%top{ /*------------------------------------------------------------------------- * * scan.l * lexical scanner for PostgreSQL * * NOTE NOTE NOTE: * * The rules in this file must be kept in sync with src/fe_utils/psqlscan.l * and src/interfaces/ecpg/preproc/pgc.l! * * The rules are designed so that the scanner never has to backtrack, * in the sense that there is always a rule that can match the input * consumed so far (the rule action may internally throw back some input * with yyless(), however). As explained in the flex manual, this makes * for a useful speed increase --- several percent faster when measuring * raw parsing (Flex + Bison). The extra complexity is mostly in the rules * for handling float numbers and continued string literals. If you change * the lexical rules, verify that you haven't broken the no-backtrack * property by running flex with the "-b" option and checking that the * resulting "lex.backup" file says that no backing up is needed. (As of * Postgres 9.2, this check is made automatically by the Makefile.) * * * Portions Copyright (c) 1996-2024, PostgreSQL Global Development Group * Portions Copyright (c) 1994, Regents of the University of California * * IDENTIFICATION * src/backend/parser/scan.l * *------------------------------------------------------------------------- */ #include "postgres.h" #include #include #include "common/string.h" #include "gramparse.h" #include "nodes/miscnodes.h" #include "parser/parser.h" /* only needed for GUC variables */ #include "parser/scansup.h" #include "port/pg_bitutils.h" #include "mb/pg_wchar.h" #include "utils/builtins.h" } %{ /* LCOV_EXCL_START */ /* Avoid exit() on fatal scanner errors (a bit ugly -- see yy_fatal_error) */ #undef fprintf #define fprintf(file, fmt, msg) fprintf_to_ereport(fmt, msg) static void fprintf_to_ereport(const char *fmt, const char *msg) { ereport(ERROR, (errmsg_internal("%s", msg))); } /* * GUC variables. This is a DIRECT violation of the warning given at the * head of gram.y, ie flex/bison code must not depend on any GUC variables; * as such, changing their values can induce very unintuitive behavior. * But we shall have to live with it until we can remove these variables. */ int backslash_quote = BACKSLASH_QUOTE_SAFE_ENCODING; bool escape_string_warning = true; bool standard_conforming_strings = true; /* * Constant data exported from this file. This array maps from the * zero-based keyword numbers returned by ScanKeywordLookup to the * Bison token numbers needed by gram.y. This is exported because * callers need to pass it to scanner_init, if they are using the * standard keyword list ScanKeywords. */ #define PG_KEYWORD(kwname, value, category, collabel) value, const uint16 ScanKeywordTokens[] = { #include "parser/kwlist.h" }; #undef PG_KEYWORD /* * Set the type of YYSTYPE. */ #define YYSTYPE core_YYSTYPE /* * Set the type of yyextra. All state variables used by the scanner should * be in yyextra, *not* statically allocated. */ #define YY_EXTRA_TYPE core_yy_extra_type * /* * Each call to yylex must set yylloc to the location of the found token * (expressed as a byte offset from the start of the input text). * When we parse a token that requires multiple lexer rules to process, * this should be done in the first such rule, else yylloc will point * into the middle of the token. */ #define SET_YYLLOC() (*(yylloc) = yytext - yyextra->scanbuf) /* * Advance yylloc by the given number of bytes. */ #define ADVANCE_YYLLOC(delta) ( *(yylloc) += (delta) ) /* * Sometimes, we do want yylloc to point into the middle of a token; this is * useful for instance to throw an error about an escape sequence within a * string literal. But if we find no error there, we want to revert yylloc * to the token start, so that that's the location reported to the parser. * Use PUSH_YYLLOC/POP_YYLLOC to save/restore yylloc around such code. * (Currently the implied "stack" is just one location, but someday we might * need to nest these.) */ #define PUSH_YYLLOC() (yyextra->save_yylloc = *(yylloc)) #define POP_YYLLOC() (*(yylloc) = yyextra->save_yylloc) #define startlit() ( yyextra->literallen = 0 ) static void addlit(char *ytext, int yleng, core_yyscan_t yyscanner); static void addlitchar(unsigned char ychar, core_yyscan_t yyscanner); static char *litbufdup(core_yyscan_t yyscanner); static unsigned char unescape_single_char(unsigned char c, core_yyscan_t yyscanner); static int process_integer_literal(const char *token, YYSTYPE *lval, int base); static void addunicode(pg_wchar c, yyscan_t yyscanner); #define yyerror(msg) scanner_yyerror(msg, yyscanner) #define lexer_errposition() scanner_errposition(*(yylloc), yyscanner) static void check_string_escape_warning(unsigned char ychar, core_yyscan_t yyscanner); static void