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source: src/SynTree/Expression.h@ 70cd431

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Last change on this file since 70cd431 was 5408b59, checked in by JiadaL <j82liang@…>, 3 years ago
Remove var in QualifiedNameExpr
Property mode set to `100644`
File size: 39.7 KB

Rev	Line
[0dd3a2f]	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	//
[3be261a]	7	// Expression.h --
[0dd3a2f]	8	//
	9	// Author : Richard C. Bilson
	10	// Created On : Mon May 18 07:44:20 2015
[312029a]	11	// Last Modified By : Peter A. Buhr
	12	// Last Modified On : Wed Dec 11 16:50:19 2019
	13	// Update Count : 60
[0dd3a2f]	14	//
[e612146c]	15
[6b0b624]	16	#pragma once
[51b73452]	17
[ea6332d]	18	#include <iosfwd> // for ostream
	19	#include <list> // for list, list<>::iterator
	20	#include <map> // for map, map<>::value_compare
	21	#include <memory> // for allocator, unique_ptr
	22	#include <string> // for string
[0b00df0]	23	#include <vector> // for vector
[ea6332d]	24
	25	#include "BaseSyntaxNode.h" // for BaseSyntaxNode
	26	#include "Constant.h" // for Constant
	27	#include "Initializer.h" // for Designation (ptr only), Initializer
[5809461]	28	#include "Label.h" // for Label
[ea6332d]	29	#include "Mutator.h" // for Mutator
[312029a]	30	#include "Declaration.h" // for Aggregate
[ea6332d]	31	#include "SynTree.h" // for UniqueId
	32	#include "Visitor.h" // for Visitor
[294647b]	33
[51b73452]	34
[df626eb]	35	struct ParamEntry;
	36
	37	typedef std::map< UniqueId, ParamEntry > InferredParams;
	38
	39	/// ParamEntry contains the i.d. of a declaration and a type that is derived from that declaration,
	40	/// but subject to decay-to-pointer and type parameter renaming
	41	struct ParamEntry {
[462a7c7]	42	ParamEntry(): decl( 0 ), declptr( nullptr ), actualType( nullptr ), formalType( nullptr ), expr( nullptr ) {}
	43	ParamEntry( UniqueId decl, Declaration * declptr, Type * actualType, Type * formalType, Expression* expr );
[df626eb]	44	ParamEntry( const ParamEntry & other );
[4d6d62e]	45	ParamEntry( ParamEntry && other );
[df626eb]	46	~ParamEntry();
[4d6d62e]	47	ParamEntry & operator=( ParamEntry && other );
[df626eb]	48
[aaeacf4]	49	UniqueId const decl;
	50	Declaration * const declptr;
	51	Type * const actualType;
	52	Type * const formalType;
[df626eb]	53	Expression * expr;
	54	};
	55
[47534159]	56	/// Expression is the root type for all expressions
[df626eb]	57	class Expression : public BaseSyntaxNode {
[0dd3a2f]	58	public:
[65cdc1e]	59	Type * result;
	60	TypeSubstitution * env;
	61	bool extension = false;
[0b00df0]	62	InferredParams inferParams; ///< Post-resolution inferred parameter slots
	63	std::vector<UniqueId> resnSlots; ///< Pre-resolution inferred parameter slots
[0e315a5]	64
[0b00df0]	65	// xxx - should turn inferParams+resnSlots into a union to save some memory
[65cdc1e]	66
[bf4b4cf]	67	Expression();
[5ded739]	68	Expression( const Expression & other );
[0dd3a2f]	69	virtual ~Expression();
	70
[906e24d]	71	Type *& get_result() { return result; }
[fbcde64]	72	const Type * get_result() const { return result; }
[5ded739]	73	void set_result( Type * newValue ) { result = newValue; }
[14388c1]	74	virtual bool get_lvalue() const;
[0dd3a2f]	75
[5ded739]	76	TypeSubstitution * get_env() const { return env; }
	77	void set_env( TypeSubstitution * newValue ) { env = newValue; }
[e04ef3a]	78	bool get_extension() const { return extension; }
[8e9cbb2]	79	Expression * set_extension( bool exten ) { extension = exten; return this; }
[0dd3a2f]	80
[cdb990a]	81	// move other's inferParams to this
	82	void spliceInferParams( Expression * other );
	83
[fa16264]	84	virtual Expression * clone() const override = 0;
	85	virtual void accept( Visitor & v ) override = 0;
[7870799]	86	virtual void accept( Visitor & v ) const override = 0;
[fa16264]	87	virtual Expression * acceptMutator( Mutator & m ) override = 0;
[50377a4]	88	virtual void print( std::ostream & os, Indenter indent = {} ) const override;
[51b73452]	89	};
	90
[9706554]	91	/// ApplicationExpr represents the application of a function to a set of parameters. This is the result of running an
	92	/// UntypedExpr through the expression analyzer.
[0dd3a2f]	93	class ApplicationExpr : public Expression {
	94	public:
[65cdc1e]	95	Expression * function;
[871cdb4]	96	std::list<Expression *> args;
[65cdc1e]	97
[a5f0529]	98	ApplicationExpr( Expression * function, const std::list<Expression > & args = std::list< Expression >() );
[5ded739]	99	ApplicationExpr( const ApplicationExpr & other );
[0dd3a2f]	100	virtual ~ApplicationExpr();
	101
[14388c1]	102	bool get_lvalue() const final;
	103
[5ded739]	104	Expression * get_function() const { return function; }
	105	void set_function( Expression * newValue ) { function = newValue; }
[0dd3a2f]	106	std::list<Expression *>& get_args() { return args; }
	107
[7870799]	108	virtual ApplicationExpr * clone() const override { return new ApplicationExpr( * this ); }
	109	virtual void accept( Visitor & v ) override { v.visit( this ); }
	110	virtual void accept( Visitor & v ) const override { v.visit( this ); }
	111	virtual Expression * acceptMutator( Mutator & m ) override { return m.mutate( this ); }
	112	virtual void print( std::ostream & os, Indenter indent = {} ) const override;
[51b73452]	113	};
	114
[9706554]	115	/// UntypedExpr represents the application of a function to a set of parameters, but where the particular overload for
	116	/// the function name has not yet been determined. Most operators are converted into functional form automatically, to
	117	/// permit operator overloading.
