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org.apache.hadoop.hive.ql.parse.HiveParser.g Maven / Gradle / Ivy
/**
Licensed to the Apache Software Foundation (ASF) under one or more
contributor license agreements. See the NOTICE file distributed with
this work for additional information regarding copyright ownership.
The ASF licenses this file to You under the Apache License, Version 2.0
(the "License"); you may not use this file except in compliance with
the License. You may obtain a copy of the License at
http://www.apache.org/licenses/LICENSE-2.0
Unless required by applicable law or agreed to in writing, software
distributed under the License is distributed on an "AS IS" BASIS,
WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
See the License for the specific language governing permissions and
limitations under the License.
*/
parser grammar HiveParser;
options
{
tokenVocab=HiveLexer;
output=AST;
ASTLabelType=ASTNode;
backtrack=false;
k=3;
}
import SelectClauseParser, FromClauseParser, IdentifiersParser, ResourcePlanParser;
tokens {
TOK_INSERT;
TOK_QUERY;
TOK_SELECT;
TOK_SELECTDI;
TOK_SELEXPR;
TOK_FROM;
TOK_TAB;
TOK_PARTSPEC;
TOK_PARTVAL;
TOK_DIR;
TOK_TABREF;
TOK_SUBQUERY;
TOK_INSERT_INTO;
TOK_DESTINATION;
TOK_ALLCOLREF;
TOK_SETCOLREF;
TOK_TABLE_OR_COL;
TOK_FUNCTION;
TOK_FUNCTIONDI;
TOK_FUNCTIONSTAR;
TOK_WHERE;
TOK_OP_EQ;
TOK_OP_NE;
TOK_OP_LE;
TOK_OP_LT;
TOK_OP_GE;
TOK_OP_GT;
TOK_OP_DIV;
TOK_OP_ADD;
TOK_OP_SUB;
TOK_OP_MUL;
TOK_OP_MOD;
TOK_OP_BITAND;
TOK_OP_BITNOT;
TOK_OP_BITOR;
TOK_OP_BITXOR;
TOK_OP_AND;
TOK_OP_OR;
TOK_OP_NOT;
TOK_OP_LIKE;
TOK_TRUE;
TOK_FALSE;
TOK_TRANSFORM;
TOK_SERDE;
TOK_SERDENAME;
TOK_SERDEPROPS;
TOK_EXPLIST;
TOK_ALIASLIST;
TOK_GROUPBY;
TOK_ROLLUP_GROUPBY;
TOK_CUBE_GROUPBY;
TOK_GROUPING_SETS;
TOK_GROUPING_SETS_EXPRESSION;
TOK_HAVING;
TOK_ORDERBY;
TOK_NULLS_FIRST;
TOK_NULLS_LAST;
TOK_CLUSTERBY;
TOK_DISTRIBUTEBY;
TOK_SORTBY;
TOK_UNIONALL;
TOK_UNIONDISTINCT;
TOK_INTERSECTALL;
TOK_INTERSECTDISTINCT;
TOK_EXCEPTALL;
TOK_EXCEPTDISTINCT;
TOK_JOIN;
TOK_LEFTOUTERJOIN;
TOK_RIGHTOUTERJOIN;
TOK_FULLOUTERJOIN;
TOK_UNIQUEJOIN;
TOK_CROSSJOIN;
TOK_LOAD;
TOK_EXPORT;
TOK_IMPORT;
TOK_REPLICATION;
TOK_METADATA;
TOK_NULL;
TOK_NOT_NULL;
TOK_UNIQUE;
TOK_PRIMARY_KEY;
TOK_FOREIGN_KEY;
TOK_DEFAULT_VALUE;
TOK_CHECK_CONSTRAINT;
TOK_VALIDATE;
TOK_NOVALIDATE;
TOK_RELY;
TOK_NORELY;
TOK_CONSTRAINT_NAME;
TOK_TINYINT;
TOK_SMALLINT;
TOK_INT;
TOK_BIGINT;
TOK_BOOLEAN;
TOK_FLOAT;
TOK_DOUBLE;
TOK_DATE;
TOK_DATELITERAL;
TOK_DATETIME;
TOK_TIMESTAMP;
TOK_TIMESTAMPLITERAL;
TOK_TIMESTAMPLOCALTZ;
TOK_TIMESTAMPLOCALTZLITERAL;
TOK_INTERVAL_YEAR_MONTH;
TOK_INTERVAL_YEAR_MONTH_LITERAL;
TOK_INTERVAL_DAY_TIME;
TOK_INTERVAL_DAY_TIME_LITERAL;
TOK_INTERVAL_YEAR_LITERAL;
TOK_INTERVAL_MONTH_LITERAL;
TOK_INTERVAL_DAY_LITERAL;
TOK_INTERVAL_HOUR_LITERAL;
TOK_INTERVAL_MINUTE_LITERAL;
TOK_INTERVAL_SECOND_LITERAL;
TOK_STRING;
TOK_CHAR;
TOK_VARCHAR;
TOK_BINARY;
TOK_DECIMAL;
TOK_LIST;
TOK_STRUCT;
TOK_MAP;
TOK_UNIONTYPE;
TOK_COLTYPELIST;
TOK_CREATEDATABASE;
TOK_CREATETABLE;
TOK_TRUNCATETABLE;
TOK_LIKETABLE;
TOK_DESCTABLE;
TOK_DESCFUNCTION;
TOK_ALTERTABLE;
TOK_ALTERTABLE_RENAME;
TOK_ALTERTABLE_ADDCOLS;
TOK_ALTERTABLE_RENAMECOL;
TOK_ALTERTABLE_RENAMEPART;
TOK_ALTERTABLE_REPLACECOLS;
TOK_ALTERTABLE_ADDPARTS;
TOK_ALTERTABLE_DROPPARTS;
TOK_ALTERTABLE_PARTCOLTYPE;
TOK_ALTERTABLE_MERGEFILES;
TOK_ALTERTABLE_TOUCH;
TOK_ALTERTABLE_ARCHIVE;
TOK_ALTERTABLE_UNARCHIVE;
TOK_ALTERTABLE_SERDEPROPERTIES;
TOK_ALTERTABLE_SERIALIZER;
TOK_ALTERTABLE_UPDATECOLSTATS;
TOK_ALTERTABLE_UPDATESTATS;
TOK_TABLE_PARTITION;
TOK_ALTERTABLE_FILEFORMAT;
TOK_ALTERTABLE_LOCATION;
TOK_ALTERTABLE_PROPERTIES;
TOK_ALTERTABLE_CHANGECOL_AFTER_POSITION;
TOK_ALTERTABLE_DROPPROPERTIES;
TOK_ALTERTABLE_SKEWED;
TOK_ALTERTABLE_EXCHANGEPARTITION;
TOK_ALTERTABLE_SKEWED_LOCATION;
TOK_ALTERTABLE_BUCKETS;
TOK_ALTERTABLE_CLUSTER_SORT;
TOK_ALTERTABLE_COMPACT;
TOK_ALTERTABLE_DROPCONSTRAINT;
TOK_ALTERTABLE_ADDCONSTRAINT;
TOK_ALTERTABLE_UPDATECOLUMNS;
TOK_ALTERTABLE_OWNER;
TOK_MSCK;
TOK_SHOWDATABASES;
TOK_SHOWTABLES;
TOK_SHOWCOLUMNS;
TOK_SHOWFUNCTIONS;
TOK_SHOWPARTITIONS;
TOK_SHOW_CREATEDATABASE;
TOK_SHOW_CREATETABLE;
TOK_SHOW_TABLESTATUS;
TOK_SHOW_TBLPROPERTIES;
TOK_SHOWLOCKS;
TOK_SHOWCONF;
TOK_LOCKTABLE;
TOK_UNLOCKTABLE;
TOK_LOCKDB;
TOK_UNLOCKDB;
TOK_SWITCHDATABASE;
TOK_DROPDATABASE;
TOK_DROPTABLE;
TOK_DATABASECOMMENT;
TOK_TABCOLLIST;
TOK_TABCOL;
TOK_TABLECOMMENT;
TOK_TABLEPARTCOLS;
TOK_TABLEROWFORMAT;
TOK_TABLEROWFORMATFIELD;
TOK_TABLEROWFORMATCOLLITEMS;
TOK_TABLEROWFORMATMAPKEYS;
TOK_TABLEROWFORMATLINES;
TOK_TABLEROWFORMATNULL;
TOK_TABLEFILEFORMAT;
TOK_FILEFORMAT_GENERIC;
TOK_OFFLINE;
TOK_ENABLE;
TOK_DISABLE;
TOK_READONLY;
TOK_NO_DROP;
TOK_STORAGEHANDLER;
TOK_NOT_CLUSTERED;
TOK_NOT_SORTED;
TOK_TABCOLNAME;
TOK_TABLELOCATION;
TOK_PARTITIONLOCATION;
TOK_TABLEBUCKETSAMPLE;
TOK_TABLESPLITSAMPLE;
TOK_PERCENT;
TOK_LENGTH;
TOK_ROWCOUNT;
TOK_TMP_FILE;
TOK_TABSORTCOLNAMEASC;
TOK_TABSORTCOLNAMEDESC;
TOK_STRINGLITERALSEQUENCE;
TOK_CHARSETLITERAL;
TOK_CREATEFUNCTION;
TOK_DROPFUNCTION;
TOK_RELOADFUNCTION;
TOK_CREATEMACRO;
TOK_DROPMACRO;
TOK_TEMPORARY;
TOK_CREATEVIEW;
TOK_DROPVIEW;
TOK_ALTERVIEW;
TOK_ALTERVIEW_PROPERTIES;
TOK_ALTERVIEW_DROPPROPERTIES;
TOK_ALTERVIEW_ADDPARTS;
TOK_ALTERVIEW_DROPPARTS;
TOK_ALTERVIEW_RENAME;
TOK_CREATE_MATERIALIZED_VIEW;
TOK_DROP_MATERIALIZED_VIEW;
TOK_ALTER_MATERIALIZED_VIEW;
TOK_ALTER_MATERIALIZED_VIEW_REWRITE;
TOK_ALTER_MATERIALIZED_VIEW_REBUILD;
TOK_REWRITE_ENABLED;
TOK_REWRITE_DISABLED;
TOK_VIEWPARTCOLS;
TOK_EXPLAIN;
TOK_EXPLAIN_SQ_REWRITE;
TOK_TABLESERIALIZER;
TOK_TABLEPROPERTIES;
TOK_TABLEPROPLIST;
TOK_TABTYPE;
TOK_LIMIT;
TOK_OFFSET;
TOK_TABLEPROPERTY;
TOK_IFEXISTS;
TOK_IFNOTEXISTS;
TOK_ORREPLACE;
TOK_USERSCRIPTCOLNAMES;
TOK_USERSCRIPTCOLSCHEMA;
TOK_RECORDREADER;
TOK_RECORDWRITER;
TOK_LEFTSEMIJOIN;
TOK_LATERAL_VIEW;
TOK_LATERAL_VIEW_OUTER;
TOK_TABALIAS;
TOK_ANALYZE;
TOK_CREATEROLE;
TOK_DROPROLE;
TOK_GRANT;
TOK_REVOKE;
TOK_SHOW_GRANT;
TOK_PRIVILEGE_LIST;
TOK_PRIVILEGE;
TOK_PRINCIPAL_NAME;
TOK_USER;
TOK_GROUP;
TOK_ROLE;
TOK_RESOURCE_ALL;
TOK_GRANT_WITH_OPTION;
TOK_GRANT_WITH_ADMIN_OPTION;
TOK_ADMIN_OPTION_FOR;
TOK_GRANT_OPTION_FOR;
TOK_PRIV_ALL;
TOK_PRIV_ALTER_METADATA;
TOK_PRIV_ALTER_DATA;
TOK_PRIV_DELETE;
TOK_PRIV_DROP;
TOK_PRIV_INSERT;
TOK_PRIV_LOCK;
TOK_PRIV_SELECT;
TOK_PRIV_SHOW_DATABASE;
TOK_PRIV_CREATE;
TOK_PRIV_OBJECT;
TOK_PRIV_OBJECT_COL;
TOK_GRANT_ROLE;
TOK_REVOKE_ROLE;
TOK_SHOW_ROLE_GRANT;
TOK_SHOW_ROLES;
TOK_SHOW_SET_ROLE;
TOK_SHOW_ROLE_PRINCIPALS;
TOK_SHOWDBLOCKS;
TOK_DESCDATABASE;
TOK_DATABASEPROPERTIES;
TOK_DATABASELOCATION;
TOK_DBPROPLIST;
TOK_ALTERDATABASE_PROPERTIES;
TOK_ALTERDATABASE_OWNER;
TOK_ALTERDATABASE_LOCATION;
TOK_DBNAME;
TOK_TABNAME;
TOK_TABSRC;
TOK_RESTRICT;
TOK_CASCADE;
TOK_TABLESKEWED;
TOK_TABCOLVALUE;
TOK_TABCOLVALUE_PAIR;
TOK_TABCOLVALUES;
TOK_SKEWED_LOCATIONS;
TOK_SKEWED_LOCATION_LIST;
TOK_SKEWED_LOCATION_MAP;
TOK_STOREDASDIRS;
TOK_PARTITIONINGSPEC;
TOK_PTBLFUNCTION;
TOK_WINDOWDEF;
TOK_WINDOWSPEC;
TOK_WINDOWVALUES;
TOK_WINDOWRANGE;
TOK_SUBQUERY_EXPR;
TOK_SUBQUERY_OP;
TOK_SUBQUERY_OP_NOTIN;
TOK_SUBQUERY_OP_NOTEXISTS;
TOK_DB_TYPE;
TOK_TABLE_TYPE;
TOK_CTE;
TOK_ARCHIVE;
TOK_FILE;
TOK_JAR;
TOK_RESOURCE_URI;
TOK_RESOURCE_LIST;
TOK_SHOW_COMPACTIONS;
TOK_SHOW_TRANSACTIONS;
TOK_DELETE_FROM;
TOK_UPDATE_TABLE;
TOK_SET_COLUMNS_CLAUSE;
TOK_COL_NAME;
TOK_URI_TYPE;
TOK_SERVER_TYPE;
TOK_SHOWVIEWS;
TOK_SHOWMATERIALIZEDVIEWS;
TOK_START_TRANSACTION;
TOK_ISOLATION_LEVEL;
TOK_ISOLATION_SNAPSHOT;
TOK_TXN_ACCESS_MODE;
TOK_TXN_READ_ONLY;
TOK_TXN_READ_WRITE;
TOK_COMMIT;
TOK_ROLLBACK;
TOK_SET_AUTOCOMMIT;
TOK_CACHE_METADATA;
TOK_ABORT_TRANSACTIONS;
TOK_MERGE;
TOK_MATCHED;
TOK_NOT_MATCHED;
TOK_UPDATE;
TOK_DELETE;
TOK_REPL_DUMP;
TOK_REPL_LOAD;
TOK_REPL_STATUS;
TOK_REPL_CONFIG;
TOK_REPL_CONFIG_LIST;
TOK_TO;
TOK_ONLY;
TOK_SUMMARY;
TOK_OPERATOR;
TOK_EXPRESSION;
TOK_DETAIL;
TOK_BLOCKING;
TOK_KILL_QUERY;
TOK_CREATE_RP;
TOK_SHOW_RP;
TOK_ALTER_RP;
TOK_DROP_RP;
TOK_VALIDATE;
TOK_ACTIVATE;
TOK_QUERY_PARALLELISM;
TOK_RENAME;
TOK_DEFAULT_POOL;
TOK_CREATE_TRIGGER;
TOK_ALTER_TRIGGER;
TOK_DROP_TRIGGER;
TOK_TRIGGER_EXPRESSION;
TOK_CREATE_POOL;
TOK_ALTER_POOL;
TOK_DROP_POOL;
TOK_ALLOC_FRACTION;
TOK_SCHEDULING_POLICY;
TOK_PATH;
TOK_CREATE_MAPPING;
TOK_ALTER_MAPPING;
TOK_DROP_MAPPING;
TOK_ADD_TRIGGER;
TOK_REPLACE;
TOK_LIKERP;
TOK_UNMANAGED;
TOK_INPUTFORMAT;
}
// Package headers
@header {
package org.apache.hadoop.hive.ql.parse;
import java.util.Arrays;
import java.util.Collection;
import java.util.HashMap;
import org.apache.hadoop.conf.Configuration;
import org.apache.hadoop.hive.conf.HiveConf;
}
@members {
ArrayList errors = new ArrayList();
Stack msgs = new Stack();
private static HashMap xlateMap;
static {
//this is used to support auto completion in CLI
xlateMap = new HashMap();
// Keywords
xlateMap.put("KW_TRUE", "TRUE");
xlateMap.put("KW_FALSE", "FALSE");
xlateMap.put("KW_ALL", "ALL");
xlateMap.put("KW_NONE", "NONE");
xlateMap.put("KW_AND", "AND");
xlateMap.put("KW_OR", "OR");
xlateMap.put("KW_NOT", "NOT");
xlateMap.put("KW_LIKE", "LIKE");
xlateMap.put("KW_ASC", "ASC");
xlateMap.put("KW_DESC", "DESC");
xlateMap.put("KW_NULLS", "NULLS");
xlateMap.put("KW_LAST", "LAST");
