source: src/Concurrency/Keywords.cc@ 03c56f6

ADT ast-experimental
Last change on this file since 03c56f6 was 09f34a84, checked in by Thierry Delisle <tdelisle@…>, 3 years ago

Remove some of the warnings on the new clang
  • Property mode set to 100644
File size: 41.8 KB
Line 
1//
2// Cforall Version 1.0.0 Copyright (C) 2016 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// Keywords.cc --
8//
9// Author : Thierry Delisle
10// Created On : Mon Mar 13 12:41:22 2017
11// Last Modified By :
12// Last Modified On :
13// Update Count : 10
14//
15
16#include "Concurrency/Keywords.h"
17
18#include <cassert> // for assert
19#include <string> // for string, operator==
20
21#include <iostream>
22
23#include "Common/Examine.h" // for isMainFor
24#include "Common/PassVisitor.h" // for PassVisitor
25#include "Common/SemanticError.h" // for SemanticError
26#include "Common/utility.h" // for deleteAll, map_range
27#include "CodeGen/OperatorTable.h" // for isConstructor
28#include "ControlStruct/LabelGenerator.h" // for LebelGenerator
29#include "InitTweak/InitTweak.h" // for getPointerBase
30#include "SynTree/LinkageSpec.h" // for Cforall
31#include "SynTree/Constant.h" // for Constant
32#include "SynTree/Declaration.h" // for StructDecl, FunctionDecl, ObjectDecl
33#include "SynTree/Expression.h" // for VariableExpr, ConstantExpr, Untype...
34#include "SynTree/Initializer.h" // for SingleInit, ListInit, Initializer ...
35#include "SynTree/Label.h" // for Label
36#include "SynTree/Statement.h" // for CompoundStmt, DeclStmt, ExprStmt
37#include "SynTree/Type.h" // for StructInstType, Type, PointerType
38#include "SynTree/Visitor.h" // for Visitor, acceptAll
39#include "Virtual/Tables.h"
40
41class Attribute;
42
43namespace Concurrency {
44 inline static std::string getTypeIdName( std::string const & exception_name ) {
45 return exception_name.empty() ? std::string() : Virtual::typeIdType( exception_name );
46 }
47 inline static std::string getVTableName( std::string const & exception_name ) {
48 return exception_name.empty() ? std::string() : Virtual::vtableTypeName( exception_name );
49 }
50
51 // Only detects threads constructed with the keyword thread.
52 inline static bool isThread( DeclarationWithType * decl ) {
53 Type * baseType = decl->get_type()->stripDeclarator();
54 StructInstType * instType = dynamic_cast<StructInstType *>( baseType );
55 if ( nullptr == instType ) { return false; }
56 return instType->baseStruct->is_thread();
57 }
58
59 //=============================================================================================
60 // Pass declarations
61 //=============================================================================================
62
63 //-----------------------------------------------------------------------------
64 //Handles sue type declarations :
65 // sue MyType { struct MyType {
66 // int data; int data;
67 // a_struct_t more_data; a_struct_t more_data;
68 // => NewField_t newField;
69 // }; };
70 // static inline NewField_t * getter_name( MyType * this ) { return &this->newField; }
71 //
72 class ConcurrentSueKeyword : public WithDeclsToAdd {
73 public:
74
75 ConcurrentSueKeyword( std::string&& type_name, std::string&& field_name,
76 std::string&& getter_name, std::string&& context_error, std::string&& exception_name,
77 bool needs_main, AggregateDecl::Aggregate cast_target ) :
78 type_name( type_name ), field_name( field_name ), getter_name( getter_name ),
79 context_error( context_error ), exception_name( exception_name ),
80 typeid_name( getTypeIdName( exception_name ) ),
81 vtable_name( getVTableName( exception_name ) ),
82 needs_main( needs_main ), cast_target( cast_target ) {}
83
84 virtual ~ConcurrentSueKeyword() {}
85
86 Declaration * postmutate( StructDecl * decl );
87 DeclarationWithType * postmutate( FunctionDecl * decl );
88
89 void handle( StructDecl * );
90 void addTypeId( StructDecl * );
91 void addVtableForward( StructDecl * );
92 FunctionDecl * forwardDeclare( StructDecl * );
93 ObjectDecl * addField( StructDecl * );
94 void addRoutines( ObjectDecl *, FunctionDecl * );
95 void addLockUnlockRoutines( StructDecl * );
96
97 virtual bool is_target( StructDecl * decl ) = 0;
98
99 Expression * postmutate( KeywordCastExpr * cast );
100
101 private:
102 const std::string type_name;
103 const std::string field_name;
104 const std::string getter_name;
105 const std::string context_error;
106 const std::string exception_name;
107 const std::string typeid_name;
108 const std::string vtable_name;
109 bool needs_main;
110 AggregateDecl::Aggregate cast_target;
111
112 StructDecl * type_decl = nullptr;
113 FunctionDecl * dtor_decl = nullptr;
114 StructDecl * except_decl = nullptr;
115 StructDecl * typeid_decl = nullptr;
116 StructDecl * vtable_decl = nullptr;
117 };
118
119
120 //-----------------------------------------------------------------------------
121 //Handles thread type declarations :
122 // thread Mythread { struct MyThread {
123 // int data; int data;
124 // a_struct_t more_data; a_struct_t more_data;
125 // => thread$ __thrd_d;
126 // }; };
127 // static inline thread$ * get_thread( MyThread * this ) { return &this->__thrd_d; }
128 //
129 class ThreadKeyword final : public ConcurrentSueKeyword {
130 public:
131
132 ThreadKeyword() : ConcurrentSueKeyword(
133 "thread$",
134 "__thrd",
135 "get_thread",
136 "thread keyword requires threads to be in scope, add #include <thread.hfa>\n",
137 "ThreadCancelled",