[0dd3a2f]	118	class UntypedExpr : public Expression {
	119	public:
[65cdc1e]	120	Expression * function;
	121	std::list<Expression*> args;
	122
[bf4b4cf]	123	UntypedExpr( Expression * function, const std::list<Expression > & args = std::list< Expression >() );
[5ded739]	124	UntypedExpr( const UntypedExpr & other );
[0dd3a2f]	125	virtual ~UntypedExpr();
	126
[14388c1]	127	bool get_lvalue() const final;
	128
[5ded739]	129	Expression * get_function() const { return function; }
	130	void set_function( Expression * newValue ) { function = newValue; }
[0dd3a2f]	131
	132	std::list<Expression*>::iterator begin_args() { return args.begin(); }
	133	std::list<Expression*>::iterator end_args() { return args.end(); }
	134	std::list<Expression*>& get_args() { return args; }
	135
[b3b2077]	136	static UntypedExpr * createDeref( Expression * arg );
	137	static UntypedExpr * createAssign( Expression * arg1, Expression * arg2 );
	138
[7870799]	139	virtual UntypedExpr * clone() const override { return new UntypedExpr( * this ); }
	140	virtual void accept( Visitor & v ) override { v.visit( this ); }
	141	virtual void accept( Visitor & v ) const override { v.visit( this ); }
	142	virtual Expression * acceptMutator( Mutator & m ) override { return m.mutate( this ); }
	143	virtual void print( std::ostream & os, Indenter indent = {} ) const override;
[51b73452]	144	};
	145
[47534159]	146	/// NameExpr contains a name whose meaning is still not determined
[0dd3a2f]	147	class NameExpr : public Expression {
	148	public:
[65cdc1e]	149	std::string name;
	150
[bf4b4cf]	151	NameExpr( std::string name );
[5ded739]	152	NameExpr( const NameExpr & other );
[0dd3a2f]	153	virtual ~NameExpr();
	154
[5ded739]	155	const std::string & get_name() const { return name; }
[0dd3a2f]	156	void set_name( std::string newValue ) { name = newValue; }
	157
[7870799]	158	virtual NameExpr * clone() const override { return new NameExpr( * this ); }
	159	virtual void accept( Visitor & v ) override { v.visit( this ); }
	160	virtual void accept( Visitor & v ) const override { v.visit( this ); }
	161	virtual Expression * acceptMutator( Mutator & m ) override { return m.mutate( this ); }
	162	virtual void print( std::ostream & os, Indenter indent = {} ) const override;
[51b73452]	163	};
	164
[bbf17d5]	165	// [Qualifier].name; Qualifier is the type_name from the parser
	166	class QualifiedNameExpr : public Expression {
	167	public:
[b0d9ff7]	168	Declaration * type_decl;
	169	std::string name;
[bbf17d5]	170
[b0d9ff7]	171	QualifiedNameExpr( Declaration * decl, std::string name): Expression(), type_decl(decl), name(name) {}
[5408b59]	172	QualifiedNameExpr( const QualifiedNameExpr & other): Expression(other), type_decl(other.type_decl), name(other.name) {}
[bbf17d5]	173
	174	virtual ~QualifiedNameExpr() {
[b0d9ff7]	175	delete type_decl;
[bbf17d5]	176	}
	177
	178	virtual QualifiedNameExpr * clone() const override {
	179	return new QualifiedNameExpr( * this );
	180	}
[b0d9ff7]	181	virtual void accept( Visitor & v ) override { v.visit(this); }
	182	virtual void accept( Visitor & v ) const override { v.visit(this); }
	183	virtual Expression * acceptMutator( Mutator & m ) override {
	184	return m.mutate( this );
	185	}
	186
[bbf17d5]	187	virtual void print( std::ostream & os, Indenter indent = {} ) const override {
[b0d9ff7]	188	type_decl->print( os, indent );
	189	os << name << std::endl;
[bbf17d5]	190	}
	191	};
	192
[d5631b3]	193	/// VariableExpr represents an expression that simply refers to the value of a named variable.
	194	/// Does not take ownership of var.
	195	class VariableExpr : public Expression {
	196	public:
	197	DeclarationWithType * var;
	198
	199	VariableExpr();
	200	VariableExpr( DeclarationWithType * var );
	201	VariableExpr( const VariableExpr & other );
	202	virtual ~VariableExpr();
	203
	204	bool get_lvalue() const final;
	205
	206	DeclarationWithType * get_var() const { return var; }
	207	void set_var( DeclarationWithType * newValue ) { var = newValue; }
	208
	209	static VariableExpr * functionPointer( FunctionDecl * decl );
	210
	211	virtual VariableExpr * clone() const override { return new VariableExpr( * this ); }
	212	virtual void accept( Visitor & v ) override { v.visit( this ); }
	213	virtual void accept( Visitor & v ) const override { v.visit( this ); }
	214	virtual Expression * acceptMutator( Mutator & m ) override { return m.mutate( this ); }
	215	virtual void print( std::ostream & os, Indenter indent = {} ) const override;
	216	};
	217
[51b73452]	218	// The following classes are used to represent expression types that cannot be converted into
	219	// function-call format.
	220
[5ded739]	221	/// AddressExpr represents a address-of expression, e.g. & e
[0dd3a2f]	222	class AddressExpr : public Expression {
	223	public:
[65cdc1e]	224	Expression * arg;
	225
[bf4b4cf]	226	AddressExpr( Expression * arg );
[5ded739]	227	AddressExpr( const AddressExpr & other );
[0dd3a2f]	228	virtual ~AddressExpr();
	229
[5ded739]	230	Expression * get_arg() const { return arg; }
	231	void set_arg(Expression * newValue ) { arg = newValue; }
[0dd3a2f]	232
[7870799]	233	virtual AddressExpr * clone() const override { return new AddressExpr( * this ); }
	234	virtual void accept( Visitor & v ) override { v.visit( this ); }
	235	virtual void accept( Visitor & v ) const override { v.visit( this ); }
	236	virtual Expression * acceptMutator( Mutator & m ) override { return m.mutate( this ); }
	237	virtual void print( std::ostream & os, Indenter indent = {} ) const override;
[51b73452]	238	};
	239
[5809461]	240	// GCC &&label
	241	// https://gcc.gnu.org/onlinedocs/gcc-3.4.2/gcc/Labels-as-Values.html
[0dd3a2f]	242	class LabelAddressExpr : public Expression {
	243	public:
[5809461]	244	Label arg;
[65cdc1e]	245
[5809461]	246	LabelAddressExpr( const Label &arg );
[5ded739]	247	LabelAddressExpr( const LabelAddressExpr & other );
[0dd3a2f]	248	virtual ~LabelAddressExpr();
	249
[7870799]	250	virtual LabelAddressExpr * clone() const override { return new LabelAddressExpr( * this ); }
	251	virtual void accept( Visitor & v ) override { v.visit( this ); }
	252	virtual void accept( Visitor & v ) const override { v.visit( this ); }
	253	virtual Expression * acceptMutator( Mutator & m ) override { return m.mutate( this ); }
	254	virtual void print( std::ostream & os, Indenter indent = {} ) const override;
[51b73452]	255	};
	256
[47534159]	257	/// CastExpr represents a type cast expression, e.g. (int)e
[0dd3a2f]	258	class CastExpr : public Expression {
	259	public:
[65cdc1e]	260	Expression * arg;
[b81fd95]	261
	262	// Inidicates cast is introduced by the CFA type system.
