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source: src/GenPoly/GenPoly.cc@ 3c714ad

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Last change on this file since 3c714ad was 52a5262e, checked in by Andrew Beach <ajbeach@…>, 2 years ago
TypeVarMap is now a subtype instead of an alias to remove the redundent constructor argument. Various bits of box pass clean-up.
Property mode set to `100644`
File size: 32.2 KB

Rev	Line
[51587aa]	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	//
[540de412]	7	// GenPoly.cc --
[51587aa]	8	//
	9	// Author : Richard C. Bilson
	10	// Created On : Mon May 18 07:44:20 2015
[3606fe4]	11	// Last Modified By : Andrew Beach
[63d1ebe]	12	// Last Modified On : Mon Oct 24 15:19:00 2022
	13	// Update Count : 17
[51587aa]	14	//
[51b73452]	15
	16	#include "GenPoly.h"
[ffad73a]	17
[08fc48f]	18	#include <cassert> // for assertf, assert
	19	#include <iostream> // for operator<<, ostream, basic_os...
	20	#include <iterator> // for back_insert_iterator, back_in...
	21	#include <list> // for list, _List_iterator, list<>:...
	22	#include <typeindex> // for type_index
	23	#include <utility> // for pair
	24	#include <vector> // for vector
	25
[a0d1f1c]	26	#include "AST/Expr.hpp"
[d76c588]	27	#include "AST/Type.hpp"
[a0d1f1c]	28	#include "AST/TypeSubstitution.hpp"
[08fc48f]	29	#include "GenPoly/ErasableScopedMap.h" // for ErasableScopedMap<>::const_it...
	30	#include "ResolvExpr/typeops.h" // for flatten
	31	#include "SynTree/Constant.h" // for Constant
	32	#include "SynTree/Expression.h" // for Expression, TypeExpr, Constan...
	33	#include "SynTree/Type.h" // for Type, StructInstType, UnionIn...
	34	#include "SynTree/TypeSubstitution.h" // for TypeSubstitution
[51b73452]	35
[b1a6d6b]	36	using namespace std;
[51b73452]	37
	38	namespace GenPoly {
[ffad73a]	39	namespace {
[0f889a77]	40	/// Checks a parameter list for polymorphic parameters; will substitute according to env if present
	41	bool hasPolyParams( std::list< Expression* >& params, const TypeSubstitution *env ) {
	42	for ( std::list< Expression* >::iterator param = params.begin(); param != params.end(); ++param ) {
	43	TypeExpr paramType = dynamic_cast< TypeExpr >( *param );
[7350ff97]	44	assertf(paramType, "Aggregate parameters should be type expressions");
[0f889a77]	45	if ( isPolyType( paramType->get_type(), env ) ) return true;
	46	}
	47	return false;
	48	}
	49
[3df4cd9]	50	bool hasPolyParams( const std::vector<ast::ptr<ast::Expr>> & params, const ast::TypeSubstitution * env ) {
	51	for ( auto &param : params ) {
	52	auto paramType = param.as<ast::TypeExpr>();
	53	assertf( paramType, "Aggregate parameters should be type expressions" );
	54	if ( isPolyType( paramType->type, env ) ) return true;
[490fb92e]	55	}
	56	return false;
	57	}
	58
[0f889a77]	59	/// Checks a parameter list for polymorphic parameters from tyVars; will substitute according to env if present
[ffad73a]	60	bool hasPolyParams( std::list< Expression* >& params, const TyVarMap &tyVars, const TypeSubstitution *env ) {
	61	for ( std::list< Expression* >::iterator param = params.begin(); param != params.end(); ++param ) {
	62	TypeExpr paramType = dynamic_cast< TypeExpr >( *param );
[5a3ac84]	63	assertf(paramType, "Aggregate parameters should be type expressions");
[ffad73a]	64	if ( isPolyType( paramType->get_type(), tyVars, env ) ) return true;
	65	}
	66	return false;
	67	}
[3bb195cb]	68
[3df4cd9]	69	bool hasPolyParams( const std::vector<ast::ptr<ast::Expr>> & params, const TypeVarMap & typeVars, const ast::TypeSubstitution * env ) {
	70	for ( auto & param : params ) {
	71	auto paramType = param.as<ast::TypeExpr>();
	72	assertf( paramType, "Aggregate parameters should be type expressions" );
	73	if ( isPolyType( paramType->type, typeVars, env ) ) return true;
	74	}
	75	return false;
	76	}
	77
[3bb195cb]	78	/// Checks a parameter list for dynamic-layout parameters from tyVars; will substitute according to env if present
	79	bool hasDynParams( std::list< Expression* >& params, const TyVarMap &tyVars, const TypeSubstitution *env ) {
	80	for ( std::list< Expression* >::iterator param = params.begin(); param != params.end(); ++param ) {
	81	TypeExpr paramType = dynamic_cast< TypeExpr >( *param );
[5a3ac84]	82	assertf(paramType, "Aggregate parameters should be type expressions");
[3bb195cb]	83	if ( isDynType( paramType->get_type(), tyVars, env ) ) return true;
	84	}
	85	return false;
	86	}
[5a3ac84]	87
[c8837e5]	88	bool hasDynParams(
	89	const std::vector<ast::ptr<ast::Expr>> & params,
	90	const TypeVarMap & typeVars,
	91	const ast::TypeSubstitution * subst ) {
	92	for ( ast::ptr<ast::Expr> const & paramExpr : params ) {
	93	auto param = paramExpr.as<ast::TypeExpr>();
	94	assertf( param, "Aggregate parameters should be type expressions." );
