1 //===- CodeCompleteConsumer.h - Code Completion Interface -------*- 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 CodeCompleteConsumer class. 10 // 11 //===----------------------------------------------------------------------===// 12 13 #ifndef LLVM_CLANG_SEMA_CODECOMPLETECONSUMER_H 14 #define LLVM_CLANG_SEMA_CODECOMPLETECONSUMER_H 15 16 #include "clang-c/Index.h" 17 #include "clang/AST/Type.h" 18 #include "clang/Basic/LLVM.h" 19 #include "clang/Lex/MacroInfo.h" 20 #include "clang/Sema/CodeCompleteOptions.h" 21 #include "clang/Sema/DeclSpec.h" 22 #include "llvm/ADT/ArrayRef.h" 23 #include "llvm/ADT/DenseMap.h" 24 #include "llvm/ADT/SmallPtrSet.h" 25 #include "llvm/ADT/SmallVector.h" 26 #include "llvm/ADT/StringRef.h" 27 #include "llvm/Support/Allocator.h" 28 #include "llvm/Support/type_traits.h" 29 #include <cassert> 30 #include <memory> 31 #include <optional> 32 #include <string> 33 #include <utility> 34 35 namespace clang { 36 37 class ASTContext; 38 class Decl; 39 class DeclContext; 40 class FunctionDecl; 41 class FunctionTemplateDecl; 42 class IdentifierInfo; 43 class LangOptions; 44 class NamedDecl; 45 class NestedNameSpecifier; 46 class Preprocessor; 47 class RawComment; 48 class Sema; 49 class UsingShadowDecl; 50 51 /// Default priority values for code-completion results based 52 /// on their kind. 53 enum { 54 /// Priority for the next initialization in a constructor initializer 55 /// list. 56 CCP_NextInitializer = 7, 57 58 /// Priority for an enumeration constant inside a switch whose 59 /// condition is of the enumeration type. 60 CCP_EnumInCase = 7, 61 62 /// Priority for a send-to-super completion. 63 CCP_SuperCompletion = 20, 64 65 /// Priority for a declaration that is in the local scope. 66 CCP_LocalDeclaration = 34, 67 68 /// Priority for a member declaration found from the current 69 /// method or member function. 70 CCP_MemberDeclaration = 35, 71 72 /// Priority for a language keyword (that isn't any of the other 73 /// categories). 74 CCP_Keyword = 40, 75 76 /// Priority for a code pattern. 77 CCP_CodePattern = 40, 78 79 /// Priority for a non-type declaration. 80 CCP_Declaration = 50, 81 82 /// Priority for a type. 83 CCP_Type = CCP_Declaration, 84 85 /// Priority for a constant value (e.g., enumerator). 86 CCP_Constant = 65, 87 88 /// Priority for a preprocessor macro. 89 CCP_Macro = 70, 90 91 /// Priority for a nested-name-specifier. 92 CCP_NestedNameSpecifier = 75, 93 94 /// Priority for a result that isn't likely to be what the user wants, 95 /// but is included for completeness. 96 CCP_Unlikely = 80, 97 98 /// Priority for the Objective-C "_cmd" implicit parameter. 99 CCP_ObjC_cmd = CCP_Unlikely 100 }; 101 102 /// Priority value deltas that are added to code-completion results 103 /// based on the context of the result. 104 enum { 105 /// The result is in a base class. 106 CCD_InBaseClass = 2, 107 108 /// The result is a C++ non-static member function whose qualifiers 109 /// exactly match the object type on which the member function can be called. 110 CCD_ObjectQualifierMatch = -1, 111 112 /// The selector of the given message exactly matches the selector 113 /// of the current method, which might imply that some kind of delegation 114 /// is occurring. 115 CCD_SelectorMatch = -3, 116 117 /// Adjustment to the "bool" type in Objective-C, where the typedef 118 /// "BOOL" is preferred. 119 CCD_bool_in_ObjC = 1, 120 121 /// Adjustment for KVC code pattern priorities when it doesn't look 122 /// like the 123 CCD_ProbablyNotObjCCollection = 15, 124 125 /// An Objective-C method being used as a property. 126 CCD_MethodAsProperty = 2, 127 128 /// An Objective-C block property completed as a setter with a 129 /// block placeholder. 130 CCD_BlockPropertySetter = 3 131 }; 132 133 /// Priority value factors by which we will divide or multiply the 134 /// priority of a code-completion result. 135 enum { 136 /// Divide by this factor when a code-completion result's type exactly 137 /// matches the type we expect. 138 CCF_ExactTypeMatch = 4, 139 140 /// Divide by this factor when a code-completion result's type is 141 /// similar to the type we expect (e.g., both arithmetic types, both 142 /// Objective-C object pointer types). 143 CCF_SimilarTypeMatch = 2 144 }; 145 146 /// A simplified classification of types used when determining 147 /// "similar" types for code completion. 148 enum SimplifiedTypeClass { 149 STC_Arithmetic, 150 STC_Array, 151 STC_Block, 152 STC_Function, 153 STC_ObjectiveC, 154 STC_Other, 155 STC_Pointer, 156 STC_Record, 157 STC_Void 158 }; 159 160 /// Determine the simplified type class of the given canonical type. 161 SimplifiedTypeClass getSimplifiedTypeClass(CanQualType T); 162 163 /// Determine the type that this declaration will have if it is used 164 /// as a type or in an expression. 165 QualType getDeclUsageType(ASTContext &C, const NamedDecl *ND); 166 167 /// Determine the priority to be given to a macro code completion result 168 /// with the given name. 169 /// 170 /// \param MacroName The name of the macro. 171 /// 172 /// \param LangOpts Options describing the current language dialect. 173 /// 174 /// \param PreferredTypeIsPointer Whether the preferred type for the context 175 /// of this macro is a pointer type. 176 unsigned getMacroUsagePriority(StringRef MacroName, 177 const LangOptions &LangOpts, 178 bool PreferredTypeIsPointer = false); 179 180 /// Determine the libclang cursor kind associated with the given 181 /// declaration. 182 CXCursorKind getCursorKindForDecl(const Decl *D); 183 184 /// The context in which code completion occurred, so that the 185 /// code-completion consumer can process the results accordingly. 