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source: src/Concurrency/Keywords.cpp @ 15215f02

Last change on this file since 15215f02 was fc1a3e2, checked in by Andrew Beach <ajbeach@…>, 4 weeks ago
Style update. Focused on indentation and trailing whitespace.
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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.cpp -- Implement concurrency constructs from their keywords.
8	//
9	// Author : Andrew Beach
10	// Created On : Tue Nov 16 9:53:00 2021
11	// Last Modified By : Peter A. Buhr
12	// Last Modified On : Thu Dec 14 18:02:25 2023
13	// Update Count : 6
14	//
15
16	#include "Concurrency/Keywords.h"
17
18	#include <iostream>
19
20	#include "AST/Copy.hpp"
21	#include "AST/Decl.hpp"
22	#include "AST/Expr.hpp"
23	#include "AST/Inspect.hpp"
24	#include "AST/Pass.hpp"
25	#include "AST/Stmt.hpp"
26	#include "AST/DeclReplacer.hpp"
27	#include "AST/TranslationUnit.hpp"
28	#include "CodeGen/OperatorTable.h"
29	#include "Common/Examine.h"
30	#include "Common/utility.h"
31	#include "Common/UniqueName.h"
32	#include "ControlStruct/LabelGenerator.hpp"
33	#include "InitTweak/InitTweak.h"
34	#include "Virtual/Tables.h"
35
36	namespace Concurrency {
37
38	namespace {
39
40	// --------------------------------------------------------------------------
41	// Loose Helper Functions:
42
43	/// Detect threads constructed with the keyword thread.
44	bool isThread( const ast::DeclWithType * decl ) {
45	auto baseType = decl->get_type()->stripDeclarator();
46	auto instType = dynamic_cast<const ast::StructInstType *>( baseType );
47	if ( nullptr == instType ) { return false; }
48	return instType->base->is_thread();
49	}
50
51	/// Get the virtual type id if given a type name.
52	std::string typeIdType( std::string const & exception_name ) {
53	return exception_name.empty() ? std::string()
54	: Virtual::typeIdType( exception_name );
55	}
56
57	/// Get the vtable type name if given a type name.
58	std::string vtableTypeName( std::string const & exception_name ) {
59	return exception_name.empty() ? std::string()
60	: Virtual::vtableTypeName( exception_name );
61	}
62
63	static ast::Type * mutate_under_references( ast::ptr<ast::Type>& type ) {
64	ast::Type * mutType = type.get_and_mutate();
65	for ( ast::ReferenceType * mutRef
66	; (mutRef = dynamic_cast<ast::ReferenceType *>( mutType ))
67	; mutType = mutRef->base.get_and_mutate() );
68	return mutType;
69	}
70
71	// Describe that it adds the generic parameters and the uses of the generic
72	// parameters on the function and first "this" argument.
73	ast::FunctionDecl * fixupGenerics(
74	const ast::FunctionDecl * func, const ast::StructDecl * decl ) {
75	const CodeLocation & location = decl->location;
76	// We have to update both the declaration
77	auto mutFunc = ast::mutate( func );
78	auto mutType = mutFunc->type.get_and_mutate();
79
80	if ( decl->params.empty() ) {
81	return mutFunc;
82	}
83
84	assert( 0 != mutFunc->params.size() );
85	assert( 0 != mutType->params.size() );
86
87	// Add the "forall" clause information.
88	for ( const ast::ptr<ast::TypeDecl> & typeParam : decl->params ) {
89	auto typeDecl = ast::deepCopy( typeParam );
90	mutFunc->type_params.push_back( typeDecl );
91	mutType->forall.push_back( new ast::TypeInstType( typeDecl ) );
92	for ( auto & assertion : typeDecl->assertions ) {
93	mutFunc->assertions.push_back( assertion );
94	mutType->assertions.emplace_back(
95	new ast::VariableExpr( location, assertion ) );
96	}
97	typeDecl->assertions.clear();
98	}
99
100	// Even chain_mutate is not powerful enough for this:
101	ast::ptr<ast::Type>& paramType = strict_dynamic_cast<ast::ObjectDecl *>(
102	mutFunc->params[0].get_and_mutate() )->type;
103	auto paramTypeInst = strict_dynamic_cast<ast::StructInstType *>(
104	mutate_under_references( paramType ) );
105	auto typeParamInst = strict_dynamic_cast<ast::StructInstType *>(
106	mutate_under_references( mutType->params[0] ) );
107
108	for ( const ast::ptr<ast::TypeDecl> & typeDecl : mutFunc->type_params ) {
109	paramTypeInst->params.push_back(
110	new ast::TypeExpr( location, new ast::TypeInstType( typeDecl ) ) );
111	typeParamInst->params.push_back(
112	new ast::TypeExpr( location, new ast::TypeInstType( typeDecl ) ) );
113	}
114
115	return mutFunc;
116	}
117
118	// --------------------------------------------------------------------------
119	struct ConcurrentSueKeyword : public ast::WithDeclsToAdd<> {
120	ConcurrentSueKeyword(
121	std::string&& type_name, std::string&& field_name,
122	std::string&& getter_name, std::string&& context_error,
123	std::string&& exception_name,
124	bool needs_main, ast::AggregateDecl::Aggregate cast_target
125	) :
126	type_name( type_name ), field_name( field_name ),
127	getter_name( getter_name ), context_error( context_error ),
128	exception_name( exception_name ),
129	typeid_name( typeIdType( exception_name ) ),
130	vtable_name( vtableTypeName( exception_name ) ),
131	needs_main( needs_main ), cast_target( cast_target )
132	{}
133
134	virtual ~ConcurrentSueKeyword() {}
135
136	const ast::Decl * postvisit( const ast::StructDecl * decl );
137	const ast::DeclWithType * postvisit( const ast::FunctionDecl * decl );
138	const ast::Expr * postvisit( const ast::KeywordCastExpr * expr );
139
140	struct StructAndField {
141	const ast::StructDecl * decl;
142	const ast::ObjectDecl * field;
143	};
144
145	const ast::StructDecl * handleStruct( const ast::StructDecl * );
146	void handleMain( const ast::FunctionDecl , const ast::StructInstType );
147	void addTypeId( const ast::StructDecl * );
148	void addVtableForward( const ast::StructDecl * );
149	const ast::FunctionDecl * forwardDeclare( const ast::StructDecl * );
150	StructAndField addField( const ast::StructDecl * );
151	void addGetRoutines( const ast::ObjectDecl , const ast::FunctionDecl );
152	void addLockUnlockRoutines( const ast::StructDecl * );
153
154	private:
155	const std::string type_name;
156	const std::string field_name;
157	const std::string getter_name;
158	const std::string context_error;
159	const std::string exception_name;
160	const std::string typeid_name;
161	const std::string vtable_name;
162	const bool needs_main;
163	const ast::AggregateDecl::Aggregate cast_target;
164
165	const ast::StructDecl * type_decl = nullptr;
166	const ast::FunctionDecl * dtor_decl = nullptr;
167	const ast::StructDecl * except_decl = nullptr;
168	const ast::StructDecl * typeid_decl = nullptr;
169	const ast::StructDecl * vtable_decl = nullptr;
170
171	};
172
173	// Handles thread type declarations:
174	//
175	// thread Mythread { struct MyThread {
176	// int data; int data;
177	// a_struct_t more_data; a_struct_t more_data;
178	// => thread$ __thrd_d;
179	// }; };
180	// static inline thread$ * get_thread( MyThread * this ) { return &this->__thrd_d; }
181	//
182	struct ThreadKeyword final : public ConcurrentSueKeyword {
183	ThreadKeyword() : ConcurrentSueKeyword(
184	"thread$",
185	"__thrd",
186	"get_thread",
187	"thread keyword requires threads to be in scope, add #include <thread.hfa>\n",
188	"ThreadCancelled",
189	true,
190	ast::AggregateDecl::Thread )
191	{}
192
