/** * @file keywords.cpp * Manages the table of keywords. * * @author Ben Gardner * @author Guy Maurel since version 0.62 for uncrustify4Qt * October 2015, 2016 * @license GPL v2+ */ #include "keywords.h" #include "args.h" #include "prototypes.h" #include using namespace std; // Dynamic keyword map typedef map dkwmap; static dkwmap dkwm; /** * Compares two chunk_tag_t entries using strcmp on the strings * * @param the 'left' entry * @param the 'right' entry * * @return == 0 if both keywords are equal * @return < 0 p1 is smaller than p2 * @return > 0 p2 is smaller than p1 */ static int kw_compare(const void *p1, const void *p2); /** * search in static keywords for first occurrence of a given tag * * @param tag/keyword to search for */ static const chunk_tag_t *kw_static_first(const chunk_tag_t *tag); //static const chunk_tag_t *kw_static_match(const chunk_tag_t *tag); static const chunk_tag_t *kw_static_match(const chunk_tag_t *tag, int lang_flags); /** * interesting static keywords - keep sorted. * Table includes the Name, Type, and Language flags. */ static chunk_tag_t keywords[] = { // TODO: it might be useful if users could add there custom keywords to this list { "@autoreleasepool", CT_AUTORELEASEPOOL, LANG_OC }, { "@available", CT_OC_AVAILABLE, LANG_OC }, { "@catch", CT_CATCH, LANG_OC }, { "@dynamic", CT_OC_DYNAMIC, LANG_OC }, { "@end", CT_OC_END, LANG_OC }, { "@finally", CT_FINALLY, LANG_OC }, { "@implementation", CT_OC_IMPL, LANG_OC }, { "@interface", CT_OC_INTF, LANG_OC }, { "@interface", CT_CLASS, LANG_JAVA }, { "@private", CT_ACCESS, LANG_OC }, { "@property", CT_OC_PROPERTY, LANG_OC }, { "@protected", CT_ACCESS, LANG_OC }, { "@protocol", CT_OC_PROTOCOL, LANG_OC }, { "@public", CT_ACCESS, LANG_OC }, { "@selector", CT_OC_SEL, LANG_OC }, { "@synchronized", CT_SYNCHRONIZED, LANG_OC }, { "@synthesize", CT_OC_DYNAMIC, LANG_OC }, { "@throw", CT_THROW, LANG_OC }, { "@try", CT_TRY, LANG_OC }, { "API_AVAILABLE", CT_ATTRIBUTE, LANG_OC }, { "API_DEPRECATED", CT_ATTRIBUTE, LANG_OC }, { "API_DEPRECATED_WITH_REPLACEMENT", CT_ATTRIBUTE, LANG_OC }, { "API_UNAVAILABLE", CT_ATTRIBUTE, LANG_OC }, { "BOOL", CT_TYPE, LANG_OC }, { "NS_ENUM", CT_ENUM, LANG_OC }, { "NS_OPTIONS", CT_ENUM, LANG_OC }, { "Q_EMIT", CT_Q_EMIT, LANG_CPP }, // guy 2015-10-16 { "Q_FOREACH", CT_FOR, LANG_CPP }, // guy 2015-09-23 { "Q_FOREVER", CT_Q_FOREVER, LANG_CPP }, // guy 2015-10-18 { "Q_GADGET", CT_Q_GADGET, LANG_CPP }, // guy 2016-05-04 { "Q_OBJECT", CT_COMMENT_EMBED, LANG_CPP }, { "Q_SIGNALS", CT_ACCESS, LANG_CPP }, { "_Bool", CT_TYPE, LANG_C }, { "_Complex", CT_TYPE, LANG_C }, { "_Imaginary", CT_TYPE, LANG_C }, { "_Nonnull", CT_QUALIFIER, LANG_OC }, { "_Null_unspecified", CT_QUALIFIER, LANG_OC }, { "_Nullable", CT_QUALIFIER, LANG_OC }, { "_Pragma", CT_PP_PRAGMA, LANG_ALL | FLAG_PP }, { "__DI__", CT_DI, LANG_C }, { "__HI__", CT_HI, LANG_C }, { "__QI__", CT_QI, LANG_C }, { "__SI__", CT_SI, LANG_C }, { "__asm__", CT_ASM, LANG_C }, { "__attribute__", CT_ATTRIBUTE, LANG_C }, { "__autoreleasing", CT_QUALIFIER, LANG_C }, { "__block", CT_QUALIFIER, LANG_C }, { "__bridge", CT_QUALIFIER, LANG_C }, { "__bridge_retained", CT_QUALIFIER, LANG_C }, { "__bridge_transfer", CT_QUALIFIER, LANG_C }, { "__const__", CT_QUALIFIER, LANG_C }, { "__declspec", CT_DECLSPEC, LANG_C }, { "__except", CT_CATCH, LANG_C }, { "__finally", CT_FINALLY, LANG_C }, { "__has_include", CT_CNG_HASINC, LANG_C | FLAG_PP }, // clang { "__has_include_next", CT_CNG_HASINCN, LANG_C | FLAG_PP }, // clang { "__inline__", CT_QUALIFIER, LANG_C }, { "__nonnull", CT_QUALIFIER, LANG_OC }, { "__nothrow__", CT_NOTHROW, LANG_C }, { "__null_unspecified", CT_QUALIFIER, LANG_OC }, { "__nullable", CT_QUALIFIER, LANG_OC }, { "__pragma", CT_PP_PRAGMA, LANG_ALL | FLAG_PP }, { "__restrict", CT_QUALIFIER, LANG_C }, { "__signed__", CT_TYPE, LANG_C }, { "__strong", CT_QUALIFIER, LANG_C }, { "__thread", CT_QUALIFIER, LANG_C }, { "__traits", CT_QUALIFIER, LANG_D }, { "__try", CT_TRY, LANG_C }, { "__typeof", CT_DECLTYPE, LANG_C }, { "__typeof__", CT_DECLTYPE, LANG_C }, { "__unsafe_unretained", CT_QUALIFIER, LANG_OC }, { "__unused", CT_ATTRIBUTE, LANG_C }, { "__volatile__", CT_QUALIFIER, LANG_C }, { "__weak", CT_QUALIFIER, LANG_C }, { "__word__", CT_WORD_, LANG_C }, { "abstract", CT_QUALIFIER, LANG_CS | LANG_D | LANG_JAVA | LANG_VALA | LANG_ECMA }, { "add", CT_GETSET, LANG_CS }, { "alias", CT_USING, LANG_D }, { "align", CT_ALIGN, LANG_D }, { "alignof", CT_SIZEOF, LANG_CPP }, { "and", CT_SBOOL, LANG_CPP }, { "and_eq", CT_SASSIGN, LANG_CPP }, { "as", CT_AS, LANG_CS | LANG_VALA }, { "asm", CT_ASM, LANG_C | LANG_D }, { "asm", CT_PP_ASM, LANG_ALL | FLAG_PP }, { "assert", CT_ASSERT, LANG_JAVA }, { "assert", CT_FUNCTION, LANG_D | LANG_PAWN }, // PAWN { "assert", CT_PP_ASSERT, LANG_PAWN | FLAG_PP }, // PAWN { "auto", CT_TYPE, LANG_C | LANG_D }, { "base", CT_BASE, LANG_CS | LANG_VALA }, { "bit", CT_TYPE, LANG_D }, { "bitand", CT_ARITH, LANG_C }, { "bitor", CT_ARITH, LANG_C }, { "body", CT_BODY, LANG_D }, { "bool", CT_TYPE, LANG_C | LANG_CS | LANG_VALA }, { "boolean", CT_TYPE, LANG_JAVA | LANG_ECMA }, { "break", CT_BREAK, LANG_ALL }, // PAWN { "byte", CT_TYPE, LANG_CS | LANG_D | LANG_JAVA | LANG_ECMA }, { "callback", CT_QUALIFIER, LANG_VALA }, { "case", CT_CASE, LANG_ALL }, // PAWN { "cast", CT_D_CAST, LANG_D }, { "catch", CT_CATCH, LANG_CPP | LANG_CS | LANG_VALA | LANG_D | LANG_JAVA | LANG_ECMA }, { "cdouble", CT_TYPE, LANG_D }, { "cent", CT_TYPE, LANG_D }, { "cfloat", CT_TYPE, LANG_D }, { "char", CT_CHAR, LANG_PAWN }, // PAWN { "char", CT_TYPE, LANG_ALLC }, { "checked", CT_QUALIFIER, LANG_CS }, { "class", CT_CLASS, LANG_CPP | LANG_CS | LANG_D | LANG_JAVA | LANG_VALA | LANG_ECMA }, { "compl", CT_ARITH, LANG_CPP }, { "const", CT_QUALIFIER, LANG_ALL }, // PAWN { "const_cast", CT_TYPE_CAST, LANG_CPP }, { "constexpr", CT_QUALIFIER, LANG_CPP }, { "construct", CT_CONSTRUCT, LANG_VALA }, { "continue", CT_CONTINUE, LANG_ALL }, // PAWN { "creal", CT_TYPE, LANG_D }, { "dchar", CT_TYPE, LANG_D }, { "debug", CT_DEBUG, LANG_D }, { "debugger", CT_DEBUGGER, LANG_ECMA }, { "decltype", CT_DECLTYPE, LANG_CPP }, { "default", CT_DEFAULT, LANG_ALL }, // PAWN { "define", CT_PP_DEFINE, LANG_ALL | FLAG_PP }, // PAWN { "defined", CT_DEFINED, LANG_PAWN }, // PAWN { "defined", CT_PP_DEFINED, LANG_ALLC | FLAG_PP }, { "delegate", CT_DELEGATE, LANG_CS | LANG_VALA | LANG_D }, { "delete", CT_DELETE, LANG_CPP | LANG_D | LANG_ECMA | LANG_VALA }, { "deprecated", CT_QUALIFIER, LANG_D }, { "do", CT_DO, LANG_ALL }, // PAWN { "double", CT_TYPE, LANG_ALLC }, { "dynamic_cast", CT_TYPE_CAST, LANG_CPP }, { "elif", CT_PP_ELSE, LANG_ALLC | FLAG_PP }, { "else", CT_ELSE, LANG_ALL }, // PAWN { "else", CT_PP_ELSE, LANG_ALL | FLAG_PP }, // PAWN { "elseif", CT_PP_ELSE, LANG_PAWN | FLAG_PP }, // PAWN { "emit", CT_PP_EMIT, LANG_PAWN | FLAG_PP }, // PAWN { "endif", CT_PP_ENDIF, LANG_ALL | FLAG_PP }, // PAWN { "endinput", CT_PP_ENDINPUT, LANG_PAWN | FLAG_PP }, // PAWN { "endregion", CT_PP_ENDREGION, LANG_ALL | FLAG_PP }, { "endscript", CT_PP_ENDINPUT, LANG_PAWN | FLAG_PP }, // PAWN { "enum", CT_ENUM, LANG_ALL }, // PAWN { "error", CT_PP_ERROR, LANG_PAWN | FLAG_PP }, // PAWN { "event", CT_TYPE, LANG_CS }, { "exit", CT_FUNCTION, LANG_PAWN }, // PAWN { "explicit", CT_QUALIFIER, LANG_CPP | LANG_CS }, { "export", CT_EXPORT, LANG_CPP | LANG_D | LANG_ECMA }, { "extends", CT_QUALIFIER, LANG_JAVA | LANG_ECMA }, { "extern", CT_EXTERN, LANG_C | LANG_CS | LANG_D | LANG_VALA }, { "false", CT_WORD, LANG_ALL }, { "file", CT_PP_FILE, LANG_PAWN | FLAG_PP }, // PAWN { "final", CT_QUALIFIER, LANG_CPP | LANG_D | LANG_ECMA }, { "finally", CT_FINALLY, LANG_D | LANG_CS | LANG_VALA | LANG_ECMA | LANG_JAVA }, { "fixed", CT_FIXED, LANG_CS }, { "flags", CT_TYPE, LANG_VALA }, { "float", CT_TYPE, LANG_ALLC }, { "for", CT_FOR, LANG_ALL }, // PAWN { "foreach", CT_FOR, LANG_CS | LANG_D | LANG_VALA }, { "foreach_reverse", CT_FOR, LANG_D }, { "forward", CT_FORWARD, LANG_PAWN }, // PAWN { "friend", CT_FRIEND, LANG_CPP }, { "function", CT_FUNCTION, LANG_D | LANG_ECMA }, { "get", CT_GETSET, LANG_CS | LANG_VALA }, { "goto", CT_GOTO, LANG_ALL }, // PAWN { "idouble", CT_TYPE, LANG_D }, { "if", CT_IF, LANG_ALL }, // PAWN { "if", CT_PP_IF, LANG_ALL | FLAG_PP }, // PAWN { "ifdef", CT_PP_IF, LANG_ALLC | FLAG_PP }, { "ifloat", CT_TYPE, LANG_D }, { "ifndef", CT_PP_IF, LANG_ALLC | FLAG_PP }, { "implements", CT_QUALIFIER, LANG_JAVA | LANG_ECMA }, { "implicit", CT_QUALIFIER, LANG_CS }, { "import", CT_IMPORT, LANG_D | LANG_JAVA | LANG_ECMA }, // fudged to get indenting { "import", CT_PP_INCLUDE, LANG_OC | FLAG_PP }, // ObjectiveC version of include { "in", CT_IN, LANG_D | LANG_CS | LANG_VALA | LANG_ECMA | LANG_OC }, { "include", CT_PP_INCLUDE, LANG_C | LANG_PAWN | FLAG_PP }, // PAWN { "inline", CT_QUALIFIER, LANG_C }, { "inout", CT_QUALIFIER, LANG_D }, { "instanceof", CT_SIZEOF, LANG_JAVA | LANG_ECMA }, { "int", CT_TYPE, LANG_ALLC }, { "interface", CT_CLASS, LANG_CPP | LANG_CS | LANG_D | LANG_JAVA | LANG_VALA | LANG_ECMA }, { "internal", CT_QUALIFIER, LANG_CS }, { "invariant", CT_INVARIANT, LANG_D }, { "ireal", CT_TYPE, LANG_D }, { "is", CT_SCOMPARE, LANG_D | LANG_CS | LANG_VALA }, { "lazy", CT_LAZY, LANG_D }, { "line", CT_PP_LINE, LANG_PAWN | FLAG_PP }, // PAWN { "lock", CT_LOCK, LANG_CS | LANG_VALA }, { "long", CT_TYPE, LANG_ALLC }, { "macro", CT_D_MACRO, LANG_D }, { "mixin", CT_CLASS, LANG_D }, // may need special handling { "module", CT_D_MODULE, LANG_D }, { "mutable", CT_QUALIFIER, LANG_CPP }, { "namespace", CT_NAMESPACE, LANG_CPP | LANG_CS | LANG_VALA }, { "native", CT_NATIVE, LANG_PAWN }, // PAWN { "native", CT_QUALIFIER, LANG_JAVA | LANG_ECMA }, { "new", CT_NEW, LANG_CPP | LANG_CS | LANG_D | LANG_JAVA | LANG_PAWN | LANG_VALA | LANG_ECMA }, // PAWN { "noexcept", CT_NOEXCEPT, LANG_CPP }, { "nonnull", CT_TYPE, LANG_OC }, { "not", CT_SARITH, LANG_CPP }, { "not_eq", CT_SCOMPARE, LANG_CPP }, // { "null", CT_TYPE, LANG_CS | LANG_D | LANG_JAVA | LANG_VALA }, { "null_resettable", CT_OC_PROPERTY_ATTR, LANG_OC }, { "null_unspecified", CT_TYPE, LANG_OC }, { "nullable", CT_TYPE, LANG_OC }, { "object", CT_TYPE, LANG_CS }, { "operator", CT_OPERATOR, LANG_CPP | LANG_CS | LANG_PAWN }, // PAWN { "or", CT_SBOOL, LANG_CPP }, { "or_eq", CT_SASSIGN, LANG_CPP }, { "out", CT_QUALIFIER, LANG_CS | LANG_D | LANG_VALA }, { "override", CT_QUALIFIER, LANG_CPP | LANG_CS | LANG_D | LANG_VALA }, { "package", CT_ACCESS, LANG_D }, { "package", CT_PACKAGE, LANG_ECMA | LANG_JAVA }, { "params", CT_TYPE, LANG_CS | LANG_VALA }, { "pragma", CT_PP_PRAGMA, LANG_ALL | FLAG_PP }, { "private", CT_ACCESS, LANG_ALLC }, // not C { "property", CT_PP_PROPERTY, LANG_CS | FLAG_PP }, { "protected", CT_ACCESS, LANG_ALLC }, // not C { "public", CT_ACCESS, LANG_ALL }, // PAWN // not C { "readonly", CT_QUALIFIER, LANG_CS }, { "real", CT_TYPE, LANG_D }, { "ref", CT_QUALIFIER, LANG_CS | LANG_VALA }, { "region", CT_PP_REGION, LANG_ALL | FLAG_PP }, { "register", CT_QUALIFIER, LANG_C }, { "reinterpret_cast", CT_TYPE_CAST, LANG_CPP }, { "remove", CT_GETSET, LANG_CS }, { "restrict", CT_QUALIFIER, LANG_C }, { "return", CT_RETURN, LANG_ALL }, // PAWN { "sbyte", CT_TYPE, LANG_CS }, { "scope", CT_D_SCOPE, LANG_D }, { "sealed", CT_QUALIFIER, LANG_CS }, { "section", CT_PP_SECTION, LANG_PAWN | FLAG_PP }, // PAWN { "self", CT_THIS, LANG_OC }, { "set", CT_GETSET, LANG_CS | LANG_VALA }, { "short", CT_TYPE, LANG_ALLC }, { "signal", CT_ACCESS, LANG_VALA }, { "signals", CT_ACCESS, LANG_CPP }, { "signed", CT_TYPE, LANG_C }, { "size_t", CT_TYPE, LANG_ALLC }, { "sizeof", CT_SIZEOF, LANG_C | LANG_CS | LANG_VALA | LANG_PAWN }, // PAWN { "sleep", CT_SIZEOF, LANG_PAWN }, // PAWN { "stackalloc", CT_NEW, LANG_CS }, { "state", CT_STATE, LANG_PAWN }, // PAWN { "static", CT_QUALIFIER, LANG_ALL }, // PAWN { "static_cast", CT_TYPE_CAST, LANG_CPP }, { "stock", CT_STOCK, LANG_PAWN }, // PAWN { "strictfp", CT_QUALIFIER, LANG_JAVA }, { "string", CT_TYPE, LANG_CS | LANG_VALA }, { "struct", CT_STRUCT, LANG_C | LANG_CS | LANG_D | LANG_VALA }, { "super", CT_SUPER, LANG_D | LANG_JAVA | LANG_ECMA }, { "switch", CT_SWITCH, LANG_ALL }, // PAWN { "synchronized", CT_QUALIFIER, LANG_D | LANG_ECMA }, { "synchronized", CT_SYNCHRONIZED, LANG_JAVA }, { "tagof", CT_TAGOF, LANG_PAWN }, // PAWN { "template", CT_TEMPLATE, LANG_CPP | LANG_D }, { "this", CT_THIS, LANG_CPP | LANG_CS | LANG_D | LANG_JAVA | LANG_VALA | LANG_ECMA }, { "throw", CT_THROW, LANG_CPP | LANG_CS | LANG_VALA | LANG_D | LANG_JAVA | LANG_ECMA }, { "throws", CT_QUALIFIER, LANG_JAVA | LANG_ECMA | LANG_VALA }, { "transient", CT_QUALIFIER, LANG_JAVA | LANG_ECMA }, { "true", CT_WORD, LANG_ALL }, { "try", CT_TRY, LANG_CPP | LANG_CS | LANG_D | LANG_JAVA | LANG_ECMA | LANG_VALA }, { "tryinclude", CT_PP_INCLUDE, LANG_PAWN | FLAG_PP }, // PAWN { "typedef", CT_TYPEDEF, LANG_C | LANG_D }, { "typeid", CT_SIZEOF, LANG_CPP | LANG_D }, { "typename", CT_TYPENAME, LANG_CPP }, { "typeof", CT_DECLTYPE, LANG_C }, { "typeof", CT_SIZEOF, LANG_CS | LANG_D | LANG_VALA | LANG_ECMA }, { "ubyte", CT_TYPE, LANG_D }, { "ucent", CT_TYPE, LANG_D }, { "uint", CT_TYPE, LANG_CS | LANG_VALA | LANG_D }, { "ulong", CT_TYPE, LANG_CS | LANG_VALA | LANG_D }, { "unchecked", CT_QUALIFIER, LANG_CS }, { "undef", CT_PP_UNDEF, LANG_ALL | FLAG_PP }, // PAWN { "union", CT_UNION, LANG_C | LANG_D }, { "unittest", CT_UNITTEST, LANG_D }, { "unsafe", CT_UNSAFE, LANG_CS }, { "unsafe_unretained", CT_QUALIFIER, LANG_OC }, { "unsigned", CT_TYPE, LANG_C }, { "ushort", CT_TYPE, LANG_CS | LANG_VALA | LANG_D }, { "using", CT_USING, LANG_CPP | LANG_CS | LANG_VALA }, { "var", CT_TYPE, LANG_VALA | LANG_ECMA }, { "version", CT_D_VERSION, LANG_D }, { "virtual", CT_QUALIFIER, LANG_CPP | LANG_CS | LANG_VALA }, { "void", CT_TYPE, LANG_ALLC }, { "volatile", CT_QUALIFIER, LANG_C | LANG_CS | LANG_JAVA | LANG_ECMA }, { "volatile", CT_VOLATILE, LANG_D }, { "wchar", CT_TYPE, LANG_D }, { "wchar_t", CT_TYPE, LANG_C }, { "weak", CT_QUALIFIER, LANG_VALA }, { "when", CT_WHEN, LANG_CS }, { "where", CT_WHERE, LANG_CS }, { "while", CT_WHILE, LANG_ALL }, // PAWN { "with", CT_D_WITH, LANG_D | LANG_ECMA }, { "xor", CT_SARITH, LANG_CPP }, { "xor_eq", CT_SASSIGN, LANG_CPP }, }; void init_keywords() { /* Please read comments above keywords array */ for (int idx = 1; idx < (int)ARRAY_SIZE(keywords); idx++) { chunk_tag_t *tag = &keywords[idx]; if ( (tag->lang_flags == LANG_ALL) || (tag->lang_flags == LANG_ALLC)) { continue; } if ((tag->lang_flags & LANG_C) != 0) { int lang_flags = LANG_OC; const chunk_tag_t *probe = kw_static_match(tag, lang_flags); if (probe == NULL) { tag->lang_flags |= lang_flags; } lang_flags = LANG_CPP; probe = kw_static_match(tag, lang_flags); if (probe == NULL) { tag->lang_flags |= lang_flags; } } } } static int kw_compare(const void *p1, const void *p2) { const chunk_tag_t *t1 = static_cast(p1); const chunk_tag_t *t2 = static_cast(p2); return(strcmp(t1->tag, t2->tag)); } bool keywords_are_sorted(void) { for (int idx = 1; idx < static_cast ARRAY_SIZE(keywords); idx++) { if (kw_compare(&keywords[idx - 1], &keywords[idx]) > 0) { fprintf(stderr, "%s: bad sort order at idx %d, words '%s' and '%s'\n", __func__, idx - 1, keywords[idx - 1].tag, keywords[idx].tag); // coveralls will always complain. // these lines are only needed for the developper. log_flush(true); cpd.error_count++; return(false); } } return(true); } void add_keyword(const std::string &tag, c_token_t type) { // See if the keyword has already been added dkwmap::iterator it = dkwm.find(tag); if (it != dkwm.end()) { LOG_FMT(LDYNKW, "%s(%d): changed '%s' to '%s'\n", __func__, __LINE__, tag.c_str(), get_token_name(type)); (*it).second = type; return; } // Insert the keyword dkwm.insert(dkwmap::value_type(tag, type)); LOG_FMT(LDYNKW, "%s(%d): added '%s' as '%s'\n", __func__, __LINE__, tag.c_str(), get_token_name(type)); } static const chunk_tag_t *kw_static_first(const chunk_tag_t *tag) { const chunk_tag_t *prev = tag - 1; // TODO: avoid pointer arithmetics // loop over static keyword array while ( prev >= &keywords[0] // not at beginning of keyword array && strcmp(prev->tag, tag->tag) == 0) // tags match { tag = prev; prev--; } return(tag); } static const chunk_tag_t *kw_static_match(const chunk_tag_t *tag, int lang_flags) { bool in_pp = ( cpd.in_preproc != CT_NONE && cpd.in_preproc != CT_PP_DEFINE); for (const chunk_tag_t *iter = kw_static_first(tag); iter < &keywords[ARRAY_SIZE(keywords)]; iter++) { bool pp_iter = (iter->lang_flags & FLAG_PP) != 0; // forcing value to bool if ( (strcmp(iter->tag, tag->tag) == 0) && language_is_set(iter->lang_flags) && (lang_flags & iter->lang_flags) && in_pp == pp_iter) { return(iter); } } return(nullptr); } c_token_t find_keyword_type(const char *word, size_t len) { if (len <= 0) { return(CT_NONE); } // check the dynamic word list first string ss(word, len); dkwmap::iterator it = dkwm.find(ss); if (it != dkwm.end()) { return((*it).second); } chunk_tag_t key; key.tag = ss.c_str(); // check the static word list const chunk_tag_t *p_ret = static_cast( bsearch(&key, keywords, ARRAY_SIZE(keywords), sizeof(keywords[0]), kw_compare)); if (p_ret != nullptr) { if ( strcmp(p_ret->tag, "__pragma") == 0 || strcmp(p_ret->tag, "_Pragma") == 0) { cpd.in_preproc = CT_PREPROC; } p_ret = kw_static_match(p_ret, cpd.lang_flags); } return((p_ret != nullptr) ? p_ret->type : CT_WORD); } int load_keyword_file(const char *filename) { FILE *pf = fopen(filename, "r"); if (pf == nullptr) { LOG_FMT(LERR, "%s: fopen(%s) failed: %s (%d)\n", __func__, filename, strerror(errno), errno); cpd.error_count++; return(EX_IOERR); } const int max_line_length = 256; const int max_arg_count = 2; // maximal length of a line in the file char buf[max_line_length]; char *args[max_arg_count]; size_t line_no = 0; // read file line by line while (fgets(buf, max_line_length, pf) != nullptr) { line_no++; // remove comments after '#' sign char *ptr; if ((ptr = strchr(buf, '#')) != nullptr) { *ptr = 0; // set string end where comment begins } size_t argc = Args::SplitLine(buf, args, max_arg_count); if (argc > 0) { if ( argc == 1 && CharTable::IsKw1(*args[0])) { add_keyword(args[0], CT_TYPE); } else { LOG_FMT(LWARN, "%s:%zu Invalid line (starts with '%s')\n", filename, line_no, args[0]); cpd.error_count++; } } else { continue; // the line is empty } } fclose(pf); return(EX_OK); } // load_keyword_file void print_keywords(FILE *pfile) { for (const auto &keyword_pair : dkwm) { c_token_t tt = keyword_pair.second; if (tt == CT_TYPE) { fprintf(pfile, "type %*.s%s\n", uncrustify::limits::MAX_OPTION_NAME_LEN - 4, " ", keyword_pair.first.c_str()); } else if (tt == CT_MACRO_OPEN) { fprintf(pfile, "macro-open %*.s%s\n", uncrustify::limits::MAX_OPTION_NAME_LEN - 11, " ", keyword_pair.first.c_str()); } else if (tt == CT_MACRO_CLOSE) { fprintf(pfile, "macro-close %*.s%s\n", uncrustify::limits::MAX_OPTION_NAME_LEN - 12, " ", keyword_pair.first.c_str()); } else if (tt == CT_MACRO_ELSE) { fprintf(pfile, "macro-else %*.s%s\n", uncrustify::limits::MAX_OPTION_NAME_LEN - 11, " ", keyword_pair.first.c_str()); } else { const char *tn = get_token_name(tt); fprintf(pfile, "set %s %*.s%s\n", tn, uncrustify::limits::MAX_OPTION_NAME_LEN - (4 + static_cast(strlen(tn))), " ", keyword_pair.first.c_str()); } } } void clear_keyword_file(void) { dkwm.clear(); } pattern_class_e get_token_pattern_class(c_token_t tok) { // TODO: instead of this switch better assign the pattern class to each statement switch (tok) { case CT_IF: case CT_ELSEIF: case CT_SWITCH: case CT_FOR: case CT_WHILE: case CT_SYNCHRONIZED: case CT_USING_STMT: case CT_LOCK: case CT_D_WITH: case CT_D_VERSION_IF: case CT_D_SCOPE_IF: return(pattern_class_e::PBRACED); case CT_ELSE: return(pattern_class_e::ELSE); case CT_DO: case CT_TRY: case CT_FINALLY: case CT_BODY: case CT_UNITTEST: case CT_UNSAFE: case CT_VOLATILE: case CT_GETSET: return(pattern_class_e::BRACED); case CT_CATCH: case CT_D_VERSION: case CT_DEBUG: return(pattern_class_e::OPBRACED); case CT_NAMESPACE: return(pattern_class_e::VBRACED); case CT_WHILE_OF_DO: return(pattern_class_e::PAREN); case CT_INVARIANT: return(pattern_class_e::OPPAREN); default: return(pattern_class_e::NONE); } // switch } // get_token_pattern_class