check_escape_warning(core_yyscan_t yyscanner); /* * Work around a bug in flex 2.5.35: it emits a couple of functions that * it forgets to emit declarations for. Since we use -Wmissing-prototypes, * this would cause warnings. Providing our own declarations should be * harmless even when the bug gets fixed. */ extern int core_yyget_column(yyscan_t yyscanner); extern void core_yyset_column(int column_no, yyscan_t yyscanner); %} %option reentrant %option bison-bridge %option bison-locations %option 8bit %option never-interactive %option nodefault %option noinput %option nounput %option noyywrap %option noyyalloc %option noyyrealloc %option noyyfree %option warn %option prefix="core_yy" /* * OK, here is a short description of lex/flex rules behavior. * The longest pattern which matches an input string is always chosen. * For equal-length patterns, the first occurring in the rules list is chosen. * INITIAL is the starting state, to which all non-conditional rules apply. * Exclusive states change parsing rules while the state is active. When in * an exclusive state, only those rules defined for that state apply. * * We use exclusive states for quoted strings, extended comments, * and to eliminate parsing troubles for numeric strings. * Exclusive states: * bit string literal * extended C-style comments * delimited identifiers (double-quoted identifiers) * hexadecimal byte string * standard quoted strings * quote stop (detect continued strings) * extended quoted strings (support backslash escape sequences) * $foo$ quoted strings * quoted identifier with Unicode escapes * quoted string with Unicode escapes * Unicode surrogate pair in extended quoted string * * Remember to add an <> case whenever you add a new exclusive state! * The default one is probably not the right thing. */ %x xb %x xc %x xd %x xh %x xq %x xqs %x xe %x xdolq %x xui %x xus %x xeu /* * In order to make the world safe for Windows and Mac clients as well as * Unix ones, we accept either \n or \r as a newline. A DOS-style \r\n * sequence will be seen as two successive newlines, but that doesn't cause * any problems. Comments that start with -- and extend to the next * newline are treated as equivalent to a single whitespace character. * * NOTE a fine point: if there is no newline following --, we will absorb * everything to the end of the input as a comment. This is correct. Older * versions of Postgres failed to recognize -- as a comment if the input * did not end with a newline. * * non_newline_space tracks all the other space characters except newlines. * * XXX if you change the set of whitespace characters, fix scanner_isspace() * to agree. */ space [ \t\n\r\f\v] non_newline_space [ \t\f\v] newline [\n\r] non_newline [^\n\r] comment ("--"{non_newline}*) whitespace ({space}+|{comment}) /* * SQL requires at least one newline in the whitespace separating * string literals that are to be concatenated. Silly, but who are we * to argue? Note that {whitespace_with_newline} should not have * after * it, whereas {whitespace} should generally have a * after it... */ special_whitespace ({space}+|{comment}{newline}) non_newline_whitespace ({non_newline_space}|{comment}) whitespace_with_newline ({non_newline_whitespace}*{newline}{special_whitespace}*) quote ' /* If we see {quote} then {quotecontinue}, the quoted string continues */ quotecontinue {whitespace_with_newline}{quote} /* * {quotecontinuefail} is needed to avoid lexer backup when we fail to match * {quotecontinue}. It might seem that this could just be {whitespace}*, * but if there's a dash after {whitespace_with_newline}, it must be consumed * to see if there's another dash --- which would start a {comment} and thus * allow continuation of the {quotecontinue} token. */ quotecontinuefail {whitespace}*"-"? /* Bit string * It is tempting to scan the string for only those characters * which are allowed. However, this leads to silently swallowed * characters if illegal characters are included in the string. * For example, if xbinside is [01] then B'ABCD' is interpreted * as a zero-length string, and the ABCD' is lost! * Better to pass the string forward and let the input routines * validate the contents. */ xbstart [bB]{quote} xbinside [^']* /* Hexadecimal byte string */ xhstart [xX]{quote} xhinside [^']* /* National character */ xnstart [nN]{quote} /* Quoted string that allows backslash escapes */ xestart [eE]{quote} xeinside [^\\']+ xeescape [\\][^0-7] xeoctesc [\\][0-7]{1,3} xehexesc [\\]x[0-9A-Fa-f]{1,2} xeunicode [\\](u[0-9A-Fa-f]{4}|U[0-9A-Fa-f]{8}) xeunicodefail [\\](u[0-9A-Fa-f]{0,3}|U[0-9A-Fa-f]{0,7}) /* Extended quote * xqdouble implements embedded quote, '''' */ xqstart {quote} xqdouble {quote}{quote} xqinside [^']+ /* $foo$ style quotes ("dollar quoting") * The quoted string starts with $foo$ where "foo" is an optional string * in the form of an identifier, except that it may not contain "$", * and extends to the first occurrence of an identical string. * There is *no* processing of the quoted text. * * {dolqfailed} is an error rule to avoid scanner backup when {dolqdelim} * fails to match its trailing "$". */ dolq_start [A-Za-z\200-\377_] dolq_cont [A-Za-z\200-\377_0-9] dolqdelim \$({dolq_start}{dolq_cont}*)?