193	virtual ~ThreadKeyword() {}
194	};
195
196	// Handles coroutine type declarations:
197	//
198	// coroutine MyCoroutine { struct MyCoroutine {
199	// int data; int data;
200	// a_struct_t more_data; a_struct_t more_data;
201	// => coroutine$ __cor_d;
202	// }; };
203	// static inline coroutine$ * get_coroutine( MyCoroutine * this ) { return &this->__cor_d; }
204	//
205	struct CoroutineKeyword final : public ConcurrentSueKeyword {
206	CoroutineKeyword() : ConcurrentSueKeyword(
207	"coroutine$",
208	"__cor",
209	"get_coroutine",
210	"coroutine keyword requires coroutines to be in scope, add #include <coroutine.hfa>\n",
211	"CoroutineCancelled",
212	true,
213	ast::AggregateDecl::Coroutine )
214	{}
215
216	virtual ~CoroutineKeyword() {}
217	};
218
219	// Handles monitor type declarations:
220	//
221	// monitor MyMonitor { struct MyMonitor {
222	// int data; int data;
223	// a_struct_t more_data; a_struct_t more_data;
224	// => monitor$ __mon_d;
225	// }; };
226	// static inline monitor$ * get_coroutine( MyMonitor * this ) {
227	// return &this->__cor_d;
228	// }
229	// void lock(MyMonitor & this) {
230	// lock(get_monitor(this));
231	// }
232	// void unlock(MyMonitor & this) {
233	// unlock(get_monitor(this));
234	// }
235	//
236	struct MonitorKeyword final : public ConcurrentSueKeyword {
237	MonitorKeyword() : ConcurrentSueKeyword(
238	"monitor$",
239	"__mon",
240	"get_monitor",
241	"monitor keyword requires monitors to be in scope, add #include <monitor.hfa>\n",
242	"",
243	false,
244	ast::AggregateDecl::Monitor )
245	{}
246
247	virtual ~MonitorKeyword() {}
248	};
249
250	// Handles generator type declarations:
251	//
252	// generator MyGenerator { struct MyGenerator {
253	// int data; int data;
254	// a_struct_t more_data; a_struct_t more_data;
255	// => int __generator_state;
256	// }; };
257	//
258	struct GeneratorKeyword final : public ConcurrentSueKeyword {
259	GeneratorKeyword() : ConcurrentSueKeyword(
260	"generator$",
261	"__generator_state",
262	"get_generator",
263	"Unable to find builtin type generator$\n",
264	"",
265	true,
266	ast::AggregateDecl::Generator )
267	{}
268
269	virtual ~GeneratorKeyword() {}
270	};
271
272	const ast::Decl * ConcurrentSueKeyword::postvisit(
273	const ast::StructDecl * decl ) {
274	if ( !decl->body ) {
275	return decl;
276	} else if ( cast_target == decl->kind ) {
277	return handleStruct( decl );
278	} else if ( type_name == decl->name ) {
279	assert( !type_decl );
280	type_decl = decl;
281	} else if ( exception_name == decl->name ) {
282	assert( !except_decl );
283	except_decl = decl;
284	} else if ( typeid_name == decl->name ) {
285	assert( !typeid_decl );
286	typeid_decl = decl;
287	} else if ( vtable_name == decl->name ) {
288	assert( !vtable_decl );
289	vtable_decl = decl;
290	}
291	return decl;
292	}
293
294	// Try to get the full definition, but raise an error on conflicts.
295	const ast::FunctionDecl * getDefinition(
296	const ast::FunctionDecl * old_decl,
297	const ast::FunctionDecl * new_decl ) {
298	if ( !new_decl->stmts ) {
299	return old_decl;
300	} else if ( !old_decl->stmts ) {
301	return new_decl;
302	} else {
303	assert( !old_decl->stmts \|\| !new_decl->stmts );
304	return nullptr;
305	}
306	}
307
308	const ast::DeclWithType * ConcurrentSueKeyword::postvisit(
309	const ast::FunctionDecl * decl ) {
310	if ( type_decl && isDestructorFor( decl, type_decl ) ) {
311	// Check for forward declarations, try to get the full definition.
312	dtor_decl = (dtor_decl) ? getDefinition( dtor_decl, decl ) : decl;
313	} else if ( !vtable_name.empty() && decl->has_body() ) {
314	if (const ast::DeclWithType * param = isMainFor( decl, cast_target )) {
315	if ( !vtable_decl ) {
316	SemanticError( decl, context_error );
317	}
318	// Should be safe because of isMainFor.
319	const ast::StructInstType * struct_type =
320	static_cast<const ast::StructInstType *>(
321	static_cast<const ast::ReferenceType *>(
322	param->get_type() )->base.get() );
323
324	handleMain( decl, struct_type );
325	}
326	}
327	return decl;
328	}
329
330	const ast::Expr * ConcurrentSueKeyword::postvisit(
331	const ast::KeywordCastExpr * expr ) {
332	if ( cast_target == expr->target ) {
333	// Convert `(thread &)ex` to `(thread$ &)*get_thread(ex)`, etc.
334	if ( !type_decl \|\| !dtor_decl ) {
335	SemanticError( expr, context_error );
336	}
337	assert( nullptr == expr->result );
338	auto cast = ast::mutate( expr );
339	cast->result = new ast::ReferenceType( new ast::StructInstType( type_decl ) );
340	cast->concrete_target.field = field_name;
341	cast->concrete_target.getter = getter_name;
342	return cast;
343	}
344	return expr;
345	}
346
347	const ast::StructDecl * ConcurrentSueKeyword::handleStruct(
348	const ast::StructDecl * decl ) {
349	assert( decl->body );
350
351	if ( !type_decl \|\| !dtor_decl ) {
352	SemanticError( decl, context_error );
353	}
354
355	if ( !exception_name.empty() ) {
356	if( !typeid_decl \|\| !vtable_decl ) {
357	SemanticError( decl, context_error );
358	}
359	addTypeId( decl );
360	addVtableForward( decl );
361	}
362
363	const ast::FunctionDecl * func = forwardDeclare( decl );
364	StructAndField addFieldRet = addField( decl );
365	decl = addFieldRet.decl;
366	const ast::ObjectDecl * field = addFieldRet.field;
367
368	addGetRoutines( field, func );
369	// Add routines to monitors for use by mutex stmt.
370	if ( ast::AggregateDecl::Monitor == cast_target ) {
371	addLockUnlockRoutines( decl );
372	}
373
374	return decl;
375	}
376
377	void ConcurrentSueKeyword::handleMain(
378	const ast::FunctionDecl * decl, const ast::StructInstType * type ) {
379	assert( vtable_decl );
380	assert( except_decl );
381
382	const CodeLocation & location = decl->location;
383
384	std::vector<ast::ptr<ast::Expr>> poly_args = {
385	new ast::TypeExpr( location, type ),
386	};
387	ast::ObjectDecl * vtable_object = Virtual::makeVtableInstance(
388	location,
389	"_default_vtable_object_declaration",
390	new ast::StructInstType( vtable_decl, copy( poly_args ) ),
391	type,
392	nullptr
393	);
394	declsToAddAfter.push_back( vtable_object );
395	declsToAddAfter.push_back(
396	new ast::ObjectDecl(
397	location,
398	Virtual::concurrentDefaultVTableName(),
399	new ast::ReferenceType( vtable_object->type, ast::CV::Const ),
400	new ast::SingleInit( location,
401	new ast::VariableExpr( location, vtable_object ) )
402	)
403	);
404	declsToAddAfter.push_back( Virtual::makeGetExceptionFunction(
405	location,
406	vtable_object,
407	new ast::StructInstType( except_decl, copy( poly_args ) )
408	) );
409	}
410
411	void ConcurrentSueKeyword::addTypeId( const ast::StructDecl * decl ) {
412	assert( typeid_decl );
413	const CodeLocation & location = decl->location;
414
415	ast::StructInstType * typeid_type =
416	new ast::StructInstType( typeid_decl, ast::CV::Const );
417	typeid_type->params.push_back(
418	new ast::TypeExpr( location, new ast::StructInstType( decl ) ) );
419	declsToAddBefore.push_back(
420	Virtual::makeTypeIdInstance( location, typeid_type ) );
421	// If the typeid_type is going to be kept, the other reference will have
422	// been made by now, but we also get to avoid extra mutates.
