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org.apache.openjpa.kernel.exps.AbstractExpressionBuilder 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.
*/
package org.apache.openjpa.kernel.exps;
import java.util.Arrays;
import java.util.Collection;
import java.util.HashMap;
import java.util.HashSet;
import java.util.Map;
import java.util.Set;
import org.apache.openjpa.kernel.Filters;
import org.apache.openjpa.lib.util.Localizer;
import org.apache.openjpa.lib.util.StringDistance;
import org.apache.openjpa.lib.util.Localizer.Message;
import org.apache.openjpa.meta.ClassMetaData;
import org.apache.openjpa.meta.FieldMetaData;
import org.apache.openjpa.meta.JavaTypes;
import org.apache.openjpa.meta.XMLMetaData;
import org.apache.openjpa.util.InternalException;
import org.apache.openjpa.util.OpenJPAException;
import org.apache.openjpa.util.UnsupportedException;
import org.apache.openjpa.util.UserException;
import serp.util.Strings;
/**
* Abstract base class to help build expressions. Provides
* generic language-independent support for variable resolution,
* path traversal, and error messages.
*
* @author Marc Prud'hommeaux
* @nojavadoc
*/
public abstract class AbstractExpressionBuilder {
// used for error messages
protected static final int EX_USER = 0;
protected static final int EX_FATAL = 1;
protected static final int EX_UNSUPPORTED = 2;
// common implicit type settings
public static final Class TYPE_OBJECT = Object.class;
public static final Class TYPE_STRING = String.class;
public static final Class TYPE_CHAR_OBJ = Character.class;
public static final Class TYPE_NUMBER = Number.class;
public static final Class TYPE_COLLECTION = Collection.class;
public static final Class TYPE_MAP = Map.class;
// contains types for setImplicitTypes
public static final int CONTAINS_TYPE_ELEMENT = 1;
public static final int CONTAINS_TYPE_KEY = 2;
public static final int CONTAINS_TYPE_VALUE = 3;
private static final Localizer _loc = Localizer.forPackage
(AbstractExpressionBuilder.class);
protected final Resolver resolver;
protected ExpressionFactory factory;
private final Set _accessPath = new HashSet();
private Map _seenVars = null;
private Set _boundVars = null;
/**
* Constructor.
*
* @param factory the expression factory to use
* @param resolver used to resolve variables, parameters, and class
* names used in the query
*/
public AbstractExpressionBuilder(ExpressionFactory factory,
Resolver resolver) {
this.factory = factory;
this.resolver = resolver;
}
/**
* Returns the class loader that should be used for resolving
* class names (in addition to the resolver in the query).
*/
protected abstract ClassLoader getClassLoader();
/**
* Create a proper parse exception for the given reason.
*/
protected OpenJPAException parseException(int e, String token,
Object[] args,
Exception nest) {
String argStr;
if (args == null)
argStr = getLocalizer().get(token).getMessage();
else
argStr = getLocalizer().get(token, args).getMessage();
Message msg = _loc.get("parse-error", argStr, currentQuery());
switch (e) {
case EX_FATAL:
throw new InternalException(msg, nest);
case EX_UNSUPPORTED:
throw new UnsupportedException(msg, nest);
default:
throw new UserException(msg, nest);
}
}
/**
* Register the specified metadata as being in the query's access path.
*/
protected ClassMetaData addAccessPath(ClassMetaData meta) {
_accessPath.add(meta);
return meta;
}
/**
* Return the recorded query access path.
*/
protected ClassMetaData[] getAccessPath() {
return (ClassMetaData[]) _accessPath.toArray
(new ClassMetaData[_accessPath.size()]);
}
/**
* Return true if the given variable has been bound.
*/
protected boolean isBound(Value var) {
return _boundVars != null && _boundVars.contains(var);
}
/**
* Record that the given variable is bound.
*/
protected void bind(Value var) {
if (_boundVars == null)
_boundVars = new HashSet();
_boundVars.add(var);
}
/**
* Returns a value for the given id.