xlateMap.put("KW_ORDER", "ORDER");
xlateMap.put("KW_BY", "BY");
xlateMap.put("KW_GROUP", "GROUP");
xlateMap.put("KW_WHERE", "WHERE");
xlateMap.put("KW_FROM", "FROM");
xlateMap.put("KW_AS", "AS");
xlateMap.put("KW_SELECT", "SELECT");
xlateMap.put("KW_DISTINCT", "DISTINCT");
xlateMap.put("KW_INSERT", "INSERT");
xlateMap.put("KW_OVERWRITE", "OVERWRITE");
xlateMap.put("KW_OUTER", "OUTER");
xlateMap.put("KW_JOIN", "JOIN");
xlateMap.put("KW_LEFT", "LEFT");
xlateMap.put("KW_RIGHT", "RIGHT");
xlateMap.put("KW_FULL", "FULL");
xlateMap.put("KW_ON", "ON");
xlateMap.put("KW_PARTITION", "PARTITION");
xlateMap.put("KW_PARTITIONS", "PARTITIONS");
xlateMap.put("KW_TABLE", "TABLE");
xlateMap.put("KW_TABLES", "TABLES");
xlateMap.put("KW_TBLPROPERTIES", "TBLPROPERTIES");
xlateMap.put("KW_SHOW", "SHOW");
xlateMap.put("KW_MSCK", "MSCK");
xlateMap.put("KW_DIRECTORY", "DIRECTORY");
xlateMap.put("KW_LOCAL", "LOCAL");
xlateMap.put("KW_TRANSFORM", "TRANSFORM");
xlateMap.put("KW_USING", "USING");
xlateMap.put("KW_CLUSTER", "CLUSTER");
xlateMap.put("KW_DISTRIBUTE", "DISTRIBUTE");
xlateMap.put("KW_SORT", "SORT");
xlateMap.put("KW_SYNC", "SYNC");
xlateMap.put("KW_UNION", "UNION");
xlateMap.put("KW_INTERSECT", "INTERSECT");
xlateMap.put("KW_EXCEPT", "EXCEPT");
xlateMap.put("KW_LOAD", "LOAD");
xlateMap.put("KW_DATA", "DATA");
xlateMap.put("KW_INPATH", "INPATH");
xlateMap.put("KW_IS", "IS");
xlateMap.put("KW_NULL", "NULL");
xlateMap.put("KW_CREATE", "CREATE");
xlateMap.put("KW_EXTERNAL", "EXTERNAL");
xlateMap.put("KW_ALTER", "ALTER");
xlateMap.put("KW_DESCRIBE", "DESCRIBE");
xlateMap.put("KW_DROP", "DROP");
xlateMap.put("KW_RENAME", "RENAME");
xlateMap.put("KW_TO", "TO");
xlateMap.put("KW_COMMENT", "COMMENT");
xlateMap.put("KW_BOOLEAN", "BOOLEAN");
xlateMap.put("KW_TINYINT", "TINYINT");
xlateMap.put("KW_SMALLINT", "SMALLINT");
xlateMap.put("KW_INT", "INT");
xlateMap.put("KW_BIGINT", "BIGINT");
xlateMap.put("KW_FLOAT", "FLOAT");
xlateMap.put("KW_DOUBLE", "DOUBLE");
xlateMap.put("KW_PRECISION", "PRECISION");
xlateMap.put("KW_DATE", "DATE");
xlateMap.put("KW_DATETIME", "DATETIME");
xlateMap.put("KW_TIMESTAMP", "TIMESTAMP");
xlateMap.put("KW_TIMESTAMPLOCALTZ", "TIMESTAMPLOCALTZ");
xlateMap.put("KW_TIME", "TIME");
xlateMap.put("KW_ZONE", "ZONE");
xlateMap.put("KW_STRING", "STRING");
xlateMap.put("KW_BINARY", "BINARY");
xlateMap.put("KW_ARRAY", "ARRAY");
xlateMap.put("KW_MAP", "MAP");
xlateMap.put("KW_REDUCE", "REDUCE");
xlateMap.put("KW_PARTITIONED", "PARTITIONED");
xlateMap.put("KW_CLUSTERED", "CLUSTERED");
xlateMap.put("KW_SORTED", "SORTED");
xlateMap.put("KW_INTO", "INTO");
xlateMap.put("KW_BUCKETS", "BUCKETS");
xlateMap.put("KW_ROW", "ROW");
xlateMap.put("KW_FORMAT", "FORMAT");
xlateMap.put("KW_DELIMITED", "DELIMITED");
xlateMap.put("KW_FIELDS", "FIELDS");
xlateMap.put("KW_TERMINATED", "TERMINATED");
xlateMap.put("KW_COLLECTION", "COLLECTION");
xlateMap.put("KW_ITEMS", "ITEMS");
xlateMap.put("KW_KEYS", "KEYS");
xlateMap.put("KW_KEY_TYPE", "\$KEY\$");
xlateMap.put("KW_LINES", "LINES");
xlateMap.put("KW_STORED", "STORED");
xlateMap.put("KW_SEQUENCEFILE", "SEQUENCEFILE");
xlateMap.put("KW_TEXTFILE", "TEXTFILE");
xlateMap.put("KW_INPUTFORMAT", "INPUTFORMAT");
xlateMap.put("KW_OUTPUTFORMAT", "OUTPUTFORMAT");
xlateMap.put("KW_LOCATION", "LOCATION");
xlateMap.put("KW_TABLESAMPLE", "TABLESAMPLE");
xlateMap.put("KW_BUCKET", "BUCKET");
xlateMap.put("KW_OUT", "OUT");
xlateMap.put("KW_OF", "OF");
xlateMap.put("KW_CAST", "CAST");
xlateMap.put("KW_ADD", "ADD");
xlateMap.put("KW_REPLACE", "REPLACE");
xlateMap.put("KW_COLUMNS", "COLUMNS");
xlateMap.put("KW_RLIKE", "RLIKE");
xlateMap.put("KW_REGEXP", "REGEXP");
xlateMap.put("KW_TEMPORARY", "TEMPORARY");
xlateMap.put("KW_FUNCTION", "FUNCTION");
xlateMap.put("KW_EXPLAIN", "EXPLAIN");
xlateMap.put("KW_EXTENDED", "EXTENDED");
xlateMap.put("KW_SERDE", "SERDE");
xlateMap.put("KW_WITH", "WITH");
xlateMap.put("KW_SERDEPROPERTIES", "SERDEPROPERTIES");
xlateMap.put("KW_LIMIT", "LIMIT");
xlateMap.put("KW_OFFSET", "OFFSET");
xlateMap.put("KW_SET", "SET");
xlateMap.put("KW_PROPERTIES", "TBLPROPERTIES");
xlateMap.put("KW_VALUE_TYPE", "\$VALUE\$");
xlateMap.put("KW_ELEM_TYPE", "\$ELEM\$");
xlateMap.put("KW_DEFINED", "DEFINED");
xlateMap.put("KW_SUBQUERY", "SUBQUERY");
xlateMap.put("KW_REWRITE", "REWRITE");
xlateMap.put("KW_UPDATE", "UPDATE");
xlateMap.put("KW_VALUES", "VALUES");
xlateMap.put("KW_PURGE", "PURGE");
xlateMap.put("KW_UNIQUE", "UNIQUE");
xlateMap.put("KW_PRIMARY", "PRIMARY");
xlateMap.put("KW_FOREIGN", "FOREIGN");
xlateMap.put("KW_KEY", "KEY");
xlateMap.put("KW_REFERENCES", "REFERENCES");
xlateMap.put("KW_CONSTRAINT", "CONSTRAINT");
xlateMap.put("KW_ENABLE", "ENABLE");
xlateMap.put("KW_DISABLE", "DISABLE");
xlateMap.put("KW_VALIDATE", "VALIDATE");
xlateMap.put("KW_NOVALIDATE", "NOVALIDATE");
xlateMap.put("KW_RELY", "RELY");
xlateMap.put("KW_NORELY", "NORELY");
xlateMap.put("KW_ABORT", "ABORT");
xlateMap.put("KW_TRANSACTIONS", "TRANSACTIONS");
xlateMap.put("KW_COMPACTIONS", "COMPACTIONS");
xlateMap.put("KW_COMPACT", "COMPACT");
xlateMap.put("KW_WAIT", "WAIT");
xlateMap.put("KW_KILL", "KILL");
xlateMap.put("KW_QUERY", "QUERY");
xlateMap.put("KW_RESOURCE", "RESOURCE");
xlateMap.put("KW_PLAN", "PLAN");
xlateMap.put("KW_QUERY_PARALLELISM", "QUERY_PARALLELISM");
xlateMap.put("KW_PLANS", "PLANS");
xlateMap.put("KW_ACTIVATE", "ACTIVATE");
xlateMap.put("KW_DEFAULT", "DEFAULT");
xlateMap.put("KW_CHECK", "CHECK");
xlateMap.put("KW_POOL", "POOL");
xlateMap.put("KW_MOVE", "MOVE");
xlateMap.put("KW_DO", "DO");
xlateMap.put("KW_ALLOC_FRACTION", "ALLOC_FRACTION");
xlateMap.put("KW_SCHEDULING_POLICY", "SCHEDULING_POLICY");
xlateMap.put("KW_PATH", "PATH");
// Operators
xlateMap.put("DOT", ".");
xlateMap.put("COLON", ":");
xlateMap.put("COMMA", ",");
xlateMap.put("SEMICOLON", ");");
xlateMap.put("LPAREN", "(");
xlateMap.put("RPAREN", ")");
xlateMap.put("LSQUARE", "[");
xlateMap.put("RSQUARE", "]");
xlateMap.put("EQUAL", "=");
xlateMap.put("NOTEQUAL", "<>");
xlateMap.put("EQUAL_NS", "<=>");
xlateMap.put("LESSTHANOREQUALTO", "<=");
xlateMap.put("LESSTHAN", "<");
xlateMap.put("GREATERTHANOREQUALTO", ">=");
xlateMap.put("GREATERTHAN", ">");
xlateMap.put("DIVIDE", "/");
xlateMap.put("PLUS", "+");
xlateMap.put("MINUS", "-");
xlateMap.put("STAR", "*");
xlateMap.put("MOD", "\%");
xlateMap.put("AMPERSAND", "&");
xlateMap.put("TILDE", "~");
xlateMap.put("BITWISEOR", "|");
xlateMap.put("BITWISEXOR", "^");
xlateMap.put("CharSetLiteral", "\\'");
}
public static Collection getKeywords() {
return xlateMap.values();
}
private static String xlate(String name) {
String ret = xlateMap.get(name);
if (ret == null) {
ret = name;
}
return ret;
}
@Override
public Object recoverFromMismatchedSet(IntStream input,
RecognitionException re, BitSet follow) throws RecognitionException {
throw re;
}
@Override
public void displayRecognitionError(String[] tokenNames,
RecognitionException e) {
errors.add(new ParseError(this, e, tokenNames));
}
@Override
public String getErrorHeader(RecognitionException e) {
String header = null;
if (e.charPositionInLine < 0 && input.LT(-1) != null) {
Token t = input.LT(-1);
header = "line " + t.getLine() + ":" + t.getCharPositionInLine();
} else {
header = super.getErrorHeader(e);
}
return header;
}
@Override
public String getErrorMessage(RecognitionException e, String[] tokenNames) {
String msg = null;
// Translate the token names to something that the user can understand
String[] xlateNames = new String[tokenNames.length];
for (int i = 0; i < tokenNames.length; ++i) {
xlateNames[i] = HiveParser.xlate(tokenNames[i]);
}
if (e instanceof NoViableAltException) {
@SuppressWarnings("unused")
NoViableAltException nvae = (NoViableAltException) e;
// for development, can add
// "decision=<<"+nvae.grammarDecisionDescription+">>"
// and "(decision="+nvae.decisionNumber+") and
// "state "+nvae.stateNumber
msg = "cannot recognize input near"
+ (input.LT(1) != null ? " " + getTokenErrorDisplay(input.LT(1)) : "")
+ (input.LT(2) != null ? " " + getTokenErrorDisplay(input.LT(2)) : "")
+ (input.LT(3) != null ? " " + getTokenErrorDisplay(input.LT(3)) : "");
} else if (e instanceof MismatchedTokenException) {
MismatchedTokenException mte = (MismatchedTokenException) e;
msg = super.getErrorMessage(e, xlateNames) + (input.LT(-1) == null ? "":" near '" + input.LT(-1).getText()) + "'";
} else if (e instanceof FailedPredicateException) {
FailedPredicateException fpe = (FailedPredicateException) e;
msg = "Failed to recognize predicate '" + fpe.token.getText() + "'. Failed rule: '" + fpe.ruleName + "'";
} else {
msg = super.getErrorMessage(e, xlateNames);
}
if (msgs.size() > 0) {
msg = msg + " in " + msgs.peek();
}
return msg;
}
public void pushMsg(String msg, RecognizerSharedState state) {
// ANTLR generated code does not wrap the @init code wit this backtracking check,
// even if the matching @after has it. If we have parser rules with that are doing
// some lookahead with syntactic predicates this can cause the push() and pop() calls
// to become unbalanced, so make sure both push/pop check the backtracking state.
