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source: src/InitTweak/RemoveInit.cc @ db4ecc5

ADTaaron-thesisarm-ehast-experimentalcleanup-dtorsctordeferred_resndemanglerenumforall-pointer-decaygc_noraiijacob/cs343-translationjenkins-sandboxmemorynew-astnew-ast-unique-exprnew-envno_listpersistent-indexerpthread-emulationqualifiedEnumresolv-newwith_gc

Last change on this file since db4ecc5 was db4ecc5, checked in by Rob Schluntz <rschlunt@…>, 8 years ago
add ImplicitCopyCtorExpr? node, implicit copy constructors are inserted into the right places (but there is room for elision)
Property mode set to `100644`
File size: 10.8 KB

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1	//
2	// Cforall Version 1.0.0 Copyright (C) 2015 University of Waterloo
3	//
4	// The contents of this file are covered under the licence agreement in the
5	// file "LICENCE" distributed with Cforall.
6	//
7	// RemoveInit.cc --
8	//
9	// Author : Rob Schluntz
10	// Created On : Mon May 18 07:44:20 2015
11	// Last Modified By : Rob Schluntz
12	// Last Modified On : Thu Apr 14 15:09:36 2016
13	// Update Count : 166
14	//
15
16	#include <stack>
17	#include <list>
18	#include "RemoveInit.h"
19	#include "SynTree/Declaration.h"
20	#include "SynTree/Type.h"
21	#include "SynTree/Expression.h"
22	#include "SynTree/Statement.h"
23	#include "SynTree/Initializer.h"
24	#include "SynTree/Mutator.h"
25	#include "SymTab/Autogen.h"
26	#include "GenPoly/PolyMutator.h"
27
28	namespace InitTweak {
29	namespace {
30	const std::list<Label> noLabels;
31	const std::list<Expression *> noDesignators;
32	}
33
34	class RemoveInit : public GenPoly::PolyMutator {
35	public:
36	/// removes and replaces initialization for polymorphic value objects
37	/// with assignment (TODO: constructor) statements.
38	/// also consistently allocates a temporary variable for the return value
39	/// of a function so that anything which the resolver decides can be assigned
40	/// into the return type of a function can be returned.
41	static void removeInitializers( std::list< Declaration * > &translationUnit );
42
43	RemoveInit();
44
45	virtual ObjectDecl * mutate( ObjectDecl *objDecl );
46	virtual DeclarationWithType * mutate( FunctionDecl *functionDecl );
47
48	virtual Statement * mutate( ReturnStmt * returnStmt );
49
50	protected:
51	std::list<DeclarationWithType*> returnVals;
52	UniqueName tempNamer;
53	std::string funcName;
54	};
55
56	class CtorDtor : public GenPoly::PolyMutator {
57	public:
58	/// create constructor and destructor statements for object declarations.
59	/// Destructors are inserted directly into the code, whereas constructors
60	/// will be added in after the resolver has run so that the initializer expression
61	/// is only removed if a constructor is found
62	static void generateCtorDtor( std::list< Declaration * > &translationUnit );
63
64	CtorDtor() : inFunction( false ) {}
65
66	virtual DeclarationWithType * mutate( ObjectDecl * );
67	virtual DeclarationWithType * mutate( FunctionDecl *functionDecl );
68	virtual Declaration* mutate( StructDecl *aggregateDecl );
69	virtual Declaration* mutate( UnionDecl *aggregateDecl );
70	virtual Declaration* mutate( EnumDecl *aggregateDecl );
71	virtual Declaration* mutate( TraitDecl *aggregateDecl );
72	virtual TypeDecl* mutate( TypeDecl *typeDecl );
73	virtual Declaration* mutate( TypedefDecl *typeDecl );
74
75	virtual Type * mutate( FunctionType *funcType );
76
77	protected:
78	bool inFunction;
79	};
80
81	void tweak( std::list< Declaration * > & translationUnit ) {
82	RemoveInit::removeInitializers( translationUnit );
83	CtorDtor::generateCtorDtor( translationUnit );
84	}
85
86	void RemoveInit::removeInitializers( std::list< Declaration * > & translationUnit ) {
87	RemoveInit remover;
88	mutateAll( translationUnit, remover );
89	}
90
91	RemoveInit::RemoveInit() : tempNamer( "_retVal" ) {}
92
93	// in the case where an object has an initializer and a polymorphic type, insert an assignment immediately after the
94	// declaration. This will (seemingly) cause the later phases to do the right thing with the assignment
