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/*
* Hibernate, Relational Persistence for Idiomatic Java
*
* Copyright (c) 2008, Red Hat Middleware LLC or third-party contributors as
* indicated by the @author tags or express copyright attribution
* statements applied by the authors. All third-party contributions are
* distributed under license by Red Hat Middleware LLC.
*
* This copyrighted material is made available to anyone wishing to use, modify,
* copy, or redistribute it subject to the terms and conditions of the GNU
* Lesser General Public License, as published by the Free Software Foundation.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY
* or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License
* for more details.
*
* You should have received a copy of the GNU Lesser General Public License
* along with this distribution; if not, write to:
* Free Software Foundation, Inc.
* 51 Franklin Street, Fifth Floor
* Boston, MA 02110-1301 USA
*
*/
package org.hibernate.sql;
import java.util.ArrayList;
import java.util.HashSet;
import java.util.List;
import java.util.Set;
import java.util.StringTokenizer;
import org.hibernate.HibernateException;
import org.hibernate.dialect.Dialect;
import org.hibernate.dialect.function.SQLFunction;
import org.hibernate.dialect.function.SQLFunctionRegistry;
import org.hibernate.engine.spi.SessionFactoryImplementor;
import org.hibernate.internal.util.StringHelper;
import org.hibernate.sql.ordering.antlr.ColumnMapper;
import org.hibernate.sql.ordering.antlr.OrderByAliasResolver;
import org.hibernate.sql.ordering.antlr.OrderByFragmentTranslator;
import org.hibernate.sql.ordering.antlr.OrderByTranslation;
import org.hibernate.sql.ordering.antlr.SqlValueReference;
import org.hibernate.sql.ordering.antlr.TranslationContext;
/**
* Parses SQL fragments specified in mapping documents
*
* @author Gavin King
*/
public final class Template {
private static final Set KEYWORDS = new HashSet();
private static final Set BEFORE_TABLE_KEYWORDS = new HashSet();
private static final Set FUNCTION_KEYWORDS = new HashSet();
static {
KEYWORDS.add("and");
KEYWORDS.add("or");
KEYWORDS.add("not");
KEYWORDS.add("like");
KEYWORDS.add("escape");
KEYWORDS.add("is");
KEYWORDS.add("in");
KEYWORDS.add("between");
KEYWORDS.add("null");
KEYWORDS.add("select");
KEYWORDS.add("distinct");
KEYWORDS.add("from");
KEYWORDS.add("join");
KEYWORDS.add("inner");
KEYWORDS.add("outer");
KEYWORDS.add("left");
KEYWORDS.add("right");
KEYWORDS.add("on");
KEYWORDS.add("where");
KEYWORDS.add("having");
KEYWORDS.add("group");
KEYWORDS.add("order");
KEYWORDS.add("by");
KEYWORDS.add("desc");
KEYWORDS.add("asc");
KEYWORDS.add("limit");
KEYWORDS.add("any");
KEYWORDS.add("some");
KEYWORDS.add("exists");
KEYWORDS.add("all");
KEYWORDS.add("union");
KEYWORDS.add("minus");
BEFORE_TABLE_KEYWORDS.add("from");
BEFORE_TABLE_KEYWORDS.add("join");
FUNCTION_KEYWORDS.add("as");
FUNCTION_KEYWORDS.add("leading");
FUNCTION_KEYWORDS.add("trailing");
FUNCTION_KEYWORDS.add("from");
FUNCTION_KEYWORDS.add("case");
FUNCTION_KEYWORDS.add("when");
FUNCTION_KEYWORDS.add("then");
FUNCTION_KEYWORDS.add("else");
FUNCTION_KEYWORDS.add("end");
}
public static final String TEMPLATE = "$PlaceHolder$";
private Template() {}
public static String renderWhereStringTemplate(String sqlWhereString, Dialect dialect, SQLFunctionRegistry functionRegistry) {
return renderWhereStringTemplate(sqlWhereString, TEMPLATE, dialect, functionRegistry);
}
/**
* Same functionality as {@link #renderWhereStringTemplate(String, String, Dialect, SQLFunctionRegistry)},
* except that a SQLFunctionRegistry is not provided (i.e., only the dialect-defined functions are
* considered). This is only intended for use by the annotations project until the
* many-to-many/map-key-from-target-table feature is pulled into core.