*/
protected Value getVariable(String id, boolean bind) {
// check for already constructed var
if (isSeenVariable(id))
return getVariable(id);
return createVariable(id, bind);
}
protected Value createVariable(String id, boolean bind) {
// create and cache var
Class> type = getDeclaredVariableType(id);
// add this type to the set of classes in the filter's access path
ClassMetaData meta = null;
if (type == null)
type = TYPE_OBJECT;
else
meta = getMetaData(type, false);
if (meta != null) {
addAccessPath(meta);
addSchemaToContext(id, meta);
}
Value var = null;
if (bind)
var = factory.newBoundVariable(id, type);
else
var = factory.newUnboundVariable(id, type);
var.setMetaData(meta);
if (_seenVars == null)
_seenVars = new HashMap();
_seenVars.put(id, var);
addVariableToContext(id, var);
return var;
}
/**
* Validate that all unbound variables are of a PC type. If not, assume
* that the user actually made a typo that we took for an implicit
* unbound variable.
*/
protected void assertUnboundVariablesValid() {
if (_seenVars == null)
return;
Value var;
for (Map.Entry entry : _seenVars.entrySet()) {
var = entry.getValue();
if (var.getMetaData() == null && !isBound(var)
&& !isDeclaredVariable(entry.getKey())) {
throw parseException(EX_USER, "not-unbound-var",
new Object[]{ entry.getKey() }, null);
}
}
}
/**
* Returns whether the specified variable name has been explicitly
* declared. Note all query languages necessarily support declaring
* variables.
*
* @param id the variable to check
* @return true if the variabe has been explicitely declared
*/
protected abstract boolean isDeclaredVariable(String id);
/**
* Return whether the given id has been used as a variable.
*/
protected boolean isSeenVariable(String id) {
return _seenVars != null && _seenVars.containsKey(id);
}
/**
* Convenience method to get metadata for the given type.
*/
protected ClassMetaData getMetaData(Class> c, boolean required) {
return getMetaData(c, required, getClassLoader());
}
/**
* Convenience method to get metadata for the given type.
*/
protected ClassMetaData getMetaData(Class> c, boolean required,
ClassLoader loader) {
return resolver.getConfiguration().getMetaDataRepositoryInstance().
getMetaData(c, loader, required);
}
/**
* Traverse the given field in the given path.
*/
protected Value traversePath(Path path, String field) {
return traversePath(path, field, false, false);
}
protected Value traverseXPath(Path path, String field) {
XMLMetaData meta = path.getXmlMapping();
if (meta.getFieldMapping(field) == null) {
throw parseException(EX_USER, "no-field",
new Object[]{ meta.getType(), field }, null);
}
else {
// collection-valued xpath is not allowed
int type = meta.getFieldMapping(field).getTypeCode();
switch (type) {
case JavaTypes.ARRAY:
case JavaTypes.COLLECTION:
case JavaTypes.MAP:
throw new UserException(_loc.get("collection-valued-path",
field));
}
}
path.get(meta, field);
return path;
}
/**
* Traverse the given field in the given path.
*/
protected Value traversePath(Path path, String field, boolean pcOnly,
boolean allowNull) {
ClassMetaData meta = path.getMetaData();
if (meta == null)
throw parseException(EX_USER, "path-no-meta",
new Object[]{ field, path.getType() }, null);
FieldMetaData fmd = meta.getField(field);
if (fmd == null) {
Object val = traverseStaticField(meta.getDescribedType(), field);
if (val == null) {
if (isMultiValuedTraversalAttempt(path, field)) {
throw parseException(EX_USER, "multi-valued-travesal", new Object[]{field, path.last()}, null);
}
String[] all = meta.getFieldNames();
Class> cls = meta.getDescribedType();
throw parseException(EX_USER, "no-field",
new Object[] {field, cls.getSimpleName(),
StringDistance.getClosestLevenshteinDistance(field, all),
cls.getName(), Arrays.toString(all)}, null);
}
return factory.newLiteral(val, Literal.TYPE_UNKNOWN);
}
if (fmd.isEmbedded())
meta = fmd.getEmbeddedMetaData();
else
meta = fmd.getDeclaredTypeMetaData();
if (meta != null) {
addAccessPath(meta);
path.setMetaData(meta);
}
else {
// xmlsupport xpath
XMLMetaData xmlmeta = fmd.getRepository().getXMLMetaData(fmd);
if (xmlmeta != null) {
path.get(fmd, xmlmeta);
return path;
}
}
if (meta != null || !pcOnly)
path.get(fmd, allowNull);
return path;
}
/**
* Return a constant containing the value of the given static field.
