'RewriteRuleSubtreeStream test3', CreateTokenList(4));
1293 end;
1294
1295 procedure TestIRewriteRuleXxxxStream.TestRewriteRuleTokenStreamConstructors;
1296 var
1297 TokenTest1, TokenTest2, TokenTest3: IRewriteRuleTokenStream;
1298 begin
1299 TokenTest1 := TRewriteRuleTokenStream.Create(CreateTreeAdaptor,
1300 'RewriteRuleTokenStream test1');
1301
1302 TokenTest2 := TRewriteRuleTokenStream.Create(CreateTreeAdaptor,
1303 'RewriteRuleTokenStream test2',
1304 CreateToken(1, 'test token without any real context'));
1305
1306 TokenTest3 := TRewriteRuleTokenStream.Create(CreateTreeAdaptor,
1307 'RewriteRuleTokenStream test3', CreateTokenList(4));
1308 end;
1309
1310 procedure TestIRewriteRuleXxxxStream.TestRRNodeStreamBehaviourWhileEmpty1;
1311 const
1312 Description = 'RewriteRuleNodeStream test';
1313 var
1314 NodeTest: IRewriteRuleNodeStream;
1315 begin
1316 ExpectedException := ERewriteEmptyStreamException;
1317 NodeTest := TRewriteRuleNodeStream.Create(CreateTreeAdaptor, Description);
1318
1319 CheckFalse(NodeTest.HasNext);
1320 CheckEquals(Description, NodeTest.Description);
1321 CheckEquals(NodeTest.Size, 0);
1322 NodeTest.Reset;
1323 CheckEquals(NodeTest.Size, 0);
1324 NodeTest.NextNode;
1325 end;
1326
1327 procedure TestIRewriteRuleXxxxStream.TestRRNodeStreamBehaviourWhileEmpty2;
1328 const
1329 Description = 'RewriteRuleNodeStream test';
1330 var
1331 NodeTest: IRewriteRuleNodeStream;
1332 begin
1333 ExpectedException := ERewriteEmptyStreamException;
1334 NodeTest := TRewriteRuleNodeStream.Create(CreateTreeAdaptor, Description);
1335 NodeTest.NextTree;
1336 end;
1337
1338 procedure TestIRewriteRuleXxxxStream.TestRRNodeStreamBehaviourWithElements;
1339 var
1340 NodeTest: IRewriteRuleNodeStream;
1341 Token1, Token2: IToken;
1342 Tree1, Tree2: ITree;
1343 ReturnedTree: ICommonTree;
1344 begin
1345 ExpectedException := ERewriteCardinalityException;
1346 NodeTest := TRewriteRuleNodeStream.Create(CreateTreeAdaptor, 'RewriteRuleNodeStream test');
1347 Token1 := CreateToken(1, 'test token without any real context');
1348 Tree1 := CreateTree(Token1);
1349
1350 // Test Add()
1351 NodeTest.Add(Tree1);
1352 CheckEquals(NodeTest.Size, 1);
1353 CheckTrue(NodeTest.HasNext);
1354
1355 // Test NextNode()
1356 ReturnedTree := NodeTest.NextNode as ICommoNTree;
1357 CheckEquals(ReturnedTree.TokenType, Tree1.TokenType);
1358 CheckEquals(NodeTest.Size, 1);
1359 CheckFalse(NodeTest.HasNext);
1360 NodeTest.Reset;
1361 CheckEquals(NodeTest.Size, 1);
1362 CheckTrue(NodeTest.HasNext);
1363
1364 // Test NextTree()
1365 ReturnedTree := NodeTest.NextTree as ICommonTree;
1366 Check(SameObj(Token1, ReturnedTree.Token));
1367 CheckEquals(NodeTest.Size, 1);
1368 CheckFalse(NodeTest.HasNext);
1369 NodeTest.Reset;
1370 CheckEquals(NodeTest.Size, 1);
1371 CheckTrue(NodeTest.HasNext);
1372
1373 // Test, what happens with two elements
1374 Token2 := CreateToken(2, 'test token without any real context');
1375 Tree2 := CreateTree(Token2);
1376 NodeTest.Add(Tree2);
1377 CheckEquals(NodeTest.Size, 2);
1378 CheckTrue(NodeTest.HasNext);
1379 ReturnedTree := NodeTest.NextTree as ICommonTree;
1380 Check(SameObj(Token1, ReturnedTree.Token));
1381 CheckEquals(NodeTest.Size, 2);
1382 CheckTrue(NodeTest.HasNext);
1383 ReturnedTree := NodeTest.NextTree as ICommonTree;
1384 Check(SameObj(Token2, ReturnedTree.Token));
1385 CheckFalse(NodeTest.HasNext);
1386
1387 // Test exception
1388 NodeTest.NextTree;
1389 end;
1390
1391 procedure TestIRewriteRuleXxxxStream.TestRRSubtreeStreamBehaviourWhileEmpty1;
1392 const
1393 Description = 'RewriteRuleSubtreeStream test';
1394 var
1395 SubtreeTest: IRewriteRuleSubtreeStream;
