// lex.cc -- Go frontend lexer. // Copyright 2009 The Go Authors. All rights reserved. // Use of this source code is governed by a BSD-style // license that can be found in the LICENSE file. #include "go-system.h" #include "go-diagnostics.h" #include "lex.h" // Manage mapping from keywords to the Keyword codes. class Keywords { public: // The structure which maps keywords to codes. struct Mapping { // Keyword string. const char* keystring; // Keyword code. Keyword keycode; }; // Return the parsecode corresponding to KEYSTRING, or // KEYWORD_INVALID if it is not a keyword. Keyword keyword_to_code(const char* keyword, size_t len) const; // Return the string for a keyword. const char* keyword_to_string(Keyword) const; private: static const Mapping mapping_[]; static const int count_; }; // Mapping from keyword string to keyword code. This array must be // kept in sorted order, and the order must match the Keyword enum. // Strings are looked up using bsearch. const Keywords::Mapping Keywords::mapping_[] = { { NULL, KEYWORD_INVALID }, { "__asm__", KEYWORD_ASM }, { "break", KEYWORD_BREAK }, { "case", KEYWORD_CASE }, { "chan", KEYWORD_CHAN }, { "const", KEYWORD_CONST }, { "continue", KEYWORD_CONTINUE }, { "default", KEYWORD_DEFAULT }, { "defer", KEYWORD_DEFER }, { "else", KEYWORD_ELSE }, { "fallthrough", KEYWORD_FALLTHROUGH }, { "for", KEYWORD_FOR }, { "func", KEYWORD_FUNC }, { "go", KEYWORD_GO }, { "goto", KEYWORD_GOTO }, { "if", KEYWORD_IF }, { "import", KEYWORD_IMPORT }, { "interface", KEYWORD_INTERFACE }, { "map", KEYWORD_MAP }, { "package", KEYWORD_PACKAGE }, { "range", KEYWORD_RANGE }, { "return", KEYWORD_RETURN }, { "select", KEYWORD_SELECT }, { "struct", KEYWORD_STRUCT }, { "switch", KEYWORD_SWITCH }, { "type", KEYWORD_TYPE }, { "var", KEYWORD_VAR } }; // Number of entries in the map. const int Keywords::count_ = sizeof(Keywords::mapping_) / sizeof(Keywords::mapping_[0]); // Comparison function passed to bsearch. extern "C" { struct Keywords_search_key { const char* str; size_t len; }; static int keyword_compare(const void* keyv, const void* mapv) { const Keywords_search_key* key = static_cast(keyv); const Keywords::Mapping* map = static_cast(mapv); if (map->keystring == NULL) return 1; int i = strncmp(key->str, map->keystring, key->len); if (i != 0) return i; if (map->keystring[key->len] != '\0') return -1; return 0; } } // End extern "C". // Convert a string to a keyword code. Return KEYWORD_INVALID if the // string is not a keyword. Keyword Keywords::keyword_to_code(const char* keyword, size_t len) const { Keywords_search_key key; key.str = keyword; key.len = len; void* mapv = bsearch(&key, this->mapping_, this->count_, sizeof(this->mapping_[0]), keyword_compare); if (mapv == NULL) return KEYWORD_INVALID; Mapping* map = static_cast(mapv); return map->keycode; } // Convert a keyword code to a string. const char* Keywords::keyword_to_string(Keyword code) const { go_assert(code > KEYWORD_INVALID && code < this->count_); const Mapping* map = &this->mapping_[code]; go_assert(map->keycode == code); return map->keystring; } // There is one instance of the Keywords class. static Keywords keywords; // Class Token. // Make a general token. Token::Token(Classification classification, Location location) : classification_(classification), location_(location) { } // Destroy a token. Token::~Token() { this->clear(); } // Clear a token--release memory. void Token::clear() { if (this->classification_ == TOKEN_INTEGER || this->classification_ == TOKEN_CHARACTER) mpz_clear(this->u_.integer_value); else if (this->classification_ == TOKEN_FLOAT || this->classification_ == TOKEN_IMAGINARY) mpfr_clear(this->u_.float_value); } // Construct a token. Token::Token(const Token& tok) : classification_(tok.classification_), location_(tok.location_) { switch (this->classification_) { case TOKEN_INVALID: case TOKEN_EOF: break; case TOKEN_KEYWORD: this->u_.keyword = tok.u_.keyword; break; case TOKEN_IDENTIFIER: case TOKEN_STRING: this->u_.string_value = tok.u_.string_value; break; case TOKEN_OPERATOR: this->u_.op = tok.u_.op; break; case TOKEN_CHARACTER: case TOKEN_INTEGER: mpz_init_set(this->u_.integer_value, tok.u_.integer_value); break; case TOKEN_FLOAT: case TOKEN_IMAGINARY: mpfr_init_set(this->u_.float_value, tok.u_.float_value, GMP_RNDN); break; default: go_unreachable(); } } // Assign to a token. Token& Token::operator=(const Token& tok) { this->clear(); this->classification_ = tok.classification_; this->location_ = tok.location_; switch (tok.classification_) { case TOKEN_INVALID: case TOKEN_EOF: break; case TOKEN_KEYWORD: this->u_.keyword = tok.u_.keyword; break; case TOKEN_IDENTIFIER: this->u_.identifier_value.name = tok.u_.identifier_value.name; this->u_.identifier_value.is_exported = tok.u_.identifier_value.is_exported; break; case TOKEN_STRING: this->u_.string_value = tok.u_.string_value; break; case TOKEN_OPERATOR: this->u_.op = tok.u_.op; break; case TOKEN_CHARACTER: case TOKEN_INTEGER: mpz_init_set(this->u_.integer_value, tok.u_.integer_value); break; case TOKEN_FLOAT: case TOKEN_IMAGINARY: mpfr_init_set(this->u_.float_value, tok.u_.float_value, GMP_RNDN); break; default: go_unreachable(); } return *this; } // Print the token for debugging. void Token::print(FILE* file) const { switch (this->classification_) { case TOKEN_INVALID: fprintf(file, "invalid"); break; case TOKEN_EOF: fprintf(file, "EOF"); break; case TOKEN_KEYWORD: fprintf(file, "keyword %s", keywords.keyword_to_string(this->u_.keyword)); break; case TOKEN_IDENTIFIER: fprintf(file, "identifier \"%s\"", this->u_.string_value->c_str()); break; case TOKEN_STRING: fprintf(file, "quoted string \"%s\"", this->u_.string_value->c_str()); break; case TOKEN_CHARACTER: fprintf(file, "character "); mpz_out_str(file, 10, this->u_.integer_value); break; case TOKEN_INTEGER: fprintf(file, "integer "); mpz_out_str(file, 10, this->u_.integer_value); break; case TOKEN_FLOAT: fprintf(file, "float "); mpfr_out_str(file, 10, 0, this->u_.float_value, GMP_RNDN); break; case TOKEN_IMAGINARY: fprintf(file, "imaginary "); mpfr_out_str(file, 10, 0, this->u_.float_value, GMP_RNDN); break; case TOKEN_OPERATOR: fprintf(file, "operator "); switch (this->u_.op) { case OPERATOR_INVALID: fprintf(file, "invalid"); break; case OPERATOR_OROR: fprintf(file, "||"); break; case OPERATOR_ANDAND: fprintf(file, "&&"); break; case OPERATOR_EQEQ: fprintf(file, "=="); break; case OPERATOR_NOTEQ: fprintf(file, "!