186 class CodeCompletionContext { 187 public: 188 enum Kind { 189 /// An unspecified code-completion context. 190 CCC_Other, 191 192 /// An unspecified code-completion context where we should also add 193 /// macro completions. 194 CCC_OtherWithMacros, 195 196 /// Code completion occurred within a "top-level" completion context, 197 /// e.g., at namespace or global scope. 198 CCC_TopLevel, 199 200 /// Code completion occurred within an Objective-C interface, 201 /// protocol, or category interface. 202 CCC_ObjCInterface, 203 204 /// Code completion occurred within an Objective-C implementation 205 /// or category implementation. 206 CCC_ObjCImplementation, 207 208 /// Code completion occurred within the instance variable list of 209 /// an Objective-C interface, implementation, or category implementation. 210 CCC_ObjCIvarList, 211 212 /// Code completion occurred within a class, struct, or union. 213 CCC_ClassStructUnion, 214 215 /// Code completion occurred where a statement (or declaration) is 216 /// expected in a function, method, or block. 217 CCC_Statement, 218 219 /// Code completion occurred where an expression is expected. 220 CCC_Expression, 221 222 /// Code completion occurred where an Objective-C message receiver 223 /// is expected. 224 CCC_ObjCMessageReceiver, 225 226 /// Code completion occurred on the right-hand side of a member 227 /// access expression using the dot operator. 228 /// 229 /// The results of this completion are the members of the type being 230 /// accessed. The type itself is available via 231 /// \c CodeCompletionContext::getType(). 232 CCC_DotMemberAccess, 233 234 /// Code completion occurred on the right-hand side of a member 235 /// access expression using the arrow operator. 236 /// 237 /// The results of this completion are the members of the type being 238 /// accessed. The type itself is available via 239 /// \c CodeCompletionContext::getType(). 240 CCC_ArrowMemberAccess, 241 242 /// Code completion occurred on the right-hand side of an Objective-C 243 /// property access expression. 244 /// 245 /// The results of this completion are the members of the type being 246 /// accessed. The type itself is available via 247 /// \c CodeCompletionContext::getType(). 248 CCC_ObjCPropertyAccess, 249 250 /// Code completion occurred after the "enum" keyword, to indicate 251 /// an enumeration name. 252 CCC_EnumTag, 253 254 /// Code completion occurred after the "union" keyword, to indicate 255 /// a union name. 256 CCC_UnionTag, 257 258 /// Code completion occurred after the "struct" or "class" keyword, 259 /// to indicate a struct or class name. 260 CCC_ClassOrStructTag, 261 262 /// Code completion occurred where a protocol name is expected. 263 CCC_ObjCProtocolName, 264 265 /// Code completion occurred where a namespace or namespace alias 266 /// is expected. 267 CCC_Namespace, 268 269 /// Code completion occurred where a type name is expected. 270 CCC_Type, 271 272 /// Code completion occurred where a new name is expected. 273 CCC_NewName, 274 275 /// Code completion occurred where both a new name and an existing symbol is 276 /// permissible. 277 CCC_SymbolOrNewName, 278 279 /// Code completion occurred where an existing name(such as type, function 280 /// or variable) is expected. 281 CCC_Symbol, 282 283 /// Code completion occurred where an macro is being defined. 284 CCC_MacroName, 285 286 /// Code completion occurred where a macro name is expected 287 /// (without any arguments, in the case of a function-like macro). 288 CCC_MacroNameUse, 289 290 /// Code completion occurred within a preprocessor expression. 291 CCC_PreprocessorExpression, 292 293 /// Code completion occurred where a preprocessor directive is 294 /// expected. 295 CCC_PreprocessorDirective, 296 297 /// Code completion occurred in a context where natural language is 298 /// expected, e.g., a comment or string literal. 299 /// 300 /// This context usually implies that no completions should be added, 301 /// unless they come from an appropriate natural-language dictionary. 302 CCC_NaturalLanguage, 303 304 /// Code completion for a selector, as in an \@selector expression. 305 CCC_SelectorName, 306 307 /// Code completion within a type-qualifier list. 308 CCC_TypeQualifiers, 309 310 /// Code completion in a parenthesized expression, which means that 311 /// we may also have types here in C and Objective-C (as well as in C++). 312 CCC_ParenthesizedExpression, 313 314 /// Code completion where an Objective-C instance message is 315 /// expected. 316 CCC_ObjCInstanceMessage, 317 318 /// Code completion where an Objective-C class message is expected. 319 CCC_ObjCClassMessage, 320 321 /// Code completion where the name of an Objective-C class is 322 /// expected. 323 CCC_ObjCInterfaceName, 324 325 /// Code completion where an Objective-C category name is expected. 326 CCC_ObjCCategoryName, 327 328 /// Code completion inside the filename part of a #include directive. 329 CCC_IncludedFile, 330 331 /// Code completion of an attribute name. 332 CCC_Attribute, 333 334 /// An unknown context, in which we are recovering from a parsing 335 /// error and don't know which completions we should give. 336 CCC_Recovery 337 }; 338 339 using VisitedContextSet = llvm::SmallPtrSet<DeclContext *, 8>; 340 341 private: 342 Kind CCKind; 343 344 /// Indicates whether we are completing a name of a using declaration, e.g. 345 /// using ^; 346 /// using a::^; 347 bool IsUsingDeclaration; 348 349 /// The type that would prefer to see at this point (e.g., the type 350 /// of an initializer or function parameter). 