Index.h revision 204643
1/*===-- clang-c/Index.h - Indexing Public C Interface -------------*- C -*-===*\ 2|* *| 3|* The LLVM Compiler Infrastructure *| 4|* *| 5|* This file is distributed under the University of Illinois Open Source *| 6|* License. See LICENSE.TXT for details. *| 7|* *| 8|*===----------------------------------------------------------------------===*| 9|* *| 10|* This header provides a public inferface to a Clang library for extracting *| 11|* high-level symbol information from source files without exposing the full *| 12|* Clang C++ API. *| 13|* *| 14\*===----------------------------------------------------------------------===*/ 15 16#ifndef CLANG_C_INDEX_H 17#define CLANG_C_INDEX_H 18 19#include <sys/stat.h> 20#include <time.h> 21#include <stdio.h> 22 23#ifdef __cplusplus 24extern "C" { 25#endif 26 27/* MSVC DLL import/export. */ 28#ifdef _MSC_VER 29 #ifdef _CINDEX_LIB_ 30 #define CINDEX_LINKAGE __declspec(dllexport) 31 #else 32 #define CINDEX_LINKAGE __declspec(dllimport) 33 #endif 34#else 35 #define CINDEX_LINKAGE 36#endif 37 38/** \defgroup CINDEX C Interface to Clang 39 * 40 * The C Interface to Clang provides a relatively small API that exposes 41 * facilities for parsing source code into an abstract syntax tree (AST), 42 * loading already-parsed ASTs, traversing the AST, associating 43 * physical source locations with elements within the AST, and other 44 * facilities that support Clang-based development tools. 45 * 46 * This C interface to Clang will never provide all of the information 47 * representation stored in Clang's C++ AST, nor should it: the intent is to 48 * maintain an API that is relatively stable from one release to the next, 49 * providing only the basic functionality needed to support development tools. 50 * 51 * To avoid namespace pollution, data types are prefixed with "CX" and 52 * functions are prefixed with "clang_". 53 * 54 * @{ 55 */ 56 57/** 58 * \brief An "index" that consists of a set of translation units that would 59 * typically be linked together into an executable or library. 60 */ 61typedef void *CXIndex; 62 63/** 64 * \brief A single translation unit, which resides in an index. 65 */ 66typedef void *CXTranslationUnit; /* A translation unit instance. */ 67 68/** 69 * \brief Opaque pointer representing client data that will be passed through 70 * to various callbacks and visitors. 71 */ 72typedef void *CXClientData; 73 74/** 75 * \brief Provides the contents of a file that has not yet been saved to disk. 76 * 77 * Each CXUnsavedFile instance provides the name of a file on the 78 * system along with the current contents of that file that have not 79 * yet been saved to disk. 80 */ 81struct CXUnsavedFile { 82 /** 83 * \brief The file whose contents have not yet been saved. 84 * 85 * This file must already exist in the file system. 86 */ 87 const char *Filename; 88 89 /** 90 * \brief A buffer containing the unsaved contents of this file. 91 */ 92 const char *Contents; 93 94 /** 95 * \brief The length of the unsaved contents of this buffer. 96 */ 97 unsigned long Length; 98}; 99 100/** 101 * \defgroup CINDEX_STRING String manipulation routines 102 * 103 * @{ 104 */ 105 106/** 107 * \brief A character string. 108 * 109 * The \c CXString type is used to return strings from the interface when 110 * the ownership of that string might different from one call to the next. 111 * Use \c clang_getCString() to retrieve the string data and, once finished 112 * with the string data, call \c clang_disposeString() to free the string. 113 */ 114typedef struct { 115 const char *Spelling; 116 /* A 1 value indicates the clang_ indexing API needed to allocate the string 117 (and it must be freed by clang_disposeString()). */ 118 int MustFreeString; 119} CXString; 120 121/** 122 * \brief Retrieve the character data associated with the given string. 123 */ 124CINDEX_LINKAGE const char *clang_getCString(CXString string); 125 126/** 127 * \brief Free the given string, 128 */ 129CINDEX_LINKAGE void clang_disposeString(CXString string); 130 131/** 132 * @} 133 */ 134 135/** 136 * \brief clang_createIndex() provides a shared context for creating 137 * translation units. It provides two options: 138 * 139 * - excludeDeclarationsFromPCH: When non-zero, allows enumeration of "local" 140 * declarations (when loading any new translation units). A "local" declaration 141 * is one that belongs in the translation unit itself and not in a precompiled 142 * header that was used by the translation unit. If zero, all declarations 143 * will be enumerated. 144 * 145 * Here is an example: 146 * 147 * // excludeDeclsFromPCH = 1, displayDiagnostics=1 148 * Idx = clang_createIndex(1, 1); 149 * 150 * // IndexTest.pch was produced with the following command: 151 * // "clang -x c IndexTest.h -emit-ast -o IndexTest.pch" 152 * TU = clang_createTranslationUnit(Idx, "IndexTest.pch"); 153 * 154 * // This will load all the symbols from 'IndexTest.pch' 155 * clang_visitChildren(clang_getTranslationUnitCursor(TU), 156 * TranslationUnitVisitor, 0); 157 * clang_disposeTranslationUnit(TU); 158 * 159 * // This will load all the symbols from 'IndexTest.c', excluding symbols 160 * // from 'IndexTest.pch'. 161 * char *args[] = { "-Xclang", "-include-pch=IndexTest.pch" }; 162 * TU = clang_createTranslationUnitFromSourceFile(Idx, "IndexTest.c", 2, args, 163 * 0, 0); 164 * clang_visitChildren(clang_getTranslationUnitCursor(TU), 165 * TranslationUnitVisitor, 0); 166 * clang_disposeTranslationUnit(TU); 167 * 168 * This process of creating the 'pch', loading it separately, and using it (via 169 * -include-pch) allows 'excludeDeclsFromPCH' to remove redundant callbacks 170 * (which gives the indexer the same performance benefit as the compiler). 171 */ 172CINDEX_LINKAGE CXIndex clang_createIndex(int excludeDeclarationsFromPCH, 173 int displayDiagnostics); 174 175/** 176 * \brief Destroy the given index. 177 * 178 * The index must not be destroyed until all of the translation units created 179 * within that index have been destroyed. 180 */ 181CINDEX_LINKAGE void clang_disposeIndex(CXIndex index); 182 183/** 184 * \brief Request that AST's be generated externally for API calls which parse 185 * source code on the fly, e.g. \see createTranslationUnitFromSourceFile. 186 * 187 * Note: This is for debugging purposes only, and may be removed at a later 188 * date. 189 * 190 * \param index - The index to update. 191 * \param value - The new flag value. 192 */ 193CINDEX_LINKAGE void clang_setUseExternalASTGeneration(CXIndex index, 194 int value); 195/** 196 * \defgroup CINDEX_FILES File manipulation routines 197 * 198 * @{ 199 */ 200 201/** 202 * \brief A particular source file that is part of a translation unit. 203 */ 204typedef void *CXFile; 205 206 207/** 208 * \brief Retrieve the complete file and path name of the given file. 209 */ 210CINDEX_LINKAGE CXString clang_getFileName(CXFile SFile); 211 212/** 213 * \brief Retrieve the last modification time of the given file. 214 */ 215CINDEX_LINKAGE time_t clang_getFileTime(CXFile SFile); 216 217/** 218 * \brief Retrieve a file handle within the given translation unit. 219 * 220 * \param tu the translation unit 221 * 222 * \param file_name the name of the file. 223 * 224 * \returns the file handle for the named file in the translation unit \p tu, 225 * or a NULL file handle if the file was not a part of this translation unit. 226 */ 227CINDEX_LINKAGE CXFile clang_getFile(CXTranslationUnit tu, 228 const char *file_name); 229 230/** 231 * @} 232 */ 233 234/** 235 * \defgroup CINDEX_LOCATIONS Physical source locations 236 * 237 * Clang represents physical source locations in its abstract syntax tree in 238 * great detail, with file, line, and column information for the majority of 239 * the tokens parsed in the source code. These data types and functions are 240 * used to represent source location information, either for a particular 241 * point in the program or for a range of points in the program, and extract 242 * specific location information from those data types. 