="); break; case OPERATOR_LT: fprintf(file, "<"); break; case OPERATOR_LE: fprintf(file, "<="); break; case OPERATOR_GT: fprintf(file, ">"); break; case OPERATOR_GE: fprintf(file, ">="); break; case OPERATOR_PLUS: fprintf(file, "+"); break; case OPERATOR_MINUS: fprintf(file, "-"); break; case OPERATOR_OR: fprintf(file, "|"); break; case OPERATOR_XOR: fprintf(file, "^"); break; case OPERATOR_MULT: fprintf(file, "*"); break; case OPERATOR_DIV: fprintf(file, "/"); break; case OPERATOR_MOD: fprintf(file, "%%"); break; case OPERATOR_LSHIFT: fprintf(file, "<<"); break; case OPERATOR_RSHIFT: fprintf(file, ">>"); break; case OPERATOR_AND: fprintf(file, "&"); break; case OPERATOR_BITCLEAR: fprintf(file, "&^"); break; case OPERATOR_NOT: fprintf(file, "!"); break; case OPERATOR_CHANOP: fprintf(file, "<-"); break; case OPERATOR_EQ: fprintf(file, "="); break; case OPERATOR_PLUSEQ: fprintf(file, "+="); break; case OPERATOR_MINUSEQ: fprintf(file, "-="); break; case OPERATOR_OREQ: fprintf(file, "|="); break; case OPERATOR_XOREQ: fprintf(file, "^="); break; case OPERATOR_MULTEQ: fprintf(file, "*="); break; case OPERATOR_DIVEQ: fprintf(file, "/="); break; case OPERATOR_MODEQ: fprintf(file, "%%="); break; case OPERATOR_LSHIFTEQ: fprintf(file, "<<="); break; case OPERATOR_RSHIFTEQ: fprintf(file, ">>="); break; case OPERATOR_ANDEQ: fprintf(file, "&="); break; case OPERATOR_BITCLEAREQ: fprintf(file, "&^="); break; case OPERATOR_PLUSPLUS: fprintf(file, "++"); break; case OPERATOR_MINUSMINUS: fprintf(file, "--"); break; case OPERATOR_COLON: fprintf(file, ":"); break; case OPERATOR_COLONEQ: fprintf(file, ":="); break; case OPERATOR_SEMICOLON: fprintf(file, ";"); break; case OPERATOR_DOT: fprintf(file, "."); break; case OPERATOR_COMMA: fprintf(file, ","); break; case OPERATOR_LPAREN: fprintf(file, "("); break; case OPERATOR_RPAREN: fprintf(file, ")"); break; case OPERATOR_LCURLY: fprintf(file, "{"); break; case OPERATOR_RCURLY: fprintf(file, "}"); break; case OPERATOR_LSQUARE: fprintf(file, "["); break; case OPERATOR_RSQUARE: fprintf(file, "]"); break; default: go_unreachable(); } break; default: go_unreachable(); } } // Class Lex. Lex::Lex(const char* input_file_name, FILE* input_file, Linemap* linemap) : input_file_name_(input_file_name), input_file_(input_file), linemap_(linemap), linebuf_(NULL), linebufsize_(120), linesize_(0), lineoff_(0), lineno_(0), add_semi_at_eol_(false), pragmas_(0), extern_(), linknames_(NULL) { this->linebuf_ = new char[this->linebufsize_]; this->linemap_->start_file(input_file_name, 0); } Lex::~Lex() { delete[] this->linebuf_; } // Read a new line from the file. ssize_t Lex::get_line() { char* buf = this->linebuf_; size_t size = this->linebufsize_; FILE* file = this->input_file_; size_t cur = 0; while (true) { int c = getc(file); if (c == EOF) { if (cur == 0) return -1; break; } if (cur + 1 >= size) { size_t ns = 2 * size + 1; if (ns < size || static_cast(ns) < 0) go_error_at(this->location(), "out of memory"); char* nb = new char[ns]; memcpy(nb, buf, cur); delete[] buf; buf = nb; size = ns; } buf[cur] = c; ++cur; if (c == '\n') break; } buf[cur] = '\0'; this->linebuf_ = buf; this->linebufsize_ = size; return cur; } // See if we need to read a new line. Return true if there is a new // line, false if we are at EOF. bool Lex::require_line() { if (this->lineoff_ < this->linesize_) return true; ssize_t got = this->get_line(); if (got < 0) return false; ++this->lineno_; this->linesize_= got; this->lineoff_ = 0; this->linemap_->start_line(this->lineno_, this->linesize_); return true; } // Get the current location. Location Lex::location() const { return this->linemap_->get_location(this->lineoff_ + 1); } // Get a location slightly before the current one. This is used for // slightly more efficient handling of operator tokens. Location Lex::earlier_location(int chars) const { return this->linemap_->get_location(this->lineoff_ + 1 - chars); } // Get the next token. Token Lex::next_token() { bool saw_cpp_comment = false; while (true) { if (!this->require_line()) { bool add_semi_at_eol = this->add_semi_at_eol_; this->add_semi_at_eol_ = false; if (add_semi_at_eol) return this->make_operator(OPERATOR_SEMICOLON, 1); return this->make_eof_token(); } if (!saw_cpp_comment) this->extern_.clear(); saw_cpp_comment = false; const char* p = this->linebuf_ + this->lineoff_; const char* pend = this->linebuf_ + this->linesize_; while (p < pend) { unsigned char cc = *p; switch (cc) { case ' ': case '\t': case '\r': ++p; // Skip whitespace quickly. while (*p == ' ' || *p == '\t' || *p == '\r') ++p; break; case '\n': { ++p; bool add_semi_at_eol = this->add_semi_at_eol_; this->add_semi_at_eol_ = false; if (add_semi_at_eol) { this->lineoff_ = p - this->linebuf_; return this->make_operator(OPERATOR_SEMICOLON, 1); } } break; case '/': if (p[1] == '/') { this->lineoff_ = p + 2 - this->linebuf_; this->skip_cpp_comment(); p = pend; if (p[-1] == '\n' && this->add_semi_at_eol_) --p; saw_cpp_comment = true; } else if (p[1] == '*') { this->lineoff_ = p + 2 - this->linebuf_; Location location = this->location(); bool found_newline = false; if (!this->skip_c_comment(&found_newline)) return Token::make_invalid_token(location); if (found_newline && this->add_semi_at_eol_) { this->add_semi_at_eol_ = false; return this->make_operator(OPERATOR_SEMICOLON, 1); } p = this->linebuf_ + this->lineoff_; pend = this->linebuf_ + this->linesize_; } else if (p[1] == '=') { this->add_semi_at_eol_ = false; this->lineoff_ = p + 2 - this->linebuf_; return this->make_operator(OPERATOR_DIVEQ, 2); } else { this->add_semi_at_eol_ = false; this->lineoff_ = p + 1 - this->linebuf_; return this->make_operator(OPERATOR_DIV, 1); } break; case 'A': case 'B': case 'C': case 'D': case 'E': case 'F': case 'G': case 'H': case 'I': case 'J': case 'K': case 'L': case 'M': case 'N': case 'O': case 'P': case 'Q': case 'R': case 'S': case 'T': case 'U': case 'V': case 'W': case 'X': case 'Y': case 'Z': case 'a': case 'b': case 'c': case 'd': case 'e': case 'f': case 'g': case 'h': case 'i': case 'j': case 'k': case 'l': case 'm': case 'n': case 'o': case 'p': case 'q': case 'r': case 's': case 't': case 'u': case 'v': case 'w': case 'x': case 'y': case 'z': case '_': this->lineoff_ = p - this->linebuf_; return this->gather_identifier(); case '0': case '1': case '2': case '3': case '4': case '5': case '6': case '7': case '8': case '9': this->add_semi_at_eol_ = true; this->lineoff_ = p - this->linebuf_; return this->gather_number(); case '\'': this->add_semi_at_eol_ = true; this->lineoff_ = p - this->linebuf_; return this->gather_character(); case '"': this->add_semi_at_eol_ = true; this->lineoff_ = p - this->linebuf_; return this->gather_string(); case '`': this->add_semi_at_eol_ = true; this->lineoff_ = p - this->linebuf_; return this->gather_raw_string(); case '<': case '>': case '&': if (p + 2 < pend) { this->add_semi_at_eol_ = false; Operator op = this->three_character_operator(cc, p[1], p[2]); if (op != OPERATOR_INVALID) { this->lineoff_ = p + 3 - this->linebuf_; return this->make_operator(op, 3); } } // Fall through. case '|': case '=': case '!': case '+': case '-': case '^': case '*': // '/' handled above. case '%': case ':': case ';': case ',': case '(': case ')': case '{': case '}': case '[': case ']': { this->add_semi_at_eol_ = false; Operator op = this->two_character_operator(cc, p[1]); int chars; if (op != OPERATOR_INVALID) { ++p; chars = 2; } else { op = this->one_character_operator(cc); chars = 1; } this->lineoff_ = p + 1 - this->linebuf_; return this->make_operator(op, chars); } case '.': if (p[1] >= '0' && p[1] <= '9') { this->add_semi_at_eol_ = true; this->lineoff_ = p - this->linebuf_; return this->gather_number(); } if (p[1] == '.' && p[2] == '.') { this->add_semi_at_eol_ = false; this->lineoff_ = p + 3 - this->linebuf_; return this->make_operator(OPERATOR_ELLIPSIS, 3); } this->add_semi_at_eol_ = false; this->lineoff_ = p + 1 - this->linebuf_; return this->make_operator(OPERATOR_DOT, 1); default: { unsigned int ci; bool issued_error; this->lineoff_ = p - this->linebuf_; const char *pnext = this->advance_one_utf8_char(p, &ci, &issued_error); // Ignore byte order mark at start of file. if (ci == 0xfeff) { p = pnext; break; } if (Lex::is_unicode_letter(ci)) return this->gather_identifier(); if (!issued_error) go_error_at(this->location(), "invalid character 0x%x in input file", ci); p = pend; break; } } } this->lineoff_ = p - this->linebuf_; } } // Fetch one UTF-8 character from a string. Set *VALUE to the value. // Return the number of bytes read from the string. Returns 0 if the // string does not point to a valid UTF-8 character. int Lex::fetch_char(const char* p, unsigned int* value) { unsigned char c = *p; if (c <= 0x7f) { *value = c; return 1; } else if ((c & 0xe0) == 0xc0 && (p[1] & 0xc0) == 0x80) { *value = (((c & 0x1f) << 6) + (p[1] & 0x3f)); if (*value <= 0x7f) { *value = 0xfffd; return 0; } return 2; } else if ((c & 0xf0) == 0xe0 && (p[1] & 0xc0) == 0x80 && (p[2] & 0xc0) == 0x80) { *value = (((c & 0xf) << 12) + ((p[1] & 0x3f) << 6) + (p[2] & 0x3f)); if (*value <= 0x7ff) { *value = 0xfffd; return 0; } return 3; } else if ((c & 0xf8) == 0xf0 && (p[1] & 0xc0) == 0x80 && (p[2] & 0xc0) == 0x80 && (p[3] & 0xc0) == 0x80) { *value = (((c & 0x7) << 18) + ((p[1] & 0x3f) << 12) + ((p[2] & 0x3f) << 6) + (p[3] & 0x3f)); if (*value <= 0xffff) { *value = 0xfffd; return 0; } return 4; } else { /* Invalid encoding. Return the Unicode replacement character. */ *value = 0xfffd; return 0; } } // Advance one UTF-8 character. Return the pointer beyond the // character. Set *VALUE to the value. Set *ISSUED_ERROR if an error // was issued. const char* Lex::advance_one_utf8_char(const char* p, unsigned int* value, bool* issued_error) { *issued_error = false; if (*p == '\0') { go_error_at(this->location(), "invalid NUL byte"); *issued_error = true; *value = 0; return p + 1; } int adv = Lex::fetch_char(p, value); if (adv == 0) { go_error_at(this->location(), "invalid UTF-8 encoding"); *issued_error = true; return p + 1; } // Warn about byte order mark, except at start of file. if (*value == 0xfeff && (this->lineno_ != 1 || this->lineoff_ != 0)) { go_error_at(this->location(), "Unicode (UTF-8) BOM in middle of file"); *issued_error = true; } return p + adv; } // Pick up an identifier. Token Lex::gather_identifier() { const char* pstart = this->linebuf_ + this->lineoff_; const char* p = pstart; const char* pend = this->linebuf_ + this->linesize_; bool is_first = true; bool is_exported = false; bool has_non_ascii_char = false; std::string buf; while (p < pend) { unsigned char cc = *p; if (cc <= 0x7f) { if ((cc < 'A' || cc > 'Z') && (cc < 'a' || cc > 'z') && cc != '_' && (cc < '0' || cc > '9')) { // Check for an invalid character here, as we get better // error behaviour if we swallow them as part of the // identifier we are building. if ((cc >= ' ' && cc < 0x7f) || cc == '\t' || cc == '\r' || cc == '\n') break; this->lineoff_ = p - this->linebuf_; go_error_at(this->location(), "invalid character 0x%x in identifier", cc); if (!has_non_ascii_char) { buf.assign(pstart, p - pstart); has_non_ascii_char = true; } if (!Lex::is_invalid_identifier(buf)) buf.append("$INVALID$"); } ++p; if (is_first) { is_exported = cc >= 'A' && cc <= 'Z'; is_first = false; } if (has_non_ascii_char) buf.push_back(cc); } else { unsigned int ci; bool issued_error; this->lineoff_ = p - this->linebuf_; const char* pnext = this->advance_one_utf8_char(p, &ci, &issued_error); bool is_invalid = false; if (!Lex::is_unicode_letter(ci) && !Lex::is_unicode_digit(ci)) { // There is no valid place for a non-ASCII character // other than an identifier, so we get better error // handling behaviour if we swallow this character after // giving an error. if (!issued_error) go_error_at(this->location(), "invalid character 0x%x in identifier", ci); is_invalid = true; } if (is_first) { is_exported = Lex::is_unicode_uppercase(ci); is_first = false; } if (!has_non_ascii_char) { buf.assign(pstart, p - pstart); has_non_ascii_char = true; } if (is_invalid && !Lex::is_invalid_identifier(buf)) buf.append("$INVALID$"); buf.append(p, pnext - p); p = pnext; } } Location location = this->location(); this->add_semi_at_eol_ = true; this->lineoff_ = p - this->linebuf_; if (has_non_ascii_char) return Token::make_identifier_token(buf, is_exported, location); else { Keyword code = keywords.keyword_to_code(pstart, p - pstart); if (code == KEYWORD_INVALID) return Token::make_identifier_token(std::string(pstart, p - pstart), is_exported, location); else { switch (code) { case KEYWORD_BREAK: case KEYWORD_CONTINUE: case KEYWORD_FALLTHROUGH: case KEYWORD_RETURN: break; default: this->add_semi_at_eol_ = false; break; } return Token::make_keyword_token(code, location); } } } // Return whether C is a hex digit. bool Lex::is_hex_digit(char c) { return ((c >= '0' && c <= '9') || (c >= 'A' && c <= 'F') || (c >= 'a' && c <= 'f')); } // not a hex value #define NHV 100 // for use by Lex::hex_val static const unsigned char hex_value_lookup_table[256] = { NHV, NHV, NHV, NHV, NHV, NHV, NHV, NHV, // NUL SOH STX ETX EOT ENQ ACK BEL NHV, NHV, NHV, NHV, NHV, NHV, NHV, NHV, // BS HT LF VT FF CR SO SI NHV, NHV, NHV, NHV, NHV, NHV, NHV, NHV, // DLE DC1 DC2 DC3 DC4 NAK SYN ETB NHV, NHV, NHV, NHV, NHV, NHV, NHV, NHV, // CAN EM SUB ESC FS GS RS US NHV, NHV, NHV, NHV, NHV, NHV, NHV, NHV, // SP ! " # $ % & ' NHV, NHV, NHV, NHV, NHV, NHV, NHV, NHV, // ( ) * + , - . / 0, 1, 2, 3, 4, 5, 6, 7, // 0 1 2 3 4 5 6 7 8, 9, NHV, NHV, NHV, NHV, NHV, NHV, // 8 9 : ; < = > ? NHV, 10, 11, 12, 13, 14, 15, NHV, // @ A B C D E F G NHV, NHV, NHV, NHV, NHV, NHV, NHV, NHV, // H I J K L M N O NHV, NHV, NHV, NHV, NHV, NHV, NHV, NHV, // P Q R S T U V W NHV, NHV, NHV, NHV, NHV, NHV, NHV, NHV, // X Y Z [ \ ] ^ _ NHV, 10, 11, 12, 13, 14, 15, NHV, // ` a b c d e f g NHV, NHV, NHV, NHV, NHV, NHV, NHV, NHV, // h i j k l m n o NHV, NHV, NHV, NHV, NHV, NHV, NHV, NHV, // p q r s t u v w NHV, NHV, NHV, NHV, NHV, NHV, NHV, NHV, // x y z { | } ~ NHV, NHV, NHV, NHV, NHV, NHV, NHV, NHV, // NHV, NHV, NHV, NHV, NHV, NHV, NHV, NHV, // NHV, NHV, NHV, NHV, NHV, NHV, NHV, NHV, // NHV, NHV, NHV, NHV, NHV, NHV, NHV, NHV, // NHV, NHV, NHV, NHV, NHV, NHV, NHV, NHV, // NHV, NHV, NHV, NHV, NHV, NHV, NHV, NHV, // NHV, NHV, NHV, NHV, NHV, NHV, NHV, NHV, // NHV, NHV, NHV, NHV, NHV, NHV, NHV, NHV, // NHV, NHV, NHV, NHV, NHV, NHV, NHV, NHV, // NHV, NHV, NHV, NHV, NHV, NHV, NHV, NHV, // NHV, NHV, NHV, NHV, NHV, NHV, NHV, NHV, // NHV, NHV, NHV, NHV, NHV, NHV, NHV, NHV, // NHV, NHV, NHV, NHV, NHV, NHV, NHV, NHV, // NHV, NHV, NHV, NHV, NHV, NHV, NHV, NHV, // NHV, NHV, NHV, NHV, NHV, NHV, NHV, NHV, // NHV, NHV, NHV, NHV, NHV, NHV, NHV, NHV // }; unsigned Lex::hex_val(char c) { return hex_value_lookup_table[static_cast(c)]; } // Return whether an exponent could start at P. bool Lex::could_be_exponent(const char* p, const char* pend) { if (*p != 'e' && *p != 'E') return false; ++p; if (p >= pend) return false; if (*p == '+' || *p == '-') { ++p; if (p >= pend) return false; } return *p >= '0' && *p <= '9'; } // Pick up a number. Token Lex::gather_number() { const char* pstart = this->linebuf_ + this->lineoff_; const char* p = pstart; const char* pend = this->linebuf_ + this->linesize_; Location location = this->location(); bool neg = false; if (*p == '+') ++p; else if (*p == '-') { ++p; neg = true; } const