*
* @deprecated Only intended for annotations usage; use {@link #renderWhereStringTemplate(String, String, Dialect, SQLFunctionRegistry)} instead
*/
@Deprecated
@SuppressWarnings({ "JavaDoc" })
public static String renderWhereStringTemplate(String sqlWhereString, String placeholder, Dialect dialect) {
return renderWhereStringTemplate( sqlWhereString, placeholder, dialect, new SQLFunctionRegistry( dialect, java.util.Collections.EMPTY_MAP ) );
}
/**
* Takes the where condition provided in the mapping attribute and interpolates the alias.
* Handles sub-selects, quoted identifiers, quoted strings, expressions, SQL functions,
* named parameters.
*
* @param sqlWhereString The string into which to interpolate the placeholder value
* @param placeholder The value to be interpolated into the the sqlWhereString
* @param dialect The dialect to apply
* @param functionRegistry The registry of all sql functions
* @return The rendered sql fragment
*/
public static String renderWhereStringTemplate(String sqlWhereString, String placeholder, Dialect dialect, SQLFunctionRegistry functionRegistry ) {
// IMPL NOTE : The basic process here is to tokenize the incoming string and to iterate over each token
// in turn. As we process each token, we set a series of flags used to indicate the type of context in
// which the tokens occur. Depending on the state of those flags we decide whether we need to qualify
// identifier references.
String symbols = new StringBuilder()
.append( "=> operands = new ArrayList();
StringBuilder builder = new StringBuilder();
boolean hasMoreOperands = true;
String operandToken = tokens.nextToken();
boolean quotedOperand = false;
while ( hasMoreOperands ) {
final boolean isQuote = "'".equals( operandToken );
if ( isQuote ) {
quotedOperand = !quotedOperand;
if ( !quotedOperand ) {
operands.add( builder.append( '\'' ).toString() );
builder.setLength( 0 );
}
else {
builder.append( '\'' );
}
}
else if ( quotedOperand ) {
builder.append( operandToken );
}
else if ( operandToken.length() == 1 && Character.isWhitespace( operandToken.charAt( 0 ) ) ) {
// do nothing
}
else {
operands.add( operandToken );
}
operandToken = tokens.nextToken();
hasMoreOperands = tokens.hasMoreTokens() && ! ")".equals( operandToken );
}
TrimOperands trimOperands = new TrimOperands( operands );
result.append( "trim(" );
if ( trimOperands.trimSpec != null ) {
result.append( trimOperands.trimSpec ).append( ' ' );
}
if ( trimOperands.trimChar != null ) {
if ( trimOperands.trimChar.startsWith( "'" ) && trimOperands.trimChar.endsWith( "'" ) ) {
result.append( trimOperands.trimChar );
}
else {
result.append(
renderWhereStringTemplate( trimOperands.trimSpec, placeholder, dialect, functionRegistry )
);
}
result.append( ' ' );
}
if ( trimOperands.from != null ) {
result.append( trimOperands.from ).append( ' ' );
}
else if ( trimOperands.trimSpec != null || trimOperands.trimChar != null ) {
// I think ANSI SQL says that the 'from' is not optional if either trim-spec or trim-char are specified
result.append( "from " );
}
result.append( renderWhereStringTemplate( trimOperands.trimSource, placeholder, dialect, functionRegistry ) )
.append( ')' );
hasMore = tokens.hasMoreTokens();
nextToken = hasMore ? tokens.nextToken() : null;
continue;
}
boolean quotedOrWhitespace = quoted || quotedIdentifier || isQuoteCharacter
|| Character.isWhitespace( token.charAt(0) );
if ( quotedOrWhitespace ) {
result.append( token );
}
else if ( beforeTable ) {
result.append( token );
beforeTable = false;
afterFromTable = true;
}
else if ( afterFromTable ) {
if ( !"as".equals(lcToken) ) {
afterFromTable = false;
}
result.append(token);
}
else if ( isNamedParameter(token) ) {
result.append(token);
}
else if ( isIdentifier(token, dialect)
&& !isFunctionOrKeyword(lcToken, nextToken, dialect , functionRegistry) ) {
result.append(placeholder)
.append('.')
