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source: src/Tuples/TupleExpansion.cc @ 088a5cd

ADTaaron-thesisarm-ehast-experimentalcleanup-dtorsdeferred_resndemanglerenumforall-pointer-decayjacob/cs343-translationjenkins-sandboxnew-astnew-ast-unique-exprnew-envno_listpersistent-indexerpthread-emulationqualifiedEnumresolv-newwith_gc

Last change on this file since 088a5cd was e6512c8, checked in by Rob Schluntz <rschlunt@…>, 7 years ago
generate tuples by arity to reduce the number of generated structs
Property mode set to `100644`
File size: 14.0 KB

Rev	Line
[6eb8948]	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	// TupleAssignment.cc --
	8	//
	9	// Author : Rodolfo G. Esteves
	10	// Created On : Mon May 18 07:44:20 2015
	11	// Last Modified By : Peter A. Buhr
[c0aa336]	12	// Last Modified On : Wed Feb 1 16:40:40 2017
	13	// Update Count : 3
[6eb8948]	14	//
	15
	16	#include <iterator>
	17	#include <iostream>
	18	#include <cassert>
	19	#include "Tuples.h"
[f006f01]	20	#include "GenPoly/DeclMutator.h"
	21	#include "SynTree/Mutator.h"
[6eb8948]	22	#include "SynTree/Statement.h"
[f006f01]	23	#include "SynTree/Declaration.h"
	24	#include "SynTree/Type.h"
[3c13c03]	25	#include "SynTree/Expression.h"
	26	#include "SynTree/Initializer.h"
[f006f01]	27	#include "SymTab/Mangler.h"
	28	#include "Common/ScopedMap.h"
[1132b62]	29	#include "ResolvExpr/typeops.h"
[f0121d7]	30	#include "InitTweak/GenInit.h"
[b7b8674]	31	#include "InitTweak/InitTweak.h"
[6eb8948]	32
	33	namespace Tuples {
[3c13c03]	34	namespace {
[5f5083e]	35	class MemberTupleExpander final : public Mutator {
[bf32bb8]	36	public:
	37	typedef Mutator Parent;
[5f5083e]	38	using Parent::mutate;
	39
	40	virtual Expression * mutate( UntypedMemberExpr * memberExpr ) override;
[bf32bb8]	41	};
	42
[5f5083e]	43	class UniqueExprExpander final : public GenPoly::DeclMutator {
[3c13c03]	44	public:
	45	typedef GenPoly::DeclMutator Parent;
[5f5083e]	46	using Parent::mutate;
[141b786]	47
[5f5083e]	48	virtual Expression * mutate( UniqueExpr * unqExpr ) override;
[141b786]	49
	50	std::map< int, Expression * > decls; // not vector, because order added may not be increasing order
	51
	52	~UniqueExprExpander() {
	53	for ( std::pair<const int, Expression *> & p : decls ) {
	54	delete p.second;
	55	}
	56	}
[3c13c03]	57	};
	58
	59	class TupleAssignExpander : public Mutator {
	60	public:
	61	typedef Mutator Parent;
[5f5083e]	62	using Parent::mutate;
	63
[3c13c03]	64	virtual Expression * mutate( TupleAssignExpr * tupleExpr );
	65	};
	66
	67	class TupleTypeReplacer : public GenPoly::DeclMutator {
	68	public:
	69	typedef GenPoly::DeclMutator Parent;
[5f5083e]	70	using Parent::mutate;
[3c13c03]	71
[5f5083e]	72	virtual Type * mutate( TupleType * tupleType ) override;
[3c13c03]	73
[5f5083e]	74	virtual CompoundStmt * mutate( CompoundStmt * stmt ) override {
[3c13c03]	75	typeMap.beginScope();
	76	stmt = Parent::mutate( stmt );
	77	typeMap.endScope();
	78	return stmt;
	79	}
	80	private:
[e6512c8]	81	ScopedMap< int, StructDecl * > typeMap;
[3c13c03]	82	};
	83
[5f5083e]	84	class TupleIndexExpander final : public Mutator {
[3c13c03]	85	public:
	86	typedef Mutator Parent;
[5f5083e]	87	using Parent::mutate;
	88
	89	virtual Expression * mutate( TupleIndexExpr * tupleExpr ) override;
[3c13c03]	90	};
	91
[5f5083e]	92	class TupleExprExpander final : public Mutator {
[3c13c03]	93	public:
	94	typedef Mutator Parent;
[5f5083e]	95	using Parent::mutate;
[d9fa60a]	96
[5f5083e]	97	virtual Expression * mutate( TupleExpr * tupleExpr ) override;
[3c13c03]	98	};
	99	}
[f006f01]	100