	263	// true for casts that the resolver introduces to force a return type
	264	// false for casts from user code
	265	// false for casts from desugaring advanced CFA features into simpler CFA
	266	// example
	267	// int * p; // declaration
	268	// (float *) p; // use, with subject cast
	269	// subject cast isGenerated means we are considering an interpretation with a type mismatch
	270	// subject cast not isGenerated means someone in charge wants it that way
	271	bool isGenerated = true;
[65cdc1e]	272
[c0bf94e]	273	CastExpr( Expression * arg, bool isGenerated = true );
	274	CastExpr( Expression * arg, Type * toType, bool isGenerated = true );
[9a705dc8]	275	CastExpr( Expression * arg, void * ) = delete; // prevent accidentally passing pointers for isGenerated in the first constructor
[5ded739]	276	CastExpr( const CastExpr & other );
[0dd3a2f]	277	virtual ~CastExpr();
	278
[14388c1]	279	bool get_lvalue() const final;
	280
[5ded739]	281	Expression * get_arg() const { return arg; }
[a5f0529]	282	void set_arg( Expression * newValue ) { arg = newValue; }
[0dd3a2f]	283
[7870799]	284	virtual CastExpr * clone() const override { return new CastExpr( * this ); }
	285	virtual void accept( Visitor & v ) override { v.visit( this ); }
	286	virtual void accept( Visitor & v ) const override { v.visit( this ); }
	287	virtual Expression * acceptMutator( Mutator & m ) override { return m.mutate( this ); }
	288	virtual void print( std::ostream & os, Indenter indent = {} ) const override;
[51b73452]	289	};
	290
[9a705dc8]	291	/// KeywordCastExpr represents a cast to 'keyword types', e.g. (thread &)t
	292	class KeywordCastExpr : public Expression {
	293	public:
	294	Expression * arg;
[3b0c8cb]	295	struct Concrete {
	296	std::string field;
	297	std::string getter;
	298	};
[312029a]	299	AggregateDecl::Aggregate target;
[3b0c8cb]	300	Concrete concrete_target;
[9a705dc8]	301
[312029a]	302	KeywordCastExpr( Expression * arg, AggregateDecl::Aggregate target );
[4ef08f7]	303	KeywordCastExpr( Expression * arg, AggregateDecl::Aggregate target, const Concrete & concrete_target );
[9a705dc8]	304	KeywordCastExpr( const KeywordCastExpr & other );
	305	virtual ~KeywordCastExpr();
	306
[312029a]	307	const char * targetString() const;
[9a705dc8]	308
[7870799]	309	virtual KeywordCastExpr * clone() const override { return new KeywordCastExpr( * this ); }
	310	virtual void accept( Visitor & v ) override { v.visit( this ); }
	311	virtual void accept( Visitor & v ) const override { v.visit( this ); }
	312	virtual Expression * acceptMutator( Mutator & m ) override { return m.mutate( this ); }
	313	virtual void print( std::ostream & os, Indenter indent = {} ) const override;
[9a705dc8]	314	};
	315
[a5f0529]	316	/// VirtualCastExpr repersents a virtual dynamic cast, e.g. (virtual exception)e
	317	class VirtualCastExpr : public Expression {
	318	public:
[5ded739]	319	Expression * arg;
[65cdc1e]	320
[a5f0529]	321	VirtualCastExpr( Expression * arg, Type * toType );
	322	VirtualCastExpr( const VirtualCastExpr & other );
	323	virtual ~VirtualCastExpr();
	324
	325	Expression * get_arg() const { return arg; }
	326	void set_arg( Expression * newValue ) { arg = newValue; }
	327
[7870799]	328	virtual VirtualCastExpr * clone() const override { return new VirtualCastExpr( * this ); }
	329	virtual void accept( Visitor & v ) override { v.visit( this ); }
	330	virtual void accept( Visitor & v ) const override { v.visit( this ); }
	331	virtual Expression * acceptMutator( Mutator & m ) override { return m.mutate( this ); }
	332	virtual void print( std::ostream & os, Indenter indent = {} ) const override;
[51b73452]	333	};
	334
[47534159]	335	/// UntypedMemberExpr represents a member selection operation, e.g. q.p before processing by the expression analyzer
[0dd3a2f]	336	class UntypedMemberExpr : public Expression {
	337	public:
[65cdc1e]	338	Expression * member;
	339	Expression * aggregate;
	340
[bf4b4cf]	341	UntypedMemberExpr( Expression * member, Expression * aggregate );
[5ded739]	342	UntypedMemberExpr( const UntypedMemberExpr & other );
[0dd3a2f]	343	virtual ~UntypedMemberExpr();
	344
[849720f]	345	bool get_lvalue() const final;
	346
[3b58d91]	347	Expression * get_member() const { return member; }
	348	void set_member( Expression * newValue ) { member = newValue; }
[5ded739]	349	Expression * get_aggregate() const { return aggregate; }
	350	void set_aggregate( Expression * newValue ) { aggregate = newValue; }
[0dd3a2f]	351
[7870799]	352	virtual UntypedMemberExpr * clone() const override { return new UntypedMemberExpr( * this ); }
	353	virtual void accept( Visitor & v ) override { v.visit( this ); }
	354	virtual void accept( Visitor & v ) const override { v.visit( this ); }
	355	virtual Expression * acceptMutator( Mutator & m ) override { return m.mutate( this ); }
	356	virtual void print( std::ostream & os, Indenter indent = {} ) const override;
[51b73452]	357	};
	358
[4551a6e]	359	/// MemberExpr represents a member selection operation, e.g. q.p after processing by the expression analyzer.
	360	/// Does not take ownership of member.