351 QualType PreferredType; 352 353 /// The type of the base object in a member access expression. 354 QualType BaseType; 355 356 /// The identifiers for Objective-C selector parts. 357 ArrayRef<IdentifierInfo *> SelIdents; 358 359 /// The scope specifier that comes before the completion token e.g. 360 /// "a::b::" 361 std::optional<CXXScopeSpec> ScopeSpecifier; 362 363 /// A set of declaration contexts visited by Sema when doing lookup for 364 /// code completion. 365 VisitedContextSet VisitedContexts; 366 367 public: 368 /// Construct a new code-completion context of the given kind. 369 CodeCompletionContext(Kind CCKind) 370 : CCKind(CCKind), IsUsingDeclaration(false), SelIdents(std::nullopt) {} 371 372 /// Construct a new code-completion context of the given kind. 373 CodeCompletionContext(Kind CCKind, QualType T, 374 ArrayRef<IdentifierInfo *> SelIdents = std::nullopt) 375 : CCKind(CCKind), IsUsingDeclaration(false), SelIdents(SelIdents) { 376 if (CCKind == CCC_DotMemberAccess || CCKind == CCC_ArrowMemberAccess || 377 CCKind == CCC_ObjCPropertyAccess || CCKind == CCC_ObjCClassMessage || 378 CCKind == CCC_ObjCInstanceMessage) 379 BaseType = T; 380 else 381 PreferredType = T; 382 } 383 384 bool isUsingDeclaration() const { return IsUsingDeclaration; } 385 void setIsUsingDeclaration(bool V) { IsUsingDeclaration = V; } 386 387 /// Retrieve the kind of code-completion context. 388 Kind getKind() const { return CCKind; } 389 390 /// Retrieve the type that this expression would prefer to have, e.g., 391 /// if the expression is a variable initializer or a function argument, the 392 /// type of the corresponding variable or function parameter. 393 QualType getPreferredType() const { return PreferredType; } 394 void setPreferredType(QualType T) { PreferredType = T; } 395 396 /// Retrieve the type of the base object in a member-access 397 /// expression. 398 QualType getBaseType() const { return BaseType; } 399 400 /// Retrieve the Objective-C selector identifiers. 401 ArrayRef<IdentifierInfo *> getSelIdents() const { return SelIdents; } 402 403 /// Determines whether we want C++ constructors as results within this 404 /// context. 405 bool wantConstructorResults() const; 406 407 /// Sets the scope specifier that comes before the completion token. 408 /// This is expected to be set in code completions on qualfied specifiers 409 /// (e.g. "a::b::"). 410 void setCXXScopeSpecifier(CXXScopeSpec SS) { 411 this->ScopeSpecifier = std::move(SS); 412 } 413 414 /// Adds a visited context. 415 void addVisitedContext(DeclContext *Ctx) { 416 VisitedContexts.insert(Ctx); 417 } 418 419 /// Retrieves all visited contexts. 420 const VisitedContextSet &getVisitedContexts() const { 421 return VisitedContexts; 422 } 423 424 std::optional<const CXXScopeSpec *> getCXXScopeSpecifier() { 425 if (ScopeSpecifier) 426 return &*ScopeSpecifier; 427 return std::nullopt; 428 } 429 }; 430 431 /// Get string representation of \p Kind, useful for debugging. 432 llvm::StringRef getCompletionKindString(CodeCompletionContext::Kind Kind); 433 434 /// A "string" used to describe how code completion can 435 /// be performed for an entity. 436 /// 437 /// A code completion string typically shows how a particular entity can be 438 /// used. For example, the code completion string for a function would show 439 /// the syntax to call it, including the parentheses, placeholders for the 440 /// arguments, etc. 441 class CodeCompletionString { 442 public: 443 /// The different kinds of "chunks" that can occur within a code 444 /// completion string. 445 enum ChunkKind { 446 /// The piece of text that the user is expected to type to 447 /// match the code-completion string, typically a keyword or the name of a 448 /// declarator or macro. 449 CK_TypedText, 450 451 /// A piece of text that should be placed in the buffer, e.g., 452 /// parentheses or a comma in a function call. 453 CK_Text, 454 455 /// A code completion string that is entirely optional. For example, 456 /// an optional code completion string that describes the default arguments 457 /// in a function call. 458 CK_Optional, 459 460 /// A string that acts as a placeholder for, e.g., a function 461 /// call argument. 462 CK_Placeholder, 463 464 /// A piece of text that describes something about the result but 465 /// should not be inserted into the buffer. 466 CK_Informative, 467 /// A piece of text that describes the type of an entity or, for 468 /// functions and methods, the return type. 469 CK_ResultType, 470 471 /// A piece of text that describes the parameter that corresponds 472 /// to the code-completion location within a function call, message send, 473 /// macro invocation, etc. 474 CK_CurrentParameter, 475 476 /// A left parenthesis ('('). 477 CK_LeftParen, 478 479 /// A right parenthesis (')'). 480 CK_RightParen, 481 482 /// A left bracket ('['). 483 CK_LeftBracket, 484 485 /// A right bracket (']'). 486 CK_RightBracket, 487 488 /// A left brace ('{'). 489 CK_LeftBrace, 490 491 /// A right brace ('}'). 492 CK_RightBrace, 493 494 /// A left angle bracket ('<'). 495 CK_LeftAngle, 496 497 /// A right angle bracket ('>'). 498 CK_RightAngle, 499 500 /// A comma separator (','). 501 CK_Comma, 502 503 /// A colon (':'). 504 CK_Colon, 505 506 /// A semicolon (';'). 507 CK_SemiColon, 508 509 /// An '=' sign. 510 CK_Equal, 511 512 /// Horizontal whitespace (' '). 513 CK_HorizontalSpace, 514 515 /// Vertical whitespace ('\\n' or '\\r\\n', depending on the 516 /// platform). 517 CK_VerticalSpace 518 }; 519 520 /// One piece of the code completion string. 521 struct Chunk { 522 /// The kind of data stored in this piece of the code completion 523 /// string. 