char* pnum = p; if (*p == '0') { int base; if ((p[1] == 'x' || p[1] == 'X') && Lex::is_hex_digit(p[2])) { base = 16; p += 2; pnum = p; while (p < pend) { if (!Lex::is_hex_digit(*p)) break; ++p; } } else { base = 8; pnum = p; while (p < pend) { if (*p < '0' || *p > '9') break; ++p; } } // A partial token that looks like an octal literal might actually be the // beginning of a floating-point or imaginary literal. if (base == 16 || (*p != '.' && *p != 'i' && !Lex::could_be_exponent(p, pend))) { std::string s(pnum, p - pnum); mpz_t val; int r = mpz_init_set_str(val, s.c_str(), base); if (r != 0) { if (base == 8) go_error_at(this->location(), "invalid octal literal"); else go_error_at(this->location(), "invalid hex literal"); } if (neg) mpz_neg(val, val); this->lineoff_ = p - this->linebuf_; Token ret = Token::make_integer_token(val, location); mpz_clear(val); return ret; } } while (p < pend) { if (*p < '0' || *p > '9') break; ++p; } if (*p != '.' && *p != 'i' && !Lex::could_be_exponent(p, pend)) { std::string s(pnum, p - pnum); mpz_t val; int r = mpz_init_set_str(val, s.c_str(), 10); go_assert(r == 0); if (neg) mpz_neg(val, val); this->lineoff_ = p - this->linebuf_; Token ret = Token::make_integer_token(val, location); mpz_clear(val); return ret; } if (*p != 'i') { bool dot = *p == '.'; ++p; if (!dot) { if (*p == '+' || *p == '-') ++p; } while (p < pend) { if (*p < '0' || *p > '9') break; ++p; } if (dot && Lex::could_be_exponent(p, pend)) { ++p; if (*p == '+' || *p == '-') ++p; while (p < pend) { if (*p < '0' || *p > '9') break; ++p; } } } std::string s(pnum, p - pnum); mpfr_t val; int r = mpfr_init_set_str(val, s.c_str(), 10, GMP_RNDN); go_assert(r == 0); if (neg) mpfr_neg(val, val, GMP_RNDN); bool is_imaginary = *p == 'i'; if (is_imaginary) ++p; this->lineoff_ = p - this->linebuf_; if (is_imaginary) { Token ret = Token::make_imaginary_token(val, location); mpfr_clear(val); return ret; } else { Token ret = Token::make_float_token(val, location); mpfr_clear(val); return ret; } } // Advance one character, possibly escaped. Return the pointer beyond // the character. Set *VALUE to the character. Set *IS_CHARACTER if // this is a character (e.g., 'a' or '\u1234') rather than a byte // value (e.g., '\001'). const char* Lex::advance_one_char(const char* p, bool is_single_quote, unsigned int* value, bool* is_character) { *value = 0; *is_character = true; if (*p != '\\') { bool issued_error; const char* ret = this->advance_one_utf8_char(p, value, &issued_error); if (is_single_quote && (*value == '\'' || *value == '\n') && !issued_error) go_error_at(this->location(), "invalid character literal"); return ret; } else { ++p; switch (*p) { case '0': case '1': case '2': case '3': case '4': case '5': case '6': case '7': *is_character = false; if (p[1] >= '0' && p[1] <= '7' && p[2] >= '0' && p[2] <= '7') { *value = ((Lex::octal_value(p[0]) << 6) + (Lex::octal_value(p[1]) << 3) + Lex::octal_value(p[2])); if (*value > 255) { go_error_at(this->location(), "invalid octal constant"); *value = 255; } return p + 3; } go_error_at(this->location(), "invalid octal character"); return (p[1] >= '0' && p[1] <= '7' ? p + 2 : p + 1); case 'x': *is_character = false; if (Lex::is_hex_digit(p[1]) && Lex::is_hex_digit(p[2])) { *value = (Lex::hex_val(p[1]) << 4) + Lex::hex_val(p[2]); return p + 3; } go_error_at(this->location(), "invalid hex character"); return (Lex::is_hex_digit(p[1]) ? p + 2 : p + 1); case 'a': *value = '\a'; return p + 1; case 'b': *value = '\b'; return p + 1; case 'f': *value = '\f'; return p + 1; case 'n': *value = '\n'; return p + 1; case 'r': *value = '\r'; return p + 1; case 't': *value = '\t'; return p + 1; case 'v': *value = '\v'; return p + 1; case '\\': *value = '\\'; return p + 1; case '\'': if (!is_single_quote) go_error_at(this->location(), "invalid quoted character"); *value = '\''; return p + 1; case '"': if (is_single_quote) go_error_at(this->location(), "invalid quoted character"); *value = '"'; return p + 1; case 'u': if (Lex::is_hex_digit(p[1]) && Lex::is_hex_digit(p[2]) && Lex::is_hex_digit(p[3]) && Lex::is_hex_digit(p[4])) { *value = ((Lex::hex_val(p[1]) << 12) + (Lex::hex_val(p[2]) << 8) + (Lex::hex_val(p[3]) << 4) + Lex::hex_val(p[4])); if (*value >= 0xd800 && *value < 0xe000) { go_error_at(this->location(), "invalid unicode code point 0x%x", *value); // Use the replacement character. *value = 0xfffd; } return p + 5; } go_error_at(this->location(), "invalid little unicode code point"); return p + 1; case 'U': if (Lex::is_hex_digit(p[1]) && Lex::is_hex_digit(p[2]) && Lex::is_hex_digit(p[3]) && Lex::is_hex_digit(p[4]) && Lex::is_hex_digit(p[5]) && Lex::is_hex_digit(p[6]) && Lex::is_hex_digit(p[7]) && Lex::is_hex_digit(p[8])) { *value = ((Lex::hex_val(p[1]) << 28) + (Lex::hex_val(p[2]) << 24) + (Lex::hex_val(p[3]) << 20) + (Lex::hex_val(p[4]) << 16) + (Lex::hex_val(p[5]) << 12) + (Lex::hex_val(p[6]) << 8) + (Lex::hex_val(p[7]) << 4) + Lex::hex_val(p[8])); if (*value > 0x10ffff || (*value >= 0xd800 && *value < 0xe000)) { go_error_at(this->location(), "invalid unicode code point 0x%x", *value); // Use the replacement character. *value = 0xfffd; } return p + 9; } go_error_at(this->location(), "invalid big unicode code point"); return p + 1; default: go_error_at(this->location(), "invalid character after %<\\%>"); *value = *p; return p + 1; } } } // Append V to STR. IS_CHARACTER is true for a character which should // be stored in UTF-8, false for a general byte value which should be // stored directly. void Lex::append_char(unsigned int v, bool is_character, std::string* str, Location location) { char buf[4]; size_t len; if (v <= 0x7f || !is_character) { buf[0] = v; len = 1; } else if (v <= 0x7ff) { buf[0] = 0xc0 + (v >> 6); buf[1] = 0x80 + (v & 0x3f); len = 2; } else { if (v > 0x10ffff) { go_warning_at(location, 0, "unicode code point 0x%x out of range in string", v); // Turn it into the "replacement character". v = 0xfffd; } if (v >= 0xd800 && v < 0xe000) { go_warning_at(location, 0, "unicode code point 0x%x is invalid surrogate pair", v); v = 0xfffd; } if (v <= 0xffff) { buf[0] = 0xe0 + (v >> 12); buf[1] = 0x80 + ((v >> 6) & 0x3f); buf[2] = 0x80 + (v & 0x3f); len = 3; } else { buf[0] = 0xf0 + (v >> 18); buf[1] = 0x80 + ((v >> 12) & 0x3f); buf[2] = 0x80 + ((v >> 6) & 0x3f); buf[3] = 0x80 + (v & 0x3f); len = 4; } } str->append(buf, len); } // Pick up a character literal. Token Lex::gather_character() { ++this->lineoff_; const char* pstart = this->linebuf_ + this->lineoff_; const char* p = pstart; unsigned int value; bool is_character; p = this->advance_one_char(p, true, &value, &is_character); if (*p != '\'') { go_error_at(this->location(), "unterminated character constant"); this->lineoff_ = p - this->linebuf_; return this->make_invalid_token(); } mpz_t val; mpz_init_set_ui(val, value); Location location = this->location(); this->lineoff_ = p + 1 - this->linebuf_; Token ret = Token::make_character_token(val, location); mpz_clear(val); return ret; } // Pick up a quoted string. Token Lex::gather_string() { const char* pstart = this->linebuf_ + this->lineoff_ + 1; const char* p = pstart; const char* pend = this->linebuf_ + this->linesize_; std::string value; while (*p != '"') { Location loc = this->location(); unsigned int