1396 begin
1397 ExpectedException := ERewriteEmptyStreamException;
1398 SubtreeTest := TRewriteRuleSubtreeStream.Create(CreateTreeAdaptor, Description);
1399
1400 CheckFalse(SubtreeTest.HasNext);
1401 CheckEquals(Description, SubtreeTest.Description);
1402 CheckEquals(SubtreeTest.Size, 0);
1403 SubtreeTest.Reset;
1404 CheckEquals(SubtreeTest.Size, 0);
1405 SubtreeTest.NextNode;
1406 end;
1407
1408 procedure TestIRewriteRuleXxxxStream.TestRRSubtreeStreamBehaviourWhileEmpty2;
1409 const
1410 Description = 'RewriteRuleSubtreeStream test';
1411 var
1412 SubtreeTest: IRewriteRuleSubtreeStream;
1413 begin
1414 ExpectedException := ERewriteEmptyStreamException;
1415 SubtreeTest := TRewriteRuleSubtreeStream.Create(CreateTreeAdaptor, Description);
1416 SubtreeTest.NextTree;
1417 end;
1418
1419 procedure TestIRewriteRuleXxxxStream.TestRRSubtreeStreamBehaviourWithElements;
1420 var
1421 SubtreeTest: IRewriteRuleSubtreeStream;
1422 Token1, Token2: IToken;
1423 Tree1, Tree2: ITree;
1424 ReturnedTree: ICommonTree;
1425 begin
1426 ExpectedException := ERewriteCardinalityException;
1427 SubtreeTest := TRewriteRuleSubtreeStream.Create(CreateTreeAdaptor, 'RewriteRuleSubtreeStream test');
1428 Token1 := CreateToken(1, 'test token without any real context');
1429 Tree1 := CreateTree(Token1);
1430
1431 // Test Add()
1432 SubtreeTest.Add(Tree1);
1433 CheckEquals(SubtreeTest.Size, 1);
1434 CheckTrue(SubtreeTest.HasNext);
1435
1436 // Test NextNode()
1437 Check(SameObj(SubtreeTest.NextNode, Tree1));
1438 CheckEquals(SubtreeTest.Size, 1);
1439 CheckFalse(SubtreeTest.HasNext);
1440 SubtreeTest.Reset;
1441 CheckEquals(SubtreeTest.Size, 1);
1442 CheckTrue(SubtreeTest.HasNext);
1443
1444 // Test NextTree()
1445 ReturnedTree := SubtreeTest.NextTree as ICommonTree;
1446 Check(SameObj(Token1, ReturnedTree.Token));
1447 CheckEquals(SubtreeTest.Size, 1);
1448 CheckFalse(SubtreeTest.HasNext);
1449 SubtreeTest.Reset;
1450 CheckEquals(SubtreeTest.Size, 1);
1451 CheckTrue(SubtreeTest.HasNext);
1452
1453 // Test, what happens with two elements
1454 Token2 := CreateToken(2, 'test token without any real context');
1455 Tree2 := CreateTree(Token2);
1456 SubtreeTest.Add(Tree2);
1457 CheckEquals(SubtreeTest.Size, 2);
1458 CheckTrue(SubtreeTest.HasNext);
1459 ReturnedTree := SubtreeTest.NextTree as ICommonTree;
1460 Check(SameObj(Token1, ReturnedTree.Token));
1461 CheckEquals(SubtreeTest.Size, 2);
1462 CheckTrue(SubtreeTest.HasNext);
1463 ReturnedTree := SubtreeTest.NextTree as ICommonTree;
1464 Check(SameObj(Token2, ReturnedTree.Token));
1465 CheckFalse(SubtreeTest.HasNext);
1466
1467 // Test exception
1468 SubtreeTest.NextTree;
1469 end;
1470
1471 procedure TestIRewriteRuleXxxxStream.TestRRTokenStreamBehaviourWhileEmpty1;
1472 const
1473 Description = 'RewriteRuleTokenStream test';
1474 var
1475 TokenTest: IRewriteRuleTokenStream;
1476 begin
1477 ExpectedException := ERewriteEmptyStreamException;
1478 TokenTest := TRewriteRuleTokenStream.Create(CreateTreeAdaptor, Description);
1479
1480 CheckFalse(TokenTest.HasNext);
1481 CheckEquals(Description, TokenTest.Description);
1482 CheckEquals(TokenTest.Size, 0);
1483 TokenTest.Reset;
1484 CheckEquals(TokenTest.Size, 0);
1485 TokenTest.NextNode;
1486 end;
1487
1488 procedure TestIRewriteRuleXxxxStream.TestRRTokenStreamBehaviourWhileEmpty2;
1489 const
1490 Description = 'RewriteRuleTokenStream test';
1491 var
1492 TokenTest: IRewriteRuleTokenStream;
1493 begin
1494 ExpectedException := ERewriteEmptyStreamException;
1495 TokenTest := TRewriteRuleTokenStream.Create(CreateTreeAdaptor, Description);
1496 TokenTest.NextTree;
1497 end;