.append( dialect.quote(token) );
}
else {
if ( BEFORE_TABLE_KEYWORDS.contains(lcToken) ) {
beforeTable = true;
inFromClause = true;
}
else if ( inFromClause && ",".equals(lcToken) ) {
beforeTable = true;
}
result.append(token);
}
//Yuck:
if ( inFromClause
&& KEYWORDS.contains( lcToken ) //"as" is not in KEYWORDS
&& !BEFORE_TABLE_KEYWORDS.contains( lcToken ) ) {
inFromClause = false;
}
}
return result.toString();
}
// /**
// * Takes the where condition provided in the mapping attribute and interpolates the alias.
// * Handles sub-selects, quoted identifiers, quoted strings, expressions, SQL functions,
// * named parameters.
// *
// * @param sqlWhereString The string into which to interpolate the placeholder value
// * @param placeholder The value to be interpolated into the the sqlWhereString
// * @param dialect The dialect to apply
// * @param functionRegistry The registry of all sql functions
// *
// * @return The rendered sql fragment
// */
// public static String renderWhereStringTemplate(
// String sqlWhereString,
// String placeholder,
// Dialect dialect,
// SQLFunctionRegistry functionRegistry) {
//
// // IMPL NOTE : The basic process here is to tokenize the incoming string and to iterate over each token
// // in turn. As we process each token, we set a series of flags used to indicate the type of context in
// // which the tokens occur. Depending on the state of those flags we decide whether we need to qualify
// // identifier references.
//
// final String dialectOpenQuote = Character.toString( dialect.openQuote() );
// final String dialectCloseQuote = Character.toString( dialect.closeQuote() );
//
// String symbols = new StringBuilder()
// .append( "=> operands = new ArrayList();
// StringBuilder builder = new StringBuilder();
//
// boolean hasMoreOperands = true;
// String operandToken = tokens.nextToken();
// boolean quoted = false;
// while ( hasMoreOperands ) {
// final boolean isQuote = "'".equals( operandToken );
// if ( isQuote ) {
// quoted = !quoted;
// if ( !quoted ) {
// operands.add( builder.append( '\'' ).toString() );
// builder.setLength( 0 );
// }
// else {
// builder.append( '\'' );
// }
// }
// else if ( quoted ) {
// builder.append( operandToken );
// }
// else if ( operandToken.length() == 1 && Character.isWhitespace( operandToken.charAt( 0 ) ) ) {
// // do nothing
// }
// else {
// operands.add( operandToken );
// }
// operandToken = tokens.nextToken();
// hasMoreOperands = tokens.hasMoreTokens() && ! ")".equals( operandToken );
// }
//
// TrimOperands trimOperands = new TrimOperands( operands );
// result.append( "trim(" );
// if ( trimOperands.trimSpec != null ) {
// result.append( trimOperands.trimSpec ).append( ' ' );
// }
// if ( trimOperands.trimChar != null ) {
// if ( trimOperands.trimChar.startsWith( "'" ) && trimOperands.trimChar.endsWith( "'" ) ) {
// result.append( trimOperands.trimChar );
// }
// else {
// result.append(
// renderWhereStringTemplate( trimOperands.trimSpec, placeholder, dialect, functionRegistry )
// );
// }
// result.append( ' ' );
// }
// if ( trimOperands.from != null ) {
// result.append( trimOperands.from ).append( ' ' );
// }
// else if ( trimOperands.trimSpec != null || trimOperands.trimChar != null ) {
// // I think ANSI SQL says that the 'from' is not optional if either trim-spec or trim-char are specified
// result.append( "from " );
// }
//
// result.append( renderWhereStringTemplate( trimOperands.trimSource, placeholder, dialect, functionRegistry ) )
// .append( ')' );
//
// hasMore = tokens.hasMoreTokens();
// nextToken = hasMore ? tokens.nextToken() : null;
//
// continue;
// }
//
//
// // ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
//
// if ( Character.isWhitespace( token.charAt( 0 ) ) ) {
// result.append( token );
// }
// else if ( state.beforeTable ) {
// result.append( token );
// state.beforeTable = false;
// state.afterFromTable = true;
// }
// else if ( state.afterFromTable ) {
// if ( !"as".equals(lcToken) ) {
// state.afterFromTable = false;
// }
// result.append(token);
// }
// else if ( isNamedParameter(token) ) {
// result.append(token);
// }
// else if ( isIdentifier(token, dialect)
// && !isFunctionOrKeyword(lcToken, nextToken, dialect , functionRegistry) ) {
// result.append(placeholder)
// .append('.')