95	ObjectDecl RemoveInit::mutate( ObjectDecl objDecl ) {
96	if (objDecl->get_init() && dynamic_cast<TypeInstType*>(objDecl->get_type())) {
97	if (SingleInit * single = dynamic_cast<SingleInit*>(objDecl->get_init())) {
98	// xxx this can be more complicated - consider ListInit
99	UntypedExpr *assign = new UntypedExpr( new NameExpr( "?{}" ) );
100	assign->get_args().push_back( new AddressExpr( new VariableExpr( objDecl ) ) );
101	assign->get_args().push_back( single->get_value()->clone() );
102	stmtsToAddAfter.push_back(new ExprStmt(noLabels, assign));
103	} // if
104	} // if
105	return objDecl;
106	}
107
108	Statement RemoveInit::mutate( ReturnStmt returnStmt ) {
109	// update for multiple return values
110	assert( returnVals.size() == 0 \|\| returnVals.size() == 1 );
111	// hands off if the function returns an lvalue - we don't want to allocate a temporary if a variable's address
112	// is being returned
113	if ( returnStmt->get_expr() && returnVals.size() == 1 && funcName != "?=?" && ! returnVals.front()->get_type()->get_isLvalue() ) {
114	// ensure return value is not destructed by explicitly creating
115	// an empty SingleInit node wherein maybeConstruct is false
116	ObjectDecl newObj = new ObjectDecl( tempNamer.newName(), DeclarationNode::NoStorageClass, LinkageSpec::C, 0, returnVals.front()->get_type()->clone(), new ListInit( std::list<Initializer>(), noDesignators, false ) );
117	stmtsToAdd.push_back( new DeclStmt( noLabels, newObj ) );
118
119	// and explicitly create the constructor expression separately
120	UntypedExpr *construct = new UntypedExpr( new NameExpr( "?{}" ) );
121	construct->get_args().push_back( new AddressExpr( new VariableExpr( newObj ) ) );
122	construct->get_args().push_back( returnStmt->get_expr() );
123	stmtsToAdd.push_back(new ExprStmt(noLabels, construct));
124
125	returnStmt->set_expr( new VariableExpr( newObj ) );
126	} // if
127	return returnStmt;
128	}
129
130	DeclarationWithType* RemoveInit::mutate( FunctionDecl *functionDecl ) {
131	std::list<DeclarationWithType*> oldReturnVals = returnVals;
132	std::string oldFuncName = funcName;
133
134	FunctionType * type = functionDecl->get_functionType();
135	returnVals = type->get_returnVals();
136	funcName = functionDecl->get_name();
137	DeclarationWithType * decl = Mutator::mutate( functionDecl );
138	returnVals = oldReturnVals;
139	funcName = oldFuncName;
140	return decl;
141	}
142
143
144	void CtorDtor::generateCtorDtor( std::list< Declaration * > & translationUnit ) {
145	CtorDtor ctordtor;
146	mutateAll( translationUnit, ctordtor );
147	}
148
149	namespace {
150	bool tryConstruct( ObjectDecl * objDecl ) {
151	// xxx - handle designations
152	return ! LinkageSpec::isBuiltin( objDecl->get_linkage() ) &&
153	(objDecl->get_init() == NULL \|\|
154	( objDecl->get_init() != NULL && objDecl->get_init()->get_maybeConstructed() ));
155	}
156
157	Expression * makeCtorDtorExpr( std::string name, ObjectDecl * objDecl, std::list< Expression * > args ) {
158	UntypedExpr * expr = new UntypedExpr( new NameExpr( name ) );
159	expr->get_args().push_back( new AddressExpr( new VariableExpr( objDecl ) ) );
160	expr->get_args().splice( expr->get_args().end(), args );
161	return expr;
162	}
163
164	class InitExpander : public Visitor {
165	public:
166	InitExpander() {}
167	// ~InitExpander() {}
168	virtual void visit( SingleInit * singleInit );
169	virtual void visit( ListInit * listInit );
170	std::list< Expression * > argList;
171	};
172
173	void InitExpander::visit( SingleInit * singleInit ) {
174	argList.push_back( singleInit->get_value()->clone() );
175	}
176
177	void InitExpander::visit( ListInit * listInit ) {
178	// xxx - for now, assume no nested list inits
179	std::list<Initializer*>::iterator it = listInit->begin_initializers();
180	for ( ; it != listInit->end_initializers(); ++it ) {
181	(it)->accept( this );
182	}
183	}
184
185	std::list< Expression * > makeInitList( Initializer * init ) {
186	InitExpander expander;
187	maybeAccept( init, expander );