423	ast::ptr<ast::StructInstType> typeid_cleanup = typeid_type;
424	}
425
426	void ConcurrentSueKeyword::addVtableForward( const ast::StructDecl * decl ) {
427	assert( vtable_decl );
428	const CodeLocation& location = decl->location;
429
430	std::vector<ast::ptr<ast::Expr>> poly_args = {
431	new ast::TypeExpr( location, new ast::StructInstType( decl ) ),
432	};
433	declsToAddBefore.push_back( Virtual::makeGetExceptionForward(
434	location,
435	new ast::StructInstType( vtable_decl, copy( poly_args ) ),
436	new ast::StructInstType( except_decl, copy( poly_args ) )
437	) );
438	ast::ObjectDecl * vtable_object = Virtual::makeVtableForward(
439	location,
440	"_default_vtable_object_declaration",
441	new ast::StructInstType( vtable_decl, std::move( poly_args ) )
442	);
443	declsToAddBefore.push_back( vtable_object );
444	declsToAddBefore.push_back(
445	new ast::ObjectDecl(
446	location,
447	Virtual::concurrentDefaultVTableName(),
448	new ast::ReferenceType( vtable_object->type, ast::CV::Const ),
449	nullptr,
450	ast::Storage::Extern,
451	ast::Linkage::Cforall
452	)
453	);
454	}
455
456	const ast::FunctionDecl * ConcurrentSueKeyword::forwardDeclare(
457	const ast::StructDecl * decl ) {
458	const CodeLocation & location = decl->location;
459
460	ast::StructDecl * forward = ast::deepCopy( decl );
461	{
462	// If removing members makes ref-count go to zero, do not free.
463	ast::ptr<ast::StructDecl> forward_ptr = forward;
464	forward->body = false;
465	forward->members.clear();
466	forward_ptr.release();
467	}
468
469	ast::ObjectDecl * this_decl = new ast::ObjectDecl(
470	location,
471	"this",
472	new ast::ReferenceType( new ast::StructInstType( decl ) )
473	);
474
475	ast::ObjectDecl * ret_decl = new ast::ObjectDecl(
476	location,
477	"ret",
478	new ast::PointerType( new ast::StructInstType( type_decl ) )
479	);
480
481	ast::FunctionDecl * get_decl = new ast::FunctionDecl(
482	location,
483	getter_name,
484	{ this_decl }, // params
485	{ ret_decl }, // returns
486	nullptr, // stmts
487	ast::Storage::Static,
488	ast::Linkage::Cforall,
489	{ new ast::Attribute( "const" ) },
490	ast::Function::Inline
491	);
492	get_decl = fixupGenerics( get_decl, decl );
493
494	ast::FunctionDecl * main_decl = nullptr;
495	if ( needs_main ) {
496	// `this_decl` is copied here because the original was used above.
497	main_decl = new ast::FunctionDecl(
498	location,
499	"main",
500	{ ast::deepCopy( this_decl ) },
501	{},
502	nullptr,
503	ast::Storage::Classes(),
504	ast::Linkage::Cforall
505	);
506	main_decl = fixupGenerics( main_decl, decl );
507	}
508
509	declsToAddBefore.push_back( forward );
510	if ( needs_main ) declsToAddBefore.push_back( main_decl );
511	declsToAddBefore.push_back( get_decl );
512
513	return get_decl;
514	}
515
516	ConcurrentSueKeyword::StructAndField ConcurrentSueKeyword::addField(
517	const ast::StructDecl * decl ) {
518	const CodeLocation & location = decl->location;
519
520	ast::ObjectDecl * field = new ast::ObjectDecl(
521	location,
522	field_name,
523	new ast::StructInstType( type_decl )
524	);
525
526	auto mutDecl = ast::mutate( decl );
527	mutDecl->members.push_back( field );
528
529	return {mutDecl, field};
530	}
531
532	void ConcurrentSueKeyword::addGetRoutines(
533	const ast::ObjectDecl * field, const ast::FunctionDecl * forward ) {
534	// Clone the signature and then build the body.
535	ast::FunctionDecl * decl = ast::deepCopy( forward );
536
537	// Say it is generated at the "same" places as the forward declaration.
538	const CodeLocation & location = decl->location;
539
540	const ast::DeclWithType * param = decl->params.front();
541	ast::Stmt * stmt = new ast::ReturnStmt( location,
542	new ast::AddressExpr( location,
543	new ast::MemberExpr( location,
544	field,
545	new ast::CastExpr( location,
546	new ast::VariableExpr( location, param ),
547	ast::deepCopy( param->get_type()->stripReferences() ),
548	ast::ExplicitCast
549	)
550	)
551	)
552	);
553
554	decl->stmts = new ast::CompoundStmt( location, { stmt } );
555	declsToAddAfter.push_back( decl );
556	}
557
558	void ConcurrentSueKeyword::addLockUnlockRoutines(
559	const ast::StructDecl * decl ) {
560	// This should only be used on monitors.
561	assert( ast::AggregateDecl::Monitor == cast_target );
562
563	const CodeLocation & location = decl->location;
564
565	// The parameter for both routines.
566	ast::ObjectDecl * this_decl = new ast::ObjectDecl(
567	location,
568	"this",
569	new ast::ReferenceType( new ast::StructInstType( decl ) )
570	);
571
572	ast::FunctionDecl * lock_decl = new ast::FunctionDecl(
573	location,
574	"lock",
575	{
576	// Copy the declaration of this.
577	ast::deepCopy( this_decl ),
578	},
579	{ /* returns */ },
580	nullptr,
581	ast::Storage::Static,
582	ast::Linkage::Cforall,
583	{ /* attributes */ },
584	ast::Function::Inline
585	);
586	lock_decl = fixupGenerics( lock_decl, decl );
587
588	lock_decl->stmts = new ast::CompoundStmt( location, {
589	new ast::ExprStmt( location,
590	new ast::UntypedExpr( location,
591	new ast::NameExpr( location, "lock" ),
592	{
593	new ast::UntypedExpr( location,
594	new ast::NameExpr( location, "get_monitor" ),
595	{ new ast::VariableExpr( location,
596	InitTweak::getParamThis( lock_decl ) ) }
597	)
598	}
599	)
600	)
601	} );
602
603	ast::FunctionDecl * unlock_decl = new ast::FunctionDecl(
604	location,
605	"unlock",
606	{
607	// Last use, consume the declaration of this.