// .append( dialect.quote(token) );
// }
// else {
// if ( BEFORE_TABLE_KEYWORDS.contains(lcToken) ) {
// state.beforeTable = true;
// state.inFromClause = true;
// }
// else if ( state.inFromClause && ",".equals(lcToken) ) {
// state.beforeTable = true;
// }
// result.append(token);
// }
//
// //Yuck:
// if ( state.inFromClause
// && KEYWORDS.contains( lcToken ) //"as" is not in KEYWORDS
// && !BEFORE_TABLE_KEYWORDS.contains( lcToken ) ) {
// state.inFromClause = false;
// }
// }
//
// return result.toString();
// }
//
// private static class ProcessingState {
// boolean quoted = false;
// boolean quotedIdentifier = false;
// boolean beforeTable = false;
// boolean inFromClause = false;
// boolean afterFromTable = false;
// }
//
// private static enum QuotingCharacterDisposition { NONE, OPEN, CLOSE }
private static class TrimOperands {
private final String trimSpec;
private final String trimChar;
private final String from;
private final String trimSource;
private TrimOperands(List operands) {
if ( operands.size() == 1 ) {
trimSpec = null;
trimChar = null;
from = null;
trimSource = operands.get(0);
}
else if ( operands.size() == 4 ) {
trimSpec = operands.get(0);
trimChar = operands.get(1);
from = operands.get(2);
trimSource = operands.get(3);
}
else {
if ( operands.size() < 1 || operands.size() > 4 ) {
throw new HibernateException( "Unexpected number of trim function operands : " + operands.size() );
}
// trim-source will always be the last operand
trimSource = operands.get( operands.size() - 1 );
// ANSI SQL says that more than one operand means that the FROM is required
if ( ! "from".equals( operands.get( operands.size() - 2 ) ) ) {
throw new HibernateException( "Expecting FROM, found : " + operands.get( operands.size() - 2 ) );
}
from = operands.get( operands.size() - 2 );
// trim-spec, if there is one will always be the first operand
if ( "leading".equalsIgnoreCase( operands.get(0) )
|| "trailing".equalsIgnoreCase( operands.get(0) )
|| "both".equalsIgnoreCase( operands.get(0) ) ) {
trimSpec = operands.get(0);
trimChar = null;
}
else {
trimSpec = null;
if ( operands.size() - 2 == 0 ) {
trimChar = null;
}
else {
trimChar = operands.get( 0 );
}
}
}
}
}
private static String extractUntil(StringTokenizer tokens, String delimiter) {
StringBuilder valueBuilder = new StringBuilder();
String token = tokens.nextToken();
while ( ! delimiter.equalsIgnoreCase( token ) ) {
valueBuilder.append( token );
token = tokens.nextToken();
}
return valueBuilder.toString().trim();
}
public static class NoOpColumnMapper implements ColumnMapper {
public static final NoOpColumnMapper INSTANCE = new NoOpColumnMapper();
public SqlValueReference[] map(String reference) {
// return new String[] { reference };
return null;
}
}
/**
* Performs order-by template rendering without {@link ColumnMapper column mapping}. An ORDER BY template
* has all column references "qualified" with a placeholder identified by {@link Template#TEMPLATE}
*
* @param orderByFragment The order-by fragment to render.