524 ChunkKind Kind = CK_Text; 525 526 union { 527 /// The text string associated with a CK_Text, CK_Placeholder, 528 /// CK_Informative, or CK_Comma chunk. 529 /// The string is owned by the chunk and will be deallocated 530 /// (with delete[]) when the chunk is destroyed. 531 const char *Text; 532 533 /// The code completion string associated with a CK_Optional chunk. 534 /// The optional code completion string is owned by the chunk, and will 535 /// be deallocated (with delete) when the chunk is destroyed. 536 CodeCompletionString *Optional; 537 }; 538 539 Chunk() : Text(nullptr) {} 540 541 explicit Chunk(ChunkKind Kind, const char *Text = ""); 542 543 /// Create a new text chunk. 544 static Chunk CreateText(const char *Text); 545 546 /// Create a new optional chunk. 547 static Chunk CreateOptional(CodeCompletionString *Optional); 548 549 /// Create a new placeholder chunk. 550 static Chunk CreatePlaceholder(const char *Placeholder); 551 552 /// Create a new informative chunk. 553 static Chunk CreateInformative(const char *Informative); 554 555 /// Create a new result type chunk. 556 static Chunk CreateResultType(const char *ResultType); 557 558 /// Create a new current-parameter chunk. 559 static Chunk CreateCurrentParameter(const char *CurrentParameter); 560 }; 561 562 private: 563 friend class CodeCompletionBuilder; 564 friend class CodeCompletionResult; 565 566 /// The number of chunks stored in this string. 567 unsigned NumChunks : 16; 568 569 /// The number of annotations for this code-completion result. 570 unsigned NumAnnotations : 16; 571 572 /// The priority of this code-completion string. 573 unsigned Priority : 16; 574 575 /// The availability of this code-completion result. 576 unsigned Availability : 2; 577 578 /// The name of the parent context. 579 StringRef ParentName; 580 581 /// A brief documentation comment attached to the declaration of 582 /// entity being completed by this result. 583 const char *BriefComment; 584 585 CodeCompletionString(const Chunk *Chunks, unsigned NumChunks, 586 unsigned Priority, CXAvailabilityKind Availability, 587 const char **Annotations, unsigned NumAnnotations, 588 StringRef ParentName, 589 const char *BriefComment); 590 ~CodeCompletionString() = default; 591 592 public: 593 CodeCompletionString(const CodeCompletionString &) = delete; 594 CodeCompletionString &operator=(const CodeCompletionString &) = delete; 595 596 using iterator = const Chunk *; 597 598 iterator begin() const { return reinterpret_cast<const Chunk *>(this + 1); } 599 iterator end() const { return begin() + NumChunks; } 600 bool empty() const { return NumChunks == 0; } 601 unsigned size() const { return NumChunks; } 602 603 const Chunk &operator[](unsigned I) const { 604 assert(I < size() && "Chunk index out-of-range"); 605 return begin()[I]; 606 } 607 608 /// Returns the text in the first TypedText chunk. 609 const char *getTypedText() const; 610 611 /// Returns the combined text from all TypedText chunks. 612 std::string getAllTypedText() const; 613 614 /// Retrieve the priority of this code completion result. 615 unsigned getPriority() const { return Priority; } 616 617 /// Retrieve the availability of this code completion result. 618 unsigned getAvailability() const { return Availability; } 619 620 /// Retrieve the number of annotations for this code completion result. 621 unsigned getAnnotationCount() const; 622 623 /// Retrieve the annotation string specified by \c AnnotationNr. 624 const char *getAnnotation(unsigned AnnotationNr) const; 625 626 /// Retrieve the name of the parent context. 627 StringRef getParentContextName() const { 628 return ParentName; 629 } 630 631 const char *getBriefComment() const { 632 return BriefComment; 633 } 634 635 /// Retrieve a string representation of the code completion string, 636 /// which is mainly useful for debugging. 637 std::string getAsString() const; 638 }; 639 640 /// An allocator used specifically for the purpose of code completion. 641 class CodeCompletionAllocator : public llvm::BumpPtrAllocator { 642 public: 643 /// Copy the given string into this allocator. 644 const char *CopyString(const Twine &String); 645 }; 646 647 /// Allocator for a cached set of global code completions. 648 class GlobalCodeCompletionAllocator : public CodeCompletionAllocator {}; 649 650 class CodeCompletionTUInfo { 651 llvm::DenseMap<const DeclContext *, StringRef> ParentNames; 652 std::shared_ptr<GlobalCodeCompletionAllocator> AllocatorRef; 653 654 public: 655 explicit CodeCompletionTUInfo( 656 std::shared_ptr<GlobalCodeCompletionAllocator> Allocator) 657 : AllocatorRef(std::move(Allocator)) {} 658 659 std::shared_ptr<GlobalCodeCompletionAllocator> getAllocatorRef() const { 660 return AllocatorRef; 661 } 662 663 CodeCompletionAllocator &getAllocator() const { 664 assert(AllocatorRef); 665 return *AllocatorRef; 666 } 667 668 StringRef getParentName(const DeclContext *DC); 669 }; 670 671 } // namespace clang 672 673 namespace clang { 674 675 /// A builder class used to construct new code-completion strings. 676 class CodeCompletionBuilder { 677 public: 678 using Chunk = CodeCompletionString::Chunk; 679 680 private: 681 CodeCompletionAllocator &Allocator; 682 CodeCompletionTUInfo &CCTUInfo; 683 unsigned Priority = 0; 684 CXAvailabilityKind Availability = CXAvailability_Available; 685 StringRef ParentName; 686 const char *BriefComment = nullptr; 687 688 /// The chunks stored in this string. 