138 true,
139 AggregateDecl::Thread
140 )
141 {}
142
143 virtual ~ThreadKeyword() {}
144
145 virtual bool is_target( StructDecl * decl ) override final { return decl->is_thread(); }
146
147 static void implement( std::list< Declaration * > & translationUnit ) {
148 PassVisitor< ThreadKeyword > impl;
149 mutateAll( translationUnit, impl );
150 }
151 };
152
153 //-----------------------------------------------------------------------------
154 //Handles coroutine type declarations :
155 // coroutine MyCoroutine { struct MyCoroutine {
156 // int data; int data;
157 // a_struct_t more_data; a_struct_t more_data;
158 // => coroutine$ __cor_d;
159 // }; };
160 // static inline coroutine$ * get_coroutine( MyCoroutine * this ) { return &this->__cor_d; }
161 //
162 class CoroutineKeyword final : public ConcurrentSueKeyword {
163 public:
164
165 CoroutineKeyword() : ConcurrentSueKeyword(
166 "coroutine$",
167 "__cor",
168 "get_coroutine",
169 "coroutine keyword requires coroutines to be in scope, add #include <coroutine.hfa>\n",
170 "CoroutineCancelled",
171 true,
172 AggregateDecl::Coroutine
173 )
174 {}
175
176 virtual ~CoroutineKeyword() {}
177
178 virtual bool is_target( StructDecl * decl ) override final { return decl->is_coroutine(); }
179
180 static void implement( std::list< Declaration * > & translationUnit ) {
181 PassVisitor< CoroutineKeyword > impl;
182 mutateAll( translationUnit, impl );
183 }
184 };
185
186
187
188 //-----------------------------------------------------------------------------
189 //Handles monitor type declarations :
190 // monitor MyMonitor { struct MyMonitor {
191 // int data; int data;
192 // a_struct_t more_data; a_struct_t more_data;
193 // => monitor$ __mon_d;
194 // }; };
195 // static inline monitor$ * get_coroutine( MyMonitor * this ) { return &this->__cor_d; }
196 //
197 class MonitorKeyword final : public ConcurrentSueKeyword {
198 public:
199
200 MonitorKeyword() : ConcurrentSueKeyword(
201 "monitor$",
202 "__mon",
203 "get_monitor",
204 "monitor keyword requires monitors to be in scope, add #include <monitor.hfa>\n",
205 "",
206 false,
207 AggregateDecl::Monitor
208 )
209 {}
210
211 virtual ~MonitorKeyword() {}
212
213 virtual bool is_target( StructDecl * decl ) override final { return decl->is_monitor(); }
214
215 static void implement( std::list< Declaration * > & translationUnit ) {
216 PassVisitor< MonitorKeyword > impl;
217 mutateAll( translationUnit, impl );
218 }
219 };
220
221 //-----------------------------------------------------------------------------
222 //Handles generator type declarations :
223 // generator MyGenerator { struct MyGenerator {
224 // int data; int data;
225 // a_struct_t more_data; a_struct_t more_data;
226 // => int __gen_next;
227 // }; };
228 //
229 class GeneratorKeyword final : public ConcurrentSueKeyword {
230 public:
231
232 GeneratorKeyword() : ConcurrentSueKeyword(
233 "generator$",
234 "__generator_state",
235 "get_generator",
236 "Unable to find builtin type generator$\n",
237 "",
238 true,
239 AggregateDecl::Generator
240 )
241 {}
242
243 virtual ~GeneratorKeyword() {}
244
245 virtual bool is_target( StructDecl * decl ) override final { return decl->is_generator(); }
246
247 static void implement( std::list< Declaration * > & translationUnit ) {
248 PassVisitor< GeneratorKeyword > impl;
249 mutateAll( translationUnit, impl );
250 }
251 };
252
253
254 //-----------------------------------------------------------------------------
255 class SuspendKeyword final : public WithStmtsToAdd, public WithGuards {
256 public:
257 SuspendKeyword() = default;
258 virtual ~SuspendKeyword() = default;
259
260 void premutate( FunctionDecl * );
261 DeclarationWithType * postmutate( FunctionDecl * );
262
263 Statement * postmutate( SuspendStmt * );
264
265 static void implement( std::list< Declaration * > & translationUnit ) {
266 PassVisitor< SuspendKeyword > impl;
267 mutateAll( translationUnit, impl );
268 }
269
270 private:
271 bool is_real_suspend( FunctionDecl * );
272
273 Statement * make_generator_suspend( SuspendStmt * );
274 Statement * make_coroutine_suspend( SuspendStmt * );
275
276 struct LabelPair {
277 Label obj;
278 int idx;
279 };
280
281 LabelPair make_label() {
282 labels.push_back( gen.newLabel("generator") );
283 return { labels.back(), int(labels.size()) };
284 }
285
286 DeclarationWithType * in_generator = nullptr;
287 FunctionDecl * decl_suspend = nullptr;
288 std::vector<Label> labels;
289 ControlStruct::LabelGenerator & gen = *ControlStruct::LabelGenerator::getGenerator();
290 };
291
292 //-----------------------------------------------------------------------------
293 //Handles mutex routines definitions :
294 // void foo( A * mutex a, B * mutex b, int i ) { void foo( A * a, B * b, int i ) {
295 // monitor$ * __monitors[] = { get_monitor(a), get_monitor(b) };
296 // monitor_guard_t __guard = { __monitors, 2 };
297 // /*Some code*/ => /*Some code*/
298 // } }
299 //
300 class MutexKeyword final {
301 public:
302
303 void postvisit( FunctionDecl * decl );
304 void postvisit( StructDecl * decl );
305 Statement * postmutate( MutexStmt * stmt );
306
307 std::list<DeclarationWithType*> findMutexArgs( FunctionDecl*, bool & first );
308 void validate( DeclarationWithType * );
309 void addDtorStatements( FunctionDecl* func, CompoundStmt *, const std::list<DeclarationWithType * > &);
310 void addStatements( FunctionDecl* func, CompoundStmt *, const std::list<DeclarationWithType * > &);
