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source: src/ControlStruct/MLEMutator.cc @ 5ee7d36

ADTarm-ehast-experimentalenumforall-pointer-decayjacob/cs343-translationjenkins-sandboxnew-astnew-ast-unique-exprpthread-emulationqualifiedEnum

Last change on this file since 5ee7d36 was d62806c, checked in by Andrew Beach <ajbeach@…>, 4 years ago
Start working on checks to make sure we do not jump out of a finally block.
Property mode set to `100644`
File size: 17.8 KB

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1	//
2	// Cforall Version 1.0.0 Copyright (C) 2015 University of Waterloo
3	//
4	// The contents of this file are covered under the licence agreement in the
5	// file "LICENCE" distributed with Cforall.
6	//
7	// MLEMutator.cc --
8	//
9	// Author : Rodolfo G. Esteves
10	// Created On : Mon May 18 07:44:20 2015
11	// Last Modified By : Andrew Beach
12	// Last Modified On : Thr Jan 16 15:33:00 2020
13	// Update Count : 221
14	//
15
16	// NOTE: There are two known subtle differences from the code that uC++ generates for the same input
17	// -CFA puts the break label inside at the end of a switch, uC++ puts it after
18	// -CFA puts the break label after a block, uC++ puts it inside at the end
19	// It is unclear if these differences are important, but if they are, then the fix would go in this file, since this is
20	// where these labels are generated.
21
22	#include <ext/alloc_traits.h> // for __alloc_traits<>::value_type
23	#include <algorithm> // for find, find_if
24	#include <cassert> // for assert, assertf
25	#include <memory> // for allocator_traits<>::value_...
26
27	#include "Common/utility.h" // for toString, operator+
28	#include "ControlStruct/LabelGenerator.h" // for LabelGenerator
29	#include "MLEMutator.h"
30	#include "SynTree/Attribute.h" // for Attribute
31	#include "SynTree/Expression.h" // for Expression
32	#include "SynTree/Statement.h" // for BranchStmt, CompoundStmt
33
34	namespace ControlStruct {
35	MLEMutator::~MLEMutator() {
36	delete targetTable;
37	targetTable = 0;
38	}
39	namespace {
40	bool isLoop( const MLEMutator::Entry & e ) { return dynamic_cast< WhileStmt * >( e.get_controlStructure() ) \|\| dynamic_cast< ForStmt * >( e.get_controlStructure() ); }
41	bool isSwitch( const MLEMutator::Entry & e ) { return dynamic_cast< SwitchStmt *>( e.get_controlStructure() ); }
42
43	bool isBreakTarget( const MLEMutator::Entry & e ) { return isLoop( e ) \|\| isSwitch( e ) \|\| dynamic_cast< CompoundStmt *>( e.get_controlStructure() ); }
44	bool isContinueTarget( const MLEMutator::Entry & e ) { return isLoop( e ); }
45	bool isFallthroughTarget( const MLEMutator::Entry & e ) { return dynamic_cast< CaseStmt *>( e.get_controlStructure() );; }
46	bool isFallthroughDefaultTarget( const MLEMutator::Entry & e ) { return isSwitch( e ); }
47	} // namespace
48
49	// break labels have to come after the statement they break out of, so mutate a statement, then if they inform us
50	// through the breakLabel field tha they need a place to jump to on a break statement, add the break label to the
51	// body of statements
52	void MLEMutator::fixBlock( std::list< Statement * > &kids, bool caseClause ) {
53	SemanticErrorException errors;
54
55	for ( std::list< Statement * >::iterator k = kids.begin(); k != kids.end(); k++ ) {
56	if ( caseClause ) {
57	// once a label is seen, it's no longer a valid fallthrough target
58	for ( Label & l : (*k)->labels ) {
59	fallthroughLabels.erase( l );
60	}
61	}
62
63	// aggregate errors since the PassVisitor mutate loop was unrollled
64	try {
65	k = (k)->acceptMutator(*visitor);
66	} catch( SemanticErrorException &e ) {
67	errors.append( e );
68	}
69
70	if ( ! get_breakLabel().empty() ) {
71	std::list< Statement * >::iterator next = k+1;
72	std::list<Label> ls; ls.push_back( get_breakLabel() );
73	kids.insert( next, new NullStmt( ls ) );
74	set_breakLabel("");
75	} // if
76	} // for
77
78	if ( ! errors.isEmpty() ) {
79	throw errors;
80	}
81	}
82
83	void MLEMutator::premutate( CompoundStmt *cmpndStmt ) {
84	visit_children = false;
85	bool labeledBlock = !(cmpndStmt->labels.empty());