689 SmallVector<Chunk, 4> Chunks; 690 691 SmallVector<const char *, 2> Annotations; 692 693 public: 694 CodeCompletionBuilder(CodeCompletionAllocator &Allocator, 695 CodeCompletionTUInfo &CCTUInfo) 696 : Allocator(Allocator), CCTUInfo(CCTUInfo) {} 697 698 CodeCompletionBuilder(CodeCompletionAllocator &Allocator, 699 CodeCompletionTUInfo &CCTUInfo, 700 unsigned Priority, CXAvailabilityKind Availability) 701 : Allocator(Allocator), CCTUInfo(CCTUInfo), Priority(Priority), 702 Availability(Availability) {} 703 704 /// Retrieve the allocator into which the code completion 705 /// strings should be allocated. 706 CodeCompletionAllocator &getAllocator() const { return Allocator; } 707 708 CodeCompletionTUInfo &getCodeCompletionTUInfo() const { return CCTUInfo; } 709 710 /// Take the resulting completion string. 711 /// 712 /// This operation can only be performed once. 713 CodeCompletionString *TakeString(); 714 715 /// Add a new typed-text chunk. 716 void AddTypedTextChunk(const char *Text); 717 718 /// Add a new text chunk. 719 void AddTextChunk(const char *Text); 720 721 /// Add a new optional chunk. 722 void AddOptionalChunk(CodeCompletionString *Optional); 723 724 /// Add a new placeholder chunk. 725 void AddPlaceholderChunk(const char *Placeholder); 726 727 /// Add a new informative chunk. 728 void AddInformativeChunk(const char *Text); 729 730 /// Add a new result-type chunk. 731 void AddResultTypeChunk(const char *ResultType); 732 733 /// Add a new current-parameter chunk. 734 void AddCurrentParameterChunk(const char *CurrentParameter); 735 736 /// Add a new chunk. 737 void AddChunk(CodeCompletionString::ChunkKind CK, const char *Text = ""); 738 739 void AddAnnotation(const char *A) { Annotations.push_back(A); } 740 741 /// Add the parent context information to this code completion. 742 void addParentContext(const DeclContext *DC); 743 744 const char *getBriefComment() const { return BriefComment; } 745 void addBriefComment(StringRef Comment); 746 747 StringRef getParentName() const { return ParentName; } 748 }; 749 750 /// Captures a result of code completion. 751 class CodeCompletionResult { 752 public: 753 /// Describes the kind of result generated. 754 enum ResultKind { 755 /// Refers to a declaration. 756 RK_Declaration = 0, 757 758 /// Refers to a keyword or symbol. 759 RK_Keyword, 760 761 /// Refers to a macro. 762 RK_Macro, 763 764 /// Refers to a precomputed pattern. 765 RK_Pattern 766 }; 767 768 /// When Kind == RK_Declaration or RK_Pattern, the declaration we are 769 /// referring to. In the latter case, the declaration might be NULL. 770 const NamedDecl *Declaration = nullptr; 771 772 union { 773 /// When Kind == RK_Keyword, the string representing the keyword 774 /// or symbol's spelling. 775 const char *Keyword; 776 777 /// When Kind == RK_Pattern, the code-completion string that 778 /// describes the completion text to insert. 779 CodeCompletionString *Pattern; 780 781 /// When Kind == RK_Macro, the identifier that refers to a macro. 782 const IdentifierInfo *Macro; 783 }; 784 785 /// The priority of this particular code-completion result. 786 unsigned Priority; 787 788 /// Specifies which parameter (of a function, Objective-C method, 789 /// macro, etc.) we should start with when formatting the result. 790 unsigned StartParameter = 0; 791 792 /// The kind of result stored here. 793 ResultKind Kind; 794 795 /// The cursor kind that describes this result. 796 CXCursorKind CursorKind; 797 798 /// The availability of this result. 799 CXAvailabilityKind Availability = CXAvailability_Available; 800 801 /// Fix-its that *must* be applied before inserting the text for the 802 /// corresponding completion. 803 /// 804 /// By default, CodeCompletionBuilder only returns completions with empty 805 /// fix-its. Extra completions with non-empty fix-its should be explicitly 806 /// requested by setting CompletionOptions::IncludeFixIts. 807 /// 808 /// For the clients to be able to compute position of the cursor after 809 /// applying fix-its, the following conditions are guaranteed to hold for 810 /// RemoveRange of the stored fix-its: 811 /// - Ranges in the fix-its are guaranteed to never contain the completion 812 /// point (or identifier under completion point, if any) inside them, except 813 /// at the start or at the end of the range. 814 /// - If a fix-it range starts or ends with completion point (or starts or 815 /// ends after the identifier under completion point), it will contain at 816 /// least one character. It allows to unambiguously recompute completion 817 /// point after applying the fix-it. 818 /// 819 /// The intuition is that provided fix-its change code around the identifier 820 /// we complete, but are not allowed to touch the identifier itself or the 821 /// completion point. One example of completions with corrections are the ones 822 /// replacing '.' with '->' and vice versa: 823 /// 824 /// std::unique_ptr<std::vector<int>> vec_ptr; 825 /// In 'vec_ptr.^', one of the completions is 'push_back', it requires 826 /// replacing '.' with '->'. 827 /// In 'vec_ptr->^', one of the completions is 'release', it requires 828 /// replacing '->' with '.'. 829 std::vector<FixItHint> FixIts; 830 831 /// Whether this result is hidden by another name. 832 bool Hidden : 1; 833 834 /// Whether this is a class member from base class. 835 bool InBaseClass : 1; 836 837 /// Whether this result was found via lookup into a base class. 838 bool QualifierIsInformative : 1; 839 840 /// Whether this declaration is the beginning of a 841 /// nested-name-specifier and, therefore, should be followed by '::'. 842 bool StartsNestedNameSpecifier : 1; 843 844 /// Whether all parameters (of a function, Objective-C 845 /// method, etc.) should be considered "informative". 846 bool AllParametersAreInformative : 1; 847 848 /// Whether we're completing a declaration of the given entity, 849 /// rather than a use of that entity. 