[0dd3a2f]	361	class MemberExpr : public Expression {
	362	public:
[65cdc1e]	363	DeclarationWithType * member;
	364	Expression * aggregate;
	365
[bf4b4cf]	366	MemberExpr( DeclarationWithType * member, Expression * aggregate );
[5ded739]	367	MemberExpr( const MemberExpr & other );
[0dd3a2f]	368	virtual ~MemberExpr();
	369
[14388c1]	370	bool get_lvalue() const final;
	371
[5ded739]	372	DeclarationWithType * get_member() const { return member; }
	373	void set_member( DeclarationWithType * newValue ) { member = newValue; }
	374	Expression * get_aggregate() const { return aggregate; }
	375	void set_aggregate( Expression * newValue ) { aggregate = newValue; }
[0dd3a2f]	376
[7870799]	377	virtual MemberExpr * clone() const override { return new MemberExpr( * this ); }
	378	virtual void accept( Visitor & v ) override { v.visit( this ); }
	379	virtual void accept( Visitor & v ) const override { v.visit( this ); }
	380	virtual Expression * acceptMutator( Mutator & m ) override { return m.mutate( this ); }
	381	virtual void print( std::ostream & os, Indenter indent = {} ) const override;
[51b73452]	382	};
	383
[3be261a]	384	/// ConstantExpr represents an expression that simply refers to the value of a constant
[0dd3a2f]	385	class ConstantExpr : public Expression {
	386	public:
[65cdc1e]	387	Constant constant;
	388
[bf4b4cf]	389	ConstantExpr( Constant constant );
[5ded739]	390	ConstantExpr( const ConstantExpr & other );
[0dd3a2f]	391	virtual ~ConstantExpr();
	392
[5ded739]	393	Constant * get_constant() { return & constant; }
[ddb80bd]	394	const Constant * get_constant() const { return & constant; }
[5ded739]	395	void set_constant( const Constant & newValue ) { constant = newValue; }
[0dd3a2f]	396
[ddb80bd]	397	long long int intValue() const;
	398
[7870799]	399	virtual ConstantExpr * clone() const override { return new ConstantExpr( * this ); }
	400	virtual void accept( Visitor & v ) override { v.visit( this ); }
	401	virtual void accept( Visitor & v ) const override { v.visit( this ); }
	402	virtual Expression * acceptMutator( Mutator & m ) override { return m.mutate( this ); }
	403	virtual void print( std::ostream & os, Indenter indent = {} ) const override;
[51b73452]	404	};
	405
[47534159]	406	/// SizeofExpr represents a sizeof expression (could be sizeof(int) or sizeof 3+4)
[0dd3a2f]	407	class SizeofExpr : public Expression {
	408	public:
[65cdc1e]	409	Expression * expr;
	410	Type * type;
	411	bool isType;
	412
[bf4b4cf]	413	SizeofExpr( Expression * expr );
[5ded739]	414	SizeofExpr( const SizeofExpr & other );
[bf4b4cf]	415	SizeofExpr( Type * type );
[0dd3a2f]	416	virtual ~SizeofExpr();
	417
[5ded739]	418	Expression * get_expr() const { return expr; }
	419	void set_expr( Expression * newValue ) { expr = newValue; }
	420	Type * get_type() const { return type; }
	421	void set_type( Type * newValue ) { type = newValue; }
[0dd3a2f]	422	bool get_isType() const { return isType; }
	423	void set_isType( bool newValue ) { isType = newValue; }
	424
[7870799]	425	virtual SizeofExpr * clone() const override { return new SizeofExpr( * this ); }
	426	virtual void accept( Visitor & v ) override { v.visit( this ); }
	427	virtual void accept( Visitor & v ) const override { v.visit( this ); }
	428	virtual Expression * acceptMutator( Mutator & m ) override { return m.mutate( this ); }
	429	virtual void print( std::ostream & os, Indenter indent = {} ) const override;
[51b73452]	430	};
	431
[47534159]	432	/// AlignofExpr represents an alignof expression
	433	class AlignofExpr : public Expression {
	434	public:
[65cdc1e]	435	Expression * expr;
	436	Type * type;
	437	bool isType;
	438
[bf4b4cf]	439	AlignofExpr( Expression * expr );
[5ded739]	440	AlignofExpr( const AlignofExpr & other );
[bf4b4cf]	441	AlignofExpr( Type * type );
[47534159]	442	virtual ~AlignofExpr();
	443
[5ded739]	444	Expression * get_expr() const { return expr; }
	445	void set_expr( Expression * newValue ) { expr = newValue; }
	446	Type * get_type() const { return type; }
	447	void set_type( Type * newValue ) { type = newValue; }
[47534159]	448	bool get_isType() const { return isType; }
	449	void set_isType( bool newValue ) { isType = newValue; }
	450
[7870799]	451	virtual AlignofExpr * clone() const override { return new AlignofExpr( * this ); }
	452	virtual void accept( Visitor & v ) override { v.visit( this ); }
	453	virtual void accept( Visitor & v ) const override { v.visit( this ); }
	454	virtual Expression * acceptMutator( Mutator & m ) override { return m.mutate( this ); }
	455	virtual void print( std::ostream & os, Indenter indent = {} ) const override;
[47534159]	456	};
	457
[2a4b088]	458	/// UntypedOffsetofExpr represents an offsetof expression before resolution
	459	class UntypedOffsetofExpr : public Expression {
	460	public:
[65cdc1e]	461	Type * type;
	462	std::string member;
	463
[bf4b4cf]	464	UntypedOffsetofExpr( Type * type, const std::string & member );
[5ded739]	465	UntypedOffsetofExpr( const UntypedOffsetofExpr & other );
[2a4b088]	466	virtual ~UntypedOffsetofExpr();
	467
	468	std::string get_member() const { return member; }
[5ded739]	469	void set_member( const std::string & newValue ) { member = newValue; }
	470	Type * get_type() const { return type; }
	471	void set_type( Type * newValue ) { type = newValue; }
	472
[7870799]	473	virtual UntypedOffsetofExpr * clone() const override { return new UntypedOffsetofExpr( * this ); }
	474	virtual void accept( Visitor & v ) override { v.visit( this ); }
	475	virtual void accept( Visitor & v ) const override { v.visit( this ); }
	476	virtual Expression * acceptMutator( Mutator & m ) override { return m.mutate( this ); }
	477	virtual void print( std::ostream & os, Indenter indent = {} ) const override;
[2a4b088]	478	};
	479
[25a054f]	480	/// OffsetofExpr represents an offsetof expression
	481	class OffsetofExpr : public Expression {
	482	public:
[65cdc1e]	483	Type * type;
	484	DeclarationWithType * member;
	485
[bf4b4cf]	486	OffsetofExpr( Type * type, DeclarationWithType * member );
[5ded739]	487	OffsetofExpr( const OffsetofExpr & other );
[25a054f]	488	virtual ~OffsetofExpr();
	489
[5ded739]	490	Type * get_type() const { return type; }
	491	void set_type( Type * newValue ) { type = newValue; }
	492	DeclarationWithType * get_member() const { return member; }
	493	void set_member( DeclarationWithType * newValue ) { member = newValue; }
	494
[7870799]	495	virtual OffsetofExpr * clone() const override { return new OffsetofExpr( * this ); }
	496	virtual void accept( Visitor & v ) override { v.visit( this ); }
	497	virtual void accept( Visitor & v ) const override { v.visit( this ); }
	498	virtual Expression * acceptMutator( Mutator & m ) override { return m.mutate( this ); }
	499	virtual void print( std::ostream & os, Indenter indent = {} ) const override;
[25a054f]	500	};
	501
[afc1045]	502	/// Expression representing a pack of field-offsets for a generic type
	503	class OffsetPackExpr : public Expression {
	504	public:
[65cdc1e]	505	StructInstType * type;
	506
[bf4b4cf]	507	OffsetPackExpr( StructInstType * type );
[5ded739]	508	OffsetPackExpr( const OffsetPackExpr & other );
[afc1045]	509	virtual ~OffsetPackExpr();
	510
[5ded739]	511	StructInstType * get_type() const { return type; }
