source: src/AST/Expr.cpp @ 6ca0dab

ADTarm-ehast-experimentalenumforall-pointer-decayjacob/cs343-translationnew-ast-unique-exprpthread-emulationqualifiedEnum
Last change on this file since 6ca0dab was 7030dab, checked in by Thierry Delisle <tdelisle@…>, 5 years ago

Merge branch 'master' into new-ast

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[54e41b3]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// Expr.cpp --
8//
9// Author           : Aaron B. Moss
10// Created On       : Wed May 15 17:00:00 2019
[312029a]11// Last Modified By : Peter A. Buhr
[d76f32c]12// Created On       : Thr Jun 13 13:38:00 2019
[312029a]13// Update Count     : 6
[54e41b3]14//
15
16#include "Expr.hpp"
17
18#include <cassert>                 // for strict_dynamic_cast
19#include <string>                  // for to_string
20#include <vector>
21
[2890212]22#include "Copy.hpp"                // for shallowCopy
[417117e]23#include "Eval.hpp"                // for call
[d8938622]24#include "GenericSubstitution.hpp"
[cf32116]25#include "LinkageSpec.hpp"
[9b4f329]26#include "Stmt.hpp"
[54e41b3]27#include "Type.hpp"
[d8938622]28#include "TypeSubstitution.hpp"
[733074e]29#include "Common/utility.h"
[54e41b3]30#include "Common/SemanticError.h"
31#include "GenPoly/Lvalue.h"        // for referencesPermissable
[cf32116]32#include "InitTweak/InitTweak.h"   // for getFunction, getPointerBase
[54e41b3]33#include "ResolvExpr/typeops.h"    // for extractResultType
[9b4f329]34#include "Tuples/Tuples.h"         // for makeTupleType
[54e41b3]35
36namespace ast {
37
[cf32116]38namespace {
39        std::set<std::string> const lvalueFunctionNames = {"*?", "?[?]"};
40}
41
42// --- Expr
43bool Expr::get_lvalue() const {
44        return false;
45}
46
[54e41b3]47// --- ApplicationExpr
48
[87701b6]49ApplicationExpr::ApplicationExpr( const CodeLocation & loc, const Expr * f,
50        std::vector<ptr<Expr>> && as )
51: Expr( loc ), func( f ), args( std::move(as) ) {
[54e41b3]52        // ensure that `ApplicationExpr` result type is `FuncExpr`
53        const PointerType * pt = strict_dynamic_cast< const PointerType * >( f->result.get() );
54        const FunctionType * fn = strict_dynamic_cast< const FunctionType * >( pt->base.get() );
55
56        result = ResolvExpr::extractResultType( fn );
57        assert( result );
58}
59
[cf32116]60bool ApplicationExpr::get_lvalue() const {
61        if ( const DeclWithType * func = InitTweak::getFunction( this ) ) {
62                return func->linkage == Linkage::Intrinsic && lvalueFunctionNames.count( func->name );
63        }
64        return false;
65}
66
[54e41b3]67// --- UntypedExpr
68
69UntypedExpr * UntypedExpr::createDeref( const CodeLocation & loc, Expr * arg ) {
70        assert( arg );
71
[417117e]72        UntypedExpr * ret = call( loc, "*?", arg );
[54e41b3]73        if ( const Type * ty = arg->result ) {
74                const Type * base = InitTweak::getPointerBase( ty );
75                assertf( base, "expected pointer type in dereference (type was %s)", toString( ty ).c_str() );
76
77                if ( GenPoly::referencesPermissable() ) {
78                        // if references are still allowed in the AST, dereference returns a reference
79                        ret->result = new ReferenceType{ base };
80                } else {
[87701b6]81                        // references have been removed, in which case dereference returns an lvalue of the
[54e41b3]82                        // base type
[d76c588]83                        ret->result = base;
[54e41b3]84                }
85        }
86        return ret;
87}
88
[cf32116]89bool UntypedExpr::get_lvalue() const {
90        std::string fname = InitTweak::getFunctionName( this );
91        return lvalueFunctionNames.count( fname );
92}
93
[54e41b3]94UntypedExpr * UntypedExpr::createAssign( const CodeLocation & loc, Expr * lhs, Expr * rhs ) {
95        assert( lhs && rhs );
96
[417117e]97        UntypedExpr * ret = call( loc, "?=?", lhs, rhs );
[54e41b3]98        if ( lhs->result && rhs->result ) {
99                // if both expressions are typed, assumes that this assignment is a C bitwise assignment,
100                // so the result is the type of the RHS
101                ret->result = rhs->result;
102        }
103        return ret;
104}
105
106// --- AddressExpr
107
108// Address expressions are typed based on the following inference rules:
109//    E : lvalue T  &..& (n references)
110//   &E :        T *&..& (n references)
111//
112//    E : T  &..&        (m references)
113//   &E : T *&..&        (m-1 references)
114
115namespace {
116        /// The type of the address of a type.