608	this_decl,
609	},
610	{ /* returns */ },
611	nullptr,
612	ast::Storage::Static,
613	ast::Linkage::Cforall,
614	{ /* attributes */ },
615	ast::Function::Inline
616	);
617	unlock_decl = fixupGenerics( unlock_decl, decl );
618
619	unlock_decl->stmts = new ast::CompoundStmt( location, {
620	new ast::ExprStmt( location,
621	new ast::UntypedExpr( location,
622	new ast::NameExpr( location, "unlock" ),
623	{
624	new ast::UntypedExpr( location,
625	new ast::NameExpr( location, "get_monitor" ),
626	{ new ast::VariableExpr( location,
627	InitTweak::getParamThis( unlock_decl ) ) }
628	)
629	}
630	)
631	)
632	} );
633
634	declsToAddAfter.push_back( lock_decl );
635	declsToAddAfter.push_back( unlock_decl );
636	}
637
638
639	// --------------------------------------------------------------------------
640	struct SuspendKeyword final :
641	public ast::WithStmtsToAdd<>, public ast::WithGuards {
642	SuspendKeyword() = default;
643	virtual ~SuspendKeyword() = default;
644
645	void previsit( const ast::FunctionDecl * );
646	const ast::DeclWithType * postvisit( const ast::FunctionDecl * );
647	const ast::Stmt * postvisit( const ast::SuspendStmt * );
648
649	private:
650	bool is_real_suspend( const ast::FunctionDecl * );
651
652	const ast::Stmt * make_generator_suspend( const ast::SuspendStmt * );
653	const ast::Stmt * make_coroutine_suspend( const ast::SuspendStmt * );
654
655	struct LabelPair {
656	ast::Label obj;
657	int idx;
658	};
659
660	LabelPair make_label(const ast::Stmt * stmt ) {
661	labels.push_back( ControlStruct::newLabel( "generator", stmt ) );
662	return { labels.back(), int(labels.size()) };
663	}
664
665	const ast::DeclWithType * in_generator = nullptr;
666	const ast::FunctionDecl * decl_suspend = nullptr;
667	std::vector<ast::Label> labels;
668	};
669
670	void SuspendKeyword::previsit( const ast::FunctionDecl * decl ) {
671	GuardValue( in_generator ); in_generator = nullptr;
672
673	// If it is the real suspend, grab it if we don't have one already.
674	if ( is_real_suspend( decl ) ) {
675	decl_suspend = decl_suspend ? decl_suspend : decl;
676	return;
677	}
678
679	// Otherwise check if this is a generator main and, if so, handle it.
680	auto param = isMainFor( decl, ast::AggregateDecl::Generator );
681	if ( !param ) return;
682
683	if ( 0 != decl->returns.size() ) {
684	SemanticError( decl->location, "Generator main must return void." );
685	}
686
687	in_generator = param;
688	GuardValue( labels ); labels.clear();
689	}
690
691	const ast::DeclWithType * SuspendKeyword::postvisit(
692	const ast::FunctionDecl * decl ) {
693	// Only modify a full definition of a generator with states.
694	if ( !decl->stmts \|\| !in_generator \|\| labels.empty() ) return decl;
695
696	const CodeLocation & location = decl->location;
697
698	// Create a new function body:
699	// static void * __generator_labels[] = {&&s0, &&s1, ...};
700	// void * __generator_label = __generator_labels[GEN.__generator_state];
701	// goto * __generator_label;
702	// s0: ;
703	// OLD_BODY
704
705	// This is the null statement inserted right before the body.
706	ast::NullStmt * noop = new ast::NullStmt( location );
707	noop->labels.push_back( ControlStruct::newLabel( "generator", noop ) );
708	const ast::Label & first_label = noop->labels.back();
709
710	// Add each label to the init, starting with the first label.
711	std::vector<ast::ptr<ast::Init>> inits = {
712	new ast::SingleInit( location,
713	new ast::LabelAddressExpr( location, copy( first_label ) ) ) };
714	// Then go through all the stored labels, and clear the store.
715	for ( auto && label : labels ) {
716	inits.push_back( new ast::SingleInit( label.location,
717	new ast::LabelAddressExpr( label.location, std::move( label )
718	) ) );
719	}
720	labels.clear();
721	// Then construct the initializer itself.
722	auto init = new ast::ListInit( location, std::move( inits ) );
723
724	ast::ObjectDecl * generatorLabels = new ast::ObjectDecl(
725	location,
726	"__generator_labels",
727	new ast::ArrayType(
728	new ast::PointerType( new ast::VoidType() ),
729	nullptr,
730	ast::FixedLen,
731	ast::DynamicDim
732	),
733	init,
734	ast::Storage::Classes(),
735	ast::Linkage::AutoGen
736	);
737
738	ast::ObjectDecl * generatorLabel = new ast::ObjectDecl(
739	location,
740	"__generator_label",
741	new ast::PointerType( new ast::VoidType() ),
742	new ast::SingleInit( location,
743	new ast::UntypedExpr( location,
744	new ast::NameExpr( location, "?[?]" ),
745	{
746	// TODO: Could be a variable expr.
747	new ast::NameExpr( location, "__generator_labels" ),
748	new ast::UntypedMemberExpr( location,
749	new ast::NameExpr( location, "__generator_state" ),
750	new ast::VariableExpr( location, in_generator )
751	)
752	}
753	)
754	),
755	ast::Storage::Classes(),
756	ast::Linkage::AutoGen
757	);
758
759	ast::BranchStmt * theGoTo = new ast::BranchStmt(
760	location, new ast::VariableExpr( location, generatorLabel )
761	);
762
763	// The noop goes here in order.
764
765	ast::CompoundStmt * body = new ast::CompoundStmt( location, {
766	{ new ast::DeclStmt( location, generatorLabels ) },
767	{ new ast::DeclStmt( location, generatorLabel ) },
768	{ theGoTo },
769	{ noop },
770	{ decl->stmts },
771	} );
772
773	auto mutDecl = ast::mutate( decl );
774	mutDecl->stmts = body;
775	return mutDecl;
776	}
777
778	const ast::Stmt * SuspendKeyword::postvisit( const ast::SuspendStmt * stmt ) {
779	switch ( stmt->kind ) {
780	case ast::SuspendStmt::None:
781	// Use the context to determain the implicit target.
782	if ( in_generator ) {
783	return make_generator_suspend( stmt );
784	} else {
785	return make_coroutine_suspend( stmt );
786	}
787	case ast::SuspendStmt::Coroutine:
788	return make_coroutine_suspend( stmt );
789	case ast::SuspendStmt::Generator:
790	// Generator suspends must be directly in a generator.
791	if ( !in_generator ) SemanticError( stmt->location, "\"suspend generator\" must be used inside main of generator type." );
792	return make_generator_suspend( stmt );
793	}
794	assert( false );
795	return stmt;
796	}
797
798	/// Find the real/official suspend declaration.
799	bool SuspendKeyword::is_real_suspend( const ast::FunctionDecl * decl ) {
800	return ( !decl->linkage.is_mangled
801	&& 0 == decl->params.size()
802	&& 0 == decl->returns.size()
803	&& "__cfactx_suspend" == decl->name );
804	}
805
806	const ast::Stmt * SuspendKeyword::make_generator_suspend(
807	const ast::SuspendStmt * stmt ) {
808	assert( in_generator );
809	// Target code is:
810	// GEN.__generator_state = X;
811	// THEN
812	// return;
813	// __gen_X:;
814
815	const CodeLocation & location = stmt->location;
816
817	LabelPair label = make_label( stmt );
818
819	// This is the context saving statement.
820	stmtsToAddBefore.push_back( new ast::ExprStmt( location,
821	new ast::UntypedExpr( location,
822	new ast::NameExpr( location, "?=?" ),
823	{
824	new ast::UntypedMemberExpr( location,
825	new ast::NameExpr( location, "__generator_state" ),
826	new ast::VariableExpr( location, in_generator )
827	),
828	ast::ConstantExpr::from_int( location, label.idx ),
829	}
830	)
831	) );
832
833	// The THEN component is conditional (return is not).
834	if ( stmt->then ) {
835	stmtsToAddBefore.push_back( stmt->then.get() );
836	}
837	stmtsToAddBefore.push_back( new ast::ReturnStmt( location, nullptr ) );
838
839	// The null statement replaces the old suspend statement.
