clang 20.0.0git
Overload.h
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1//===- Overload.h - C++ Overloading -----------------------------*- C++ -*-===//
2//
3// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
4// See https://llvm.org/LICENSE.txt for license information.
5// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
6//
7//===----------------------------------------------------------------------===//
8//
9// This file defines the data structures and types used in C++
10// overload resolution.
11//
12//===----------------------------------------------------------------------===//
13
14#ifndef LLVM_CLANG_SEMA_OVERLOAD_H
15#define LLVM_CLANG_SEMA_OVERLOAD_H
16
17#include "clang/AST/Decl.h"
19#include "clang/AST/DeclBase.h"
20#include "clang/AST/DeclCXX.h"
22#include "clang/AST/Expr.h"
23#include "clang/AST/Type.h"
24#include "clang/Basic/LLVM.h"
28#include "llvm/ADT/ArrayRef.h"
29#include "llvm/ADT/STLExtras.h"
30#include "llvm/ADT/SmallPtrSet.h"
31#include "llvm/ADT/SmallVector.h"
32#include "llvm/ADT/StringRef.h"
33#include "llvm/Support/AlignOf.h"
34#include "llvm/Support/Allocator.h"
35#include "llvm/Support/Casting.h"
36#include "llvm/Support/ErrorHandling.h"
37#include <cassert>
38#include <cstddef>
39#include <cstdint>
40#include <utility>
41
42namespace clang {
43
44class APValue;
45class ASTContext;
46class Sema;
47
48 /// OverloadingResult - Capture the result of performing overload
49 /// resolution.
51 /// Overload resolution succeeded.
53
54 /// No viable function found.
56
57 /// Ambiguous candidates found.
59
60 /// Succeeded, but refers to a deleted function.
62 };
63
65 /// Requests that all candidates be shown. Viable candidates will
66 /// be printed first.
68
69 /// Requests that only viable candidates be shown.
71
72 /// Requests that only tied-for-best candidates be shown.
74 };
75
76 /// The parameter ordering that will be used for the candidate. This is
77 /// used to represent C++20 binary operator rewrites that reverse the order
78 /// of the arguments. If the parameter ordering is Reversed, the Args list is
79 /// reversed (but obviously the ParamDecls for the function are not).
80 ///
81 /// After forming an OverloadCandidate with reversed parameters, the list
82 /// of conversions will (as always) be indexed by argument, so will be
83 /// in reverse parameter order.
85
86 /// The kinds of rewrite we perform on overload candidates. Note that the
87 /// values here are chosen to serve as both bitflags and as a rank (lower
88 /// values are preferred by overload resolution).
90 /// Candidate is not a rewritten candidate.
91 CRK_None = 0x0,
92
93 /// Candidate is a rewritten candidate with a different operator name.
95
96 /// Candidate is a rewritten candidate with a reversed order of parameters.
98 };
99
100 /// ImplicitConversionKind - The kind of implicit conversion used to
101 /// convert an argument to a parameter's type. The enumerator values
102 /// match with the table titled 'Conversions' in [over.ics.scs] and are listed
103 /// such that better conversion kinds have smaller values.
105 /// Identity conversion (no conversion)
107
108 /// Lvalue-to-rvalue conversion (C++ [conv.lval])
110
111 /// Array-to-pointer conversion (C++ [conv.array])
113
114 /// Function-to-pointer (C++ [conv.array])
116
117 /// Function pointer conversion (C++17 [conv.fctptr])
119
120 /// Qualification conversions (C++ [conv.qual])
122
123 /// Integral promotions (C++ [conv.prom])
125
126 /// Floating point promotions (C++ [conv.fpprom])
128
129 /// Complex promotions (Clang extension)
131
132 /// Integral conversions (C++ [conv.integral])
134
135 /// Floating point conversions (C++ [conv.double]
137
138 /// Complex conversions (C99 6.3.1.6)
140
141 /// Floating-integral conversions (C++ [conv.fpint])
143
144 /// Pointer conversions (C++ [conv.ptr])
146
147 /// Pointer-to-member conversions (C++ [conv.mem])
149
150 /// Boolean conversions (C++ [conv.bool])
152
153 /// Conversions between compatible types in C99
155
156 /// Derived-to-base (C++ [over.best.ics])
158
159 /// Vector conversions
161
162 /// Arm SVE Vector conversions
164
165 /// RISC-V RVV Vector conversions
167
168 /// A vector splat from an arithmetic type
170
171 /// Complex-real conversions (C99 6.3.1.7)
173
174 /// Block Pointer conversions
176
177 /// Transparent Union Conversions
179
180 /// Objective-C ARC writeback conversion
182
183 /// Zero constant to event (OpenCL1.2 6.12.10)
185
186 /// Zero constant to queue
188
189 /// Conversions allowed in C, but not C++
191
192 /// C-only conversion between pointers with incompatible types
194
195 /// Fixed point type conversions according to N1169.
197
198 /// HLSL vector truncation.
200
201 /// HLSL non-decaying array rvalue cast.
203
204 // HLSL vector splat from scalar or boolean type.
206
207 /// The number of conversion kinds
209 };
210
211 /// ImplicitConversionRank - The rank of an implicit conversion
212 /// kind. The enumerator values match with Table 9 of (C++
213 /// 13.3.3.1.1) and are listed such that better conversion ranks
214 /// have smaller values.
216 /// Exact Match
218
219 /// HLSL Scalar Widening
221
222 /// Promotion
224
225 /// HLSL Scalar Widening with promotion
227
228 /// HLSL Matching Dimension Reduction
230
231 /// Conversion
233
234 /// OpenCL Scalar Widening
236
237 /// HLSL Scalar Widening with conversion
239
240 /// Complex <-> Real conversion
242
243 /// ObjC ARC writeback conversion
245
246 /// Conversion only allowed in the C standard (e.g. void* to char*).
248
249 /// Conversion not allowed by the C standard, but that we accept as an
250 /// extension anyway.
252
253 /// HLSL Dimension reduction with promotion
255
256 /// HLSL Dimension reduction with conversion
258 };
259
261
264 ImplicitConversionKind Dimension);
265
266 /// NarrowingKind - The kind of narrowing conversion being performed by a
267 /// standard conversion sequence according to C++11 [dcl.init.list]p7.
269 /// Not a narrowing conversion.
271
272 /// A narrowing conversion by virtue of the source and destination types.
274
275 /// A narrowing conversion, because a constant expression got narrowed.
277
278 /// A narrowing conversion, because a non-constant-expression variable might
279 /// have got narrowed.
281
282 /// Cannot tell whether this is a narrowing conversion because the
283 /// expression is value-dependent.
285 };
286
287 /// StandardConversionSequence - represents a standard conversion
288 /// sequence (C++ 13.3.3.1.1). A standard conversion sequence
289 /// contains between zero and three conversions. If a particular
290 /// conversion is not needed, it will be set to the identity conversion
291 /// (ICK_Identity).
293 public:
294 /// First -- The first conversion can be an lvalue-to-rvalue
295 /// conversion, array-to-pointer conversion, or
296 /// function-to-pointer conversion.
298
299 /// Second - The second conversion can be an integral promotion,
300 /// floating point promotion, integral conversion, floating point
301 /// conversion, floating-integral conversion, pointer conversion,
302 /// pointer-to-member conversion, or boolean conversion.
304
305 /// Dimension - Between the second and third conversion a vector or matrix
306 /// dimension conversion may occur. If this is not ICK_Identity this
307 /// conversion truncates the vector or matrix, or extends a scalar.
309
310 /// Third - The third conversion can be a qualification conversion
311 /// or a function conversion.
313
314 /// Whether this is the deprecated conversion of a
315 /// string literal to a pointer to non-const character data
316 /// (C++ 4.2p2).
317 LLVM_PREFERRED_TYPE(bool)
319
320 /// Whether the qualification conversion involves a change in the
321 /// Objective-C lifetime (for automatic reference counting).
322 LLVM_PREFERRED_TYPE(bool)
324
325 /// IncompatibleObjC - Whether this is an Objective-C conversion
326 /// that we should warn about (if we actually use it).
327 LLVM_PREFERRED_TYPE(bool)
328 unsigned IncompatibleObjC : 1;
329
330 /// ReferenceBinding - True when this is a reference binding
331 /// (C++ [over.ics.ref]).
332 LLVM_PREFERRED_TYPE(bool)
333 unsigned ReferenceBinding : 1;
334
335 /// DirectBinding - True when this is a reference binding that is a
336 /// direct binding (C++ [dcl.init.ref]).