	95	if ( isDynType( param->type.get(), typeVars, subst ) ) {
[3606fe4]	96	return true;
	97	}
	98	}
	99	return false;
	100	}
	101
[5a3ac84]	102	/// Checks a parameter list for inclusion of polymorphic parameters; will substitute according to env if present
	103	bool includesPolyParams( std::list< Expression* >& params, const TypeSubstitution *env ) {
	104	for ( std::list< Expression* >::iterator param = params.begin(); param != params.end(); ++param ) {
	105	TypeExpr paramType = dynamic_cast< TypeExpr >( *param );
	106	assertf(paramType, "Aggregate parameters should be type expressions");
	107	if ( includesPolyType( paramType->get_type(), env ) ) return true;
	108	}
	109	return false;
	110	}
	111
	112	/// Checks a parameter list for inclusion of polymorphic parameters from tyVars; will substitute according to env if present
	113	bool includesPolyParams( std::list< Expression* >& params, const TyVarMap &tyVars, const TypeSubstitution *env ) {
	114	for ( std::list< Expression* >::iterator param = params.begin(); param != params.end(); ++param ) {
	115	TypeExpr paramType = dynamic_cast< TypeExpr >( *param );
	116	assertf(paramType, "Aggregate parameters should be type expressions");
	117	if ( includesPolyType( paramType->get_type(), tyVars, env ) ) return true;
	118	}
	119	return false;
	120	}
[c2ad3c9]	121	}
[83de11e]	122
[c2ad3c9]	123	Type* replaceTypeInst( Type* type, const TypeSubstitution* env ) {
	124	if ( ! env ) return type;
	125	if ( TypeInstType typeInst = dynamic_cast< TypeInstType >( type ) ) {
	126	Type *newType = env->lookup( typeInst->get_name() );
	127	if ( newType ) return newType;
[e24955a]	128	}
[c2ad3c9]	129	return type;
[ffad73a]	130	}
[0f889a77]	131
[4da152a]	132	const Type* replaceTypeInst( const Type* type, const TypeSubstitution* env ) {
	133	if ( ! env ) return type;
	134	if ( auto typeInst = dynamic_cast< const TypeInstType* >( type ) ) {
	135	Type *newType = env->lookup( typeInst->get_name() );
	136	if ( newType ) return newType;
	137	}
	138	return type;
	139	}
	140
[490fb92e]	141	const ast::Type * replaceTypeInst(const ast::Type * type, const ast::TypeSubstitution * env) {
	142	if (!env) return type;
[75f6a5f]	143	if ( auto typeInst = dynamic_cast<const ast::TypeInstType*>(type) ) {
[3e5dd913]	144	auto newType = env->lookup(typeInst);
[490fb92e]	145	if (newType) return newType;
	146	}
	147	return type;
	148	}
	149
[0f889a77]	150	Type isPolyType( Type type, const TypeSubstitution *env ) {
[e24955a]	151	type = replaceTypeInst( type, env );
[83de11e]	152
[ca35c51]	153	if ( dynamic_cast< TypeInstType * >( type ) ) {
[0f889a77]	154	return type;
[5f61546]	155	} else if ( ArrayType * arrayType = dynamic_cast< ArrayType * >( type ) ) {
	156	return isPolyType( arrayType->base, env );
[0f889a77]	157	} else if ( StructInstType structType = dynamic_cast< StructInstType >( type ) ) {
	158	if ( hasPolyParams( structType->get_parameters(), env ) ) return type;
	159	} else if ( UnionInstType unionType = dynamic_cast< UnionInstType >( type ) ) {
	160	if ( hasPolyParams( unionType->get_parameters(), env ) ) return type;
	161	}
	162	return 0;
	163	}
[540de412]	164
[490fb92e]	165	const ast::Type * isPolyType(const ast::Type * type, const ast::TypeSubstitution * env) {
	166	type = replaceTypeInst( type, env );
	167
	168	if ( dynamic_cast< const ast::TypeInstType * >( type ) ) {
	169	return type;
	170	} else if ( auto arrayType = dynamic_cast< const ast::ArrayType * >( type ) ) {
	171	return isPolyType( arrayType->base, env );
	172	} else if ( auto structType = dynamic_cast< const ast::StructInstType* >( type ) ) {
	173	if ( hasPolyParams( structType->params, env ) ) return type;
	174	} else if ( auto unionType = dynamic_cast< const ast::UnionInstType* >( type ) ) {
	175	if ( hasPolyParams( unionType->params, env ) ) return type;
	176	}
	177	return 0;
	178	}
	179
[ffad73a]	180	Type isPolyType( Type type, const TyVarMap &tyVars, const TypeSubstitution *env ) {
[e24955a]	181	type = replaceTypeInst( type, env );
[83de11e]	182
[e56cfdb0]	183	if ( TypeInstType typeInst = dynamic_cast< TypeInstType >( type ) ) {
[e9b5043]	184	if ( tyVars.contains( typeInst->get_name() ) ) {
[ffad73a]	185	return type;
[0f889a77]	186	}
[5f61546]	187	} else if ( ArrayType * arrayType = dynamic_cast< ArrayType * >( type ) ) {
	188	return isPolyType( arrayType->base, tyVars, env );
[ffad73a]	189	} else if ( StructInstType structType = dynamic_cast< StructInstType >( type ) ) {
	190	if ( hasPolyParams( structType->get_parameters(), tyVars, env ) ) return type;
	191	} else if ( UnionInstType unionType = dynamic_cast< UnionInstType >( type ) ) {
	192	if ( hasPolyParams( unionType->get_parameters(), tyVars, env ) ) return type;
	193	}
	194	return 0;
[01aeade]	195	}
[b1a6d6b]	196