\$ dolqfailed \${dolq_start}{dolq_cont}* dolqinside [^$]+ /* Double quote * Allows embedded spaces and other special characters into identifiers. */ dquote \" xdstart {dquote} xdstop {dquote} xddouble {dquote}{dquote} xdinside [^"]+ /* Quoted identifier with Unicode escapes */ xuistart [uU]&{dquote} /* Quoted string with Unicode escapes */ xusstart [uU]&{quote} /* error rule to avoid backup */ xufailed [uU]& /* C-style comments * * The "extended comment" syntax closely resembles allowable operator syntax. * The tricky part here is to get lex to recognize a string starting with * slash-star as a comment, when interpreting it as an operator would produce * a longer match --- remember lex will prefer a longer match! Also, if we * have something like plus-slash-star, lex will think this is a 3-character * operator whereas we want to see it as a + operator and a comment start. * The solution is two-fold: * 1. append {op_chars}* to xcstart so that it matches as much text as * {operator} would. Then the tie-breaker (first matching rule of same * length) ensures xcstart wins. We put back the extra stuff with yyless() * in case it contains a star-slash that should terminate the comment. * 2. In the operator rule, check for slash-star within the operator, and * if found throw it back with yyless(). This handles the plus-slash-star * problem. * Dash-dash comments have similar interactions with the operator rule. */ xcstart \/\*{op_chars}* xcstop \*+\/ xcinside [^*/]+ ident_start [A-Za-z\200-\377_] ident_cont [A-Za-z\200-\377_0-9\$] identifier {ident_start}{ident_cont}* /* Assorted special-case operators and operator-like tokens */ typecast "::" dot_dot \.\. colon_equals ":=" /* * These operator-like tokens (unlike the above ones) also match the {operator} * rule, which means that they might be overridden by a longer match if they * are followed by a comment start or a + or - character. Accordingly, if you * add to this list, you must also add corresponding code to the {operator} * block to return the correct token in such cases. (This is not needed in * psqlscan.l since the token value is ignored there.) */ equals_greater "=>" less_equals "<=" greater_equals ">=" less_greater "<>" not_equals "!=" /* * "self" is the set of chars that should be returned as single-character * tokens. "op_chars" is the set of chars that can make up "Op" tokens, * which can be one or more characters long (but if a single-char token * appears in the "self" set, it is not to be returned as an Op). Note * that the sets overlap, but each has some chars that are not in the other. * * If you change either set, adjust the character lists appearing in the * rule for "operator"! */ self [,()\[\].;\:\+\-\*\/\%\^\<\>\=] op_chars [\~\!\@\#\^\&\|\`\?\+\-\*\/\%\<\>\=] operator {op_chars}+ /* * Numbers * * Unary minus is not part of a number here. Instead we pass it separately to * the parser, and there it gets coerced via doNegate(). * * {numericfail} is used because we would like "1..10" to lex as 1, dot_dot, 10. * * {realfail} is added to prevent the need for scanner * backup when the {real} rule fails to match completely. */ decdigit [0-9] hexdigit [0-9A-Fa-f] octdigit [0-7] bindigit [0-1] decinteger {decdigit}(_?{decdigit})* hexinteger 0[xX](_?{hexdigit})+ octinteger 0[oO](_?{octdigit})+ bininteger 0[bB](_?{bindigit})+ hexfail 0[xX]_? octfail 0[oO]_? binfail 0[bB]_? numeric (({decinteger}\.{decinteger}?)|(\.{decinteger})) numericfail {decdigit}+\.\. real ({decinteger}|{numeric})[Ee][-+]?{decinteger} realfail ({decinteger}|{numeric})[Ee][-+] decinteger_junk {decinteger}{ident_start} hexinteger_junk {hexinteger}{ident_start} octinteger_junk {octinteger}{ident_start} bininteger_junk {bininteger}{ident_start} numeric_junk {numeric}{ident_start} real_junk {real}{ident_start} param \${decinteger} param_junk \${decinteger}{ident_start} other . /* * Dollar quoted strings are totally opaque, and no escaping is done on them. * Other quoted strings must allow some special characters such as single-quote * and newline. * Embedded single-quotes are implemented both in the SQL standard * style of two adjacent single quotes "''" and in the Postgres/Java style * of escaped-quote "\'". * Other embedded escaped characters are matched explicitly and the leading * backslash is dropped from the string. * Note that