337 LLVM_PREFERRED_TYPE(bool)
338 unsigned DirectBinding : 1;
339
340 /// Whether this is an lvalue reference binding (otherwise, it's
341 /// an rvalue reference binding).
342 LLVM_PREFERRED_TYPE(bool)
343 unsigned IsLvalueReference : 1;
344
345 /// Whether we're binding to a function lvalue.
346 LLVM_PREFERRED_TYPE(bool)
348
349 /// Whether we're binding to an rvalue.
350 LLVM_PREFERRED_TYPE(bool)
351 unsigned BindsToRvalue : 1;
352
353 /// Whether this binds an implicit object argument to a
354 /// non-static member function without a ref-qualifier.
355 LLVM_PREFERRED_TYPE(bool)
357
358 /// Whether this binds a reference to an object with a different
359 /// Objective-C lifetime qualifier.
360 LLVM_PREFERRED_TYPE(bool)
362
363 /// FromType - The type that this conversion is converting
364 /// from. This is an opaque pointer that can be translated into a
365 /// QualType.
367
368 /// ToType - The types that this conversion is converting to in
369 /// each step. This is an opaque pointer that can be translated
370 /// into a QualType.
371 void *ToTypePtrs[3];
372
373 /// CopyConstructor - The copy constructor that is used to perform
374 /// this conversion, when the conversion is actually just the
375 /// initialization of an object via copy constructor. Such
376 /// conversions are either identity conversions or derived-to-base
377 /// conversions.
380
381 void setFromType(QualType T) { FromTypePtr = T.getAsOpaquePtr(); }
382
383 void setToType(unsigned Idx, QualType T) {
384 assert(Idx < 3 && "To type index is out of range");
385 ToTypePtrs[Idx] = T.getAsOpaquePtr();
386 }
387
389 ToTypePtrs[0] = T.getAsOpaquePtr();
390 ToTypePtrs[1] = ToTypePtrs[0];
391 ToTypePtrs[2] = ToTypePtrs[0];
392 }
393
396 }
397
398 QualType getToType(unsigned Idx) const {
399 assert(Idx < 3 && "To type index is out of range");
401 }
402
404
405 bool isIdentityConversion() const {
406 return Second == ICK_Identity && Dimension == ICK_Identity &&
408 }
409
412 getNarrowingKind(ASTContext &Context, const Expr *Converted,
413 APValue &ConstantValue, QualType &ConstantType,
414 bool IgnoreFloatToIntegralConversion = false) const;
415 bool isPointerConversionToBool() const;
416 bool isPointerConversionToVoidPointer(ASTContext& Context) const;
417 void dump() const;
418 };
419
420 /// UserDefinedConversionSequence - Represents a user-defined
421 /// conversion sequence (C++ 13.3.3.1.2).
423 /// Represents the standard conversion that occurs before
424 /// the actual user-defined conversion.
425 ///
426 /// C++11 13.3.3.1.2p1:
427 /// If the user-defined conversion is specified by a constructor
428 /// (12.3.1), the initial standard conversion sequence converts
429 /// the source type to the type required by the argument of the
430 /// constructor. If the user-defined conversion is specified by
431 /// a conversion function (12.3.2), the initial standard
432 /// conversion sequence converts the source type to the implicit
433 /// object parameter of the conversion function.
435
436 /// EllipsisConversion - When this is true, it means user-defined
437 /// conversion sequence starts with a ... (ellipsis) conversion, instead of
438 /// a standard conversion. In this case, 'Before' field must be ignored.
439 // FIXME. I much rather put this as the first field. But there seems to be
440 // a gcc code gen. bug which causes a crash in a test. Putting it here seems
441 // to work around the crash.
443
444 /// HadMultipleCandidates - When this is true, it means that the
445 /// conversion function was resolved from an overloaded set having
446 /// size greater than 1.
448
449 /// After - Represents the standard conversion that occurs after
450 /// the actual user-defined conversion.
452
453 /// ConversionFunction - The function that will perform the
454 /// user-defined conversion. Null if the conversion is an
455 /// aggregate initialization from an initializer list.
457
458 /// The declaration that we found via name lookup, which might be
459 /// the same as \c ConversionFunction or it might be a using declaration
460 /// that refers to \c ConversionFunction.
462
463 void dump() const;
464 };
465
466 /// Represents an ambiguous user-defined conversion sequence.
470
473 char Buffer[sizeof(ConversionSet)];
474
477 }
478
481 }
482
483 void setFromType(QualType T) { FromTypePtr = T.getAsOpaquePtr(); }
484 void setToType(QualType T) { ToTypePtr = T.getAsOpaquePtr(); }
485
487 return *reinterpret_cast<ConversionSet*>(Buffer);
488 }
489
490 const ConversionSet &conversions() const {
491 return *reinterpret_cast<const ConversionSet*>(Buffer);
492 }
493
495 conversions().push_back(std::make_pair(Found, D));
496 }
497
498 using iterator = ConversionSet::iterator;
499
500 iterator begin() { return conversions().begin(); }
501 iterator end() { return conversions().end(); }
502
503 using const_iterator = ConversionSet::const_iterator;
504
505 const_iterator begin() const { return conversions().begin(); }
506 const_iterator end() const { return conversions().end(); }
507
508 void construct();
509 void destruct();
511 };
512
513 /// BadConversionSequence - Records information about an invalid
514 /// conversion sequence.
524 };
525
526 // This can be null, e.g. for implicit object arguments.
528
530
531 private:
532 // The type we're converting from (an opaque QualType).
533 void *FromTy;
534
535 // The type we're converting to (an opaque QualType).
536 void *ToTy;
537
538 public:
539 void init(FailureKind K, Expr *From, QualType To) {
540 init(K, From->getType(), To);
541 FromExpr = From;
542 }
543
544 void init(FailureKind K, QualType From, QualType To) {
545 Kind = K;
546 FromExpr = nullptr;
547 setFromType(From);
548 setToType(To);
549 }
550
553
555 FromExpr = E;
556 setFromType(E->getType());
557 }
558
559 void setFromType(QualType T) { FromTy = T.getAsOpaquePtr(); }
560 void setToType(QualType T) { ToTy = T.getAsOpaquePtr(); }
561 };
562
563 /// ImplicitConversionSequence - Represents an implicit conversion
564 /// sequence, which may be a standard conversion sequence
565 /// (C++ 13.3.3.1.1), user-defined conversion sequence (C++ 13.3.3.1.2),
566 /// or an ellipsis conversion sequence (C++ 13.3.3.1.3).
568 public:
569 /// Kind - The kind of implicit conversion sequence. BadConversion
570 /// specifies that there is no conversion from the source type to
571 /// the target type. AmbiguousConversion represents the unique
572 /// ambiguous conversion (C++0x [over.best.ics]p10).
573 /// StaticObjectArgumentConversion represents the conversion rules for
574 /// the synthesized first argument of calls to static member functions
575 /// ([over.best.ics.general]p8).
576 enum Kind {
583 };
584
585 private:
586 enum {
587 Uninitialized = BadConversion + 1
588 };
589
590 /// ConversionKind - The kind of implicit conversion sequence.
591 LLVM_PREFERRED_TYPE(Kind)
592 unsigned ConversionKind : 31;
593
594 // Whether the initializer list was of an incomplete array.
595 LLVM_PREFERRED_TYPE(bool)
596 unsigned InitializerListOfIncompleteArray : 1;
597
598 /// When initializing an array or std::initializer_list from an
599 /// initializer-list, this is the array or std::initializer_list type being
600 /// initialized. The remainder of the conversion sequence, including ToType,
601 /// describe the worst conversion of an initializer to an element of the
602 /// array or std::initializer_list. (Note, 'worst' is not well defined.)
603 QualType InitializerListContainerType;
604
605 void setKind(Kind K) {
606 destruct();
607 ConversionKind = K;
608 }
609
610 void destruct() {
611 if (ConversionKind == AmbiguousConversion) Ambiguous.destruct();
612 }
613
614 public:
615 union {
616 /// When ConversionKind == StandardConversion, provides the
617 /// details of the standard conversion sequence.
619
620 /// When ConversionKind == UserDefinedConversion, provides the
621 /// details of the user-defined conversion sequence.
623
624 /// When ConversionKind == AmbiguousConversion, provides the
625 /// details of the ambiguous conversion.
627
628 /// When ConversionKind == BadConversion, provides the details
629 /// of the bad conversion.