[c8837e5]	197	const ast::Type * isPolyType( const ast::Type * type,
	198	const TypeVarMap & typeVars, const ast::TypeSubstitution * subst ) {
	199	type = replaceTypeInst( type, subst );
	200
	201	if ( auto inst = dynamic_cast< const ast::TypeInstType * >( type ) ) {
[e9b5043]	202	if ( typeVars.contains( *inst ) ) return type;
[c8837e5]	203	} else if ( auto array = dynamic_cast< const ast::ArrayType * >( type ) ) {
[3df4cd9]	204	return isPolyType( array->base, typeVars, subst );
[c8837e5]	205	} else if ( auto sue = dynamic_cast< const ast::StructInstType * >( type ) ) {
[3df4cd9]	206	if ( hasPolyParams( sue->params, typeVars, subst ) ) return type;
[c8837e5]	207	} else if ( auto sue = dynamic_cast< const ast::UnionInstType * >( type ) ) {
[3df4cd9]	208	if ( hasPolyParams( sue->params, typeVars, subst ) ) return type;
[c8837e5]	209	}
	210	return nullptr;
	211	}
	212
[33a7b6d]	213	ReferenceToType isDynType( Type type, const TyVarMap &tyVars, const TypeSubstitution *env ) {
[3bb195cb]	214	type = replaceTypeInst( type, env );
	215
	216	if ( TypeInstType typeInst = dynamic_cast< TypeInstType >( type ) ) {
	217	auto var = tyVars.find( typeInst->get_name() );
[2c57025]	218	if ( var != tyVars.end() && var->second.isComplete ) {
[33a7b6d]	219	return typeInst;
[3bb195cb]	220	}
	221	} else if ( StructInstType structType = dynamic_cast< StructInstType >( type ) ) {
[33a7b6d]	222	if ( hasDynParams( structType->get_parameters(), tyVars, env ) ) return structType;
[3bb195cb]	223	} else if ( UnionInstType unionType = dynamic_cast< UnionInstType >( type ) ) {
[33a7b6d]	224	if ( hasDynParams( unionType->get_parameters(), tyVars, env ) ) return unionType;
[3bb195cb]	225	}
	226	return 0;
	227	}
	228
[c8837e5]	229	const ast::BaseInstType * isDynType(
	230	const ast::Type * type, const TypeVarMap & typeVars,
	231	const ast::TypeSubstitution * subst ) {
	232	type = replaceTypeInst( type, subst );
	233
	234	if ( auto inst = dynamic_cast<ast::TypeInstType const *>( type ) ) {
[63d1ebe]	235	auto var = typeVars.find( *inst );
[c8837e5]	236	if ( var != typeVars.end() && var->second.isComplete ) {
[75f6a5f]	237	return inst;
[3606fe4]	238	}
[c8837e5]	239	} else if ( auto inst = dynamic_cast<ast::StructInstType const *>( type ) ) {
	240	if ( hasDynParams( inst->params, typeVars, subst ) ) {
	241	return inst;
	242	}
	243	} else if ( auto inst = dynamic_cast<ast::UnionInstType const *>( type ) ) {
	244	if ( hasDynParams( inst->params, typeVars, subst ) ) {
	245	return inst;
	246	}
[3606fe4]	247	}
[c8837e5]	248	return nullptr;
	249	}
[3606fe4]	250
[3bb195cb]	251	ReferenceToType isDynRet( FunctionType function, const TyVarMap &forallTypes ) {
	252	if ( function->get_returnVals().empty() ) return 0;
[8c49c0e]	253
[3bb195cb]	254	return (ReferenceToType*)isDynType( function->get_returnVals().front()->get_type(), forallTypes );
	255	}
	256
[c8837e5]	257	const ast::BaseInstType *isDynRet(
	258	const ast::FunctionType * type, const TypeVarMap & typeVars ) {
	259	if ( type->returns.empty() ) return nullptr;
	260
	261	return isDynType( type->returns.front(), typeVars );
	262	}
	263
[3bb195cb]	264	ReferenceToType isDynRet( FunctionType function ) {
	265	if ( function->get_returnVals().empty() ) return 0;
	266
[2c57025]	267	TyVarMap forallTypes( TypeDecl::Data{} );
[3bb195cb]	268	makeTyVarMap( function, forallTypes );
	269	return (ReferenceToType*)isDynType( function->get_returnVals().front()->get_type(), forallTypes );
	270	}
	271
[c97b448]	272	const ast::BaseInstType isDynRet( const ast::FunctionType func ) {
	273	if ( func->returns.empty() ) return nullptr;
	274
[52a5262e]	275	TypeVarMap forallTypes;
[c97b448]	276	makeTypeVarMap( func, forallTypes );
	277	return isDynType( func->returns.front(), forallTypes );
	278	}
	279
[3bb195cb]	280	bool needsAdapter( FunctionType *adaptee, const TyVarMap &tyVars ) {
	281	// if ( ! adaptee->get_returnVals().empty() && isPolyType( adaptee->get_returnVals().front()->get_type(), tyVars ) ) {
	282	// return true;
	283	// } // if
	284	if ( isDynRet( adaptee, tyVars ) ) return true;
[8c49c0e]	285
[3bb195cb]	286	for ( std::list< DeclarationWithType* >::const_iterator innerArg = adaptee->get_parameters().begin(); innerArg != adaptee->get_parameters().end(); ++innerArg ) {
	287	// if ( isPolyType( (*innerArg)->get_type(), tyVars ) ) {
	288	if ( isDynType( (*innerArg)->get_type(), tyVars ) ) {
	289	return true;
	290	} // if
	291	} // for
	292	return false;
	293	}
	294
[c8837e5]	295	bool needsAdapter(
	296	ast::FunctionType const * adaptee, const TypeVarMap & typeVars ) {
	297	if ( isDynRet( adaptee, typeVars ) ) return true;
	298
	299	for ( auto param : adaptee->params ) {
	300	if ( isDynType( param, typeVars ) ) {
	301	return true;
	302	}
	303	}
	304	return false;
	305	}
	306
