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|
%{
/*-------------------------------------------------------------------------
*
* scan.l
* lexical scanner for PostgreSQL
*
* NOTE NOTE NOTE:
*
* The rules in this file must be kept in sync with psql's lexer!!!
*
* 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 --- about a third faster than a plain -CF
* lexer, in simple testing. 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) 1996-2012, PostgreSQL Global Development Group
* Portions Copyright (c) 1994, Regents of the University of California
*
* IDENTIFICATION
* src/backend/parser/scan.l
*
*-------------------------------------------------------------------------
*/
#include "postgres.h"
#include <ctype.h>
#include <unistd.h>
#include "parser/parser.h" /* only needed for GUC variables */
#include "parser/scanner.h"
#include "parser/scansup.h"
#include "mb/pg_wchar.h"
/* Avoid exit() on fatal scanner errors (a bit ugly -- see yy_fatal_error) */
#undef fprintf
#define fprintf(file, fmt, 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 as a short-term thing until the switch
* to SQL-standard string syntax is complete.
*/
int backslash_quote = BACKSLASH_QUOTE_SAFE_ENCODING;
bool escape_string_warning = true;
bool standard_conforming_strings = true;
/*
* 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) )
#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 char *litbuf_udeescape(unsigned char escape, 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);
static bool is_utf16_surrogate_first(pg_wchar c);
static bool is_utf16_surrogate_second(pg_wchar c);
static pg_wchar surrogate_pair_to_codepoint(pg_wchar first, pg_wchar second);
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:
* <xb> bit string literal
* <xc> extended C-style comments
* <xd> delimited identifiers (double-quoted identifiers)
* <xh> hexadecimal numeric string
* <xq> standard quoted strings
* <xe> extended quoted strings (support backslash escape sequences)
* <xdolq> $foo$ quoted strings
* <xui> quoted identifier with Unicode escapes
* <xus> quoted string with Unicode escapes
* <xeu> Unicode surrogate pair in extended quoted string
*/
%x xb
%x xc
%x xd
%x xh
%x xe
%x xq
%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.
*
* XXX perhaps \f (formfeed) should be treated as a newline as well?
*
* XXX if you change the set of whitespace characters, fix scanner_isspace()
* to agree, and see also the plpgsql lexer.
*/
space [ \t\n\r\f]
horiz_space [ \t\f]
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})
horiz_whitespace ({horiz_space}|{comment})
whitespace_with_newline ({horiz_whitespace}*{newline}{special_whitespace}*)
/*
* To ensure that {quotecontinue} can be scanned without having to back up
* if the full pattern isn't matched, we include trailing whitespace in
* {quotestop}. This matches all cases where {quotecontinue} fails to match,
* except for {quote} followed by whitespace and just one "-" (not two,
* which would start a {comment}). To cover that we have {quotefail}.
* The actions for {quotestop} and {quotefail} must throw back characters
* beyond the quote proper.
*/
quote '
quotestop {quote}{whitespace}*
quotecontinue {quote}{whitespace_with_newline}{quote}
quotefail {quote}{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 number */
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 [^"]+
/* Unicode escapes */
uescape [uU][eE][sS][cC][aA][pP][eE]{whitespace}*{quote}[^']{quote}
/* error rule to avoid backup */
uescapefail ("-"|[uU][eE][sS][cC][aA][pP][eE]{whitespace}*"-"|[uU][eE][sS][cC][aA][pP][eE]{whitespace}*{quote}[^']|[uU][eE][sS][cC][aA][pP][eE]{whitespace}*{quote}|[uU][eE][sS][cC][aA][pP][eE]{whitespace}*|[uU][eE][sS][cC][aA][pP]|[uU][eE][sS][cC][aA]|[uU][eE][sS][cC]|[uU][eE][sS]|[uU][eE]|[uU])
/* Quoted identifier with Unicode escapes */
xuistart [uU]&{dquote}
xuistop1 {dquote}{whitespace}*{uescapefail}?
xuistop2 {dquote}{whitespace}*{uescape}
/* Quoted string with Unicode escapes */
xusstart [uU]&{quote}
xusstop1 {quote}{whitespace}*{uescapefail}?
xusstop2 {quote}{whitespace}*{uescape}
/* 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 [^*/]+
digit [0-9]
ident_start [A-Za-z\200-\377_]
ident_cont [A-Za-z\200-\377_0-9\$]
identifier {ident_start}{ident_cont}*
typecast "::"
dot_dot \.\.
colon_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}+
/* we no longer allow unary minus in numbers.