631 };
632
634 : ConversionKind(Uninitialized),
635 InitializerListOfIncompleteArray(false) {
637 }
638
640 : ConversionKind(Other.ConversionKind),
641 InitializerListOfIncompleteArray(
642 Other.InitializerListOfIncompleteArray),
643 InitializerListContainerType(Other.InitializerListContainerType) {
644 switch (ConversionKind) {
645 case Uninitialized: break;
646 case StandardConversion: Standard = Other.Standard; break;
648 break;
649 case UserDefinedConversion: UserDefined = Other.UserDefined; break;
650 case AmbiguousConversion: Ambiguous.copyFrom(Other.Ambiguous); break;
651 case EllipsisConversion: break;
652 case BadConversion: Bad = Other.Bad; break;
653 }
654 }
655
658 destruct();
660 return *this;
661 }
662
664 destruct();
665 }
666
667 Kind getKind() const {
668 assert(isInitialized() && "querying uninitialized conversion");
669 return Kind(ConversionKind);
670 }
671
672 /// Return a ranking of the implicit conversion sequence
673 /// kind, where smaller ranks represent better conversion
674 /// sequences.
675 ///
676 /// In particular, this routine gives user-defined conversion
677 /// sequences and ambiguous conversion sequences the same rank,
678 /// per C++ [over.best.ics]p10.
679 unsigned getKindRank() const {
680 switch (getKind()) {
683 return 0;
684
687 return 1;
688
690 return 2;
691
692 case BadConversion:
693 return 3;
694 }
695
696 llvm_unreachable("Invalid ImplicitConversionSequence::Kind!");
697 }
698
699 bool isBad() const { return getKind() == BadConversion; }
700 bool isStandard() const { return getKind() == StandardConversion; }
703 }
704 bool isEllipsis() const { return getKind() == EllipsisConversion; }
705 bool isAmbiguous() const { return getKind() == AmbiguousConversion; }
706 bool isUserDefined() const { return getKind() == UserDefinedConversion; }
707 bool isFailure() const { return isBad() || isAmbiguous(); }
708
709 /// Determines whether this conversion sequence has been
710 /// initialized. Most operations should never need to query
711 /// uninitialized conversions and should assert as above.
712 bool isInitialized() const { return ConversionKind != Uninitialized; }
713
714 /// Sets this sequence as a bad conversion for an explicit argument.
716 Expr *FromExpr, QualType ToType) {
717 setKind(BadConversion);
718 Bad.init(Failure, FromExpr, ToType);
719 }
720
721 /// Sets this sequence as a bad conversion for an implicit argument.
723 QualType FromType, QualType ToType) {
724 setKind(BadConversion);
725 Bad.init(Failure, FromType, ToType);
726 }
727
728 void setStandard() { setKind(StandardConversion); }
730 void setEllipsis() { setKind(EllipsisConversion); }
732
734 if (ConversionKind == AmbiguousConversion) return;
735 ConversionKind = AmbiguousConversion;
737 }
738
740 setStandard();
744 }
745
746 // True iff this is a conversion sequence from an initializer list to an
747 // array or std::initializer.
749 return !InitializerListContainerType.isNull();
750 }
752 InitializerListContainerType = T;
753 InitializerListOfIncompleteArray = IA;
754 }
756 return InitializerListOfIncompleteArray;
757 }
760 "not initializer list container");
761 return InitializerListContainerType;
762 }
763
764 /// Form an "implicit" conversion sequence from nullptr_t to bool, for a
765 /// direct-initialization of a bool object from nullptr_t.
767 QualType DestType,
768 bool NeedLValToRVal) {
770 ICS.setStandard();
772 ICS.Standard.setFromType(SourceType);
773 if (NeedLValToRVal)
775 ICS.Standard.setToType(0, SourceType);
777 ICS.Standard.setToType(1, DestType);
778 ICS.Standard.setToType(2, DestType);
779 return ICS;
780 }
781
782 // The result of a comparison between implicit conversion
783 // sequences. Use Sema::CompareImplicitConversionSequences to
784 // actually perform the comparison.
786 Better = -1,
788 Worse = 1
789 };
790
792 SourceLocation CaretLoc,
793 const PartialDiagnostic &PDiag) const;
794
795 void dump() const;
796 };
797
803
804 /// This conversion candidate was not considered because it
805 /// duplicates the work of a trivial or derived-to-base
806 /// conversion.
808
809 /// This conversion candidate was not considered because it is
810 /// an illegal instantiation of a constructor temploid: it is
811 /// callable with one argument, we only have one argument, and
812 /// its first parameter type is exactly the type of the class.
813 ///
814 /// Defining such a constructor directly is illegal, and
815 /// template-argument deduction is supposed to ignore such
816 /// instantiations, but we can still get one with the right
817 /// kind of implicit instantiation.
819
820 /// This conversion candidate is not viable because its result
821 /// type is not implicitly convertible to the desired type.
823
824 /// This conversion function template specialization candidate is not
825 /// viable because the final conversion was not an exact match.
827
828 /// (CUDA) This candidate was not viable because the callee
829 /// was not accessible from the caller's target (i.e. host->device,
830 /// global->host, device->host).
832
833 /// This candidate function was not viable because an enable_if
834 /// attribute disabled it.
836
837 /// This candidate constructor or conversion function is explicit but
838 /// the context doesn't permit explicit functions.
840
841 /// This candidate was not viable because its address could not be taken.
843
844 /// This inherited constructor is not viable because it would slice the
845 /// argument.
847
848 /// This candidate was not viable because it is a non-default multiversioned
849 /// function.
851
852 /// This constructor/conversion candidate fail due to an address space
853 /// mismatch between the object being constructed and the overload
854 /// candidate.
856
857 /// This candidate was not viable because its associated constraints were
858 /// not satisfied.
860
861 /// This candidate was not viable because it has internal linkage and is
862 /// from a different module unit than the use.
864 };
865
866 /// A list of implicit conversion sequences for the arguments of an
867 /// OverloadCandidate.
870
871 /// OverloadCandidate - A single candidate in an overload set (C++ 13.3).
873 /// Function - The actual function that this candidate
874 /// represents. When NULL, this is a built-in candidate
875 /// (C++ [over.oper]) or a surrogate for a conversion to a
876 /// function pointer or reference (C++ [over.call.object]).
878
879 /// FoundDecl - The original declaration that was looked up /
880 /// invented / otherwise found, together with its access.
881 /// Might be a UsingShadowDecl or a FunctionTemplateDecl.
883
884 /// BuiltinParamTypes - Provides the parameter types of a built-in overload
885 /// candidate. Only valid when Function is NULL.
887
888 /// Surrogate - The conversion function for which this candidate
889 /// is a surrogate, but only if IsSurrogate is true.
891
892 /// The conversion sequences used to convert the function arguments
893 /// to the function parameters. Note that these are indexed by argument,
894 /// so may not match the parameter order of Function.
896
897 /// The FixIt hints which can be used to fix the Bad candidate.
899
900 /// Viable - True to indicate that this overload candidate is viable.
901 bool Viable : 1;
902
903 /// Whether this candidate is the best viable function, or tied for being
904 /// the best viable function.
905 ///
906 /// For an ambiguous overload resolution, indicates whether this candidate
907 /// was part of the ambiguity kernel: the minimal non-empty set of viable
908 /// candidates such that all elements of the ambiguity kernel are better
909 /// than all viable candidates not in the ambiguity kernel.
910 bool Best : 1;
911
912 /// IsSurrogate - True to indicate that this candidate is a
913 /// surrogate for a conversion to a function pointer or reference
914 /// (C++ [over.call.object]).
915 bool IsSurrogate : 1;
916
917 /// IgnoreObjectArgument - True to indicate that the first
918 /// argument's conversion, which for this function represents the
919 /// implicit object argument, should be ignored. This will be true
920 /// when the candidate is a static member function (where the
921 /// implicit object argument is just a placeholder) or a
922 /// non-static member function when the call doesn't have an
923 /// object argument.
925
927
928 /// True if the candidate was found using ADL.
930
931 /// Whether this is a rewritten candidate, and if so, of what kind?
932 LLVM_PREFERRED_TYPE(OverloadCandidateRewriteKind)
934
935 /// FailureKind - The reason why this candidate is not viable.
936 /// Actually an OverloadFailureKind.
937 unsigned char FailureKind;
938
939 /// The number of call arguments that were explicitly provided,
940 /// to be used while performing partial ordering of function templates.
942
943 union {
945
946 /// FinalConversion - For a conversion function (where Function is
947 /// a CXXConversionDecl), the standard conversion that occurs
948 /// after the call to the overload candidate to convert the result
949 /// of calling the conversion function to the required type.