[0f889a77]	307	Type isPolyPtr( Type type, const TypeSubstitution *env ) {
[e24955a]	308	type = replaceTypeInst( type, env );
[83de11e]	309
[0f889a77]	310	if ( PointerType ptr = dynamic_cast< PointerType >( type ) ) {
	311	return isPolyType( ptr->get_base(), env );
[e24955a]	312	}
[0f889a77]	313	return 0;
	314	}
[540de412]	315
[ffad73a]	316	Type isPolyPtr( Type type, const TyVarMap &tyVars, const TypeSubstitution *env ) {
[e24955a]	317	type = replaceTypeInst( type, env );
[83de11e]	318
[ffad73a]	319	if ( PointerType ptr = dynamic_cast< PointerType >( type ) ) {
	320	return isPolyType( ptr->get_base(), tyVars, env );
[e24955a]	321	}
[ffad73a]	322	return 0;
[bdf1954]	323	}
	324
[c97b448]	325	const ast::Type * isPolyPtr(
	326	const ast::Type * type, const TypeVarMap & typeVars,
	327	const ast::TypeSubstitution * typeSubs ) {
	328	type = replaceTypeInst( type, typeSubs );
	329
	330	if ( auto * ptr = dynamic_cast<ast::PointerType const *>( type ) ) {
	331	return isPolyType( ptr->base, typeVars, typeSubs );
	332	}
	333	return nullptr;
	334	}
	335
[8488c715]	336	Type * hasPolyBase( Type type, int levels, const TypeSubstitution *env ) {
	337	int dummy;
	338	if ( ! levels ) { levels = &dummy; }
	339	*levels = 0;
	340
	341	while ( true ) {
[e24955a]	342	type = replaceTypeInst( type, env );
[83de11e]	343
[8488c715]	344	if ( PointerType ptr = dynamic_cast< PointerType >( type ) ) {
	345	type = ptr->get_base();
	346	++(*levels);
	347	} else break;
[05d47278]	348	}
	349
	350	return isPolyType( type, env );
	351	}
[540de412]	352
[8488c715]	353	Type * hasPolyBase( Type type, const TyVarMap &tyVars, int levels, const TypeSubstitution *env ) {
	354	int dummy;
	355	if ( ! levels ) { levels = &dummy; }
	356	*levels = 0;
	357
	358	while ( true ) {
[e24955a]	359	type = replaceTypeInst( type, env );
[83de11e]	360
[8488c715]	361	if ( PointerType ptr = dynamic_cast< PointerType >( type ) ) {
	362	type = ptr->get_base();
	363	++(*levels);
	364	} else break;
[05d47278]	365	}
	366
	367	return isPolyType( type, tyVars, env );
	368	}
	369
[c8837e5]	370	ast::Type const * hasPolyBase(
	371	ast::Type const * type, const TypeVarMap & typeVars,
	372	int * levels, const ast::TypeSubstitution * subst ) {
	373	int level_count = 0;
	374
	375	while ( true ) {
	376	type = replaceTypeInst( type, subst );
	377
	378	if ( auto ptr = dynamic_cast<ast::PointerType const *>( type ) ) {
	379	type = ptr->base;
	380	++level_count;
	381	} else {
	382	break;
	383	}
	384	}
	385
	386	if ( nullptr != levels ) { *levels = level_count; }
	387	return isPolyType( type, typeVars, subst );
	388	}
	389
[5a3ac84]	390	bool includesPolyType( Type type, const TypeSubstitution env ) {
	391	type = replaceTypeInst( type, env );
	392
	393	if ( dynamic_cast< TypeInstType * >( type ) ) {
	394	return true;
	395	} else if ( PointerType pointerType = dynamic_cast< PointerType >( type ) ) {
	396	if ( includesPolyType( pointerType->get_base(), env ) ) return true;
	397	} else if ( StructInstType structType = dynamic_cast< StructInstType >( type ) ) {
	398	if ( includesPolyParams( structType->get_parameters(), env ) ) return true;
	399	} else if ( UnionInstType unionType = dynamic_cast< UnionInstType >( type ) ) {
	400	if ( includesPolyParams( unionType->get_parameters(), env ) ) return true;
	401	}
	402	return false;
	403	}
	404
	405	bool includesPolyType( Type type, const TyVarMap &tyVars, const TypeSubstitution env ) {
	406	type = replaceTypeInst( type, env );
	407
	408	if ( TypeInstType typeInstType = dynamic_cast< TypeInstType >( type ) ) {
[e9b5043]	409	if ( tyVars.contains( typeInstType->get_name() ) ) {
[5a3ac84]	410	return true;
	411	}
	412	} else if ( PointerType pointerType = dynamic_cast< PointerType >( type ) ) {
	413	if ( includesPolyType( pointerType->get_base(), tyVars, env ) ) return true;
	414	} else if ( StructInstType structType = dynamic_cast< StructInstType >( type ) ) {
	415	if ( includesPolyParams( structType->get_parameters(), tyVars, env ) ) return true;
	416	} else if ( UnionInstType unionType = dynamic_cast< UnionInstType >( type ) ) {
	417	if ( includesPolyParams( unionType->get_parameters(), tyVars, env ) ) return true;
	418	}
	419	return false;
	420	}
	421
[7754cde]	422	FunctionType * getFunctionType( Type *ty ) {
	423	PointerType *ptrType;
	424	if ( ( ptrType = dynamic_cast< PointerType* >( ty ) ) ) {
	425	return dynamic_cast< FunctionType* >( ptrType->get_base() ); // pointer if FunctionType, NULL otherwise
	426	} else {
	427	return dynamic_cast< FunctionType* >( ty ); // pointer if FunctionType, NULL otherwise
	428	}
	429	}
	430
[d76c588]	431	const ast::FunctionType * getFunctionType( const ast::Type * ty ) {
	432	if ( auto pty = dynamic_cast< const ast::PointerType * >( ty ) ) {
	433	return pty->base.as< ast::FunctionType >();
	434	} else {