311 void addStatements( CompoundStmt * body, const std::list<Expression * > & args );
312 void addThreadDtorStatements( FunctionDecl* func, CompoundStmt * body, const std::list<DeclarationWithType * > & args );
313
314 static void implement( std::list< Declaration * > & translationUnit ) {
315 PassVisitor< MutexKeyword > impl;
316 acceptAll( translationUnit, impl );
317 mutateAll( translationUnit, impl );
318 }
319
320 private:
321 StructDecl* monitor_decl = nullptr;
322 StructDecl* guard_decl = nullptr;
323 StructDecl* dtor_guard_decl = nullptr;
324 StructDecl* thread_guard_decl = nullptr;
325 StructDecl* lock_guard_decl = nullptr;
326
327 static std::unique_ptr< Type > generic_func;
328 };
329
330 std::unique_ptr< Type > MutexKeyword::generic_func = std::unique_ptr< Type >(
331 new FunctionType(
332 noQualifiers,
333 true
334 )
335 );
336
337 //-----------------------------------------------------------------------------
338 //Handles mutex routines definitions :
339 // void foo( A * mutex a, B * mutex b, int i ) { void foo( A * a, B * b, int i ) {
340 // monitor$ * __monitors[] = { get_monitor(a), get_monitor(b) };
341 // monitor_guard_t __guard = { __monitors, 2 };
342 // /*Some code*/ => /*Some code*/
343 // } }
344 //
345 class ThreadStarter final {
346 public:
347
348 void postvisit( FunctionDecl * decl );
349 void previsit ( StructDecl * decl );
350
351 void addStartStatement( FunctionDecl * decl, DeclarationWithType * param );
352
353 static void implement( std::list< Declaration * > & translationUnit ) {
354 PassVisitor< ThreadStarter > impl;
355 acceptAll( translationUnit, impl );
356 }
357
358 private :
359 bool thread_ctor_seen = false;
360 StructDecl * thread_decl = nullptr;
361 };
362
363 //=============================================================================================
364 // General entry routine
365 //=============================================================================================
366 void applyKeywords( std::list< Declaration * > & translationUnit ) {
367 ThreadKeyword ::implement( translationUnit );
368 CoroutineKeyword ::implement( translationUnit );
369 MonitorKeyword ::implement( translationUnit );
370 GeneratorKeyword ::implement( translationUnit );
371 SuspendKeyword ::implement( translationUnit );
372 }
373
374 void implementMutexFuncs( std::list< Declaration * > & translationUnit ) {
375 MutexKeyword ::implement( translationUnit );
376 }
377
378 void implementThreadStarter( std::list< Declaration * > & translationUnit ) {
379 ThreadStarter ::implement( translationUnit );
380 }
381
382 //=============================================================================================
383 // Generic keyword implementation
384 //=============================================================================================
385 void fixupGenerics(FunctionType * func, StructDecl * decl) {
386 cloneAll(decl->parameters, func->forall);
387 for ( TypeDecl * td : func->forall ) {
388 strict_dynamic_cast<StructInstType*>(
389 func->parameters.front()->get_type()->stripReferences()
390 )->parameters.push_back(
391 new TypeExpr( new TypeInstType( noQualifiers, td->name, td ) )
392 );
393 }
394 }
395
396 Declaration * ConcurrentSueKeyword::postmutate(StructDecl * decl) {
397 if( decl->name == type_name && decl->body ) {
398 assert( !type_decl );
399 type_decl = decl;
400 }
401 else if ( is_target(decl) ) {
402 handle( decl );
403 }
404 else if ( !except_decl && exception_name == decl->name && decl->body ) {
405 except_decl = decl;
406 }
407 else if ( !typeid_decl && typeid_name == decl->name && decl->body ) {
408 typeid_decl = decl;
409 }
410 else if ( !vtable_decl && vtable_name == decl->name && decl->body ) {
411 vtable_decl = decl;
412 }
413 // Might be able to get ride of is target.
414 assert( is_target(decl) == (cast_target == decl->kind) );
415 return decl;
416 }
417
418 DeclarationWithType * ConcurrentSueKeyword::postmutate( FunctionDecl * decl ) {
419 if ( type_decl && isDestructorFor( decl, type_decl ) )
420 dtor_decl = decl;
421 else if ( vtable_name.empty() || !decl->has_body() )
422 ;
423 else if ( auto param = isMainFor( decl, cast_target ) ) {
424 if ( !vtable_decl ) {
425 SemanticError( decl, context_error );
426 }
427 // Should be safe because of isMainFor.
428 StructInstType * struct_type = static_cast<StructInstType *>(
429 static_cast<ReferenceType *>( param->get_type() )->base );
430 assert( struct_type );
431
432 std::list< Expression * > poly_args = { new TypeExpr( struct_type->clone() ) };
433 ObjectDecl * vtable_object = Virtual::makeVtableInstance(
434 "_default_vtable_object_declaration",
435 vtable_decl->makeInst( poly_args ), struct_type, nullptr );
436 declsToAddAfter.push_back( vtable_object );
437 declsToAddAfter.push_back(
438 new ObjectDecl(
439 Virtual::concurrentDefaultVTableName(),
440 noStorageClasses,
441 LinkageSpec::Cforall,
442 /* bitfieldWidth */ nullptr,
443 new ReferenceType( Type::Const, vtable_object->type->clone() ),
444 new SingleInit( new VariableExpr( vtable_object ) )
445 )
446 );
447 declsToAddAfter.push_back( Virtual::makeGetExceptionFunction(
448 vtable_object, except_decl->makeInst( std::move( poly_args ) )
449 ) );
450 }
451
452 return decl;
453 }
454
455 Expression * ConcurrentSueKeyword::postmutate( KeywordCastExpr * cast ) {
456 if ( cast_target == cast->target ) {
457 // convert (thread &)t to (thread$ &)*get_thread(t), etc.