840	return new ast::NullStmt( location, { label.obj } );
841	}
842
843	const ast::Stmt * SuspendKeyword::make_coroutine_suspend(
844	const ast::SuspendStmt * stmt ) {
845	// The only thing we need from the old statement is the location.
846	const CodeLocation & location = stmt->location;
847
848	if ( !decl_suspend ) {
849	SemanticError( location, "suspend keyword applied to coroutines requires coroutines to be in scope, add #include <coroutine.hfa>." );
850	}
851	if ( stmt->then ) {
852	SemanticError( location, "Compound statement following coroutines is not implemented." );
853	}
854
855	return new ast::ExprStmt( location,
856	new ast::UntypedExpr( location,
857	ast::VariableExpr::functionPointer( location, decl_suspend ) )
858	);
859	}
860
861	// --------------------------------------------------------------------------
862	struct MutexKeyword final : public ast::WithDeclsToAdd<> {
863	const ast::FunctionDecl * postvisit( const ast::FunctionDecl * decl );
864	void postvisit( const ast::StructDecl * decl );
865	const ast::Stmt * postvisit( const ast::MutexStmt * stmt );
866
867	static std::vector<const ast::DeclWithType *> findMutexArgs(
868	const ast::FunctionDecl * decl, bool & first );
869	static void validate( const ast::DeclWithType * decl );
870
871	ast::CompoundStmt * addDtorStatements( const ast::FunctionDecl* func, const ast::CompoundStmt , const std::vector<const ast::DeclWithType > &);
872	ast::CompoundStmt * addStatements( const ast::FunctionDecl* func, const ast::CompoundStmt , const std::vector<const ast::DeclWithType > &);
873	ast::CompoundStmt * addStatements( const ast::CompoundStmt * body, const std::vector<ast::ptr<ast::Expr>> & args );
874	ast::CompoundStmt * addThreadDtorStatements( const ast::FunctionDecl* func, const ast::CompoundStmt * body, const std::vector<const ast::DeclWithType *> & args );
875	ast::ExprStmt * genVirtLockUnlockExpr( const std::string & fnName, ast::ptr<ast::Expr> expr, const CodeLocation & location, ast::Expr * param);
876	ast::IfStmt * genTypeDiscrimLockUnlock( const std::string & fnName, const std::vector<ast::ptr<ast::Expr>> & args, const CodeLocation & location, ast::UntypedExpr * thisParam );
877	private:
878	const ast::StructDecl * monitor_decl = nullptr;
879	const ast::StructDecl * guard_decl = nullptr;
880	const ast::StructDecl * dtor_guard_decl = nullptr;
881	const ast::StructDecl * thread_guard_decl = nullptr;
882	const ast::StructDecl * lock_guard_decl = nullptr;
883
884	static ast::ptr<ast::Type> generic_func;
885
886	UniqueName mutex_func_namer = UniqueName("__lock_unlock_curr");
887	};
888
889	const ast::FunctionDecl * MutexKeyword::postvisit(
890	const ast::FunctionDecl * decl ) {
891	bool is_first_argument_mutex = false;
892	const std::vector<const ast::DeclWithType *> mutexArgs =
893	findMutexArgs( decl, is_first_argument_mutex );
894	bool const isDtor = CodeGen::isDestructor( decl->name );
895
896	// Does this function have any mutex arguments that connect to monitors?
897	if ( mutexArgs.empty() ) {
898	// If this is the destructor for a monitor it must be mutex.
899	if ( isDtor ) {
900	// This reflects MutexKeyword::validate, but no error messages.
901	const ast::Type * type = decl->type->params.front();
902
903	// If it's a copy, it's not a mutex.
904	const ast::ReferenceType * refType = dynamic_cast<const ast::ReferenceType *>( type );
905	if ( nullptr == refType ) {
906	return decl;
907	}
908
909	// If it is not pointing directly to a type, it's not a mutex.
910	auto base = refType->base;
911	if ( base.as<ast::ReferenceType>() ) return decl;
912	if ( base.as<ast::PointerType>() ) return decl;
913
914	// If it is not a struct, it's not a mutex.
915	auto baseStruct = base.as<ast::StructInstType>();
916	if ( nullptr == baseStruct ) return decl;
917
918	// If it is a monitor, then it is a monitor.
919	if( baseStruct->base->is_monitor() \|\| baseStruct->base->is_thread() ) {
920	SemanticError( decl, "destructors for structures declared as \"monitor\" must use mutex parameters " );
921	}
922	}
923	return decl;
924	}
925
926	// Monitors can't be constructed with mutual exclusion.
927	if ( CodeGen::isConstructor( decl->name ) && is_first_argument_mutex ) {
928	SemanticError( decl, "constructors cannot have mutex parameters " );
929	}
930
931	// It makes no sense to have multiple mutex parameters for the destructor.
932	if ( isDtor && mutexArgs.size() != 1 ) {
933	SemanticError( decl, "destructors can only have 1 mutex argument " );
934	}
935
936	// Make sure all the mutex arguments are monitors.
937	for ( auto arg : mutexArgs ) {
938	validate( arg );
939	}
940
941	// Check to see if the body needs to be instrument the body.
942	const ast::CompoundStmt * body = decl->stmts;
943	if ( !body ) return decl;
944
945	// Check to if the required headers have been seen.
946	if ( !monitor_decl \|\| !guard_decl \|\| !dtor_guard_decl ) {
947	SemanticError( decl, "mutex keyword requires monitors to be in scope, add #include <monitor.hfa>." );
948	}
949
950	// Instrument the body.
951	ast::CompoundStmt * newBody = nullptr;
952	if ( isDtor && isThread( mutexArgs.front() ) ) {
953	if ( !thread_guard_decl ) {
954	SemanticError( decl, "thread destructor requires threads to be in scope, add #include <thread.hfa>." );
955	}
956	newBody = addThreadDtorStatements( decl, body, mutexArgs );
957	} else if ( isDtor ) {
958	newBody = addDtorStatements( decl, body, mutexArgs );
959	} else {
960	newBody = addStatements( decl, body, mutexArgs );
961	}
962	assert( newBody );
963	return ast::mutate_field( decl, &ast::FunctionDecl::stmts, newBody );
964	}
965
966	void MutexKeyword::postvisit( const ast::StructDecl * decl ) {
967	if ( !decl->body ) {
968	return;
969	} else if ( decl->name == "monitor$" ) {
970	assert( !monitor_decl );
971	monitor_decl = decl;
972	} else if ( decl->name == "monitor_guard_t" ) {
973	assert( !guard_decl );
974	guard_decl = decl;
975	} else if ( decl->name == "monitor_dtor_guard_t" ) {
976	assert( !dtor_guard_decl );
977	dtor_guard_decl = decl;
978	} else if ( decl->name == "thread_dtor_guard_t" ) {
979	assert( !thread_guard_decl );
980	thread_guard_decl = decl;
981	} else if ( decl->name == "__mutex_stmt_lock_guard" ) {
982	assert( !lock_guard_decl );
983	lock_guard_decl = decl;
984	}
985	}
986
987	const ast::Stmt * MutexKeyword::postvisit( const ast::MutexStmt * stmt ) {
988	if ( !lock_guard_decl ) {
989	SemanticError( stmt->location, "mutex stmt requires a header, add #include <mutex_stmt.hfa>." );
990	}
991	ast::CompoundStmt * body =
992	new ast::CompoundStmt( stmt->location, { stmt->stmt } );
993
994	return addStatements( body, stmt->mutexObjs );;
995	}
996
997	std::vector<const ast::DeclWithType *> MutexKeyword::findMutexArgs(
998	const ast::FunctionDecl * decl, bool & first ) {
999	std::vector<const ast::DeclWithType *> mutexArgs;
1000
1001	bool once = true;
1002	for ( auto arg : decl->params ) {
1003	const ast::Type * type = arg->get_type();
1004	if ( type->is_mutex() ) {
1005	if ( once ) first = true;
1006	mutexArgs.push_back( arg.get() );
1007	}
1008	once = false;
1009	}
1010	return mutexArgs;
1011	}
1012
1013	void MutexKeyword::validate( const ast::DeclWithType * decl ) {
1014	const ast::Type * type = decl->get_type();
1015
1016	// If it's a copy, it's not a mutex.