	435	return dynamic_cast< const ast::FunctionType * >( ty );
	436	}
	437	}
	438
[8488c715]	439	VariableExpr * getBaseVar( Expression expr, int levels ) {
	440	int dummy;
	441	if ( ! levels ) { levels = &dummy; }
	442	*levels = 0;
	443
	444	while ( true ) {
	445	if ( VariableExpr varExpr = dynamic_cast< VariableExpr >( expr ) ) {
	446	return varExpr;
[d9f1b2d]	447	} else if ( MemberExpr memberExpr = dynamic_cast< MemberExpr >( expr ) ) {
	448	expr = memberExpr->get_aggregate();
[8488c715]	449	} else if ( AddressExpr addressExpr = dynamic_cast< AddressExpr >( expr ) ) {
	450	expr = addressExpr->get_arg();
	451	} else if ( UntypedExpr untypedExpr = dynamic_cast< UntypedExpr >( expr ) ) {
	452	// look for compiler-inserted dereference operator
	453	NameExpr fn = dynamic_cast< NameExpr >( untypedExpr->get_function() );
	454	if ( ! fn \|\| fn->get_name() != std::string("*?") ) return 0;
	455	expr = *untypedExpr->begin_args();
[540de412]	456	} else if ( CommaExpr commaExpr = dynamic_cast< CommaExpr >( expr ) ) {
	457	// copy constructors insert comma exprs, look at second argument which contains the variable
	458	expr = commaExpr->get_arg2();
	459	continue;
[1aa4b71]	460	} else if ( ConditionalExpr * condExpr = dynamic_cast< ConditionalExpr * >( expr ) ) {
	461	int lvl1;
	462	int lvl2;
	463	VariableExpr * var1 = getBaseVar( condExpr->get_arg2(), &lvl1 );
	464	VariableExpr * var2 = getBaseVar( condExpr->get_arg3(), &lvl2 );
	465	if ( lvl1 == lvl2 && var1 && var2 && var1->get_var() == var2->get_var() ) {
	466	*levels = lvl1;
	467	return var1;
	468	}
	469	break;
[8488c715]	470	} else break;
	471
	472	++(*levels);
	473	}
	474
	475	return 0;
[05d47278]	476	}
	477
[5a3ac84]	478	namespace {
	479	/// Checks if is a pointer to D
	480	template<typename D, typename B>
	481	bool is( const B* p ) { return type_index{typeid(D)} == type_index{typeid(*p)}; }
	482
	483	/// Converts to a pointer to D without checking for safety
	484	template<typename D, typename B>
	485	inline D* as( B* p ) { return reinterpret_cast<D*>(p); }
	486
[3606fe4]	487	template<typename D, typename B>
	488	inline D const * as( B const * p ) {
	489	return reinterpret_cast<D const *>( p );
	490	}
	491
[5a3ac84]	492	/// Flattens a declaration list
	493	template<typename Output>
	494	void flattenList( list< DeclarationWithType* > src, Output out ) {
	495	for ( DeclarationWithType* decl : src ) {
	496	ResolvExpr::flatten( decl->get_type(), out );
	497	}
	498	}
	499
	500	/// Flattens a list of types
	501	template<typename Output>
	502	void flattenList( list< Type* > src, Output out ) {
	503	for ( Type* ty : src ) {
	504	ResolvExpr::flatten( ty, out );
	505	}
	506	}
	507
[7b5694d]	508	/// Flattens a list of types.
	509	// There is another flattenList in Unify.
[3606fe4]	510	void flattenList( vector<ast::ptr<ast::Type>> const & src,
	511	vector<ast::ptr<ast::Type>> & out ) {
	512	for ( auto const & type : src ) {
	513	ResolvExpr::flatten( type, out );
	514	}
	515	}
	516
[5a3ac84]	517	/// Checks if two lists of parameters are equal up to polymorphic substitution.
	518	bool paramListsPolyCompatible( const list< Expression* >& aparams, const list< Expression* >& bparams ) {
	519	if ( aparams.size() != bparams.size() ) return false;
	520
	521	for ( list< Expression* >::const_iterator at = aparams.begin(), bt = bparams.begin();
	522	at != aparams.end(); ++at, ++bt ) {
	523	TypeExpr aparam = dynamic_cast< TypeExpr >(*at);
	524	assertf(aparam, "Aggregate parameters should be type expressions");
	525	TypeExpr bparam = dynamic_cast< TypeExpr >(*bt);
	526	assertf(bparam, "Aggregate parameters should be type expressions");
	527
[cccc534]	528	// xxx - might need to let VoidType be a wildcard here too; could have some voids
[5a3ac84]	529	// stuffed in for dtype-statics.
	530	// if ( is<VoidType>( aparam->get_type() ) \|\| is<VoidType>( bparam->get_type() ) ) continue;
	531	if ( ! typesPolyCompatible( aparam->get_type(), bparam->get_type() ) ) return false;
	532	}
[cccc534]	533
[5a3ac84]	534	return true;
	535	}
[3606fe4]	536
	537	bool paramListsPolyCompatible(
	538	std::vector<ast::ptr<ast::Expr>> const & lparams,
	539	std::vector<ast::ptr<ast::Expr>> const & rparams ) {
	540	if ( lparams.size() != rparams.size() ) {
	541	return false;
	542	}
	543
	544	for ( auto lparam = lparams.begin(), rparam = rparams.begin() ;
	545	lparam != lparams.end() ; ++lparam, ++rparam ) {
	546	ast::TypeExpr const * lexpr = lparam->as<ast::TypeExpr>();
	547	assertf( lexpr, "Aggregate parameters should be type expressions" );
	548	ast::TypeExpr const * rexpr = rparam->as<ast::TypeExpr>();
	549	assertf( rexpr, "Aggregate parameters should be type expressions" );
	550
	551	// xxx - might need to let VoidType be a wildcard here too; could have some voids
	552	// stuffed in for dtype-statics.