458 if( !type_decl ) SemanticError( cast, context_error );
459 if( !dtor_decl ) SemanticError( cast, context_error );
460 assert( cast->result == nullptr );
461 cast->set_result( new ReferenceType( noQualifiers, new StructInstType( noQualifiers, type_decl ) ) );
462 cast->concrete_target.field = field_name;
463 cast->concrete_target.getter = getter_name;
464 }
465 return cast;
466 }
467
468 void ConcurrentSueKeyword::handle( StructDecl * decl ) {
469 if( ! decl->body ) return;
470
471 if( !type_decl ) SemanticError( decl, context_error );
472 if( !dtor_decl ) SemanticError( decl, context_error );
473
474 if ( !exception_name.empty() ) {
475 if( !typeid_decl ) SemanticError( decl, context_error );
476 if( !vtable_decl ) SemanticError( decl, context_error );
477
478 addTypeId( decl );
479 addVtableForward( decl );
480 }
481 FunctionDecl * func = forwardDeclare( decl );
482 ObjectDecl * field = addField( decl );
483
484 // add get_.* routine
485 addRoutines( field, func );
486 // add lock/unlock routines to monitors for use by mutex stmt
487 addLockUnlockRoutines( decl );
488 }
489
490 void ConcurrentSueKeyword::addTypeId( StructDecl * decl ) {
491 assert( typeid_decl );
492 StructInstType typeid_type( Type::Const, typeid_decl );
493 typeid_type.parameters.push_back( new TypeExpr(
494 new StructInstType( noQualifiers, decl )
495 ) );
496 declsToAddBefore.push_back( Virtual::makeTypeIdInstance( &typeid_type ) );
497 }
498
499 void ConcurrentSueKeyword::addVtableForward( StructDecl * decl ) {
500 assert( vtable_decl );
501 std::list< Expression * > poly_args = {
502 new TypeExpr( new StructInstType( noQualifiers, decl ) ),
503 };
504 declsToAddBefore.push_back( Virtual::makeGetExceptionForward(
505 vtable_decl->makeInst( poly_args ),
506 except_decl->makeInst( poly_args )
507 ) );
508 ObjectDecl * vtable_object = Virtual::makeVtableForward(
509 "_default_vtable_object_declaration",
510 vtable_decl->makeInst( std::move( poly_args ) ) );
511 declsToAddBefore.push_back( vtable_object );
512 declsToAddBefore.push_back(
513 new ObjectDecl(
514 Virtual::concurrentDefaultVTableName(),
515 Type::StorageClasses( Type::Extern ),
516 LinkageSpec::Cforall,
517 /* bitfieldWidth */ nullptr,
518 new ReferenceType( Type::Const, vtable_object->type->clone() ),
519 /* init */ nullptr
520 )
521 );
522 }
523
524 FunctionDecl * ConcurrentSueKeyword::forwardDeclare( StructDecl * decl ) {
525
526 StructDecl * forward = decl->clone();
527 forward->set_body( false );
528 deleteAll( forward->get_members() );
529 forward->get_members().clear();
530
531 FunctionType * get_type = new FunctionType( noQualifiers, false );
532 ObjectDecl * this_decl = new ObjectDecl(
533 "this",
534 noStorageClasses,
535 LinkageSpec::Cforall,
536 nullptr,
537 new ReferenceType(
538 noQualifiers,
539 new StructInstType(
540 noQualifiers,
541 decl
542 )
543 ),
544 nullptr
545 );
546
547 get_type->get_parameters().push_back( this_decl->clone() );
548 get_type->get_returnVals().push_back(
549 new ObjectDecl(
550 "ret",
551 noStorageClasses,
552 LinkageSpec::Cforall,
553 nullptr,
554 new PointerType(
555 noQualifiers,
556 new StructInstType(
557 noQualifiers,
558 type_decl
559 )
560 ),
561 nullptr
562 )
563 );
564 fixupGenerics(get_type, decl);
565
566 FunctionDecl * get_decl = new FunctionDecl(
567 getter_name,
568 Type::Static,
569 LinkageSpec::Cforall,
570 get_type,
571 nullptr,
572 { new Attribute("const") },
573 Type::Inline
574 );
575
576 FunctionDecl * main_decl = nullptr;
577
578 if( needs_main ) {
579 FunctionType * main_type = new FunctionType( noQualifiers, false );
580
581 main_type->get_parameters().push_back( this_decl->clone() );
582
583 main_decl = new FunctionDecl(
584 "main",
585 noStorageClasses,
586 LinkageSpec::Cforall,
587 main_type,
588 nullptr
589 );
590 fixupGenerics(main_type, decl);
591 }
592
593 delete this_decl;
594
595 declsToAddBefore.push_back( forward );
596 if( needs_main ) declsToAddBefore.push_back( main_decl );
597 declsToAddBefore.push_back( get_decl );
598
599 return get_decl;
600 }
601
602 ObjectDecl * ConcurrentSueKeyword::addField( StructDecl * decl ) {
603 ObjectDecl * field = new ObjectDecl(
604 field_name,
605 noStorageClasses,
606 LinkageSpec::Cforall,
607 nullptr,
608 new StructInstType(
609 noQualifiers,
610 type_decl
611 ),
612 nullptr
613 );
614
615 decl->get_members().push_back( field );
616
617 return field;
618 }
619
620 // This function adds the get_.* routine body for coroutines, monitors etc
621 // after their corresponding struct has been made
622 void ConcurrentSueKeyword::addRoutines( ObjectDecl * field, FunctionDecl * func ) {
623 CompoundStmt * statement = new CompoundStmt();
624 statement->push_back(
625 new ReturnStmt(
626 new AddressExpr(
627 new MemberExpr(
628 field,
629 new CastExpr(
630 new VariableExpr( func->get_functionType()->get_parameters().front() ),
631 func->get_functionType()->get_parameters().front()->get_type()->stripReferences()->clone(),
632 false
633 )
634 )
635 )
636 )
637 );
638
639 FunctionDecl * get_decl = func->clone();
640
641 get_decl->set_statements( statement );
642
643 declsToAddAfter.push_back( get_decl );
644 }
645
646 // Generates lock/unlock routines for monitors to be used by mutex stmts
647 void ConcurrentSueKeyword::addLockUnlockRoutines( StructDecl * decl ) {
648 // this routine will be called for all ConcurrentSueKeyword children so only continue if we are a monitor
649 if ( !decl->is_monitor() ) return;
650