1017	const ast::ReferenceType * refType = dynamic_cast<const ast::ReferenceType *>( type );
1018	if ( nullptr == refType ) {
1019	SemanticError( decl, "Mutex argument must be of reference type " );
1020	}
1021
1022	// If it is not pointing directly to a type, it's not a mutex.
1023	auto base = refType->base;
1024	if ( base.as<ast::ReferenceType>() \|\| base.as<ast::PointerType>() ) {
1025	SemanticError( decl, "Mutex argument have exactly one level of indirection " );
1026	}
1027
1028	// If it is not a struct, it's not a mutex.
1029	auto baseStruct = base.as<ast::StructInstType>();
1030	if ( nullptr == baseStruct ) return;
1031
1032	// Make sure that only the outer reference is mutex.
1033	if( baseStruct->is_mutex() ) {
1034	SemanticError( decl, "mutex keyword may only appear once per argument " );
1035	}
1036	}
1037
1038	ast::CompoundStmt * MutexKeyword::addDtorStatements(
1039	const ast::FunctionDecl* func, const ast::CompoundStmt * body,
1040	const std::vector<const ast::DeclWithType *> & args ) {
1041	ast::Type * argType = ast::shallowCopy( args.front()->get_type() );
1042	argType->set_mutex( false );
1043
1044	ast::CompoundStmt * mutBody = ast::mutate( body );
1045
1046	// Generated code goes near the beginning of body:
1047	const CodeLocation & location = mutBody->location;
1048
1049	const ast::ObjectDecl * monitor = new ast::ObjectDecl(
1050	location,
1051	"__monitor",
1052	new ast::PointerType( new ast::StructInstType( monitor_decl ) ),
1053	new ast::SingleInit(
1054	location,
1055	new ast::UntypedExpr(
1056	location,
1057	new ast::NameExpr( location, "get_monitor" ),
1058	{ new ast::CastExpr(
1059	location,
1060	new ast::VariableExpr( location, args.front() ),
1061	argType, ast::ExplicitCast
1062	) }
1063	)
1064	)
1065	);
1066
1067	assert( generic_func );
1068
1069	// In reverse order:
1070	// monitor_dtor_guard_t __guard = { __monitor, func, false };
1071	mutBody->push_front(
1072	new ast::DeclStmt( location, new ast::ObjectDecl(
1073	location,
1074	"__guard",
1075	new ast::StructInstType( dtor_guard_decl ),
1076	new ast::ListInit(
1077	location,
1078	{
1079	new ast::SingleInit( location,
1080	new ast::AddressExpr( location,
1081	new ast::VariableExpr( location, monitor ) ) ),
1082	new ast::SingleInit( location,
1083	new ast::CastExpr( location,
1084	new ast::VariableExpr( location, func ),
1085	generic_func,
1086	ast::ExplicitCast ) ),
1087	new ast::SingleInit( location,
1088	ast::ConstantExpr::from_bool( location, false ) ),
1089	},
1090	{},
1091	ast::MaybeConstruct
1092	)
1093	))
1094	);
1095
1096	// monitor$ * __monitor = get_monitor(a);
1097	mutBody->push_front( new ast::DeclStmt( location, monitor ) );
1098
1099	return mutBody;
1100	}
1101
1102	ast::CompoundStmt * MutexKeyword::addStatements(
1103	const ast::FunctionDecl* func, const ast::CompoundStmt * body,
1104	const std::vector<const ast::DeclWithType * > & args ) {
1105	ast::CompoundStmt * mutBody = ast::mutate( body );
1106
1107	// Code is generated near the beginning of the compound statement.
1108	const CodeLocation & location = mutBody->location;
1109
1110	// Make pointer to the monitors.
1111	ast::ObjectDecl * monitors = new ast::ObjectDecl(
1112	location,
1113	"__monitors",
1114	new ast::ArrayType(
1115	new ast::PointerType(
1116	new ast::StructInstType( monitor_decl )
1117	),
1118	ast::ConstantExpr::from_ulong( location, args.size() ),
1119	ast::FixedLen,
1120	ast::DynamicDim
1121	),
1122	new ast::ListInit(
1123	location,
1124	map_range<std::vector<ast::ptr<ast::Init>>>(
1125	args,
1126	[]( const ast::DeclWithType * decl ) {
1127	return new ast::SingleInit(
1128	decl->location,
1129	new ast::UntypedExpr(
1130	decl->location,
1131	new ast::NameExpr( decl->location, "get_monitor" ),
1132	{
1133	new ast::CastExpr(
1134	decl->location,
1135	new ast::VariableExpr( decl->location, decl ),
1136	decl->get_type(),
1137	ast::ExplicitCast
1138	)
1139	}
1140	)
1141	);
1142	}
1143	)
1144	)
1145	);
1146
1147	assert( generic_func );
1148
1149	// In Reverse Order:
1150	mutBody->push_front(
1151	new ast::DeclStmt( location, new ast::ObjectDecl(
1152	location,
1153	"__guard",
1154	new ast::StructInstType( guard_decl ),
1155	new ast::ListInit(
1156	location,
1157	{
1158	new ast::SingleInit( location,
1159	new ast::VariableExpr( location, monitors ) ),
1160	new ast::SingleInit( location,
1161	ast::ConstantExpr::from_ulong( location, args.size() ) ),
1162	new ast::SingleInit( location, new ast::CastExpr(
1163	location,
1164	new ast::VariableExpr( location, func ),
1165	generic_func,
1166	ast::ExplicitCast
1167	) ),
1168	},
1169	{},
1170	ast::MaybeConstruct
1171	)
1172	))
1173	);
1174
1175	// monitor$ * __monitors[] = { get_monitor(a), get_monitor(b) };
1176	mutBody->push_front( new ast::DeclStmt( location, monitors ) );
1177
1178	return mutBody;
1179	}
1180
1181	// generates a cast to the void ptr to the appropriate lock type and dereferences it before calling lock or unlock on it
1182	// used to undo the type erasure done by storing all the lock pointers as void
1183	ast::ExprStmt * MutexKeyword::genVirtLockUnlockExpr( const std::string & fnName, ast::ptr<ast::Expr> expr, const CodeLocation & location, ast::Expr * param ) {
1184	return new ast::ExprStmt( location,
1185	new ast::UntypedExpr( location,
1186	new ast::NameExpr( location, fnName ), {
1187	ast::UntypedExpr::createDeref(
1188	location,
1189	new ast::CastExpr( location,
1190	param,
1191	new ast::PointerType( new ast::TypeofType( new ast::UntypedExpr(
1192	expr->location,
1193	new ast::NameExpr( expr->location, "__get_mutexstmt_lock_type" ),
1194	{ expr }
1195	) ) ),
1196	ast::GeneratedFlag::ExplicitCast
1197	)
1198	)
1199	}
1200	)
1201	);
1202	}
1203
1204	ast::IfStmt * MutexKeyword::genTypeDiscrimLockUnlock( const std::string & fnName, const std::vector<ast::ptr<ast::Expr>> & args, const CodeLocation & location, ast::UntypedExpr * thisParam ) {
1205	ast::IfStmt * outerLockIf = nullptr;
1206	ast::IfStmt * lastLockIf = nullptr;
1207
1208	//adds an if/elif clause for each lock to assign type from void ptr based on ptr address
1209	for ( long unsigned int i = 0; i < args.size(); i++ ) {
1210
1211	ast::UntypedExpr * ifCond = new ast::UntypedExpr( location,
1212	new ast::NameExpr( location, "?==?" ), {
1213	ast::deepCopy( thisParam ),
1214	new ast::CastExpr( location, new ast::AddressExpr( location, args.at(i) ), new ast::PointerType( new ast::VoidType() ))
1215	}
1216	);
1217
1218	ast::IfStmt * currLockIf = new ast::IfStmt(
1219	location,
1220	ifCond,
1221	genVirtLockUnlockExpr( fnName, args.at(i), location, ast::deepCopy( thisParam ) )
1222	);
1223
1224	if ( i == 0 ) {
1225	outerLockIf = currLockIf;
1226	} else {
1227	// add ifstmt to else of previous stmt
1228	lastLockIf->else_ = currLockIf;
1229	}
1230
1231	lastLockIf = currLockIf;
1232	}
1233	return outerLockIf;
1234	}
1235
1236	void flattenTuple( const ast::UntypedTupleExpr * tuple, std::vector<ast::ptr<ast::Expr>> & output ) {
1237	for ( auto & expr : tuple->exprs ) {
1238	const ast::UntypedTupleExpr * innerTuple = dynamic_cast<const ast::UntypedTupleExpr *>(expr.get());
1239	if ( innerTuple ) flattenTuple( innerTuple, output );
1240	else output.emplace_back( ast::deepCopy( expr ));
1241	}
1242	}
1243
1244	ast::CompoundStmt * MutexKeyword::addStatements(
1245	const ast::CompoundStmt * body,
1246	const std::vector<ast::ptr<ast::Expr>> & args ) {
1247
1248	// Code is generated near the beginning of the compound statement.