	553	// if ( is<VoidType>( lexpr->type() ) \|\| is<VoidType>( bparam->get_type() ) ) continue;
	554	if ( !typesPolyCompatible( lexpr->type, rexpr->type ) ) {
	555	return false;
	556	}
	557	}
	558
	559	return true;
	560	}
[5a3ac84]	561	}
	562
	563	bool typesPolyCompatible( Type a, Type b ) {
	564	type_index aid{ typeid(*a) };
	565	// polymorphic types always match
	566	if ( aid == type_index{typeid(TypeInstType)} ) return true;
[cccc534]	567
[5a3ac84]	568	type_index bid{ typeid(*b) };
	569	// polymorphic types always match
	570	if ( bid == type_index{typeid(TypeInstType)} ) return true;
[cccc534]	571
[5a3ac84]	572	// can't match otherwise if different types
	573	if ( aid != bid ) return false;
	574
	575	// recurse through type structure (conditions borrowed from Unify.cc)
	576	if ( aid == type_index{typeid(BasicType)} ) {
	577	return as<BasicType>(a)->get_kind() == as<BasicType>(b)->get_kind();
	578	} else if ( aid == type_index{typeid(PointerType)} ) {
	579	PointerType ap = as<PointerType>(a), bp = as<PointerType>(b);
	580
	581	// void pointers should match any other pointer type
	582	return is<VoidType>( ap->get_base() ) \|\| is<VoidType>( bp->get_base() )
	583	\|\| typesPolyCompatible( ap->get_base(), bp->get_base() );
[682dcae]	584	} else if ( aid == type_index{typeid(ReferenceType)} ) {
	585	ReferenceType ap = as<ReferenceType>(a), bp = as<ReferenceType>(b);
	586	return is<VoidType>( ap->get_base() ) \|\| is<VoidType>( bp->get_base() )
	587	\|\| typesPolyCompatible( ap->get_base(), bp->get_base() );
[5a3ac84]	588	} else if ( aid == type_index{typeid(ArrayType)} ) {
	589	ArrayType aa = as<ArrayType>(a), ba = as<ArrayType>(b);
	590
	591	if ( aa->get_isVarLen() ) {
	592	if ( ! ba->get_isVarLen() ) return false;
	593	} else {
	594	if ( ba->get_isVarLen() ) return false;
	595
	596	ConstantExpr ad = dynamic_cast<ConstantExpr>( aa->get_dimension() );
	597	ConstantExpr bd = dynamic_cast<ConstantExpr>( ba->get_dimension() );
[cccc534]	598	if ( ad && bd
[5a3ac84]	599	&& ad->get_constant()->get_value() != bd->get_constant()->get_value() )
	600	return false;
	601	}
	602
	603	return typesPolyCompatible( aa->get_base(), ba->get_base() );
	604	} else if ( aid == type_index{typeid(FunctionType)} ) {
	605	FunctionType af = as<FunctionType>(a), bf = as<FunctionType>(b);
	606
	607	vector<Type*> aparams, bparams;
	608	flattenList( af->get_parameters(), back_inserter( aparams ) );
	609	flattenList( bf->get_parameters(), back_inserter( bparams ) );
	610	if ( aparams.size() != bparams.size() ) return false;
	611
	612	vector<Type*> areturns, breturns;
	613	flattenList( af->get_returnVals(), back_inserter( areturns ) );
	614	flattenList( bf->get_returnVals(), back_inserter( breturns ) );
	615	if ( areturns.size() != breturns.size() ) return false;
	616
	617	for ( unsigned i = 0; i < aparams.size(); ++i ) {
	618	if ( ! typesPolyCompatible( aparams[i], bparams[i] ) ) return false;
	619	}
	620	for ( unsigned i = 0; i < areturns.size(); ++i ) {
	621	if ( ! typesPolyCompatible( areturns[i], breturns[i] ) ) return false;
	622	}
	623	return true;
	624	} else if ( aid == type_index{typeid(StructInstType)} ) {
	625	StructInstType aa = as<StructInstType>(a), ba = as<StructInstType>(b);
	626
	627	if ( aa->get_name() != ba->get_name() ) return false;
	628	return paramListsPolyCompatible( aa->get_parameters(), ba->get_parameters() );
	629	} else if ( aid == type_index{typeid(UnionInstType)} ) {
	630	UnionInstType aa = as<UnionInstType>(a), ba = as<UnionInstType>(b);
	631
	632	if ( aa->get_name() != ba->get_name() ) return false;
	633	return paramListsPolyCompatible( aa->get_parameters(), ba->get_parameters() );
	634	} else if ( aid == type_index{typeid(EnumInstType)} ) {
	635	return as<EnumInstType>(a)->get_name() == as<EnumInstType>(b)->get_name();
	636	} else if ( aid == type_index{typeid(TraitInstType)} ) {
	637	return as<TraitInstType>(a)->get_name() == as<TraitInstType>(b)->get_name();
	638	} else if ( aid == type_index{typeid(TupleType)} ) {
	639	TupleType at = as<TupleType>(a), bt = as<TupleType>(b);
	640
	641	vector<Type*> atypes, btypes;
	642	flattenList( at->get_types(), back_inserter( atypes ) );
	643	flattenList( bt->get_types(), back_inserter( btypes ) );
	644	if ( atypes.size() != btypes.size() ) return false;
	645
	646	for ( unsigned i = 0; i < atypes.size(); ++i ) {
	647	if ( ! typesPolyCompatible( atypes[i], btypes[i] ) ) return false;
	648	}
	649	return true;
	650	} else return true; // VoidType, VarArgsType, ZeroType & OneType just need the same type
	651	}
	652
[3606fe4]	653	bool typesPolyCompatible( ast::Type const * lhs, ast::Type const * rhs ) {
	654	type_index const lid = typeid(*lhs);
	655
	656	// Polymorphic types always match:
	657	if ( type_index(typeid(ast::TypeInstType)) == lid ) return true;
	658
	659	type_index const rid = typeid(*rhs);
	660	if ( type_index(typeid(ast::TypeInstType)) == rid ) return true;
	661
	662	// All other types only match if they are the same type:
	663	if ( lid != rid ) return false;
	664
	665	// So remaining types can be examined case by case.