117        /// Caller is responsible for managing returned memory
118        Type * addrType( const Type * type ) {
119                if ( const ReferenceType * refType = dynamic_cast< const ReferenceType * >( type ) ) {
120                        return new ReferenceType{ addrType( refType->base ), refType->qualifiers };
121                } else {
122                        return new PointerType{ type };
123                }
124        }
125}
126
127AddressExpr::AddressExpr( const CodeLocation & loc, const Expr * a ) : Expr( loc ), arg( a ) {
128        if ( arg->result ) {
[cf32116]129                if ( arg->get_lvalue() ) {
[54e41b3]130                        // lvalue, retains all levels of reference, and gains a pointer inside the references
131                        Type * res = addrType( arg->result );
132                        result = res;
133                } else {
134                        // taking address of non-lvalue, must be a reference, loses one layer of reference
[87701b6]135                        if ( const ReferenceType * refType =
[54e41b3]136                                        dynamic_cast< const ReferenceType * >( arg->result.get() ) ) {
137                                Type * res = addrType( refType->base );
138                                result = res;
139                        } else {
[10a1225]140                                SemanticError( loc, arg->result.get(),
[54e41b3]141                                        "Attempt to take address of non-lvalue expression: " );
142                        }
143                }
144        }
145}
146
147// --- LabelAddressExpr
148
149// label address always has type `void*`
[87701b6]150LabelAddressExpr::LabelAddressExpr( const CodeLocation & loc, Label && a )
[54e41b3]151: Expr( loc, new PointerType{ new VoidType{} } ), arg( a ) {}
152
153// --- CastExpr
154
[87701b6]155CastExpr::CastExpr( const CodeLocation & loc, const Expr * a, GeneratedFlag g )
[54e41b3]156: Expr( loc, new VoidType{} ), arg( a ), isGenerated( g ) {}
157
[cf32116]158bool CastExpr::get_lvalue() const {
159        // This is actually wrong by C, but it works with our current set-up.
160        return arg->get_lvalue();
161}
162
[54e41b3]163// --- KeywordCastExpr
164
[312029a]165const char * KeywordCastExpr::targetString() const {
166        return AggregateDecl::aggrString( target );
[54e41b3]167}
168
[cf32116]169// --- UntypedMemberExpr
170
171bool UntypedMemberExpr::get_lvalue() const {
172        return aggregate->get_lvalue();
173}
174
[54e41b3]175// --- MemberExpr
176
177MemberExpr::MemberExpr( const CodeLocation & loc, const DeclWithType * mem, const Expr * agg )
178: Expr( loc ), member( mem ), aggregate( agg ) {
179        assert( member );
180        assert( aggregate );
181        assert( aggregate->result );
182
[ae265b55]183        // Deep copy on result type avoids mutation on transitively multiply referenced object.