243 * 244 * @{ 245 */ 246 247/** 248 * \brief Identifies a specific source location within a translation 249 * unit. 250 * 251 * Use clang_getInstantiationLocation() to map a source location to a 252 * particular file, line, and column. 253 */ 254typedef struct { 255 void *ptr_data[2]; 256 unsigned int_data; 257} CXSourceLocation; 258 259/** 260 * \brief Identifies a half-open character range in the source code. 261 * 262 * Use clang_getRangeStart() and clang_getRangeEnd() to retrieve the 263 * starting and end locations from a source range, respectively. 264 */ 265typedef struct { 266 void *ptr_data[2]; 267 unsigned begin_int_data; 268 unsigned end_int_data; 269} CXSourceRange; 270 271/** 272 * \brief Retrieve a NULL (invalid) source location. 273 */ 274CINDEX_LINKAGE CXSourceLocation clang_getNullLocation(); 275 276/** 277 * \determine Determine whether two source locations, which must refer into 278 * the same translation unit, refer to exactly the same point in the source 279 * code. 280 * 281 * \returns non-zero if the source locations refer to the same location, zero 282 * if they refer to different locations. 283 */ 284CINDEX_LINKAGE unsigned clang_equalLocations(CXSourceLocation loc1, 285 CXSourceLocation loc2); 286 287/** 288 * \brief Retrieves the source location associated with a given file/line/column 289 * in a particular translation unit. 290 */ 291CINDEX_LINKAGE CXSourceLocation clang_getLocation(CXTranslationUnit tu, 292 CXFile file, 293 unsigned line, 294 unsigned column); 295 296/** 297 * \brief Retrieve a NULL (invalid) source range. 298 */ 299CINDEX_LINKAGE CXSourceRange clang_getNullRange(); 300 301/** 302 * \brief Retrieve a source range given the beginning and ending source 303 * locations. 304 */ 305CINDEX_LINKAGE CXSourceRange clang_getRange(CXSourceLocation begin, 306 CXSourceLocation end); 307 308/** 309 * \brief Retrieve the file, line, column, and offset represented by 310 * the given source location. 311 * 312 * \param location the location within a source file that will be decomposed 313 * into its parts. 314 * 315 * \param file [out] if non-NULL, will be set to the file to which the given 316 * source location points. 317 * 318 * \param line [out] if non-NULL, will be set to the line to which the given 319 * source location points. 320 * 321 * \param column [out] if non-NULL, will be set to the column to which the given 322 * source location points. 323 * 324 * \param offset [out] if non-NULL, will be set to the offset into the 325 * buffer to which the given source location points. 326 */ 327CINDEX_LINKAGE void clang_getInstantiationLocation(CXSourceLocation location, 328 CXFile *file, 329 unsigned *line, 330 unsigned *column, 331 unsigned *offset); 332 333/** 334 * \brief Retrieve a source location representing the first character within a 335 * source range. 336 */ 337CINDEX_LINKAGE CXSourceLocation clang_getRangeStart(CXSourceRange range); 338 339/** 340 * \brief Retrieve a source location representing the last character within a 341 * source range. 342 */ 343CINDEX_LINKAGE CXSourceLocation clang_getRangeEnd(CXSourceRange range); 344 345/** 346 * @} 347 */ 348 349/** 350 * \defgroup CINDEX_DIAG Diagnostic reporting 351 * 352 * @{ 353 */ 354 355/** 356 * \brief Describes the severity of a particular diagnostic. 357 */ 358enum CXDiagnosticSeverity { 359 /** 360 * \brief A diagnostic that has been suppressed, e.g., by a command-line 361 * option. 362 */ 363 CXDiagnostic_Ignored = 0, 364 365 /** 366 * \brief This diagnostic is a note that should be attached to the 367 * previous (non-note) diagnostic. 368 */ 369 CXDiagnostic_Note = 1, 370 371 /** 372 * \brief This diagnostic indicates suspicious code that may not be 373 * wrong. 374 */ 375 CXDiagnostic_Warning = 2, 376 377 /** 378 * \brief This diagnostic indicates that the code is ill-formed. 379 */ 380 CXDiagnostic_Error = 3, 381 382 /** 383 * \brief This diagnostic indicates that the code is ill-formed such 384 * that future parser recovery is unlikely to produce useful 385 * results. 386 */ 387 CXDiagnostic_Fatal = 4 388}; 389 390/** 391 * \brief A single diagnostic, containing the diagnostic's severity, 392 * location, text, source ranges, and fix-it hints. 393 */ 394typedef void *CXDiagnostic; 395 396/** 397 * \brief Determine the number of diagnostics produced for the given 398 * translation unit. 399 */ 400CINDEX_LINKAGE unsigned clang_getNumDiagnostics(CXTranslationUnit Unit); 401 402/** 403 * \brief Retrieve a diagnostic associated with the given translation unit. 404 * 405 * \param Unit the translation unit to query. 406 * \param Index the zero-based diagnostic number to retrieve. 407 * 408 * \returns the requested diagnostic. This diagnostic must be freed 409 * via a call to \c clang_disposeDiagnostic(). 410 */ 411CINDEX_LINKAGE CXDiagnostic clang_getDiagnostic(CXTranslationUnit Unit, 412 unsigned Index); 413 414/** 415 * \brief Destroy a diagnostic. 416 */ 417CINDEX_LINKAGE void clang_disposeDiagnostic(CXDiagnostic Diagnostic); 418 419/** 420 * \brief Options to control the display of diagnostics. 421 * 422 * The values in this enum are meant to be combined to customize the 423 * behavior of \c clang_displayDiagnostic(). 424 */ 425enum CXDiagnosticDisplayOptions { 426 /** 427 * \brief Display the source-location information where the 428 * diagnostic was located. 429 * 430 * When set, diagnostics will be prefixed by the file, line, and 431 * (optionally) column to which the diagnostic refers. For example, 432 * 433 * \code 434 * test.c:28: warning: extra tokens at end of #endif directive 435 * \endcode 436 * 437 * This option corresponds to the clang flag \c -fshow-source-location. 438 */ 439 CXDiagnostic_DisplaySourceLocation = 0x01, 440 441 /** 442 * \brief If displaying the source-location information of the 443 * diagnostic, also include the column number. 444 * 445 * This option corresponds to the clang flag \c -fshow-column. 446 */ 447 CXDiagnostic_DisplayColumn = 0x02, 448 449 /** 450 * \brief If displaying the source-location information of the 451 * diagnostic, also include information about source ranges in a 452 * machine-parsable format. 453 * 454 * This option corresponds to the clang flag 455 * \c -fdiagnostics-print-source-range-info. 456 */ 457 CXDiagnostic_DisplaySourceRanges = 0x04 458}; 459 460/** 461 * \brief Format the given diagnostic in a manner that is suitable for display. 462 * 463 * This routine will format the given diagnostic to a string, rendering 464 * the diagnostic according to the various options given. The 465 * \c clang_defaultDiagnosticDisplayOptions() function returns the set of 466 * options that most closely mimics the behavior of the clang compiler. 467 * 468 * \param Diagnostic The diagnostic to print. 469 * 470 * \param Options A set of options that control the diagnostic display, 471 * created by combining \c CXDiagnosticDisplayOptions values. 472 * 473 * \returns A new string containing for formatted diagnostic. 474 */ 475CINDEX_LINKAGE CXString clang_formatDiagnostic(CXDiagnostic Diagnostic, 476 unsigned Options); 477 478/** 479 * \brief Retrieve the set of display options most similar to the 480 * default behavior of the clang compiler. 481 * 482 * \returns A set of display options suitable for use with \c 483 * clang_displayDiagnostic(). 484 */ 485CINDEX_LINKAGE unsigned clang_defaultDiagnosticDisplayOptions(void); 486 487/** 488 * \brief Print a diagnostic to the given file. 489 */ 490 491/** 492 * \brief Determine the severity of the given diagnostic. 