[bf32bb8]	101	void expandMemberTuples( std::list< Declaration * > & translationUnit ) {
	102	MemberTupleExpander expander;
	103	mutateAll( translationUnit, expander );
	104	}
	105
[aefcc3b]	106	void expandUniqueExpr( std::list< Declaration * > & translationUnit ) {
[3c13c03]	107	UniqueExprExpander unqExpander;
	108	unqExpander.mutateDeclarationList( translationUnit );
[aefcc3b]	109	}
[3c13c03]	110
[aefcc3b]	111	void expandTuples( std::list< Declaration * > & translationUnit ) {
[3c13c03]	112	TupleAssignExpander assnExpander;
	113	mutateAll( translationUnit, assnExpander );
[f006f01]	114
	115	TupleTypeReplacer replacer;
	116	replacer.mutateDeclarationList( translationUnit );
[3c13c03]	117
	118	TupleIndexExpander idxExpander;
	119	mutateAll( translationUnit, idxExpander );
	120
	121	TupleExprExpander exprExpander;
	122	mutateAll( translationUnit, exprExpander );
	123	}
	124
[bf32bb8]	125	namespace {
	126	/// given a expression representing the member and an expression representing the aggregate,
	127	/// reconstructs a flattened UntypedMemberExpr with the right precedence
[141b786]	128	Expression * reconstructMemberExpr( Expression * member, Expression * aggr ) {
[bf32bb8]	129	if ( UntypedMemberExpr * memberExpr = dynamic_cast< UntypedMemberExpr * >( member ) ) {
	130	// construct a new UntypedMemberExpr with the correct structure , and recursively
	131	// expand that member expression.
	132	MemberTupleExpander expander;
	133	UntypedMemberExpr * newMemberExpr = new UntypedMemberExpr( memberExpr->get_member(), new UntypedMemberExpr( memberExpr->get_aggregate(), aggr->clone() ) );
	134
	135	memberExpr->set_member(nullptr);
	136	memberExpr->set_aggregate(nullptr);
	137	delete memberExpr;
	138	return newMemberExpr->acceptMutator( expander );
	139	} else {
	140	// not a member expression, so there is nothing to do but attach and return
	141	return new UntypedMemberExpr( member, aggr->clone() );
	142	}
	143	}
	144	}
	145
	146	Expression * MemberTupleExpander::mutate( UntypedMemberExpr * memberExpr ) {
[907eccb]	147	if ( UntypedTupleExpr * tupleExpr = dynamic_cast< UntypedTupleExpr * > ( memberExpr->get_member() ) ) {
[141b786]	148	Expression * aggr = memberExpr->get_aggregate()->clone()->acceptMutator( *this );
	149	// aggregate expressions which might be impure must be wrapped in unique expressions
	150	// xxx - if there's a member-tuple expression nested in the aggregate, this currently generates the wrong code if a UniqueExpr is not used, and it's purely an optimization to remove the UniqueExpr
	151	// if ( Tuples::maybeImpure( memberExpr->get_aggregate() ) ) aggr = new UniqueExpr( aggr );
	152	aggr = new UniqueExpr( aggr );
[bf32bb8]	153	for ( Expression *& expr : tupleExpr->get_exprs() ) {
[141b786]	154	expr = reconstructMemberExpr( expr, aggr );
[bf32bb8]	155	}
[141b786]	156	delete aggr;
[bf32bb8]	157	return tupleExpr;
	158	} else {
[f0121d7]	159	// there may be a tuple expr buried in the aggregate
	160	// xxx - this is a memory leak
	161	return new UntypedMemberExpr( memberExpr->get_member()->clone(), memberExpr->get_aggregate()->acceptMutator( *this ) );
[bf32bb8]	162	}
	163	}
	164
[3c13c03]	165	Expression * UniqueExprExpander::mutate( UniqueExpr * unqExpr ) {
	166	unqExpr = safe_dynamic_cast< UniqueExpr * > ( Parent::mutate( unqExpr ) );
[141b786]	167	const int id = unqExpr->get_id();
	168
	169	// on first time visiting a unique expr with a particular ID, generate the expression that replaces all UniqueExprs with that ID,
	170	// and lookup on subsequent hits. This ensures that all unique exprs with the same ID reference the same variable.