86	if ( labeledBlock ) {
87	Label brkLabel = generator->newLabel("blockBreak", cmpndStmt);
88	enclosingControlStructures.push_back( Entry( cmpndStmt, brkLabel ) );
89	GuardAction( [this]() { enclosingControlStructures.pop_back(); } );
90	} // if
91
92	// a child statement may set the break label - if they do, attach it to the next statement
93	std::list< Statement * > &kids = cmpndStmt->kids;
94	fixBlock( kids );
95
96	if ( labeledBlock ) {
97	assert( ! enclosingControlStructures.empty() );
98	if ( ! enclosingControlStructures.back().useBreakExit().empty() ) {
99	set_breakLabel( enclosingControlStructures.back().useBreakExit() );
100	} // if
101	} // if
102	}
103
104
105	void addUnused( Statement * stmt, const Label & originalTarget ) {
106	// break/continue without a label doesn't need unused attribute
107	if ( originalTarget == "" ) return;
108	// add unused attribute to the originalTarget of a labelled break/continue
109	for ( Label & l : stmt->get_labels() ) {
110	// find the label to add unused attribute to
111	if ( l == originalTarget ) {
112	for ( Attribute * attr : l.get_attributes() ) {
113	// ensure attribute isn't added twice
114	if ( attr->get_name() == "unused" ) return;
115	}
116	l.get_attributes().push_back( new Attribute( "unused" ) );
117	return;
118	}
119	}
120	assertf( false, "Could not find label '%s' on statement %s", originalTarget.get_name().c_str(), toString( stmt ).c_str() );
121	}
122
123
124	Statement MLEMutator::postmutate( BranchStmt branchStmt ) throw ( SemanticErrorException ) {
125	std::string originalTarget = branchStmt->originalTarget;
126
127	std::list< Entry >::reverse_iterator targetEntry;
128	switch ( branchStmt->get_type() ) {
129	case BranchStmt::Goto:
130	return branchStmt;
131	case BranchStmt::Continue:
132	case BranchStmt::Break: {
133	bool isContinue = branchStmt->get_type() == BranchStmt::Continue;
134	// unlabeled break/continue
135	if ( branchStmt->get_target() == "" ) {
136	if ( isContinue ) {
137	// continue target is outermost loop
138	targetEntry = std::find_if( enclosingControlStructures.rbegin(), enclosingControlStructures.rend(), isContinueTarget );
139	} else {
140	// break target is outermost loop, switch, or block control structure
141	if ( enclosingControlStructures.empty() ) SemanticError( branchStmt->location, "'break' outside a loop, 'switch', or labelled block" );
142	targetEntry = std::find_if( enclosingControlStructures.rbegin(), enclosingControlStructures.rend(), isBreakTarget );
143	} // if
144	} else {
145	// labeled break/continue - lookup label in table to find attached control structure
146	targetEntry = std::find( enclosingControlStructures.rbegin(), enclosingControlStructures.rend(), (*targetTable)[branchStmt->get_target()] );
147	} // if
148	// ensure that selected target is valid
149	if ( targetEntry == enclosingControlStructures.rend() \|\| (isContinue && ! isContinueTarget( *targetEntry ) ) ) {
150	SemanticError( branchStmt->location, toString( (isContinue ? "'continue'" : "'break'"), " target must be an enclosing ", (isContinue ? "loop: " : "control structure: "), originalTarget ) );
151	} // if
152	break;
153	}
154	case BranchStmt::FallThrough:
155	targetEntry = std::find_if( enclosingControlStructures.rbegin(), enclosingControlStructures.rend(), isFallthroughTarget );
156	// ensure that selected target is valid
157	if ( targetEntry == enclosingControlStructures.rend() ) {
158	SemanticError( branchStmt->location, "'fallthrough' must be enclosed in a 'switch' or 'choose'" );
159	} // if
160	if ( branchStmt->get_target() != "" ) {
161	// labelled fallthrough
162	// target must be in the set of valid fallthrough labels
163	if ( ! fallthroughLabels.count( branchStmt->get_target() ) ) {
164	SemanticError( branchStmt->location, toString( "'fallthrough' target must be a later case statement: ", originalTarget ) );
165	}
166	return new BranchStmt( originalTarget, BranchStmt::Goto );
167	}
168	break;
169	case BranchStmt::FallThroughDefault: {
170	// fallthrough default
171	targetEntry = std::find_if( enclosingControlStructures.rbegin(), enclosingControlStructures.rend(), isFallthroughDefaultTarget );