c; bool is_character; this->lineoff_ = p - this->linebuf_; p = this->advance_one_char(p, false, &c, &is_character); if (p >= pend) { go_error_at(this->location(), "unterminated string"); --p; break; } Lex::append_char(c, is_character, &value, loc); } Location location = this->location(); this->lineoff_ = p + 1 - this->linebuf_; return Token::make_string_token(value, location); } // Pick up a raw string. Token Lex::gather_raw_string() { const char* p = this->linebuf_ + this->lineoff_ + 1; const char* pend = this->linebuf_ + this->linesize_; Location location = this->location(); std::string value; while (true) { while (p < pend) { if (*p == '`') { this->lineoff_ = p + 1 - this->linebuf_; return Token::make_string_token(value, location); } Location loc = this->location(); unsigned int c; bool issued_error; this->lineoff_ = p - this->linebuf_; p = this->advance_one_utf8_char(p, &c, &issued_error); // "Carriage return characters ('\r') inside raw string literals // are discarded from the raw string value." if (c != '\r') Lex::append_char(c, true, &value, loc); } this->lineoff_ = p - this->linebuf_; if (!this->require_line()) { go_error_at(location, "unterminated raw string"); return Token::make_string_token(value, location); } p = this->linebuf_ + this->lineoff_; pend = this->linebuf_ + this->linesize_; } } // If C1 C2 C3 are a three character operator, return the code. Operator Lex::three_character_operator(char c1, char c2, char c3) { if (c3 == '=') { if (c1 == '<' && c2 == '<') return OPERATOR_LSHIFTEQ; else if (c1 == '>' && c2 == '>') return OPERATOR_RSHIFTEQ; else if (c1 == '&' && c2 == '^') return OPERATOR_BITCLEAREQ; } return OPERATOR_INVALID; } // If C1 C2 are a two character operator, return the code. Operator Lex::two_character_operator(char c1, char c2) { switch (c1) { case '|': if (c2 == '|') return OPERATOR_OROR; else if (c2 == '=') return OPERATOR_OREQ; break; case '&': if (c2 == '&') return OPERATOR_ANDAND; else if (c2 == '^') return OPERATOR_BITCLEAR; else if (c2 == '=') return OPERATOR_ANDEQ; break; case '^': if (c2 == '=') return OPERATOR_XOREQ; break; case '=': if (c2 == '=') return OPERATOR_EQEQ; break; case '!': if (c2 == '=') return OPERATOR_NOTEQ; break; case '<': if (c2 == '=') return OPERATOR_LE; else if (c2 == '<') return OPERATOR_LSHIFT; else if (c2 == '-') return OPERATOR_CHANOP; break; case '>': if (c2 == '=') return OPERATOR_GE; else if (c2 == '>') return OPERATOR_RSHIFT; break; case '*': if (c2 == '=') return OPERATOR_MULTEQ; break; case '/': if (c2 == '=') return OPERATOR_DIVEQ; break; case '%': if (c2 == '=') return OPERATOR_MODEQ; break; case '+': if (c2 == '+') { this->add_semi_at_eol_ = true; return OPERATOR_PLUSPLUS; } else if (c2 == '=') return OPERATOR_PLUSEQ; break; case '-': if (c2 == '-') { this->add_semi_at_eol_ = true; return OPERATOR_MINUSMINUS; } else if (c2 == '=') return OPERATOR_MINUSEQ; break; case ':': if (c2 == '=') return OPERATOR_COLONEQ; break; default: break; } return OPERATOR_INVALID; } // If character C is an operator, return the code. Operator Lex::one_character_operator(char c) { switch (c) { case '<': return OPERATOR_LT; case '>': return OPERATOR_GT; case '+': return OPERATOR_PLUS; case '-': return OPERATOR_MINUS; case '|': return OPERATOR_OR; case '^': return OPERATOR_XOR; case '*': return OPERATOR_MULT; case '/': return OPERATOR_DIV; case '%': return OPERATOR_MOD; case '&': return OPERATOR_AND; case '!': return OPERATOR_NOT; case '=': return OPERATOR_EQ; case ':': return OPERATOR_COLON; case ';': return OPERATOR_SEMICOLON; case '.': return OPERATOR_DOT; case ',': return OPERATOR_COMMA; case '(': return OPERATOR_LPAREN; case ')': this->add_semi_at_eol_ = true; return OPERATOR_RPAREN; case '{': return OPERATOR_LCURLY; case '}': this->add_semi_at_eol_ = true; return OPERATOR_RCURLY; case '[': return OPERATOR_LSQUARE; case ']': this->add_semi_at_eol_ = true; return OPERATOR_RSQUARE; default: return OPERATOR_INVALID; } } // Skip a C-style comment. bool Lex::skip_c_comment(bool* found_newline) { while (true) { if (!this->require_line()) { go_error_at(this->location(), "unterminated comment"); return false; } const char* p = this->linebuf_ + this->lineoff_; const char* pend = this->linebuf_ + this->linesize_; while (p < pend) { if (p[0] == '*' && p + 1 < pend && p[1] == '/') { this->lineoff_ = p + 2 - this->linebuf_; return true; } if (p[0] == '\n') *found_newline = true; this->lineoff_ = p - this->linebuf_; unsigned int c; bool issued_error; p = this->advance_one_utf8_char(p, &c, &issued_error); } this->lineoff_ = p - this->linebuf_; } } // Skip a C++-style comment. void Lex::skip_cpp_comment() { // Ensure that if EXTERN_ is set, it means that we just saw a // //extern comment. this->extern_.clear(); Location loc = this->location(); size_t lineoff = this->lineoff_; const char* p = this->linebuf_ + lineoff; const char* pend = this->linebuf_ + this->linesize_; const char* pcheck = p; bool saw_error = false; while (pcheck < pend) { this->lineoff_ = pcheck - this->linebuf_; unsigned int c; bool issued_error; pcheck = this->advance_one_utf8_char(pcheck, &c, &issued_error); if (issued_error) saw_error = true; } if (saw_error) return; // Recognize various magic comments at the start of a line. if (lineoff != 2) { // Not at the start of the line. (lineoff == 2 because of the // two characters in "//"). return; } while (pend > p && (pend[-1] == ' ' || pend[-1] == '\t' || pend[-1] == '\r' || pend[-1] == '\n')) --pend; // A C++ comment at the start of the line of the form // //line FILE:LINENO // is interpreted as setting the file name and line number of the // next source line. if (pend - p > 5 && memcmp(p, "line ", 5) == 0) { p += 5; while (p < pend && *p == ' ') ++p; const char* pcolon = static_cast(memchr(p, ':', pend - p)); if (pcolon != NULL && pcolon[1] >= '0' && pcolon[1] <= '9') { char* plend; long lineno = strtol(pcolon + 1, &plend, 10); if (plend > pcolon + 1 && (plend == pend || *plend < '0' || *plend > '9') && lineno > 0 && lineno < 0x7fffffff) { unsigned int filelen = pcolon - p; char* file = new char[filelen + 1]; memcpy(file, p, filelen); file[filelen] = '\0'; this->linemap_->start_file(file, lineno); this->lineno_ = lineno - 1; p = plend; } } return; } // As a special gccgo extension, a C++ comment at the start of the // line of the form // //extern NAME // which immediately precedes a function declaration means that the // external name of the function declaration is NAME. This is // normally used to permit Go code to call a C function. if (pend - p > 7 && memcmp(p, "extern ", 7) == 0) { p += 7; while (p < pend && (*p == ' ' || *p == '\t')) ++p; if (pend > p) this->extern_ = std::string(p, pend - p); return; } // All other special comments start with "go:". if (pend - p < 4 || memcmp(p, "go:", 3) != 0) return; const char *ps = p + 3; while (ps < pend && *ps != ' ' && *ps != '\t') ++ps; std::string verb = std::string(p, ps - p); if (verb == "go:linkname") { // As in the gc compiler, set the external link name for a Go symbol. std::string go_name; std::string ext_name; bool is_exported = false; if (ps < pend) { while (ps < pend && (*ps == ' ' || *ps == '\t')) ++ps; if (ps < pend) { const char* pg = ps; unsigned int c; bool issued_error; ps = this->advance_one_utf8_char(ps, &c, &issued_error); is_exported = Lex::is_unicode_uppercase(c); while (ps < pend && *ps != ' ' && *ps != '\t') ++ps; if (ps < pend) go_name = std::string(pg, ps - pg); while (ps < pend && (*ps == ' ' || *ps == '\t')) ++ps; } if (ps < pend) { const char* pc = ps; while (ps < pend && *ps != ' ' && *ps != '\t') ++ps; if (ps <= pend) ext_name = std::string(pc, ps - pc); } if (ps != pend) { go_name.clear(); ext_name.clear(); } } if (go_name.empty() || ext_name.empty()) go_error_at(loc, "usage: //go:linkname localname linkname"); else { if (this->linknames_ == NULL) this->linknames_ = new Linknames(); (*this->linknames_)[go_name] = Linkname(ext_name, is_exported, loc); } } else if (verb == "go:nointerface") { // For field tracking analysis: a //go:nointerface comment means // that the next interface method should not be stored in the // type descriptor. This permits it to be discarded if it is // not needed. this->pragmas_ |= GOPRAGMA_NOINTERFACE; } else if (verb == "go:noescape") { // Applies to the next function declaration. Any arguments do // not escape. // FIXME: Not implemented. this->pragmas_ |= GOPRAGMA_NOESCAPE; } else if (verb == "go:nosplit") { // Applies to the next function. Do not split the stack when // entering the function. this->pragmas_ |= GOPRAGMA_NOSPLIT; } else if (verb == "go:noinline") { // Applies to the next function. Do not inline the function. this->pragmas_ |= GOPRAGMA_NOINLINE; } else if (verb == "go:systemstack") { // Applies to the next function. It must run on the system stack. // FIXME: Should only work when compiling the runtime package. // FIXME: Not implemented. this->pragmas_ |= GOPRAGMA_SYSTEMSTACK; } else if (verb == "go:nowritebarrier") { // Applies to the next function. If the function needs to use // any write barriers, it should emit an error instead. // FIXME: Should only work when compiling the runtime package. // FIXME: Not implemented. this->pragmas_ |= GOPRAGMA_NOWRITEBARRIER; } else if (verb == "go:nowritebarrierrec") { // Applies to the next function. If the function, or any // function that it calls, needs to use any write barriers, it // should emit an error instead. // FIXME: Should only work when compiling the runtime package. // FIXME: Not implemented. this->pragmas_ |= GOPRAGMA_NOWRITEBARRIERREC; } else if (verb == "go:cgo_unsafe_args") { // Applies to the next function. Taking the address of any // argument implies taking the address of all arguments. // FIXME: Not implemented. this->pragmas_ |= GOPRAGMA_CGOUNSAFEARGS; } else if (verb == "go:uintptrescapes") { // Applies to the next function. If an argument is a pointer // converted to uintptr, then the pointer escapes. // FIXME: Not implemented. this->pragmas_ |= GOPRAGMA_UINTPTRESCAPES; } } // The Unicode tables use this struct. struct Unicode_range { // The low end of the range. unsigned int low; // The high end of the range. unsigned int high; // The stride. This entries represents low, low + stride, low + 2 * // stride, etc., up to high. unsigned int stride; }; // A table of whitespace characters--Unicode code points classified as // "Space", "C" locale whitespace characters, the "next line" control // character (0085), the line separator (2028), the paragraph // separator (2029), and the "zero-width non-break space" (feff). static const Unicode_range unicode_space[] = { { 0x0009, 0x000d, 1 }, { 0x0020, 0x0020, 1 }, { 0x0085, 0x0085, 1 }, { 0x00a0, 0x00a0, 1 }, { 0x1680, 0x1680, 1 }, { 0x180e, 0x180e, 1 }, { 0x2000, 0x200a, 1 }, { 0x2028, 0x2029, 1 }, { 0x202f, 0x202f, 1 }, { 0x205f, 0x205f, 1 }, { 0x3000, 0x3000, 1 }, { 0xfeff, 0xfeff, 1 }, }; // A table of Unicode digits--Unicode code points classified as // "Digit". static const Unicode_range unicode_digits[] = { { 0x0030, 0x0039, 1}, { 0x0660, 0x0669, 1}, { 0x06f0, 0x06f9, 1}, { 0x07c0, 0x07c9, 1}, { 0x0966, 0x096f, 1}, { 0x09e6, 0x09ef, 1}, { 0x0a66, 0x0a6f, 1}, { 0x0ae6, 0x0aef, 1}, { 0x0b66, 0x0b6f, 1}, { 0x0be6, 0x0bef, 1}, { 0x0c66, 0x0c6f, 1}, { 0x0ce6, 0x0cef, 1}, { 0x0d66, 0x0d6f, 1}, { 0x0e50, 0x0e59, 1}, { 0x0ed0, 0x0ed9, 1}, { 0x0f20, 0x0f29, 1}, { 0x1040, 0x1049, 1}, { 0x17e0, 0x17e9, 1}, { 0x1810, 0x1819, 1}, { 0x1946, 0x194f, 1}, { 0x19d0, 0x19d9, 1}, { 0x1b50, 0x1b59, 1}, { 0xff10, 0xff19, 1}, { 0x104a0, 0x104a9, 1}, { 0x1d7ce, 0x1d7ff, 1}, }; // A table of Unicode letters--Unicode code points classified as // "Letter". static const Unicode_range unicode_letters[] = { { 0x0041, 0x005a, 1}, { 0x0061, 0x007a, 1}, { 0x00aa, 0x00b5, 11}, { 0x00ba, 0x00c0, 6}, { 0x00c1, 0x00d6, 1}, { 0x00d8, 0x00f6, 1}, { 0x00f8, 0x02c1, 1}, { 0x02c6, 0x02d1, 1}, { 0x02e0, 0x02e4, 1}, { 0x02ec, 0x02ee, 2}, { 0x0370, 0x0374, 1}, { 0x0376, 0x0377, 1}, { 0x037a, 0x037d, 1}, { 0x037f, 0x0386, 7}, { 0x0388, 0x038a, 1}, { 0x038c, 0x038e, 2}, { 0x038f, 0x03a1, 1}, { 0x03a3, 0x03f5, 1}, { 0x03f7, 0x0481, 1}, { 0x048a, 0x052f, 1}, { 0x0531, 0x0556, 1}, { 0x0559, 0x0561, 8}, { 0x0562, 0x0587, 1}, { 0x05d0, 0x05ea, 1}, { 0x05f0, 0x05f2, 1}, { 0x0620, 0x064a, 1}, { 0x066e, 0x066f, 1}, { 0x0671, 0x06d3, 1}, { 0x06d5, 0x06e5, 16}, { 0x06e6, 0x06ee, 8}, { 0x06ef, 0x06fa, 11}, { 0x06fb, 0x06fc, 1}, { 0x06ff, 0x0710, 17}, { 0x0712, 0x072f, 1}, { 0x074d, 0x07a5, 1}, { 0x07b1, 0x07ca, 25}, { 0x07cb, 0x07ea, 1}, { 0x07f4, 0x07f5, 1}, { 0x07fa, 0x0800, 6}, { 0x0801, 0x0815, 1}, { 0x081a, 0x0824, 10}, { 0x0828, 0x0840, 24}, { 0x0841, 0x0858, 1}, { 0x08a0, 0x08b4, 1}, { 0x0904, 0x0939, 1}, { 0x093d, 0x0950, 19}, { 0x0958, 0x0961, 1}, { 0x0971, 0x0980, 1}, { 0x0985, 0x098c, 1}, { 0x098f, 0x0990, 1}, { 0x0993, 0x09a8, 1}, { 0x09aa, 0x09b0, 1}, { 0x09b2, 0x09b6, 4}, { 0x09b7, 0x09b9, 1}, { 0x09bd, 0x09ce, 17}, { 0x09dc, 0x09dd, 1}, { 0x09df, 0x09e1, 1}, { 0x09f0, 0x09f1, 1}, { 0x0a05, 0x0a0a, 1}, { 0x0a0f, 0x0a10, 1}, { 0x0a13, 0x0a28, 1}, { 0x0a2a, 0x0a30, 1}, { 0x0a32, 0x0a33, 1}, { 0x0a35, 0x0a36, 1}, { 0x0a38, 0x0a39, 1}, { 0x0a59, 0x0a5c, 1}, { 0x0a5e, 0x0a72, 20}, { 0x0a73, 0x0a74, 1}, { 0x0a85, 0x0a8d, 1}, { 0x0a8f, 0x0a91, 1}, { 0x0a93, 0x0aa8, 1}, { 0x0aaa, 0x0ab0, 1}, { 0x0ab2, 0x0ab3, 1}, { 0x0ab5, 0x0ab9, 1}, { 0x0abd, 0x0ad0, 19}, { 0x0ae0, 0x0ae1, 1}, { 0x0af9, 0x0b05, 12}, { 0x0b06, 0x0b0c, 1}, { 0x0b0f, 0x0b10, 1}, { 0x0b13, 0x0b28, 1}, { 0x0b2a, 0x0b30, 1}, { 0x0b32, 0x0b33, 1}, { 0x0b35, 0x0b39, 1}, { 0x0b3d, 0x0b5c, 31}, { 0x0b5d, 0x0b5f, 2}, { 0x0b60, 0x0b61, 1}, { 0x0b71, 0x0b83, 18}, { 0x0b85, 0x0b8a, 1}, { 0x0b8e, 0x0b90, 1}, { 0x0b92, 0x0b95, 1}, { 0x0b99, 0x0b9a, 1}, { 0x0b9c, 0x0b9e, 2}, { 0x0b9f, 0x0ba3, 4}, { 0x0ba4, 0x0ba8, 4}, { 0x0ba9, 0x0baa, 1}, { 0x0bae, 0x0bb9, 1}, { 0x0bd0, 0x0c05, 53}, { 0x0c06, 0x0c0c, 1}, { 0x0c0e, 0x0c10, 1}, { 0x0c12, 0x0c28, 1}, { 0x0c2a, 0x0c39, 1}, { 0x0c3d, 0x0c58, 27}, { 0x0c59, 0x0c5a, 1}, { 0x0c60, 0x0c61, 1}, { 0x0c85, 0x0c8c, 1}, { 0x0c8e, 0x0c90, 1}, { 0x0c92, 0x0ca8, 1}, { 0x0caa, 0x0cb3, 1}, { 0x0cb5, 0x0cb9, 1}, { 0x0cbd, 0x0cde, 33}, { 0x0ce0, 0x0ce1, 1}, { 0x0cf1, 0x0cf2, 1}, { 0x0d05, 0x0d0c, 1}, { 0x0d0e, 0x0d10, 1}, { 0x0d12, 0x0d3a, 1}, { 0x0d3d, 0x0d5f, 17}, { 0x0d60, 0x0d61, 1}, { 0x0d7a, 0x0d7f, 1}, { 0x0d85, 0x0d96, 1}, { 0x0d9a, 0x0db1, 1}, { 0x0db3, 0x0dbb, 1}, { 0x0dbd, 0x0dc0, 3}, { 0x0dc1, 0x0dc6, 1}, { 0x0e01, 0x0e30, 1}, { 0x0e32, 0x0e33, 1}, { 0x0e40, 0x0e46, 1}, { 0x0e81, 0x0e82, 1}, { 0x0e84, 0x0e87, 3}, { 0x0e88, 