493 */ 494CINDEX_LINKAGE enum CXDiagnosticSeverity 495clang_getDiagnosticSeverity(CXDiagnostic); 496 497/** 498 * \brief Retrieve the source location of the given diagnostic. 499 * 500 * This location is where Clang would print the caret ('^') when 501 * displaying the diagnostic on the command line. 502 */ 503CINDEX_LINKAGE CXSourceLocation clang_getDiagnosticLocation(CXDiagnostic); 504 505/** 506 * \brief Retrieve the text of the given diagnostic. 507 */ 508CINDEX_LINKAGE CXString clang_getDiagnosticSpelling(CXDiagnostic); 509 510/** 511 * \brief Determine the number of source ranges associated with the given 512 * diagnostic. 513 */ 514CINDEX_LINKAGE unsigned clang_getDiagnosticNumRanges(CXDiagnostic); 515 516/** 517 * \brief Retrieve a source range associated with the diagnostic. 518 * 519 * A diagnostic's source ranges highlight important elements in the source 520 * code. On the command line, Clang displays source ranges by 521 * underlining them with '~' characters. 522 * 523 * \param Diagnostic the diagnostic whose range is being extracted. 524 * 525 * \param Range the zero-based index specifying which range to 526 * 527 * \returns the requested source range. 528 */ 529CINDEX_LINKAGE CXSourceRange clang_getDiagnosticRange(CXDiagnostic Diagnostic, 530 unsigned Range); 531 532/** 533 * \brief Determine the number of fix-it hints associated with the 534 * given diagnostic. 535 */ 536CINDEX_LINKAGE unsigned clang_getDiagnosticNumFixIts(CXDiagnostic Diagnostic); 537 538/** 539 * \brief Retrieve the replacement information for a given fix-it. 540 * 541 * Fix-its are described in terms of a source range whose contents 542 * should be replaced by a string. This approach generalizes over 543 * three kinds of operations: removal of source code (the range covers 544 * the code to be removed and the replacement string is empty), 545 * replacement of source code (the range covers the code to be 546 * replaced and the replacement string provides the new code), and 547 * insertion (both the start and end of the range point at the 548 * insertion location, and the replacement string provides the text to 549 * insert). 550 * 551 * \param Diagnostic The diagnostic whose fix-its are being queried. 552 * 553 * \param FixIt The zero-based index of the fix-it. 554 * 555 * \param ReplacementRange The source range whose contents will be 556 * replaced with the returned replacement string. Note that source 557 * ranges are half-open ranges [a, b), so the source code should be 558 * replaced from a and up to (but not including) b. 559 * 560 * \returns A string containing text that should be replace the source 561 * code indicated by the \c ReplacementRange. 562 */ 563CINDEX_LINKAGE CXString clang_getDiagnosticFixIt(CXDiagnostic Diagnostic, 564 unsigned FixIt, 565 CXSourceRange *ReplacementRange); 566 567/** 568 * @} 569 */ 570 571/** 572 * \defgroup CINDEX_TRANSLATION_UNIT Translation unit manipulation 573 * 574 * The routines in this group provide the ability to create and destroy 575 * translation units from files, either by parsing the contents of the files or 576 * by reading in a serialized representation of a translation unit. 577 * 578 * @{ 579 */ 580 581/** 582 * \brief Get the original translation unit source file name. 583 */ 584CINDEX_LINKAGE CXString 585clang_getTranslationUnitSpelling(CXTranslationUnit CTUnit); 586 587/** 588 * \brief Return the CXTranslationUnit for a given source file and the provided 589 * command line arguments one would pass to the compiler. 590 * 591 * Note: The 'source_filename' argument is optional. If the caller provides a 592 * NULL pointer, the name of the source file is expected to reside in the 593 * specified command line arguments. 594 * 595 * Note: When encountered in 'clang_command_line_args', the following options 596 * are ignored: 597 * 598 * '-c' 599 * '-emit-ast' 600 * '-fsyntax-only' 601 * '-o <output file>' (both '-o' and '<output file>' are ignored) 602 * 603 * 604 * \param source_filename - The name of the source file to load, or NULL if the 605 * source file is included in clang_command_line_args. 606 * 607 * \param num_unsaved_files the number of unsaved file entries in \p 608 * unsaved_files. 609 * 610 * \param unsaved_files the files that have not yet been saved to disk 611 * but may be required for code completion, including the contents of 612 * those files. 613 * 614 * \param diag_callback callback function that will receive any diagnostics 615 * emitted while processing this source file. If NULL, diagnostics will be 616 * suppressed. 617 * 618 * \param diag_client_data client data that will be passed to the diagnostic 619 * callback function. 620 */ 621CINDEX_LINKAGE CXTranslationUnit clang_createTranslationUnitFromSourceFile( 622 CXIndex CIdx, 623 const char *source_filename, 624 int num_clang_command_line_args, 625 const char **clang_command_line_args, 626 unsigned num_unsaved_files, 627 struct CXUnsavedFile *unsaved_files); 628 629/** 630 * \brief Create a translation unit from an AST file (-emit-ast). 631 */ 632CINDEX_LINKAGE CXTranslationUnit clang_createTranslationUnit(CXIndex, 633 const char *ast_filename); 634 635/** 636 * \brief Destroy the specified CXTranslationUnit object. 637 */ 638CINDEX_LINKAGE void clang_disposeTranslationUnit(CXTranslationUnit); 639 640/** 641 * @} 642 */ 643 644/** 645 * \brief Describes the kind of entity that a cursor refers to. 646 */ 647enum CXCursorKind { 648 /* Declarations */ 649 CXCursor_FirstDecl = 1, 650 /** 651 * \brief A declaration whose specific kind is not exposed via this 652 * interface. 653 * 654 * Unexposed declarations have the same operations as any other kind 655 * of declaration; one can extract their location information, 656 * spelling, find their definitions, etc. However, the specific kind 657 * of the declaration is not reported. 658 */ 659 CXCursor_UnexposedDecl = 1, 660 /** \brief A C or C++ struct. */ 661 CXCursor_StructDecl = 2, 662 /** \brief A C or C++ union. */ 663 CXCursor_UnionDecl = 3, 664 /** \brief A C++ class. */ 665 CXCursor_ClassDecl = 4, 666 /** \brief An enumeration. */ 667 CXCursor_EnumDecl = 5, 668 /** 669 * \brief A field (in C) or non-static data member (in C++) in a 670 * struct, union, or C++ class. 671 */ 672 CXCursor_FieldDecl = 6, 673 /** \brief An enumerator constant. */ 674 CXCursor_EnumConstantDecl = 7, 675 /** \brief A function. */ 676 CXCursor_FunctionDecl = 8, 677 /** \brief A variable. */ 678 CXCursor_VarDecl = 9, 679 /** \brief A function or method parameter. */ 680 CXCursor_ParmDecl = 10, 681 /** \brief An Objective-C @interface. */ 682 CXCursor_ObjCInterfaceDecl = 11, 683 /** \brief An Objective-C @interface for a category. */ 684 CXCursor_ObjCCategoryDecl = 12, 685 /** \brief An Objective-C @protocol declaration. */ 686 CXCursor_ObjCProtocolDecl = 13, 687 /** \brief An Objective-C @property declaration. */ 688 CXCursor_ObjCPropertyDecl = 14, 689 /** \brief An Objective-C instance variable. */ 690 CXCursor_ObjCIvarDecl = 15, 691 /** \brief An Objective-C instance method. */ 692 CXCursor_ObjCInstanceMethodDecl = 16, 693 /** \brief An Objective-C class method. */ 694 CXCursor_ObjCClassMethodDecl = 17, 695 /** \brief An Objective-C @implementation. */ 696 CXCursor_ObjCImplementationDecl = 18, 697 /** \brief An Objective-C @implementation for a category. */ 698 CXCursor_ObjCCategoryImplDecl = 19, 699 /** \brief A typedef */ 700 CXCursor_TypedefDecl = 20, 701 CXCursor_LastDecl = 20, 702 703 /* References */ 704 CXCursor_FirstRef = 40, /* Decl references */ 705 CXCursor_ObjCSuperClassRef = 40, 706 CXCursor_ObjCProtocolRef = 41, 707 CXCursor_ObjCClassRef = 42, 708 /** 709 * \brief A reference to a type declaration. 