*/
protected Object traverseStaticField(Class> cls, String field) {
try {
return cls.getField(field).get(null);
} catch (Exception e) {
// count not locate the field: return null
return null;
}
}
private boolean isMultiValuedTraversalAttempt(Path path, String field) {
if (path == null) return false;
if (path.last() == null) return false;
if (path.last().getElement() == null) return false;
if (path.last().getElement().getDeclaredTypeMetaData() == null) return false;
if (path.last().getElement().getDeclaredTypeMetaData().getField(field) == null) return false;
return true;
}
/**
* Returns the type of the named variable if it has been declared.
*/
protected abstract Class> getDeclaredVariableType(String name);
/**
* Set the implicit types of the given values based on the fact that
* they're used together, and based on the operator type.
*/
protected void setImplicitTypes(Value val1, Value val2,
Class> expected) {
setImplicitTypes(val1, val2, expected, resolver);
}
protected static void setImplicitTypes(Value val1, Value val2,
Class> expected, Resolver resolver) {
Class> c1 = val1.getType();
Class> c2 = val2.getType();
boolean o1 = c1 == TYPE_OBJECT;
boolean o2 = c2 == TYPE_OBJECT;
if (o1 && !o2) {
val1.setImplicitType(c2);
if (val1.getMetaData() == null && !val1.isXPath())
val1.setMetaData(val2.getMetaData());
} else if (!o1 && o2) {
val2.setImplicitType(c1);
if (val2.getMetaData() == null && !val1.isXPath())
val2.setMetaData(val1.getMetaData());
} else if (o1 && o2 && expected != null) {
// we never expect a pc type, so don't bother with metadata
val1.setImplicitType(expected);
val2.setImplicitType(expected);
} else if (isNumeric(val1.getType()) != isNumeric(val2.getType())) {
if (resolver.getConfiguration().getCompatibilityInstance().
getQuotedNumbersInQueries())
convertTypesQuotedNumbers(val1, val2);
else
convertTypes(val1, val2);
}
}
/**
* Perform conversions to make values compatible.
*/
public static void convertTypes(Value val1, Value val2) {
Class> t1 = val1.getType();
Class> t2 = val2.getType();
// allow string-to-char conversions
if (t1 == TYPE_STRING && (Filters.wrap(t2) == TYPE_CHAR_OBJ
&& !(val2 instanceof Path))) {
val2.setImplicitType(String.class);
return;
}
if (t2 == TYPE_STRING && (Filters.wrap(t1) == TYPE_CHAR_OBJ)
&& !(val1 instanceof Path)) {
val1.setImplicitType(String.class);
return;
}
// if the non-numeric side is a string of length 1, cast it
// to a character
if (t1 == TYPE_STRING && val1 instanceof Literal
&& ((String) ((Literal) val1).getValue()).length() == 1) {
val1.setImplicitType(Character.class);
return;
}
if (t2 == TYPE_STRING && val2 instanceof Literal
&& ((String) ((Literal) val2).getValue()).length() == 1) {
val2.setImplicitType(Character.class);
return;
}
// error
String left;
String right;
if (val1 instanceof Path && ((Path) val1).last() != null)
left = _loc.get("non-numeric-path", ((Path) val1).last().
getName(), t1.getName()).getMessage();
else
left = _loc.get("non-numeric-value", t1.getName()).getMessage();
if (val2 instanceof Path && ((Path) val2).last() != null)
right = _loc.get("non-numeric-path", ((Path) val2).last().
getName(), t2.getName()).getMessage();
else
right = _loc.get("non-numeric-value", t2.getName()).getMessage();
throw new UserException(_loc.get("non-numeric-comparison",
left, right));
}
/**
* Perform conversions to make values compatible.