	666	// Recurse through type structure (conditions borrowed from Unify.cc).
	667
	668	if ( type_index(typeid(ast::BasicType)) == lid ) {
	669	return as<ast::BasicType>(lhs)->kind == as<ast::BasicType>(rhs)->kind;
	670	} else if ( type_index(typeid(ast::PointerType)) == lid ) {
	671	ast::PointerType const * l = as<ast::PointerType>(lhs);
	672	ast::PointerType const * r = as<ast::PointerType>(rhs);
	673
	674	// void pointers should match any other pointer type.
	675	return is<ast::VoidType>( l->base.get() )
	676	\|\| is<ast::VoidType>( r->base.get() )
	677	\|\| typesPolyCompatible( l->base.get(), r->base.get() );
	678	} else if ( type_index(typeid(ast::ReferenceType)) == lid ) {
	679	ast::ReferenceType const * l = as<ast::ReferenceType>(lhs);
	680	ast::ReferenceType const * r = as<ast::ReferenceType>(rhs);
	681
	682	// void references should match any other reference type.
	683	return is<ast::VoidType>( l->base.get() )
	684	\|\| is<ast::VoidType>( r->base.get() )
	685	\|\| typesPolyCompatible( l->base.get(), r->base.get() );
	686	} else if ( type_index(typeid(ast::ArrayType)) == lid ) {
	687	ast::ArrayType const * l = as<ast::ArrayType>(lhs);
	688	ast::ArrayType const * r = as<ast::ArrayType>(rhs);
	689
	690	if ( l->isVarLen ) {
	691	if ( !r->isVarLen ) return false;
	692	} else {
	693	if ( r->isVarLen ) return false;
	694
	695	auto lc = l->dimension.as<ast::ConstantExpr>();
	696	auto rc = r->dimension.as<ast::ConstantExpr>();
	697	if ( lc && rc && lc->intValue() != rc->intValue() ) {
	698	return false;
	699	}
	700	}
	701
	702	return typesPolyCompatible( l->base.get(), r->base.get() );
	703	} else if ( type_index(typeid(ast::FunctionType)) == lid ) {
	704	ast::FunctionType const * l = as<ast::FunctionType>(lhs);
	705	ast::FunctionType const * r = as<ast::FunctionType>(rhs);
	706
	707	std::vector<ast::ptr<ast::Type>> lparams, rparams;
	708	flattenList( l->params, lparams );
	709	flattenList( r->params, rparams );
	710	if ( lparams.size() != rparams.size() ) return false;
	711	for ( unsigned i = 0; i < lparams.size(); ++i ) {
	712	if ( !typesPolyCompatible( lparams[i], rparams[i] ) ) return false;
	713	}
	714
	715	std::vector<ast::ptr<ast::Type>> lrets, rrets;
	716	flattenList( l->returns, lrets );
	717	flattenList( r->returns, rrets );
	718	if ( lrets.size() != rrets.size() ) return false;
	719	for ( unsigned i = 0; i < lrets.size(); ++i ) {
	720	if ( !typesPolyCompatible( lrets[i], rrets[i] ) ) return false;
	721	}
	722	return true;
	723	} else if ( type_index(typeid(ast::StructInstType)) == lid ) {
	724	ast::StructInstType const * l = as<ast::StructInstType>(lhs);
	725	ast::StructInstType const * r = as<ast::StructInstType>(rhs);
	726
	727	if ( l->name != r->name ) return false;
	728	return paramListsPolyCompatible( l->params, r->params );
	729	} else if ( type_index(typeid(ast::UnionInstType)) == lid ) {
	730	ast::UnionInstType const * l = as<ast::UnionInstType>(lhs);
	731	ast::UnionInstType const * r = as<ast::UnionInstType>(rhs);
	732
	733	if ( l->name != r->name ) return false;
	734	return paramListsPolyCompatible( l->params, r->params );
	735	} else if ( type_index(typeid(ast::EnumInstType)) == lid ) {
	736	ast::EnumInstType const * l = as<ast::EnumInstType>(lhs);
	737	ast::EnumInstType const * r = as<ast::EnumInstType>(rhs);
	738
	739	return l->name == r->name;
	740	} else if ( type_index(typeid(ast::TraitInstType)) == lid ) {
	741	ast::TraitInstType const * l = as<ast::TraitInstType>(lhs);
	742	ast::TraitInstType const * r = as<ast::TraitInstType>(rhs);
	743
	744	return l->name == r->name;
	745	} else if ( type_index(typeid(ast::TupleType)) == lid ) {
	746	ast::TupleType const * l = as<ast::TupleType>(lhs);
	747	ast::TupleType const * r = as<ast::TupleType>(rhs);
	748
	749	std::vector<ast::ptr<ast::Type>> ltypes, rtypes;
	750	flattenList( l->types, ( ltypes ) );
	751	flattenList( r->types, ( rtypes ) );
	752	if ( ltypes.size() != rtypes.size() ) return false;
	753
	754	for ( unsigned i = 0 ; i < ltypes.size() ; ++i ) {
	755	if ( !typesPolyCompatible( ltypes[i], rtypes[i] ) ) return false;
	756	}
	757	return true;
	758	// The remaining types (VoidType, VarArgsType, ZeroType & OneType)
	759	// have no variation so will always be equal.