if (state.backtracking == 0) {
msgs.push(msg);
}
}
public void popMsg(RecognizerSharedState state) {
if (state.backtracking == 0) {
Object o = msgs.pop();
}
}
// counter to generate unique union aliases
private int aliasCounter;
private String generateUnionAlias() {
return "_u" + (++aliasCounter);
}
private char [] excludedCharForColumnName = {'.', ':'};
private boolean containExcludedCharForCreateTableColumnName(String input) {
for(char c : excludedCharForColumnName) {
if(input.indexOf(c)>-1) {
return true;
}
}
return false;
}
private CommonTree throwSetOpException() throws RecognitionException {
throw new FailedPredicateException(input, "orderByClause clusterByClause distributeByClause sortByClause limitClause can only be applied to the whole union.", "");
}
private CommonTree throwColumnNameException() throws RecognitionException {
throw new FailedPredicateException(input, Arrays.toString(excludedCharForColumnName) + " can not be used in column name in create table statement.", "");
}
private Configuration hiveConf;
public void setHiveConf(Configuration hiveConf) {
this.hiveConf = hiveConf;
}
}
@rulecatch {
catch (RecognitionException e) {
reportError(e);
throw e;
}
}
// starting rule
statement
: explainStatement EOF
| execStatement EOF
;
explainStatement
@init { pushMsg("explain statement", state); }
@after { popMsg(state); }
: KW_EXPLAIN (
explainOption* execStatement -> ^(TOK_EXPLAIN execStatement explainOption*)
|
KW_REWRITE queryStatementExpression -> ^(TOK_EXPLAIN_SQ_REWRITE queryStatementExpression)
)
;
explainOption
@init { msgs.push("explain option"); }
@after { msgs.pop(); }
: KW_EXTENDED
| KW_FORMATTED
| KW_DEPENDENCY
| KW_LOGICAL
| KW_AUTHORIZATION
| KW_ANALYZE
| KW_REOPTIMIZATION
| (KW_VECTORIZATION vectorizationOnly? vectorizatonDetail?)
;
vectorizationOnly
@init { pushMsg("vectorization's only clause", state); }
@after { popMsg(state); }
: KW_ONLY
-> ^(TOK_ONLY)
;
vectorizatonDetail
@init { pushMsg("vectorization's detail level clause", state); }
@after { popMsg(state); }
: KW_SUMMARY
-> ^(TOK_SUMMARY)
| KW_OPERATOR
-> ^(TOK_OPERATOR)
| KW_EXPRESSION
-> ^(TOK_EXPRESSION)
| KW_DETAIL
-> ^(TOK_DETAIL)
;
execStatement
@init { pushMsg("statement", state); }
@after { popMsg(state); }
: queryStatementExpression
| loadStatement
| exportStatement
| importStatement
| replDumpStatement
| replLoadStatement
| replStatusStatement
| ddlStatement
| deleteStatement
| updateStatement
| sqlTransactionStatement
| mergeStatement
;
loadStatement
@init { pushMsg("load statement", state); }
@after { popMsg(state); }
: KW_LOAD KW_DATA (islocal=KW_LOCAL)? KW_INPATH (path=StringLiteral) (isoverwrite=KW_OVERWRITE)? KW_INTO KW_TABLE (tab=tableOrPartition) inputFileFormat?
-> ^(TOK_LOAD $path $tab $islocal? $isoverwrite? inputFileFormat?)
;
replicationClause
@init { pushMsg("replication clause", state); }
@after { popMsg(state); }
: KW_FOR (isMetadataOnly=KW_METADATA)? KW_REPLICATION LPAREN (replId=StringLiteral) RPAREN
-> ^(TOK_REPLICATION $replId $isMetadataOnly?)
;
exportStatement
@init { pushMsg("export statement", state); }
@after { popMsg(state); }
: KW_EXPORT
KW_TABLE (tab=tableOrPartition)
KW_TO (path=StringLiteral)
replicationClause?
-> ^(TOK_EXPORT $tab $path replicationClause?)
;
importStatement
@init { pushMsg("import statement", state); }
@after { popMsg(state); }
: KW_IMPORT
((ext=KW_EXTERNAL)? KW_TABLE (tab=tableOrPartition))?
KW_FROM (path=StringLiteral)
tableLocation?
-> ^(TOK_IMPORT $path $tab? $ext? tableLocation?)
;
replDumpStatement
@init { pushMsg("replication dump statement", state); }
@after { popMsg(state); }
: KW_REPL KW_DUMP
(dbName=identifier) (DOT tblName=identifier)?
(KW_FROM (eventId=Number)
(KW_TO (rangeEnd=Number))?
(KW_LIMIT (batchSize=Number))?
)?
(KW_WITH replConf=replConfigs)?
-> ^(TOK_REPL_DUMP $dbName ^(TOK_TABNAME $tblName)? ^(TOK_FROM $eventId (TOK_TO $rangeEnd)? (TOK_LIMIT $batchSize)?)? $replConf?)
;
replLoadStatement
@init { pushMsg("replication load statement", state); }
@after { popMsg(state); }
: KW_REPL KW_LOAD
((dbName=identifier) (DOT tblName=identifier)?)?
KW_FROM (path=StringLiteral)
(KW_WITH replConf=replConfigs)?
-> ^(TOK_REPL_LOAD $path ^(TOK_DBNAME $dbName)? ^(TOK_TABNAME $tblName)? $replConf?)
;
replConfigs
@init { pushMsg("repl configurations", state); }
@after { popMsg(state); }
:
LPAREN replConfigsList RPAREN -> ^(TOK_REPL_CONFIG replConfigsList)
;
replConfigsList
@init { pushMsg("repl configurations list", state); }
@after { popMsg(state); }
:
keyValueProperty (COMMA keyValueProperty)* -> ^(TOK_REPL_CONFIG_LIST keyValueProperty+)
;
replStatusStatement
@init { pushMsg("replication status statement", state); }
@after { popMsg(state); }
: KW_REPL KW_STATUS
(dbName=identifier) (DOT tblName=identifier)?
(KW_WITH replConf=replConfigs)?
-> ^(TOK_REPL_STATUS $dbName ^(TOK_TABNAME $tblName)? $replConf?)
;
ddlStatement
@init { pushMsg("ddl statement", state); }
@after { popMsg(state); }
: createDatabaseStatement
| switchDatabaseStatement
| dropDatabaseStatement
| createTableStatement
| dropTableStatement
| truncateTableStatement
| alterStatement
| descStatement
| showStatement
| metastoreCheck
| createViewStatement
| createMaterializedViewStatement
| dropViewStatement
| dropMaterializedViewStatement
| createFunctionStatement
| createMacroStatement
| dropFunctionStatement
| reloadFunctionStatement
| dropMacroStatement
| analyzeStatement
| lockStatement
| unlockStatement
| lockDatabase
| unlockDatabase
| createRoleStatement
| dropRoleStatement
| (grantPrivileges) => grantPrivileges
| (revokePrivileges) => revokePrivileges
| showGrants
| showRoleGrants
| showRolePrincipals
| showRoles
| grantRole
| revokeRole
| setRole
| showCurrentRole
| abortTransactionStatement
| killQueryStatement
| resourcePlanDdlStatements
;
ifExists
@init { pushMsg("if exists clause", state); }
@after { popMsg(state); }
: KW_IF KW_EXISTS
-> ^(TOK_IFEXISTS)
;
restrictOrCascade
@init { pushMsg("restrict or cascade clause", state); }
@after { popMsg(state); }
: KW_RESTRICT
-> ^(TOK_RESTRICT)
| KW_CASCADE
-> ^(TOK_CASCADE)
;
ifNotExists
@init { pushMsg("if not exists clause", state); }
@after { popMsg(state); }
: KW_IF KW_NOT KW_EXISTS
-> ^(TOK_IFNOTEXISTS)
;
rewriteEnabled
@init { pushMsg("rewrite enabled clause", state); }
@after { popMsg(state); }
: KW_ENABLE KW_REWRITE
-> ^(TOK_REWRITE_ENABLED)
;
rewriteDisabled
@init { pushMsg("rewrite disabled clause", state); }
@after { popMsg(state); }
: KW_DISABLE KW_REWRITE
-> ^(TOK_REWRITE_DISABLED)
;
storedAsDirs
@init { pushMsg("stored as directories", state); }
@after { popMsg(state); }
: KW_STORED KW_AS KW_DIRECTORIES
-> ^(TOK_STOREDASDIRS)
;
orReplace
@init { pushMsg("or replace clause", state); }
@after { popMsg(state); }
: KW_OR KW_REPLACE
-> ^(TOK_ORREPLACE)
;
createDatabaseStatement
@init { pushMsg("create database statement", state); }
@after { popMsg(state); }
: KW_CREATE (KW_DATABASE|KW_SCHEMA)
ifNotExists?
name=identifier
databaseComment?
dbLocation?
(KW_WITH KW_DBPROPERTIES dbprops=dbProperties)?
-> ^(TOK_CREATEDATABASE $name ifNotExists? dbLocation? databaseComment? $dbprops?)
;
dbLocation
@init { pushMsg("database location specification", state); }
@after { popMsg(state); }
:
KW_LOCATION locn=StringLiteral -> ^(TOK_DATABASELOCATION $locn)
;
dbProperties
@init { pushMsg("dbproperties", state); }
@after { popMsg(state); }
:
LPAREN dbPropertiesList RPAREN -> ^(TOK_DATABASEPROPERTIES dbPropertiesList)
;
dbPropertiesList
@init { pushMsg("database properties list", state); }
@after { popMsg(state); }
:
keyValueProperty (COMMA keyValueProperty)* -> ^(TOK_DBPROPLIST keyValueProperty+)
;
switchDatabaseStatement
@init { pushMsg("switch database statement", state); }
@after { popMsg(state); }
: KW_USE identifier
-> ^(TOK_SWITCHDATABASE identifier)
;
dropDatabaseStatement
@init { pushMsg("drop database statement", state); }
@after { popMsg(state); }
: KW_DROP (KW_DATABASE|KW_SCHEMA) ifExists? identifier restrictOrCascade?
-> ^(TOK_DROPDATABASE identifier ifExists? restrictOrCascade?)
;
databaseComment
@init { pushMsg("database's comment", state); }
@after { popMsg(state); }
: KW_COMMENT comment=StringLiteral
-> ^(TOK_DATABASECOMMENT $comment)
;
createTableStatement
@init { pushMsg("create table statement", state); }
@after { popMsg(state); }
: KW_CREATE (temp=KW_TEMPORARY)? (ext=KW_EXTERNAL)? KW_TABLE ifNotExists? name=tableName
( like=KW_LIKE likeName=tableName
tableRowFormat?
tableFileFormat?
tableLocation?
tablePropertiesPrefixed?
| (LPAREN columnNameTypeOrConstraintList RPAREN)?
tableComment?
tablePartition?
tableBuckets?
tableSkewed?
tableRowFormat?
tableFileFormat?
tableLocation?
tablePropertiesPrefixed?
(KW_AS selectStatementWithCTE)?
)
-> ^(TOK_CREATETABLE $name $temp? $ext? ifNotExists?
^(TOK_LIKETABLE $likeName?)
columnNameTypeOrConstraintList?
tableComment?
tablePartition?
tableBuckets?
tableSkewed?
tableRowFormat?
tableFileFormat?
tableLocation?
tablePropertiesPrefixed?
selectStatementWithCTE?
)
;
truncateTableStatement
@init { pushMsg("truncate table statement", state); }
@after { popMsg(state); }
: KW_TRUNCATE KW_TABLE tablePartitionPrefix (KW_COLUMNS LPAREN columnNameList RPAREN)? -> ^(TOK_TRUNCATETABLE tablePartitionPrefix columnNameList?);
dropTableStatement
@init { pushMsg("drop statement", state); }
@after { popMsg(state); }
: KW_DROP KW_TABLE ifExists? tableName KW_PURGE? replicationClause?
-> ^(TOK_DROPTABLE tableName ifExists? KW_PURGE? replicationClause?)