1249	const CodeLocation & location = body->location;
1250
1251	// final body to return
1252	ast::CompoundStmt * newBody = new ast::CompoundStmt( location );
1253
1254	// std::string lockFnName = mutex_func_namer.newName();
1255	// std::string unlockFnName = mutex_func_namer.newName();
1256
1257	// If any arguments to the mutex stmt are tuples, flatten them
1258	std::vector<ast::ptr<ast::Expr>> flattenedArgs;
1259	for ( auto & arg : args ) {
1260	const ast::UntypedTupleExpr * tuple = dynamic_cast<const ast::UntypedTupleExpr *>(args.at(0).get());
1261	if ( tuple ) flattenTuple( tuple, flattenedArgs );
1262	else flattenedArgs.emplace_back( ast::deepCopy( arg ));
1263	}
1264
1265	// Make pointer to the monitors.
1266	ast::ObjectDecl * monitors = new ast::ObjectDecl(
1267	location,
1268	"__monitors",
1269	new ast::ArrayType(
1270	new ast::PointerType(
1271	new ast::VoidType()
1272	),
1273	ast::ConstantExpr::from_ulong( location, flattenedArgs.size() ),
1274	ast::FixedLen,
1275	ast::DynamicDim
1276	),
1277	new ast::ListInit(
1278	location,
1279	map_range<std::vector<ast::ptr<ast::Init>>>(
1280	flattenedArgs, [](const ast::Expr * expr) {
1281	return new ast::SingleInit(
1282	expr->location,
1283	new ast::UntypedExpr(
1284	expr->location,
1285	new ast::NameExpr( expr->location, "__get_mutexstmt_lock_ptr" ),
1286	{ expr }
1287	)
1288	);
1289	}
1290	)
1291	)
1292	);
1293
1294	ast::StructInstType * lock_guard_struct =
1295	new ast::StructInstType( lock_guard_decl );
1296
1297	// use try stmts to lock and finally to unlock
1298	ast::TryStmt * outerTry = nullptr;
1299	ast::TryStmt * currentTry;
1300	ast::CompoundStmt * lastBody = nullptr;
1301
1302	// adds a nested try stmt for each lock we are locking
1303	for ( long unsigned int i = 0; i < flattenedArgs.size(); i++ ) {
1304	ast::UntypedExpr * innerAccess = new ast::UntypedExpr(
1305	location,
1306	new ast::NameExpr( location,"?[?]" ), {
1307	new ast::NameExpr( location, "__monitors" ),
1308	ast::ConstantExpr::from_int( location, i )
1309	}
1310	);
1311
1312	// make the try body
1313	ast::CompoundStmt * currTryBody = new ast::CompoundStmt( location );
1314	ast::IfStmt * lockCall = genTypeDiscrimLockUnlock( "lock", flattenedArgs, location, innerAccess );
1315	currTryBody->push_back( lockCall );
1316
1317	// make the finally stmt
1318	ast::CompoundStmt * currFinallyBody = new ast::CompoundStmt( location );
1319	ast::IfStmt * unlockCall = genTypeDiscrimLockUnlock( "unlock", flattenedArgs, location, innerAccess );
1320	currFinallyBody->push_back( unlockCall );
1321
1322	// construct the current try
1323	currentTry = new ast::TryStmt(
1324	location,
1325	currTryBody,
1326	{},
1327	new ast::FinallyClause( location, currFinallyBody )
1328	);
1329	if ( i == 0 ) outerTry = currentTry;
1330	else {
1331	// pushback try into the body of the outer try
1332	lastBody->push_back( currentTry );
1333	}
1334	lastBody = currTryBody;
1335	}
1336
1337	// push body into innermost try body
1338	if ( lastBody != nullptr ) {
1339	lastBody->push_back( body );
1340	newBody->push_front( outerTry );
1341	}
1342
1343	// monitor_guard_t __guard = { __monitors, # };
1344	newBody->push_front(
1345	new ast::DeclStmt(
1346	location,
1347	new ast::ObjectDecl(
1348	location,
1349	"__guard",
1350	lock_guard_struct,
1351	new ast::ListInit(
1352	location,
1353	{
1354	new ast::SingleInit(
1355	location,
1356	new ast::VariableExpr( location, monitors ) ),
1357	new ast::SingleInit(
1358	location,
1359	ast::ConstantExpr::from_ulong( location, flattenedArgs.size() ) ),
1360	},
1361	{},
1362	ast::MaybeConstruct
1363	)
1364	)
1365	)
1366	);
1367
1368	// monitor$ * __monitors[] = { get_monitor(a), get_monitor(b) };
1369	newBody->push_front( new ast::DeclStmt( location, monitors ) );
1370
1371	// // The parameter for both __lock_curr/__unlock_curr routines.
1372	// ast::ObjectDecl * this_decl = new ast::ObjectDecl(
1373	// location,
1374	// "this",
1375	// new ast::PointerType( new ast::VoidType() ),
1376	// nullptr,
1377	// {},
1378	// ast::Linkage::Cforall
1379	// );
1380
1381	// ast::FunctionDecl * lock_decl = new ast::FunctionDecl(
1382	// location,
1383	// lockFnName,
1384	// { /* forall */ },
1385	// {
1386	// // Copy the declaration of this.
1387	// this_decl,
1388	// },
1389	// { /* returns */ },
1390	// nullptr,
1391	// 0,
1392	// ast::Linkage::Cforall,
1393	// { /* attributes */ },
1394	// ast::Function::Inline
1395	// );
1396
1397	// ast::FunctionDecl * unlock_decl = new ast::FunctionDecl(
1398	// location,
1399	// unlockFnName,
1400	// { /* forall */ },
1401	// {
1402	// // Copy the declaration of this.