	760	} else {
	761	return true;
	762	}
	763	}
	764
[02fdb8e]	765	bool needsBoxing( Type * param, Type * arg, const TyVarMap &exprTyVars, const TypeSubstitution * env ) {
[ae1b9ea]	766	// is parameter is not polymorphic, don't need to box
	767	if ( ! isPolyType( param, exprTyVars ) ) return false;
	768	Type * newType = arg->clone();
	769	if ( env ) env->apply( newType );
	770	std::unique_ptr<Type> manager( newType );
	771	// if the argument's type is polymorphic, we don't need to box again!
	772	return ! isPolyType( newType );
	773	}
	774
[c8837e5]	775	bool needsBoxing( const ast::Type * param, const ast::Type * arg,
	776	const TypeVarMap & typeVars, const ast::TypeSubstitution * subst ) {
	777	// Don't need to box if the parameter is not polymorphic.
	778	if ( !isPolyType( param, typeVars ) ) return false;
	779
	780	ast::ptr<ast::Type> newType = arg;
	781	if ( subst ) {
	782	int count = subst->apply( newType );
	783	(void)count;
[490fb92e]	784	}
[c8837e5]	785	// Only need to box if the argument is not also polymorphic.
	786	return !isPolyType( newType );
	787	}
[490fb92e]	788
[02fdb8e]	789	bool needsBoxing( Type * param, Type * arg, ApplicationExpr * appExpr, const TypeSubstitution * env ) {
[ae1b9ea]	790	FunctionType * function = getFunctionType( appExpr->function->result );
	791	assertf( function, "ApplicationExpr has non-function type: %s", toString( appExpr->function->result ).c_str() );
	792	TyVarMap exprTyVars( TypeDecl::Data{} );
	793	makeTyVarMap( function, exprTyVars );
	794	return needsBoxing( param, arg, exprTyVars, env );
	795	}
	796
[c8837e5]	797	bool needsBoxing(
	798	const ast::Type * param, const ast::Type * arg,
	799	const ast::ApplicationExpr * expr,
	800	const ast::TypeSubstitution * subst ) {
	801	const ast::FunctionType * function = getFunctionType( expr->func->result );
	802	assertf( function, "ApplicationExpr has non-function type: %s", toString( expr->func->result ).c_str() );
[52a5262e]	803	TypeVarMap exprTyVars;
[c8837e5]	804	makeTypeVarMap( function, exprTyVars );
	805	return needsBoxing( param, arg, exprTyVars, subst );
	806	}
[490fb92e]	807
[2c57025]	808	void addToTyVarMap( TypeDecl * tyVar, TyVarMap &tyVarMap ) {
[7ba1324]	809	tyVarMap.insert( tyVar->name, TypeDecl::Data{ tyVar } );
[2c57025]	810	}
	811
[c97b448]	812	void addToTypeVarMap( const ast::TypeDecl * decl, TypeVarMap & typeVars ) {
	813	typeVars.insert( ast::TypeEnvKey( decl, 0, 0 ), ast::TypeData( decl ) );
	814	}
	815
[c8837e5]	816	void addToTypeVarMap( const ast::TypeInstType * type, TypeVarMap & typeVars ) {
[c97b448]	817	typeVars.insert( ast::TypeEnvKey( *type ), ast::TypeData( type->base ) );
[c8837e5]	818	}
[490fb92e]	819
[aadc9a4]	820	void makeTyVarMap( Type *type, TyVarMap &tyVarMap ) {
[8c49c0e]	821	for ( Type::ForallList::const_iterator tyVar = type->get_forall().begin(); tyVar != type->get_forall().end(); ++tyVar ) {
[aadc9a4]	822	assert( *tyVar );
[2c57025]	823	addToTyVarMap( *tyVar, tyVarMap );
[aadc9a4]	824	}
	825	if ( PointerType pointer = dynamic_cast< PointerType >( type ) ) {
	826	makeTyVarMap( pointer->get_base(), tyVarMap );
	827	}
	828	}
[540de412]	829
[c8837e5]	830	void makeTypeVarMap( const ast::Type * type, TypeVarMap & typeVars ) {
	831	if ( auto func = dynamic_cast<ast::FunctionType const *>( type ) ) {
	832	for ( auto & typeVar : func->forall ) {
	833	assert( typeVar );
	834	addToTypeVarMap( typeVar, typeVars );
[490fb92e]	835	}
	836	}
[c8837e5]	837	if ( auto pointer = dynamic_cast<ast::PointerType const *>( type ) ) {
	838	makeTypeVarMap( pointer->base, typeVars );
	839	}
	840	}
[490fb92e]	841
[c97b448]	842	void makeTypeVarMap( const ast::FunctionDecl * decl, TypeVarMap & typeVars ) {
	843	for ( auto & typeDecl : decl->type_params ) {
	844	addToTypeVarMap( typeDecl, typeVars );
	845	}
	846	}
	847
[01aeade]	848	void printTyVarMap( std::ostream &os, const TyVarMap &tyVarMap ) {
	849	for ( TyVarMap::const_iterator i = tyVarMap.begin(); i != tyVarMap.end(); ++i ) {
	850	os << i->first << " (" << i->second << ") ";
	851	} // for
	852	os << std::endl;
	853	}
[ffad73a]	854
[51b73452]	855	} // namespace GenPoly
[01aeade]	856
[51587aa]	857	// Local Variables: //
	858	// tab-width: 4 //
	859	// mode: c++ //
	860	// compile-command: "make install" //
	861	// End: //

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