1498
1499 procedure TestIRewriteRuleXxxxStream.TestRRTokenStreamBehaviourWhileEmpty3;
1500 const
1501 Description = 'RewriteRuleTokenStream test';
1502 var
1503 TokenTest: IRewriteRuleTokenStream;
1504 begin
1505 ExpectedException := ERewriteEmptyStreamException;
1506 TokenTest := TRewriteRuleTokenStream.Create(CreateTreeAdaptor, Description);
1507 TokenTest.NextToken;
1508 end;
1509
1510 procedure TestIRewriteRuleXxxxStream.TestRRTokenStreamBehaviourWithElements;
1511 var
1512 TokenTest: IRewriteRuleTokenStream;
1513 Token1, Token2, ReturnedToken: IToken;
1514 Tree: ICommonTree;
1515 begin
1516 ExpectedException := ERewriteCardinalityException;
1517 TokenTest := TRewriteRuleTokenStream.Create(CreateTreeAdaptor, 'RewriteRuleTokenStream test');
1518 Token1 := CreateToken(1, 'test token without any real context');
1519
1520 // Test Add()
1521 TokenTest.Add(Token1);
1522 CheckEquals(TokenTest.Size, 1);
1523 CheckTrue(TokenTest.HasNext);
1524
1525 // Test NextNode()
1526 Tree := TokenTest.NextNode as ICommonTree;
1527 Check(SameObj(Tree.Token, Token1));
1528 CheckEquals(TokenTest.Size, 1);
1529 CheckFalse(TokenTest.HasNext);
1530 TokenTest.Reset;
1531 CheckEquals(TokenTest.Size, 1);
1532 CheckTrue(TokenTest.HasNext);
1533
1534 // Test NextToken()
1535 ReturnedToken := TokenTest.NextToken;
1536 Check(SameObj(Token1, ReturnedToken));
1537 CheckEquals(TokenTest.Size, 1);
1538 CheckFalse(TokenTest.HasNext);
1539 TokenTest.Reset;
1540 CheckEquals(TokenTest.Size, 1);
1541 CheckTrue(TokenTest.HasNext);
1542
1543 // Test NextTree()
1544 ReturnedToken := TokenTest.NextTree as IToken;
1545 Check(SameObj(Token1, ReturnedToken));
1546 CheckEquals(TokenTest.Size, 1);
1547 CheckFalse(TokenTest.HasNext);
1548 TokenTest.Reset;
1549 CheckEquals(TokenTest.Size, 1);
1550 CheckTrue(TokenTest.HasNext);
1551
1552 // Test, what happens with two elements
1553 Token2 := CreateToken(2, 'test token without any real context');
1554 TokenTest.Add(Token2);
1555 CheckEquals(TokenTest.Size, 2);
1556 CheckTrue(TokenTest.HasNext);
1557 ReturnedToken := TokenTest.NextToken;
1558 Check(SameObj(Token1, ReturnedToken));
1559 CheckEquals(TokenTest.Size, 2);
1560 CheckTrue(TokenTest.HasNext);
1561 ReturnedToken := TokenTest.NextToken;
1562 Check(SameObj(Token2, ReturnedToken));
1563 CheckFalse(TokenTest.HasNext);
1564
1565 // Test exception
1566 TokenTest.NextToken;
1567 end;
1568
1569 constructor TestITreeWizard.Create(MethodName: String);
1570 const
1571 TOKENS: array [0..11] of String = ('', '', '', '', '', 'A', 'B', 'C', 'D', 'E', 'ID', 'VAR');
1572 var
1573 I: Integer;
1574 begin
1575 inherited;
1576 SetLength(FTokens,Length(TOKENS));
1577 for I := 0 to Length(TOKENS) - 1 do
1578 FTokens[I] := TOKENS[I];
1579 end;
1580
1581 procedure TestITreeWizard.SetUp;
1582 begin
1583 end;
1584
1585 procedure TestITreeWizard.TearDown;
1586 begin
1587 end;
1588
1589 procedure TestITreeWizard.TestDoubleLevelTree;
1590 var
1591 Adaptor: ITreeAdaptor;
1592 Wiz: ITreeWizard;
1593 T: ICommonTree;
1594 begin
1595 Adaptor := TCommonTreeAdaptor.Create;
1596 Wiz := TTreeWizard.Create(Adaptor, FTokens);
1597 T := Wiz.CreateTreeOrNode('(A (B C) (B D) E)') as ICommonTree;
1598 CheckEquals(T.ToStringTree, '(A (B C) (B D) E)');
1599 end;
1600
1601 procedure TestITreeWizard.TestEquals;
1602 var
1603 Adaptor: ITreeAdaptor;
1604 Wiz: ITreeWizard;
1605 T1, T2: ICommonTree;
1606 begin
1607 Adaptor := TCommonTreeAdaptor.Create;
1608 Wiz := TTreeWizard.Create(Adaptor, FTokens);
1609 T1 := Wiz.CreateTreeOrNode('(A B C)') as ICommonTree;
1610 T2 := Wiz.CreateTreeOrNode('(A B C)') as ICommonTree;
1611 CheckTrue(Wiz.Equals(T1, T2, Adaptor));