710 * 711 * A type reference occurs anywhere where a type is named but not 712 * declared. For example, given: 713 * 714 * \code 715 * typedef unsigned size_type; 716 * size_type size; 717 * \endcode 718 * 719 * The typedef is a declaration of size_type (CXCursor_TypedefDecl), 720 * while the type of the variable "size" is referenced. The cursor 721 * referenced by the type of size is the typedef for size_type. 722 */ 723 CXCursor_TypeRef = 43, 724 CXCursor_LastRef = 43, 725 726 /* Error conditions */ 727 CXCursor_FirstInvalid = 70, 728 CXCursor_InvalidFile = 70, 729 CXCursor_NoDeclFound = 71, 730 CXCursor_NotImplemented = 72, 731 CXCursor_LastInvalid = 72, 732 733 /* Expressions */ 734 CXCursor_FirstExpr = 100, 735 736 /** 737 * \brief An expression whose specific kind is not exposed via this 738 * interface. 739 * 740 * Unexposed expressions have the same operations as any other kind 741 * of expression; one can extract their location information, 742 * spelling, children, etc. However, the specific kind of the 743 * expression is not reported. 744 */ 745 CXCursor_UnexposedExpr = 100, 746 747 /** 748 * \brief An expression that refers to some value declaration, such 749 * as a function, varible, or enumerator. 750 */ 751 CXCursor_DeclRefExpr = 101, 752 753 /** 754 * \brief An expression that refers to a member of a struct, union, 755 * class, Objective-C class, etc. 756 */ 757 CXCursor_MemberRefExpr = 102, 758 759 /** \brief An expression that calls a function. */ 760 CXCursor_CallExpr = 103, 761 762 /** \brief An expression that sends a message to an Objective-C 763 object or class. */ 764 CXCursor_ObjCMessageExpr = 104, 765 CXCursor_LastExpr = 104, 766 767 /* Statements */ 768 CXCursor_FirstStmt = 200, 769 /** 770 * \brief A statement whose specific kind is not exposed via this 771 * interface. 772 * 773 * Unexposed statements have the same operations as any other kind of 774 * statement; one can extract their location information, spelling, 775 * children, etc. However, the specific kind of the statement is not 776 * reported. 777 */ 778 CXCursor_UnexposedStmt = 200, 779 CXCursor_LastStmt = 200, 780 781 /** 782 * \brief Cursor that represents the translation unit itself. 783 * 784 * The translation unit cursor exists primarily to act as the root 785 * cursor for traversing the contents of a translation unit. 786 */ 787 CXCursor_TranslationUnit = 300, 788 789 /* Attributes */ 790 CXCursor_FirstAttr = 400, 791 /** 792 * \brief An attribute whose specific kind is not exposed via this 793 * interface. 794 */ 795 CXCursor_UnexposedAttr = 400, 796 797 CXCursor_IBActionAttr = 401, 798 CXCursor_IBOutletAttr = 402, 799 CXCursor_LastAttr = CXCursor_IBOutletAttr 800}; 801 802/** 803 * \brief A cursor representing some element in the abstract syntax tree for 804 * a translation unit. 805 * 806 * The cursor abstraction unifies the different kinds of entities in a 807 * program--declaration, statements, expressions, references to declarations, 808 * etc.--under a single "cursor" abstraction with a common set of operations. 809 * Common operation for a cursor include: getting the physical location in 810 * a source file where the cursor points, getting the name associated with a 811 * cursor, and retrieving cursors for any child nodes of a particular cursor. 812 * 813 * Cursors can be produced in two specific ways. 814 * clang_getTranslationUnitCursor() produces a cursor for a translation unit, 815 * from which one can use clang_visitChildren() to explore the rest of the 816 * translation unit. clang_getCursor() maps from a physical source location 817 * to the entity that resides at that location, allowing one to map from the 818 * source code into the AST. 819 */ 820typedef struct { 821 enum CXCursorKind kind; 822 void *data[3]; 823} CXCursor; 824 825/** 826 * \defgroup CINDEX_CURSOR_MANIP Cursor manipulations 827 * 828 * @{ 829 */ 830 831/** 832 * \brief Retrieve the NULL cursor, which represents no entity. 833 */ 834CINDEX_LINKAGE CXCursor clang_getNullCursor(void); 835 836/** 837 * \brief Retrieve the cursor that represents the given translation unit. 838 * 839 * The translation unit cursor can be used to start traversing the 840 * various declarations within the given translation unit. 841 */ 842CINDEX_LINKAGE CXCursor clang_getTranslationUnitCursor(CXTranslationUnit); 843 844/** 845 * \brief Determine whether two cursors are equivalent. 846 */ 847CINDEX_LINKAGE unsigned clang_equalCursors(CXCursor, CXCursor); 848 849/** 850 * \brief Retrieve the kind of the given cursor. 851 */ 852CINDEX_LINKAGE enum CXCursorKind clang_getCursorKind(CXCursor); 853 854/** 855 * \brief Determine whether the given cursor kind represents a declaration. 856 */ 857CINDEX_LINKAGE unsigned clang_isDeclaration(enum CXCursorKind); 858 859/** 860 * \brief Determine whether the given cursor kind represents a simple 861 * reference. 862 * 863 * Note that other kinds of cursors (such as expressions) can also refer to 864 * other cursors. Use clang_getCursorReferenced() to determine whether a 865 * particular cursor refers to another entity. 866 */ 867CINDEX_LINKAGE unsigned clang_isReference(enum CXCursorKind); 868 869/** 870 * \brief Determine whether the given cursor kind represents an expression. 871 */ 872CINDEX_LINKAGE unsigned clang_isExpression(enum CXCursorKind); 873 874/** 875 * \brief Determine whether the given cursor kind represents a statement. 876 */ 877CINDEX_LINKAGE unsigned clang_isStatement(enum CXCursorKind); 878 879/** 880 * \brief Determine whether the given cursor kind represents an invalid 881 * cursor. 882 */ 883CINDEX_LINKAGE unsigned clang_isInvalid(enum CXCursorKind); 884 885/** 886 * \brief Determine whether the given cursor kind represents a translation 887 * unit. 888 */ 889CINDEX_LINKAGE unsigned clang_isTranslationUnit(enum CXCursorKind); 890 891/** 892 * \brief Describe the linkage of the entity referred to by a cursor. 893 */ 894enum CXLinkageKind { 895 /** \brief This value indicates that no linkage information is available 896 * for a provided CXCursor. */ 897 CXLinkage_Invalid, 898 /** 899 * \brief This is the linkage for variables, parameters, and so on that 900 * have automatic storage. This covers normal (non-extern) local variables. 901 */ 902 CXLinkage_NoLinkage, 903 /** \brief This is the linkage for static variables and static functions. */ 904 CXLinkage_Internal, 905 /** \brief This is the linkage for entities with external linkage that live 906 * in C++ anonymous namespaces.*/ 907 CXLinkage_UniqueExternal, 908 /** \brief This is the linkage for entities with true, external linkage. */ 909 CXLinkage_External 910}; 911 912/** 913 * \brief Determine the linkage of the entity referred to be a given cursor. 914 */ 915CINDEX_LINKAGE enum CXLinkageKind clang_getCursorLinkage(CXCursor cursor); 916 917/** 918 * @} 919 */ 920 921/** 922 * \defgroup CINDEX_CURSOR_SOURCE Mapping between cursors and source code 923 * 924 * Cursors represent a location within the Abstract Syntax Tree (AST). These 925 * routines help map between cursors and the physical locations where the 926 * described entities occur in the source code. The mapping is provided in 927 * both directions, so one can map from source code to the AST and back. 928 * 929 * @{ 930 */ 931 932/** 933 * \brief Map a source location to the cursor that describes the entity at that 934 * location in the source code. 935 * 936 * clang_getCursor() maps an arbitrary source location within a translation 937 * unit down to the most specific cursor that describes the entity at that 938 * location. For example, given an expression \c x + y, invoking 939 * clang_getCursor() with a source location pointing to "x" will return the 940 * cursor for "x"; similarly for "y". If the cursor points anywhere between 941 * "x" or "y" (e.g., on the + or the whitespace around it), clang_getCursor() 942 * will return a cursor referring to the "+" expression. 