172
173	// ensure that fallthrough is within a switch or choose
174	if ( targetEntry == enclosingControlStructures.rend() ) {
175	SemanticError( branchStmt->location, "'fallthrough' must be enclosed in a 'switch' or 'choose'" );
176	} // if
177
178	// ensure that switch or choose has a default clause
179	SwitchStmt * switchStmt = strict_dynamic_cast< SwitchStmt * >( targetEntry->get_controlStructure() );
180	bool foundDefault = false;
181	for ( Statement * stmt : switchStmt->statements ) {
182	CaseStmt * caseStmt = strict_dynamic_cast< CaseStmt * >( stmt );
183	if ( caseStmt->isDefault() ) {
184	foundDefault = true;
185	} // if
186	} // for
187	if ( ! foundDefault ) {
188	SemanticError( branchStmt->location, "'fallthrough default' must be enclosed in a 'switch' or 'choose' control structure with a 'default' clause" );
189	}
190	break;
191	}
192
193	default:
194	assert( false );
195	} // switch
196
197	// branch error checks, get the appropriate label name and create a goto
198	Label exitLabel;
199	switch ( branchStmt->type ) {
200	case BranchStmt::Break:
201	assert( targetEntry->useBreakExit() != "");
202	exitLabel = targetEntry->useBreakExit();
203	break;
204	case BranchStmt::Continue:
205	assert( targetEntry->useContExit() != "");
206	exitLabel = targetEntry->useContExit();
207	break;
208	case BranchStmt::FallThrough:
209	assert( targetEntry->useFallExit() != "");
210	exitLabel = targetEntry->useFallExit();
211	break;
212	case BranchStmt::FallThroughDefault:
213	assert( targetEntry->useFallDefaultExit() != "");
214	exitLabel = targetEntry->useFallDefaultExit();
215	// check that fallthrough default comes before the default clause
216	if ( ! targetEntry->isFallDefaultValid() ) {
217	SemanticError( branchStmt->location, "'fallthrough default' must precede the 'default' clause" );
218	}
219	break;
220	default:
221	assert(0); // shouldn't be here
222	} // switch
223
224	// add unused attribute to label to silence warnings
225	addUnused( targetEntry->get_controlStructure(), branchStmt->originalTarget );
226
227	// transform break/continue statements into goto to simplify later handling of branches
228	delete branchStmt;
229	return new BranchStmt( exitLabel, BranchStmt::Goto );
230	}
231
232	Statement MLEMutator::mutateLoop( Statement bodyLoop, Entry &e ) {
233	// only generate these when needed
234	if( !e.isContUsed() && !e.isBreakUsed() ) return bodyLoop;
235
236	// ensure loop body is a block
237	CompoundStmt * newBody = new CompoundStmt();
238	newBody->get_kids().push_back( bodyLoop );
239
240	if ( e.isContUsed() ) {
241	// continue label goes in the body as the last statement
242	std::list< Label > labels; labels.push_back( e.useContExit() );
243	newBody->get_kids().push_back( new NullStmt( labels ) );
244	} // if
245
246	if ( e.isBreakUsed() ) {
247	// break label goes after the loop -- it'll get set by the outer mutator if we do this
248	set_breakLabel( e.useBreakExit() );
249	} // if
250
251	return newBody;
252	}
253
254	template< typename LoopClass >
255	void MLEMutator::prehandleLoopStmt( LoopClass * loopStmt ) {
256	// remember this as the most recent enclosing loop, then mutate the body of the loop -- this will determine
257	// whether brkLabel and contLabel are used with branch statements and will recursively do the same to nested
258	// loops
259	Label brkLabel = generator->newLabel("loopBreak", loopStmt);
260	Label contLabel = generator->newLabel("loopContinue", loopStmt);
261	enclosingControlStructures.push_back( Entry( loopStmt, brkLabel, contLabel ) );
262	GuardAction( [this]() { enclosingControlStructures.pop_back(); } );
263	}
264
265	template< typename LoopClass >
266	Statement * MLEMutator::posthandleLoopStmt( LoopClass * loopStmt ) {
267	assert( ! enclosingControlStructures.empty() );
268	Entry &e = enclosingControlStructures.back();
269	// sanity check that the enclosing loops have been popped correctly
270	assert ( e == loopStmt );
271
272	// this will take the necessary steps to add definitions of the previous two labels, if they are used.