651 FunctionType * lock_fn_type = new FunctionType( noQualifiers, false );
652 FunctionType * unlock_fn_type = new FunctionType( noQualifiers, false );
653
654 // create this ptr parameter for both routines
655 ObjectDecl * this_decl = new ObjectDecl(
656 "this",
657 noStorageClasses,
658 LinkageSpec::Cforall,
659 nullptr,
660 new ReferenceType(
661 noQualifiers,
662 new StructInstType(
663 noQualifiers,
664 decl
665 )
666 ),
667 nullptr
668 );
669
670 lock_fn_type->get_parameters().push_back( this_decl->clone() );
671 unlock_fn_type->get_parameters().push_back( this_decl->clone() );
672 fixupGenerics(lock_fn_type, decl);
673 fixupGenerics(unlock_fn_type, decl);
674
675 delete this_decl;
676
677
678 //////////////////////////////////////////////////////////////////////
679 // The following generates this lock routine for all monitors
680 /*
681 void lock (monitor_t & this) {
682 lock(get_monitor(this));
683 }
684 */
685 FunctionDecl * lock_decl = new FunctionDecl(
686 "lock",
687 Type::Static,
688 LinkageSpec::Cforall,
689 lock_fn_type,
690 nullptr,
691 { },
692 Type::Inline
693 );
694
695 UntypedExpr * get_monitor_lock = new UntypedExpr (
696 new NameExpr( "get_monitor" ),
697 { new VariableExpr( lock_fn_type->get_parameters().front() ) }
698 );
699
700 CompoundStmt * lock_statement = new CompoundStmt();
701 lock_statement->push_back(
702 new ExprStmt(
703 new UntypedExpr (
704 new NameExpr( "lock" ),
705 {
706 get_monitor_lock
707 }
708 )
709 )
710 );
711 lock_decl->set_statements( lock_statement );
712
713 //////////////////////////////////////////////////////////////////
714 // The following generates this routine for all monitors
715 /*
716 void unlock (monitor_t & this) {
717 unlock(get_monitor(this));
718 }
719 */
720 FunctionDecl * unlock_decl = new FunctionDecl(
721 "unlock",
722 Type::Static,
723 LinkageSpec::Cforall,
724 unlock_fn_type,
725 nullptr,
726 { },
727 Type::Inline
728 );
729
730 CompoundStmt * unlock_statement = new CompoundStmt();
731
732 UntypedExpr * get_monitor_unlock = new UntypedExpr (
733 new NameExpr( "get_monitor" ),
734 { new VariableExpr( unlock_fn_type->get_parameters().front() ) }
735 );
736
737 unlock_statement->push_back(
738 new ExprStmt(
739 new UntypedExpr(
740 new NameExpr( "unlock" ),
741 {
742 get_monitor_unlock
743 }
744 )
745 )
746 );
747 unlock_decl->set_statements( unlock_statement );
748
749 // pushes routines to declsToAddAfter to add at a later time
750 declsToAddAfter.push_back( lock_decl );
751 declsToAddAfter.push_back( unlock_decl );
752 }
753
754 //=============================================================================================
755 // Suspend keyword implementation
756 //=============================================================================================
757 bool SuspendKeyword::is_real_suspend( FunctionDecl * func ) {
758 if(isMangled(func->linkage)) return false; // the real suspend isn't mangled
759 if(func->name != "__cfactx_suspend") return false; // the real suspend has a specific name
760 if(func->type->parameters.size() != 0) return false; // Too many parameters
761 if(func->type->returnVals.size() != 0) return false; // Too many return values
762
763 return true;
764 }
765
766 void SuspendKeyword::premutate( FunctionDecl * func ) {
767 GuardValue(in_generator);
768 in_generator = nullptr;
769
770 // Is this the real suspend?
771 if(is_real_suspend(func)) {
772 decl_suspend = decl_suspend ? decl_suspend : func;
773 return;
774 }
775
776 // Is this the main of a generator?
777 auto param = isMainFor( func, AggregateDecl::Aggregate::Generator );
778 if(!param) return;
779
780 if(func->type->returnVals.size() != 0) SemanticError(func->location, "Generator main must return void");
781
782 in_generator = param;
783 GuardValue(labels);
784 labels.clear();
785 }
786
787 DeclarationWithType * SuspendKeyword::postmutate( FunctionDecl * func ) {
788 if( !func->statements ) return func; // Not the actual definition, don't do anything
789 if( !in_generator ) return func; // Not in a generator, don't do anything
790 if( labels.empty() ) return func; // Generator has no states, nothing to do, could throw a warning
791
792 // This is a generator main, we need to add the following code to the top
793 // static void * __generator_labels[] = {&&s0, &&s1, ...};
794 // goto * __generator_labels[gen.__generator_state];
795 const auto & loc = func->location;
796
797 const auto first_label = gen.newLabel("generator");
798
799 // for each label add to declaration
800 std::list<Initializer*> inits = { new SingleInit( new LabelAddressExpr( first_label ) ) };
801 for(const auto & label : labels) {
802 inits.push_back(
803 new SingleInit(
804 new LabelAddressExpr( label )
805 )
806 );
807 }
808 auto init = new ListInit(std::move(inits), noDesignators, true);
809 labels.clear();
810
811 // create decl
812 auto decl = new ObjectDecl(
813 "__generator_labels",
814 Type::StorageClasses( Type::Static ),
815 LinkageSpec::AutoGen,
816 nullptr,
817 new ArrayType(
818 Type::Qualifiers(),
819 new PointerType(
820 Type::Qualifiers(),
821 new VoidType( Type::Qualifiers() )
822 ),
823 nullptr,
824 false, false
825 ),
826 init
827 );
828
829 // create the goto
830 assert(in_generator);
831
832 auto go_decl = new ObjectDecl(
833 "__generator_label",
834 noStorageClasses,
835 LinkageSpec::AutoGen,
836 nullptr,
837 new PointerType(
838 Type::Qualifiers(),
839 new VoidType( Type::Qualifiers() )
840 ),
841 new SingleInit(
842 new UntypedExpr(
843 new NameExpr("?[?]"),
844 {