xcstart must appear before operator, as explained above! * Also whitespace (comment) must appear before operator. */ %% {whitespace} { /* ignore */ } {xcstart} { /* Set location in case of syntax error in comment */ SET_YYLLOC(); yyextra->xcdepth = 0; BEGIN(xc); /* Put back any characters past slash-star; see above */ yyless(2); } { {xcstart} { (yyextra->xcdepth)++; /* Put back any characters past slash-star; see above */ yyless(2); } {xcstop} { if (yyextra->xcdepth <= 0) BEGIN(INITIAL); else (yyextra->xcdepth)--; } {xcinside} { /* ignore */ } {op_chars} { /* ignore */ } \*+ { /* ignore */ } <> { yyerror("unterminated /* comment"); } } /* */ {xbstart} { /* Binary bit type. * At some point we should simply pass the string * forward to the parser and label it there. * In the meantime, place a leading "b" on the string * to mark it for the input routine as a binary string. */ SET_YYLLOC(); BEGIN(xb); startlit(); addlitchar('b', yyscanner); } {xhinside} | {xbinside} { addlit(yytext, yyleng, yyscanner); } <> { yyerror("unterminated bit string literal"); } {xhstart} { /* Hexadecimal bit type. * At some point we should simply pass the string * forward to the parser and label it there. * In the meantime, place a leading "x" on the string * to mark it for the input routine as a hex string. */ SET_YYLLOC(); BEGIN(xh); startlit(); addlitchar('x', yyscanner); } <> { yyerror("unterminated hexadecimal string literal"); } {xnstart} { /* National character. * We will pass this along as a normal character string, * but preceded with an internally-generated "NCHAR". */ int kwnum; SET_YYLLOC(); yyless(1); /* eat only 'n' this time */ kwnum = ScanKeywordLookup("nchar", yyextra->keywordlist); if (kwnum >= 0) { yylval->keyword = GetScanKeyword(kwnum, yyextra->keywordlist); return yyextra->keyword_tokens[kwnum]; } else { /* If NCHAR isn't a keyword, just return "n" */ yylval->str = pstrdup("n"); return IDENT; } } {xqstart} { yyextra->warn_on_first_escape = true; yyextra->saw_non_ascii = false; SET_YYLLOC(); if (yyextra->standard_conforming_strings) BEGIN(xq); else BEGIN(xe); startlit(); } {xestart} { yyextra->warn_on_first_escape = false; yyextra->saw_non_ascii = false; SET_YYLLOC(); BEGIN(xe); startlit(); } {xusstart} { SET_YYLLOC(); if (!yyextra->standard_conforming_strings) ereport(ERROR, (errcode(ERRCODE_FEATURE_NOT_SUPPORTED), errmsg("unsafe use of string constant with Unicode escapes"), errdetail("String constants with Unicode escapes cannot be used when standard_conforming_strings is off."), lexer_errposition())); BEGIN(xus); startlit(); } {quote} { /* * When we are scanning a quoted string and see an end * quote, we must look ahead for a possible continuation. * If we don't see one, we know the end quote was in fact * the end of the string. To reduce the lexer table size, * we use a single "xqs" state to do the lookahead for all * types of strings. */ yyextra->state_before_str_stop = YYSTATE; BEGIN(xqs); } {quotecontinue} { /* * Found a quote continuation, so return to the in-quote * state and continue scanning the literal. Nothing is * added to the literal's contents. */ BEGIN(yyextra->state_before_str_stop); } {quotecontinuefail} | {other} | <> { /* * Failed to see a quote continuation. Throw back * everything after the end quote, and handle the string * according to the state we were in previously. */ yyless(0); BEGIN(INITIAL); switch (yyextra->state_before_str_stop) { case xb: yylval->str = litbufdup(yyscanner); return BCONST; case xh: yylval->str = litbufdup(yyscanner); return XCONST; case xq: case xe: /* * Check that the data remains valid, if it might * have been made invalid by unescaping any chars. */ if (yyextra->saw_non_ascii) pg_verifymbstr(yyextra->literalbuf, yyextra->literallen, false); yylval->str = litbufdup(yyscanner); return SCONST; case xus: yylval->str = litbufdup(yyscanner); return USCONST; default: yyerror("unhandled previous state in xqs"); } } {xqdouble} { addlitchar('\'', yyscanner); } {xqinside} { addlit(yytext, yyleng, yyscanner); } {xeinside} { addlit(yytext, yyleng, yyscanner); } {xeunicode} { pg_wchar c = strtoul(yytext + 2, NULL, 16); /* * For consistency with other productions, issue any * escape warning with cursor pointing to start of string. * We might want to change that, someday. */ check_escape_warning(yyscanner); /* Remember start of overall string token ... */ PUSH_YYLLOC(); /* ... and set the error cursor to point at this esc seq */ SET_YYLLOC(); if (is_utf16_surrogate_first(c)) { yyextra->utf16_first_part = c; BEGIN(xeu); } else if (is_utf16_surrogate_second(c)) yyerror("invalid Unicode surrogate pair"); else addunicode(c, yyscanner); /* Restore yylloc to be start of string token */ POP_YYLLOC(); } {xeunicode} { pg_wchar c = strtoul(yytext + 2, NULL, 16); /* Remember