* instead we pass it separately to parser. there it gets
* coerced via doNegate() -- Leon aug 20 1999
*
* {decimalfail} is used because we would like "1..10" to lex as 1, dot_dot, 10.
*
* {realfail1} and {realfail2} are added to prevent the need for scanner
* backup when the {real} rule fails to match completely.
*/
integer {digit}+
decimal (({digit}*\.{digit}+)|({digit}+\.{digit}*))
decimalfail {digit}+\.\.
real ({integer}|{decimal})[Ee][-+]?{digit}+
realfail1 ({integer}|{decimal})[Ee]
realfail2 ({integer}|{decimal})[Ee][-+]
param \${integer}
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);
}
<xc>{xcstart} {
(yyextra->xcdepth)++;
/* Put back any characters past slash-star; see above */
yyless(2);
}
<xc>{xcstop} {
if (yyextra->xcdepth <= 0)
BEGIN(INITIAL);
else
(yyextra->xcdepth)--;
}
<xc>{xcinside} {
/* ignore */
}
<xc>{op_chars} {
/* ignore */
}
<xc>\*+ {
/* ignore */
}
<xc><<EOF>> { 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);
}
<xb>{quotestop} |
<xb>{quotefail} {
yyless(1);
BEGIN(INITIAL);
yylval->str = litbufdup(yyscanner);
return BCONST;
}
<xh>{xhinside} |
<xb>{xbinside} {
addlit(yytext, yyleng, yyscanner);
}
<xh>{quotecontinue} |
<xb>{quotecontinue} {
/* ignore */
}
<xb><<EOF>> { 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);
}
<xh>{quotestop} |
<xh>{quotefail} {
yyless(1);
BEGIN(INITIAL);
yylval->str = litbufdup(yyscanner);
return XCONST;
}
<xh><<EOF>> { 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".
*/
const ScanKeyword *keyword;
SET_YYLLOC();
yyless(1); /* eat only 'n' this time */
keyword = ScanKeywordLookup("nchar",
yyextra->keywords,
yyextra->num_keywords);
if (keyword != NULL)
{
yylval->keyword = keyword->name;
return keyword->value;
}
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 (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 (!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();
}
<xq,xe>{quotestop} |
<xq,xe>{quotefail} {
yyless(1);
BEGIN(INITIAL);
/*
* 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;
}
<xus>{xusstop1} {
/* throw back all but the quote */
yyless(1);
BEGIN(INITIAL);
yylval->str = litbuf_udeescape('\\', yyscanner);
return SCONST;
}
<xus>{xusstop2} {
BEGIN(INITIAL);
yylval->str = litbuf_udeescape(yytext[yyleng-2], yyscanner);
return SCONST;
}
<xq,xe,xus>{xqdouble} {
addlitchar('\'', yyscanner);
}
<xq,xus>{xqinside} {
addlit(yytext, yyleng, yyscanner);
}
<xe>{xeinside} {
addlit(yytext, yyleng, yyscanner);
}
<xe>{xeunicode} {
pg_wchar c = strtoul(yytext+2, NULL, 16);
check_escape_warning(yyscanner);
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);
}
<xeu>{xeunicode} {
pg_wchar c = strtoul(yytext+2, NULL, 16);
if (!is_utf16_surrogate_second(c))
yyerror("invalid Unicode surrogate pair");
c = surrogate_pair_to_codepoint(yyextra->utf16_first_part, c);
addunicode(c, yyscanner);
BEGIN(xe);
}
<xeu>. { yyerror("invalid Unicode surrogate pair"); }
<xeu>\n { yyerror("invalid Unicode surrogate pair"); }
<xeu><<EOF>> { yyerror("invalid Unicode surrogate pair"); }
<xe,xeu>{xeunicodefail} {
ereport(ERROR,
(errcode(ERRCODE_INVALID_ESCAPE_SEQUENCE),
errmsg("invalid Unicode escape"),
errhint("Unicode escapes must be \\uXXXX or \\UXXXXXXXX."),