* @param dialect The SQL dialect being used.
* @param functionRegistry The SQL function registry
*
* @return The rendered ORDER BY template.
*
* @deprecated Use {@link #translateOrderBy} instead
*/
@Deprecated
public static String renderOrderByStringTemplate(
String orderByFragment,
Dialect dialect,
SQLFunctionRegistry functionRegistry) {
return renderOrderByStringTemplate(
orderByFragment,
NoOpColumnMapper.INSTANCE,
null,
dialect,
functionRegistry
);
}
public static String renderOrderByStringTemplate(
String orderByFragment,
final ColumnMapper columnMapper,
final SessionFactoryImplementor sessionFactory,
final Dialect dialect,
final SQLFunctionRegistry functionRegistry) {
return translateOrderBy(
orderByFragment,
columnMapper,
sessionFactory,
dialect,
functionRegistry
).injectAliases( LEGACY_ORDER_BY_ALIAS_RESOLVER );
}
public static OrderByAliasResolver LEGACY_ORDER_BY_ALIAS_RESOLVER = new OrderByAliasResolver() {
@Override
public String resolveTableAlias(String columnReference) {
return TEMPLATE;
}
};
/**
* Performs order-by template rendering allowing {@link ColumnMapper column mapping}. An ORDER BY template
* has all column references "qualified" with a placeholder identified by {@link Template#TEMPLATE} which can later
* be used to easily inject the SQL alias.
*
* @param orderByFragment The order-by fragment to render.
* @param columnMapper The column mapping strategy to use.
* @param sessionFactory The session factory.
* @param dialect The SQL dialect being used.
* @param functionRegistry The SQL function registry
*
* @return The rendered ORDER BY template.
*/
public static OrderByTranslation translateOrderBy(
String orderByFragment,
final ColumnMapper columnMapper,
final SessionFactoryImplementor sessionFactory,
final Dialect dialect,
final SQLFunctionRegistry functionRegistry) {
TranslationContext context = new TranslationContext() {
public SessionFactoryImplementor getSessionFactory() {
return sessionFactory;
}
public Dialect getDialect() {
return dialect;
}
public SQLFunctionRegistry getSqlFunctionRegistry() {
return functionRegistry;
}
public ColumnMapper getColumnMapper() {
return columnMapper;
}
};
return OrderByFragmentTranslator.translate( context, orderByFragment );
}
private static boolean isNamedParameter(String token) {
return token.startsWith(":");
}
private static boolean isFunctionOrKeyword(String lcToken, String nextToken, Dialect dialect, SQLFunctionRegistry functionRegistry) {
return "(".equals(nextToken) ||
KEYWORDS.contains(lcToken) ||
isFunction(lcToken, nextToken, functionRegistry ) ||
dialect.getKeywords().contains(lcToken) ||
FUNCTION_KEYWORDS.contains(lcToken);
}
private static boolean isFunction(String lcToken, String nextToken, SQLFunctionRegistry functionRegistry) {
// checking for "(" is currently redundant because it is checked before getting here;
// doing the check anyhow, in case that earlier check goes away;
if ( "(".equals( nextToken ) ) {
return true;
}
SQLFunction function = functionRegistry.findSQLFunction(lcToken);
if ( function == null ) {
// lcToken does not refer to a function
return false;
}
// if function.hasParenthesesIfNoArguments() is true, then assume
// lcToken is not a function (since it is not followed by '(')
return ! function.hasParenthesesIfNoArguments();
}
private static boolean isIdentifier(String token, Dialect dialect) {
return token.charAt(0)=='`' || ( //allow any identifier quoted with backtick
Character.isLetter( token.charAt(0) ) && //only recognizes identifiers beginning with a letter
token.indexOf('.') < 0
);
}
}