850 bool DeclaringEntity : 1; 851 852 /// When completing a function, whether it can be a call. This will usually be 853 /// true, but we have some heuristics, e.g. when a pointer to a non-static 854 /// member function is completed outside of that class' scope, it can never 855 /// be a call. 856 bool FunctionCanBeCall : 1; 857 858 /// If the result should have a nested-name-specifier, this is it. 859 /// When \c QualifierIsInformative, the nested-name-specifier is 860 /// informative rather than required. 861 NestedNameSpecifier *Qualifier = nullptr; 862 863 /// If this Decl was unshadowed by using declaration, this can store a 864 /// pointer to the UsingShadowDecl which was used in the unshadowing process. 865 /// This information can be used to uprank CodeCompletionResults / which have 866 /// corresponding `using decl::qualified::name;` nearby. 867 const UsingShadowDecl *ShadowDecl = nullptr; 868 869 /// If the result is RK_Macro, this can store the information about the macro 870 /// definition. This should be set in most cases but can be missing when 871 /// the macro has been undefined. 872 const MacroInfo *MacroDefInfo = nullptr; 873 874 /// Build a result that refers to a declaration. 875 CodeCompletionResult(const NamedDecl *Declaration, unsigned Priority, 876 NestedNameSpecifier *Qualifier = nullptr, 877 bool QualifierIsInformative = false, 878 bool Accessible = true, 879 std::vector<FixItHint> FixIts = std::vector<FixItHint>()) 880 : Declaration(Declaration), Priority(Priority), Kind(RK_Declaration), 881 FixIts(std::move(FixIts)), Hidden(false), InBaseClass(false), 882 QualifierIsInformative(QualifierIsInformative), 883 StartsNestedNameSpecifier(false), AllParametersAreInformative(false), 884 DeclaringEntity(false), FunctionCanBeCall(true), Qualifier(Qualifier) { 885 // FIXME: Add assert to check FixIts range requirements. 886 computeCursorKindAndAvailability(Accessible); 887 } 888 889 /// Build a result that refers to a keyword or symbol. 890 CodeCompletionResult(const char *Keyword, unsigned Priority = CCP_Keyword) 891 : Keyword(Keyword), Priority(Priority), Kind(RK_Keyword), 892 CursorKind(CXCursor_NotImplemented), Hidden(false), InBaseClass(false), 893 QualifierIsInformative(false), StartsNestedNameSpecifier(false), 894 AllParametersAreInformative(false), DeclaringEntity(false), 895 FunctionCanBeCall(true) {} 896 897 /// Build a result that refers to a macro. 898 CodeCompletionResult(const IdentifierInfo *Macro, 899 const MacroInfo *MI = nullptr, 900 unsigned Priority = CCP_Macro) 901 : Macro(Macro), Priority(Priority), Kind(RK_Macro), 902 CursorKind(CXCursor_MacroDefinition), Hidden(false), InBaseClass(false), 903 QualifierIsInformative(false), StartsNestedNameSpecifier(false), 904 AllParametersAreInformative(false), DeclaringEntity(false), 905 FunctionCanBeCall(true), MacroDefInfo(MI) {} 906 907 /// Build a result that refers to a pattern. 908 CodeCompletionResult( 909 CodeCompletionString *Pattern, unsigned Priority = CCP_CodePattern, 910 CXCursorKind CursorKind = CXCursor_NotImplemented, 911 CXAvailabilityKind Availability = CXAvailability_Available, 912 const NamedDecl *D = nullptr) 913 : Declaration(D), Pattern(Pattern), Priority(Priority), Kind(RK_Pattern), 914 CursorKind(CursorKind), Availability(Availability), Hidden(false), 915 InBaseClass(false), QualifierIsInformative(false), 916 StartsNestedNameSpecifier(false), AllParametersAreInformative(false), 917 DeclaringEntity(false), FunctionCanBeCall(true) {} 918 919 /// Build a result that refers to a pattern with an associated 920 /// declaration. 921 CodeCompletionResult(CodeCompletionString *Pattern, const NamedDecl *D, 922 unsigned Priority) 923 : Declaration(D), Pattern(Pattern), Priority(Priority), Kind(RK_Pattern), 924 Hidden(false), InBaseClass(false), QualifierIsInformative(false), 925 StartsNestedNameSpecifier(false), AllParametersAreInformative(false), 926 DeclaringEntity(false), FunctionCanBeCall(true) { 927 computeCursorKindAndAvailability(); 928 } 929 930 /// Retrieve the declaration stored in this result. This might be nullptr if 931 /// Kind is RK_Pattern. 932 const NamedDecl *getDeclaration() const { 933 assert(((Kind == RK_Declaration) || (Kind == RK_Pattern)) && 934 "Not a declaration or pattern result"); 935 return Declaration; 936 } 937 938 /// Retrieve the keyword stored in this result. 939 const char *getKeyword() const { 940 assert(Kind == RK_Keyword && "Not a keyword result"); 941 return Keyword; 942 } 943 944 /// Create a new code-completion string that describes how to insert 945 /// this result into a program. 946 /// 947 /// \param S The semantic analysis that created the result. 948 /// 949 /// \param Allocator The allocator that will be used to allocate the 950 /// string itself. 951 CodeCompletionString *CreateCodeCompletionString(Sema &S, 952 const CodeCompletionContext &CCContext, 953 CodeCompletionAllocator &Allocator, 954 CodeCompletionTUInfo &CCTUInfo, 955 bool IncludeBriefComments); 956 CodeCompletionString *CreateCodeCompletionString(ASTContext &Ctx, 957 Preprocessor &PP, 958 const CodeCompletionContext &CCContext, 959 CodeCompletionAllocator &Allocator, 960 CodeCompletionTUInfo &CCTUInfo, 961 bool IncludeBriefComments); 962 /// Creates a new code-completion string for the macro result. Similar to the 963 /// above overloads, except this only requires preprocessor information. 964 /// The result kind must be `RK_Macro`. 