184        //
185        // Example, adapted from parts of builtins and bootloader:
186        //
187        // forall(dtype T)
188        // struct __Destructor {
189        //   T * object;
190        //   void (*dtor)(T *);
191        // };
192        //
193        // forall(dtype S)
194        // void foo(__Destructor(S) &d) {
195        //   if (d.dtor) {  // here
196        //   }
197        // }
198        //
199        // Let e be the "d.dtor" guard espression, which is MemberExpr after resolve.  Let d be the
200        // declaration of member __Destructor.dtor (an ObjectDecl), as accessed via the top-level
201        // declaration of __Destructor.  Consider the types e.result and d.type.  In the old AST, one
202        // is a clone of the other.  Ordinary new-AST use would set them up as a multiply-referenced
203        // object.
204        //
205        // e.result: PointerType
206        // .base: FunctionType
207        // .params.front(): ObjectDecl, the anonymous parameter of type T*
208        // .type: PointerType
209        // .base: TypeInstType
210        // let x = that
211        // let y = similar, except start from d.type
212        //
213        // Consider two code lines down, genericSubstitution(...).apply(result).
214        //
215        // Applying this chosen-candidate's type substitution means modifying x, substituting
216        // S for T.  This mutation should affect x and not y.
217
218        result = deepCopy(mem->get_type());
219
[335f2d8]220        // substitute aggregate generic parameters into member type
[60aaa51d]221        genericSubstitution( aggregate->result ).apply( result );
[3f3bfe5a]222        // ensure appropriate restrictions from aggregate type
223        add_qualifiers( result, aggregate->result->qualifiers );
[54e41b3]224}
225
[ae265b55]226MemberExpr::MemberExpr( const CodeLocation & loc, const DeclWithType * mem, const Expr * agg,
227    MemberExpr::NoOpConstruction overloadSelector )
228: Expr( loc ), member( mem ), aggregate( agg ) {
229        assert( member );
230        assert( aggregate );
231        assert( aggregate->result );
232        (void) overloadSelector;
233}
234
[cf32116]235bool MemberExpr::get_lvalue() const {
236        // This is actually wrong by C, but it works with our current set-up.
237        return true;
238}
239
[54e41b3]240// --- VariableExpr
241
[546e712]242VariableExpr::VariableExpr( const CodeLocation & loc )
243: Expr( loc ), var( nullptr ) {}
244
[54e41b3]245VariableExpr::VariableExpr( const CodeLocation & loc, const DeclWithType * v )
246: Expr( loc ), var( v ) {
247        assert( var );
248        assert( var->get_type() );
[3f3bfe5a]249        result = shallowCopy( var->get_type() );
[54e41b3]250}
251
[cf32116]252bool VariableExpr::get_lvalue() const {
253        // It isn't always an lvalue, but it is never an rvalue.
254        return true;
255}
256
[87701b6]257VariableExpr * VariableExpr::functionPointer(
[54e41b3]258                const CodeLocation & loc, const FunctionDecl * decl ) {
259        // wrap usually-determined result type in a pointer
260        VariableExpr * funcExpr = new VariableExpr{ loc, decl };
261        funcExpr->result = new PointerType{ funcExpr->result };
262        return funcExpr;
263}
264
265// --- ConstantExpr