;
alterStatement
@init { pushMsg("alter statement", state); }
@after { popMsg(state); }
: KW_ALTER KW_TABLE tableName alterTableStatementSuffix -> ^(TOK_ALTERTABLE tableName alterTableStatementSuffix)
| KW_ALTER KW_VIEW tableName KW_AS? alterViewStatementSuffix -> ^(TOK_ALTERVIEW tableName alterViewStatementSuffix)
| KW_ALTER KW_MATERIALIZED KW_VIEW tableName alterMaterializedViewStatementSuffix
-> ^(TOK_ALTER_MATERIALIZED_VIEW tableName alterMaterializedViewStatementSuffix)
| KW_ALTER (KW_DATABASE|KW_SCHEMA) alterDatabaseStatementSuffix -> alterDatabaseStatementSuffix
;
alterTableStatementSuffix
@init { pushMsg("alter table statement", state); }
@after { popMsg(state); }
: (alterStatementSuffixRename[true]) => alterStatementSuffixRename[true]
| alterStatementSuffixDropPartitions[true]
| alterStatementSuffixAddPartitions[true]
| alterStatementSuffixTouch
| alterStatementSuffixArchive
| alterStatementSuffixUnArchive
| alterStatementSuffixProperties
| alterStatementSuffixSkewedby
| alterStatementSuffixExchangePartition
| alterStatementPartitionKeyType
| alterStatementSuffixDropConstraint
| alterStatementSuffixAddConstraint
| partitionSpec? alterTblPartitionStatementSuffix -> alterTblPartitionStatementSuffix partitionSpec?
| alterStatementSuffixSetOwner
;
alterTblPartitionStatementSuffix
@init {pushMsg("alter table partition statement suffix", state);}
@after {popMsg(state);}
: alterStatementSuffixFileFormat
| alterStatementSuffixLocation
| alterStatementSuffixMergeFiles
| alterStatementSuffixSerdeProperties
| alterStatementSuffixRenamePart
| alterStatementSuffixBucketNum
| alterTblPartitionStatementSuffixSkewedLocation
| alterStatementSuffixClusterbySortby
| alterStatementSuffixCompact
| alterStatementSuffixUpdateStatsCol
| alterStatementSuffixUpdateStats
| alterStatementSuffixRenameCol
| alterStatementSuffixAddCol
| alterStatementSuffixUpdateColumns
;
alterStatementPartitionKeyType
@init {msgs.push("alter partition key type"); }
@after {msgs.pop();}
: KW_PARTITION KW_COLUMN LPAREN columnNameType RPAREN
-> ^(TOK_ALTERTABLE_PARTCOLTYPE columnNameType)
;
alterViewStatementSuffix
@init { pushMsg("alter view statement", state); }
@after { popMsg(state); }
: alterViewSuffixProperties
| alterStatementSuffixRename[false]
| alterStatementSuffixAddPartitions[false]
| alterStatementSuffixDropPartitions[false]
| selectStatementWithCTE
;
alterMaterializedViewStatementSuffix
@init { pushMsg("alter materialized view statement", state); }
@after { popMsg(state); }
: alterMaterializedViewSuffixRewrite
| alterMaterializedViewSuffixRebuild
;
alterDatabaseStatementSuffix
@init { pushMsg("alter database statement", state); }
@after { popMsg(state); }
: alterDatabaseSuffixProperties
| alterDatabaseSuffixSetOwner
| alterDatabaseSuffixSetLocation
;
alterDatabaseSuffixProperties
@init { pushMsg("alter database properties statement", state); }
@after { popMsg(state); }
: name=identifier KW_SET KW_DBPROPERTIES dbProperties
-> ^(TOK_ALTERDATABASE_PROPERTIES $name dbProperties)
;
alterDatabaseSuffixSetOwner
@init { pushMsg("alter database set owner", state); }
@after { popMsg(state); }
: dbName=identifier KW_SET KW_OWNER principalName
-> ^(TOK_ALTERDATABASE_OWNER $dbName principalName)
;
alterDatabaseSuffixSetLocation
@init { pushMsg("alter database set location", state); }
@after { popMsg(state); }
: dbName=identifier KW_SET KW_LOCATION newLocation=StringLiteral
-> ^(TOK_ALTERDATABASE_LOCATION $dbName $newLocation)
;
alterStatementSuffixRename[boolean table]
@init { pushMsg("rename statement", state); }
@after { popMsg(state); }
: KW_RENAME KW_TO tableName
-> { table }? ^(TOK_ALTERTABLE_RENAME tableName)
-> ^(TOK_ALTERVIEW_RENAME tableName)
;
alterStatementSuffixAddCol
@init { pushMsg("add column statement", state); }
@after { popMsg(state); }
: (add=KW_ADD | replace=KW_REPLACE) KW_COLUMNS LPAREN columnNameTypeList RPAREN restrictOrCascade?
-> {$add != null}? ^(TOK_ALTERTABLE_ADDCOLS columnNameTypeList restrictOrCascade?)
-> ^(TOK_ALTERTABLE_REPLACECOLS columnNameTypeList restrictOrCascade?)
;
alterStatementSuffixAddConstraint
@init { pushMsg("add constraint statement", state); }
@after { popMsg(state); }
: KW_ADD (fk=alterForeignKeyWithName | alterConstraintWithName)
-> {fk != null}? ^(TOK_ALTERTABLE_ADDCONSTRAINT alterForeignKeyWithName)
-> ^(TOK_ALTERTABLE_ADDCONSTRAINT alterConstraintWithName)
;
alterStatementSuffixUpdateColumns
@init { pushMsg("update columns statement", state); }
@after { popMsg(state); }
: KW_UPDATE KW_COLUMNS restrictOrCascade?
-> ^(TOK_ALTERTABLE_UPDATECOLUMNS restrictOrCascade?)
;
alterStatementSuffixDropConstraint
@init { pushMsg("drop constraint statement", state); }
@after { popMsg(state); }
: KW_DROP KW_CONSTRAINT cName=identifier
->^(TOK_ALTERTABLE_DROPCONSTRAINT $cName)
;
alterStatementSuffixRenameCol
@init { pushMsg("rename column name", state); }
@after { popMsg(state); }
: KW_CHANGE KW_COLUMN? oldName=identifier newName=identifier colType alterColumnConstraint[$newName.tree]? (KW_COMMENT comment=StringLiteral)? alterStatementChangeColPosition? restrictOrCascade?
->^(TOK_ALTERTABLE_RENAMECOL $oldName $newName colType $comment? alterColumnConstraint? alterStatementChangeColPosition? restrictOrCascade?)
;
alterStatementSuffixUpdateStatsCol
@init { pushMsg("update column statistics", state); }
@after { popMsg(state); }
: KW_UPDATE KW_STATISTICS KW_FOR KW_COLUMN? colName=identifier KW_SET tableProperties (KW_COMMENT comment=StringLiteral)?
->^(TOK_ALTERTABLE_UPDATECOLSTATS $colName tableProperties $comment?)
;
alterStatementSuffixUpdateStats
@init { pushMsg("update basic statistics", state); }
@after { popMsg(state); }
: KW_UPDATE KW_STATISTICS KW_SET tableProperties
->^(TOK_ALTERTABLE_UPDATESTATS tableProperties)
;
alterStatementChangeColPosition
: first=KW_FIRST|KW_AFTER afterCol=identifier
->{$first != null}? ^(TOK_ALTERTABLE_CHANGECOL_AFTER_POSITION )
-> ^(TOK_ALTERTABLE_CHANGECOL_AFTER_POSITION $afterCol)
;
alterStatementSuffixAddPartitions[boolean table]
@init { pushMsg("add partition statement", state); }
@after { popMsg(state); }
: KW_ADD ifNotExists? alterStatementSuffixAddPartitionsElement+
-> { table }? ^(TOK_ALTERTABLE_ADDPARTS ifNotExists? alterStatementSuffixAddPartitionsElement+)
-> ^(TOK_ALTERVIEW_ADDPARTS ifNotExists? alterStatementSuffixAddPartitionsElement+)
;
alterStatementSuffixAddPartitionsElement
: partitionSpec partitionLocation?
;
alterStatementSuffixTouch
@init { pushMsg("touch statement", state); }
@after { popMsg(state); }
: KW_TOUCH (partitionSpec)*
-> ^(TOK_ALTERTABLE_TOUCH (partitionSpec)*)
;
alterStatementSuffixArchive
@init { pushMsg("archive statement", state); }
@after { popMsg(state); }
: KW_ARCHIVE (partitionSpec)*
-> ^(TOK_ALTERTABLE_ARCHIVE (partitionSpec)*)
;
alterStatementSuffixUnArchive
@init { pushMsg("unarchive statement", state); }
@after { popMsg(state); }
: KW_UNARCHIVE (partitionSpec)*
-> ^(TOK_ALTERTABLE_UNARCHIVE (partitionSpec)*)
;
partitionLocation
@init { pushMsg("partition location", state); }
@after { popMsg(state); }
:
KW_LOCATION locn=StringLiteral -> ^(TOK_PARTITIONLOCATION $locn)
;
alterStatementSuffixDropPartitions[boolean table]
@init { pushMsg("drop partition statement", state); }
@after { popMsg(state); }
: KW_DROP ifExists? dropPartitionSpec (COMMA dropPartitionSpec)* KW_PURGE? replicationClause?
-> { table }? ^(TOK_ALTERTABLE_DROPPARTS dropPartitionSpec+ ifExists? KW_PURGE? replicationClause?)
-> ^(TOK_ALTERVIEW_DROPPARTS dropPartitionSpec+ ifExists? replicationClause?)
;
alterStatementSuffixProperties
@init { pushMsg("alter properties statement", state); }
@after { popMsg(state); }
: KW_SET KW_TBLPROPERTIES tableProperties
-> ^(TOK_ALTERTABLE_PROPERTIES tableProperties)
| KW_UNSET KW_TBLPROPERTIES ifExists? tableProperties
-> ^(TOK_ALTERTABLE_DROPPROPERTIES tableProperties ifExists?)
;
alterViewSuffixProperties
@init { pushMsg("alter view properties statement", state); }
@after { popMsg(state); }
: KW_SET KW_TBLPROPERTIES tableProperties
-> ^(TOK_ALTERVIEW_PROPERTIES tableProperties)
| KW_UNSET KW_TBLPROPERTIES ifExists? tableProperties
-> ^(TOK_ALTERVIEW_DROPPROPERTIES tableProperties ifExists?)
;
alterMaterializedViewSuffixRewrite
@init { pushMsg("alter materialized view rewrite statement", state); }
@after { popMsg(state); }
: (mvRewriteFlag=rewriteEnabled | mvRewriteFlag=rewriteDisabled)
-> ^(TOK_ALTER_MATERIALIZED_VIEW_REWRITE $mvRewriteFlag)
;
alterMaterializedViewSuffixRebuild
@init { pushMsg("alter materialized view rebuild statement", state); }
@after { popMsg(state); }
: KW_REBUILD -> ^(TOK_ALTER_MATERIALIZED_VIEW_REBUILD)
;
alterStatementSuffixSerdeProperties
@init { pushMsg("alter serdes statement", state); }
@after { popMsg(state); }
: KW_SET KW_SERDE serdeName=StringLiteral (KW_WITH KW_SERDEPROPERTIES tableProperties)?
-> ^(TOK_ALTERTABLE_SERIALIZER $serdeName tableProperties?)
| KW_SET KW_SERDEPROPERTIES tableProperties
-> ^(TOK_ALTERTABLE_SERDEPROPERTIES tableProperties)
;
tablePartitionPrefix
@init {pushMsg("table partition prefix", state);}
@after {popMsg(state);}
: tableName partitionSpec?
->^(TOK_TABLE_PARTITION tableName partitionSpec?)
;
alterStatementSuffixFileFormat
@init {pushMsg("alter fileformat statement", state); }
@after {popMsg(state);}
: KW_SET KW_FILEFORMAT fileFormat
-> ^(TOK_ALTERTABLE_FILEFORMAT fileFormat)
;
alterStatementSuffixClusterbySortby
@init {pushMsg("alter partition cluster by sort by statement", state);}
@after {popMsg(state);}
: KW_NOT KW_CLUSTERED -> ^(TOK_ALTERTABLE_CLUSTER_SORT TOK_NOT_CLUSTERED)
| KW_NOT KW_SORTED -> ^(TOK_ALTERTABLE_CLUSTER_SORT TOK_NOT_SORTED)
| tableBuckets -> ^(TOK_ALTERTABLE_CLUSTER_SORT tableBuckets)
;
alterTblPartitionStatementSuffixSkewedLocation
@init {pushMsg("alter partition skewed location", state);}
@after {popMsg(state);}
: KW_SET KW_SKEWED KW_LOCATION skewedLocations
-> ^(TOK_ALTERTABLE_SKEWED_LOCATION skewedLocations)
;
skewedLocations
@init { pushMsg("skewed locations", state); }
@after { popMsg(state); }
:
LPAREN skewedLocationsList RPAREN -> ^(TOK_SKEWED_LOCATIONS skewedLocationsList)
;
skewedLocationsList
@init { pushMsg("skewed locations list", state); }
@after { popMsg(state); }
:
skewedLocationMap (COMMA skewedLocationMap)* -> ^(TOK_SKEWED_LOCATION_LIST skewedLocationMap+)
;
skewedLocationMap
@init { pushMsg("specifying skewed location map", state); }
@after { popMsg(state); }
:
key=skewedValueLocationElement EQUAL value=StringLiteral -> ^(TOK_SKEWED_LOCATION_MAP $key $value)
;
alterStatementSuffixLocation
@init {pushMsg("alter location", state);}
@after {popMsg(state);}
: KW_SET KW_LOCATION newLoc=StringLiteral
-> ^(TOK_ALTERTABLE_LOCATION $newLoc)
;
alterStatementSuffixSkewedby
@init {pushMsg("alter skewed by statement", state);}
@after{popMsg(state);}
: tableSkewed
->^(TOK_ALTERTABLE_SKEWED tableSkewed)
|
KW_NOT KW_SKEWED
->^(TOK_ALTERTABLE_SKEWED)
|
KW_NOT storedAsDirs
->^(TOK_ALTERTABLE_SKEWED storedAsDirs)
;
alterStatementSuffixExchangePartition
@init {pushMsg("alter exchange partition", state);}
@after{popMsg(state);}
: KW_EXCHANGE partitionSpec KW_WITH KW_TABLE exchangename=tableName
-> ^(TOK_ALTERTABLE_EXCHANGEPARTITION partitionSpec $exchangename)
;
alterStatementSuffixRenamePart
@init { pushMsg("alter table rename partition statement", state); }
@after { popMsg(state); }
: KW_RENAME KW_TO partitionSpec
->^(TOK_ALTERTABLE_RENAMEPART partitionSpec)
;
alterStatementSuffixStatsPart
@init { pushMsg("alter table stats partition statement", state); }
@after { popMsg(state); }
: KW_UPDATE KW_STATISTICS KW_FOR KW_COLUMN? colName=identifier KW_SET tableProperties (KW_COMMENT comment=StringLiteral)?
->^(TOK_ALTERTABLE_UPDATECOLSTATS $colName tableProperties $comment?)
;
alterStatementSuffixMergeFiles
@init { pushMsg("", state); }
@after { popMsg(state); }
: KW_CONCATENATE
-> ^(TOK_ALTERTABLE_MERGEFILES)
;
alterStatementSuffixBucketNum
@init { pushMsg("", state); }
@after { popMsg(state); }
: KW_INTO num=Number KW_BUCKETS
-> ^(TOK_ALTERTABLE_BUCKETS $num)
;
blocking
: KW_AND KW_WAIT
-> TOK_BLOCKING
;
alterStatementSuffixCompact
@init { msgs.push("compaction request"); }
@after { msgs.pop(); }
: KW_COMPACT compactType=StringLiteral blocking? (KW_WITH KW_OVERWRITE KW_TBLPROPERTIES tableProperties)?
-> ^(TOK_ALTERTABLE_COMPACT $compactType blocking? tableProperties?)
;
alterStatementSuffixSetOwner
@init { pushMsg("alter table set owner", state); }
@after { popMsg(state); }
: KW_SET KW_OWNER principalName
-> ^(TOK_ALTERTABLE_OWNER principalName)
;
fileFormat
@init { pushMsg("file format specification", state); }
@after { popMsg(state); }
: KW_INPUTFORMAT inFmt=StringLiteral KW_OUTPUTFORMAT outFmt=StringLiteral KW_SERDE serdeCls=StringLiteral (KW_INPUTDRIVER inDriver=StringLiteral KW_OUTPUTDRIVER outDriver=StringLiteral)?