1403	// ast::deepCopy( this_decl ),
1404	// },
1405	// { /* returns */ },
1406	// nullptr,
1407	// 0,
1408	// ast::Linkage::Cforall,
1409	// { /* attributes */ },
1410	// ast::Function::Inline
1411	// );
1412
1413	// ast::IfStmt * outerLockIf = nullptr;
1414	// ast::IfStmt * outerUnlockIf = nullptr;
1415	// ast::IfStmt * lastLockIf = nullptr;
1416	// ast::IfStmt * lastUnlockIf = nullptr;
1417
1418	// //adds an if/elif clause for each lock to assign type from void ptr based on ptr address
1419	// for ( long unsigned int i = 0; i < args.size(); i++ ) {
1420	// ast::VariableExpr * thisParam = new ast::VariableExpr( location, InitTweak::getParamThis( lock_decl ) );
1421	// ast::UntypedExpr * ifCond = new ast::UntypedExpr( location,
1422	// new ast::NameExpr( location, "?==?" ), {
1423	// thisParam,
1424	// new ast::CastExpr( location, new ast::AddressExpr( location, args.at(i) ), new ast::PointerType( new ast::VoidType() ))
1425	// }
1426	// );
1427
1428	// ast::IfStmt * currLockIf = new ast::IfStmt(
1429	// location,
1430	// ast::deepCopy( ifCond ),
1431	// genVirtLockUnlockExpr( "lock", args.at(i), location, ast::deepCopy( thisParam ) )
1432	// );
1433
1434	// ast::IfStmt * currUnlockIf = new ast::IfStmt(
1435	// location,
1436	// ifCond,
1437	// genVirtLockUnlockExpr( "unlock", args.at(i), location, ast::deepCopy( thisParam ) )
1438	// );
1439
1440	// if ( i == 0 ) {
1441	// outerLockIf = currLockIf;
1442	// outerUnlockIf = currUnlockIf;
1443	// } else {
1444	// // add ifstmt to else of previous stmt
1445	// lastLockIf->else_ = currLockIf;
1446	// lastUnlockIf->else_ = currUnlockIf;
1447	// }
1448
1449	// lastLockIf = currLockIf;
1450	// lastUnlockIf = currUnlockIf;
1451	// }
1452
1453	// // add pointer typing if/elifs to body of routines
1454	// lock_decl->stmts = new ast::CompoundStmt( location, { outerLockIf } );
1455	// unlock_decl->stmts = new ast::CompoundStmt( location, { outerUnlockIf } );
1456
1457	// // add routines to scope
1458	// declsToAddBefore.push_back( lock_decl );
1459	// declsToAddBefore.push_back( unlock_decl );
1460
1461	// newBody->push_front(new ast::DeclStmt( location, lock_decl ));
1462	// newBody->push_front(new ast::DeclStmt( location, unlock_decl ));
1463
1464	return newBody;
1465	}
1466
1467	ast::CompoundStmt * MutexKeyword::addThreadDtorStatements(
1468	const ast::FunctionDecl, const ast::CompoundStmt body,
1469	const std::vector<const ast::DeclWithType * > & args ) {
1470	assert( args.size() == 1 );
1471	const ast::DeclWithType * arg = args.front();
1472	const ast::Type * argType = arg->get_type();
1473	assert( argType->is_mutex() );
1474
1475	ast::CompoundStmt * mutBody = ast::mutate( body );
1476
1477	// The code is generated near the front of the body.
1478	const CodeLocation & location = mutBody->location;
1479
1480	// thread_dtor_guard_t __guard = { this, intptr( 0 ) };
1481	mutBody->push_front( new ast::DeclStmt(
1482	location,
1483	new ast::ObjectDecl(
1484	location,
1485	"__guard",
1486	new ast::StructInstType( thread_guard_decl ),
1487	new ast::ListInit(
1488	location,
1489	{
1490	new ast::SingleInit( location,
1491	new ast::CastExpr( location,
1492	new ast::VariableExpr( location, arg ), argType ) ),
1493	new ast::SingleInit(
1494	location,
1495	new ast::UntypedExpr(
1496	location,
1497	new ast::NameExpr( location, "intptr" ), {
1498	ast::ConstantExpr::from_int( location, 0 ),
1499	}
1500	) ),
1501	},
1502	{},
1503	ast::MaybeConstruct
1504	)
1505	)
1506	));
1507
1508	return mutBody;
1509	}
1510
1511	ast::ptr<ast::Type> MutexKeyword::generic_func =
1512	new ast::FunctionType( ast::VariableArgs );
1513
1514	// --------------------------------------------------------------------------
1515	struct ThreadStarter final {
1516	void previsit( const ast::StructDecl * decl );
1517	const ast::FunctionDecl * postvisit( const ast::FunctionDecl * decl );
1518
1519	private:
1520	bool thread_ctor_seen = false;
1521	const ast::StructDecl * thread_decl = nullptr;
1522	};
1523
1524	void ThreadStarter::previsit( const ast::StructDecl * decl ) {
1525	if ( decl->body && decl->name == "thread$" ) {
1526	assert( !thread_decl );
1527	thread_decl = decl;
1528	}
1529	}
1530
1531	const ast::FunctionDecl * ThreadStarter::postvisit( const ast::FunctionDecl * decl ) {
1532	if ( !CodeGen::isConstructor( decl->name ) ) return decl;
1533
1534	// Seach for the thread constructor.
1535	// (Are the "prefixes" of these to blocks the same?)
1536	const ast::Type * typeof_this = InitTweak::getTypeofThis( decl->type );
1537	auto ctored_type = dynamic_cast<const ast::StructInstType *>( typeof_this );
1538	if ( ctored_type && ctored_type->base == thread_decl ) {
1539	thread_ctor_seen = true;
1540	}
1541
1542	// Modify this declaration, the extra checks to see if we will are first.
1543	const ast::ptr<ast::DeclWithType> & param = decl->params.front();
1544	auto type = dynamic_cast<const ast::StructInstType *>(
1545	ast::getPointerBase( param->get_type() ) );
1546	if ( nullptr == type ) return decl;
1547	if ( !type->base->is_thread() ) return decl;
1548	if ( !thread_decl \|\| !thread_ctor_seen ) {
1549	SemanticError( type->base->location, "thread keyword requires threads to be in scope, add #include <thread.hfa>." );
1550	}
1551	const ast::CompoundStmt * stmt = decl->stmts;
1552	if ( nullptr == stmt ) return decl;
1553
1554	// Now do the actual modification:
1555	ast::CompoundStmt * mutStmt = ast::mutate( stmt );
1556	const CodeLocation & location = mutStmt->location;
1557	mutStmt->push_back(
1558	new ast::ExprStmt(
1559	location,
1560	new ast::UntypedExpr(
1561	location,
1562	new ast::NameExpr( location, "__thrd_start" ),
1563	{
1564	new ast::VariableExpr( location, param ),
1565	new ast::NameExpr( location, "main" ),
1566	}
1567	)
1568	)
1569	);
1570
1571	return ast::mutate_field( decl, &ast::FunctionDecl::stmts, mutStmt );
1572	}
1573
1574	} // namespace
1575
1576	// --------------------------------------------------------------------------
1577	// Interface Functions:
1578
1579	void implementKeywords( ast::TranslationUnit & translationUnit ) {
1580	ast::Pass<ThreadKeyword>::run( translationUnit );
1581	ast::Pass<CoroutineKeyword>::run( translationUnit );
1582	ast::Pass<MonitorKeyword>::run( translationUnit );
1583	ast::Pass<GeneratorKeyword>::run( translationUnit );
1584	ast::Pass<SuspendKeyword>::run( translationUnit );
1585	}
1586
1587	void implementMutex( ast::TranslationUnit & translationUnit ) {
1588	ast::Pass<MutexKeyword>::run( translationUnit );
1589	}
1590
1591	void implementThreadStarter( ast::TranslationUnit & translationUnit ) {
1592	ast::Pass<ThreadStarter>::run( translationUnit );
1593	}
1594
1595	}
1596
1597	// Local Variables: //
1598	// tab-width: 4 //
1599	// mode: c++ //
1600	// compile-command: "make install" //
1601	// End: //

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