951 };
952
953 /// Get RewriteKind value in OverloadCandidateRewriteKind type (This
954 /// function is to workaround the spurious GCC bitfield enum warning)
956 return static_cast<OverloadCandidateRewriteKind>(RewriteKind);
957 }
958
959 bool isReversed() const { return getRewriteKind() & CRK_Reversed; }
960
961 /// hasAmbiguousConversion - Returns whether this overload
962 /// candidate requires an ambiguous conversion or not.
964 for (auto &C : Conversions) {
965 if (!C.isInitialized()) return false;
966 if (C.isAmbiguous()) return true;
967 }
968 return false;
969 }
970
971 bool TryToFixBadConversion(unsigned Idx, Sema &S) {
972 bool CanFix = Fix.tryToFixConversion(
973 Conversions[Idx].Bad.FromExpr,
974 Conversions[Idx].Bad.getFromType(),
975 Conversions[Idx].Bad.getToType(), S);
976
977 // If at least one conversion fails, the candidate cannot be fixed.
978 if (!CanFix)
979 Fix.clear();
980
981 return CanFix;
982 }
983
984 unsigned getNumParams() const {
985 if (IsSurrogate) {
987 while (STy->isPointerOrReferenceType())
988 STy = STy->getPointeeType();
989 return STy->castAs<FunctionProtoType>()->getNumParams();
990 }
991 if (Function)
992 return Function->getNumParams();
994 }
995
997
998 private:
1004 };
1005
1006 /// OverloadCandidateSet - A set of overload candidates, used in C++
1007 /// overload resolution (C++ 13.3).
1009 public:
1011 /// Normal lookup.
1013
1014 /// C++ [over.match.oper]:
1015 /// Lookup of operator function candidates in a call using operator
1016 /// syntax. Candidates that have no parameters of class type will be
1017 /// skipped unless there is a parameter of (reference to) enum type and
1018 /// the corresponding argument is of the same enum type.
1020
1021 /// C++ [over.match.copy]:
1022 /// Copy-initialization of an object of class type by user-defined
1023 /// conversion.
1025
1026 /// C++ [over.match.ctor], [over.match.list]
1027 /// Initialization of an object of class type by constructor,
1028 /// using either a parenthesized or braced list of arguments.
1030
1031 /// C++ [over.match.call.general]
1032 /// Resolve a call through the address of an overload set.
1034 };
1035
1036 /// Information about operator rewrites to consider when adding operator
1037 /// functions to a candidate set.
1042 bool AllowRewritten)
1044 AllowRewrittenCandidates(AllowRewritten) {}
1045
1046 /// The original operator as written in the source.
1048 /// The source location of the operator.
1050 /// Whether we should include rewritten candidates in the overload set.
1052
1053 /// Would use of this function result in a rewrite using a different
1054 /// operator?
1056 return OriginalOperator &&
1058 }
1059
1061 if (!OriginalOperator)
1062 return true;
1063
1064 // For an overloaded operator, we can have candidates with a different
1065 // name in our unqualified lookup set. Make sure we only consider the
1066 // ones we're supposed to.
1069 return OO && (OO == OriginalOperator ||
1072 }
1073
1074 /// Determine the kind of rewrite that should be performed for this
1075 /// candidate.
1079 if (isRewrittenOperator(FD))
1083 return CRK;
1084 }
1085 /// Determines whether this operator could be implemented by a function
1086 /// with reversed parameter order.
1091 }
1092
1093 /// Determine whether reversing parameter order is allowed for operator
1094 /// Op.
1096
1097 /// Determine whether we should add a rewritten candidate for \p FD with
1098 /// reversed parameter order.
1099 /// \param OriginalArgs are the original non reversed arguments.
1100 bool shouldAddReversed(Sema &S, ArrayRef<Expr *> OriginalArgs,
1101 FunctionDecl *FD);
1102 };
1103
1104 private:
1107
1108 // Allocator for ConversionSequenceLists. We store the first few of these
1109 // inline to avoid allocation for small sets.
1110 llvm::BumpPtrAllocator SlabAllocator;
1111
1112 SourceLocation Loc;
1113 CandidateSetKind Kind;
1114 OperatorRewriteInfo RewriteInfo;
1115
1116 constexpr static unsigned NumInlineBytes =
1117 24 * sizeof(ImplicitConversionSequence);
1118 unsigned NumInlineBytesUsed = 0;
1119 alignas(void *) char InlineSpace[NumInlineBytes];
1120
1121 // Address space of the object being constructed.
1122 LangAS DestAS = LangAS::Default;
1123
1124 /// If we have space, allocates from inline storage. Otherwise, allocates
1125 /// from the slab allocator.
1126 /// FIXME: It would probably be nice to have a SmallBumpPtrAllocator
1127 /// instead.
1128 /// FIXME: Now that this only allocates ImplicitConversionSequences, do we
1129 /// want to un-generalize this?
1130 template <typename T>
1131 T *slabAllocate(unsigned N) {
1132 // It's simpler if this doesn't need to consider alignment.
1133 static_assert(alignof(T) == alignof(void *),
1134 "Only works for pointer-aligned types.");
1135 static_assert(std::is_trivial<T>::value ||
1136 std::is_same<ImplicitConversionSequence, T>::value,
1137 "Add destruction logic to OverloadCandidateSet::clear().");
1138
1139 unsigned NBytes = sizeof(T) * N;
1140 if (NBytes > NumInlineBytes - NumInlineBytesUsed)
1141 return SlabAllocator.Allocate<T>(N);
1142 char *FreeSpaceStart = InlineSpace + NumInlineBytesUsed;
1143 assert(uintptr_t(FreeSpaceStart) % alignof(void *) == 0 &&
1144 "Misaligned storage!");
1145
1146 NumInlineBytesUsed += NBytes;
1147 return reinterpret_cast<T *>(FreeSpaceStart);
1148 }
1149
1150 void destroyCandidates();
1151
1152 public:
1154 OperatorRewriteInfo RewriteInfo = {})
1155 : Loc(Loc), Kind(CSK), RewriteInfo(RewriteInfo) {}
1158 ~OverloadCandidateSet() { destroyCandidates(); }
1159
1160 SourceLocation getLocation() const { return Loc; }
1161 CandidateSetKind getKind() const { return Kind; }
1162 OperatorRewriteInfo getRewriteInfo() const { return RewriteInfo; }
1163
1164 /// Whether diagnostics should be deferred.
1166
1167 /// Determine when this overload candidate will be new to the
1168 /// overload set.
1171 uintptr_t Key = reinterpret_cast<uintptr_t>(F->getCanonicalDecl());
1172 Key |= static_cast<uintptr_t>(PO);
1173 return Functions.insert(Key).second;
1174 }
1175
1176 /// Exclude a function from being considered by overload resolution.
1177 void exclude(Decl *F) {
1180 }
1181
1182 /// Clear out all of the candidates.
1183 void clear(CandidateSetKind CSK);
1184
1186
1187 iterator begin() { return Candidates.begin(); }
1188 iterator end() { return Candidates.end(); }
1189
1190 size_t size() const { return Candidates.size(); }
1191 bool empty() const { return Candidates.empty(); }
1192
1193 /// Allocate storage for conversion sequences for NumConversions
1194 /// conversions.
1196 allocateConversionSequences(unsigned NumConversions) {
1197 ImplicitConversionSequence *Conversions =
1198 slabAllocate<ImplicitConversionSequence>(NumConversions);
1199
1200 // Construct the new objects.
1201 for (unsigned I = 0; I != NumConversions; ++I)
1202 new (&Conversions[I]) ImplicitConversionSequence();
1203
1204 return ConversionSequenceList(Conversions, NumConversions);
1205 }
1206
1207 /// Add a new candidate with NumConversions conversion sequence slots
1208 /// to the overload set.
1210 addCandidate(unsigned NumConversions = 0,
1211 ConversionSequenceList Conversions = std::nullopt) {
1212 assert((Conversions.empty() || Conversions.size() == NumConversions) &&
1213 "preallocated conversion sequence has wrong length");
1214
1215 Candidates.push_back(OverloadCandidate());
1216 OverloadCandidate &C = Candidates.back();
1217 C.Conversions = Conversions.empty()
1218 ? allocateConversionSequences(NumConversions)
1219 : Conversions;
1220 return C;
1221 }
1222
1223 /// Find the best viable function on this overload set, if it exists.