-> ^(TOK_TABLEFILEFORMAT $inFmt $outFmt $serdeCls $inDriver? $outDriver?)
| genericSpec=identifier -> ^(TOK_FILEFORMAT_GENERIC $genericSpec)
;
inputFileFormat
@init { pushMsg("Load Data input file format specification", state); }
@after { popMsg(state); }
: KW_INPUTFORMAT inFmt=StringLiteral KW_SERDE serdeCls=StringLiteral
-> ^(TOK_INPUTFORMAT $inFmt $serdeCls)
;
tabTypeExpr
@init { pushMsg("specifying table types", state); }
@after { popMsg(state); }
: identifier (DOT^ identifier)?
(identifier (DOT^
(
(KW_ELEM_TYPE) => KW_ELEM_TYPE
|
(KW_KEY_TYPE) => KW_KEY_TYPE
|
(KW_VALUE_TYPE) => KW_VALUE_TYPE
| identifier
))*
)?
;
partTypeExpr
@init { pushMsg("specifying table partitions", state); }
@after { popMsg(state); }
: tabTypeExpr partitionSpec? -> ^(TOK_TABTYPE tabTypeExpr partitionSpec?)
;
tabPartColTypeExpr
@init { pushMsg("specifying table partitions columnName", state); }
@after { popMsg(state); }
: tableName partitionSpec? extColumnName? -> ^(TOK_TABTYPE tableName partitionSpec? extColumnName?)
;
descStatement
@init { pushMsg("describe statement", state); }
@after { popMsg(state); }
:
(KW_DESCRIBE|KW_DESC)
(
(KW_DATABASE|KW_SCHEMA) => (KW_DATABASE|KW_SCHEMA) KW_EXTENDED? (dbName=identifier) -> ^(TOK_DESCDATABASE $dbName KW_EXTENDED?)
|
(KW_FUNCTION) => KW_FUNCTION KW_EXTENDED? (name=descFuncNames) -> ^(TOK_DESCFUNCTION $name KW_EXTENDED?)
|
(KW_FORMATTED|KW_EXTENDED) => ((descOptions=KW_FORMATTED|descOptions=KW_EXTENDED) parttype=tabPartColTypeExpr) -> ^(TOK_DESCTABLE $parttype $descOptions)
|
parttype=tabPartColTypeExpr -> ^(TOK_DESCTABLE $parttype)
)
;
analyzeStatement
@init { pushMsg("analyze statement", state); }
@after { popMsg(state); }
: KW_ANALYZE KW_TABLE (parttype=tableOrPartition)
(
(KW_COMPUTE) => KW_COMPUTE KW_STATISTICS ((noscan=KW_NOSCAN)
| (KW_FOR KW_COLUMNS (statsColumnName=columnNameList)?))?
-> ^(TOK_ANALYZE $parttype $noscan? KW_COLUMNS? $statsColumnName?)
|
(KW_CACHE) => KW_CACHE KW_METADATA -> ^(TOK_CACHE_METADATA $parttype)
)
;
showStatement
@init { pushMsg("show statement", state); }
@after { popMsg(state); }
: KW_SHOW (KW_DATABASES|KW_SCHEMAS) (KW_LIKE showStmtIdentifier)? -> ^(TOK_SHOWDATABASES showStmtIdentifier?)
| KW_SHOW KW_TABLES ((KW_FROM|KW_IN) db_name=identifier)? (KW_LIKE showStmtIdentifier|showStmtIdentifier)? -> ^(TOK_SHOWTABLES (TOK_FROM $db_name)? showStmtIdentifier?)
| KW_SHOW KW_VIEWS ((KW_FROM|KW_IN) db_name=identifier)? (KW_LIKE showStmtIdentifier|showStmtIdentifier)? -> ^(TOK_SHOWVIEWS (TOK_FROM $db_name)? showStmtIdentifier?)
| KW_SHOW KW_MATERIALIZED KW_VIEWS ((KW_FROM|KW_IN) db_name=identifier)? (KW_LIKE showStmtIdentifier|showStmtIdentifier)? -> ^(TOK_SHOWMATERIALIZEDVIEWS (TOK_FROM $db_name)? showStmtIdentifier?)
| KW_SHOW KW_COLUMNS (KW_FROM|KW_IN) tableName ((KW_FROM|KW_IN) db_name=identifier)? (KW_LIKE showStmtIdentifier|showStmtIdentifier)?
-> ^(TOK_SHOWCOLUMNS tableName (TOK_FROM $db_name)? showStmtIdentifier?)
| KW_SHOW KW_FUNCTIONS (KW_LIKE showFunctionIdentifier|showFunctionIdentifier)? -> ^(TOK_SHOWFUNCTIONS KW_LIKE? showFunctionIdentifier?)
| KW_SHOW KW_PARTITIONS tabName=tableName partitionSpec? -> ^(TOK_SHOWPARTITIONS $tabName partitionSpec?)
| KW_SHOW KW_CREATE (
(KW_DATABASE|KW_SCHEMA) => (KW_DATABASE|KW_SCHEMA) db_name=identifier -> ^(TOK_SHOW_CREATEDATABASE $db_name)
|
KW_TABLE tabName=tableName -> ^(TOK_SHOW_CREATETABLE $tabName)
)
| KW_SHOW KW_TABLE KW_EXTENDED ((KW_FROM|KW_IN) db_name=identifier)? KW_LIKE showStmtIdentifier partitionSpec?
-> ^(TOK_SHOW_TABLESTATUS showStmtIdentifier $db_name? partitionSpec?)
| KW_SHOW KW_TBLPROPERTIES tableName (LPAREN prptyName=StringLiteral RPAREN)? -> ^(TOK_SHOW_TBLPROPERTIES tableName $prptyName?)
| KW_SHOW KW_LOCKS
(
(KW_DATABASE|KW_SCHEMA) => (KW_DATABASE|KW_SCHEMA) (dbName=identifier) (isExtended=KW_EXTENDED)? -> ^(TOK_SHOWDBLOCKS $dbName $isExtended?)
|
(parttype=partTypeExpr)? (isExtended=KW_EXTENDED)? -> ^(TOK_SHOWLOCKS $parttype? $isExtended?)
)
| KW_SHOW KW_COMPACTIONS -> ^(TOK_SHOW_COMPACTIONS)
| KW_SHOW KW_TRANSACTIONS -> ^(TOK_SHOW_TRANSACTIONS)
| KW_SHOW KW_CONF StringLiteral -> ^(TOK_SHOWCONF StringLiteral)
| KW_SHOW KW_RESOURCE
(
(KW_PLAN rp_name=identifier -> ^(TOK_SHOW_RP $rp_name))
| (KW_PLANS -> ^(TOK_SHOW_RP))
)
;
lockStatement
@init { pushMsg("lock statement", state); }
@after { popMsg(state); }
: KW_LOCK KW_TABLE tableName partitionSpec? lockMode -> ^(TOK_LOCKTABLE tableName lockMode partitionSpec?)
;
lockDatabase
@init { pushMsg("lock database statement", state); }
@after { popMsg(state); }
: KW_LOCK (KW_DATABASE|KW_SCHEMA) (dbName=identifier) lockMode -> ^(TOK_LOCKDB $dbName lockMode)
;
lockMode
@init { pushMsg("lock mode", state); }
@after { popMsg(state); }
: KW_SHARED | KW_EXCLUSIVE
;
unlockStatement
@init { pushMsg("unlock statement", state); }
@after { popMsg(state); }
: KW_UNLOCK KW_TABLE tableName partitionSpec? -> ^(TOK_UNLOCKTABLE tableName partitionSpec?)
;
unlockDatabase
@init { pushMsg("unlock database statement", state); }
@after { popMsg(state); }
: KW_UNLOCK (KW_DATABASE|KW_SCHEMA) (dbName=identifier) -> ^(TOK_UNLOCKDB $dbName)
;
createRoleStatement
@init { pushMsg("create role", state); }
@after { popMsg(state); }
: KW_CREATE KW_ROLE roleName=identifier
-> ^(TOK_CREATEROLE $roleName)
;
dropRoleStatement
@init {pushMsg("drop role", state);}
@after {popMsg(state);}
: KW_DROP KW_ROLE roleName=identifier
-> ^(TOK_DROPROLE $roleName)
;
grantPrivileges
@init {pushMsg("grant privileges", state);}
@after {popMsg(state);}
: KW_GRANT privList=privilegeList
privilegeObject?
KW_TO principalSpecification
withGrantOption?
-> ^(TOK_GRANT $privList principalSpecification privilegeObject? withGrantOption?)
;
revokePrivileges
@init {pushMsg("revoke privileges", state);}
@afer {popMsg(state);}
: KW_REVOKE grantOptionFor? privilegeList privilegeObject? KW_FROM principalSpecification
-> ^(TOK_REVOKE privilegeList principalSpecification privilegeObject? grantOptionFor?)
;
grantRole
@init {pushMsg("grant role", state);}
@after {popMsg(state);}
: KW_GRANT KW_ROLE? identifier (COMMA identifier)* KW_TO principalSpecification withAdminOption?
-> ^(TOK_GRANT_ROLE principalSpecification withAdminOption? identifier+)
;
revokeRole
@init {pushMsg("revoke role", state);}
@after {popMsg(state);}
: KW_REVOKE adminOptionFor? KW_ROLE? identifier (COMMA identifier)* KW_FROM principalSpecification
-> ^(TOK_REVOKE_ROLE principalSpecification adminOptionFor? identifier+)
;
showRoleGrants
@init {pushMsg("show role grants", state);}
@after {popMsg(state);}
: KW_SHOW KW_ROLE KW_GRANT principalName
-> ^(TOK_SHOW_ROLE_GRANT principalName)
;
showRoles
@init {pushMsg("show roles", state);}
@after {popMsg(state);}
: KW_SHOW KW_ROLES
-> ^(TOK_SHOW_ROLES)
;
showCurrentRole
@init {pushMsg("show current role", state);}
@after {popMsg(state);}
: KW_SHOW KW_CURRENT KW_ROLES
-> ^(TOK_SHOW_SET_ROLE)
;
setRole
@init {pushMsg("set role", state);}
@after {popMsg(state);}
: KW_SET KW_ROLE
(
(KW_ALL) => (all=KW_ALL) -> ^(TOK_SHOW_SET_ROLE Identifier[$all.text])
|
(KW_NONE) => (none=KW_NONE) -> ^(TOK_SHOW_SET_ROLE Identifier[$none.text])
|
identifier -> ^(TOK_SHOW_SET_ROLE identifier)
)
;
showGrants
@init {pushMsg("show grants", state);}
@after {popMsg(state);}
: KW_SHOW KW_GRANT principalName? (KW_ON privilegeIncludeColObject)?
-> ^(TOK_SHOW_GRANT principalName? privilegeIncludeColObject?)
;
showRolePrincipals
@init {pushMsg("show role principals", state);}
@after {popMsg(state);}
: KW_SHOW KW_PRINCIPALS roleName=identifier
-> ^(TOK_SHOW_ROLE_PRINCIPALS $roleName)
;
privilegeIncludeColObject
@init {pushMsg("privilege object including columns", state);}
@after {popMsg(state);}
: (KW_ALL) => KW_ALL -> ^(TOK_RESOURCE_ALL)
| privObjectCols -> ^(TOK_PRIV_OBJECT_COL privObjectCols)
;
privilegeObject
@init {pushMsg("privilege object", state);}
@after {popMsg(state);}
: KW_ON privObject -> ^(TOK_PRIV_OBJECT privObject)
;
// database or table type. Type is optional, default type is table
privObject
: (KW_DATABASE|KW_SCHEMA) identifier -> ^(TOK_DB_TYPE identifier)
| KW_TABLE? tableName partitionSpec? -> ^(TOK_TABLE_TYPE tableName partitionSpec?)
| KW_URI (path=StringLiteral) -> ^(TOK_URI_TYPE $path)
| KW_SERVER identifier -> ^(TOK_SERVER_TYPE identifier)
;
privObjectCols
: (KW_DATABASE|KW_SCHEMA) identifier -> ^(TOK_DB_TYPE identifier)
| KW_TABLE? tableName (LPAREN cols=columnNameList RPAREN)? partitionSpec? -> ^(TOK_TABLE_TYPE tableName $cols? partitionSpec?)
| KW_URI (path=StringLiteral) -> ^(TOK_URI_TYPE $path)
| KW_SERVER identifier -> ^(TOK_SERVER_TYPE identifier)
;
privilegeList
@init {pushMsg("grant privilege list", state);}
@after {popMsg(state);}
: privlegeDef (COMMA privlegeDef)*
-> ^(TOK_PRIVILEGE_LIST privlegeDef+)
;
privlegeDef
@init {pushMsg("grant privilege", state);}
@after {popMsg(state);}
: privilegeType (LPAREN cols=columnNameList RPAREN)?
-> ^(TOK_PRIVILEGE privilegeType $cols?)
;
privilegeType
@init {pushMsg("privilege type", state);}
@after {popMsg(state);}
: KW_ALL -> ^(TOK_PRIV_ALL)
| KW_ALTER -> ^(TOK_PRIV_ALTER_METADATA)
| KW_UPDATE -> ^(TOK_PRIV_ALTER_DATA)
| KW_CREATE -> ^(TOK_PRIV_CREATE)
| KW_DROP -> ^(TOK_PRIV_DROP)
| KW_LOCK -> ^(TOK_PRIV_LOCK)
| KW_SELECT -> ^(TOK_PRIV_SELECT)
| KW_SHOW_DATABASE -> ^(TOK_PRIV_SHOW_DATABASE)
| KW_INSERT -> ^(TOK_PRIV_INSERT)
| KW_DELETE -> ^(TOK_PRIV_DELETE)
;
principalSpecification
@init { pushMsg("user/group/role name list", state); }
@after { popMsg(state); }
: principalName (COMMA principalName)* -> ^(TOK_PRINCIPAL_NAME principalName+)
;
principalName
@init {pushMsg("user|group|role name", state);}
@after {popMsg(state);}
: KW_USER principalIdentifier -> ^(TOK_USER principalIdentifier)
| KW_GROUP principalIdentifier -> ^(TOK_GROUP principalIdentifier)
| KW_ROLE identifier -> ^(TOK_ROLE identifier)
;
withGrantOption
@init {pushMsg("with grant option", state);}
@after {popMsg(state);}
: KW_WITH KW_GRANT KW_OPTION
-> ^(TOK_GRANT_WITH_OPTION)
;
grantOptionFor
@init {pushMsg("grant option for", state);}
@after {popMsg(state);}
: KW_GRANT KW_OPTION KW_FOR
-> ^(TOK_GRANT_OPTION_FOR)
;
adminOptionFor
@init {pushMsg("admin option for", state);}
@after {popMsg(state);}
: KW_ADMIN KW_OPTION KW_FOR
-> ^(TOK_ADMIN_OPTION_FOR)
;
withAdminOption
@init {pushMsg("with admin option", state);}
@after {popMsg(state);}
: KW_WITH KW_ADMIN KW_OPTION
-> ^(TOK_GRANT_WITH_ADMIN_OPTION)
;
metastoreCheck
@init { pushMsg("metastore check statement", state); }
@after { popMsg(state); }
: KW_MSCK (repair=KW_REPAIR)?