1612 end;
1613
1614 procedure TestITreeWizard.TestEqualsWithMismatchedText;
1615 var
1616 Adaptor: ITreeAdaptor;
1617 Wiz: ITreeWizard;
1618 T1, T2: ICommonTree;
1619 begin
1620 Adaptor := TCommonTreeAdaptor.Create;
1621 Wiz := TTreeWizard.Create(Adaptor, FTokens);
1622 T1 := Wiz.CreateTreeOrNode('(A B[foo] C)') as ICommonTree;
1623 T2 := Wiz.CreateTreeOrNode('(A B C)') as ICommonTree;
1624 CheckFalse(Wiz.Equals(T1, T2, Adaptor));
1625 end;
1626
1627 procedure TestITreeWizard.TestEqualsWithText;
1628 var
1629 Adaptor: ITreeAdaptor;
1630 Wiz: ITreeWizard;
1631 T1, T2: ICommonTree;
1632 begin
1633 Adaptor := TCommonTreeAdaptor.Create;
1634 Wiz := TTreeWizard.Create(Adaptor, FTokens);
1635 T1 := Wiz.CreateTreeOrNode('(A B[foo] C)') as ICommonTree;
1636 T2 := Wiz.CreateTreeOrNode('(A B[foo] C)') as ICommonTree;
1637 CheckTrue(Wiz.Equals(T1, T2, Adaptor));
1638 end;
1639
1640 procedure TestITreeWizard.TestFindPattern;
1641 var
1642 Adaptor: ITreeAdaptor;
1643 Wiz: ITreeWizard;
1644 T: ICommonTree;
1645 Subtrees, Elements: IList<IANTLRInterface>;
1646 begin
1647 Adaptor := TCommonTreeAdaptor.Create;
1648 Wiz := TTreeWizard.Create(Adaptor, FTokens);
1649 T := Wiz.CreateTreeOrNode('(A B C (A[foo] B[bar]) (D (A[big] B[dog])))') as ICommonTree;
1650 Subtrees := Wiz.Find(T, '(A B)');
1651 Elements := Subtrees;
1652 CheckEquals('[foo, big]', TCollectionUtils.ListToString(Elements));
1653 end;
1654
1655 procedure TestITreeWizard.TestInvalidListTree;
1656 var
1657 Adaptor: ITreeAdaptor;
1658 Wiz: ITreeWizard;
1659 T: ICommonTree;
1660 begin
1661 Adaptor := TCommonTreeAdaptor.Create;
1662 Wiz := TTreeWizard.Create(Adaptor, FTokens);
1663 T := Wiz.CreateTreeOrNode('A B C') as ICommonTree;
1664 CheckNull(T);
1665 end;
1666
1667 procedure TestITreeWizard.TestListTree;
1668 var
1669 Adaptor: ITreeAdaptor;
1670 Wiz: ITreeWizard;
1671 T: ICommonTree;
1672 begin
1673 Adaptor := TCommonTreeAdaptor.Create;
1674 Wiz := TTreeWizard.Create(Adaptor, FTokens);
1675 T := Wiz.CreateTreeOrNode('(nil A B C)') as ICommonTree;
1676 CheckEquals(T.ToStringTree, 'A B C');
1677 end;
1678
1679 procedure TestITreeWizard.TestNoRepeatsIndex;
1680 var
1681 Adaptor: ITreeAdaptor;
1682 Wiz: ITreeWizard;
1683 T: ICommonTree;
1684 M: IDictionary<Integer, IList<IANTLRInterface>>;
1685 begin
1686 Adaptor := TCommonTreeAdaptor.Create;
1687 Wiz := TTreeWizard.Create(Adaptor, FTokens);
1688 T := Wiz.CreateTreeOrNode('(A B C D)') as ICommonTree;
1689 M := Wiz.Index(T);
1690 CheckEquals('{5=[A], 8=[D], 7=[C], 6=[B]}' ,TCollectionUtils.DictionaryToString(M));
1691 end;
1692
1693 procedure TestITreeWizard.TestNoRepeatsVisit;
1694 var
1695 Adaptor: ITreeAdaptor;
1696 Wiz: ITreeWizard;
1697 T: ICommonTree;
1698 Elements: IList<IANTLRInterface>;
1699 Visitor: IContextVisitor;
1700 begin
1701 Adaptor := TCommonTreeAdaptor.Create;
1702 Wiz := TTreeWizard.Create(Adaptor, FTokens);
1703 T := Wiz.CreateTreeOrNode('(A B C D)') as ICommonTree;
1704 Elements := TList<IANTLRInterface>.Create;
1705 Visitor := TRecordAllElementsVisitor.Create(Elements);
1706 Wiz.Visit(T, Wiz.GetTokenType('B'), Visitor);
1707 CheckEquals('[B]' ,TCollectionUtils.ListToString(Elements));
1708 end;
1709
1710 procedure TestITreeWizard.TestNoRepeatsVisit2;
1711 var
1712 Adaptor: ITreeAdaptor;
1713 Wiz: ITreeWizard;
1714 T: ICommonTree;
1715 Elements: IList<IANTLRInterface>;
1716 Visitor: IContextVisitor;
1717 begin
1718 Adaptor := TCommonTreeAdaptor.Create;
1719 Wiz := TTreeWizard.Create(Adaptor, FTokens);
1720 T := Wiz.CreateTreeOrNode('(A B (A C B) B D D)') as ICommonTree;
1721 Elements := TList<IANTLRInterface>.Create;