0x0e8a, 2}, { 0x0e8d, 0x0e94, 7}, { 0x0e95, 0x0e97, 1}, { 0x0e99, 0x0e9f, 1}, { 0x0ea1, 0x0ea3, 1}, { 0x0ea5, 0x0ea7, 2}, { 0x0eaa, 0x0eab, 1}, { 0x0ead, 0x0eb0, 1}, { 0x0eb2, 0x0eb3, 1}, { 0x0ebd, 0x0ec0, 3}, { 0x0ec1, 0x0ec4, 1}, { 0x0ec6, 0x0edc, 22}, { 0x0edd, 0x0edf, 1}, { 0x0f00, 0x0f40, 64}, { 0x0f41, 0x0f47, 1}, { 0x0f49, 0x0f6c, 1}, { 0x0f88, 0x0f8c, 1}, { 0x1000, 0x102a, 1}, { 0x103f, 0x1050, 17}, { 0x1051, 0x1055, 1}, { 0x105a, 0x105d, 1}, { 0x1061, 0x1065, 4}, { 0x1066, 0x106e, 8}, { 0x106f, 0x1070, 1}, { 0x1075, 0x1081, 1}, { 0x108e, 0x10a0, 18}, { 0x10a1, 0x10c5, 1}, { 0x10c7, 0x10cd, 6}, { 0x10d0, 0x10fa, 1}, { 0x10fc, 0x1248, 1}, { 0x124a, 0x124d, 1}, { 0x1250, 0x1256, 1}, { 0x1258, 0x125a, 2}, { 0x125b, 0x125d, 1}, { 0x1260, 0x1288, 1}, { 0x128a, 0x128d, 1}, { 0x1290, 0x12b0, 1}, { 0x12b2, 0x12b5, 1}, { 0x12b8, 0x12be, 1}, { 0x12c0, 0x12c2, 2}, { 0x12c3, 0x12c5, 1}, { 0x12c8, 0x12d6, 1}, { 0x12d8, 0x1310, 1}, { 0x1312, 0x1315, 1}, { 0x1318, 0x135a, 1}, { 0x1380, 0x138f, 1}, { 0x13a0, 0x13f5, 1}, { 0x13f8, 0x13fd, 1}, { 0x1401, 0x166c, 1}, { 0x166f, 0x167f, 1}, { 0x1681, 0x169a, 1}, { 0x16a0, 0x16ea, 1}, { 0x16f1, 0x16f8, 1}, { 0x1700, 0x170c, 1}, { 0x170e, 0x1711, 1}, { 0x1720, 0x1731, 1}, { 0x1740, 0x1751, 1}, { 0x1760, 0x176c, 1}, { 0x176e, 0x1770, 1}, { 0x1780, 0x17b3, 1}, { 0x17d7, 0x17dc, 5}, { 0x1820, 0x1877, 1}, { 0x1880, 0x18a8, 1}, { 0x18aa, 0x18b0, 6}, { 0x18b1, 0x18f5, 1}, { 0x1900, 0x191e, 1}, { 0x1950, 0x196d, 1}, { 0x1970, 0x1974, 1}, { 0x1980, 0x19ab, 1}, { 0x19b0, 0x19c9, 1}, { 0x1a00, 0x1a16, 1}, { 0x1a20, 0x1a54, 1}, { 0x1aa7, 0x1b05, 94}, { 0x1b06, 0x1b33, 1}, { 0x1b45, 0x1b4b, 1}, { 0x1b83, 0x1ba0, 1}, { 0x1bae, 0x1baf, 1}, { 0x1bba, 0x1be5, 1}, { 0x1c00, 0x1c23, 1}, { 0x1c4d, 0x1c4f, 1}, { 0x1c5a, 0x1c7d, 1}, { 0x1ce9, 0x1cec, 1}, { 0x1cee, 0x1cf1, 1}, { 0x1cf5, 0x1cf6, 1}, { 0x1d00, 0x1dbf, 1}, { 0x1e00, 0x1f15, 1}, { 0x1f18, 0x1f1d, 1}, { 0x1f20, 0x1f45, 1}, { 0x1f48, 0x1f4d, 1}, { 0x1f50, 0x1f57, 1}, { 0x1f59, 0x1f5f, 2}, { 0x1f60, 0x1f7d, 1}, { 0x1f80, 0x1fb4, 1}, { 0x1fb6, 0x1fbc, 1}, { 0x1fbe, 0x1fc2, 4}, { 0x1fc3, 0x1fc4, 1}, { 0x1fc6, 0x1fcc, 1}, { 0x1fd0, 0x1fd3, 1}, { 0x1fd6, 0x1fdb, 1}, { 0x1fe0, 0x1fec, 1}, { 0x1ff2, 0x1ff4, 1}, { 0x1ff6, 0x1ffc, 1}, { 0x2071, 0x207f, 14}, { 0x2090, 0x209c, 1}, { 0x2102, 0x2107, 5}, { 0x210a, 0x2113, 1}, { 0x2115, 0x2119, 4}, { 0x211a, 0x211d, 1}, { 0x2124, 0x212a, 2}, { 0x212b, 0x212d, 1}, { 0x212f, 0x2139, 1}, { 0x213c, 0x213f, 1}, { 0x2145, 0x2149, 1}, { 0x214e, 0x2183, 53}, { 0x2184, 0x2c00, 2684}, { 0x2c01, 0x2c2e, 1}, { 0x2c30, 0x2c5e, 1}, { 0x2c60, 0x2ce4, 1}, { 0x2ceb, 0x2cee, 1}, { 0x2cf2, 0x2cf3, 1}, { 0x2d00, 0x2d25, 1}, { 0x2d27, 0x2d2d, 6}, { 0x2d30, 0x2d67, 1}, { 0x2d6f, 0x2d80, 17}, { 0x2d81, 0x2d96, 1}, { 0x2da0, 0x2da6, 1}, { 0x2da8, 0x2dae, 1}, { 0x2db0, 0x2db6, 1}, { 0x2db8, 0x2dbe, 1}, { 0x2dc0, 0x2dc6, 1}, { 0x2dc8, 0x2dce, 1}, { 0x2dd0, 0x2dd6, 1}, { 0x2dd8, 0x2dde, 1}, { 0x2e2f, 0x3005, 470}, { 0x3006, 0x3031, 43}, { 0x3032, 0x3035, 1}, { 0x303b, 0x303c, 1}, { 0x3041, 0x3096, 1}, { 0x309d, 0x309f, 1}, { 0x30a1, 0x30fa, 1}, { 0x30fc, 0x30ff, 1}, { 0x3105, 0x312d, 1}, { 0x3131, 0x318e, 1}, { 0x31a0, 0x31ba, 1}, { 0x31f0, 0x31ff, 1}, { 0x3400, 0x4db5, 1}, { 0x4e00, 0x9fd5, 1}, { 0xa000, 0xa48c, 1}, { 0xa4d0, 0xa4fd, 1}, { 0xa500, 0xa60c, 1}, { 0xa610, 0xa61f, 1}, { 0xa62a, 0xa62b, 1}, { 0xa640, 0xa66e, 1}, { 0xa67f, 0xa69d, 1}, { 0xa6a0, 0xa6e5, 1}, { 0xa717, 0xa71f, 1}, { 0xa722, 0xa788, 1}, { 0xa78b, 0xa7ad, 1}, { 0xa7b0, 0xa7b7, 1}, { 0xa7f7, 0xa801, 1}, { 0xa803, 0xa805, 1}, { 0xa807, 0xa80a, 1}, { 0xa80c, 0xa822, 1}, { 0xa840, 0xa873, 1}, { 0xa882, 0xa8b3, 1}, { 0xa8f2, 0xa8f7, 1}, { 0xa8fb, 0xa8fd, 2}, { 0xa90a, 0xa925, 1}, { 0xa930, 0xa946, 1}, { 0xa960, 0xa97c, 1}, { 0xa984, 0xa9b2, 1}, { 0xa9cf, 0xa9e0, 17}, { 0xa9e1, 0xa9e4, 1}, { 0xa9e6, 0xa9ef, 1}, { 0xa9fa, 0xa9fe, 1}, { 0xaa00, 0xaa28, 1}, { 0xaa40, 0xaa42, 1}, { 0xaa44, 0xaa4b, 1}, { 0xaa60, 0xaa76, 1}, { 0xaa7a, 0xaa7e, 4}, { 0xaa7f, 0xaaaf, 1}, { 0xaab1, 0xaab5, 4}, { 0xaab6, 0xaab9, 3}, { 0xaaba, 0xaabd, 1}, { 0xaac0, 0xaac2, 2}, { 0xaadb, 0xaadd, 1}, { 0xaae0, 0xaaea, 1}, { 0xaaf2, 0xaaf4, 1}, { 0xab01, 0xab06, 1}, { 0xab09, 0xab0e, 1}, { 0xab11, 0xab16, 1}, { 0xab20, 0xab26, 1}, { 0xab28, 0xab2e, 1}, { 0xab30, 0xab5a, 1}, { 0xab5c, 0xab65, 1}, { 0xab70, 0xabe2, 1}, { 0xac00, 0xd7a3, 1}, { 0xd7b0, 0xd7c6, 1}, { 0xd7cb, 0xd7fb, 1}, { 0xf900, 0xfa6d, 1}, { 0xfa70, 0xfad9, 1}, { 0xfb00, 0xfb06, 1}, { 0xfb13, 0xfb17, 1}, { 0xfb1d, 0xfb1f, 2}, { 0xfb20, 0xfb28, 1}, { 0xfb2a, 0xfb36, 1}, { 0xfb38, 0xfb3c, 1}, { 0xfb3e, 0xfb40, 2}, { 0xfb41, 0xfb43, 2}, { 0xfb44, 0xfb46, 2}, { 0xfb47, 0xfbb1, 1}, { 0xfbd3, 0xfd3d, 1}, { 0xfd50, 0xfd8f, 1}, { 0xfd92, 0xfdc7, 1}, { 0xfdf0, 0xfdfb, 1}, { 0xfe70, 0xfe74, 1}, { 0xfe76, 0xfefc, 1}, { 0xff21, 0xff3a, 1}, { 0xff41, 0xff5a, 1}, { 0xff66, 0xffbe, 1}, { 0xffc2, 0xffc7, 1}, { 0xffca, 0xffcf, 1}, { 0xffd2, 0xffd7, 1}, { 0xffda, 0xffdc, 1}, { 0x10000, 0x1000b, 1}, { 0x1000d, 0x10026, 1}, { 0x10028, 0x1003a, 1}, { 0x1003c, 0x1003d, 1}, { 0x1003f, 0x1004d, 1}, { 0x10050, 0x1005d, 1}, { 0x10080, 0x100fa, 1}, { 0x10280, 0x1029c, 1}, { 0x102a0, 0x102d0, 1}, { 0x10300, 0x1031f, 1}, { 0x10330, 0x10340, 1}, { 0x10342, 0x10349, 1}, { 0x10350, 0x10375, 1}, { 0x10380, 0x1039d, 1}, { 0x103a0, 0x103c3, 1}, { 0x103c8, 0x103cf, 1}, { 0x10400, 0x1049d, 1}, { 0x10500, 0x10527, 1}, { 0x10530, 0x10563, 1}, { 0x10600, 0x10736, 1}, { 0x10740, 0x10755, 1}, { 0x10760, 0x10767, 1}, { 0x10800, 0x10805, 1}, { 0x10808, 0x1080a, 2}, { 0x1080b, 0x10835, 1}, { 0x10837, 0x10838, 1}, { 0x1083c, 0x1083f, 3}, { 0x10840, 0x10855, 1}, { 0x10860, 0x10876, 1}, { 0x10880, 0x1089e, 1}, { 0x108e0, 0x108f2, 1}, { 0x108f4, 0x108f5, 1}, { 0x10900, 0x10915, 1}, { 0x10920, 0x10939, 1}, { 0x10980, 0x109b7, 1}, { 0x109be, 0x109bf, 1}, { 0x10a00, 0x10a10, 16}, { 0x10a11, 0x10a13, 1}, { 0x10a15, 0x10a17, 1}, { 0x10a19, 0x10a33, 1}, { 0x10a60, 0x10a7c, 1}, { 0x10a80, 0x10a9c, 1}, { 0x10ac0, 0x10ac7, 1}, { 0x10ac9, 0x10ae4, 1}, { 0x10b00, 0x10b35, 1}, { 0x10b40, 0x10b55, 1}, { 0x10b60, 0x10b72, 1}, { 0x10b80, 0x10b91, 1}, { 0x10c00, 0x10c48, 1}, { 0x10c80, 0x10cb2, 1}, { 0x10cc0, 0x10cf2, 1}, { 0x11003, 0x11037, 1}, { 0x11083, 0x110af, 1}, { 0x110d0, 0x110e8, 1}, { 0x11103, 0x11126, 1}, { 0x11150, 0x11172, 1}, { 0x11176, 0x11183, 13}, { 0x11184, 0x111b2, 1}, { 0x111c1, 0x111c4, 1}, { 0x111da, 0x111dc, 2}, { 0x11200, 0x11211, 1}, { 0x11213, 0x1122b, 1}, { 0x11280, 0x11286, 1}, { 0x11288, 0x1128a, 2}, { 0x1128b, 0x1128d, 1}, { 0x1128f, 0x1129d, 1}, { 0x1129f, 0x112a8, 1}, { 0x112b0, 0x112de, 1}, { 0x11305, 0x1130c, 1}, { 0x1130f, 0x11310, 1}, { 0x11313, 0x11328, 1}, { 0x1132a, 0x11330, 1}, { 0x11332, 0x11333, 1}, { 0x11335, 0x11339, 1}, { 0x1133d, 0x11350, 19}, { 0x1135d, 0x11361, 1}, { 0x11480, 0x114af, 1}, { 0x114c4, 0x114c5, 1}, { 0x114c7, 0x11580, 185}, { 0x11581, 0x115ae, 1}, { 0x115d8, 0x115db, 1}, { 0x11600, 0x1162f, 1}, { 0x11644, 0x11680, 60}, { 0x11681, 0x116aa, 1}, { 0x11700, 0x11719, 1}, { 0x118a0, 0x118df, 1}, { 0x118ff, 0x11ac0, 449}, { 0x11ac1, 0x11af8, 1}, { 0x12000, 0x12399, 1}, { 0x12480, 0x12543, 1}, { 0x13000, 0x1342e, 1}, { 0x14400, 0x14646, 1}, { 0x16800, 0x16a38, 1}, { 0x16a40, 0x16a5e, 1}, { 0x16ad0, 0x16aed, 1}, { 0x16b00, 0x16b2f, 1}, { 0x16b40, 0x16b43, 