(KW_TABLE tableName
((add=KW_ADD | drop=KW_DROP | sync=KW_SYNC) (parts=KW_PARTITIONS))? |
(partitionSpec)?)
-> ^(TOK_MSCK $repair? tableName? $add? $drop? $sync? (partitionSpec*)?)
;
resourceList
@init { pushMsg("resource list", state); }
@after { popMsg(state); }
:
resource (COMMA resource)* -> ^(TOK_RESOURCE_LIST resource+)
;
resource
@init { pushMsg("resource", state); }
@after { popMsg(state); }
:
resType=resourceType resPath=StringLiteral -> ^(TOK_RESOURCE_URI $resType $resPath)
;
resourceType
@init { pushMsg("resource type", state); }
@after { popMsg(state); }
:
KW_JAR -> ^(TOK_JAR)
|
KW_FILE -> ^(TOK_FILE)
|
KW_ARCHIVE -> ^(TOK_ARCHIVE)
;
createFunctionStatement
@init { pushMsg("create function statement", state); }
@after { popMsg(state); }
: KW_CREATE (temp=KW_TEMPORARY)? KW_FUNCTION functionIdentifier KW_AS StringLiteral
(KW_USING rList=resourceList)?
-> {$temp != null}? ^(TOK_CREATEFUNCTION functionIdentifier StringLiteral $rList? TOK_TEMPORARY)
-> ^(TOK_CREATEFUNCTION functionIdentifier StringLiteral $rList?)
;
dropFunctionStatement
@init { pushMsg("drop function statement", state); }
@after { popMsg(state); }
: KW_DROP (temp=KW_TEMPORARY)? KW_FUNCTION ifExists? functionIdentifier
-> {$temp != null}? ^(TOK_DROPFUNCTION functionIdentifier ifExists? TOK_TEMPORARY)
-> ^(TOK_DROPFUNCTION functionIdentifier ifExists?)
;
reloadFunctionStatement
@init { pushMsg("reload function statement", state); }
@after { popMsg(state); }
: KW_RELOAD KW_FUNCTION -> ^(TOK_RELOADFUNCTION);
createMacroStatement
@init { pushMsg("create macro statement", state); }
@after { popMsg(state); }
: KW_CREATE KW_TEMPORARY KW_MACRO Identifier
LPAREN columnNameTypeList? RPAREN expression
-> ^(TOK_CREATEMACRO Identifier columnNameTypeList? expression)
;
dropMacroStatement
@init { pushMsg("drop macro statement", state); }
@after { popMsg(state); }
: KW_DROP KW_TEMPORARY KW_MACRO ifExists? Identifier
-> ^(TOK_DROPMACRO Identifier ifExists?)
;
createViewStatement
@init {
pushMsg("create view statement", state);
}
@after { popMsg(state); }
: KW_CREATE (orReplace)? KW_VIEW (ifNotExists)? name=tableName
(LPAREN columnNameCommentList RPAREN)? tableComment? viewPartition?
tablePropertiesPrefixed?
KW_AS
selectStatementWithCTE
-> ^(TOK_CREATEVIEW $name orReplace?
ifNotExists?
columnNameCommentList?
tableComment?
viewPartition?
tablePropertiesPrefixed?
selectStatementWithCTE
)
;
createMaterializedViewStatement
@init {
pushMsg("create materialized view statement", state);
}
@after { popMsg(state); }
: KW_CREATE KW_MATERIALIZED KW_VIEW (ifNotExists)? name=tableName
rewriteDisabled? tableComment? tableRowFormat? tableFileFormat? tableLocation?
tablePropertiesPrefixed? KW_AS selectStatementWithCTE
-> ^(TOK_CREATE_MATERIALIZED_VIEW $name
ifNotExists?
rewriteDisabled?
tableComment?
tableRowFormat?
tableFileFormat?
tableLocation?
tablePropertiesPrefixed?
selectStatementWithCTE
)
;
viewPartition
@init { pushMsg("view partition specification", state); }
@after { popMsg(state); }
: KW_PARTITIONED KW_ON LPAREN columnNameList RPAREN
-> ^(TOK_VIEWPARTCOLS columnNameList)
;
dropViewStatement
@init { pushMsg("drop view statement", state); }
@after { popMsg(state); }
: KW_DROP KW_VIEW ifExists? viewName -> ^(TOK_DROPVIEW viewName ifExists?)
;
dropMaterializedViewStatement
@init { pushMsg("drop materialized view statement", state); }
@after { popMsg(state); }
: KW_DROP KW_MATERIALIZED KW_VIEW ifExists? viewName -> ^(TOK_DROP_MATERIALIZED_VIEW viewName ifExists?)
;
showFunctionIdentifier
@init { pushMsg("identifier for show function statement", state); }
@after { popMsg(state); }
: functionIdentifier
| StringLiteral
;
showStmtIdentifier
@init { pushMsg("identifier for show statement", state); }
@after { popMsg(state); }
: identifier
| StringLiteral
;
tableComment
@init { pushMsg("table's comment", state); }
@after { popMsg(state); }
:
KW_COMMENT comment=StringLiteral -> ^(TOK_TABLECOMMENT $comment)
;
tablePartition
@init { pushMsg("table partition specification", state); }
@after { popMsg(state); }
: KW_PARTITIONED KW_BY LPAREN columnNameTypeConstraint (COMMA columnNameTypeConstraint)* RPAREN
-> ^(TOK_TABLEPARTCOLS columnNameTypeConstraint+)
;
tableBuckets
@init { pushMsg("table buckets specification", state); }
@after { popMsg(state); }
:
KW_CLUSTERED KW_BY LPAREN bucketCols=columnNameList RPAREN (KW_SORTED KW_BY LPAREN sortCols=columnNameOrderList RPAREN)? KW_INTO num=Number KW_BUCKETS
-> ^(TOK_ALTERTABLE_BUCKETS $bucketCols $sortCols? $num)
;
tableSkewed
@init { pushMsg("table skewed specification", state); }
@after { popMsg(state); }
:
KW_SKEWED KW_BY LPAREN skewedCols=columnNameList RPAREN KW_ON LPAREN (skewedValues=skewedValueElement) RPAREN ((storedAsDirs) => storedAsDirs)?
-> ^(TOK_TABLESKEWED $skewedCols $skewedValues storedAsDirs?)
;
rowFormat
@init { pushMsg("serde specification", state); }
@after { popMsg(state); }
: rowFormatSerde -> ^(TOK_SERDE rowFormatSerde)
| rowFormatDelimited -> ^(TOK_SERDE rowFormatDelimited)
| -> ^(TOK_SERDE)
;
recordReader
@init { pushMsg("record reader specification", state); }
@after { popMsg(state); }
: KW_RECORDREADER StringLiteral -> ^(TOK_RECORDREADER StringLiteral)
| -> ^(TOK_RECORDREADER)
;
recordWriter
@init { pushMsg("record writer specification", state); }
@after { popMsg(state); }
: KW_RECORDWRITER StringLiteral -> ^(TOK_RECORDWRITER StringLiteral)
| -> ^(TOK_RECORDWRITER)
;
rowFormatSerde
@init { pushMsg("serde format specification", state); }
@after { popMsg(state); }
: KW_ROW KW_FORMAT KW_SERDE name=StringLiteral (KW_WITH KW_SERDEPROPERTIES serdeprops=tableProperties)?
-> ^(TOK_SERDENAME $name $serdeprops?)
;
rowFormatDelimited
@init { pushMsg("serde properties specification", state); }
@after { popMsg(state); }
:
KW_ROW KW_FORMAT KW_DELIMITED tableRowFormatFieldIdentifier? tableRowFormatCollItemsIdentifier? tableRowFormatMapKeysIdentifier? tableRowFormatLinesIdentifier? tableRowNullFormat?
-> ^(TOK_SERDEPROPS tableRowFormatFieldIdentifier? tableRowFormatCollItemsIdentifier? tableRowFormatMapKeysIdentifier? tableRowFormatLinesIdentifier? tableRowNullFormat?)
;
tableRowFormat
@init { pushMsg("table row format specification", state); }
@after { popMsg(state); }
:
rowFormatDelimited
-> ^(TOK_TABLEROWFORMAT rowFormatDelimited)
| rowFormatSerde
-> ^(TOK_TABLESERIALIZER rowFormatSerde)
;
tablePropertiesPrefixed
@init { pushMsg("table properties with prefix", state); }
@after { popMsg(state); }
:
KW_TBLPROPERTIES! tableProperties
;
tableProperties
@init { pushMsg("table properties", state); }
@after { popMsg(state); }
:
LPAREN tablePropertiesList RPAREN -> ^(TOK_TABLEPROPERTIES tablePropertiesList)
;
tablePropertiesList
@init { pushMsg("table properties list", state); }
@after { popMsg(state); }
:
keyValueProperty (COMMA keyValueProperty)* -> ^(TOK_TABLEPROPLIST keyValueProperty+)
|
keyProperty (COMMA keyProperty)* -> ^(TOK_TABLEPROPLIST keyProperty+)
;
keyValueProperty
@init { pushMsg("specifying key/value property", state); }
@after { popMsg(state); }
:
key=StringLiteral EQUAL value=StringLiteral -> ^(TOK_TABLEPROPERTY $key $value)
;
keyProperty
@init { pushMsg("specifying key property", state); }
@after { popMsg(state); }
:
key=StringLiteral -> ^(TOK_TABLEPROPERTY $key TOK_NULL)
;
tableRowFormatFieldIdentifier
@init { pushMsg("table row format's field separator", state); }
@after { popMsg(state); }
:
KW_FIELDS KW_TERMINATED KW_BY fldIdnt=StringLiteral (KW_ESCAPED KW_BY fldEscape=StringLiteral)?
-> ^(TOK_TABLEROWFORMATFIELD $fldIdnt $fldEscape?)
;
tableRowFormatCollItemsIdentifier
@init { pushMsg("table row format's column separator", state); }
@after { popMsg(state); }
:
KW_COLLECTION KW_ITEMS KW_TERMINATED KW_BY collIdnt=StringLiteral
-> ^(TOK_TABLEROWFORMATCOLLITEMS $collIdnt)
;
tableRowFormatMapKeysIdentifier
@init { pushMsg("table row format's map key separator", state); }
@after { popMsg(state); }
:
KW_MAP KW_KEYS KW_TERMINATED KW_BY mapKeysIdnt=StringLiteral
-> ^(TOK_TABLEROWFORMATMAPKEYS $mapKeysIdnt)
;
tableRowFormatLinesIdentifier
@init { pushMsg("table row format's line separator", state); }
@after { popMsg(state); }
:
KW_LINES KW_TERMINATED KW_BY linesIdnt=StringLiteral
-> ^(TOK_TABLEROWFORMATLINES $linesIdnt)
;
tableRowNullFormat
@init { pushMsg("table row format's null specifier", state); }
@after { popMsg(state); }
:
KW_NULL KW_DEFINED KW_AS nullIdnt=StringLiteral
-> ^(TOK_TABLEROWFORMATNULL $nullIdnt)
;
tableFileFormat
@init { pushMsg("table file format specification", state); }
@after { popMsg(state); }
:
(KW_STORED KW_AS KW_INPUTFORMAT) => KW_STORED KW_AS KW_INPUTFORMAT inFmt=StringLiteral KW_OUTPUTFORMAT outFmt=StringLiteral (KW_INPUTDRIVER inDriver=StringLiteral KW_OUTPUTDRIVER outDriver=StringLiteral)?
-> ^(TOK_TABLEFILEFORMAT $inFmt $outFmt $inDriver? $outDriver?)
| KW_STORED KW_BY storageHandler=StringLiteral
(KW_WITH KW_SERDEPROPERTIES serdeprops=tableProperties)?
-> ^(TOK_STORAGEHANDLER $storageHandler $serdeprops?)
| KW_STORED KW_AS genericSpec=identifier
-> ^(TOK_FILEFORMAT_GENERIC $genericSpec)
;
tableLocation
@init { pushMsg("table location specification", state); }
@after { popMsg(state); }
:
KW_LOCATION locn=StringLiteral -> ^(TOK_TABLELOCATION $locn)
;
columnNameTypeList
@init { pushMsg("column name type list", state); }
@after { popMsg(state); }
: columnNameType (COMMA columnNameType)* -> ^(TOK_TABCOLLIST columnNameType+)
;
columnNameTypeOrConstraintList
@init { pushMsg("column name type and constraints list", state); }
@after { popMsg(state); }
: columnNameTypeOrConstraint (COMMA columnNameTypeOrConstraint)* -> ^(TOK_TABCOLLIST columnNameTypeOrConstraint+)
;
columnNameColonTypeList
@init { pushMsg("column name type list", state); }
@after { popMsg(state); }
: columnNameColonType (COMMA columnNameColonType)* -> ^(TOK_TABCOLLIST columnNameColonType+)
;
columnNameList
@init { pushMsg("column name list", state); }
@after { popMsg(state); }
: columnName (COMMA columnName)* -> ^(TOK_TABCOLNAME columnName+)
;
columnName
@init { pushMsg("column name", state); }
@after { popMsg(state); }
:
identifier
;
extColumnName
@init { pushMsg("column name for complex types", state); }
@after { popMsg(state); }
:
identifier (DOT^ ((KW_ELEM_TYPE) => KW_ELEM_TYPE | (KW_KEY_TYPE) => KW_KEY_TYPE | (KW_VALUE_TYPE) => KW_VALUE_TYPE | identifier))*
;
columnNameOrderList
@init { pushMsg("column name order list", state); }
@after { popMsg(state); }
: columnNameOrder (COMMA columnNameOrder)* -> ^(TOK_TABCOLNAME columnNameOrder+)
;
columnParenthesesList
@init { pushMsg("column parentheses list", state); }
@after { popMsg(state); }
: LPAREN! columnNameList RPAREN!