	512	void set_type( StructInstType * newValue ) { type = newValue; }
[afc1045]	513
[7870799]	514	virtual OffsetPackExpr * clone() const override { return new OffsetPackExpr( * this ); }
	515	virtual void accept( Visitor & v ) override { v.visit( this ); }
	516	virtual void accept( Visitor & v ) const override { v.visit( this ); }
	517	virtual Expression * acceptMutator( Mutator & m ) override { return m.mutate( this ); }
	518	virtual void print( std::ostream & os, Indenter indent = {} ) const override;
[afc1045]	519	};
	520
[47534159]	521	/// LogicalExpr represents a short-circuit boolean expression (&& or \|\|)
[0dd3a2f]	522	class LogicalExpr : public Expression {
	523	public:
[65cdc1e]	524	Expression * arg1;
	525	Expression * arg2;
	526
[bf4b4cf]	527	LogicalExpr( Expression * arg1, Expression * arg2, bool andp = true );
[5ded739]	528	LogicalExpr( const LogicalExpr & other );
[0dd3a2f]	529	virtual ~LogicalExpr();
	530
	531	bool get_isAnd() const { return isAnd; }
[5ded739]	532	Expression * get_arg1() { return arg1; }
	533	void set_arg1( Expression * newValue ) { arg1 = newValue; }
	534	Expression * get_arg2() const { return arg2; }
	535	void set_arg2( Expression * newValue ) { arg2 = newValue; }
	536
[7870799]	537	virtual LogicalExpr * clone() const override { return new LogicalExpr( * this ); }
	538	virtual void accept( Visitor & v ) override { v.visit( this ); }
	539	virtual void accept( Visitor & v ) const override { v.visit( this ); }
	540	virtual Expression * acceptMutator( Mutator & m ) override { return m.mutate( this ); }
	541	virtual void print( std::ostream & os, Indenter indent = {} ) const override;
[65cdc1e]	542
[0dd3a2f]	543	private:
	544	bool isAnd;
[51b73452]	545	};
	546
[47534159]	547	/// ConditionalExpr represents the three-argument conditional ( p ? a : b )
[0dd3a2f]	548	class ConditionalExpr : public Expression {
	549	public:
[65cdc1e]	550	Expression * arg1;
	551	Expression * arg2;
	552	Expression * arg3;
	553
[bf4b4cf]	554	ConditionalExpr( Expression * arg1, Expression * arg2, Expression * arg3 );
[5ded739]	555	ConditionalExpr( const ConditionalExpr & other );
[0dd3a2f]	556	virtual ~ConditionalExpr();
	557
[14388c1]	558	bool get_lvalue() const final;
	559
[5ded739]	560	Expression * get_arg1() const { return arg1; }
	561	void set_arg1( Expression * newValue ) { arg1 = newValue; }
	562	Expression * get_arg2() const { return arg2; }
	563	void set_arg2( Expression * newValue ) { arg2 = newValue; }
	564	Expression * get_arg3() const { return arg3; }
	565	void set_arg3( Expression * newValue ) { arg3 = newValue; }
	566
[7870799]	567	virtual ConditionalExpr * clone() const override { return new ConditionalExpr( * this ); }
	568	virtual void accept( Visitor & v ) override { v.visit( this ); }
	569	virtual void accept( Visitor & v ) const override { v.visit( this ); }
	570	virtual Expression * acceptMutator( Mutator & m ) override { return m.mutate( this ); }
	571	virtual void print( std::ostream & os, Indenter indent = {} ) const override;
[51b73452]	572	};
	573
[47534159]	574	/// CommaExpr represents the sequence operator ( a, b )
[0dd3a2f]	575	class CommaExpr : public Expression {
	576	public:
[65cdc1e]	577	Expression * arg1;
	578	Expression * arg2;
	579
[bf4b4cf]	580	CommaExpr( Expression * arg1, Expression * arg2 );
[5ded739]	581	CommaExpr( const CommaExpr & other );
[0dd3a2f]	582	virtual ~CommaExpr();
	583
[14388c1]	584	bool get_lvalue() const final;
	585
[5ded739]	586	Expression * get_arg1() const { return arg1; }
	587	void set_arg1( Expression * newValue ) { arg1 = newValue; }
	588	Expression * get_arg2() const { return arg2; }
	589	void set_arg2( Expression * newValue ) { arg2 = newValue; }
[0dd3a2f]	590
[7870799]	591	virtual CommaExpr * clone() const override { return new CommaExpr( * this ); }
	592	virtual void accept( Visitor & v ) override { v.visit( this ); }
	593	virtual void accept( Visitor & v ) const override { v.visit( this ); }
	594	virtual Expression * acceptMutator( Mutator & m ) override { return m.mutate( this ); }
	595	virtual void print( std::ostream & os, Indenter indent = {} ) const override;
[51b73452]	596	};
	597
[47534159]	598	/// TypeExpr represents a type used in an expression (e.g. as a type generator parameter)
[0dd3a2f]	599	class TypeExpr : public Expression {
	600	public:
[65cdc1e]	601	Type * type;
	602
[5ded739]	603	TypeExpr( Type * type );
	604	TypeExpr( const TypeExpr & other );
[0dd3a2f]	605	virtual ~TypeExpr();
	606
[5ded739]	607	Type * get_type() const { return type; }
	608	void set_type( Type * newValue ) { type = newValue; }
[0dd3a2f]	609
[7870799]	610	virtual TypeExpr * clone() const override { return new TypeExpr( * this ); }
	611	virtual void accept( Visitor & v ) override { v.visit( this ); }
	612	virtual void accept( Visitor & v ) const override { v.visit( this ); }
	613	virtual Expression * acceptMutator( Mutator & m ) override { return m.mutate( this ); }
[6e50a6b]	614	virtual void print( std::ostream & os, Indenter indent = {} ) const override;
	615	};
	616
	617	/// DimensionExpr represents a type-system provided value used in an expression ( forrall([N]) ... N + 1 )
	618	class DimensionExpr : public Expression {
	619	public:
	620	std::string name;
	621
	622	DimensionExpr( std::string name );
	623	DimensionExpr( const DimensionExpr & other );
	624	virtual ~DimensionExpr();
	625
	626	const std::string & get_name() const { return name; }
	627	void set_name( std::string newValue ) { name = newValue; }
	628
	629	virtual DimensionExpr * clone() const override { return new DimensionExpr( * this ); }
	630	virtual void accept( Visitor & v ) override { v.visit( this ); }
	631	virtual void accept( Visitor & v ) const override { v.visit( this ); }
	632	virtual Expression * acceptMutator( Mutator & m ) override { return m.mutate( this ); }
[7870799]	633	virtual void print( std::ostream & os, Indenter indent = {} ) const override;
[51b73452]	634	};
	635
[47534159]	636	/// AsmExpr represents a GCC 'asm constraint operand' used in an asm statement: [output] "=f" (result)
[7f5566b]	637	class AsmExpr : public Expression {
	638	public:
[665f432]	639	std::string inout;
[e612146c]	640	Expression * constraint;
[65cdc1e]	641	Expression * operand;
	642
[665f432]	643	AsmExpr( const std::string * _inout, Expression * constraint, Expression * operand ) : inout( _inout ? *_inout : "" ), constraint( constraint ), operand( operand ) { delete _inout; }
[3be261a]	644	AsmExpr( const AsmExpr & other );
[665f432]	645	virtual ~AsmExpr() { delete constraint; delete operand; };
[7f5566b]	646
[7870799]	647	virtual AsmExpr * clone() const override { return new AsmExpr( * this ); }
	648	virtual void accept( Visitor & v ) override { v.visit( this ); }
	649	virtual void accept( Visitor & v ) const override { v.visit( this ); }
	650	virtual Expression * acceptMutator( Mutator & m ) override { return m.mutate( this ); }
	651	virtual void print( std::ostream & os, Indenter indent = {} ) const override;
[65cdc1e]	652
[7f5566b]	653	// https://gcc.gnu.org/onlinedocs/gcc-4.7.1/gcc/Machine-Constraints.html#Machine-Constraints
	654	};
	655
[db4ecc5]	656	/// ImplicitCopyCtorExpr represents the application of a function to a set of parameters,
	657	/// along with a set of copy constructor calls, one for each argument.