*/
public static void convertTypesQuotedNumbers(Value val1, Value val2) {
Class> t1 = val1.getType();
Class> t2 = val2.getType();
// if we're comparing to a single-quoted string, convert
// the value according to the 3.1 rules.
if (t1 == TYPE_STRING && val1 instanceof Literal
&& ((Literal) val1).getParseType() == Literal.TYPE_SQ_STRING) {
String s = (String) ((Literal) val1).getValue();
if (s.length() > 1) {
((Literal) val1).setValue(s.substring(0, 1));
val1.setImplicitType(Character.TYPE);
}
}
if (t2 == TYPE_STRING && val2 instanceof Literal
&& ((Literal) val2).getParseType() == Literal.TYPE_SQ_STRING) {
String s = (String) ((Literal) val2).getValue();
if (s.length() > 1) {
((Literal) val2).setValue(s.substring(0, 1));
val2.setImplicitType(Character.TYPE);
}
}
// if we're comparing to a double-quoted string, convert the
// value directly to a number
if (t1 == TYPE_STRING && val1 instanceof Literal
&& ((Literal) val1).getParseType() == Literal.TYPE_STRING) {
String s = (String) ((Literal) val1).getValue();
((Literal) val1).setValue(Strings.parse(s, Filters.wrap(t2)));
val1.setImplicitType(t2);
}
if (t2 == TYPE_STRING && val2 instanceof Literal
&& ((Literal) val2).getParseType() == Literal.TYPE_STRING) {
String s = (String) ((Literal) val2).getValue();
((Literal) val2).setValue(Strings.parse(s, Filters.wrap(t1)));
val2.setImplicitType(t1);
}
}
/**
* Return true if given class can be used as a number.
*/
public static boolean isNumeric(Class> type) {
type = Filters.wrap(type);
return Number.class.isAssignableFrom(type)
|| type == Character.TYPE || type == TYPE_CHAR_OBJ;
}
/**
* Set the implicit types of the given values based on the fact that
* the first is supposed to contain the second.
*/
protected void setImplicitContainsTypes(Value val1, Value val2, int op) {
if (val1.getType() == TYPE_OBJECT) {
if (op == CONTAINS_TYPE_ELEMENT)
val1.setImplicitType(Collection.class);
else
val1.setImplicitType(Map.class);
}
if (val2.getType() == TYPE_OBJECT && val1 instanceof Path) {
FieldMetaData fmd = ((Path) val1).last();
ClassMetaData meta;
if (fmd != null) {
if (op == CONTAINS_TYPE_ELEMENT || op == CONTAINS_TYPE_VALUE) {
val2.setImplicitType(fmd.getElement().getDeclaredType());
meta = fmd.getElement().getDeclaredTypeMetaData();
if (meta != null) {
val2.setMetaData(meta);
addAccessPath(meta);
}
} else {
val2.setImplicitType(fmd.getKey().getDeclaredType());
meta = fmd.getKey().getDeclaredTypeMetaData();
if (meta != null) {
val2.setMetaData(meta);
addAccessPath(meta);
}
}
}
}
}
/**
* Set the implicit type of the given value to the given class.
*/
protected static void setImplicitType(Value val, Class> expected) {
// we never expect a pc type, so no need to worry about metadata
if (val.getType() == TYPE_OBJECT)
val.setImplicitType(expected);
}
/**
* Used for obtaining the {@link Localizer} to use for translating
* error messages.
*/
protected abstract Localizer getLocalizer();
/**
* Returns the current string being parsed; used for error messages.
*/
protected abstract String currentQuery ();
/**
* Register the schema alias to the current JPQL query context.
* @param alias
* @param meta
*/
protected abstract void addSchemaToContext(String alias,
ClassMetaData meta);
/**
* Register the variable associated with the schema alias (id) to
* the current JPQL query context.
* @param id
* @param var
*/
protected abstract void addVariableToContext(String id, Value var);
/**
* Returns the variable associated with the schema alias (id).
* @param id
* @return
*/
protected abstract Value getVariable(String id);
}