	171	if ( ! decls.count( id ) ) {
	172	Expression * assignUnq;
	173	Expression * var = unqExpr->get_var();
	174	if ( unqExpr->get_object() ) {
	175	// an object was generated to represent this unique expression -- it should be added to the list of declarations now
	176	addDeclaration( unqExpr->get_object() );
	177	unqExpr->set_object( nullptr );
	178	// steal the expr from the unqExpr
	179	assignUnq = UntypedExpr::createAssign( unqExpr->get_var()->clone(), unqExpr->get_expr() );
	180	unqExpr->set_expr( nullptr );
	181	} else {
	182	// steal the already generated assignment to var from the unqExpr - this has been generated by FixInit
	183	Expression * expr = unqExpr->get_expr();
	184	CommaExpr * commaExpr = safe_dynamic_cast< CommaExpr * >( expr );
	185	assignUnq = commaExpr->get_arg1();
	186	commaExpr->set_arg1( nullptr );
	187	}
	188	BasicType * boolType = new BasicType( Type::Qualifiers(), BasicType::Bool );
	189	ObjectDecl * finished = new ObjectDecl( toString( "_unq_expr_finished_", id ), DeclarationNode::NoStorageClass, LinkageSpec::Cforall, nullptr, new BasicType( Type::Qualifiers(), BasicType::Bool ), new SingleInit( new ConstantExpr( Constant( boolType->clone(), "0" ) ), noDesignators ) );
	190	addDeclaration( finished );
	191	// (finished ? _unq_expr_N : (_unq_expr_N = <unqExpr->get_expr()>, finished = 1, _unq_expr_N))
	192	// This pattern ensures that each unique expression is evaluated once, regardless of evaluation order of the generated C code.
	193	Expression * assignFinished = UntypedExpr::createAssign( new VariableExpr(finished), new ConstantExpr( Constant( boolType->clone(), "1" ) ) );
	194	ConditionalExpr * condExpr = new ConditionalExpr( new VariableExpr( finished ), var->clone(),
	195	new CommaExpr( new CommaExpr( assignUnq, assignFinished ), var->clone() ) );
	196	condExpr->set_result( var->get_result()->clone() );
[d5556a3]	197	condExpr->set_env( maybeClone( unqExpr->get_env() ) );
[141b786]	198	decls[id] = condExpr;
[3c13c03]	199	}
[141b786]	200	delete unqExpr;
	201	return decls[id]->clone();
[6eb8948]	202	}
	203
[3c13c03]	204	Expression * TupleAssignExpander::mutate( TupleAssignExpr * assnExpr ) {
[141b786]	205	assnExpr = safe_dynamic_cast< TupleAssignExpr * >( Parent::mutate( assnExpr ) );
[d5556a3]	206	StmtExpr * ret = assnExpr->get_stmtExpr();
	207	assnExpr->set_stmtExpr( nullptr );
	208	// move env to StmtExpr
	209	ret->set_env( assnExpr->get_env() );
	210	assnExpr->set_env( nullptr );
[3c13c03]	211	delete assnExpr;
[d5556a3]	212	return ret;
[6eb8948]	213	}
	214
[f006f01]	215	Type * TupleTypeReplacer::mutate( TupleType * tupleType ) {
[d9fa60a]	216	tupleType = safe_dynamic_cast< TupleType * > ( Parent::mutate( tupleType ) );
[e6512c8]	217	unsigned tupleSize = tupleType->size();
	218	if ( ! typeMap.count( tupleSize ) ) {
	219	// generate struct type to replace tuple type based on the number of components in the tuple
	220	StructDecl * decl = new StructDecl( toString( "_tuple_type_", tupleSize ) );
[f006f01]	221	decl->set_body( true );
[e6512c8]	222	for ( size_t i = 0; i < tupleSize; ++i ) {
[d9fa60a]	223	TypeDecl * tyParam = new TypeDecl( toString("tuple_param_", i), DeclarationNode::NoStorageClass, nullptr, TypeDecl::Any );
	224	decl->get_members().push_back( new ObjectDecl( toString("field_", i), DeclarationNode::NoStorageClass, LinkageSpec::C, nullptr, new TypeInstType( Type::Qualifiers(), tyParam->get_name(), tyParam ), nullptr ) );
	225	decl->get_parameters().push_back( tyParam );
[f006f01]	226	}
[e6512c8]	227	if ( tupleSize == 0 ) {
[4c8621ac]	228	// empty structs are not standard C. Add a dummy field to empty tuples to silence warnings when a compound literal Tuple0 is created.