266
267long long int ConstantExpr::intValue() const {
268        if ( const BasicType * bty = result.as< BasicType >() ) {
269                if ( bty->isInteger() ) {
[c36298d]270                        assert(ival);
271                        return ival.value();
[54e41b3]272                }
273        } else if ( result.as< ZeroType >() ) {
274                return 0;
275        } else if ( result.as< OneType >() ) {
276                return 1;
277        }
278        SemanticError( this, "Constant expression of non-integral type " );
279}
280
281ConstantExpr * ConstantExpr::from_bool( const CodeLocation & loc, bool b ) {
[87701b6]282        return new ConstantExpr{
[54e41b3]283                loc, new BasicType{ BasicType::Bool }, b ? "1" : "0", (unsigned long long)b };
284}
285
286ConstantExpr * ConstantExpr::from_int( const CodeLocation & loc, int i ) {
[87701b6]287        return new ConstantExpr{
[54e41b3]288                loc, new BasicType{ BasicType::SignedInt }, std::to_string( i ), (unsigned long long)i };
289}
290
291ConstantExpr * ConstantExpr::from_ulong( const CodeLocation & loc, unsigned long i ) {
[87701b6]292        return new ConstantExpr{
293                loc, new BasicType{ BasicType::LongUnsignedInt }, std::to_string( i ),
[54e41b3]294                (unsigned long long)i };
295}
296
297ConstantExpr * ConstantExpr::null( const CodeLocation & loc, const Type * ptrType ) {
298        return new ConstantExpr{
299                loc, ptrType ? ptrType : new PointerType{ new VoidType{} }, "0", (unsigned long long)0 };
300}
301
302// --- SizeofExpr
303
304SizeofExpr::SizeofExpr( const CodeLocation & loc, const Expr * e )
305: Expr( loc, new BasicType{ BasicType::LongUnsignedInt } ), expr( e ), type( nullptr ) {}
306
307SizeofExpr::SizeofExpr( const CodeLocation & loc, const Type * t )
308: Expr( loc, new BasicType{ BasicType::LongUnsignedInt } ), expr( nullptr ), type( t ) {}
309
310// --- AlignofExpr
311
312AlignofExpr::AlignofExpr( const CodeLocation & loc, const Expr * e )
313: Expr( loc, new BasicType{ BasicType::LongUnsignedInt } ), expr( e ), type( nullptr ) {}
314
315AlignofExpr::AlignofExpr( const CodeLocation & loc, const Type * t )
316: Expr( loc, new BasicType{ BasicType::LongUnsignedInt } ), expr( nullptr ), type( t ) {}
317
318// --- OffsetofExpr
319
320OffsetofExpr::OffsetofExpr( const CodeLocation & loc, const Type * ty, const DeclWithType * mem )
321: Expr( loc, new BasicType{ BasicType::LongUnsignedInt } ), type( ty ), member( mem ) {
322        assert( type );
323        assert( member );
324}
325
326// --- OffsetPackExpr
327
328OffsetPackExpr::OffsetPackExpr( const CodeLocation & loc, const StructInstType * ty )
[87701b6]329: Expr( loc, new ArrayType{
330        new BasicType{ BasicType::LongUnsignedInt }, nullptr, FixedLen, DynamicDim }
[54e41b3]331), type( ty ) {
332        assert( type );
333}
334
335// --- LogicalExpr
336
[87701b6]337LogicalExpr::LogicalExpr(
[54e41b3]338        const CodeLocation & loc, const Expr * a1, const Expr * a2, LogicalFlag ia )
339: Expr( loc, new BasicType{ BasicType::SignedInt } ), arg1( a1 ), arg2( a2 ), isAnd( ia ) {}
340
[cf32116]341// --- CommaExpr
342bool CommaExpr::get_lvalue() const {
343        // This is wrong by C, but the current implementation uses it.