start of overall string token ... */ PUSH_YYLLOC(); /* ... and set the error cursor to point at this esc seq */ SET_YYLLOC(); if (!is_utf16_surrogate_second(c)) yyerror("invalid Unicode surrogate pair"); c = surrogate_pair_to_codepoint(yyextra->utf16_first_part, c); addunicode(c, yyscanner); /* Restore yylloc to be start of string token */ POP_YYLLOC(); BEGIN(xe); } . | \n | <> { /* Set the error cursor to point at missing esc seq */ SET_YYLLOC(); yyerror("invalid Unicode surrogate pair"); } {xeunicodefail} { /* Set the error cursor to point at malformed esc seq */ SET_YYLLOC(); ereport(ERROR, (errcode(ERRCODE_INVALID_ESCAPE_SEQUENCE), errmsg("invalid Unicode escape"), errhint("Unicode escapes must be \\uXXXX or \\UXXXXXXXX."), lexer_errposition())); } {xeescape} { if (yytext[1] == '\'') { if (yyextra->backslash_quote == BACKSLASH_QUOTE_OFF || (yyextra->backslash_quote == BACKSLASH_QUOTE_SAFE_ENCODING && PG_ENCODING_IS_CLIENT_ONLY(pg_get_client_encoding()))) ereport(ERROR, (errcode(ERRCODE_NONSTANDARD_USE_OF_ESCAPE_CHARACTER), errmsg("unsafe use of \\' in a string literal"), errhint("Use '' to write quotes in strings. \\' is insecure in client-only encodings."), lexer_errposition())); } check_string_escape_warning(yytext[1], yyscanner); addlitchar(unescape_single_char(yytext[1], yyscanner), yyscanner); } {xeoctesc} { unsigned char c = strtoul(yytext + 1, NULL, 8); check_escape_warning(yyscanner); addlitchar(c, yyscanner); if (c == '\0' || IS_HIGHBIT_SET(c)) yyextra->saw_non_ascii = true; } {xehexesc} { unsigned char c = strtoul(yytext + 2, NULL, 16); check_escape_warning(yyscanner); addlitchar(c, yyscanner); if (c == '\0' || IS_HIGHBIT_SET(c)) yyextra->saw_non_ascii = true; } . { /* This is only needed for \ just before EOF */ addlitchar(yytext[0], yyscanner); } <> { yyerror("unterminated quoted string"); } {dolqdelim} { SET_YYLLOC(); yyextra->dolqstart = pstrdup(yytext); BEGIN(xdolq); startlit(); } {dolqfailed} { SET_YYLLOC(); /* throw back all but the initial "$" */ yyless(1); /* and treat it as {other} */ return yytext[0]; } {dolqdelim} { if (strcmp(yytext, yyextra->dolqstart) == 0) { pfree(yyextra->dolqstart); yyextra->dolqstart = NULL; BEGIN(INITIAL); yylval->str = litbufdup(yyscanner); return SCONST; } else { /* * When we fail to match $...$ to dolqstart, transfer * the $... part to the output, but put back the final * $ for rescanning. Consider $delim$...$junk$delim$ */ addlit(yytext, yyleng - 1, yyscanner); yyless(yyleng - 1); } } {dolqinside} { addlit(yytext, yyleng, yyscanner); } {dolqfailed} { addlit(yytext, yyleng, yyscanner); } . { /* This is only needed for $ inside the quoted text */ addlitchar(yytext[0], yyscanner); } <> { yyerror("unterminated dollar-quoted string"); } {xdstart} { SET_YYLLOC(); BEGIN(xd); startlit(); } {xuistart} { SET_YYLLOC(); BEGIN(xui); startlit(); } {xdstop} { char *ident; BEGIN(INITIAL); if (yyextra->literallen == 0) yyerror("zero-length delimited identifier"); ident = litbufdup(yyscanner); if (yyextra->literallen >= NAMEDATALEN) truncate_identifier(ident, yyextra->literallen, true); yylval->str = ident; return IDENT; } {dquote} { BEGIN(INITIAL); if (yyextra->literallen == 0) yyerror("zero-length delimited identifier"); /* can't truncate till after we de-escape the ident */ yylval->str = litbufdup(yyscanner); return UIDENT; } {xddouble} { addlitchar('"', yyscanner); } {xdinside} { addlit(yytext, yyleng, yyscanner); } <> { yyerror("unterminated quoted identifier"); } {xufailed} { char *ident; SET_YYLLOC(); /* throw back all but the initial u/U */ yyless(1); /* and treat it as {identifier} */ ident = downcase_truncate_identifier(yytext, yyleng, true); yylval->str = ident; return IDENT; } {typecast} { SET_YYLLOC(); return TYPECAST; } {dot_dot} { SET_YYLLOC(); return DOT_DOT; } {colon_equals} { SET_YYLLOC(); return COLON_EQUALS; } {equals_greater} { SET_YYLLOC(); return EQUALS_GREATER; } {less_equals} { SET_YYLLOC(); return LESS_EQUALS; } {greater_equals} { SET_YYLLOC(); return GREATER_EQUALS; } {less_greater} { /* We accept both "<>" and "!=" as meaning NOT_EQUALS */ SET_YYLLOC(); return NOT_EQUALS; } {not_equals} { /* We accept both "<>" and "!=" as meaning NOT_EQUALS */ SET_YYLLOC(); return NOT_EQUALS; } {self} { SET_YYLLOC(); return yytext[0]; } {operator} { /* * Check for embedded slash-star or dash-dash; those * are comment starts, so operator must stop there. * Note that slash-star or dash-dash at the first * character will match a prior rule, not this one. */ int nchars = yyleng; char *slashstar = strstr(yytext, "/*"); char *dashdash = strstr(yytext, "--"); if (slashstar && dashdash) { /* if both appear, take the first one */ if (slashstar > dashdash) slashstar = dashdash; } else if (!slashstar) slashstar = dashdash; if (slashstar) nchars = slashstar - yytext; /* * For SQL compatibility, '+' and '-' cannot be the * last char of a multi-char operator unless the operator * contains chars that are not in SQL operators. * The idea is to lex '=-' as two operators, but not * to forbid operator names like '?