273	loopStmt->body = mutateLoop( loopStmt->get_body(), e );
274	return loopStmt;
275	}
276
277	void MLEMutator::premutate( WhileStmt * whileStmt ) {
278	return prehandleLoopStmt( whileStmt );
279	}
280
281	void MLEMutator::premutate( ForStmt * forStmt ) {
282	return prehandleLoopStmt( forStmt );
283	}
284
285	Statement * MLEMutator::postmutate( WhileStmt * whileStmt ) {
286	return posthandleLoopStmt( whileStmt );
287	}
288
289	Statement * MLEMutator::postmutate( ForStmt * forStmt ) {
290	return posthandleLoopStmt( forStmt );
291	}
292
293	void MLEMutator::premutate( IfStmt * ifStmt ) {
294	// generate a label for breaking out of a labeled if
295	bool labeledBlock = !(ifStmt->get_labels().empty());
296	if ( labeledBlock ) {
297	Label brkLabel = generator->newLabel("blockBreak", ifStmt);
298	enclosingControlStructures.push_back( Entry( ifStmt, brkLabel ) );
299	GuardAction( [this]() { enclosingControlStructures.pop_back(); } );
300	} // if
301	}
302
303	Statement * MLEMutator::postmutate( IfStmt * ifStmt ) {
304	bool labeledBlock = !(ifStmt->get_labels().empty());
305	if ( labeledBlock ) {
306	if ( ! enclosingControlStructures.back().useBreakExit().empty() ) {
307	set_breakLabel( enclosingControlStructures.back().useBreakExit() );
308	} // if
309	} // if
310	return ifStmt;
311	}
312
313	void MLEMutator::premutate( TryStmt * tryStmt ) {
314	// generate a label for breaking out of a labeled if
315	bool labeledBlock = !(tryStmt->get_labels().empty());
316	if ( labeledBlock ) {
317	Label brkLabel = generator->newLabel("blockBreak", tryStmt);
318	enclosingControlStructures.push_back( Entry( tryStmt, brkLabel ) );
319	GuardAction( [this]() { enclosingControlStructures.pop_back(); } );
320	} // if
321	}
322
323	Statement * MLEMutator::postmutate( TryStmt * tryStmt ) {
324	bool labeledBlock = !(tryStmt->get_labels().empty());
325	if ( labeledBlock ) {
326	if ( ! enclosingControlStructures.back().useBreakExit().empty() ) {
327	set_breakLabel( enclosingControlStructures.back().useBreakExit() );
328	} // if
329	} // if
330	return tryStmt;
331	}
332
333	void MLEMutator::premutate( FinallyStmt * ) {
334	GuardAction([this, old = std::move(enclosingControlStructures)]() {
335	enclosingControlStructures = std::move(old);
336	});
337	enclosingControlStructures = std::list<Entry>();
338	}
339
340	void MLEMutator::premutate( CaseStmt *caseStmt ) {
341	visit_children = false;
342
343	// mark default as seen before visiting its statements to catch default loops
344	if ( caseStmt->isDefault() ) {
345	enclosingControlStructures.back().seenDefault();
346	} // if
347
348	caseStmt->condition = maybeMutate( caseStmt->condition, *visitor );
349	Label fallLabel = generator->newLabel( "fallThrough", caseStmt );
350	{
351	// ensure that stack isn't corrupted by exceptions in fixBlock
352	auto guard = makeFuncGuard( [&]() { enclosingControlStructures.push_back( Entry( caseStmt, fallLabel ) ); }, [this]() { enclosingControlStructures.pop_back(); } );
353
354	// empty case statement
355	if( ! caseStmt->stmts.empty() ) {
356	// the parser ensures that all statements in a case are grouped into a block
357	CompoundStmt * block = strict_dynamic_cast< CompoundStmt * >( caseStmt->stmts.front() );
358	fixBlock( block->kids, true );
359
360	// add fallthrough label if necessary
361	assert( ! enclosingControlStructures.empty() );
362	if ( enclosingControlStructures.back().isFallUsed() ) {
363	std::list<Label> ls{ enclosingControlStructures.back().useFallExit() };