	658	class ImplicitCopyCtorExpr : public Expression {
	659	public:
[2f86ddf]	660	ApplicationExpr * callExpr = nullptr;
[65cdc1e]	661
[db4ecc5]	662	ImplicitCopyCtorExpr( ApplicationExpr * callExpr );
	663	ImplicitCopyCtorExpr( const ImplicitCopyCtorExpr & other );
	664	virtual ~ImplicitCopyCtorExpr();
	665
[7870799]	666	virtual ImplicitCopyCtorExpr * clone() const override { return new ImplicitCopyCtorExpr( * this ); }
	667	virtual void accept( Visitor & v ) override { v.visit( this ); }
	668	virtual void accept( Visitor & v ) const override { v.visit( this ); }
	669	virtual Expression * acceptMutator( Mutator & m ) override { return m.mutate( this ); }
	670	virtual void print( std::ostream & os, Indenter indent = {} ) const override;
[db4ecc5]	671	};
	672
[b6fe7e6]	673	/// ConstructorExpr represents the use of a constructor in an expression context, e.g. int * x = malloc() { 5 };
	674	class ConstructorExpr : public Expression {
	675	public:
[65cdc1e]	676	Expression * callExpr;
	677
[b6fe7e6]	678	ConstructorExpr( Expression * callExpr );
	679	ConstructorExpr( const ConstructorExpr & other );
	680	~ConstructorExpr();
[0dd3a2f]	681
[14388c1]	682	bool get_lvalue() const final;
	683
[5ded739]	684	Expression * get_callExpr() const { return callExpr; }
	685	void set_callExpr( Expression * newValue ) { callExpr = newValue; }
[0dd3a2f]	686
[7870799]	687	virtual ConstructorExpr * clone() const override { return new ConstructorExpr( * this ); }
	688	virtual void accept( Visitor & v ) override { v.visit( this ); }
	689	virtual void accept( Visitor & v ) const override { v.visit( this ); }
	690	virtual Expression * acceptMutator( Mutator & m ) override { return m.mutate( this ); }
	691	virtual void print( std::ostream & os, Indenter indent = {} ) const override;
[51b73452]	692	};
	693
[630a82a]	694	/// CompoundLiteralExpr represents a C99 'compound literal'
	695	class CompoundLiteralExpr : public Expression {
	696	public:
[65cdc1e]	697	Initializer * initializer;
	698
[630a82a]	699	CompoundLiteralExpr( Type * type, Initializer * initializer );
[5ded739]	700	CompoundLiteralExpr( const CompoundLiteralExpr & other );
[3b58d91]	701	virtual ~CompoundLiteralExpr();
[630a82a]	702
[14388c1]	703	bool get_lvalue() const final;
	704
[630a82a]	705	Initializer * get_initializer() const { return initializer; }
	706	void set_initializer( Initializer * i ) { initializer = i; }
	707
[7870799]	708	virtual CompoundLiteralExpr * clone() const override { return new CompoundLiteralExpr( * this ); }
	709	virtual void accept( Visitor & v ) override { v.visit( this ); }
	710	virtual void accept( Visitor & v ) const override { v.visit( this ); }
	711	virtual Expression * acceptMutator( Mutator & m ) override { return m.mutate( this ); }
	712	virtual void print( std::ostream & os, Indenter indent = {} ) const override;
[630a82a]	713	};
	714
[b6fe7e6]	715	/// RangeExpr represents a range e.g. '3 ... 5' or '1~10'
[8688ce1]	716	class RangeExpr : public Expression {
	717	public:
[65cdc1e]	718	Expression * low, * high;
	719
[5ded739]	720	RangeExpr( Expression * low, Expression * high );
	721	RangeExpr( const RangeExpr & other );
[8688ce1]	722
[d9e2280]	723	Expression * get_low() const { return low; }
	724	Expression * get_high() const { return high; }
[5ded739]	725	RangeExpr * set_low( Expression * low ) { RangeExpr::low = low; return this; }
	726	RangeExpr * set_high( Expression * high ) { RangeExpr::high = high; return this; }
[8688ce1]	727
[7870799]	728	virtual RangeExpr * clone() const override { return new RangeExpr( * this ); }
	729	virtual void accept( Visitor & v ) override { v.visit( this ); }
	730	virtual void accept( Visitor & v ) const override { v.visit( this ); }
	731	virtual Expression * acceptMutator( Mutator & m ) override { return m.mutate( this ); }
	732	virtual void print( std::ostream & os, Indenter indent = {} ) const override;
[8688ce1]	733	};
	734
[907eccb]	735	/// UntypedTupleExpr represents a tuple expression ( [a, b, c] ) before resolution
	736	class UntypedTupleExpr : public Expression {
	737	public:
[65cdc1e]	738	std::list<Expression*> exprs;
	739
[bf4b4cf]	740	UntypedTupleExpr( const std::list< Expression * > & exprs );
[5ded739]	741	UntypedTupleExpr( const UntypedTupleExpr & other );
[907eccb]	742	virtual ~UntypedTupleExpr();
	743
	744	std::list<Expression*>& get_exprs() { return exprs; }
	745
[7870799]	746	virtual UntypedTupleExpr * clone() const override { return new UntypedTupleExpr( * this ); }
	747	virtual void accept( Visitor & v ) override { v.visit( this ); }
	748	virtual void accept( Visitor & v ) const override { v.visit( this ); }
	749	virtual Expression * acceptMutator( Mutator & m ) override { return m.mutate( this ); }
	750	virtual void print( std::ostream & os, Indenter indent = {} ) const override;
[907eccb]	751	};
	752
[6eb8948]	753	/// TupleExpr represents a tuple expression ( [a, b, c] )
	754	class TupleExpr : public Expression {
	755	public:
[65cdc1e]	756	std::list<Expression*> exprs;
	757
[bf4b4cf]	758	TupleExpr( const std::list< Expression * > & exprs );
[5ded739]	759	TupleExpr( const TupleExpr & other );
[6eb8948]	760	virtual ~TupleExpr();
	761
[3c7f01b]	762	bool get_lvalue() const final;
	763
[6eb8948]	764	std::list<Expression*>& get_exprs() { return exprs; }
	765
[7870799]	766	virtual TupleExpr * clone() const override { return new TupleExpr( * this ); }
	767	virtual void accept( Visitor & v ) override { v.visit( this ); }
	768	virtual void accept( Visitor & v ) const override { v.visit( this ); }
	769	virtual Expression * acceptMutator( Mutator & m ) override { return m.mutate( this ); }