965 CodeCompletionString * 966 CreateCodeCompletionStringForMacro(Preprocessor &PP, 967 CodeCompletionAllocator &Allocator, 968 CodeCompletionTUInfo &CCTUInfo); 969 970 CodeCompletionString *createCodeCompletionStringForDecl( 971 Preprocessor &PP, ASTContext &Ctx, CodeCompletionBuilder &Result, 972 bool IncludeBriefComments, const CodeCompletionContext &CCContext, 973 PrintingPolicy &Policy); 974 975 CodeCompletionString *createCodeCompletionStringForOverride( 976 Preprocessor &PP, ASTContext &Ctx, CodeCompletionBuilder &Result, 977 bool IncludeBriefComments, const CodeCompletionContext &CCContext, 978 PrintingPolicy &Policy); 979 980 /// Retrieve the name that should be used to order a result. 981 /// 982 /// If the name needs to be constructed as a string, that string will be 983 /// saved into Saved and the returned StringRef will refer to it. 984 StringRef getOrderedName(std::string &Saved) const; 985 986 private: 987 void computeCursorKindAndAvailability(bool Accessible = true); 988 }; 989 990 bool operator<(const CodeCompletionResult &X, const CodeCompletionResult &Y); 991 992 inline bool operator>(const CodeCompletionResult &X, 993 const CodeCompletionResult &Y) { 994 return Y < X; 995 } 996 997 inline bool operator<=(const CodeCompletionResult &X, 998 const CodeCompletionResult &Y) { 999 return !(Y < X); 1000 } 1001 1002 inline bool operator>=(const CodeCompletionResult &X, 1003 const CodeCompletionResult &Y) { 1004 return !(X < Y); 1005 } 1006 1007 /// Abstract interface for a consumer of code-completion 1008 /// information. 1009 class CodeCompleteConsumer { 1010 protected: 1011 const CodeCompleteOptions CodeCompleteOpts; 1012 1013 public: 1014 class OverloadCandidate { 1015 public: 1016 /// Describes the type of overload candidate. 1017 enum CandidateKind { 1018 /// The candidate is a function declaration. 1019 CK_Function, 1020 1021 /// The candidate is a function template, arguments are being completed. 1022 CK_FunctionTemplate, 1023 1024 /// The "candidate" is actually a variable, expression, or block 1025 /// for which we only have a function prototype. 1026 CK_FunctionType, 1027 1028 /// The candidate is a variable or expression of function type 1029 /// for which we have the location of the prototype declaration. 1030 CK_FunctionProtoTypeLoc, 1031 1032 /// The candidate is a template, template arguments are being completed. 1033 CK_Template, 1034 1035 /// The candidate is aggregate initialization of a record type. 1036 CK_Aggregate, 1037 }; 1038 1039 private: 1040 /// The kind of overload candidate. 1041 CandidateKind Kind; 1042 1043 union { 1044 /// The function overload candidate, available when 1045 /// Kind == CK_Function. 1046 FunctionDecl *Function; 1047 1048 /// The function template overload candidate, available when 1049 /// Kind == CK_FunctionTemplate. 1050 FunctionTemplateDecl *FunctionTemplate; 1051 1052 /// The function type that describes the entity being called, 1053 /// when Kind == CK_FunctionType. 1054 const FunctionType *Type; 1055 1056 /// The location of the function prototype that describes the entity being 1057 /// called, when Kind == CK_FunctionProtoTypeLoc. 1058 FunctionProtoTypeLoc ProtoTypeLoc; 1059 1060 /// The template overload candidate, available when 1061 /// Kind == CK_Template. 1062 const TemplateDecl *Template; 1063 1064 /// The class being aggregate-initialized, 1065 /// when Kind == CK_Aggregate 1066 const RecordDecl *AggregateType; 1067 }; 1068 1069 public: 1070 OverloadCandidate(FunctionDecl *Function) 1071 : Kind(CK_Function), Function(Function) { 1072 assert(Function != nullptr); 1073 } 1074 1075 OverloadCandidate(FunctionTemplateDecl *FunctionTemplateDecl) 1076 : Kind(CK_FunctionTemplate), FunctionTemplate(FunctionTemplateDecl) { 1077 assert(FunctionTemplateDecl != nullptr); 1078 } 1079 1080 OverloadCandidate(const FunctionType *Type) 1081 : Kind(CK_FunctionType), Type(Type) { 1082 assert(Type != nullptr); 1083 } 1084 1085 OverloadCandidate(FunctionProtoTypeLoc Prototype) 1086 : Kind(CK_FunctionProtoTypeLoc), ProtoTypeLoc(Prototype) { 1087 assert(!Prototype.isNull()); 1088 } 1089 1090 OverloadCandidate(const RecordDecl *Aggregate) 1091 : Kind(CK_Aggregate), AggregateType(Aggregate) { 1092 assert(Aggregate != nullptr); 1093 } 1094 1095 OverloadCandidate(const TemplateDecl *Template) 1096 : Kind(CK_Template), Template(Template) {} 1097 1098 /// Determine the kind of overload candidate. 1099 CandidateKind getKind() const { return Kind; } 1100 1101 /// Retrieve the function overload candidate or the templated 1102 /// function declaration for a function template. 1103 FunctionDecl *getFunction() const; 1104 1105 /// Retrieve the function template overload candidate. 1106 FunctionTemplateDecl *getFunctionTemplate() const { 1107 assert(getKind() == CK_FunctionTemplate && "Not a function template"); 1108 return FunctionTemplate; 1109 } 1110 1111 /// Retrieve the function type of the entity, regardless of how the 1112 /// function is stored. 1113 const FunctionType *getFunctionType() const; 1114 1115 /// Retrieve the function ProtoTypeLoc candidate. 1116 /// This can be called for any Kind, but returns null for kinds 1117 /// other than CK_FunctionProtoTypeLoc. 1118 const FunctionProtoTypeLoc getFunctionProtoTypeLoc() const; 1119 1120 const TemplateDecl *getTemplate() const { 1121 assert(getKind() == CK_Template && "Not a template"); 1122 return Template; 1123 } 1124 1125 /// Retrieve the aggregate type being initialized. 1126 const RecordDecl *getAggregate() const { 1127 assert(getKind() == CK_Aggregate); 1128 return AggregateType; 1129 } 1130 1131 /// Get the number of parameters in this signature. 1132 unsigned getNumParams() const; 1133 1134 /// Get the type of the Nth parameter. 1135 /// Returns null if the type is unknown or N is out of range. 1136 QualType getParamType(unsigned N) const; 1137 1138 /// Get the declaration of the Nth parameter. 