943 * 944 * \returns a cursor representing the entity at the given source location, or 945 * a NULL cursor if no such entity can be found. 946 */ 947CINDEX_LINKAGE CXCursor clang_getCursor(CXTranslationUnit, CXSourceLocation); 948 949/** 950 * \brief Retrieve the physical location of the source constructor referenced 951 * by the given cursor. 952 * 953 * The location of a declaration is typically the location of the name of that 954 * declaration, where the name of that declaration would occur if it is 955 * unnamed, or some keyword that introduces that particular declaration. 956 * The location of a reference is where that reference occurs within the 957 * source code. 958 */ 959CINDEX_LINKAGE CXSourceLocation clang_getCursorLocation(CXCursor); 960 961/** 962 * \brief Retrieve the physical extent of the source construct referenced by 963 * the given cursor. 964 * 965 * The extent of a cursor starts with the file/line/column pointing at the 966 * first character within the source construct that the cursor refers to and 967 * ends with the last character withinin that source construct. For a 968 * declaration, the extent covers the declaration itself. For a reference, 969 * the extent covers the location of the reference (e.g., where the referenced 970 * entity was actually used). 971 */ 972CINDEX_LINKAGE CXSourceRange clang_getCursorExtent(CXCursor); 973 974/** 975 * @} 976 */ 977 978/** 979 * \defgroup CINDEX_CURSOR_TRAVERSAL Traversing the AST with cursors 980 * 981 * These routines provide the ability to traverse the abstract syntax tree 982 * using cursors. 983 * 984 * @{ 985 */ 986 987/** 988 * \brief Describes how the traversal of the children of a particular 989 * cursor should proceed after visiting a particular child cursor. 990 * 991 * A value of this enumeration type should be returned by each 992 * \c CXCursorVisitor to indicate how clang_visitChildren() proceed. 993 */ 994enum CXChildVisitResult { 995 /** 996 * \brief Terminates the cursor traversal. 997 */ 998 CXChildVisit_Break, 999 /** 1000 * \brief Continues the cursor traversal with the next sibling of 1001 * the cursor just visited, without visiting its children. 1002 */ 1003 CXChildVisit_Continue, 1004 /** 1005 * \brief Recursively traverse the children of this cursor, using 1006 * the same visitor and client data. 1007 */ 1008 CXChildVisit_Recurse 1009}; 1010 1011/** 1012 * \brief Visitor invoked for each cursor found by a traversal. 1013 * 1014 * This visitor function will be invoked for each cursor found by 1015 * clang_visitCursorChildren(). Its first argument is the cursor being 1016 * visited, its second argument is the parent visitor for that cursor, 1017 * and its third argument is the client data provided to 1018 * clang_visitCursorChildren(). 1019 * 1020 * The visitor should return one of the \c CXChildVisitResult values 1021 * to direct clang_visitCursorChildren(). 1022 */ 1023typedef enum CXChildVisitResult (*CXCursorVisitor)(CXCursor cursor, 1024 CXCursor parent, 1025 CXClientData client_data); 1026 1027/** 1028 * \brief Visit the children of a particular cursor. 1029 * 1030 * This function visits all the direct children of the given cursor, 1031 * invoking the given \p visitor function with the cursors of each 1032 * visited child. The traversal may be recursive, if the visitor returns 1033 * \c CXChildVisit_Recurse. The traversal may also be ended prematurely, if 1034 * the visitor returns \c CXChildVisit_Break. 1035 * 1036 * \param parent the cursor whose child may be visited. All kinds of 1037 * cursors can be visited, including invalid cursors (which, by 1038 * definition, have no children). 1039 * 1040 * \param visitor the visitor function that will be invoked for each 1041 * child of \p parent. 1042 * 1043 * \param client_data pointer data supplied by the client, which will 1044 * be passed to the visitor each time it is invoked. 1045 * 1046 * \returns a non-zero value if the traversal was terminated 1047 * prematurely by the visitor returning \c CXChildVisit_Break. 1048 */ 1049CINDEX_LINKAGE unsigned clang_visitChildren(CXCursor parent, 1050 CXCursorVisitor visitor, 1051 CXClientData client_data); 1052 1053/** 1054 * @} 1055 */ 1056 1057/** 1058 * \defgroup CINDEX_CURSOR_XREF Cross-referencing in the AST 1059 * 1060 * These routines provide the ability to determine references within and 1061 * across translation units, by providing the names of the entities referenced 1062 * by cursors, follow reference cursors to the declarations they reference, 1063 * and associate declarations with their definitions. 1064 * 1065 * @{ 1066 */ 1067 1068/** 1069 * \brief Retrieve a Unified Symbol Resolution (USR) for the entity referenced 1070 * by the given cursor. 1071 * 1072 * A Unified Symbol Resolution (USR) is a string that identifies a particular 1073 * entity (function, class, variable, etc.) within a program. USRs can be 1074 * compared across translation units to determine, e.g., when references in 1075 * one translation refer to an entity defined in another translation unit. 1076 */ 1077CINDEX_LINKAGE CXString clang_getCursorUSR(CXCursor); 1078 1079/** 1080 * \brief Retrieve a name for the entity referenced by this cursor. 1081 */ 1082CINDEX_LINKAGE CXString clang_getCursorSpelling(CXCursor); 1083 1084/** \brief For a cursor that is a reference, retrieve a cursor representing the 1085 * entity that it references. 1086 * 1087 * Reference cursors refer to other entities in the AST. For example, an 1088 * Objective-C superclass reference cursor refers to an Objective-C class. 1089 * This function produces the cursor for the Objective-C class from the 1090 * cursor for the superclass reference. If the input cursor is a declaration or 1091 * definition, it returns that declaration or definition unchanged. 1092 * Otherwise, returns the NULL cursor. 1093 */ 1094CINDEX_LINKAGE CXCursor clang_getCursorReferenced(CXCursor); 1095 1096/** 1097 * \brief For a cursor that is either a reference to or a declaration 1098 * of some entity, retrieve a cursor that describes the definition of 1099 * that entity. 1100 * 1101 * Some entities can be declared multiple times within a translation 1102 * unit, but only one of those declarations can also be a 1103 * definition. For example, given: 1104 * 1105 * \code 1106 * int f(int, int); 1107 * int g(int x, int y) { return f(x, y); } 1108 * int f(int a, int b) { return a + b; } 1109 * int f(int, int); 1110 * \endcode 1111 * 1112 * there are three declarations of the function "f", but only the 1113 * second one is a definition. The clang_getCursorDefinition() 1114 * function will take any cursor pointing to a declaration of "f" 1115 * (the first or fourth lines of the example) or a cursor referenced 1116 * that uses "f" (the call to "f' inside "g") and will return a 1117 * declaration cursor pointing to the definition (the second "f" 1118 * declaration). 1119 * 1120 * If given a cursor for which there is no corresponding definition, 1121 * e.g., because there is no definition of that entity within this 1122 * translation unit, returns a NULL cursor. 1123 */ 1124CINDEX_LINKAGE CXCursor clang_getCursorDefinition(CXCursor); 1125 1126/** 1127 * \brief Determine whether the declaration pointed to by this cursor 1128 * is also a definition of that entity. 1129 */ 1130CINDEX_LINKAGE unsigned clang_isCursorDefinition(CXCursor); 1131 1132/** 1133 * @} 1134 */ 1135 1136/** 1137 * \defgroup CINDEX_LEX Token extraction and manipulation 1138 * 1139 * The routines in this group provide access to the tokens within a 1140 * translation unit, along with a semantic mapping of those tokens to 1141 * their corresponding cursors. 1142 * 1143 * @{ 1144 */ 1145 1146/** 1147 * \brief Describes a kind of token. 