/***************************************************************************** Copyright (c) 1997, 2014, Oracle and/or its affiliates. All Rights Reserved. Copyright (c) 2017, 2019, MariaDB Corporation. This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; version 2 of the License. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1335 USA *****************************************************************************/ /****************************************************** SQL parser lexical analyzer: input file for the GNU Flex lexer generator The InnoDB parser is frozen because MySQL takes care of SQL parsing. Therefore we normally keep the InnoDB parser C files as they are, and do not automatically generate them from pars0grm.y and pars0lex.l. How to make the InnoDB parser and lexer C files: 1. Run ./make_flex.sh to generate lexer files. 2. Run ./make_bison.sh to generate parser files. These instructions seem to work at least with bison-1.875d and flex-2.5.31 on Linux. Created 12/14/1997 Heikki Tuuri *******************************************************/ %option nostdinit %option 8bit %option warn %option pointer %option never-interactive %option nodefault %option noinput %option nounput %option noyywrap %option noyy_scan_buffer %option noyy_scan_bytes %option noyy_scan_string %option nounistd %{ #define YYSTYPE que_node_t* #include "univ.i" #include "pars0pars.h" #include "pars0grm.h" #include "pars0sym.h" #include "mem0mem.h" #define malloc(A) ut_malloc_nokey(A) #define free(A) ut_free(A) #define realloc(P, A) ut_realloc(P, A) #define exit(A) ut_error #define YY_INPUT(buf, result, max_size) \ result = pars_get_lex_chars(buf, max_size) /* String buffer for removing quotes */ static ulint stringbuf_len_alloc = 0; /* Allocated length */ static ulint stringbuf_len = 0; /* Current length */ static char* stringbuf; /* Start of buffer */ /** Appends a string to the buffer. */ static void string_append( /*==========*/ const char* str, /*!< in: string to be appended */ ulint len) /*!< in: length of the string */ { if (stringbuf == NULL) { stringbuf = static_cast(malloc(1)); stringbuf_len_alloc = 1; } if (stringbuf_len + len > stringbuf_len_alloc) { while (stringbuf_len + len > stringbuf_len_alloc) { stringbuf_len_alloc <<= 1; } stringbuf = static_cast( realloc(stringbuf, stringbuf_len_alloc)); } memcpy(stringbuf + stringbuf_len, str, len); stringbuf_len += len; } %} DIGIT [0-9] ID [a-z_A-Z][a-z_A-Z0-9]* TABLE_NAME [a-z_A-Z][@a-z_A-Z0-9]*\/(#sql-|[a-z_A-Z])[a-z_A-Z0-9]* BOUND_LIT \:[a-z_A-Z0-9]+ BOUND_ID \$[a-z_A-Z0-9]+ %x comment %x quoted %x id %% {DIGIT}+ { yylval = sym_tab_add_int_lit(pars_sym_tab_global, atoi(yytext)); return(PARS_INT_LIT); } {DIGIT}+"."{DIGIT}* { ut_error; /* not implemented */ return(PARS_FLOAT_LIT); } {BOUND_LIT} { ulint type; yylval = sym_tab_add_bound_lit(pars_sym_tab_global, yytext + 1, &type); return((int) type); } {BOUND_ID} { yylval = sym_tab_add_bound_id(pars_sym_tab_global, yytext + 1); return(PARS_ID_TOKEN); } "'" { /* Quoted character string literals are handled in an explicit start state 'quoted'. This state is entered and the buffer for the scanned string is emptied upon encountering a starting quote. In the state 'quoted', only two actions are possible (defined below). */ BEGIN(quoted); stringbuf_len = 0; } [^\']+ { /* Got a sequence of characters other than "'": append to string buffer */ string_append(yytext, yyleng); } "'"+ { /* Got a sequence of "'" characters: append half of them to string buffer, as "''" represents a single "'". We apply truncating division, so that "'''" will result in "'". */ string_append(yytext, yyleng / 2); /* If we got an odd number of quotes, then the last quote we got is the terminating quote. At the end of the string, we return to the initial start state and report the scanned string literal. */ if (yyleng % 2) { BEGIN(INITIAL); yylval = sym_tab_add_str_lit( pars_sym_tab_global, (byte*) stringbuf, stringbuf_len); return(PARS_STR_LIT); } } \" { /* Quoted identifiers are handled in an explicit start state 'id'. This state is entered and the buffer for the scanned string is emptied upon encountering a starting quote. In the state 'id', only two actions are possible (defined below). */ BEGIN(id); stringbuf_len = 0; } [^\"]+ { /* Got a sequence of characters other than '"': append to string buffer */ string_append(yytext, yyleng); } \"+ { /* Got a sequence