	229	decl->get_members().push_back( new ObjectDecl( "dummy", DeclarationNode::NoStorageClass, LinkageSpec::C, nullptr, new BasicType( Type::Qualifiers(), BasicType::SignedInt ), nullptr ) );
	230	}
[e6512c8]	231	typeMap[tupleSize] = decl;
[f006f01]	232	addDeclaration( decl );
	233	}
[d9fa60a]	234	Type::Qualifiers qualifiers = tupleType->get_qualifiers();
	235
[e6512c8]	236	StructDecl * decl = typeMap[tupleSize];
[d9fa60a]	237	StructInstType * newType = new StructInstType( qualifiers, decl );
	238	for ( Type * t : *tupleType ) {
	239	newType->get_parameters().push_back( new TypeExpr( t->clone() ) );
	240	}
	241	delete tupleType;
	242	return newType;
[f006f01]	243	}
	244
[3c13c03]	245	Expression * TupleIndexExpander::mutate( TupleIndexExpr * tupleExpr ) {
	246	Expression * tuple = maybeMutate( tupleExpr->get_tuple(), *this );
	247	assert( tuple );
	248	tupleExpr->set_tuple( nullptr );
	249	unsigned int idx = tupleExpr->get_index();
[d5556a3]	250	TypeSubstitution * env = tupleExpr->get_env();
	251	tupleExpr->set_env( nullptr );
[3c13c03]	252	delete tupleExpr;
	253
	254	StructInstType * type = safe_dynamic_cast< StructInstType * >( tuple->get_result() );
	255	StructDecl * structDecl = type->get_baseStruct();
	256	assert( structDecl->get_members().size() > idx );
	257	Declaration * member = *std::next(structDecl->get_members().begin(), idx);
[d5556a3]	258	MemberExpr * memExpr = new MemberExpr( safe_dynamic_cast< DeclarationWithType * >( member ), tuple );
	259	memExpr->set_env( env );
	260	return memExpr;
[3c13c03]	261	}
	262
[d5556a3]	263	Expression * replaceTupleExpr( Type * result, const std::list< Expression * > & exprs, TypeSubstitution * env ) {
[65660bd]	264	if ( result->isVoid() ) {
	265	// void result - don't need to produce a value for cascading - just output a chain of comma exprs
	266	assert( ! exprs.empty() );
	267	std::list< Expression * >::const_iterator iter = exprs.begin();
[d5556a3]	268	Expression * expr = new CastExpr( *iter++ );
[65660bd]	269	for ( ; iter != exprs.end(); ++iter ) {
[d5556a3]	270	expr = new CommaExpr( expr, new CastExpr( *iter ) );
[65660bd]	271	}
[d5556a3]	272	expr->set_env( env );
[65660bd]	273	return expr;
	274	} else {
	275	// typed tuple expression - produce a compound literal which performs each of the expressions
	276	// as a distinct part of its initializer - the produced compound literal may be used as part of
	277	// another expression
	278	std::list< Initializer * > inits;
	279	for ( Expression * expr : exprs ) {
	280	inits.push_back( new SingleInit( expr ) );
	281	}
[d5556a3]	282	Expression * expr = new CompoundLiteralExpr( result, new ListInit( inits ) );
	283	expr->set_env( env );
	284	return expr;
[3c13c03]	285	}
	286	}
	287
[65660bd]	288	Expression * TupleExprExpander::mutate( TupleExpr * tupleExpr ) {
[bf32bb8]	289	// recursively expand sub-tuple-expressions
	290	tupleExpr = safe_dynamic_cast<TupleExpr *>(Parent::mutate(tupleExpr));
[65660bd]	291	Type * result = tupleExpr->get_result();