188	return expander.argList;
189	}
190	}
191
192	DeclarationWithType * CtorDtor::mutate( ObjectDecl * objDecl ) {
193	// hands off if designated or if @=
194	if ( tryConstruct( objDecl ) ) {
195	if ( inFunction ) {
196	if ( ArrayType * at = dynamic_cast< ArrayType * >( objDecl->get_type() ) ) {
197	// call into makeArrayFunction from validate.cc to generate calls to ctor/dtor for each element of array
198	// TODO: walk initializer and generate appropriate copy ctor if element has initializer
199	std::list< Statement * > ctor;
200	std::list< Statement * > dtor;
201
202	SymTab::makeArrayFunction( NULL, new VariableExpr( objDecl ), at, "?{}", back_inserter( ctor ) );
203	SymTab::makeArrayFunction( NULL, new VariableExpr( objDecl ), at, "^?{}", front_inserter( dtor ), false );
204
205	// Currently makeArrayFunction produces a single Statement - a CompoundStmt
206	// which wraps everything that needs to happen. As such, it's technically
207	// possible to use a Statement ** in the above calls, but this is inherently
208	// unsafe, so instead we take the slightly less efficient route, but will be
209	// immediately informed if somehow the above assumption is broken. In this case,
210	// we could always wrap the list of statements at this point with a CompoundStmt,
211	// but it seems reasonable at the moment for this to be done by makeArrayFunction
212	// itself
213	assert( ctor.size() == 1 );
214	assert( dtor.size() == 1 );
215
216	objDecl->set_init( new ConstructorInit( ctor.front(), dtor.front(), objDecl->get_init() ) );
217	} else {
218	// it's sufficient to attempt to call the ctor/dtor for the given object and its initializer
219	Expression * ctor = makeCtorDtorExpr( "?{}", objDecl, makeInitList( objDecl->get_init() ) );
220	Expression * dtor = makeCtorDtorExpr( "^?{}", objDecl, std::list< Expression * >() );
221
222	// need to remember init expression, in case no ctors exist
223	// if ctor does exist, want to use ctor expression instead of init
224	// push this decision to the resolver
225	ExprStmt * ctorStmt = new ExprStmt( noLabels, ctor );
226	ExprStmt * dtorStmt = new ExprStmt( noLabels, dtor );
227	objDecl->set_init( new ConstructorInit( ctorStmt, dtorStmt, objDecl->get_init() ) );
228	}
229	} else {
230	// xxx - find a way to construct/destruct globals
231	// hack: implicit "static" initialization routine for each struct type? or something similar?
232	// --ties into module system
233	// this can be done by mangling main and replacing it with our own main which calls each
234	// module initialization routine in some decided order (order given in link command?)
235	// and finally calls mangled main
236	}
237	}
238	return Mutator::mutate( objDecl );
239	}
240
241	DeclarationWithType * CtorDtor::mutate( FunctionDecl *functionDecl ) {
242	// parameters should not be constructed and destructed, so don't mutate FunctionType
243	bool oldInFunc = inFunction;
244	mutateAll( functionDecl->get_oldDecls(), *this );
245	inFunction = true;
246	functionDecl->set_statements( maybeMutate( functionDecl->get_statements(), *this ) );
247	inFunction = oldInFunc;
248	return functionDecl;
249	}
250
251	// should not traverse into any of these declarations to find objects
252	// that need to be constructed or destructed
253	Declaration* CtorDtor::mutate( StructDecl *aggregateDecl ) { return aggregateDecl; }
254	Declaration* CtorDtor::mutate( UnionDecl *aggregateDecl ) { return aggregateDecl; }
255	Declaration* CtorDtor::mutate( EnumDecl *aggregateDecl ) { return aggregateDecl; }
256	Declaration* CtorDtor::mutate( TraitDecl *aggregateDecl ) { return aggregateDecl; }
257	TypeDecl* CtorDtor::mutate( TypeDecl *typeDecl ) { return typeDecl; }
258	Declaration* CtorDtor::mutate( TypedefDecl *typeDecl ) { return typeDecl; }
259	Type* CtorDtor::mutate( FunctionType *funcType ) { return funcType; }
260
261	} // namespace InitTweak
262
263	// Local Variables: //
264	// tab-width: 4 //
265	// mode: c++ //
266	// compile-command: "make install" //
267	// End: //

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