of '"' characters: append half of them to string buffer, as '""' represents a single '"'. We apply truncating division, so that '"""' will result in '"'. */ string_append(yytext, yyleng / 2); /* If we got an odd number of quotes, then the last quote we got is the terminating quote. At the end of the string, we return to the initial start state and report the scanned identifier. */ if (yyleng % 2) { BEGIN(INITIAL); yylval = sym_tab_add_id( pars_sym_tab_global, (byte*) stringbuf, stringbuf_len); return(PARS_ID_TOKEN); } } "NULL" { yylval = sym_tab_add_null_lit(pars_sym_tab_global); return(PARS_NULL_LIT); } "SQL" { /* Implicit cursor name */ yylval = sym_tab_add_str_lit(pars_sym_tab_global, (byte*) yytext, yyleng); return(PARS_SQL_TOKEN); } "AND" { return(PARS_AND_TOKEN); } "OR" { return(PARS_OR_TOKEN); } "NOT" { return(PARS_NOT_TOKEN); } "PROCEDURE" { return(PARS_PROCEDURE_TOKEN); } "IN" { return(PARS_IN_TOKEN); } "INT" { return(PARS_INT_TOKEN); } "CHAR" { return(PARS_CHAR_TOKEN); } "IS" { return(PARS_IS_TOKEN); } "BEGIN" { return(PARS_BEGIN_TOKEN); } "END" { return(PARS_END_TOKEN); } "IF" { return(PARS_IF_TOKEN); } "THEN" { return(PARS_THEN_TOKEN); } "ELSE" { return(PARS_ELSE_TOKEN); } "ELSIF" { return(PARS_ELSIF_TOKEN); } "LOOP" { return(PARS_LOOP_TOKEN); } "WHILE" { return(PARS_WHILE_TOKEN); } "RETURN" { return(PARS_RETURN_TOKEN); } "SELECT" { return(PARS_SELECT_TOKEN); } "COUNT" { return(PARS_COUNT_TOKEN); } "FROM" { return(PARS_FROM_TOKEN); } "WHERE" { return(PARS_WHERE_TOKEN); } "FOR" { return(PARS_FOR_TOKEN); } "ORDER" { return(PARS_ORDER_TOKEN); } "BY" { return(PARS_BY_TOKEN); } "ASC" { return(PARS_ASC_TOKEN); } "DESC" { return(PARS_DESC_TOKEN); } "INSERT" { return(PARS_INSERT_TOKEN); } "INTO" { return(PARS_INTO_TOKEN); } "VALUES" { return(PARS_VALUES_TOKEN); } "UPDATE" { return(PARS_UPDATE_TOKEN); } "SET" { return(PARS_SET_TOKEN); } "DELETE" { return(PARS_DELETE_TOKEN); } "CURRENT" { return(PARS_CURRENT_TOKEN); } "OF" { return(PARS_OF_TOKEN); } "CREATE" { return(PARS_CREATE_TOKEN); } "TABLE" { return(PARS_TABLE_TOKEN); } "INDEX" { return(PARS_INDEX_TOKEN); } "UNIQUE" { return(PARS_UNIQUE_TOKEN); } "CLUSTERED" { return(PARS_CLUSTERED_TOKEN); } "ON" { return(PARS_ON_TOKEN); } "DECLARE" { return(PARS_DECLARE_TOKEN); } "CURSOR" { return(PARS_CURSOR_TOKEN); } "OPEN" { return(PARS_OPEN_TOKEN); } "FETCH" { return(PARS_FETCH_TOKEN); } "CLOSE" { return(PARS_CLOSE_TOKEN); } "NOTFOUND" { return(PARS_NOTFOUND_TOKEN); } "TO_BINARY" { return(PARS_TO_BINARY_TOKEN); } "SUBSTR" { return(PARS_SUBSTR_TOKEN); } "CONCAT" { return(PARS_CONCAT_TOKEN); } "INSTR" { return(PARS_INSTR_TOKEN); } "LENGTH" { return(PARS_LENGTH_TOKEN); } "COMMIT" { return(PARS_COMMIT_TOKEN); } "ROLLBACK" { return(PARS_ROLLBACK_TOKEN); } "WORK" { return(PARS_WORK_TOKEN); } "EXIT" { return(PARS_EXIT_TOKEN); } "FUNCTION" { return(PARS_FUNCTION_TOKEN); } "LOCK" { return(PARS_LOCK_TOKEN); } "SHARE" { return(PARS_SHARE_TOKEN); } "MODE" { return(PARS_MODE_TOKEN); } "LIKE" { return(PARS_LIKE_TOKEN); } "BIGINT" { return(PARS_BIGINT_TOKEN); } {ID} { yylval = sym_tab_add_id(pars_sym_tab_global, (byte*) yytext, strlen(yytext)); return(PARS_ID_TOKEN); } {TABLE_NAME} { yylval = sym_tab_add_id(pars_sym_tab_global, (byte*) yytext, strlen(yytext)); return(PARS_TABLE_NAME_TOKEN); } ".." { return(PARS_DDOT_TOKEN); } ":=" { return(PARS_ASSIGN_TOKEN); } "<=" { return(PARS_LE_TOKEN); } ">=" { return(PARS_GE_TOKEN); } "<>" { return(PARS_NE_TOKEN); } "(" { return((int)(*yytext)); } "=" { return((int)(*yytext)); } ">" { return((int)(*yytext)); } "<" { return((int)(*yytext)); } "," { return((int)(*yytext)); } ";" { return((int)(*yytext)); } ")" { return((int)(*yytext)); } "+" { return((int)(*yytext)); } "-" { return((int)(*yytext)); } "*" { return((int)(*yytext)); } "/" { return((int)(*yytext)); } "%" { return((int)(*yytext)); } "{" { return((int)(*yytext)); } "}" { return((int)(*yytext)); } "?" { return((int)(*yytext)); } "/*" BEGIN(comment); /* eat up comment */ [^*]* "*"+[^*/]* "*"+"/" BEGIN(INITIAL); [ \t\n]+ /* eat up whitespace */ . { fprintf(stderr,"Unrecognized character: %02x\n", *yytext); ut_error; return(0); } %% /********************************************************************** Release any resources used by the lexer. */ void pars_lexer_close(void) /*==================*/ { yylex_destroy(); free(stringbuf); stringbuf = NULL; stringbuf_len_alloc = stringbuf_len = 0; }