1226
1230 llvm::function_ref<bool(OverloadCandidate &)> Filter =
1231 [](OverloadCandidate &) { return true; });
1232
1233 void NoteCandidates(
1235 ArrayRef<Expr *> Args, StringRef Opc = "",
1236 SourceLocation Loc = SourceLocation(),
1237 llvm::function_ref<bool(OverloadCandidate &)> Filter =
1238 [](OverloadCandidate &) { return true; });
1239
1240 void NoteCandidates(Sema &S, ArrayRef<Expr *> Args,
1241 ArrayRef<OverloadCandidate *> Cands,
1242 StringRef Opc = "",
1243 SourceLocation OpLoc = SourceLocation());
1244
1245 LangAS getDestAS() { return DestAS; }
1246
1248 assert((Kind == CSK_InitByConstructor ||
1250 "can't set the destination address space when not constructing an "
1251 "object");
1252 DestAS = AS;
1253 }
1254
1255 };
1256
1257 bool isBetterOverloadCandidate(Sema &S,
1258 const OverloadCandidate &Cand1,
1259 const OverloadCandidate &Cand2,
1260 SourceLocation Loc,
1262
1267
1268 explicit operator bool() const { return Constructor; }
1269 };
1270
1271 // FIXME: Add an AddOverloadCandidate / AddTemplateOverloadCandidate overload
1272 // that takes one of these.
1274 if (isa<UsingDecl>(ND))
1275 return ConstructorInfo{};
1276
1277 // For constructors, the access check is performed against the underlying
1278 // declaration, not the found declaration.
1279 auto *D = ND->getUnderlyingDecl();
1280 ConstructorInfo Info = {DeclAccessPair::make(ND, D->getAccess()), nullptr,
1281 nullptr};
1282 Info.ConstructorTmpl = dyn_cast<FunctionTemplateDecl>(D);
1283 if (Info.ConstructorTmpl)
1285 Info.Constructor = dyn_cast<CXXConstructorDecl>(D);
1286 return Info;
1287 }
1288
1289 // Returns false if signature help is relevant despite number of arguments
1290 // exceeding parameters. Specifically, it returns false when
1291 // PartialOverloading is true and one of the following:
1292 // * Function is variadic
1293 // * Function is template variadic
1294 // * Function is an instantiation of template variadic function
1295 // The last case may seem strange. The idea is that if we added one more
1296 // argument, we'd end up with a function similar to Function. Since, in the
1297 // context of signature help and/or code completion, we do not know what the
1298 // type of the next argument (that the user is typing) will be, this is as
1299 // good candidate as we can get, despite the fact that it takes one less
1300 // parameter.
1301 bool shouldEnforceArgLimit(bool PartialOverloading, FunctionDecl *Function);
1302
1303} // namespace clang
1304
1305#endif // LLVM_CLANG_SEMA_OVERLOAD_H
const Decl * D
enum clang::sema::@1655::IndirectLocalPathEntry::EntryKind Kind
Expr * E
Defines the C++ Decl subclasses, other than those for templates (found in DeclTemplate....
Defines the C++ template declaration subclasses.
Forward-declares and imports various common LLVM datatypes that clang wants to use unqualified.
SourceLocation Loc
Definition: SemaObjC.cpp:759
Defines the clang::SourceLocation class and associated facilities.
C Language Family Type Representation.
APValue - This class implements a discriminated union of [uninitialized] [APSInt] [APFloat],...
Definition: APValue.h:122
Holds long-lived AST nodes (such as types and decls) that can be referred to throughout the semantic ...
Definition: ASTContext.h:187
Represents a C++ constructor within a class.
Definition: DeclCXX.h:2539
Represents a C++ conversion function within a class.
Definition: DeclCXX.h:2866
QualType getConversionType() const
Returns the type that this conversion function is converting to.
Definition: DeclCXX.h:2906
CallExpr - Represents a function call (C99 6.5.2.2, C++ [expr.call]).
Definition: Expr.h:2830
A POD class for pairing a NamedDecl* with an access specifier.
static DeclAccessPair make(NamedDecl *D, AccessSpecifier AS)
Decl - This represents one declaration (or definition), e.g.
Definition: DeclBase.h:86
AccessSpecifier getAccess() const
Definition: DeclBase.h:514
virtual Decl * getCanonicalDecl()
Retrieves the "canonical" declaration of the given declaration.
Definition: DeclBase.h:968
OverloadedOperatorKind getCXXOverloadedOperator() const
If this name is the name of an overloadable operator in C++ (e.g., operator+), retrieve the kind of o...
This represents one expression.
Definition: Expr.h:110
QualType getType() const
Definition: Expr.h:142
Represents a function declaration or definition.
Definition: Decl.h:1932
unsigned getNumParams() const
Return the number of parameters this function must have based on its FunctionType.
Definition: Decl.cpp:3678
Represents a prototype with parameter type info, e.g.
Definition: Type.h:5002
Declaration of a template function.
Definition: DeclTemplate.h:957
FunctionDecl * getTemplatedDecl() const
Get the underlying function declaration of the template.
ImplicitConversionSequence - Represents an implicit conversion sequence, which may be a standard conv...
Definition: Overload.h:567
void dump() const
dump - Print this implicit conversion sequence to standard error.
ImplicitConversionSequence & operator=(const ImplicitConversionSequence &Other)
Definition: Overload.h:657
Kind
Kind - The kind of implicit conversion sequence.
Definition: Overload.h:576
StandardConversionSequence Standard
When ConversionKind == StandardConversion, provides the details of the standard conversion sequence.
Definition: Overload.h:618
void setBad(BadConversionSequence::FailureKind Failure, Expr *FromExpr, QualType ToType)
Sets this sequence as a bad conversion for an explicit argument.
Definition: Overload.h:715
UserDefinedConversionSequence UserDefined
When ConversionKind == UserDefinedConversion, provides the details of the user-defined conversion seq...
Definition: Overload.h:622
ImplicitConversionSequence(const ImplicitConversionSequence &Other)
Definition: Overload.h:639
bool isInitialized() const
Determines whether this conversion sequence has been initialized.
Definition: Overload.h:712
static ImplicitConversionSequence getNullptrToBool(QualType SourceType, QualType DestType, bool NeedLValToRVal)
Form an "implicit" conversion sequence from nullptr_t to bool, for a direct-initialization of a bool ...
Definition: Overload.h:766
AmbiguousConversionSequence Ambiguous
When ConversionKind == AmbiguousConversion, provides the details of the ambiguous conversion.
Definition: Overload.h:626
void setInitializerListContainerType(QualType T, bool IA)
Definition: Overload.h:751
bool hasInitializerListContainerType() const
Definition: Overload.h:748
unsigned getKindRank() const
Return a ranking of the implicit conversion sequence kind, where smaller ranks represent better conve...
Definition: Overload.h:679
bool isInitializerListOfIncompleteArray() const
Definition: Overload.h:755
BadConversionSequence Bad
When ConversionKind == BadConversion, provides the details of the bad conversion.
Definition: Overload.h:630
QualType getInitializerListContainerType() const
Definition: Overload.h:758
void setAsIdentityConversion(QualType T)
Definition: Overload.h:739
void DiagnoseAmbiguousConversion(Sema &S, SourceLocation CaretLoc, const PartialDiagnostic &PDiag) const
Diagnoses an ambiguous conversion.
void setBad(BadConversionSequence::FailureKind Failure, QualType FromType, QualType ToType)
Sets this sequence as a bad conversion for an implicit argument.
Definition: Overload.h:722
This represents a decl that may have a name.
Definition: Decl.h:249
NamedDecl * getUnderlyingDecl()
Looks through UsingDecls and ObjCCompatibleAliasDecls for the underlying named decl.
Definition: Decl.h:462
DeclarationName getDeclName() const
Get the actual, stored name of the declaration, which may be a special name.
Definition: Decl.h:315
OverloadCandidateSet - A set of overload candidates, used in C++ overload resolution (C++ 13....
Definition: Overload.h:1008
void clear(CandidateSetKind CSK)
Clear out all of the candidates.
OverloadCandidateSet & operator=(const OverloadCandidateSet &)=delete
bool isNewCandidate(Decl *F, OverloadCandidateParamOrder PO=OverloadCandidateParamOrder::Normal)
Determine when this overload candidate will be new to the overload set.
Definition: Overload.h:1169
void setDestAS(LangAS AS)
Definition: Overload.h:1247
ConversionSequenceList allocateConversionSequences(unsigned NumConversions)
Allocate storage for conversion sequences for NumConversions conversions.
Definition: Overload.h:1196
OverloadCandidateSet(SourceLocation Loc, CandidateSetKind CSK, OperatorRewriteInfo RewriteInfo={})
Definition: Overload.h:1153
OverloadCandidate & addCandidate(unsigned NumConversions=0, ConversionSequenceList Conversions=std::nullopt)
Add a new candidate with NumConversions conversion sequence slots to the overload set.