1722 Visitor := TRecordAllElementsVisitor.Create(Elements);
1723 Wiz.Visit(T, Wiz.GetTokenType('C'), Visitor);
1724 CheckEquals('[C]' ,TCollectionUtils.ListToString(Elements));
1725 end;
1726
1727 procedure TestITreeWizard.TestParse;
1728 var
1729 Adaptor: ITreeAdaptor;
1730 Wiz: ITreeWizard;
1731 T: ICommonTree;
1732 begin
1733 Adaptor := TCommonTreeAdaptor.Create;
1734 Wiz := TTreeWizard.Create(Adaptor, FTokens);
1735 T := Wiz.CreateTreeOrNode('(A B C)') as ICommonTree;
1736 CheckTrue(Wiz.Parse(T, '(A B C)'));
1737 end;
1738
1739 procedure TestITreeWizard.TestParseFlatTree;
1740 var
1741 Adaptor: ITreeAdaptor;
1742 Wiz: ITreeWizard;
1743 T: ICommonTree;
1744 begin
1745 Adaptor := TCommonTreeAdaptor.Create;
1746 Wiz := TTreeWizard.Create(Adaptor, FTokens);
1747 T := Wiz.CreateTreeOrNode('(nil A B C)') as ICommonTree;
1748 CheckTrue(Wiz.Parse(T, '(nil A B C)'));
1749 end;
1750
1751 procedure TestITreeWizard.TestParseLabels;
1752 var
1753 Adaptor: ITreeAdaptor;
1754 Wiz: ITreeWizard;
1755 T: ICommonTree;
1756 Labels: IDictionary<String, IANTLRInterface>;
1757 begin
1758 Adaptor := TCommonTreeAdaptor.Create;
1759 Wiz := TTreeWizard.Create(Adaptor, FTokens);
1760 T := Wiz.CreateTreeOrNode('(A B C)') as ICommonTree;
1761 Labels := TDictionary<String, IANTLRInterface>.Create;
1762 CheckTrue(Wiz.Parse(T, '(%a:A %b:B %c:C)', Labels));
1763 CheckEquals('A', Labels['a'].ToString);
1764 CheckEquals('B', Labels['b'].ToString);
1765 CheckEquals('C', Labels['c'].ToString);
1766 end;
1767
1768 procedure TestITreeWizard.TestParseLabelsAndTestText;
1769 var
1770 Adaptor: ITreeAdaptor;
1771 Wiz: ITreeWizard;
1772 T: ICommonTree;
1773 Labels: IDictionary<String, IANTLRInterface>;
1774 begin
1775 Adaptor := TCommonTreeAdaptor.Create;
1776 Wiz := TTreeWizard.Create(Adaptor, FTokens);
1777 T := Wiz.CreateTreeOrNode('(A B[foo] C)') as ICommonTree;
1778 Labels := TDictionary<String, IANTLRInterface>.Create;
1779 CheckTrue(Wiz.Parse(T, '(%a:A %b:B[foo] %c:C)', Labels));
1780 CheckEquals('A', Labels['a'].ToString);
1781 CheckEquals('foo', Labels['b'].ToString);
1782 CheckEquals('C', Labels['c'].ToString);
1783 end;
1784
1785 procedure TestITreeWizard.TestParseLabelsInNestedTree;
1786 var
1787 Adaptor: ITreeAdaptor;
1788 Wiz: ITreeWizard;
1789 T: ICommonTree;
1790 Labels: IDictionary<String, IANTLRInterface>;
1791 begin
1792 Adaptor := TCommonTreeAdaptor.Create;
1793 Wiz := TTreeWizard.Create(Adaptor, FTokens);
1794 T := Wiz.CreateTreeOrNode('(A (B C) (D E))') as ICommonTree;
1795 Labels := TDictionary<String, IANTLRInterface>.Create;
1796 CheckTrue(Wiz.Parse(T, '(%a:A (%b:B %c:C) (%d:D %e:E) )', Labels));
1797 CheckEquals('A', Labels['a'].ToString);
1798 CheckEquals('B', Labels['b'].ToString);
1799 CheckEquals('C', Labels['c'].ToString);
1800 CheckEquals('D', Labels['d'].ToString);
1801 CheckEquals('E', Labels['e'].ToString);
1802 end;
1803
1804 procedure TestITreeWizard.TestParseSingleNode;
1805 var
1806 Adaptor: ITreeAdaptor;
1807 Wiz: ITreeWizard;
1808 T: ICommonTree;
1809 begin
1810 Adaptor := TCommonTreeAdaptor.Create;
1811 Wiz := TTreeWizard.Create(Adaptor, FTokens);
1812 T := Wiz.CreateTreeOrNode('A') as ICommonTree;
1813 CheckTrue(Wiz.Parse(T, 'A'));
1814 end;
1815
1816 procedure TestITreeWizard.TestParseWithText;
1817 var
1818 Adaptor: ITreeAdaptor;
1819 Wiz: ITreeWizard;
1820 T: ICommonTree;
1821 begin
1822 Adaptor := TCommonTreeAdaptor.Create;
1823 Wiz := TTreeWizard.Create(Adaptor, FTokens);
1824 T := Wiz.CreateTreeOrNode('(A B[foo] C[bar])') as ICommonTree;
1825 // C pattern has no text arg so despite [bar] in t, no need
1826 // to match text--check structure only.