845 new NameExpr("__generator_labels"),
846 new UntypedMemberExpr(
847 new NameExpr("__generator_state"),
848 new VariableExpr( in_generator )
849 )
850 }
851 )
852 )
853 );
854 go_decl->location = loc;
855
856 auto go = new BranchStmt(
857 new VariableExpr( go_decl ),
858 BranchStmt::Goto
859 );
860 go->location = loc;
861 go->computedTarget->location = loc;
862
863 auto noop = new NullStmt({ first_label });
864 noop->location = loc;
865
866 // wrap everything in a nice compound
867 auto body = new CompoundStmt({
868 new DeclStmt( decl ),
869 new DeclStmt( go_decl ),
870 go,
871 noop,
872 func->statements
873 });
874 body->location = loc;
875 func->statements = body;
876
877 return func;
878 }
879
880 Statement * SuspendKeyword::postmutate( SuspendStmt * stmt ) {
881 SuspendStmt::Type type = stmt->type;
882 if(type == SuspendStmt::None) {
883 // This suspend has a implicit target, find it
884 type = in_generator ? SuspendStmt::Generator : SuspendStmt::Coroutine;
885 }
886
887 // Check that the target makes sense
888 if(!in_generator && type == SuspendStmt::Generator) SemanticError( stmt->location, "'suspend generator' must be used inside main of generator type.");
889
890 // Act appropriately
891 switch(type) {
892 case SuspendStmt::Generator: return make_generator_suspend(stmt);
893 case SuspendStmt::Coroutine: return make_coroutine_suspend(stmt);
894 default: abort();
895 }
896 }
897
898 Statement * SuspendKeyword::make_generator_suspend( SuspendStmt * stmt ) {
899 assert(in_generator);
900 // Target code is :
901 // gen.__generator_state = X;
902 // { THEN }
903 // return;
904 // __gen_X:;
905
906 // Save the location and delete the old statement, we only need the location from this point on
907 auto loc = stmt->location;
908
909 // Build the label and get its index
910 auto label = make_label();
911
912 // Create the context saving statement
913 auto save = new ExprStmt( new UntypedExpr(
914 new NameExpr( "?=?" ),
915 {
916 new UntypedMemberExpr(
917 new NameExpr("__generator_state"),
918 new VariableExpr( in_generator )
919 ),
920 new ConstantExpr(
921 Constant::from_int( label.idx )
922 )
923 }
924 ));
925 assert(save->expr);
926 save->location = loc;
927 stmtsToAddBefore.push_back( save );
928
929 // if we have a then add it here
930 auto then = stmt->then;
931 stmt->then = nullptr;
932 delete stmt;
933 if(then) stmtsToAddBefore.push_back( then );
934
935 // Create the return statement
936 auto ret = new ReturnStmt( nullptr );
937 ret->location = loc;
938 stmtsToAddBefore.push_back( ret );
939
940 // Create the null statement with the created label
941 auto noop = new NullStmt({ label.obj });
942 noop->location = loc;
943
944 // Return the null statement to take the place of the previous statement
945 return noop;
946 }
947
948 Statement * SuspendKeyword::make_coroutine_suspend( SuspendStmt * stmt ) {
949 if(stmt->then) SemanticError( stmt->location, "Compound statement following coroutines is not implemented.");
950
951 // Save the location and delete the old statement, we only need the location from this point on
952 auto loc = stmt->location;
953 delete stmt;
954
955 // Create the call expression
956 if(!decl_suspend) SemanticError( loc, "suspend keyword applied to coroutines requires coroutines to be in scope, add #include <coroutine.hfa>\n");
957 auto expr = new UntypedExpr( VariableExpr::functionPointer( decl_suspend ) );
958 expr->location = loc;
959
960 // Change this statement into a regular expr
961 assert(expr);
962 auto nstmt = new ExprStmt( expr );
963 nstmt->location = loc;
964 return nstmt;
965 }
966
967
968 //=============================================================================================
969 // Mutex keyword implementation
970 //=============================================================================================
971
972 void MutexKeyword::postvisit(FunctionDecl* decl) {
973
974 bool first = false;
975 std::list<DeclarationWithType*> mutexArgs = findMutexArgs( decl, first );
976 bool const isDtor = CodeGen::isDestructor( decl->name );
977
978 // Is this function relevant to monitors
979 if( mutexArgs.empty() ) {
980 // If this is the destructor for a monitor it must be mutex
981 if(isDtor) {
982 // This reflects MutexKeyword::validate, except does not produce an error.
983 Type* ty = decl->get_functionType()->get_parameters().front()->get_type();
984
985 // If it's a copy, it's not a mutex
986 ReferenceType* rty = dynamic_cast< ReferenceType * >( ty );
987 if( ! rty ) return;
988
989 // If we are not pointing directly to a type, it's not a mutex
990 Type* base = rty->get_base();
991 if( dynamic_cast< ReferenceType * >( base ) ) return;
992 if( dynamic_cast< PointerType * >( base ) ) return;
993
994 // Check if its a struct
995 StructInstType * baseStruct = dynamic_cast< StructInstType * >( base );
996 if( !baseStruct ) return;
997
998 // Check if its a monitor
999 if(baseStruct->baseStruct->is_monitor() || baseStruct->baseStruct->is_thread())
1000 SemanticError( decl, "destructors for structures declared as \"monitor\" must use mutex parameters\n" );
1001 }
1002 return;
1003 }
1004
1005 // Monitors can't be constructed with mutual exclusion
1006 if( CodeGen::isConstructor(decl->name) && !first ) SemanticError( decl, "constructors cannot have mutex parameters" );
1007
1008 // It makes no sense to have multiple mutex parameters for the destructor
1009 if( isDtor && mutexArgs.size() != 1 ) SemanticError( decl, "destructors can only have 1 mutex argument" );