	770	virtual void print( std::ostream & os, Indenter indent = {} ) const override;
[6eb8948]	771	};
	772
[3b58d91]	773	/// TupleIndexExpr represents an element selection operation on a tuple value, e.g. t.3 after processing by the expression analyzer
	774	class TupleIndexExpr : public Expression {
	775	public:
[65cdc1e]	776	Expression * tuple;
	777	unsigned int index;
	778
[3b58d91]	779	TupleIndexExpr( Expression * tuple, unsigned int index );
[5ded739]	780	TupleIndexExpr( const TupleIndexExpr & other );
[3b58d91]	781	virtual ~TupleIndexExpr();
	782
[14388c1]	783	bool get_lvalue() const final;
	784
[3b58d91]	785	Expression * get_tuple() const { return tuple; }
	786	int get_index() const { return index; }
[5ded739]	787	TupleIndexExpr * set_tuple( Expression * newValue ) { tuple = newValue; return this; }
[3b58d91]	788	TupleIndexExpr * set_index( unsigned int newValue ) { index = newValue; return this; }
	789
[7870799]	790	virtual TupleIndexExpr * clone() const override { return new TupleIndexExpr( * this ); }
	791	virtual void accept( Visitor & v ) override { v.visit( this ); }
	792	virtual void accept( Visitor & v ) const override { v.visit( this ); }
	793	virtual Expression * acceptMutator( Mutator & m ) override { return m.mutate( this ); }
	794	virtual void print( std::ostream & os, Indenter indent = {} ) const override;
[3b58d91]	795	};
	796
[65660bd]	797	/// TupleAssignExpr represents a multiple assignment operation, where both sides of the assignment have tuple type, e.g. [a, b, c] = [d, e, f];, a mass assignment operation, where the left hand side has tuple type and the right hand side does not, e.g. [a, b, c] = 5.0;, or a tuple ctor/dtor expression
[6eb8948]	798	class TupleAssignExpr : public Expression {
[3b58d91]	799	public:
[65cdc1e]	800	StmtExpr * stmtExpr = nullptr;
	801
[bf4b4cf]	802	TupleAssignExpr( const std::list< Expression * > & assigns, const std::list< ObjectDecl * > & tempDecls );
[5ded739]	803	TupleAssignExpr( const TupleAssignExpr & other );
[6eb8948]	804	virtual ~TupleAssignExpr();
[3b58d91]	805
[d5556a3]	806	TupleAssignExpr * set_stmtExpr( StmtExpr * newValue ) { stmtExpr = newValue; return this; }
	807	StmtExpr * get_stmtExpr() const { return stmtExpr; }
[3b58d91]	808
[7870799]	809	virtual TupleAssignExpr * clone() const override { return new TupleAssignExpr( * this ); }
	810	virtual void accept( Visitor & v ) override { v.visit( this ); }
	811	virtual void accept( Visitor & v ) const override { v.visit( this ); }
	812	virtual Expression * acceptMutator( Mutator & m ) override { return m.mutate( this ); }
	813	virtual void print( std::ostream & os, Indenter indent = {} ) const override;
[20de6fb]	814
	815	friend class ConverterNewToOld;
	816	private:
	817	TupleAssignExpr( StmtExpr * stmts );
[3b58d91]	818	};
	819
[6eb8948]	820	/// StmtExpr represents a GCC 'statement expression', e.g. ({ int x = 5; x; })
	821	class StmtExpr : public Expression {
	822	public:
[65cdc1e]	823	CompoundStmt * statements;
	824	std::list< ObjectDecl * > returnDecls; // return variable(s) for stmt expression
	825	std::list< Expression * > dtors; // destructor(s) for return variable(s)
	826
[0e315a5]	827	// readonly
	828	ExprStmt * resultExpr = nullptr;
	829
[5ded739]	830	StmtExpr( CompoundStmt * statements );
[6eb8948]	831	StmtExpr( const StmtExpr & other );
	832	virtual ~StmtExpr();
[3b58d91]	833
[5d00425]	834	bool get_lvalue() const final;
	835
[6eb8948]	836	CompoundStmt * get_statements() const { return statements; }
	837	StmtExpr * set_statements( CompoundStmt * newValue ) { statements = newValue; return this; }
[3b58d91]	838
[5e2c348]	839	// call to set the result type of this StmtExpr based on its body
	840	void computeResult();
	841
[d5556a3]	842	std::list< ObjectDecl * > & get_returnDecls() { return returnDecls; }
	843	std::list< Expression * > & get_dtors() { return dtors; }
	844
[7870799]	845	virtual StmtExpr * clone() const override { return new StmtExpr( * this ); }
	846	virtual void accept( Visitor & v ) override { v.visit( this ); }
	847	virtual void accept( Visitor & v ) const override { v.visit( this ); }
	848	virtual Expression * acceptMutator( Mutator & m ) override { return m.mutate( this ); }
	849	virtual void print( std::ostream & os, Indenter indent = {} ) const override;
[3b58d91]	850	};
	851
[3c13c03]	852	class UniqueExpr : public Expression {
	853	public:
[65cdc1e]	854	Expression * expr;
	855	ObjectDecl * object;
	856	VariableExpr * var;
	857
[bf32bb8]	858	UniqueExpr( Expression * expr, long long idVal = -1 );
[3c13c03]	859	UniqueExpr( const UniqueExpr & other );
	860	~UniqueExpr();
	861
[141b786]	862	Expression * get_expr() const { return expr; }
	863	UniqueExpr * set_expr( Expression * newValue ) { expr = newValue; return this; }
[3c13c03]	864
[141b786]	865	ObjectDecl * get_object() const { return object; }
	866	UniqueExpr * set_object( ObjectDecl * newValue ) { object = newValue; return this; }
	867
	868	VariableExpr * get_var() const { return var; }
	869	UniqueExpr * set_var( VariableExpr * newValue ) { var = newValue; return this; }
[77971f6]	870
[bf32bb8]	871	int get_id() const { return id; }
	872
[7870799]	873	virtual UniqueExpr * clone() const override { return new UniqueExpr( * this ); }
	874	virtual void accept( Visitor & v ) override { v.visit( this ); }
	875	virtual void accept( Visitor & v ) const override { v.visit( this ); }
	876	virtual Expression * acceptMutator( Mutator & m ) override { return m.mutate( this ); }
	877	virtual void print( std::ostream & os, Indenter indent = {} ) const override;