1827 CheckTrue(Wiz.Parse(T, '(A B[foo] C)'));
1828 end;
1829
1830 procedure TestITreeWizard.TestParseWithTextFails;
1831 var
1832 Adaptor: ITreeAdaptor;
1833 Wiz: ITreeWizard;
1834 T: ICommonTree;
1835 begin
1836 Adaptor := TCommonTreeAdaptor.Create;
1837 Wiz := TTreeWizard.Create(Adaptor, FTokens);
1838 T := Wiz.CreateTreeOrNode('(A B C)') as ICommonTree;
1839 CheckFalse(Wiz.Parse(T, '(A[foo] B C)'));
1840 end;
1841
1842 procedure TestITreeWizard.TestParseWithWildcardLabels;
1843 var
1844 Adaptor: ITreeAdaptor;
1845 Wiz: ITreeWizard;
1846 T: ICommonTree;
1847 Labels: IDictionary<String, IANTLRInterface>;
1848 begin
1849 Adaptor := TCommonTreeAdaptor.Create;
1850 Wiz := TTreeWizard.Create(Adaptor, FTokens);
1851 T := Wiz.CreateTreeOrNode('(A B C)') as ICommonTree;
1852 Labels := TDictionary<String, IANTLRInterface>.Create;
1853 CheckTrue(Wiz.Parse(T, '(A %b:. %c:.)', Labels));
1854 CheckEquals('B', Labels['b'].ToString);
1855 CheckEquals('C', Labels['c'].ToString);
1856 end;
1857
1858 procedure TestITreeWizard.TestRepeatsIndex;
1859 var
1860 Adaptor: ITreeAdaptor;
1861 Wiz: ITreeWizard;
1862 T: ICommonTree;
1863 M: IDictionary<Integer, IList<IANTLRInterface>>;
1864 begin
1865 Adaptor := TCommonTreeAdaptor.Create;
1866 Wiz := TTreeWizard.Create(Adaptor, FTokens);
1867 T := Wiz.CreateTreeOrNode('(A B (A C B) B D D)') as ICommonTree;
1868 M := Wiz.Index(T);
1869 CheckEquals('{5=[A, A], 8=[D, D], 7=[C], 6=[B, B, B]}' ,TCollectionUtils.DictionaryToString(M));
1870 end;
1871
1872 procedure TestITreeWizard.TestRepeatsVisit;
1873 var
1874 Adaptor: ITreeAdaptor;
1875 Wiz: ITreeWizard;
1876 T: ICommonTree;
1877 Elements: IList<IANTLRInterface>;
1878 Visitor: IContextVisitor;
1879 begin
1880 Adaptor := TCommonTreeAdaptor.Create;
1881 Wiz := TTreeWizard.Create(Adaptor, FTokens);
1882 T := Wiz.CreateTreeOrNode('(A B (A C B) B D D)') as ICommonTree;
1883 Elements := TList<IANTLRInterface>.Create;
1884 Visitor := TRecordAllElementsVisitor.Create(Elements);
1885 Wiz.Visit(T, Wiz.GetTokenType('B'), Visitor);
1886 CheckEquals('[B, B, B]' ,TCollectionUtils.ListToString(Elements));
1887 end;
1888
1889 procedure TestITreeWizard.TestRepeatsVisit2;
1890 var
1891 Adaptor: ITreeAdaptor;
1892 Wiz: ITreeWizard;
1893 T: ICommonTree;
1894 Elements: IList<IANTLRInterface>;
1895 Visitor: IContextVisitor;
1896 begin
1897 Adaptor := TCommonTreeAdaptor.Create;
1898 Wiz := TTreeWizard.Create(Adaptor, FTokens);
1899 T := Wiz.CreateTreeOrNode('(A B (A C B) B D D)') as ICommonTree;
1900 Elements := TList<IANTLRInterface>.Create;
1901 Visitor := TRecordAllElementsVisitor.Create(Elements);
1902 Wiz.Visit(T, Wiz.GetTokenType('A'), Visitor);
1903 CheckEquals('[A, A]' ,TCollectionUtils.ListToString(Elements));
1904 end;
1905
1906 procedure TestITreeWizard.TestRepeatsVisitWithContext;
1907 var
1908 Adaptor: ITreeAdaptor;
1909 Wiz: ITreeWizard;
1910 T: ICommonTree;
1911 Elements: IList<IANTLRInterface>;
1912 Visitor: IContextVisitor;
1913 begin
1914 Adaptor := TCommonTreeAdaptor.Create;
1915 Wiz := TTreeWizard.Create(Adaptor, FTokens);
1916 T := Wiz.CreateTreeOrNode('(A B (A C B) B D D)') as ICommonTree;
1917 Elements := TList<IANTLRInterface>.Create;
1918 Visitor := TTest1ContextVisitor.Create(Adaptor, Elements);
1919 Wiz.Visit(T, Wiz.GetTokenType('B'), Visitor);
1920 CheckEquals('[B@A[0], B@A[1], B@A[2]]', TCollectionUtils.ListToString(Elements));
1921 end;
1922
1923 procedure TestITreeWizard.TestRepeatsVisitWithNullParentAndContext;