lexer_errposition()));
}
<xe>{xeescape} {
if (yytext[1] == '\'')
{
if (backslash_quote == BACKSLASH_QUOTE_OFF ||
(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);
}
<xe>{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;
}
<xe>{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;
}
<xq,xe,xus>{quotecontinue} {
/* ignore */
}
<xe>. {
/* This is only needed for \ just before EOF */
addlitchar(yytext[0], yyscanner);
}
<xq,xe,xus><<EOF>> { 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];
}
<xdolq>{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);
}
}
<xdolq>{dolqinside} {
addlit(yytext, yyleng, yyscanner);
}
<xdolq>{dolqfailed} {
addlit(yytext, yyleng, yyscanner);
}
<xdolq>. {
/* This is only needed for $ inside the quoted text */
addlitchar(yytext[0], yyscanner);
}
<xdolq><<EOF>> { yyerror("unterminated dollar-quoted string"); }
{xdstart} {
SET_YYLLOC();
BEGIN(xd);
startlit();
}
{xuistart} {
SET_YYLLOC();
BEGIN(xui);
startlit();
}
<xd>{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;
}
<xui>{xuistop1} {
char *ident;
BEGIN(INITIAL);
if (yyextra->literallen == 0)
yyerror("zero-length delimited identifier");
ident = litbuf_udeescape('\\', yyscanner);
if (yyextra->literallen >= NAMEDATALEN)
truncate_identifier(ident, yyextra->literallen, true);
yylval->str = ident;
/* throw back all but the quote */
yyless(1);
return IDENT;
}
<xui>{xuistop2} {
char *ident;
BEGIN(INITIAL);
if (yyextra->literallen == 0)
yyerror("zero-length delimited identifier");
ident = litbuf_udeescape(yytext[yyleng - 2], yyscanner);
if (yyextra->literallen >= NAMEDATALEN)
truncate_identifier(ident, yyextra->literallen, true);
yylval->str = ident;
return IDENT;
}
<xd,xui>{xddouble} {
addlitchar('"', yyscanner);
}
<xd,xui>{xdinside} {
addlit(yytext, yyleng, yyscanner);
}
<xd,xui><<EOF>> { 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;
}
{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.
*/
while (nchars > 1 &&
(yytext[nchars-1] == '+' ||
yytext[nchars-1] == '-'))
{
int ic;
for (ic = nchars-2; ic >= 0; ic--)
{
if (strchr("~!@#^&|`?%", yytext[ic]))
break;
}
if (ic >= 0)
break; /* found a char that makes it OK */
nchars--; /* else remove the +/-, and check again */
}
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];
}
/*
* 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");
/* Convert "!=" operator to "<>" for compatibility */
if (strcmp(yytext, "!=") == 0)
yylval->str = pstrdup("<>");
else
yylval->str = pstrdup(yytext);
return Op;
}
{param} {
SET_YYLLOC();
yylval->ival = atol(yytext + 1);
return PARAM;
}
{integer} {
SET_YYLLOC();
return process_integer_literal(yytext, yylval);
}
{decimal} {
SET_YYLLOC();
yylval->str = pstrdup(yytext);
return FCONST;
}
{decimalfail} {
/* throw back the .., and treat as integer */
yyless(yyleng-2);
SET_YYLLOC();
return process_integer_literal(yytext, yylval);
}
{real} {
SET_YYLLOC();
yylval->str = pstrdup(yytext);
return FCONST;
}
{realfail1} {
/*
* throw back the [Ee], and treat as {decimal}. Note
* that it is possible the input is actually {integer},
* but since this case will almost certainly lead to a
* syntax error anyway, we don't bother to distinguish.