Definition: Overload.h:1210
OperatorRewriteInfo getRewriteInfo() const
Definition: Overload.h:1162
@ CSK_AddressOfOverloadSet
C++ [over.match.call.general] Resolve a call through the address of an overload set.
Definition: Overload.h:1033
@ CSK_InitByConstructor
C++ [over.match.ctor], [over.match.list] Initialization of an object of class type by constructor,...
Definition: Overload.h:1029
@ CSK_InitByUserDefinedConversion
C++ [over.match.copy]: Copy-initialization of an object of class type by user-defined conversion.
Definition: Overload.h:1024
@ CSK_Normal
Normal lookup.
Definition: Overload.h:1012
@ CSK_Operator
C++ [over.match.oper]: Lookup of operator function candidates in a call using operator syntax.
Definition: Overload.h:1019
SmallVectorImpl< OverloadCandidate >::iterator iterator
Definition: Overload.h:1185
void NoteCandidates(PartialDiagnosticAt PA, Sema &S, OverloadCandidateDisplayKind OCD, ArrayRef< Expr * > Args, StringRef Opc="", SourceLocation Loc=SourceLocation(), llvm::function_ref< bool(OverloadCandidate &)> Filter=[](OverloadCandidate &) { return true;})
When overload resolution fails, prints diagnostic messages containing the candidates in the candidate...
OverloadCandidateSet(const OverloadCandidateSet &)=delete
bool shouldDeferDiags(Sema &S, ArrayRef< Expr * > Args, SourceLocation OpLoc)
Whether diagnostics should be deferred.
OverloadingResult BestViableFunction(Sema &S, SourceLocation Loc, OverloadCandidateSet::iterator &Best)
Find the best viable function on this overload set, if it exists.
void exclude(Decl *F)
Exclude a function from being considered by overload resolution.
Definition: Overload.h:1177
SourceLocation getLocation() const
Definition: Overload.h:1160
CandidateSetKind getKind() const
Definition: Overload.h:1161
SmallVector< OverloadCandidate *, 32 > CompleteCandidates(Sema &S, OverloadCandidateDisplayKind OCD, ArrayRef< Expr * > Args, SourceLocation OpLoc=SourceLocation(), llvm::function_ref< bool(OverloadCandidate &)> Filter=[](OverloadCandidate &) { return true;})
A (possibly-)qualified type.
Definition: Type.h:941
static QualType getFromOpaquePtr(const void *Ptr)
Definition: Type.h:990
Sema - This implements semantic analysis and AST building for C.
Definition: Sema.h:493
Encodes a location in the source.
StandardConversionSequence - represents a standard conversion sequence (C++ 13.3.3....
Definition: Overload.h:292
void dump() const
dump - Print this standard conversion sequence to standard error.
void setFromType(QualType T)
Definition: Overload.h:381
DeclAccessPair FoundCopyConstructor
Definition: Overload.h:379
void * FromTypePtr
FromType - The type that this conversion is converting from.
Definition: Overload.h:366
unsigned BindsToRvalue
Whether we're binding to an rvalue.
Definition: Overload.h:351
ImplicitConversionKind Second
Second - The second conversion can be an integral promotion, floating point promotion,...
Definition: Overload.h:303
QualType getFromType() const
Definition: Overload.h:394
ImplicitConversionKind First
First – The first conversion can be an lvalue-to-rvalue conversion, array-to-pointer conversion,...
Definition: Overload.h:297
unsigned BindsImplicitObjectArgumentWithoutRefQualifier
Whether this binds an implicit object argument to a non-static member function without a ref-qualifie...
Definition: Overload.h:356
unsigned ReferenceBinding
ReferenceBinding - True when this is a reference binding (C++ [over.ics.ref]).
Definition: Overload.h:333
void setAsIdentityConversion()
StandardConversionSequence - Set the standard conversion sequence to the identity conversion.
unsigned DeprecatedStringLiteralToCharPtr
Whether this is the deprecated conversion of a string literal to a pointer to non-const character dat...
Definition: Overload.h:318
CXXConstructorDecl * CopyConstructor
CopyConstructor - The copy constructor that is used to perform this conversion, when the conversion i...
Definition: Overload.h:378
unsigned IncompatibleObjC
IncompatibleObjC - Whether this is an Objective-C conversion that we should warn about (if we actuall...
Definition: Overload.h:328
unsigned ObjCLifetimeConversionBinding
Whether this binds a reference to an object with a different Objective-C lifetime qualifier.
Definition: Overload.h:361
ImplicitConversionKind Third
Third - The third conversion can be a qualification conversion or a function conversion.
Definition: Overload.h:312
unsigned QualificationIncludesObjCLifetime
Whether the qualification conversion involves a change in the Objective-C lifetime (for automatic ref...
Definition: Overload.h:323
void setToType(unsigned Idx, QualType T)
Definition: Overload.h:383
bool isPointerConversionToBool() const
isPointerConversionToBool - Determines whether this conversion is a conversion of a pointer or pointe...
void * ToTypePtrs[3]
ToType - The types that this conversion is converting to in each step.
Definition: Overload.h:371
NarrowingKind getNarrowingKind(ASTContext &Context, const Expr *Converted, APValue &ConstantValue, QualType &ConstantType, bool IgnoreFloatToIntegralConversion=false) const
Check if this standard conversion sequence represents a narrowing conversion, according to C++11 [dcl...
unsigned IsLvalueReference
Whether this is an lvalue reference binding (otherwise, it's an rvalue reference binding).
Definition: Overload.h:343
ImplicitConversionKind Dimension
Dimension - Between the second and third conversion a vector or matrix dimension conversion may occur...
Definition: Overload.h:308
unsigned BindsToFunctionLvalue
Whether we're binding to a function lvalue.
Definition: Overload.h:347
unsigned DirectBinding
DirectBinding - True when this is a reference binding that is a direct binding (C++ [dcl....
Definition: Overload.h:338
ImplicitConversionRank getRank() const
getRank - Retrieve the rank of this standard conversion sequence (C++ 13.3.3.1.1p3).
bool isPointerConversionToVoidPointer(ASTContext &Context) const
isPointerConversionToVoidPointer - Determines whether this conversion is a conversion of a pointer to...
void setAllToTypes(QualType T)
Definition: Overload.h:388
QualType getToType(unsigned Idx) const
Definition: Overload.h:398
const T * castAs() const
Member-template castAs<specific type>.
Definition: Type.h:8607
QualType getPointeeType() const
If this is a pointer, ObjC object pointer, or block pointer, this returns the respective pointee.
Definition: Type.cpp:705
bool isPointerOrReferenceType() const
Definition: Type.h:8007
The JSON file list parser is used to communicate input to InstallAPI.
ImplicitConversionRank GetDimensionConversionRank(ImplicitConversionRank Base, ImplicitConversionKind Dimension)
OverloadedOperatorKind
Enumeration specifying the different kinds of C++ overloaded operators.
Definition: OperatorKinds.h:21
@ OO_None
Not an overloaded operator.
Definition: OperatorKinds.h:22
llvm::MutableArrayRef< ImplicitConversionSequence > ConversionSequenceList
A list of implicit conversion sequences for the arguments of an OverloadCandidate.
Definition: Overload.h:869
OverloadingResult
OverloadingResult - Capture the result of performing overload resolution.
Definition: Overload.h:50
@ OR_Deleted
Succeeded, but refers to a deleted function.
Definition: Overload.h:61
@ OR_Success
Overload resolution succeeded.
Definition: Overload.h:52
@ OR_Ambiguous
Ambiguous candidates found.
Definition: Overload.h:58
@ OR_No_Viable_Function
No viable function found.
Definition: Overload.h:55
OverloadFailureKind
Definition: Overload.h:798
@ ovl_fail_final_conversion_not_exact
This conversion function template specialization candidate is not viable because the final conversion...
Definition: Overload.h:826
@ ovl_fail_enable_if
This candidate function was not viable because an enable_if attribute disabled it.
Definition: Overload.h:835
@ ovl_fail_illegal_constructor
This conversion candidate was not considered because it is an illegal instantiation of a constructor ...
Definition: Overload.h:818
@ ovl_fail_bad_final_conversion
This conversion candidate is not viable because its result type is not implicitly convertible to the ...
Definition: Overload.h:822
@ ovl_fail_module_mismatched
This candidate was not viable because it has internal linkage and is from a different module unit tha...
Definition: Overload.h:863
@ ovl_fail_too_few_arguments
Definition: Overload.h:800
@ ovl_fail_addr_not_available
This candidate was not viable because its address could not be taken.