1924 var
1925 Adaptor: ITreeAdaptor;
1926 Wiz: ITreeWizard;
1927 T: ICommonTree;
1928 Elements: IList<IANTLRInterface>;
1929 Visitor: IContextVisitor;
1930 begin
1931 Adaptor := TCommonTreeAdaptor.Create;
1932 Wiz := TTreeWizard.Create(Adaptor, FTokens);
1933 T := Wiz.CreateTreeOrNode('(A B (A C B) B D D)') as ICommonTree;
1934 Elements := TList<IANTLRInterface>.Create;
1935 Visitor := TTest1ContextVisitor.Create(Adaptor, Elements);
1936 Wiz.Visit(T, Wiz.GetTokenType('A'), Visitor);
1937 CheckEquals('[A@nil[0], A@A[1]]', TCollectionUtils.ListToString(Elements));
1938 end;
1939
1940 procedure TestITreeWizard.TestSingleLevelTree;
1941 var
1942 Adaptor: ITreeAdaptor;
1943 Wiz: ITreeWizard;
1944 T: ICommonTree;
1945 begin
1946 Adaptor := TCommonTreeAdaptor.Create;
1947 Wiz := TTreeWizard.Create(Adaptor, FTokens);
1948 T := Wiz.CreateTreeOrNode('(A B C D)') as ICommonTree;
1949 CheckEquals(T.ToStringTree, '(A B C D)');
1950 end;
1951
1952 procedure TestITreeWizard.TestSingleNode;
1953 var
1954 Adaptor: ITreeAdaptor;
1955 Wiz: ITreeWizard;
1956 T: ICommonTree;
1957 begin
1958 Adaptor := TCommonTreeAdaptor.Create;
1959 Wiz := TTreeWizard.Create(Adaptor, FTokens);
1960 T := Wiz.CreateTreeOrNode('ID') as ICommonTree;
1961 CheckEquals(T.ToStringTree, 'ID');
1962 end;
1963
1964 procedure TestITreeWizard.TestSingleNodeIndex;
1965 var
1966 Adaptor: ITreeAdaptor;
1967 Wiz: ITreeWizard;
1968 T: ICommonTree;
1969 M: IDictionary<Integer, IList<IANTLRInterface>>;
1970 begin
1971 Adaptor := TCommonTreeAdaptor.Create;
1972 Wiz := TTreeWizard.Create(Adaptor, FTokens);
1973 T := Wiz.CreateTreeOrNode('ID') as ICommonTree;
1974 M := Wiz.Index(T);
1975 CheckEquals('{10=[ID]}' ,TCollectionUtils.DictionaryToString(M));
1976 end;
1977
1978 procedure TestITreeWizard.TestSingleNodeTree;
1979 var
1980 Adaptor: ITreeAdaptor;
1981 Wiz: ITreeWizard;
1982 T: ICommonTree;
1983 begin
1984 Adaptor := TCommonTreeAdaptor.Create;
1985 Wiz := TTreeWizard.Create(Adaptor, FTokens);
1986 T := Wiz.CreateTreeOrNode('(A)') as ICommonTree;
1987 CheckEquals(T.ToStringTree, 'A');
1988 end;
1989
1990 procedure TestITreeWizard.TestSingleNodeWithArg;
1991 var
1992 Adaptor: ITreeAdaptor;
1993 Wiz: ITreeWizard;
1994 T: ICommonTree;
1995 begin
1996 Adaptor := TCommonTreeAdaptor.Create;
1997 Wiz := TTreeWizard.Create(Adaptor, FTokens);
1998 T := Wiz.CreateTreeOrNode('ID[foo]') as ICommonTree;
1999 CheckEquals(T.ToStringTree, 'foo');
2000 end;
2001
2002 procedure TestITreeWizard.TestVisitPattern;
2003 var
2004 Adaptor: ITreeAdaptor;
2005 Wiz: ITreeWizard;
2006 T: ICommonTree;
2007 Elements: IList<IANTLRInterface>;
2008 Visitor: IContextVisitor;
2009 begin
2010 Adaptor := TCommonTreeAdaptor.Create;
2011 Wiz := TTreeWizard.Create(Adaptor, FTokens);
2012 T := Wiz.CreateTreeOrNode('(A B C (A B) D)') as ICommonTree;
2013 Elements := TList<IANTLRInterface>.Create;
2014 Visitor := TRecordAllElementsVisitor.Create(Elements);
2015 Wiz.Visit(T, '(A B)', Visitor);
2016 CheckEquals('[A]', TCollectionUtils.ListToString(Elements));
2017 end;
2018
2019 procedure TestITreeWizard.TestVisitPatternMultiple;
2020 var
2021 Adaptor: ITreeAdaptor;
2022 Wiz: ITreeWizard;
2023 T: ICommonTree;
2024 Elements: IList<IANTLRInterface>;
2025 Visitor: IContextVisitor;
2026 begin
2027 Adaptor := TCommonTreeAdaptor.Create;
2028 Wiz := TTreeWizard.Create(Adaptor, FTokens);
2029 T := Wiz.CreateTreeOrNode('(A B C (A B) (D (A B)))') as ICommonTree;