;
enableValidateSpecification
@init { pushMsg("enable specification", state); }
@after { popMsg(state); }
: enableSpecification validateSpecification?
| enforcedSpecification
;
enableSpecification
@init { pushMsg("enable specification", state); }
@after { popMsg(state); }
: KW_ENABLE -> ^(TOK_ENABLE)
| KW_DISABLE -> ^(TOK_DISABLE)
;
validateSpecification
@init { pushMsg("validate specification", state); }
@after { popMsg(state); }
: KW_VALIDATE -> ^(TOK_VALIDATE)
| KW_NOVALIDATE -> ^(TOK_NOVALIDATE)
;
enforcedSpecification
@init { pushMsg("enforced specification", state); }
@after { popMsg(state); }
: KW_ENFORCED -> ^(TOK_ENABLE)
| KW_NOT KW_ENFORCED -> ^(TOK_DISABLE)
;
relySpecification
@init { pushMsg("rely specification", state); }
@after { popMsg(state); }
: KW_RELY -> ^(TOK_RELY)
| (KW_NORELY)? -> ^(TOK_NORELY)
;
createConstraint
@init { pushMsg("pk or uk or nn constraint", state); }
@after { popMsg(state); }
: (KW_CONSTRAINT constraintName=identifier)? tableLevelConstraint constraintOptsCreate?
-> {$constraintName.tree != null}?
^({$tableLevelConstraint.tree} ^(TOK_CONSTRAINT_NAME $constraintName) constraintOptsCreate?)
-> ^({$tableLevelConstraint.tree} constraintOptsCreate?)
;
alterConstraintWithName
@init { pushMsg("pk or uk or nn constraint with name", state); }
@after { popMsg(state); }
: KW_CONSTRAINT constraintName=identifier tableLevelConstraint constraintOptsAlter?
->^({$tableLevelConstraint.tree} ^(TOK_CONSTRAINT_NAME $constraintName) constraintOptsAlter?)
;
tableLevelConstraint
: pkUkConstraint
| checkConstraint
;
pkUkConstraint
@init { pushMsg("pk or uk table level constraint", state); }
@after { popMsg(state); }
: tableConstraintType pkCols=columnParenthesesList
-> ^(tableConstraintType $pkCols)
;
checkConstraint
@init { pushMsg("CHECK constraint", state); }
@after { popMsg(state); }
: KW_CHECK expression
-> ^(TOK_CHECK_CONSTRAINT expression)
;
createForeignKey
@init { pushMsg("foreign key", state); }
@after { popMsg(state); }
: (KW_CONSTRAINT constraintName=identifier)? KW_FOREIGN KW_KEY fkCols=columnParenthesesList KW_REFERENCES tabName=tableName parCols=columnParenthesesList constraintOptsCreate?
-> {$constraintName.tree != null}?
^(TOK_FOREIGN_KEY ^(TOK_CONSTRAINT_NAME $constraintName) $fkCols $tabName $parCols constraintOptsCreate?)
-> ^(TOK_FOREIGN_KEY $fkCols $tabName $parCols constraintOptsCreate?)
;
alterForeignKeyWithName
@init { pushMsg("foreign key with key name", state); }
@after { popMsg(state); }
: KW_CONSTRAINT constraintName=identifier KW_FOREIGN KW_KEY fkCols=columnParenthesesList KW_REFERENCES tabName=tableName parCols=columnParenthesesList constraintOptsAlter?
-> ^(TOK_FOREIGN_KEY ^(TOK_CONSTRAINT_NAME $constraintName) $fkCols $tabName $parCols constraintOptsAlter?)
;
skewedValueElement
@init { pushMsg("skewed value element", state); }
@after { popMsg(state); }
:
skewedColumnValues
| skewedColumnValuePairList
;
skewedColumnValuePairList
@init { pushMsg("column value pair list", state); }
@after { popMsg(state); }
: skewedColumnValuePair (COMMA skewedColumnValuePair)* -> ^(TOK_TABCOLVALUE_PAIR skewedColumnValuePair+)
;
skewedColumnValuePair
@init { pushMsg("column value pair", state); }
@after { popMsg(state); }
:
LPAREN colValues=skewedColumnValues RPAREN
-> ^(TOK_TABCOLVALUES $colValues)
;
skewedColumnValues
@init { pushMsg("column values", state); }
@after { popMsg(state); }
: skewedColumnValue (COMMA skewedColumnValue)* -> ^(TOK_TABCOLVALUE skewedColumnValue+)
;
skewedColumnValue
@init { pushMsg("column value", state); }
@after { popMsg(state); }
:
constant
;
skewedValueLocationElement
@init { pushMsg("skewed value location element", state); }
@after { popMsg(state); }
:
skewedColumnValue
| skewedColumnValuePair
;
orderSpecification
@init { pushMsg("order specification", state); }
@after { popMsg(state); }
: KW_ASC | KW_DESC ;
nullOrdering
@init { pushMsg("nulls ordering", state); }
@after { popMsg(state); }
: KW_NULLS KW_FIRST -> ^(TOK_NULLS_FIRST)
| KW_NULLS KW_LAST -> ^(TOK_NULLS_LAST)
;
columnNameOrder
@init { pushMsg("column name order", state); }
@after { popMsg(state); }
: identifier orderSpec=orderSpecification? nullSpec=nullOrdering?
-> {$orderSpec.tree == null && $nullSpec.tree == null}?
^(TOK_TABSORTCOLNAMEASC ^(TOK_NULLS_FIRST identifier))
-> {$orderSpec.tree == null}?
^(TOK_TABSORTCOLNAMEASC ^($nullSpec identifier))
-> {$nullSpec.tree == null && $orderSpec.tree.getType()==HiveParser.KW_ASC}?
^(TOK_TABSORTCOLNAMEASC ^(TOK_NULLS_FIRST identifier))
-> {$nullSpec.tree == null && $orderSpec.tree.getType()==HiveParser.KW_DESC}?
^(TOK_TABSORTCOLNAMEDESC ^(TOK_NULLS_LAST identifier))
-> {$orderSpec.tree.getType()==HiveParser.KW_ASC}?
^(TOK_TABSORTCOLNAMEASC ^($nullSpec identifier))
-> ^(TOK_TABSORTCOLNAMEDESC ^($nullSpec identifier))
;
columnNameCommentList
@init { pushMsg("column name comment list", state); }
@after { popMsg(state); }
: columnNameComment (COMMA columnNameComment)* -> ^(TOK_TABCOLNAME columnNameComment+)
;
columnNameComment
@init { pushMsg("column name comment", state); }
@after { popMsg(state); }
: colName=identifier (KW_COMMENT comment=StringLiteral)?
-> ^(TOK_TABCOL $colName TOK_NULL $comment?)
;
columnRefOrder
@init { pushMsg("column order", state); }
@after { popMsg(state); }
: expression orderSpec=orderSpecification? nullSpec=nullOrdering?
-> {$orderSpec.tree == null && $nullSpec.tree == null}?
^(TOK_TABSORTCOLNAMEASC ^(TOK_NULLS_FIRST expression))
-> {$orderSpec.tree == null}?
^(TOK_TABSORTCOLNAMEASC ^($nullSpec expression))
-> {$nullSpec.tree == null && $orderSpec.tree.getType()==HiveParser.KW_ASC}?
^(TOK_TABSORTCOLNAMEASC ^(TOK_NULLS_FIRST expression))
-> {$nullSpec.tree == null && $orderSpec.tree.getType()==HiveParser.KW_DESC}?
^(TOK_TABSORTCOLNAMEDESC ^(TOK_NULLS_LAST expression))
-> {$orderSpec.tree.getType()==HiveParser.KW_ASC}?
^(TOK_TABSORTCOLNAMEASC ^($nullSpec expression))
-> ^(TOK_TABSORTCOLNAMEDESC ^($nullSpec expression))
;
columnNameType
@init { pushMsg("column specification", state); }
@after { popMsg(state); }
: colName=identifier colType (KW_COMMENT comment=StringLiteral)?
-> {containExcludedCharForCreateTableColumnName($colName.text)}? {throwColumnNameException()}
-> {$comment == null}? ^(TOK_TABCOL $colName colType)
-> ^(TOK_TABCOL $colName colType $comment)
;
columnNameTypeOrConstraint
@init { pushMsg("column name or constraint", state); }
@after { popMsg(state); }
: ( tableConstraint )
| ( columnNameTypeConstraint )
;
tableConstraint
@init { pushMsg("table constraint", state); }
@after { popMsg(state); }
: ( createForeignKey )
| ( createConstraint )
;
columnNameTypeConstraint
@init { pushMsg("column specification", state); }
@after { popMsg(state); }
: colName=identifier colType columnConstraint[$colName.tree]? (KW_COMMENT comment=StringLiteral)?
-> {containExcludedCharForCreateTableColumnName($colName.text)}? {throwColumnNameException()}
-> ^(TOK_TABCOL $colName colType $comment? columnConstraint?)
;
columnConstraint[CommonTree fkColName]
@init { pushMsg("column constraint", state); }
@after { popMsg(state); }
: ( foreignKeyConstraint[$fkColName] )
| ( colConstraint )
;
foreignKeyConstraint[CommonTree fkColName]
@init { pushMsg("column constraint", state); }
@after { popMsg(state); }
: (KW_CONSTRAINT constraintName=identifier)? KW_REFERENCES tabName=tableName LPAREN colName=columnName RPAREN constraintOptsCreate?
-> {$constraintName.tree != null}?
^(TOK_FOREIGN_KEY ^(TOK_CONSTRAINT_NAME $constraintName) ^(TOK_TABCOLNAME {$fkColName}) $tabName ^(TOK_TABCOLNAME $colName) constraintOptsCreate?)
-> ^(TOK_FOREIGN_KEY ^(TOK_TABCOLNAME {$fkColName}) $tabName ^(TOK_TABCOLNAME $colName) constraintOptsCreate?)
;
colConstraint
@init { pushMsg("column constraint", state); }
@after { popMsg(state); }
: (KW_CONSTRAINT constraintName=identifier)? columnConstraintType constraintOptsCreate?
-> {$constraintName.tree != null}?
^({$columnConstraintType.tree} ^(TOK_CONSTRAINT_NAME $constraintName) constraintOptsCreate?)
-> ^({$columnConstraintType.tree} constraintOptsCreate?)
;
alterColumnConstraint[CommonTree fkColName]
@init { pushMsg("alter column constraint", state); }
@after { popMsg(state); }
: ( alterForeignKeyConstraint[$fkColName] )
| ( alterColConstraint )
;
alterForeignKeyConstraint[CommonTree fkColName]
@init { pushMsg("alter column constraint", state); }
@after { popMsg(state); }
: (KW_CONSTRAINT constraintName=identifier)? KW_REFERENCES tabName=tableName LPAREN colName=columnName RPAREN constraintOptsAlter?
-> {$constraintName.tree != null}?
^(TOK_FOREIGN_KEY ^(TOK_CONSTRAINT_NAME $constraintName) ^(TOK_TABCOLNAME {$fkColName}) $tabName ^(TOK_TABCOLNAME $colName) constraintOptsAlter?)
-> ^(TOK_FOREIGN_KEY ^(TOK_TABCOLNAME {$fkColName}) $tabName ^(TOK_TABCOLNAME $colName) constraintOptsAlter?)
;
alterColConstraint
@init { pushMsg("alter column constraint", state); }
@after { popMsg(state); }
: (KW_CONSTRAINT constraintName=identifier)? columnConstraintType constraintOptsAlter?
-> {$constraintName.tree != null}?
^({$columnConstraintType.tree} ^(TOK_CONSTRAINT_NAME $constraintName) constraintOptsAlter?)
-> ^({$columnConstraintType.tree} constraintOptsAlter?)
;
columnConstraintType
: KW_NOT KW_NULL -> TOK_NOT_NULL
| KW_DEFAULT defaultVal-> ^(TOK_DEFAULT_VALUE defaultVal)
| checkConstraint
| tableConstraintType
;
defaultVal
: constant
| function
| castExpression
;
tableConstraintType
: KW_PRIMARY KW_KEY -> TOK_PRIMARY_KEY
| KW_UNIQUE -> TOK_UNIQUE
;
constraintOptsCreate
: enableValidateSpecification relySpecification
;
constraintOptsAlter
: enableValidateSpecification relySpecification
;
columnNameColonType
@init { pushMsg("column specification", state); }
@after { popMsg(state); }
: colName=identifier COLON colType (KW_COMMENT comment=StringLiteral)?
-> {$comment == null}? ^(TOK_TABCOL $colName colType)
-> ^(TOK_TABCOL $colName colType $comment)
;
colType
@init { pushMsg("column type", state); }
@after { popMsg(state); }
: type
;
colTypeList
@init { pushMsg("column type list", state); }
@after { popMsg(state); }
: colType (COMMA colType)* -> ^(TOK_COLTYPELIST colType+)
;
type
: primitiveType
| listType
| structType
| mapType
| unionType;
primitiveType
@init { pushMsg("primitive type specification", state); }
@after { popMsg(state); }
: KW_TINYINT -> TOK_TINYINT
| KW_SMALLINT -> TOK_SMALLINT
| KW_INT -> TOK_INT
| KW_BIGINT -> TOK_BIGINT
| KW_BOOLEAN -> TOK_BOOLEAN
| KW_FLOAT -> TOK_FLOAT
| KW_DOUBLE KW_PRECISION? -> TOK_DOUBLE
| KW_DATE -> TOK_DATE
| KW_DATETIME -> TOK_DATETIME
| KW_TIMESTAMP -> TOK_TIMESTAMP
| KW_TIMESTAMPLOCALTZ -> TOK_TIMESTAMPLOCALTZ
//| KW_TIMESTAMPTZ -> TOK_TIMESTAMPTZ
| KW_TIMESTAMP KW_WITH KW_LOCAL KW_TIME KW_ZONE -> TOK_TIMESTAMPLOCALTZ
//| KW_TIMESTAMP KW_WITH KW_TIME KW_ZONE -> TOK_TIMESTAMPTZ
// Uncomment to allow intervals as table column types
//| KW_INTERVAL KW_YEAR KW_TO KW_MONTH -> TOK_INTERVAL_YEAR_MONTH
//| KW_INTERVAL KW_DAY KW_TO KW_SECOND -> TOK_INTERVAL_DAY_TIME
| KW_STRING -> TOK_STRING
| KW_BINARY -> TOK_BINARY
| KW_DECIMAL (LPAREN prec=Number (COMMA scale=Number)? RPAREN)? -> ^(TOK_DECIMAL $prec? $scale?)
| KW_VARCHAR LPAREN length=Number RPAREN -> ^(TOK_VARCHAR $length)
| KW_CHAR LPAREN length=Number RPAREN -> ^(TOK_CHAR $length)
;
listType
@init { pushMsg("list type", state); }
@after { popMsg(state); }
: KW_ARRAY LESSTHAN type GREATERTHAN -> ^(TOK_LIST type)
;
structType
@init { pushMsg("struct type", state); }
@after { popMsg(state); }
: KW_STRUCT LESSTHAN columnNameColonTypeList GREATERTHAN -> ^(TOK_STRUCT columnNameColonTypeList)
;
mapType
@init { pushMsg("map type", state); }
@after { popMsg(state); }
: KW_MAP LESSTHAN left=primitiveType COMMA right=type GREATERTHAN
-> ^(TOK_MAP $left $right)
;
unionType
@init { pushMsg("uniontype type", state); }
@after { popMsg(state); }
: KW_UNIONTYPE LESSTHAN colTypeList GREATERTHAN -> ^(TOK_UNIONTYPE colTypeList)
;
setOperator
@init { pushMsg("set operator", state); }
@after { popMsg(state); }
: KW_UNION KW_ALL -> ^(TOK_UNIONALL)
| KW_UNION KW_DISTINCT? -> ^(TOK_UNIONDISTINCT)
| KW_INTERSECT KW_ALL -> ^(TOK_INTERSECTALL)
| KW_INTERSECT KW_DISTINCT? -> ^(TOK_INTERSECTDISTINCT)
| KW_EXCEPT KW_ALL -> ^(TOK_EXCEPTALL)
| KW_EXCEPT KW_DISTINCT? -> ^(TOK_EXCEPTDISTINCT)
| KW_MINUS KW_ALL -> ^(TOK_EXCEPTALL)
| KW_MINUS KW_DISTINCT? -> ^(TOK_EXCEPTDISTINCT)
;
queryStatementExpression
:
/* Would be nice to do this as a gated semantic perdicate
But the predicate gets pushed as a lookahead decision.