364	caseStmt->stmts.push_back( new NullStmt( ls ) );
365	} // if
366	} // if
367	}
368	assert( ! enclosingControlStructures.empty() );
369	assertf( dynamic_cast<SwitchStmt *>( enclosingControlStructures.back().get_controlStructure() ), "Control structure enclosing a case clause must be a switch, but is: %s", toCString( enclosingControlStructures.back().get_controlStructure() ) );
370	if ( caseStmt->isDefault() ) {
371	if ( enclosingControlStructures.back().isFallDefaultUsed() ) {
372	// add fallthrough default label if necessary
373	std::list<Label> ls{ enclosingControlStructures.back().useFallDefaultExit() };
374	caseStmt->stmts.push_front( new NullStmt( ls ) );
375	} // if
376	} // if
377	}
378
379	void MLEMutator::premutate( SwitchStmt *switchStmt ) {
380	// generate a label for breaking out of a labeled switch
381	Label brkLabel = generator->newLabel("switchBreak", switchStmt);
382	auto it = std::find_if( switchStmt->statements.rbegin(), switchStmt->statements.rend(), [](Statement * stmt) {
383	CaseStmt * caseStmt = strict_dynamic_cast< CaseStmt * >( stmt );
384	return caseStmt->isDefault();
385	});
386	CaseStmt * defaultCase = it != switchStmt->statements.rend() ? strict_dynamic_cast<CaseStmt >( it ) : nullptr;
387	Label fallDefaultLabel = defaultCase ? generator->newLabel( "fallThroughDefault", defaultCase ) : "";
388	enclosingControlStructures.push_back( Entry(switchStmt, brkLabel, fallDefaultLabel) );
389	GuardAction( [this]() { enclosingControlStructures.pop_back(); } );
390
391	// Collect valid labels for fallthrough. This is initially all labels at the same level as a case statement.
392	// As labels are seen during traversal, they are removed, since fallthrough is not allowed to jump backwards.
393	for ( Statement * stmt : switchStmt->statements ) {
394	CaseStmt * caseStmt = strict_dynamic_cast< CaseStmt * >( stmt );
395	if ( caseStmt->stmts.empty() ) continue;
396	CompoundStmt * block = dynamic_cast< CompoundStmt * >( caseStmt->stmts.front() );
397	for ( Statement * stmt : block->kids ) {
398	for ( Label & l : stmt->labels ) {
399	fallthroughLabels.insert( l );
400	}
401	}
402	}
403	}
404
405	Statement * MLEMutator::postmutate( SwitchStmt * switchStmt ) {
406	Entry &e = enclosingControlStructures.back();
407	assert ( e == switchStmt );
408
409	// only generate break label if labeled break is used
410	if ( e.isBreakUsed() ) {
411	// for the purposes of keeping switch statements uniform (i.e. all statements that are direct children of a
412	// switch should be CastStmts), append the exit label + break to the last case statement; create a default
413	// case if there are no cases
414	std::list< Statement * > &statements = switchStmt->statements;
415	if ( statements.empty() ) {
416	statements.push_back( CaseStmt::makeDefault() );
417	} // if
418
419	if ( CaseStmt * c = dynamic_cast< CaseStmt * >( statements.back() ) ) {
420	Statement * stmt = new BranchStmt( Label("brkLabel"), BranchStmt::Break );
421	stmt->labels.push_back( e.useBreakExit() );
422	c->stmts.push_back( stmt );
423	} else assert(0); // as of this point, all statements of a switch are still CaseStmts
424	} // if
425
426	assert ( enclosingControlStructures.back() == switchStmt );
427	return switchStmt;
428	}
429	} // namespace ControlStruct
430
431	// Local Variables: //
432	// tab-width: 4 //
433	// mode: c++ //
434	// compile-command: "make install" //
435	// End: //

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