Definition: Overload.h:842
@ ovl_fail_too_many_arguments
Definition: Overload.h:799
@ ovl_non_default_multiversion_function
This candidate was not viable because it is a non-default multiversioned function.
Definition: Overload.h:850
@ ovl_fail_constraints_not_satisfied
This candidate was not viable because its associated constraints were not satisfied.
Definition: Overload.h:859
@ ovl_fail_bad_conversion
Definition: Overload.h:801
@ ovl_fail_bad_target
(CUDA) This candidate was not viable because the callee was not accessible from the caller's target (...
Definition: Overload.h:831
@ ovl_fail_bad_deduction
Definition: Overload.h:802
@ ovl_fail_inhctor_slice
This inherited constructor is not viable because it would slice the argument.
Definition: Overload.h:846
@ ovl_fail_object_addrspace_mismatch
This constructor/conversion candidate fail due to an address space mismatch between the object being ...
Definition: Overload.h:855
@ ovl_fail_explicit
This candidate constructor or conversion function is explicit but the context doesn't permit explicit...
Definition: Overload.h:839
@ ovl_fail_trivial_conversion
This conversion candidate was not considered because it duplicates the work of a trivial or derived-t...
Definition: Overload.h:807
ImplicitConversionRank
ImplicitConversionRank - The rank of an implicit conversion kind.
Definition: Overload.h:215
@ ICR_Conversion
Conversion.
Definition: Overload.h:232
@ ICR_Writeback_Conversion
ObjC ARC writeback conversion.
Definition: Overload.h:244
@ ICR_HLSL_Dimension_Reduction
HLSL Matching Dimension Reduction.
Definition: Overload.h:229
@ ICR_HLSL_Dimension_Reduction_Conversion
HLSL Dimension reduction with conversion.
Definition: Overload.h:257
@ ICR_HLSL_Scalar_Widening
HLSL Scalar Widening.
Definition: Overload.h:220
@ ICR_C_Conversion
Conversion only allowed in the C standard (e.g. void* to char*).
Definition: Overload.h:247
@ ICR_OCL_Scalar_Widening
OpenCL Scalar Widening.
Definition: Overload.h:235
@ ICR_Complex_Real_Conversion
Complex <-> Real conversion.
Definition: Overload.h:241
@ ICR_HLSL_Scalar_Widening_Conversion
HLSL Scalar Widening with conversion.
Definition: Overload.h:238
@ ICR_HLSL_Dimension_Reduction_Promotion
HLSL Dimension reduction with promotion.
Definition: Overload.h:254
@ ICR_Promotion
Promotion.
Definition: Overload.h:223
@ ICR_Exact_Match
Exact Match.
Definition: Overload.h:217
@ ICR_C_Conversion_Extension
Conversion not allowed by the C standard, but that we accept as an extension anyway.
Definition: Overload.h:251
@ ICR_HLSL_Scalar_Widening_Promotion
HLSL Scalar Widening with promotion.
Definition: Overload.h:226
OverloadCandidateDisplayKind
Definition: Overload.h:64
@ OCD_AmbiguousCandidates
Requests that only tied-for-best candidates be shown.
Definition: Overload.h:73
@ OCD_ViableCandidates
Requests that only viable candidates be shown.
Definition: Overload.h:70
@ OCD_AllCandidates
Requests that all candidates be shown.
Definition: Overload.h:67
OverloadCandidateParamOrder
The parameter ordering that will be used for the candidate.
Definition: Overload.h:84
OverloadCandidateRewriteKind
The kinds of rewrite we perform on overload candidates.
Definition: Overload.h:89
@ CRK_Reversed
Candidate is a rewritten candidate with a reversed order of parameters.
Definition: Overload.h:97
@ CRK_None
Candidate is not a rewritten candidate.
Definition: Overload.h:91
@ CRK_DifferentOperator
Candidate is a rewritten candidate with a different operator name.
Definition: Overload.h:94
ImplicitConversionKind
ImplicitConversionKind - The kind of implicit conversion used to convert an argument to a parameter's...
Definition: Overload.h:104
@ ICK_Complex_Conversion
Complex conversions (C99 6.3.1.6)
Definition: Overload.h:139
@ ICK_Floating_Promotion
Floating point promotions (C++ [conv.fpprom])
Definition: Overload.h:127
@ ICK_Boolean_Conversion
Boolean conversions (C++ [conv.bool])
Definition: Overload.h:151
@ ICK_Integral_Conversion
Integral conversions (C++ [conv.integral])
Definition: Overload.h:133
@ ICK_HLSL_Vector_Splat
Definition: Overload.h:205
@ ICK_Fixed_Point_Conversion
Fixed point type conversions according to N1169.
Definition: Overload.h:196
@ ICK_Vector_Conversion
Vector conversions.
Definition: Overload.h:160
@ ICK_Block_Pointer_Conversion
Block Pointer conversions.
Definition: Overload.h:175
@ ICK_Pointer_Member
Pointer-to-member conversions (C++ [conv.mem])
Definition: Overload.h:148
@ ICK_Floating_Integral
Floating-integral conversions (C++ [conv.fpint])
Definition: Overload.h:142
@ ICK_HLSL_Array_RValue
HLSL non-decaying array rvalue cast.
Definition: Overload.h:202
@ ICK_SVE_Vector_Conversion
Arm SVE Vector conversions.
Definition: Overload.h:163
@ ICK_HLSL_Vector_Truncation
HLSL vector truncation.
Definition: Overload.h:199
@ ICK_Incompatible_Pointer_Conversion
C-only conversion between pointers with incompatible types.
Definition: Overload.h:193
@ ICK_Array_To_Pointer
Array-to-pointer conversion (C++ [conv.array])
Definition: Overload.h:112
@ ICK_RVV_Vector_Conversion
RISC-V RVV Vector conversions.
Definition: Overload.h:166
@ ICK_Complex_Promotion
Complex promotions (Clang extension)
Definition: Overload.h:130
@ ICK_Num_Conversion_Kinds
The number of conversion kinds.
Definition: Overload.h:208
@ ICK_Function_Conversion
Function pointer conversion (C++17 [conv.fctptr])
Definition: Overload.h:118
@ ICK_Vector_Splat
A vector splat from an arithmetic type.
Definition: Overload.h:169
@ ICK_Zero_Queue_Conversion
Zero constant to queue.
Definition: Overload.h:187
@ ICK_Identity
Identity conversion (no conversion)
Definition: Overload.h:106
@ ICK_Derived_To_Base
Derived-to-base (C++ [over.best.ics])
Definition: Overload.h:157
@ ICK_Lvalue_To_Rvalue
Lvalue-to-rvalue conversion (C++ [conv.lval])
Definition: Overload.h:109
@ ICK_Qualification
Qualification conversions (C++ [conv.qual])
Definition: Overload.h:121
@ ICK_Pointer_Conversion
Pointer conversions (C++ [conv.ptr])
Definition: Overload.h:145
@ ICK_TransparentUnionConversion
Transparent Union Conversions.
Definition: Overload.h:178
@ ICK_Integral_Promotion
Integral promotions (C++ [conv.prom])
Definition: Overload.h:124
@ ICK_Floating_Conversion
Floating point conversions (C++ [conv.double].
Definition: Overload.h:136
@ ICK_Compatible_Conversion
Conversions between compatible types in C99.
Definition: Overload.h:154
@ ICK_C_Only_Conversion
Conversions allowed in C, but not C++.
Definition: Overload.h:190
@ ICK_Writeback_Conversion
Objective-C ARC writeback conversion.
Definition: Overload.h:181
@ ICK_Zero_Event_Conversion
Zero constant to event (OpenCL1.2 6.12.10)
Definition: Overload.h:184
@ ICK_Complex_Real
Complex-real conversions (C99 6.3.1.7)
Definition: Overload.h:172
@ ICK_Function_To_Pointer
Function-to-pointer (C++ [conv.array])
Definition: Overload.h:115
LangAS
Defines the address space values used by the address space qualifier of QualType.
Definition: AddressSpaces.h:25
OverloadedOperatorKind getRewrittenOverloadedOperator(OverloadedOperatorKind Kind)
Get the other overloaded operator that the given operator can be rewritten into, if any such operator...
Definition: OperatorKinds.h:36
bool isBetterOverloadCandidate(Sema &S, const OverloadCandidate &Cand1, const OverloadCandidate &Cand2, SourceLocation Loc, OverloadCandidateSet::CandidateSetKind Kind)
isBetterOverloadCandidate - Determines whether the first overload candidate is a better candidate tha...
const FunctionProtoType * T
bool shouldEnforceArgLimit(bool PartialOverloading, FunctionDecl *Function)
NarrowingKind
NarrowingKind - The kind of narrowing conversion being performed by a standard conversion sequence ac...