1}, { 0x16b63, 0x16b77, 1}, { 0x16b7d, 0x16b8f, 1}, { 0x16f00, 0x16f44, 1}, { 0x16f50, 0x16f93, 67}, { 0x16f94, 0x16f9f, 1}, { 0x1b000, 0x1b001, 1}, { 0x1bc00, 0x1bc6a, 1}, { 0x1bc70, 0x1bc7c, 1}, { 0x1bc80, 0x1bc88, 1}, { 0x1bc90, 0x1bc99, 1}, { 0x1d400, 0x1d454, 1}, { 0x1d456, 0x1d49c, 1}, { 0x1d49e, 0x1d49f, 1}, { 0x1d4a2, 0x1d4a5, 3}, { 0x1d4a6, 0x1d4a9, 3}, { 0x1d4aa, 0x1d4ac, 1}, { 0x1d4ae, 0x1d4b9, 1}, { 0x1d4bb, 0x1d4bd, 2}, { 0x1d4be, 0x1d4c3, 1}, { 0x1d4c5, 0x1d505, 1}, { 0x1d507, 0x1d50a, 1}, { 0x1d50d, 0x1d514, 1}, { 0x1d516, 0x1d51c, 1}, { 0x1d51e, 0x1d539, 1}, { 0x1d53b, 0x1d53e, 1}, { 0x1d540, 0x1d544, 1}, { 0x1d546, 0x1d54a, 4}, { 0x1d54b, 0x1d550, 1}, { 0x1d552, 0x1d6a5, 1}, { 0x1d6a8, 0x1d6c0, 1}, { 0x1d6c2, 0x1d6da, 1}, { 0x1d6dc, 0x1d6fa, 1}, { 0x1d6fc, 0x1d714, 1}, { 0x1d716, 0x1d734, 1}, { 0x1d736, 0x1d74e, 1}, { 0x1d750, 0x1d76e, 1}, { 0x1d770, 0x1d788, 1}, { 0x1d78a, 0x1d7a8, 1}, { 0x1d7aa, 0x1d7c2, 1}, { 0x1d7c4, 0x1d7cb, 1}, { 0x1e800, 0x1e8c4, 1}, { 0x1ee00, 0x1ee03, 1}, { 0x1ee05, 0x1ee1f, 1}, { 0x1ee21, 0x1ee22, 1}, { 0x1ee24, 0x1ee27, 3}, { 0x1ee29, 0x1ee32, 1}, { 0x1ee34, 0x1ee37, 1}, { 0x1ee39, 0x1ee3b, 2}, { 0x1ee42, 0x1ee47, 5}, { 0x1ee49, 0x1ee4d, 2}, { 0x1ee4e, 0x1ee4f, 1}, { 0x1ee51, 0x1ee52, 1}, { 0x1ee54, 0x1ee57, 3}, { 0x1ee59, 0x1ee61, 2}, { 0x1ee62, 0x1ee64, 2}, { 0x1ee67, 0x1ee6a, 1}, { 0x1ee6c, 0x1ee72, 1}, { 0x1ee74, 0x1ee77, 1}, { 0x1ee79, 0x1ee7c, 1}, { 0x1ee7e, 0x1ee80, 2}, { 0x1ee81, 0x1ee89, 1}, { 0x1ee8b, 0x1ee9b, 1}, { 0x1eea1, 0x1eea3, 1}, { 0x1eea5, 0x1eea9, 1}, { 0x1eeab, 0x1eebb, 1}, { 0x20000, 0x2a6d6, 1}, { 0x2a700, 0x2b734, 1}, { 0x2b740, 0x2b81d, 1}, { 0x2b820, 0x2cea1, 1}, { 0x2f800, 0x2fa1d, 1}, }; // A table of Unicode uppercase letters--Unicode code points // classified as "Letter, uppercase". static const Unicode_range unicode_uppercase_letters[] = { { 0x0041, 0x005a, 1}, { 0x00c0, 0x00d6, 1}, { 0x00d8, 0x00de, 1}, { 0x0100, 0x0136, 2}, { 0x0139, 0x0147, 2}, { 0x014a, 0x0178, 2}, { 0x0179, 0x017d, 2}, { 0x0181, 0x0182, 1}, { 0x0184, 0x0186, 2}, { 0x0187, 0x0189, 2}, { 0x018a, 0x018b, 1}, { 0x018e, 0x0191, 1}, { 0x0193, 0x0194, 1}, { 0x0196, 0x0198, 1}, { 0x019c, 0x019d, 1}, { 0x019f, 0x01a0, 1}, { 0x01a2, 0x01a6, 2}, { 0x01a7, 0x01a9, 2}, { 0x01ac, 0x01ae, 2}, { 0x01af, 0x01b1, 2}, { 0x01b2, 0x01b3, 1}, { 0x01b5, 0x01b7, 2}, { 0x01b8, 0x01bc, 4}, { 0x01c4, 0x01cd, 3}, { 0x01cf, 0x01db, 2}, { 0x01de, 0x01ee, 2}, { 0x01f1, 0x01f4, 3}, { 0x01f6, 0x01f8, 1}, { 0x01fa, 0x0232, 2}, { 0x023a, 0x023b, 1}, { 0x023d, 0x023e, 1}, { 0x0241, 0x0243, 2}, { 0x0244, 0x0246, 1}, { 0x0248, 0x024e, 2}, { 0x0370, 0x0372, 2}, { 0x0376, 0x037f, 9}, { 0x0386, 0x0388, 2}, { 0x0389, 0x038a, 1}, { 0x038c, 0x038e, 2}, { 0x038f, 0x0391, 2}, { 0x0392, 0x03a1, 1}, { 0x03a3, 0x03ab, 1}, { 0x03cf, 0x03d2, 3}, { 0x03d3, 0x03d4, 1}, { 0x03d8, 0x03ee, 2}, { 0x03f4, 0x03f7, 3}, { 0x03f9, 0x03fa, 1}, { 0x03fd, 0x042f, 1}, { 0x0460, 0x0480, 2}, { 0x048a, 0x04c0, 2}, { 0x04c1, 0x04cd, 2}, { 0x04d0, 0x052e, 2}, { 0x0531, 0x0556, 1}, { 0x10a0, 0x10c5, 1}, { 0x10c7, 0x10cd, 6}, { 0x1e00, 0x1e94, 2}, { 0x1e9e, 0x1efe, 2}, { 0x1f08, 0x1f0f, 1}, { 0x1f18, 0x1f1d, 1}, { 0x1f28, 0x1f2f, 1}, { 0x1f38, 0x1f3f, 1}, { 0x1f48, 0x1f4d, 1}, { 0x1f59, 0x1f5f, 2}, { 0x1f68, 0x1f6f, 1}, { 0x1fb8, 0x1fbb, 1}, { 0x1fc8, 0x1fcb, 1}, { 0x1fd8, 0x1fdb, 1}, { 0x1fe8, 0x1fec, 1}, { 0x1ff8, 0x1ffb, 1}, { 0x2102, 0x2107, 5}, { 0x210b, 0x210d, 1}, { 0x2110, 0x2112, 1}, { 0x2115, 0x2119, 4}, { 0x211a, 0x211d, 1}, { 0x2124, 0x212a, 2}, { 0x212b, 0x212d, 1}, { 0x2130, 0x2133, 1}, { 0x213e, 0x213f, 1}, { 0x2145, 0x2183, 62}, { 0x2c00, 0x2c2e, 1}, { 0x2c60, 0x2c62, 2}, { 0x2c63, 0x2c64, 1}, { 0x2c67, 0x2c6d, 2}, { 0x2c6e, 0x2c70, 1}, { 0x2c72, 0x2c75, 3}, { 0x2c7e, 0x2c80, 1}, { 0x2c82, 0x2ce2, 2}, { 0x2ceb, 0x2ced, 2}, { 0x2cf2, 0xa640, 31054}, { 0xa642, 0xa66c, 2}, { 0xa680, 0xa69a, 2}, { 0xa722, 0xa72e, 2}, { 0xa732, 0xa76e, 2}, { 0xa779, 0xa77d, 2}, { 0xa77e, 0xa786, 2}, { 0xa78b, 0xa78d, 2}, { 0xa790, 0xa792, 2}, { 0xa796, 0xa7aa, 2}, { 0xa7ab, 0xa7ad, 1}, { 0xa7b0, 0xa7b1, 1}, { 0xff21, 0xff3a, 1}, { 0x10400, 0x10427, 1}, { 0x118a0, 0x118bf, 1}, { 0x1d400, 0x1d419, 1}, { 0x1d434, 0x1d44d, 1}, { 0x1d468, 0x1d481, 1}, { 0x1d49c, 0x1d49e, 2}, { 0x1d49f, 0x1d4a5, 3}, { 0x1d4a6, 0x1d4a9, 3}, { 0x1d4aa, 0x1d4ac, 1}, { 0x1d4ae, 0x1d4b5, 1}, { 0x1d4d0, 0x1d4e9, 1}, { 0x1d504, 0x1d505, 1}, { 0x1d507, 0x1d50a, 1}, { 0x1d50d, 0x1d514, 1}, { 0x1d516, 0x1d51c, 1}, { 0x1d538, 0x1d539, 1}, { 0x1d53b, 0x1d53e, 1}, { 0x1d540, 0x1d544, 1}, { 0x1d546, 0x1d54a, 4}, { 0x1d54b, 0x1d550, 1}, { 0x1d56c, 0x1d585, 1}, { 0x1d5a0, 0x1d5b9, 1}, { 0x1d5d4, 0x1d5ed, 1}, { 0x1d608, 0x1d621, 1}, { 0x1d63c, 0x1d655, 1}, { 0x1d670, 0x1d689, 1}, { 0x1d6a8, 0x1d6c0, 1}, { 0x1d6e2, 0x1d6fa, 1}, { 0x1d71c, 0x1d734, 1}, { 0x1d756, 0x1d76e, 1}, { 0x1d790, 0x1d7a8, 1}, { 0x1d7ca, 0x1d7ca, 1}, }; // Return true if C is in RANGES. bool Lex::is_in_unicode_range(unsigned int c, const Unicode_range* ranges, size_t range_size) { if (c < 0x100) { // The common case is a small value, and we know that it will be // in the first few entries of the table. Do a linear scan // rather than a binary search. for (size_t i = 0; i < range_size; ++i) { const Unicode_range* p = &ranges[i]; if (c <= p->high) { if (c < p->low) return false; return (c - p->low) % p->stride == 0; } } return false; } else { size_t lo = 0; size_t hi = range_size; while (lo < hi) { size_t mid = lo + (hi - lo) / 2; const Unicode_range* p = &ranges[mid]; if (c < p->low) hi = mid; else if (c > p->high) lo = mid + 1; else return (c - p->low) % p->stride == 0; } return false; } } // Return whether C is a space character. bool Lex::is_unicode_space(unsigned int c) { return Lex::is_in_unicode_range(c, unicode_space, ARRAY_SIZE(unicode_space)); } // Return whether C is a Unicode digit--a Unicode code point // classified as "Digit". bool Lex::is_unicode_digit(unsigned int c) { return Lex::is_in_unicode_range(c, unicode_digits, ARRAY_SIZE(unicode_digits)); } // Return whether C is a Unicode letter--a Unicode code point // classified as "Letter". bool Lex::is_unicode_letter(unsigned int c) { return Lex::is_in_unicode_range(c, unicode_letters, ARRAY_SIZE(unicode_letters)); } // Return whether C is a Unicode uppercase letter. a Unicode code // point classified as "Letter, uppercase". bool Lex::is_unicode_uppercase(unsigned int c) { return Lex::is_in_unicode_range(c, unicode_uppercase_letters, ARRAY_SIZE(unicode_uppercase_letters)); } // Return whether the identifier NAME should be exported. NAME is a // mangled name which includes only ASCII characters. bool Lex::is_exported_name(const std::string& name) { unsigned char c = name[0]; if (c != '$') return c >= 'A' && c <= 'Z'; else { const char* p = name.data(); size_t len = name.length(); if (len < 2 || p[1] != 'U') return false; unsigned int ci = 0; for (size_t i = 2; i < len && p[i] != '$'; ++i) { c = p[i]; if (!Lex::is_hex_digit(c)) return false; ci <<= 4; ci |= Lex::hex_val(c); } return Lex::is_unicode_uppercase(ci); } } // Return whether the identifier NAME contains an invalid character. // This is based on how we handle invalid characters in // gather_identifier. bool Lex::is_invalid_identifier(const std::string& name) { return name.find("$INVALID$") != std::string::npos; }