1010
1011 // Make sure all the mutex arguments are monitors
1012 for(auto arg : mutexArgs) {
1013 validate( arg );
1014 }
1015
1016 // Check if we need to instrument the body
1017 CompoundStmt* body = decl->get_statements();
1018 if( ! body ) return;
1019
1020 // Do we have the required headers
1021 if( !monitor_decl || !guard_decl || !dtor_guard_decl )
1022 SemanticError( decl, "mutex keyword requires monitors to be in scope, add #include <monitor.hfa>\n" );
1023
1024 // Instrument the body
1025 if ( isDtor && isThread( mutexArgs.front() ) ) {
1026 if( !thread_guard_decl ) {
1027 SemanticError( decl, "thread destructor requires threads to be in scope, add #include <thread.hfa>\n" );
1028 }
1029 addThreadDtorStatements( decl, body, mutexArgs );
1030 }
1031 else if ( isDtor ) {
1032 addDtorStatements( decl, body, mutexArgs );
1033 }
1034 else {
1035 addStatements( decl, body, mutexArgs );
1036 }
1037 }
1038
1039 void MutexKeyword::postvisit(StructDecl* decl) {
1040
1041 if( decl->name == "monitor$" && decl->body ) {
1042 assert( !monitor_decl );
1043 monitor_decl = decl;
1044 }
1045 else if( decl->name == "monitor_guard_t" && decl->body ) {
1046 assert( !guard_decl );
1047 guard_decl = decl;
1048 }
1049 else if( decl->name == "monitor_dtor_guard_t" && decl->body ) {
1050 assert( !dtor_guard_decl );
1051 dtor_guard_decl = decl;
1052 }
1053 else if( decl->name == "thread_dtor_guard_t" && decl->body ) {
1054 assert( !thread_guard_decl );
1055 thread_guard_decl = decl;
1056 }
1057 else if ( decl->name == "__mutex_stmt_lock_guard" && decl->body ) {
1058 assert( !lock_guard_decl );
1059 lock_guard_decl = decl;
1060 }
1061 }
1062
1063 Statement * MutexKeyword::postmutate( MutexStmt * stmt ) {
1064 std::list<Statement *> stmtsForCtor;
1065 stmtsForCtor.push_back(stmt->stmt);
1066 CompoundStmt * body = new CompoundStmt( stmtsForCtor );
1067 addStatements( body, stmt->mutexObjs);
1068 return body;
1069 }
1070
1071 std::list<DeclarationWithType*> MutexKeyword::findMutexArgs( FunctionDecl* decl, bool & first ) {
1072 std::list<DeclarationWithType*> mutexArgs;
1073
1074 bool once = true;
1075 for( auto arg : decl->get_functionType()->get_parameters()) {
1076 //Find mutex arguments
1077 Type* ty = arg->get_type();
1078 if( ! ty->get_mutex() ) continue;
1079
1080 if(once) {first = true;}
1081 once = false;
1082
1083 //Append it to the list
1084 mutexArgs.push_back( arg );
1085 }
1086
1087 return mutexArgs;
1088 }
1089
1090 void MutexKeyword::validate( DeclarationWithType * arg ) {
1091 Type* ty = arg->get_type();
1092
1093 //Makes sure it's not a copy
1094 ReferenceType* rty = dynamic_cast< ReferenceType * >( ty );
1095 if( ! rty ) SemanticError( arg, "Mutex argument must be of reference type " );
1096
1097 //Make sure the we are pointing directly to a type
1098 Type* base = rty->get_base();
1099 if( dynamic_cast< ReferenceType * >( base ) ) SemanticError( arg, "Mutex argument have exactly one level of indirection " );
1100 if( dynamic_cast< PointerType * >( base ) ) SemanticError( arg, "Mutex argument have exactly one level of indirection " );
1101
1102 //Make sure that typed isn't mutex
1103 if( base->get_mutex() ) SemanticError( arg, "mutex keyword may only appear once per argument " );
1104 }
1105
1106 void MutexKeyword::addDtorStatements( FunctionDecl* func, CompoundStmt * body, const std::list<DeclarationWithType * > & args ) {
1107 Type * arg_type = args.front()->get_type()->clone();
1108 arg_type->set_mutex( false );
1109
1110 ObjectDecl * monitors = new ObjectDecl(
1111 "__monitor",
1112 noStorageClasses,
1113 LinkageSpec::Cforall,
1114 nullptr,
1115 new PointerType(
1116 noQualifiers,
1117 new StructInstType(
1118 noQualifiers,
1119 monitor_decl
1120 )
1121 ),
1122 new SingleInit( new UntypedExpr(
1123 new NameExpr( "get_monitor" ),
1124 { new CastExpr( new VariableExpr( args.front() ), arg_type, false ) }
1125 ))
1126 );
1127
1128 assert(generic_func);
1129
1130 //in reverse order :
1131 // monitor_dtor_guard_t __guard = { __monitors, func };
1132 body->push_front(
1133 new DeclStmt( new ObjectDecl(
1134 "__guard",
1135 noStorageClasses,
1136 LinkageSpec::Cforall,
1137 nullptr,
1138 new StructInstType(
1139 noQualifiers,
1140 dtor_guard_decl
1141 ),
1142 new ListInit(
1143 {
1144 new SingleInit( new AddressExpr( new VariableExpr( monitors ) ) ),
1145 new SingleInit( new CastExpr( new VariableExpr( func ), generic_func->clone(), false ) ),
1146 new SingleInit( new ConstantExpr( Constant::from_bool( false ) ) )
1147 },
1148 noDesignators,
1149 true
1150 )
1151 ))
1152 );
1153
1154 //monitor$ * __monitors[] = { get_monitor(a), get_monitor(b) };
1155 body->push_front( new DeclStmt( monitors ) );
1156 }
1157
1158 void MutexKeyword::addThreadDtorStatements(
1159 FunctionDecl*, CompoundStmt * body,
1160 const std::list<DeclarationWithType * > & args ) {
1161 assert( args.size() == 1 );
1162 DeclarationWithType * arg = args.front();
1163 Type * arg_type = arg->get_type()->clone();
1164 assert( arg_type->get_mutex() );
1165 arg_type->set_mutex( false );
1166
1167 // thread_dtor_guard_t __guard = { this, intptr( 0 ) };
1168 body->push_front(
1169 new DeclStmt( new ObjectDecl(
1170 "__guard",
1171 noStorageClasses,
1172 LinkageSpec::Cforall,
1173 nullptr,
1174 new StructInstType(
1175 noQualifiers,
1176 thread_guard_decl
1177 ),
1178 new ListInit(
1179 {
1180 new SingleInit( new CastExpr( new VariableExpr( arg ), arg_type ) ),
1181 new SingleInit( new UntypedExpr(
1182 new NameExpr( "intptr" ), {