Definition: Overload.h:268
@ NK_Not_Narrowing
Not a narrowing conversion.
Definition: Overload.h:270
@ NK_Constant_Narrowing
A narrowing conversion, because a constant expression got narrowed.
Definition: Overload.h:276
@ NK_Dependent_Narrowing
Cannot tell whether this is a narrowing conversion because the expression is value-dependent.
Definition: Overload.h:284
@ NK_Type_Narrowing
A narrowing conversion by virtue of the source and destination types.
Definition: Overload.h:273
@ NK_Variable_Narrowing
A narrowing conversion, because a non-constant-expression variable might have got narrowed.
Definition: Overload.h:280
std::pair< SourceLocation, PartialDiagnostic > PartialDiagnosticAt
A partial diagnostic along with the source location where this diagnostic occurs.
ConstructorInfo getConstructorInfo(NamedDecl *ND)
Definition: Overload.h:1273
ImplicitConversionRank GetConversionRank(ImplicitConversionKind Kind)
GetConversionRank - Retrieve the implicit conversion rank corresponding to the given implicit convers...
@ Other
Other implicit parameter.
__UINTPTR_TYPE__ uintptr_t
An unsigned integer type with the property that any valid pointer to void can be converted to this ty...
#define false
Definition: stdbool.h:26
#define bool
Definition: stdbool.h:24
Represents an ambiguous user-defined conversion sequence.
Definition: Overload.h:467
ConversionSet::const_iterator const_iterator
Definition: Overload.h:503
const ConversionSet & conversions() const
Definition: Overload.h:490
ConversionSet & conversions()
Definition: Overload.h:486
const_iterator end() const
Definition: Overload.h:506
void addConversion(NamedDecl *Found, FunctionDecl *D)
Definition: Overload.h:494
SmallVector< std::pair< NamedDecl *, FunctionDecl * >, 4 > ConversionSet
Definition: Overload.h:469
char Buffer[sizeof(ConversionSet)]
Definition: Overload.h:473
void copyFrom(const AmbiguousConversionSequence &)
ConversionSet::iterator iterator
Definition: Overload.h:498
const_iterator begin() const
Definition: Overload.h:505
BadConversionSequence - Records information about an invalid conversion sequence.
Definition: Overload.h:515
void setToType(QualType T)
Definition: Overload.h:560
void setFromType(QualType T)
Definition: Overload.h:559
void init(FailureKind K, Expr *From, QualType To)
Definition: Overload.h:539
void init(FailureKind K, QualType From, QualType To)
Definition: Overload.h:544
QualType getToType() const
Definition: Overload.h:552
void setFromExpr(Expr *E)
Definition: Overload.h:554
QualType getFromType() const
Definition: Overload.h:551
FunctionTemplateDecl * ConstructorTmpl
Definition: Overload.h:1266
CXXConstructorDecl * Constructor
Definition: Overload.h:1265
DeclAccessPair FoundDecl
Definition: Overload.h:1264
The class facilities generation and storage of conversion FixIts.
bool tryToFixConversion(const Expr *FromExpr, const QualType FromQTy, const QualType ToQTy, Sema &S)
If possible, generates and stores a fix for the given conversion.
A structure used to record information about a failed template argument deduction,...
Information about operator rewrites to consider when adding operator functions to a candidate set.
Definition: Overload.h:1038
bool shouldAddReversed(Sema &S, ArrayRef< Expr * > OriginalArgs, FunctionDecl *FD)
Determine whether we should add a rewritten candidate for FD with reversed parameter order.
bool allowsReversed(OverloadedOperatorKind Op)
Determine whether reversing parameter order is allowed for operator Op.
OperatorRewriteInfo(OverloadedOperatorKind Op, SourceLocation OpLoc, bool AllowRewritten)
Definition: Overload.h:1041
bool isRewrittenOperator(const FunctionDecl *FD)
Would use of this function result in a rewrite using a different operator?
Definition: Overload.h:1055
SourceLocation OpLoc
The source location of the operator.
Definition: Overload.h:1049
bool AllowRewrittenCandidates
Whether we should include rewritten candidates in the overload set.
Definition: Overload.h:1051
bool isReversible()
Determines whether this operator could be implemented by a function with reversed parameter order.
Definition: Overload.h:1087
OverloadedOperatorKind OriginalOperator
The original operator as written in the source.
Definition: Overload.h:1047
bool isAcceptableCandidate(const FunctionDecl *FD)
Definition: Overload.h:1060
OverloadCandidateRewriteKind getRewriteKind(const FunctionDecl *FD, OverloadCandidateParamOrder PO)
Determine the kind of rewrite that should be performed for this candidate.
Definition: Overload.h:1077
OverloadCandidate - A single candidate in an overload set (C++ 13.3).
Definition: Overload.h:872
CallExpr::ADLCallKind IsADLCandidate
True if the candidate was found using ADL.
Definition: Overload.h:929
bool TryToFixBadConversion(unsigned Idx, Sema &S)
Definition: Overload.h:971
bool NotValidBecauseConstraintExprHasError() const
bool isReversed() const
Definition: Overload.h:959
bool IsSurrogate
IsSurrogate - True to indicate that this candidate is a surrogate for a conversion to a function poin...
Definition: Overload.h:915
QualType BuiltinParamTypes[3]
BuiltinParamTypes - Provides the parameter types of a built-in overload candidate.
Definition: Overload.h:886
bool hasAmbiguousConversion() const
hasAmbiguousConversion - Returns whether this overload candidate requires an ambiguous conversion or ...
Definition: Overload.h:963
bool IgnoreObjectArgument
IgnoreObjectArgument - True to indicate that the first argument's conversion, which for this function...
Definition: Overload.h:924
DeclAccessPair FoundDecl
FoundDecl - The original declaration that was looked up / invented / otherwise found,...
Definition: Overload.h:882
FunctionDecl * Function
Function - The actual function that this candidate represents.
Definition: Overload.h:877
bool Viable
Viable - True to indicate that this overload candidate is viable.
Definition: Overload.h:901
unsigned RewriteKind
Whether this is a rewritten candidate, and if so, of what kind?
Definition: Overload.h:933
ConversionFixItGenerator Fix
The FixIt hints which can be used to fix the Bad candidate.
Definition: Overload.h:898
StandardConversionSequence FinalConversion
FinalConversion - For a conversion function (where Function is a CXXConversionDecl),...
Definition: Overload.h:950
unsigned getNumParams() const
Definition: Overload.h:984
unsigned ExplicitCallArguments
The number of call arguments that were explicitly provided, to be used while performing partial order...
Definition: Overload.h:941
unsigned char FailureKind
FailureKind - The reason why this candidate is not viable.
Definition: Overload.h:937
ConversionSequenceList Conversions
The conversion sequences used to convert the function arguments to the function parameters.
Definition: Overload.h:895
DeductionFailureInfo DeductionFailure
Definition: Overload.h:944
bool Best
Whether this candidate is the best viable function, or tied for being the best viable function.
Definition: Overload.h:910
CXXConversionDecl * Surrogate
Surrogate - The conversion function for which this candidate is a surrogate, but only if IsSurrogate ...
Definition: Overload.h:890
OverloadCandidateRewriteKind getRewriteKind() const
Get RewriteKind value in OverloadCandidateRewriteKind type (This function is to workaround the spurio...
Definition: Overload.h:955
UserDefinedConversionSequence - Represents a user-defined conversion sequence (C++ 13....
Definition: Overload.h:422
StandardConversionSequence Before
Represents the standard conversion that occurs before the actual user-defined conversion.
Definition: Overload.h:434
FunctionDecl * ConversionFunction
ConversionFunction - The function that will perform the user-defined conversion.
Definition: Overload.h:456
bool HadMultipleCandidates
HadMultipleCandidates - When this is true, it means that the conversion function was resolved from an...
Definition: Overload.h:447
StandardConversionSequence After
After - Represents the standard conversion that occurs after the actual user-defined conversion.
Definition: Overload.h:451
bool EllipsisConversion
EllipsisConversion - When this is true, it means user-defined conversion sequence starts with a ....
Definition: Overload.h:442
DeclAccessPair FoundConversionFunction
The declaration that we found via name lookup, which might be the same as ConversionFunction or it mi...
Definition: Overload.h:461
void dump() const
dump - Print this user-defined conversion sequence to standard error.