*/
yyless(yyleng-1);
SET_YYLLOC();
yylval->str = pstrdup(yytext);
return FCONST;
}
{realfail2} {
/* throw back the [Ee][+-], and proceed as above */
yyless(yyleng-2);
SET_YYLLOC();
yylval->str = pstrdup(yytext);
return FCONST;
}
{identifier} {
const ScanKeyword *keyword;
char *ident;
SET_YYLLOC();
/* Is it a keyword? */
keyword = ScanKeywordLookup(yytext,
yyextra->keywords,
yyextra->num_keywords);
if (keyword != NULL)
{
yylval->keyword = keyword->name;
return keyword->value;
}
/*
* 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];
}
<<EOF>> {
SET_YYLLOC();
yyterminate();
}
%%
/*
* 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. 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 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);
}
/*
* 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 ScanKeyword *keywords,
int num_keywords)
{
Size slen = strlen(str);
yyscan_t scanner;
if (yylex_init(&scanner) != 0)
elog(ERROR, "yylex_init() failed: %m");
core_yyset_extra(yyext, scanner);
yyext->keywords = keywords;
yyext->num_keywords = num_keywords;
/*
* 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)
{
do {
yyextra->literalalloc *= 2;
} while ((yyextra->literallen + yleng) >= yyextra->literalalloc);
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;
}
static int
process_integer_literal(const char *token, YYSTYPE *lval)
{
long val;
char *endptr;
errno = 0;
val = strtol(token, &endptr, 10);
if (*endptr != '\0' || errno == ERANGE
#ifdef HAVE_LONG_INT_64
/* if long > 32 bits, check for overflow of int4 */
|| val != (long) ((int32) val)
#endif
)
{
/* integer too large, treat it as a float */
lval->str = pstrdup(token);
return FCONST;
}
lval->ival = val;
return ICONST;
}
static unsigned int
hexval(unsigned char c)
{
if (c >= '0' && c <= '9')
return c - '0';
if (c >= 'a' && c <= 'f')
return c - 'a' + 0xA;
if (c >= 'A' && c <= 'F')
return c - 'A' + 0xA;
elog(ERROR, "invalid hexadecimal digit");
return 0; /* not reached */
}
static void
check_unicode_value(pg_wchar c, char *loc, core_yyscan_t yyscanner)
{
if (GetDatabaseEncoding() == PG_UTF8)
return;
if (c > 0x7F)
{
ADVANCE_YYLLOC(loc - yyextra->literalbuf + 3); /* 3 for U&" */
yyerror("Unicode escape values cannot be used for code point values above 007F when the server encoding is not UTF8");
}
}
static bool
is_utf16_surrogate_first(pg_wchar c)
{
return (c >= 0xD800 && c <= 0xDBFF);
}
static bool
is_utf16_surrogate_second(pg_wchar c)
{
return (c >= 0xDC00 && c <= 0xDFFF);
}
static pg_wchar
surrogate_pair_to_codepoint(pg_wchar first, pg_wchar second)
{
return ((first & 0x3FF) << 10) + 0x10000 + (second & 0x3FF);
}
static void
addunicode(pg_wchar c, core_yyscan_t yyscanner)
{
char buf[8];
if (c == 0 || c > 0x10FFFF)
yyerror("invalid Unicode escape value");
if (c > 0x7F)
{
if (GetDatabaseEncoding() != PG_UTF8)
yyerror("Unicode escape values cannot be used for code point values above 007F when the server encoding is not UTF8");
yyextra->saw_non_ascii = true;
}
unicode_to_utf8(c, (unsigned char *) buf);
addlit(buf, pg_mblen(buf), yyscanner);
}
static char *
litbuf_udeescape(unsigned char escape, core_yyscan_t yyscanner)
{
char *new;
char *litbuf, *in, *out;
pg_wchar pair_first = 0;
if (isxdigit(escape)
|| escape == '+'
|| escape == '\''
|| escape == '"'
|| scanner_isspace(escape))
{
ADVANCE_YYLLOC(yyextra->literallen + yyleng + 1);
yyerror("invalid Unicode escape character");
}
/* Make literalbuf null-terminated to simplify the scanning loop */
litbuf = yyextra->literalbuf;
litbuf[yyextra->literallen] = '\0';
/*
* This relies on the subtle assumption that a UTF-8 expansion
* cannot be longer than its escaped representation.