1183 new ConstantExpr( Constant::from_int( 0 ) ),
1184 }
1185 ) ),
1186 },
1187 noDesignators,
1188 true
1189 )
1190 ))
1191 );
1192 }
1193
1194 void MutexKeyword::addStatements( CompoundStmt * body, const std::list<Expression * > & args ) {
1195 ObjectDecl * monitors = new ObjectDecl(
1196 "__monitors",
1197 noStorageClasses,
1198 LinkageSpec::Cforall,
1199 nullptr,
1200 new ArrayType(
1201 noQualifiers,
1202 new PointerType(
1203 noQualifiers,
1204 //new TypeofType( noQualifiers, args.front()->clone() )
1205 new TypeofType( noQualifiers, new UntypedExpr(
1206 new NameExpr( "__get_mutexstmt_lock_type" ),
1207 { args.front()->clone() }
1208 )
1209 )
1210 ),
1211 new ConstantExpr( Constant::from_ulong( args.size() ) ),
1212 false,
1213 false
1214 ),
1215 new ListInit(
1216 map_range < std::list<Initializer*> > ( args, [](Expression * var ){
1217 return new SingleInit( new UntypedExpr(
1218 new NameExpr( "__get_mutexstmt_lock_ptr" ),
1219 { var }
1220 ) );
1221 //return new SingleInit( new AddressExpr( var ) );
1222 })
1223 )
1224 );
1225
1226 StructInstType * lock_guard_struct = new StructInstType( noQualifiers, lock_guard_decl );
1227 TypeExpr * lock_type_expr = new TypeExpr(
1228 new TypeofType( noQualifiers, new UntypedExpr(
1229 new NameExpr( "__get_mutexstmt_lock_type" ),
1230 { args.front()->clone() }
1231 )
1232 )
1233 );
1234
1235 lock_guard_struct->parameters.push_back( lock_type_expr ) ;
1236
1237 // in reverse order :
1238 // monitor_guard_t __guard = { __monitors, # };
1239 body->push_front(
1240 new DeclStmt( new ObjectDecl(
1241 "__guard",
1242 noStorageClasses,
1243 LinkageSpec::Cforall,
1244 nullptr,
1245 lock_guard_struct,
1246 new ListInit(
1247 {
1248 new SingleInit( new VariableExpr( monitors ) ),
1249 new SingleInit( new ConstantExpr( Constant::from_ulong( args.size() ) ) )
1250 },
1251 noDesignators,
1252 true
1253 )
1254 ))
1255 );
1256
1257 //monitor$ * __monitors[] = { get_monitor(a), get_monitor(b) };
1258 body->push_front( new DeclStmt( monitors) );
1259 }
1260
1261 void MutexKeyword::addStatements( FunctionDecl* func, CompoundStmt * body, const std::list<DeclarationWithType * > & args ) {
1262 ObjectDecl * monitors = new ObjectDecl(
1263 "__monitors",
1264 noStorageClasses,
1265 LinkageSpec::Cforall,
1266 nullptr,
1267 new ArrayType(
1268 noQualifiers,
1269 new PointerType(
1270 noQualifiers,
1271 new StructInstType(
1272 noQualifiers,
1273 monitor_decl
1274 )
1275 ),
1276 new ConstantExpr( Constant::from_ulong( args.size() ) ),
1277 false,
1278 false
1279 ),
1280 new ListInit(
1281 map_range < std::list<Initializer*> > ( args, [](DeclarationWithType * var ){
1282 Type * type = var->get_type()->clone();
1283 type->set_mutex( false );
1284 return new SingleInit( new UntypedExpr(
1285 new NameExpr( "get_monitor" ),
1286 { new CastExpr( new VariableExpr( var ), type, false ) }
1287 ) );
1288 })
1289 )
1290 );
1291
1292 assert(generic_func);
1293
1294 // in reverse order :
1295 // monitor_guard_t __guard = { __monitors, #, func };
1296 body->push_front(
1297 new DeclStmt( new ObjectDecl(
1298 "__guard",
1299 noStorageClasses,
1300 LinkageSpec::Cforall,
1301 nullptr,
1302 new StructInstType(
1303 noQualifiers,
1304 guard_decl
1305 ),
1306 new ListInit(
1307 {
1308 new SingleInit( new VariableExpr( monitors ) ),
1309 new SingleInit( new ConstantExpr( Constant::from_ulong( args.size() ) ) ),
1310 new SingleInit( new CastExpr( new VariableExpr( func ), generic_func->clone(), false ) )
1311 },
1312 noDesignators,
1313 true
1314 )
1315 ))
1316 );
1317
1318 //monitor$ * __monitors[] = { get_monitor(a), get_monitor(b) };
1319 body->push_front( new DeclStmt( monitors) );
1320 }
1321
1322 //=============================================================================================
1323 // General entry routine
1324 //=============================================================================================
1325 void ThreadStarter::previsit( StructDecl * decl ) {
1326 if( decl->name == "thread$" && decl->body ) {
1327 assert( !thread_decl );
1328 thread_decl = decl;
1329 }
1330 }
1331
1332 void ThreadStarter::postvisit(FunctionDecl * decl) {
1333 if( ! CodeGen::isConstructor(decl->name) ) return;
1334
1335 Type * typeof_this = InitTweak::getTypeofThis(decl->type);
1336 StructInstType * ctored_type = dynamic_cast< StructInstType * >( typeof_this );
1337 if( ctored_type && ctored_type->baseStruct == thread_decl ) {
1338 thread_ctor_seen = true;
1339 }
1340
1341 DeclarationWithType * param = decl->get_functionType()->get_parameters().front();
1342 auto type = dynamic_cast< StructInstType * >( InitTweak::getPointerBase( param->get_type() ) );
1343 if( type && type->get_baseStruct()->is_thread() ) {
1344 if( !thread_decl || !thread_ctor_seen ) {
1345 SemanticError( type->get_baseStruct()->location, "thread keyword requires threads to be in scope, add #include <thread.hfa>");
1346 }
1347
1348 addStartStatement( decl, param );
1349 }
1350 }
1351
1352 void ThreadStarter::addStartStatement( FunctionDecl * decl, DeclarationWithType * param ) {
1353 CompoundStmt * stmt = decl->get_statements();
1354
1355 if( ! stmt ) return;
1356
1357 stmt->push_back(
1358 new ExprStmt(
1359 new UntypedExpr(
1360 new NameExpr( "__thrd_start" ),
1361 { new VariableExpr( param ), new NameExpr("main") }
1362 )
1363 )
1364 );
1365 }
1366};
1367
1368// Local Variables: //
1369// mode: c //
1370// tab-width: 4 //
1371// End: //
1372
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