1139 /// Returns null if the decl is unknown or N is out of range. 1140 const NamedDecl *getParamDecl(unsigned N) const; 1141 1142 /// Create a new code-completion string that describes the function 1143 /// signature of this overload candidate. 1144 CodeCompletionString * 1145 CreateSignatureString(unsigned CurrentArg, Sema &S, 1146 CodeCompletionAllocator &Allocator, 1147 CodeCompletionTUInfo &CCTUInfo, 1148 bool IncludeBriefComments, bool Braced) const; 1149 }; 1150 1151 CodeCompleteConsumer(const CodeCompleteOptions &CodeCompleteOpts) 1152 : CodeCompleteOpts(CodeCompleteOpts) {} 1153 1154 /// Whether the code-completion consumer wants to see macros. 1155 bool includeMacros() const { 1156 return CodeCompleteOpts.IncludeMacros; 1157 } 1158 1159 /// Whether the code-completion consumer wants to see code patterns. 1160 bool includeCodePatterns() const { 1161 return CodeCompleteOpts.IncludeCodePatterns; 1162 } 1163 1164 /// Whether to include global (top-level) declaration results. 1165 bool includeGlobals() const { return CodeCompleteOpts.IncludeGlobals; } 1166 1167 /// Whether to include declarations in namespace contexts (including 1168 /// the global namespace). If this is false, `includeGlobals()` will be 1169 /// ignored. 1170 bool includeNamespaceLevelDecls() const { 1171 return CodeCompleteOpts.IncludeNamespaceLevelDecls; 1172 } 1173 1174 /// Whether to include brief documentation comments within the set of 1175 /// code completions returned. 1176 bool includeBriefComments() const { 1177 return CodeCompleteOpts.IncludeBriefComments; 1178 } 1179 1180 /// Whether to include completion items with small fix-its, e.g. change 1181 /// '.' to '->' on member access, etc. 1182 bool includeFixIts() const { return CodeCompleteOpts.IncludeFixIts; } 1183 1184 /// Hint whether to load data from the external AST in order to provide 1185 /// full results. If false, declarations from the preamble may be omitted. 1186 bool loadExternal() const { 1187 return CodeCompleteOpts.LoadExternal; 1188 } 1189 1190 /// Deregisters and destroys this code-completion consumer. 1191 virtual ~CodeCompleteConsumer(); 1192 1193 /// \name Code-completion filtering 1194 /// Check if the result should be filtered out. 1195 virtual bool isResultFilteredOut(StringRef Filter, 1196 CodeCompletionResult Results) { 1197 return false; 1198 } 1199 1200 /// \name Code-completion callbacks 1201 //@{ 1202 /// Process the finalized code-completion results. 1203 virtual void ProcessCodeCompleteResults(Sema &S, 1204 CodeCompletionContext Context, 1205 CodeCompletionResult *Results, 1206 unsigned NumResults) {} 1207 1208 /// \param S the semantic-analyzer object for which code-completion is being 1209 /// done. 1210 /// 1211 /// \param CurrentArg the index of the current argument. 1212 /// 1213 /// \param Candidates an array of overload candidates. 1214 /// 1215 /// \param NumCandidates the number of overload candidates 1216 /// 1217 /// \param OpenParLoc location of the opening parenthesis of the argument 1218 /// list. 1219 virtual void ProcessOverloadCandidates(Sema &S, unsigned CurrentArg, 1220 OverloadCandidate *Candidates, 1221 unsigned NumCandidates, 1222 SourceLocation OpenParLoc, 1223 bool Braced) {} 1224 //@} 1225 1226 /// Retrieve the allocator that will be used to allocate 1227 /// code completion strings. 1228 virtual CodeCompletionAllocator &getAllocator() = 0; 1229 1230 virtual CodeCompletionTUInfo &getCodeCompletionTUInfo() = 0; 1231 }; 1232 1233 /// Get the documentation comment used to produce 1234 /// CodeCompletionString::BriefComment for RK_Declaration. 1235 const RawComment *getCompletionComment(const ASTContext &Ctx, 1236 const NamedDecl *Decl); 1237 1238 /// Get the documentation comment used to produce 1239 /// CodeCompletionString::BriefComment for RK_Pattern. 1240 const RawComment *getPatternCompletionComment(const ASTContext &Ctx, 1241 const NamedDecl *Decl); 1242 1243 /// Get the documentation comment used to produce 1244 /// CodeCompletionString::BriefComment for OverloadCandidate. 1245 const RawComment * 1246 getParameterComment(const ASTContext &Ctx, 1247 const CodeCompleteConsumer::OverloadCandidate &Result, 1248 unsigned ArgIndex); 1249 1250 /// A simple code-completion consumer that prints the results it 1251 /// receives in a simple format. 1252 class PrintingCodeCompleteConsumer : public CodeCompleteConsumer { 1253 /// The raw output stream. 1254 raw_ostream &OS; 1255 1256 CodeCompletionTUInfo CCTUInfo; 1257 1258 public: 1259 /// Create a new printing code-completion consumer that prints its 1260 /// results to the given raw output stream. 1261 PrintingCodeCompleteConsumer(const CodeCompleteOptions &CodeCompleteOpts, 1262 raw_ostream &OS) 1263 : CodeCompleteConsumer(CodeCompleteOpts), OS(OS), 1264 CCTUInfo(std::make_shared<GlobalCodeCompletionAllocator>()) {} 1265 1266 /// Prints the finalized code-completion results. 1267 void ProcessCodeCompleteResults(Sema &S, CodeCompletionContext Context, 1268 CodeCompletionResult *Results, 1269 unsigned NumResults) override; 1270 1271 void ProcessOverloadCandidates(Sema &S, unsigned CurrentArg, 1272 OverloadCandidate *Candidates, 1273 unsigned NumCandidates, 1274 SourceLocation OpenParLoc, 1275 bool Braced) override; 1276 1277 bool isResultFilteredOut(StringRef Filter, CodeCompletionResult Results) override; 1278 1279 CodeCompletionAllocator &getAllocator() override { 1280 return CCTUInfo.getAllocator(); 1281 } 1282 1283 CodeCompletionTUInfo &getCodeCompletionTUInfo() override { return CCTUInfo; } 1284 }; 1285 1286 } // namespace clang 1287 1288 #endif // LLVM_CLANG_SEMA_CODECOMPLETECONSUMER_H 1289