/*------------------------------------------------------------------------- * * keywords.c * lexical token lookup for reserved words in PostgreSQL * * Portions Copyright (c) 1996-2002, PostgreSQL Global Development Group * Portions Copyright (c) 1994, Regents of the University of California * * * IDENTIFICATION * $Header: /cvsroot/pgsql/src/backend/parser/keywords.c,v 1.122 2002/07/18 23:11:28 petere Exp $ * *------------------------------------------------------------------------- */ #include "postgres.h" #include #include "nodes/parsenodes.h" #include "parser/keywords.h" #include "parser/parse.h" /* * List of (keyword-name, keyword-token-value) pairs. * * !!WARNING!!: This list must be sorted, because binary * search is used to locate entries. */ static const ScanKeyword ScanKeywords[] = { /* name, value */ {"abort", ABORT_TRANS}, {"absolute", ABSOLUTE}, {"access", ACCESS}, {"action", ACTION}, {"add", ADD}, {"after", AFTER}, {"aggregate", AGGREGATE}, {"all", ALL}, {"alter", ALTER}, {"analyse", ANALYSE}, /* British spelling */ {"analyze", ANALYZE}, {"and", AND}, {"any", ANY}, {"as", AS}, {"asc", ASC}, {"assertion", ASSERTION}, {"assignment", ASSIGNMENT}, {"at", AT}, {"authorization", AUTHORIZATION}, {"backward", BACKWARD}, {"before", BEFORE}, {"begin", BEGIN_TRANS}, {"between", BETWEEN}, {"bigint", BIGINT}, {"binary", BINARY}, {"bit", BIT}, {"boolean", BOOLEAN}, {"both", BOTH}, {"by", BY}, {"cache", CACHE}, {"called", CALLED}, {"cascade", CASCADE}, {"case", CASE}, {"cast", CAST}, {"chain", CHAIN}, {"char", CHAR_P}, {"character", CHARACTER}, {"characteristics", CHARACTERISTICS}, {"check", CHECK}, {"checkpoint", CHECKPOINT}, {"close", CLOSE}, {"cluster", CLUSTER}, {"coalesce", COALESCE}, {"collate", COLLATE}, {"column", COLUMN}, {"comment", COMMENT}, {"commit", COMMIT}, {"committed", COMMITTED}, {"constraint", CONSTRAINT}, {"constraints", CONSTRAINTS}, {"conversion", CONVERSION_P}, {"copy", COPY}, {"create", CREATE}, {"createdb", CREATEDB}, {"createuser", CREATEUSER}, {"cross", CROSS}, {"current_date", CURRENT_DATE}, {"current_time", CURRENT_TIME}, {"current_timestamp", CURRENT_TIMESTAMP}, {"current_user", CURRENT_USER}, {"cursor", CURSOR}, {"cycle", CYCLE}, {"database", DATABASE}, {"day", DAY_P}, {"dec", DEC}, {"decimal", DECIMAL}, {"declare", DECLARE}, {"default", DEFAULT}, {"deferrable", DEFERRABLE}, {"deferred", DEFERRED}, {"definer", DEFINER}, {"delete", DELETE_P}, {"delimiter", DELIMITER}, {"delimiters", DELIMITERS}, {"desc", DESC}, {"distinct", DISTINCT}, {"do", DO}, {"domain", DOMAIN_P}, {"double", DOUBLE}, {"drop", DROP}, {"each", EACH}, {"else", ELSE}, {"encoding", ENCODING}, {"encrypted", ENCRYPTED}, {"end", END_TRANS}, {"escape", ESCAPE}, {"except", EXCEPT}, {"exclusive", EXCLUSIVE}, {"execute", EXECUTE}, {"exists", EXISTS}, {"explain", EXPLAIN}, {"external", EXTERNAL}, {"extract", EXTRACT}, {"false", FALSE_P}, {"fetch", FETCH}, {"float", FLOAT_P}, {"for", FOR}, {"force", FORCE}, {"foreign", FOREIGN}, {"forward", FORWARD}, {"freeze", FREEZE}, {"from", FROM}, {"full", FULL}, {"function", FUNCTION}, {"get", GET}, {"global", GLOBAL}, {"grant", GRANT}, {"group", GROUP_P}, {"handler", HANDLER}, {"having", HAVING}, {"hour", HOUR_P}, {"ilike", ILIKE}, {"immediate", IMMEDIATE}, {"immutable", IMMUTABLE}, {"in", IN_P}, {"increment", INCREMENT}, {"index", INDEX}, {"inherits", INHERITS}, {"initially", INITIALLY}, {"inner", INNER_P}, {"inout", INOUT}, {"input", INPUT}, {"insensitive", INSENSITIVE}, {"insert", INSERT}, {"instead", INSTEAD}, {"int", INT}, {"integer", INTEGER}, {"intersect", INTERSECT}, {"interval", INTERVAL}, {"into", INTO}, {"invoker", INVOKER}, {"is", IS}, {"isnull", ISNULL}, {"isolation", ISOLATION}, {"join", JOIN}, {"key", KEY}, {"lancompiler", LANCOMPILER}, {"language", LANGUAGE}, {"leading", LEADING}, {"left", LEFT}, {"level", LEVEL}, {"like", LIKE}, {"limit", LIMIT}, {"listen", LISTEN}, {"load", LOAD}, {"local", LOCAL}, {"localtime", LOCALTIME}, {"localtimestamp", LOCALTIMESTAMP}, {"location", LOCATION}, {"lock", LOCK_P}, {"match", MATCH}, {"maxvalue", MAXVALUE}, {"minute", MINUTE_P}, {"minvalue", MINVALUE}, {"mode", MODE}, {"month", MONTH_P}, {"move", MOVE}, {"names", NAMES}, {"national", NATIONAL}, {"natural", NATURAL}, {"nchar", NCHAR}, {"new", NEW}, {"next", NEXT}, {"no", NO}, {"nocreatedb", NOCREATEDB}, {"nocreateuser", NOCREATEUSER}, {"none", NONE}, {"not", NOT}, {"nothing", NOTHING}, {"notify", NOTIFY}, {"notnull", NOTNULL}, {"null", NULL_P}, {"nullif", NULLIF}, {"numeric", NUMERIC}, {"of", OF}, {"off", OFF}, {"offset", OFFSET}, {"oids", OIDS}, {"old", OLD}, {"on", ON}, {"only", ONLY}, {"operator", OPERATOR}, {"option", OPTION}, {"or", OR}, {"order", ORDER}, {"out", OUT_P}, {"outer", OUTER_P}, {"overlaps", OVERLAPS}, {"overlay", OVERLAY}, {"owner", OWNER}, {"partial", PARTIAL}, {"password", PASSWORD}, {"path", PATH_P}, {"pendant", PENDANT}, {"placing", PLACING}, {"position", POSITION}, {"precision", PRECISION}, {"primary", PRIMARY}, {"prior", PRIOR}, {"privileges", PRIVILEGES}, {"procedural", PROCEDURAL}, {"procedure", PROCEDURE}, {"read", READ}, {"real", REAL}, {"references", REFERENCES}, {"reindex", REINDEX}, {"relative", RELATIVE}, {"rename", RENAME}, {"replace", REPLACE}, {"reset", RESET}, {"restrict", RESTRICT}, {"returns", RETURNS}, {"revoke", REVOKE}, {"right", RIGHT}, {"rollback", ROLLBACK}, {"row", ROW}, {"rule", RULE}, {"schema", SCHEMA}, {"scroll", SCROLL}, {"second", SECOND_P}, {"security", SECURITY}, {"select", SELECT}, {"sequence", SEQUENCE}, {"serializable", SERIALIZABLE}, {"session", SESSION}, {"session_user", SESSION_USER}, {"set", SET}, {"setof", SETOF}, {"share", SHARE}, {"show", SHOW}, {"similar", SIMILAR}, {"simple", SIMPLE}, {"smallint", SMALLINT}, {"some", SOME}, {"stable", STABLE}, {"start", START}, {"statement", STATEMENT}, {"statistics", STATISTICS}, {"stdin", STDIN}, {"stdout", STDOUT}, {"storage", STORAGE}, {"strict", STRICT}, {"substring", SUBSTRING}, {"sysid", SYSID}, {"table", TABLE}, {"temp", TEMP}, {"template", TEMPLATE}, {"temporary", TEMPORARY}, {"then", THEN}, {"time", TIME}, {"timestamp", TIMESTAMP}, {"to", TO}, {"toast", TOAST}, {"trailing", TRAILING}, {"transaction", TRANSACTION}, {"treat", TREAT}, {"trigger", TRIGGER}, {"trim", TRIM}, {"true", TRUE_P}, {"truncate", TRUNCATE}, {"trusted", TRUSTED}, {"type", TYPE_P}, {"unencrypted", UNENCRYPTED}, {"union", UNION}, {"unique", UNIQUE}, {"unknown", UNKNOWN}, {"unlisten", UNLISTEN}, {"until", UNTIL}, {"update", UPDATE}, {"usage", USAGE}, {"user", USER}, {"using", USING}, {"vacuum", VACUUM}, {"valid", VALID}, {"validator", VALIDATOR}, {"values", VALUES}, {"varchar", VARCHAR}, {"varying", VARYING}, {"verbose", VERBOSE}, {"version", VERSION}, {"view", VIEW}, {"volatile", VOLATILE}, {"when", WHEN}, {"where", WHERE}, {"with", WITH}, {"without", WITHOUT}, {"work", WORK}, {"write", WRITE}, {"year", YEAR_P}, {"zone", ZONE}, }; /* * ScanKeywordLookup - see if a given word is a keyword * * Returns a pointer to the ScanKeyword table entry, or NULL if no match. * * The match is done case-insensitively. Note that we deliberately use a * dumbed-down case conversion that will only translate 'A'-'Z' into 'a'-'z', * even if we are in a locale where tolower() would produce more or different * translations. This is to conform to the SQL99 spec, which says that * keywords are to be matched in this way even though non-keyword identifiers * receive a different case-normalization mapping. */ const ScanKeyword * ScanKeywordLookup(const char *text) { int len, i; char word[NAMEDATALEN]; const ScanKeyword *low; const ScanKeyword *high; len = strlen(text); /* We assume all keywords are shorter than NAMEDATALEN. */ if (len >= NAMEDATALEN) return NULL; /* * Apply an ASCII-only downcasing. We must not use tolower() since it * may produce the wrong translation in some locales (eg, Turkish), * and we don't trust isupper() very much either. In an ASCII-based * encoding the tests against A and Z are sufficient, but we also * check isupper() so that we will work correctly under EBCDIC. The * actual case conversion step should work for either ASCII or EBCDIC. */ for (i = 0; i < len; i++) { char ch = text[i]; if (ch >= 'A' && ch <= 'Z' && isupper((unsigned char) ch)) ch += 'a' - 'A'; word[i] = ch; } word[len] = '\0'; /* * Now do a binary search using plain strcmp() comparison. */ low = &ScanKeywords[0]; high = endof(ScanKeywords) - 1; while (low <= high) { const ScanKeyword *middle; int difference; middle = low + (high - low) / 2; difference = strcmp(middle->name, word); if (difference == 0) return middle; else if (difference < 0) low = middle + 1; else high = middle - 1; } return NULL; }