[65cdc1e]	878
[3c13c03]	879	private:
[bf32bb8]	880	int id;
	881	static long long count;
[3c13c03]	882	};
	883
[e4d829b]	884	struct InitAlternative {
	885	public:
	886	Type * type = nullptr;
	887	Designation * designation = nullptr;
	888	InitAlternative( Type * type, Designation * designation );
	889	InitAlternative( const InitAlternative & other );
	890	InitAlternative & operator=( const Initializer & other ) = delete; // at the moment this isn't used, and I don't want to implement it
	891	~InitAlternative();
	892	};
	893
	894	class UntypedInitExpr : public Expression {
	895	public:
[65cdc1e]	896	Expression * expr;
	897	std::list<InitAlternative> initAlts;
	898
[e4d829b]	899	UntypedInitExpr( Expression * expr, const std::list<InitAlternative> & initAlts );
	900	UntypedInitExpr( const UntypedInitExpr & other );
	901	~UntypedInitExpr();
	902
	903	Expression * get_expr() const { return expr; }
	904	UntypedInitExpr * set_expr( Expression * newValue ) { expr = newValue; return this; }
	905
	906	std::list<InitAlternative> & get_initAlts() { return initAlts; }
	907
[7870799]	908	virtual UntypedInitExpr * clone() const override { return new UntypedInitExpr( * this ); }
	909	virtual void accept( Visitor & v ) override { v.visit( this ); }
	910	virtual void accept( Visitor & v ) const override { v.visit( this ); }
	911	virtual Expression * acceptMutator( Mutator & m ) override { return m.mutate( this ); }
	912	virtual void print( std::ostream & os, Indenter indent = {} ) const override;
[e4d829b]	913	};
	914
	915	class InitExpr : public Expression {
	916	public:
[65cdc1e]	917	Expression * expr;
	918	Designation * designation;
	919
[62423350]	920	InitExpr( Expression * expr, Designation * designation );
[e4d829b]	921	InitExpr( const InitExpr & other );
	922	~InitExpr();
	923
	924	Expression * get_expr() const { return expr; }
	925	InitExpr * set_expr( Expression * newValue ) { expr = newValue; return this; }
	926
	927	Designation * get_designation() const { return designation; }
	928	InitExpr * set_designation( Designation * newValue ) { designation = newValue; return this; }
	929
[7870799]	930	virtual InitExpr * clone() const override { return new InitExpr( * this ); }
	931	virtual void accept( Visitor & v ) override { v.visit( this ); }
	932	virtual void accept( Visitor & v ) const override { v.visit( this ); }
	933	virtual Expression * acceptMutator( Mutator & m ) override { return m.mutate( this ); }
	934	virtual void print( std::ostream & os, Indenter indent = {} ) const override;
[e4d829b]	935	};
	936
[44b4114]	937	/// expression that contains a deleted identifier - should never make it past the resolver.
	938	class DeletedExpr : public Expression {
	939	public:
	940	Expression * expr;
[e67991f]	941	Declaration * deleteStmt;
[44b4114]	942
[e67991f]	943	DeletedExpr( Expression * expr, Declaration * deleteStmt );
[44b4114]	944	DeletedExpr( const DeletedExpr & other );
	945	~DeletedExpr();
	946
[7870799]	947	virtual DeletedExpr * clone() const override { return new DeletedExpr( * this ); }
	948	virtual void accept( Visitor & v ) override { v.visit( this ); }
	949	virtual void accept( Visitor & v ) const override { v.visit( this ); }
	950	virtual Expression * acceptMutator( Mutator & m ) override { return m.mutate( this ); }
	951	virtual void print( std::ostream & os, Indenter indent = {} ) const override;
[44b4114]	952	};
	953
[0f79853]	954	/// expression wrapping the use of a default argument - should never make it past the resolver.
	955	class DefaultArgExpr : public Expression {
	956	public:
	957	Expression * expr;
	958
	959	DefaultArgExpr( Expression * expr );
	960	DefaultArgExpr( const DefaultArgExpr & other );
	961	~DefaultArgExpr();
	962
[7870799]	963	virtual DefaultArgExpr * clone() const override { return new DefaultArgExpr( * this ); }
	964	virtual void accept( Visitor & v ) override { v.visit( this ); }
	965	virtual void accept( Visitor & v ) const override { v.visit( this ); }
	966	virtual Expression * acceptMutator( Mutator & m ) override { return m.mutate( this ); }
	967	virtual void print( std::ostream & os, Indenter indent = {} ) const override;
[0f79853]	968	};
	969
[d807ca28]	970	/// C11 _Generic expression
	971	class GenericExpr : public Expression {
	972	public:
	973	struct Association {
	974	Type * type = nullptr;
	975	Expression * expr = nullptr;
	976	bool isDefault = false;
	977
	978	Association( Type * type, Expression * expr );
	979	Association( Expression * expr );
	980	Association( const Association & other );
	981	Association & operator=( const Association & other ) = delete; // at the moment this isn't used, and I don't want to implement it
	982	~Association();
	983	};
	984
	985	Expression * control;
	986	std::list<Association> associations;
	987
	988	GenericExpr( Expression * control, const std::list<Association> & assoc );
	989	GenericExpr( const GenericExpr & other );
	990	virtual ~GenericExpr();
	991
[7870799]	992	virtual GenericExpr * clone() const override { return new GenericExpr( * this ); }
	993	virtual void accept( Visitor & v ) override { v.visit( this ); }
	994	virtual void accept( Visitor & v ) const override { v.visit( this ); }
	995	virtual Expression * acceptMutator( Mutator & m ) override { return m.mutate( this ); }
	996	virtual void print( std::ostream & os, Indenter indent = {} ) const override;
[d807ca28]	997	};
	998
[0dd3a2f]	999	// Local Variables: //
	1000	// tab-width: 4 //
	1001	// mode: c++ //
	1002	// compile-command: "make install" //
	1003	// End: //

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