-' that could not be * sequences of SQL operators. */ if (nchars > 1 && (yytext[nchars - 1] == '+' || yytext[nchars - 1] == '-')) { int ic; for (ic = nchars - 2; ic >= 0; ic--) { char c = yytext[ic]; if (c == '~' || c == '!' || c == '@' || c == '#' || c == '^' || c == '&' || c == '|' || c == '`' || c == '?' || c == '%') break; } if (ic < 0) { /* * didn't find a qualifying character, so remove * all trailing [+-] */ do { nchars--; } while (nchars > 1 && (yytext[nchars - 1] == '+' || yytext[nchars - 1] == '-')); } } SET_YYLLOC(); if (nchars < yyleng) { /* Strip the unwanted chars from the token */ yyless(nchars); /* * If what we have left is only one char, and it's * one of the characters matching "self", then * return it as a character token the same way * that the "self" rule would have. */ if (nchars == 1 && strchr(",()[].;:+-*/%^<>=", yytext[0])) return yytext[0]; /* * Likewise, if what we have left is two chars, and * those match the tokens ">=", "<=", "=>", "<>" or * "!=", then we must return the appropriate token * rather than the generic Op. */ if (nchars == 2) { if (yytext[0] == '=' && yytext[1] == '>') return EQUALS_GREATER; if (yytext[0] == '>' && yytext[1] == '=') return GREATER_EQUALS; if (yytext[0] == '<' && yytext[1] == '=') return LESS_EQUALS; if (yytext[0] == '<' && yytext[1] == '>') return NOT_EQUALS; if (yytext[0] == '!' && yytext[1] == '=') return NOT_EQUALS; } } /* * Complain if operator is too long. Unlike the case * for identifiers, we make this an error not a notice- * and-truncate, because the odds are we are looking at * a syntactic mistake anyway. */ if (nchars >= NAMEDATALEN) yyerror("operator too long"); yylval->str = pstrdup(yytext); return Op; } {param} { SET_YYLLOC(); yylval->ival = atol(yytext + 1); return PARAM; } {param_junk} { SET_YYLLOC(); yyerror("trailing junk after parameter"); } {decinteger} { SET_YYLLOC(); return process_integer_literal(yytext, yylval, 10); } {hexinteger} { SET_YYLLOC(); return process_integer_literal(yytext, yylval, 16); } {octinteger} { SET_YYLLOC(); return process_integer_literal(yytext, yylval, 8); } {bininteger} { SET_YYLLOC(); return process_integer_literal(yytext, yylval, 2); } {hexfail} { SET_YYLLOC(); yyerror("invalid hexadecimal integer"); } {octfail} { SET_YYLLOC(); yyerror("invalid octal integer"); } {binfail} { SET_YYLLOC(); yyerror("invalid binary integer"); } {numeric} { SET_YYLLOC(); yylval->str = pstrdup(yytext); return FCONST; } {numericfail} { /* throw back the .., and treat as integer */ yyless(yyleng - 2); SET_YYLLOC(); return process_integer_literal(yytext, yylval, 10); } {real} { SET_YYLLOC(); yylval->str = pstrdup(yytext); return FCONST; } {realfail} { SET_YYLLOC(); yyerror("trailing junk after numeric literal"); } {decinteger_junk} { SET_YYLLOC(); yyerror("trailing junk after numeric literal"); } {hexinteger_junk} { SET_YYLLOC(); yyerror("trailing junk after numeric literal"); } {octinteger_junk} { SET_YYLLOC(); yyerror("trailing junk after numeric literal"); } {bininteger_junk} { SET_YYLLOC(); yyerror("trailing junk after numeric literal"); } {numeric_junk} { SET_YYLLOC(); yyerror("trailing junk after numeric literal"); } {real_junk} { SET_YYLLOC(); yyerror("trailing junk after numeric literal"); } {identifier} { int kwnum; char *ident; SET_YYLLOC(); /* Is it a keyword? */ kwnum = ScanKeywordLookup(yytext, yyextra->keywordlist); if (kwnum >= 0) { yylval->keyword = GetScanKeyword(kwnum, yyextra->keywordlist); return yyextra->keyword_tokens[kwnum]; } /* * No. Convert the identifier to lower case, and truncate * if necessary. */ ident = downcase_truncate_identifier(yytext, yyleng, true); yylval->str = ident; return IDENT; } {other} { SET_YYLLOC(); return yytext[0]; } <> { SET_YYLLOC(); yyterminate(); } %% /* LCOV_EXCL_STOP */ /* * Arrange access to yyextra for subroutines of the main yylex() function. * We expect each subroutine to have a yyscanner parameter. Rather than * use the yyget_xxx functions, which might or might not get inlined by the * compiler, we cheat just a bit and cast yyscanner to the right type. */ #undef yyextra #define yyextra (((struct yyguts_t *) yyscanner)->yyextra_r) /* Likewise for a couple of other things we need. */ #undef yylloc #define yylloc (((struct yyguts_t *) yyscanner)->yylloc_r) #undef yyleng #define yyleng (((struct yyguts_t *) yyscanner)->yyleng_r) /* * scanner_errposition * Report a lexer or grammar error cursor position, if possible. * * This is expected to be used within an ereport() call, or via an