2030 Elements := TList<IANTLRInterface>.Create;
2031 Visitor := TTest1ContextVisitor.Create(Adaptor, Elements);
2032 Wiz.Visit(T, '(A B)', Visitor);
2033 CheckEquals('[A@A[2], A@D[0]]', TCollectionUtils.ListToString(Elements));
2034 end;
2035
2036 procedure TestITreeWizard.TestVisitPatternMultipleWithLabels;
2037 var
2038 Adaptor: ITreeAdaptor;
2039 Wiz: ITreeWizard;
2040 T: ICommonTree;
2041 Elements: IList<IANTLRInterface>;
2042 Visitor: IContextVisitor;
2043 begin
2044 Adaptor := TCommonTreeAdaptor.Create;
2045 Wiz := TTreeWizard.Create(Adaptor, FTokens);
2046 T := Wiz.CreateTreeOrNode('(A B C (A[foo] B[bar]) (D (A[big] B[dog])))') as ICommonTree;
2047 Elements := TList<IANTLRInterface>.Create;
2048 Visitor := TTest2ContextVisitor.Create(Adaptor, Elements);
2049 Wiz.Visit(T, '(%a:A %b:B)', Visitor);
2050 CheckEquals('[foo@A[2]foo&bar, big@D[0]big&dog]', TCollectionUtils.ListToString(Elements));
2051 end;
2052
2053 procedure TestITreeWizard.TestWildcard;
2054 var
2055 Adaptor: ITreeAdaptor;
2056 Wiz: ITreeWizard;
2057 T: ICommonTree;
2058 begin
2059 Adaptor := TCommonTreeAdaptor.Create;
2060 Wiz := TTreeWizard.Create(Adaptor, FTokens);
2061 T := Wiz.CreateTreeOrNode('(A B C)') as ICommonTree;
2062 CheckTrue(Wiz.Parse(T, '(A . .)'));
2063 end;
2064
2065 { TestITreeWizard.TRecordAllElementsVisitor }
2066
2067 constructor TestITreeWizard.TRecordAllElementsVisitor.Create(
2068 const AList: IList<IANTLRInterface>);
2069 begin
2070 inherited Create;
2071 FList := AList;
2072 end;
2073
2074 procedure TestITreeWizard.TRecordAllElementsVisitor.Visit(
2075 const T: IANTLRInterface);
2076 begin
2077 FList.Add(T);
2078 end;
2079
2080 { TestITreeWizard.TTest1ContextVisitor }
2081
2082 constructor TestITreeWizard.TTest1ContextVisitor.Create(
2083 const AAdaptor: ITreeAdaptor; const AList: IList<IANTLRInterface>);
2084 begin
2085 inherited Create;
2086 FAdaptor := AAdaptor;
2087 FList := AList;
2088 end;
2089
2090 procedure TestITreeWizard.TTest1ContextVisitor.Visit(const T,
2091 Parent: IANTLRInterface; const ChildIndex: Integer;
2092 const Labels: IDictionary<String, IANTLRInterface>);
2093 var
2094 S: String;
2095 begin
2096 S := FAdaptor.GetNodeText(T) + '@';
2097 if Assigned(Parent) then
2098 S := S + FAdaptor.GetNodeText(Parent)
2099 else
2100 S := S + 'nil';
2101 FList.Add(TANTLRString.Create(S + '[' + IntToStr(ChildIndex) + ']'));
2102 end;
2103
2104 { TestITreeWizard.TTest2ContextVisitor }
2105
2106 constructor TestITreeWizard.TTest2ContextVisitor.Create(
2107 const AAdaptor: ITreeAdaptor; const AList: IList<IANTLRInterface>);
2108 begin
2109 inherited Create;
2110 FAdaptor := AAdaptor;
2111 FList := AList;
2112 end;
2113
2114 procedure TestITreeWizard.TTest2ContextVisitor.Visit(const T,
2115 Parent: IANTLRInterface; const ChildIndex: Integer;
2116 const Labels: IDictionary<String, IANTLRInterface>);
2117 var
2118 S: String;
2119 begin
2120 S := FAdaptor.GetNodeText(T) + '@';
2121 if Assigned(Parent) then
2122 S := S + FAdaptor.GetNodeText(Parent)
2123 else
2124 S := S + 'nil';
2125 FList.Add(TANTLRString.Create(S + '[' + IntToStr(ChildIndex) + ']'
2126 + Labels['a'].ToString + '&' + Labels['b'].ToString));
2127 end;
2128
2129 initialization
2130 // Register any test cases with the test runner
2131 RegisterTest(TestICommonTree.Suite);
2132 RegisterTest(TestICommonTreeNodeStream.Suite);
2133 RegisterTest(TestIRewriteRuleXxxxStream.Suite);
2134 RegisterTest(TestITreeWizard.Suite);
2135 end.
2136
2137