1148 */ 1149typedef enum CXTokenKind { 1150 /** 1151 * \brief A token that contains some kind of punctuation. 1152 */ 1153 CXToken_Punctuation, 1154 1155 /** 1156 * \brief A language keyword. 1157 */ 1158 CXToken_Keyword, 1159 1160 /** 1161 * \brief An identifier (that is not a keyword). 1162 */ 1163 CXToken_Identifier, 1164 1165 /** 1166 * \brief A numeric, string, or character literal. 1167 */ 1168 CXToken_Literal, 1169 1170 /** 1171 * \brief A comment. 1172 */ 1173 CXToken_Comment 1174} CXTokenKind; 1175 1176/** 1177 * \brief Describes a single preprocessing token. 1178 */ 1179typedef struct { 1180 unsigned int_data[4]; 1181 void *ptr_data; 1182} CXToken; 1183 1184/** 1185 * \brief Determine the kind of the given token. 1186 */ 1187CINDEX_LINKAGE CXTokenKind clang_getTokenKind(CXToken); 1188 1189/** 1190 * \brief Determine the spelling of the given token. 1191 * 1192 * The spelling of a token is the textual representation of that token, e.g., 1193 * the text of an identifier or keyword. 1194 */ 1195CINDEX_LINKAGE CXString clang_getTokenSpelling(CXTranslationUnit, CXToken); 1196 1197/** 1198 * \brief Retrieve the source location of the given token. 1199 */ 1200CINDEX_LINKAGE CXSourceLocation clang_getTokenLocation(CXTranslationUnit, 1201 CXToken); 1202 1203/** 1204 * \brief Retrieve a source range that covers the given token. 1205 */ 1206CINDEX_LINKAGE CXSourceRange clang_getTokenExtent(CXTranslationUnit, CXToken); 1207 1208/** 1209 * \brief Tokenize the source code described by the given range into raw 1210 * lexical tokens. 1211 * 1212 * \param TU the translation unit whose text is being tokenized. 1213 * 1214 * \param Range the source range in which text should be tokenized. All of the 1215 * tokens produced by tokenization will fall within this source range, 1216 * 1217 * \param Tokens this pointer will be set to point to the array of tokens 1218 * that occur within the given source range. The returned pointer must be 1219 * freed with clang_disposeTokens() before the translation unit is destroyed. 1220 * 1221 * \param NumTokens will be set to the number of tokens in the \c *Tokens 1222 * array. 1223 * 1224 */ 1225CINDEX_LINKAGE void clang_tokenize(CXTranslationUnit TU, CXSourceRange Range, 1226 CXToken **Tokens, unsigned *NumTokens); 1227 1228/** 1229 * \brief Annotate the given set of tokens by providing cursors for each token 1230 * that can be mapped to a specific entity within the abstract syntax tree. 1231 * 1232 * This token-annotation routine is equivalent to invoking 1233 * clang_getCursor() for the source locations of each of the 1234 * tokens. The cursors provided are filtered, so that only those 1235 * cursors that have a direct correspondence to the token are 1236 * accepted. For example, given a function call \c f(x), 1237 * clang_getCursor() would provide the following cursors: 1238 * 1239 * * when the cursor is over the 'f', a DeclRefExpr cursor referring to 'f'. 1240 * * when the cursor is over the '(' or the ')', a CallExpr referring to 'f'. 1241 * * when the cursor is over the 'x', a DeclRefExpr cursor referring to 'x'. 1242 * 1243 * Only the first and last of these cursors will occur within the 1244 * annotate, since the tokens "f" and "x' directly refer to a function 1245 * and a variable, respectively, but the parentheses are just a small 1246 * part of the full syntax of the function call expression, which is 1247 * not provided as an annotation. 1248 * 1249 * \param TU the translation unit that owns the given tokens. 1250 * 1251 * \param Tokens the set of tokens to annotate. 1252 * 1253 * \param NumTokens the number of tokens in \p Tokens. 1254 * 1255 * \param Cursors an array of \p NumTokens cursors, whose contents will be 1256 * replaced with the cursors corresponding to each token. 1257 */ 1258CINDEX_LINKAGE void clang_annotateTokens(CXTranslationUnit TU, 1259 CXToken *Tokens, unsigned NumTokens, 1260 CXCursor *Cursors); 1261 1262/** 1263 * \brief Free the given set of tokens. 1264 */ 1265CINDEX_LINKAGE void clang_disposeTokens(CXTranslationUnit TU, 1266 CXToken *Tokens, unsigned NumTokens); 1267 1268/** 1269 * @} 1270 */ 1271 1272/** 1273 * \defgroup CINDEX_DEBUG Debugging facilities 1274 * 1275 * These routines are used for testing and debugging, only, and should not 1276 * be relied upon. 1277 * 1278 * @{ 1279 */ 1280 1281/* for debug/testing */ 1282CINDEX_LINKAGE CXString clang_getCursorKindSpelling(enum CXCursorKind Kind); 1283CINDEX_LINKAGE void clang_getDefinitionSpellingAndExtent(CXCursor, 1284 const char **startBuf, 1285 const char **endBuf, 1286 unsigned *startLine, 1287 unsigned *startColumn, 1288 unsigned *endLine, 1289 unsigned *endColumn); 1290CINDEX_LINKAGE void clang_enableStackTraces(void); 1291/** 1292 * @} 1293 */ 1294 1295/** 1296 * \defgroup CINDEX_CODE_COMPLET Code completion 1297 * 1298 * Code completion involves taking an (incomplete) source file, along with 1299 * knowledge of where the user is actively editing that file, and suggesting 1300 * syntactically- and semantically-valid constructs that the user might want to 1301 * use at that particular point in the source code. These data structures and 1302 * routines provide support for code completion. 1303 * 1304 * @{ 1305 */ 1306 1307/** 1308 * \brief A semantic string that describes a code-completion result. 1309 * 1310 * A semantic string that describes the formatting of a code-completion 1311 * result as a single "template" of text that should be inserted into the 1312 * source buffer when a particular code-completion result is selected. 1313 * Each semantic string is made up of some number of "chunks", each of which 1314 * contains some text along with a description of what that text means, e.g., 1315 * the name of the entity being referenced, whether the text chunk is part of 1316 * the template, or whether it is a "placeholder" that the user should replace 1317 * with actual code,of a specific kind. See \c CXCompletionChunkKind for a 1318 * description of the different kinds of chunks. 1319 */ 1320typedef void *CXCompletionString; 1321 1322/** 1323 * \brief A single result of code completion. 1324 */ 1325typedef struct { 1326 /** 1327 * \brief The kind of entity that this completion refers to. 1328 * 1329 * The cursor kind will be a macro, keyword, or a declaration (one of the 1330 * *Decl cursor kinds), describing the entity that the completion is 1331 * referring to. 1332 * 1333 * \todo In the future, we would like to provide a full cursor, to allow 1334 * the client to extract additional information from declaration. 1335 */ 1336 enum CXCursorKind CursorKind; 1337 1338 /** 1339 * \brief The code-completion string that describes how to insert this 1340 * code-completion result into the editing buffer. 1341 */ 1342 CXCompletionString CompletionString; 1343} CXCompletionResult; 1344 1345/** 1346 * \brief Describes a single piece of text within a code-completion string. 1347 * 1348 * Each "chunk" within a code-completion string (\c CXCompletionString) is 1349 * either a piece of text with a specific "kind" that describes how that text 1350 * should be interpreted by the client or is another completion string. 1351 */ 1352enum CXCompletionChunkKind { 1353 /** 1354 * \brief A code-completion string that describes "optional" text that 1355 * could be a part of the template (but is not required). 1356 * 1357 * The Optional chunk is the only kind of chunk that has a code-completion 1358 * string for its representation, which is accessible via 1359 * \c clang_getCompletionChunkCompletionString(). The code-completion string 1360 * describes an additional part of the template that is completely optional. 1361 * For example, optional chunks can be used to describe the placeholders for 1362 * arguments that match up with defaulted function parameters, e.g. given: 1363 * 1364 * \code 1365 * void f(int x, float y = 3.14, double z = 2.71828); 1366 * \endcode 1367 * 1368 * The code-completion string for this function would contain: 1369 * - a TypedText chunk for "f". 