error * callback such as setup_scanner_errposition_callback(). The return value * is a dummy (always 0, in fact). * * Note that this can only be used for messages emitted during raw parsing * (essentially, scan.l, parser.c, and gram.y), since it requires the * yyscanner struct to still be available. */ int scanner_errposition(int location, core_yyscan_t yyscanner) { int pos; if (location < 0) return 0; /* no-op if location is unknown */ /* Convert byte offset to character number */ pos = pg_mbstrlen_with_len(yyextra->scanbuf, location) + 1; /* And pass it to the ereport mechanism */ return errposition(pos); } /* * Error context callback for inserting scanner error location. * * Note that this will be called for *any* error occurring while the * callback is installed. We avoid inserting an irrelevant error location * if the error is a query cancel --- are there any other important cases? */ static void scb_error_callback(void *arg) { ScannerCallbackState *scbstate = (ScannerCallbackState *) arg; if (geterrcode() != ERRCODE_QUERY_CANCELED) (void) scanner_errposition(scbstate->location, scbstate->yyscanner); } /* * setup_scanner_errposition_callback * Arrange for non-scanner errors to report an error position * * Sometimes the scanner calls functions that aren't part of the scanner * subsystem and can't reasonably be passed the yyscanner pointer; yet * we would like any errors thrown in those functions to be tagged with an * error location. Use this function to set up an error context stack * entry that will accomplish that. Usage pattern: * * declare a local variable "ScannerCallbackState scbstate" * ... * setup_scanner_errposition_callback(&scbstate, yyscanner, location); * call function that might throw error; * cancel_scanner_errposition_callback(&scbstate); */ void setup_scanner_errposition_callback(ScannerCallbackState *scbstate, core_yyscan_t yyscanner, int location) { /* Setup error traceback support for ereport() */ scbstate->yyscanner = yyscanner; scbstate->location = location; scbstate->errcallback.callback = scb_error_callback; scbstate->errcallback.arg = (void *) scbstate; scbstate->errcallback.previous = error_context_stack; error_context_stack = &scbstate->errcallback; } /* * Cancel a previously-set-up errposition callback. */ void cancel_scanner_errposition_callback(ScannerCallbackState *scbstate) { /* Pop the error context stack */ error_context_stack = scbstate->errcallback.previous; } /* * scanner_yyerror * Report a lexer or grammar error. * * The message's cursor position is whatever YYLLOC was last set to, * ie, the start of the current token if called within yylex(), or the * most recently lexed token if called from the grammar. * This is OK for syntax error messages from the Bison parser, because Bison * parsers report error as soon as the first unparsable token is reached. * Beware of using yyerror for other purposes, as the cursor position might * be misleading! */ void scanner_yyerror(const char *message, core_yyscan_t yyscanner) { const char *loc = yyextra->scanbuf + *yylloc; if (*loc == YY_END_OF_BUFFER_CHAR) { ereport(ERROR, (errcode(ERRCODE_SYNTAX_ERROR), /* translator: %s is typically the translation of "syntax error" */ errmsg("%s at end of input", _(message)), lexer_errposition())); } else { ereport(ERROR, (errcode(ERRCODE_SYNTAX_ERROR), /* translator: first %s is typically the translation of "syntax error" */ errmsg("%s at or near \"%s\"", _(message), loc), lexer_errposition())); } } /* * Called before any actual parsing is done */ core_yyscan_t scanner_init(const char *str, core_yy_extra_type *yyext, const ScanKeywordList *keywordlist, const uint16 *keyword_tokens) { Size slen = strlen(str); yyscan_t scanner; if (yylex_init(&scanner) != 0) elog(ERROR, "yylex_init() failed: %m"); core_yyset_extra(yyext, scanner); yyext->keywordlist = keywordlist; yyext->keyword_tokens = keyword_tokens; yyext->backslash_quote = backslash_quote; yyext->escape_string_warning = escape_string_warning; yyext->standard_conforming_strings = standard_conforming_strings; /* * Make a scan buffer with special termination needed by flex. */ yyext->scanbuf = (char *) palloc(slen + 2); yyext->scanbuflen = slen; memcpy(yyext->scanbuf, str, slen); yyext->scanbuf[slen] = yyext->scanbuf[slen + 1] = YY_END_OF_BUFFER_CHAR; yy_scan_buffer(yyext->scanbuf, slen + 2, scanner); /* initialize literal buffer to a reasonable but expansible size */ yyext->literalalloc = 1024; yyext->literalbuf = (char *) palloc(yyext->literalalloc); yyext->literallen = 0; return scanner; } /* * Called after parsing is done to clean up after scanner_init() */ void scanner_finish(core_yyscan_t yyscanner) { /* * We don't bother to call yylex_destroy(), because all it would do is * pfree a small amount of control