Calling rule doesnot know about topLevel
*/
(w=withClause)?
queryStatementExpressionBody {
if ($w.tree != null) {
$queryStatementExpressionBody.tree.insertChild(0, $w.tree);
}
}
-> queryStatementExpressionBody
;
queryStatementExpressionBody
:
fromStatement
| regularBody
;
withClause
:
KW_WITH cteStatement (COMMA cteStatement)* -> ^(TOK_CTE cteStatement+)
;
cteStatement
:
identifier KW_AS LPAREN queryStatementExpression RPAREN
-> ^(TOK_SUBQUERY queryStatementExpression identifier)
;
fromStatement
: (singleFromStatement -> singleFromStatement)
(u=setOperator r=singleFromStatement
-> ^($u {$fromStatement.tree} $r)
)*
-> {u != null}? ^(TOK_QUERY
^(TOK_FROM
^(TOK_SUBQUERY
{$fromStatement.tree}
{adaptor.create(Identifier, generateUnionAlias())}
)
)
^(TOK_INSERT
^(TOK_DESTINATION ^(TOK_DIR TOK_TMP_FILE))
^(TOK_SELECT ^(TOK_SELEXPR TOK_SETCOLREF))
)
)
-> {$fromStatement.tree}
;
singleFromStatement
:
fromClause
( b+=body )+ -> ^(TOK_QUERY fromClause body+)
;
/*
The valuesClause rule below ensures that the parse tree for
"insert into table FOO values (1,2),(3,4)" looks the same as
"insert into table FOO select a,b from (values(1,2),(3,4)) as BAR(a,b)" which itself is made to look
very similar to the tree for "insert into table FOO select a,b from BAR".
*/
regularBody
:
i=insertClause
(
s=selectStatement
{$s.tree.getFirstChildWithType(TOK_INSERT).replaceChildren(0, 0, $i.tree);} -> {$s.tree}
|
valuesClause
-> ^(TOK_QUERY
^(TOK_INSERT {$i.tree} ^(TOK_SELECT ^(TOK_SELEXPR ^(TOK_FUNCTION Identifier["inline"] valuesClause))))
)
)
|
selectStatement
;
atomSelectStatement
:
s=selectClause
f=fromClause?
w=whereClause?
g=groupByClause?
h=havingClause?
win=window_clause?
-> ^(TOK_QUERY $f? ^(TOK_INSERT ^(TOK_DESTINATION ^(TOK_DIR TOK_TMP_FILE))
$s $w? $g? $h? $win?))
|
LPAREN! selectStatement RPAREN!
;
selectStatement
:
a=atomSelectStatement
set=setOpSelectStatement[$atomSelectStatement.tree]?
o=orderByClause?
c=clusterByClause?
d=distributeByClause?
sort=sortByClause?
l=limitClause?
{
if(set == null){
$a.tree.getFirstChildWithType(TOK_INSERT).addChild($o.tree);
$a.tree.getFirstChildWithType(TOK_INSERT).addChild($c.tree);
$a.tree.getFirstChildWithType(TOK_INSERT).addChild($d.tree);
$a.tree.getFirstChildWithType(TOK_INSERT).addChild($sort.tree);
$a.tree.getFirstChildWithType(TOK_INSERT).addChild($l.tree);
}
}
-> {set == null}?
{$a.tree}
-> {o==null && c==null && d==null && sort==null && l==null}?
{$set.tree}
-> ^(TOK_QUERY
^(TOK_FROM
^(TOK_SUBQUERY
{$set.tree}
{adaptor.create(Identifier, generateUnionAlias())}
)
)
^(TOK_INSERT
^(TOK_DESTINATION ^(TOK_DIR TOK_TMP_FILE))
^(TOK_SELECT ^(TOK_SELEXPR TOK_SETCOLREF))
$o? $c? $d? $sort? $l?
)
)
;
setOpSelectStatement[CommonTree t]
:
(u=setOperator b=atomSelectStatement
-> {$setOpSelectStatement.tree != null && ((CommonTree)u.getTree()).getType()==HiveParser.TOK_UNIONDISTINCT}?
^(TOK_QUERY
^(TOK_FROM
^(TOK_SUBQUERY
^(TOK_UNIONALL {$setOpSelectStatement.tree} $b)
{adaptor.create(Identifier, generateUnionAlias())}
)
)
^(TOK_INSERT
^(TOK_DESTINATION ^(TOK_DIR TOK_TMP_FILE))
^(TOK_SELECTDI ^(TOK_SELEXPR TOK_SETCOLREF))
)
)
-> {$setOpSelectStatement.tree != null && ((CommonTree)u.getTree()).getType()!=HiveParser.TOK_UNIONDISTINCT}?
^($u {$setOpSelectStatement.tree} $b)
-> {$setOpSelectStatement.tree == null && ((CommonTree)u.getTree()).getType()==HiveParser.TOK_UNIONDISTINCT}?
^(TOK_QUERY
^(TOK_FROM
^(TOK_SUBQUERY
^(TOK_UNIONALL {$t} $b)
{adaptor.create(Identifier, generateUnionAlias())}
)
)
^(TOK_INSERT
^(TOK_DESTINATION ^(TOK_DIR TOK_TMP_FILE))
^(TOK_SELECTDI ^(TOK_SELEXPR TOK_SETCOLREF))
)
)
-> ^($u {$t} $b)
)+
-> {$setOpSelectStatement.tree.getChild(0).getType()==HiveParser.TOK_UNIONALL
||$setOpSelectStatement.tree.getChild(0).getType()==HiveParser.TOK_INTERSECTDISTINCT
||$setOpSelectStatement.tree.getChild(0).getType()==HiveParser.TOK_INTERSECTALL
||$setOpSelectStatement.tree.getChild(0).getType()==HiveParser.TOK_EXCEPTDISTINCT
||$setOpSelectStatement.tree.getChild(0).getType()==HiveParser.TOK_EXCEPTALL}?
^(TOK_QUERY
^(TOK_FROM
^(TOK_SUBQUERY
{$setOpSelectStatement.tree}
{adaptor.create(Identifier, generateUnionAlias())}
)
)
^(TOK_INSERT
^(TOK_DESTINATION ^(TOK_DIR TOK_TMP_FILE))
^(TOK_SELECT ^(TOK_SELEXPR TOK_SETCOLREF))
)
)
-> {$setOpSelectStatement.tree}
;
selectStatementWithCTE
:
(w=withClause)?
selectStatement {
if ($w.tree != null) {
$selectStatement.tree.insertChild(0, $w.tree);
}
}
-> selectStatement
;
body
:
insertClause
selectClause
lateralView?
whereClause?
groupByClause?
havingClause?
window_clause?
orderByClause?
clusterByClause?
distributeByClause?
sortByClause?
limitClause? -> ^(TOK_INSERT insertClause
selectClause lateralView? whereClause? groupByClause? havingClause? orderByClause? clusterByClause?
distributeByClause? sortByClause? window_clause? limitClause?)
|
selectClause
lateralView?
whereClause?
groupByClause?
havingClause?
window_clause?
orderByClause?
clusterByClause?
distributeByClause?
sortByClause?
limitClause? -> ^(TOK_INSERT ^(TOK_DESTINATION ^(TOK_DIR TOK_TMP_FILE))
selectClause lateralView? whereClause? groupByClause? havingClause? orderByClause? clusterByClause?
distributeByClause? sortByClause? window_clause? limitClause?)
;
insertClause
@init { pushMsg("insert clause", state); }
@after { popMsg(state); }
:
KW_INSERT KW_OVERWRITE destination ifNotExists? -> ^(TOK_DESTINATION destination ifNotExists?)
| KW_INSERT KW_INTO KW_TABLE? tableOrPartition (LPAREN targetCols=columnNameList RPAREN)?
-> ^(TOK_INSERT_INTO tableOrPartition $targetCols?)
;
destination
@init { pushMsg("destination specification", state); }
@after { popMsg(state); }
:
(local = KW_LOCAL)? KW_DIRECTORY StringLiteral tableRowFormat? tableFileFormat?
-> ^(TOK_DIR StringLiteral $local? tableRowFormat? tableFileFormat?)
| KW_TABLE tableOrPartition -> tableOrPartition
;
limitClause
@init { pushMsg("limit clause", state); }
@after { popMsg(state); }
:
KW_LIMIT ((offset=Number COMMA)? num=Number) -> ^(TOK_LIMIT ($offset)? $num)
| KW_LIMIT num=Number KW_OFFSET offset=Number -> ^(TOK_LIMIT ($offset)? $num)
;
//DELETE FROM WHERE ...;
deleteStatement
@init { pushMsg("delete statement", state); }
@after { popMsg(state); }
:
KW_DELETE KW_FROM tableName (whereClause)? -> ^(TOK_DELETE_FROM tableName whereClause?)
;
/*SET = (3 + col2)*/
columnAssignmentClause
:
tableOrColumn EQUAL^ precedencePlusExpression
;
/*SET col1 = 5, col2 = (4 + col4), ...*/
setColumnsClause
:
KW_SET columnAssignmentClause (COMMA columnAssignmentClause)* -> ^(TOK_SET_COLUMNS_CLAUSE columnAssignmentClause* )
;
/*
UPDATE
SET col1 = val1, col2 = val2... WHERE ...
*/
updateStatement
@init { pushMsg("update statement", state); }
@after { popMsg(state); }
:
KW_UPDATE tableName setColumnsClause whereClause? -> ^(TOK_UPDATE_TABLE tableName setColumnsClause whereClause?)
;
/*
BEGIN user defined transaction boundaries; follows SQL 2003 standard exactly except for addition of
"setAutoCommitStatement" which is not in the standard doc but is supported by most SQL engines.
*/
sqlTransactionStatement
@init { pushMsg("transaction statement", state); }
@after { popMsg(state); }
:
startTransactionStatement
| commitStatement
| rollbackStatement
| setAutoCommitStatement
;
startTransactionStatement
:
KW_START KW_TRANSACTION ( transactionMode ( COMMA transactionMode )* )? -> ^(TOK_START_TRANSACTION transactionMode*)
;
transactionMode
:
isolationLevel
| transactionAccessMode -> ^(TOK_TXN_ACCESS_MODE transactionAccessMode)
;
transactionAccessMode
:
KW_READ KW_ONLY -> TOK_TXN_READ_ONLY
| KW_READ KW_WRITE -> TOK_TXN_READ_WRITE
;
isolationLevel
:
KW_ISOLATION KW_LEVEL levelOfIsolation -> ^(TOK_ISOLATION_LEVEL levelOfIsolation)
;
/*READ UNCOMMITTED | READ COMMITTED | REPEATABLE READ | SERIALIZABLE may be supported later*/
levelOfIsolation
:
KW_SNAPSHOT -> TOK_ISOLATION_SNAPSHOT
;
commitStatement
:
KW_COMMIT ( KW_WORK )? -> TOK_COMMIT
;
rollbackStatement
:
KW_ROLLBACK ( KW_WORK )? -> TOK_ROLLBACK
;
setAutoCommitStatement
:
KW_SET KW_AUTOCOMMIT booleanValueTok -> ^(TOK_SET_AUTOCOMMIT booleanValueTok)
;
/*
END user defined transaction boundaries
*/
abortTransactionStatement
@init { pushMsg("abort transactions statement", state); }
@after { popMsg(state); }
:
KW_ABORT KW_TRANSACTIONS ( Number )+ -> ^(TOK_ABORT_TRANSACTIONS ( Number )+)
;
/*
BEGIN SQL Merge statement
*/
mergeStatement
@init { pushMsg("MERGE statement", state); }
@after { popMsg(state); }
:
KW_MERGE KW_INTO tableName (KW_AS? identifier)? KW_USING joinSourcePart KW_ON expression whenClauses ->
^(TOK_MERGE ^(TOK_TABREF tableName identifier?) joinSourcePart expression whenClauses)
;
/*
Allow 0,1 or 2 WHEN MATCHED clauses and 0 or 1 WHEN NOT MATCHED
Each WHEN clause may have AND .
If 2 WHEN MATCHED clauses are present, 1 must be UPDATE the other DELETE and the 1st one
must have AND
*/
whenClauses
:
(whenMatchedAndClause|whenMatchedThenClause)* whenNotMatchedClause?
;
whenNotMatchedClause
@init { pushMsg("WHEN NOT MATCHED clause", state); }
@after { popMsg(state); }
:
KW_WHEN KW_NOT KW_MATCHED (KW_AND expression)? KW_THEN KW_INSERT KW_VALUES valueRowConstructor ->
^(TOK_NOT_MATCHED ^(TOK_INSERT valueRowConstructor) expression?)
;
whenMatchedAndClause
@init { pushMsg("WHEN MATCHED AND clause", state); }
@after { popMsg(state); }
:
KW_WHEN KW_MATCHED KW_AND expression KW_THEN updateOrDelete ->
^(TOK_MATCHED updateOrDelete expression)
;
whenMatchedThenClause
@init { pushMsg("WHEN MATCHED THEN clause", state); }
@after { popMsg(state); }
:
KW_WHEN KW_MATCHED KW_THEN updateOrDelete ->
^(TOK_MATCHED updateOrDelete)
;
updateOrDelete
:
KW_UPDATE setColumnsClause -> ^(TOK_UPDATE setColumnsClause)
|
KW_DELETE -> TOK_DELETE
;
/*
END SQL Merge statement
*/
killQueryStatement
@init { pushMsg("kill query statement", state); }
@after { popMsg(state); }
:
KW_KILL KW_QUERY ( StringLiteral )+ -> ^(TOK_KILL_QUERY ( StringLiteral )+)
;