344        // (ex: Specialize, Lvalue and Box)
345        return arg2->get_lvalue();
346}
347
[9b4f329]348// --- ConstructorExpr
349
[10a1225]350ConstructorExpr::ConstructorExpr( const CodeLocation & loc, const Expr * call )
[9b4f329]351: Expr( loc ), callExpr( call ) {
[10a1225]352        // allow resolver to type a constructor used as an expression if it has the same type as its
[9b4f329]353        // first argument
354        assert( callExpr );
355        const Expr * arg = InitTweak::getCallArg( callExpr, 0 );
356        assert( arg );
357        result = arg->result;
358}
359
360// --- CompoundLiteralExpr
361
362CompoundLiteralExpr::CompoundLiteralExpr( const CodeLocation & loc, const Type * t, const Init * i )
363: Expr( loc ), init( i ) {
364        assert( t && i );
[d76c588]365        result = t;
[9b4f329]366}
367
[cf32116]368bool CompoundLiteralExpr::get_lvalue() const {
369        return true;
370}
371
[9b4f329]372// --- TupleExpr
373
374TupleExpr::TupleExpr( const CodeLocation & loc, std::vector<ptr<Expr>> && xs )
375: Expr( loc, Tuples::makeTupleType( xs ) ), exprs( xs ) {}
376
377// --- TupleIndexExpr
378
379TupleIndexExpr::TupleIndexExpr( const CodeLocation & loc, const Expr * t, unsigned i )
380: Expr( loc ), tuple( t ), index( i ) {
[10a1225]381        const TupleType * type = strict_dynamic_cast< const TupleType * >( tuple->result.get() );
[9b4f329]382        assertf( type->size() > index, "TupleIndexExpr index out of bounds: tuple size %d, requested "
383                "index %d in expr %s", type->size(), index, toString( tuple ).c_str() );
384        // like MemberExpr, TupleIndexExpr is always an lvalue
[d76c588]385        result = type->types[ index ];
[9b4f329]386}
387
[cf32116]388bool TupleIndexExpr::get_lvalue() const {
389        return tuple->get_lvalue();
390}
391
[9b4f329]392// --- TupleAssignExpr
393
[10a1225]394TupleAssignExpr::TupleAssignExpr(
395        const CodeLocation & loc, std::vector<ptr<Expr>> && assigns,
[9b4f329]396        std::vector<ptr<ObjectDecl>> && tempDecls )
397: Expr( loc, Tuples::makeTupleType( assigns ) ), stmtExpr() {
[10a1225]398        // convert internally into a StmtExpr which contains the declarations and produces the tuple of
[9b4f329]399        // the assignments
400        std::list<ptr<Stmt>> stmts;
401        for ( const ObjectDecl * obj : tempDecls ) {
402                stmts.emplace_back( new DeclStmt{ loc, obj } );
403        }
404        TupleExpr * tupleExpr = new TupleExpr{ loc, std::move(assigns) };
405        assert( tupleExpr->result );
406        stmts.emplace_back( new ExprStmt{ loc, tupleExpr } );
407        stmtExpr = new StmtExpr{ loc, new CompoundStmt{ loc, std::move(stmts) } };
408}
409
[0b57626]410TupleAssignExpr::TupleAssignExpr(
[20de6fb]411        const CodeLocation & loc, const Type * result, const StmtExpr * s )
412: Expr( loc, result ), stmtExpr() {
413        stmtExpr = s;
414}
415
[9b4f329]416// --- StmtExpr
417
[10a1225]418StmtExpr::StmtExpr( const CodeLocation & loc, const CompoundStmt * ss )
[9b4f329]419: Expr( loc ), stmts( ss ), returnDecls(), dtors() { computeResult(); }
420
421void StmtExpr::computeResult() {
422        assert( stmts );
423        const std::list<ptr<Stmt>> & body = stmts->kids;
424        if ( ! returnDecls.empty() ) {
[10a1225]425                // prioritize return decl for result type, since if a return decl exists, then the StmtExpr
[9b4f329]426                // is currently in an intermediate state where the body will always give a void result type
427                result = returnDecls.front()->get_type();
428        } else if ( ! body.empty() ) {
429                if ( const ExprStmt * exprStmt = body.back().as< ExprStmt >() ) {
430                        result = exprStmt->expr->result;
431                }
432        }
433        // ensure a result type exists
434        if ( ! result ) { result = new VoidType{}; }
435}
436
437// --- UniqueExpr
438
439unsigned long long UniqueExpr::nextId = 0;
440
[10a1225]441UniqueExpr::UniqueExpr( const CodeLocation & loc, const Expr * e, unsigned long long i )
[d76f32c]442: Expr( loc, e->result ), expr( e ), id( i ) {
[9b4f329]443        assert( expr );
[10a1225]444        if ( id == -1ull ) {
445                assert( nextId != -1ull );
[9b4f329]446                id = nextId++;
447        }
[54e41b3]448}
449
[10a1225]450}
451
[54e41b3]452// Local Variables: //
453// tab-width: 4 //
454// mode: c++ //
455// compile-command: "make install" //
[d76f32c]456// End: //
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