storage. It's cheaper to leak the * storage until the parsing context is destroyed. The amount of space * involved is usually negligible compared to the output parse tree * anyway. * * We do bother to pfree the scanbuf and literal buffer, but only if they * represent a nontrivial amount of space. The 8K cutoff is arbitrary. */ if (yyextra->scanbuflen >= 8192) pfree(yyextra->scanbuf); if (yyextra->literalalloc >= 8192) pfree(yyextra->literalbuf); } static void addlit(char *ytext, int yleng, core_yyscan_t yyscanner) { /* enlarge buffer if needed */ if ((yyextra->literallen + yleng) >= yyextra->literalalloc) { yyextra->literalalloc = pg_nextpower2_32(yyextra->literallen + yleng + 1); yyextra->literalbuf = (char *) repalloc(yyextra->literalbuf, yyextra->literalalloc); } /* append new data */ memcpy(yyextra->literalbuf + yyextra->literallen, ytext, yleng); yyextra->literallen += yleng; } static void addlitchar(unsigned char ychar, core_yyscan_t yyscanner) { /* enlarge buffer if needed */ if ((yyextra->literallen + 1) >= yyextra->literalalloc) { yyextra->literalalloc *= 2; yyextra->literalbuf = (char *) repalloc(yyextra->literalbuf, yyextra->literalalloc); } /* append new data */ yyextra->literalbuf[yyextra->literallen] = ychar; yyextra->literallen += 1; } /* * Create a palloc'd copy of literalbuf, adding a trailing null. */ static char * litbufdup(core_yyscan_t yyscanner) { int llen = yyextra->literallen; char *new; new = palloc(llen + 1); memcpy(new, yyextra->literalbuf, llen); new[llen] = '\0'; return new; } /* * Process {decinteger}, {hexinteger}, etc. Note this will also do the right * thing with {numeric}, ie digits and a decimal point. */ static int process_integer_literal(const char *token, YYSTYPE *lval, int base) { ErrorSaveContext escontext = {T_ErrorSaveContext}; int32 val; val = pg_strtoint32_safe(token, (Node *) &escontext); if (escontext.error_occurred) { /* integer too large (or contains decimal pt), treat it as a float */ lval->str = pstrdup(token); return FCONST; } lval->ival = val; return ICONST; } static void addunicode(pg_wchar c, core_yyscan_t yyscanner) { ScannerCallbackState scbstate; char buf[MAX_UNICODE_EQUIVALENT_STRING + 1]; if (!is_valid_unicode_codepoint(c)) yyerror("invalid Unicode escape value"); /* * We expect that pg_unicode_to_server() will complain about any * unconvertible code point, so we don't have to set saw_non_ascii. */ setup_scanner_errposition_callback(&scbstate, yyscanner, *(yylloc)); pg_unicode_to_server(c, (unsigned char *) buf); cancel_scanner_errposition_callback(&scbstate); addlit(buf, strlen(buf), yyscanner); } static unsigned char unescape_single_char(unsigned char c, core_yyscan_t yyscanner) { switch (c) { case 'b': return '\b'; case 'f': return '\f'; case 'n': return '\n'; case 'r': return '\r'; case 't': return '\t'; case 'v': return '\v'; default: /* check for backslash followed by non-7-bit-ASCII */ if (c == '\0' || IS_HIGHBIT_SET(c)) yyextra->saw_non_ascii = true; return c; } } static void check_string_escape_warning(unsigned char ychar, core_yyscan_t yyscanner) { if (ychar == '\'') { if (yyextra->warn_on_first_escape && yyextra->escape_string_warning) ereport(WARNING, (errcode(ERRCODE_NONSTANDARD_USE_OF_ESCAPE_CHARACTER), errmsg("nonstandard use of \\' in a string literal"), errhint("Use '' to write quotes in strings, or use the escape string syntax (E'...')."), lexer_errposition())); yyextra->warn_on_first_escape = false; /* warn only once per string */ } else if (ychar == '\\') { if (yyextra->warn_on_first_escape && yyextra->escape_string_warning) ereport(WARNING, (errcode(ERRCODE_NONSTANDARD_USE_OF_ESCAPE_CHARACTER), errmsg("nonstandard use of \\\\ in a string literal"), errhint("Use the escape string syntax for backslashes, e.g., E'\\\\'."), lexer_errposition())); yyextra->warn_on_first_escape = false; /* warn only once per string */ } else check_escape_warning(yyscanner); } static void check_escape_warning(core_yyscan_t yyscanner) { if (yyextra->warn_on_first_escape && yyextra->escape_string_warning) ereport(WARNING, (errcode(ERRCODE_NONSTANDARD_USE_OF_ESCAPE_CHARACTER), errmsg("nonstandard use of escape in a string literal"), errhint("Use the escape string syntax for escapes, e.g., E'\\r\\n'."), lexer_errposition())); yyextra->warn_on_first_escape = false; /* warn only once per string */ } /* * Interface functions to make flex use palloc() instead of malloc(). * It'd be better to make these static, but flex insists otherwise. */ void * core_yyalloc(yy_size_t bytes, core_yyscan_t yyscanner) { return palloc(bytes); } void * core_yyrealloc(void *ptr, yy_size_t bytes, core_yyscan_t yyscanner) { if (ptr) return repalloc(ptr, bytes); else return palloc(bytes); } void core_yyfree(void *ptr, core_yyscan_t yyscanner) { if (ptr) pfree(ptr); }