1370 * - a LeftParen chunk for "(". 1371 * - a Placeholder chunk for "int x" 1372 * - an Optional chunk containing the remaining defaulted arguments, e.g., 1373 * - a Comma chunk for "," 1374 * - a Placeholder chunk for "float y" 1375 * - an Optional chunk containing the last defaulted argument: 1376 * - a Comma chunk for "," 1377 * - a Placeholder chunk for "double z" 1378 * - a RightParen chunk for ")" 1379 * 1380 * There are many ways to handle Optional chunks. Two simple approaches are: 1381 * - Completely ignore optional chunks, in which case the template for the 1382 * function "f" would only include the first parameter ("int x"). 1383 * - Fully expand all optional chunks, in which case the template for the 1384 * function "f" would have all of the parameters. 1385 */ 1386 CXCompletionChunk_Optional, 1387 /** 1388 * \brief Text that a user would be expected to type to get this 1389 * code-completion result. 1390 * 1391 * There will be exactly one "typed text" chunk in a semantic string, which 1392 * will typically provide the spelling of a keyword or the name of a 1393 * declaration that could be used at the current code point. Clients are 1394 * expected to filter the code-completion results based on the text in this 1395 * chunk. 1396 */ 1397 CXCompletionChunk_TypedText, 1398 /** 1399 * \brief Text that should be inserted as part of a code-completion result. 1400 * 1401 * A "text" chunk represents text that is part of the template to be 1402 * inserted into user code should this particular code-completion result 1403 * be selected. 1404 */ 1405 CXCompletionChunk_Text, 1406 /** 1407 * \brief Placeholder text that should be replaced by the user. 1408 * 1409 * A "placeholder" chunk marks a place where the user should insert text 1410 * into the code-completion template. For example, placeholders might mark 1411 * the function parameters for a function declaration, to indicate that the 1412 * user should provide arguments for each of those parameters. The actual 1413 * text in a placeholder is a suggestion for the text to display before 1414 * the user replaces the placeholder with real code. 1415 */ 1416 CXCompletionChunk_Placeholder, 1417 /** 1418 * \brief Informative text that should be displayed but never inserted as 1419 * part of the template. 1420 * 1421 * An "informative" chunk contains annotations that can be displayed to 1422 * help the user decide whether a particular code-completion result is the 1423 * right option, but which is not part of the actual template to be inserted 1424 * by code completion. 1425 */ 1426 CXCompletionChunk_Informative, 1427 /** 1428 * \brief Text that describes the current parameter when code-completion is 1429 * referring to function call, message send, or template specialization. 1430 * 1431 * A "current parameter" chunk occurs when code-completion is providing 1432 * information about a parameter corresponding to the argument at the 1433 * code-completion point. For example, given a function 1434 * 1435 * \code 1436 * int add(int x, int y); 1437 * \endcode 1438 * 1439 * and the source code \c add(, where the code-completion point is after the 1440 * "(", the code-completion string will contain a "current parameter" chunk 1441 * for "int x", indicating that the current argument will initialize that 1442 * parameter. After typing further, to \c add(17, (where the code-completion 1443 * point is after the ","), the code-completion string will contain a 1444 * "current paremeter" chunk to "int y". 1445 */ 1446 CXCompletionChunk_CurrentParameter, 1447 /** 1448 * \brief A left parenthesis ('('), used to initiate a function call or 1449 * signal the beginning of a function parameter list. 1450 */ 1451 CXCompletionChunk_LeftParen, 1452 /** 1453 * \brief A right parenthesis (')'), used to finish a function call or 1454 * signal the end of a function parameter list. 1455 */ 1456 CXCompletionChunk_RightParen, 1457 /** 1458 * \brief A left bracket ('['). 1459 */ 1460 CXCompletionChunk_LeftBracket, 1461 /** 1462 * \brief A right bracket (']'). 1463 */ 1464 CXCompletionChunk_RightBracket, 1465 /** 1466 * \brief A left brace ('{'). 1467 */ 1468 CXCompletionChunk_LeftBrace, 1469 /** 1470 * \brief A right brace ('}'). 1471 */ 1472 CXCompletionChunk_RightBrace, 1473 /** 1474 * \brief A left angle bracket ('<'). 1475 */ 1476 CXCompletionChunk_LeftAngle, 1477 /** 1478 * \brief A right angle bracket ('>'). 1479 */ 1480 CXCompletionChunk_RightAngle, 1481 /** 1482 * \brief A comma separator (','). 1483 */ 1484 CXCompletionChunk_Comma, 1485 /** 1486 * \brief Text that specifies the result type of a given result. 1487 * 1488 * This special kind of informative chunk is not meant to be inserted into 1489 * the text buffer. Rather, it is meant to illustrate the type that an 1490 * expression using the given completion string would have. 1491 */ 1492 CXCompletionChunk_ResultType, 1493 /** 1494 * \brief A colon (':'). 1495 */ 1496 CXCompletionChunk_Colon, 1497 /** 1498 * \brief A semicolon (';'). 1499 */ 1500 CXCompletionChunk_SemiColon, 1501 /** 1502 * \brief An '=' sign. 1503 */ 1504 CXCompletionChunk_Equal, 1505 /** 1506 * Horizontal space (' '). 1507 */ 1508 CXCompletionChunk_HorizontalSpace, 1509 /** 1510 * Vertical space ('\n'), after which it is generally a good idea to 1511 * perform indentation. 1512 */ 1513 CXCompletionChunk_VerticalSpace 1514}; 1515 1516/** 1517 * \brief Determine the kind of a particular chunk within a completion string. 1518 * 1519 * \param completion_string the completion string to query. 1520 * 1521 * \param chunk_number the 0-based index of the chunk in the completion string. 1522 * 1523 * \returns the kind of the chunk at the index \c chunk_number. 1524 */ 1525CINDEX_LINKAGE enum CXCompletionChunkKind 1526clang_getCompletionChunkKind(CXCompletionString completion_string, 1527 unsigned chunk_number); 1528 1529/** 1530 * \brief Retrieve the text associated with a particular chunk within a 1531 * completion string. 1532 * 1533 * \param completion_string the completion string to query. 1534 * 1535 * \param chunk_number the 0-based index of the chunk in the completion string. 1536 * 1537 * \returns the text associated with the chunk at index \c chunk_number. 1538 */ 1539CINDEX_LINKAGE CXString 1540clang_getCompletionChunkText(CXCompletionString completion_string, 1541 unsigned chunk_number); 1542 1543/** 1544 * \brief Retrieve the completion string associated with a particular chunk 1545 * within a completion string. 1546 * 1547 * \param completion_string the completion string to query. 1548 * 1549 * \param chunk_number the 0-based index of the chunk in the completion string. 1550 * 1551 * \returns the completion string associated with the chunk at index 1552 * \c chunk_number, or NULL if that chunk is not represented by a completion 1553 * string. 1554 */ 1555CINDEX_LINKAGE CXCompletionString 1556clang_getCompletionChunkCompletionString(CXCompletionString completion_string, 1557 unsigned chunk_number); 1558 1559/** 1560 * \brief Retrieve the number of chunks in the given code-completion string. 1561 */ 1562CINDEX_LINKAGE unsigned 1563clang_getNumCompletionChunks(CXCompletionString completion_string); 1564 1565/** 1566 * \brief Contains the results of code-completion. 1567 * 1568 * This data structure contains the results of code completion, as 1569 * produced by \c clang_codeComplete. Its contents must be freed by 1570 * \c clang_disposeCodeCompleteResults. 1571 */ 1572typedef struct { 1573 /** 1574 * \brief The code-completion results. 1575 */ 1576 CXCompletionResult *Results; 1577 1578 /** 1579 * \brief The number of code-completion results stored in the 1580 * \c Results array. 