	292	std::list< Expression * > exprs = tupleExpr->get_exprs();
	293	assert( result );
[d5556a3]	294	TypeSubstitution * env = tupleExpr->get_env();
[65660bd]	295
[bf32bb8]	296	// remove data from shell and delete it
[65660bd]	297	tupleExpr->set_result( nullptr );
	298	tupleExpr->get_exprs().clear();
[d5556a3]	299	tupleExpr->set_env( nullptr );
[65660bd]	300	delete tupleExpr;
	301
[d5556a3]	302	return replaceTupleExpr( result, exprs, env );
[65660bd]	303	}
	304
	305	Type * makeTupleType( const std::list< Expression * > & exprs ) {
	306	// produce the TupleType which aggregates the types of the exprs
[c0aa336]	307	TupleType *tupleType = new TupleType( Type::Qualifiers(true, true, true, true, true) );
[3c13c03]	308	Type::Qualifiers &qualifiers = tupleType->get_qualifiers();
	309	for ( Expression * expr : exprs ) {
	310	assert( expr->get_result() );
[65660bd]	311	if ( expr->get_result()->isVoid() ) {
	312	// if the type of any expr is void, the type of the entire tuple is void
	313	delete tupleType;
	314	return new VoidType( Type::Qualifiers() );
	315	}
[3c13c03]	316	Type * type = expr->get_result()->clone();
	317	tupleType->get_types().push_back( type );
[65660bd]	318	// the qualifiers on the tuple type are the qualifiers that exist on all component types
[3c13c03]	319	qualifiers &= type->get_qualifiers();
	320	} // for
[907eccb]	321	if ( exprs.empty() ) qualifiers = Type::Qualifiers();
[3c13c03]	322	return tupleType;
	323	}
[65660bd]	324
[8bf784a]	325	TypeInstType * isTtype( Type * type ) {
	326	if ( TypeInstType * inst = dynamic_cast< TypeInstType * >( type ) ) {
	327	if ( inst->get_baseType()->get_kind() == TypeDecl::Ttype ) {
	328	return inst;
	329	}
	330	}
	331	return nullptr;
	332	}
	333
[65660bd]	334	namespace {
	335	/// determines if impurity (read: side-effects) may exist in a piece of code. Currently gives a very crude approximation, wherein any function call expression means the code may be impure
	336	class ImpurityDetector : public Visitor {
	337	public:
	338	typedef Visitor Parent;
[b7b8674]	339	virtual void visit( ApplicationExpr * appExpr ) {
	340	if ( DeclarationWithType * function = InitTweak::getFunction( appExpr ) ) {
	341	if ( function->get_linkage() == LinkageSpec::Intrinsic ) {
	342	if ( function->get_name() == "*?" \|\| function->get_name() == "?[?]" ) {
	343	// intrinsic dereference, subscript are pure, but need to recursively look for impurity
	344	Parent::visit( appExpr );
	345	return;
	346	}
	347	}
	348	}
	349	maybeImpure = true;
	350	}
[65660bd]	351	virtual void visit( UntypedExpr * untypedExpr ) { maybeImpure = true; }
	352	bool maybeImpure = false;
	353	};
	354	} // namespace
	355
	356	bool maybeImpure( Expression * expr ) {
	357	ImpurityDetector detector;
	358	expr->accept( detector );
	359	return detector.maybeImpure;
	360	}
[6eb8948]	361	} // namespace Tuples
	362
	363	// Local Variables: //
	364	// tab-width: 4 //
	365	// mode: c++ //
	366	// compile-command: "make install" //
	367	// End: //

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