*/
new = palloc(yyextra->literallen + 1);
in = litbuf;
out = new;
while (*in)
{
if (in[0] == escape)
{
if (in[1] == escape)
{
if (pair_first)
{
ADVANCE_YYLLOC(in - litbuf + 3); /* 3 for U&" */
yyerror("invalid Unicode surrogate pair");
}
*out++ = escape;
in += 2;
}
else if (isxdigit((unsigned char) in[1]) &&
isxdigit((unsigned char) in[2]) &&
isxdigit((unsigned char) in[3]) &&
isxdigit((unsigned char) in[4]))
{
pg_wchar unicode;
unicode = (hexval(in[1]) << 12) +
(hexval(in[2]) << 8) +
(hexval(in[3]) << 4) +
hexval(in[4]);
check_unicode_value(unicode, in, yyscanner);
if (pair_first)
{
if (is_utf16_surrogate_second(unicode))
{
unicode = surrogate_pair_to_codepoint(pair_first, unicode);
pair_first = 0;
}
else
{
ADVANCE_YYLLOC(in - litbuf + 3); /* 3 for U&" */
yyerror("invalid Unicode surrogate pair");
}
}
else if (is_utf16_surrogate_second(unicode))
yyerror("invalid Unicode surrogate pair");
if (is_utf16_surrogate_first(unicode))
pair_first = unicode;
else
{
unicode_to_utf8(unicode, (unsigned char *) out);
out += pg_mblen(out);
}
in += 5;
}
else if (in[1] == '+' &&
isxdigit((unsigned char) in[2]) &&
isxdigit((unsigned char) in[3]) &&
isxdigit((unsigned char) in[4]) &&
isxdigit((unsigned char) in[5]) &&
isxdigit((unsigned char) in[6]) &&
isxdigit((unsigned char) in[7]))
{
pg_wchar unicode;
unicode = (hexval(in[2]) << 20) +
(hexval(in[3]) << 16) +
(hexval(in[4]) << 12) +
(hexval(in[5]) << 8) +
(hexval(in[6]) << 4) +
hexval(in[7]);
check_unicode_value(unicode, in, yyscanner);
if (pair_first)
{
if (is_utf16_surrogate_second(unicode))
{
unicode = surrogate_pair_to_codepoint(pair_first, unicode);
pair_first = 0;
}
else
{
ADVANCE_YYLLOC(in - litbuf + 3); /* 3 for U&" */
yyerror("invalid Unicode surrogate pair");
}
}
else if (is_utf16_surrogate_second(unicode))
yyerror("invalid Unicode surrogate pair");
if (is_utf16_surrogate_first(unicode))
pair_first = unicode;
else
{
unicode_to_utf8(unicode, (unsigned char *) out);
out += pg_mblen(out);
}
in += 8;
}
else
{
ADVANCE_YYLLOC(in - litbuf + 3); /* 3 for U&" */
yyerror("invalid Unicode escape value");
}
}
else
{
if (pair_first)
{
ADVANCE_YYLLOC(in - litbuf + 3); /* 3 for U&" */
yyerror("invalid Unicode surrogate pair");
}
*out++ = *in++;
}
}
*out = '\0';
/*
* We could skip pg_verifymbstr if we didn't process any non-7-bit-ASCII
* codes; but it's probably not worth the trouble, since this isn't
* likely to be a performance-critical path.
*/
pg_verifymbstr(new, out - new, false);
return new;
}
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';
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 && 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 && 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 && 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);
}
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