1581 */ 1582 unsigned NumResults; 1583} CXCodeCompleteResults; 1584 1585/** 1586 * \brief Perform code completion at a given location in a source file. 1587 * 1588 * This function performs code completion at a particular file, line, and 1589 * column within source code, providing results that suggest potential 1590 * code snippets based on the context of the completion. The basic model 1591 * for code completion is that Clang will parse a complete source file, 1592 * performing syntax checking up to the location where code-completion has 1593 * been requested. At that point, a special code-completion token is passed 1594 * to the parser, which recognizes this token and determines, based on the 1595 * current location in the C/Objective-C/C++ grammar and the state of 1596 * semantic analysis, what completions to provide. These completions are 1597 * returned via a new \c CXCodeCompleteResults structure. 1598 * 1599 * Code completion itself is meant to be triggered by the client when the 1600 * user types punctuation characters or whitespace, at which point the 1601 * code-completion location will coincide with the cursor. For example, if \c p 1602 * is a pointer, code-completion might be triggered after the "-" and then 1603 * after the ">" in \c p->. When the code-completion location is afer the ">", 1604 * the completion results will provide, e.g., the members of the struct that 1605 * "p" points to. The client is responsible for placing the cursor at the 1606 * beginning of the token currently being typed, then filtering the results 1607 * based on the contents of the token. For example, when code-completing for 1608 * the expression \c p->get, the client should provide the location just after 1609 * the ">" (e.g., pointing at the "g") to this code-completion hook. Then, the 1610 * client can filter the results based on the current token text ("get"), only 1611 * showing those results that start with "get". The intent of this interface 1612 * is to separate the relatively high-latency acquisition of code-completion 1613 * results from the filtering of results on a per-character basis, which must 1614 * have a lower latency. 1615 * 1616 * \param CIdx the \c CXIndex instance that will be used to perform code 1617 * completion. 1618 * 1619 * \param source_filename the name of the source file that should be parsed to 1620 * perform code-completion. This source file must be the same as or include the 1621 * filename described by \p complete_filename, or no code-completion results 1622 * will be produced. NOTE: One can also specify NULL for this argument if the 1623 * source file is included in command_line_args. 1624 * 1625 * \param num_command_line_args the number of command-line arguments stored in 1626 * \p command_line_args. 1627 * 1628 * \param command_line_args the command-line arguments to pass to the Clang 1629 * compiler to build the given source file. This should include all of the 1630 * necessary include paths, language-dialect switches, precompiled header 1631 * includes, etc., but should not include any information specific to 1632 * code completion. 1633 * 1634 * \param num_unsaved_files the number of unsaved file entries in \p 1635 * unsaved_files. 1636 * 1637 * \param unsaved_files the files that have not yet been saved to disk 1638 * but may be required for code completion, including the contents of 1639 * those files. 1640 * 1641 * \param complete_filename the name of the source file where code completion 1642 * should be performed. In many cases, this name will be the same as the 1643 * source filename. However, the completion filename may also be a file 1644 * included by the source file, which is required when producing 1645 * code-completion results for a header. 1646 * 1647 * \param complete_line the line at which code-completion should occur. 1648 * 1649 * \param complete_column the column at which code-completion should occur. 1650 * Note that the column should point just after the syntactic construct that 1651 * initiated code completion, and not in the middle of a lexical token. 1652 * 1653 * \param diag_callback callback function that will receive any diagnostics 1654 * emitted while processing this source file. If NULL, diagnostics will be 1655 * suppressed. 1656 * 1657 * \param diag_client_data client data that will be passed to the diagnostic 1658 * callback function. 1659 * 1660 * \returns if successful, a new CXCodeCompleteResults structure 1661 * containing code-completion results, which should eventually be 1662 * freed with \c clang_disposeCodeCompleteResults(). If code 1663 * completion fails, returns NULL. 1664 */ 1665CINDEX_LINKAGE 1666CXCodeCompleteResults *clang_codeComplete(CXIndex CIdx, 1667 const char *source_filename, 1668 int num_command_line_args, 1669 const char **command_line_args, 1670 unsigned num_unsaved_files, 1671 struct CXUnsavedFile *unsaved_files, 1672 const char *complete_filename, 1673 unsigned complete_line, 1674 unsigned complete_column); 1675 1676/** 1677 * \brief Free the given set of code-completion results. 1678 */ 1679CINDEX_LINKAGE 1680void clang_disposeCodeCompleteResults(CXCodeCompleteResults *Results); 1681 1682/** 1683 * \brief Determine the number of diagnostics produced prior to the 1684 * location where code completion was performed. 1685 */ 1686CINDEX_LINKAGE 1687unsigned clang_codeCompleteGetNumDiagnostics(CXCodeCompleteResults *Results); 1688 1689/** 1690 * \brief Retrieve a diagnostic associated with the given code completion. 1691 * 1692 * \param Result the code completion results to query. 1693 * \param Index the zero-based diagnostic number to retrieve. 1694 * 1695 * \returns the requested diagnostic. This diagnostic must be freed 1696 * via a call to \c clang_disposeDiagnostic(). 1697 */ 1698CINDEX_LINKAGE 1699CXDiagnostic clang_codeCompleteGetDiagnostic(CXCodeCompleteResults *Results, 1700 unsigned Index); 1701 1702/** 1703 * @} 1704 */ 1705 1706 1707/** 1708 * \defgroup CINDEX_MISC Miscellaneous utility functions 1709 * 1710 * @{ 1711 */ 1712 1713/** 1714 * \brief Return a version string, suitable for showing to a user, but not 1715 * intended to be parsed (the format is not guaranteed to be stable). 1716 */ 1717CINDEX_LINKAGE CXString clang_getClangVersion(); 1718 1719/** 1720 * \brief Return a version string, suitable for showing to a user, but not 1721 * intended to be parsed (the format is not guaranteed to be stable). 1722 */ 1723 1724 1725 /** 1726 * \brief Visitor invoked for each file in a translation unit 1727 * (used with clang_getInclusions()). 1728 * 1729 * This visitor function will be invoked by clang_getInclusions() for each 1730 * file included (either at the top-level or by #include directives) within 1731 * a translation unit. The first argument is the file being included, and 1732 * the second and third arguments provide the inclusion stack. The 1733 * array is sorted in order of immediate inclusion. For example, 1734 * the first element refers to the location that included 'included_file'. 1735 */ 1736typedef void (*CXInclusionVisitor)(CXFile included_file, 1737 CXSourceLocation* inclusion_stack, 1738 unsigned include_len, 1739 CXClientData client_data); 1740 1741/** 1742 * \brief Visit the set of preprocessor inclusions in a translation unit. 1743 * The visitor function is called with the provided data for every included 1744 * file. This does not include headers included by the PCH file (unless one 1745 * is inspecting the inclusions in the PCH file itself). 1746 */ 1747CINDEX_LINKAGE void clang_getInclusions(CXTranslationUnit tu, 1748 CXInclusionVisitor visitor, 1749 CXClientData client_data); 1750 1751/** 1752 * @} 1753 */ 1754 1755/** 1756 * @} 1757 */ 1758 1759#ifdef __cplusplus 1760} 1761#endif 1762#endif 1763 1764