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/*
 * 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.persistence;

import java.sql.Time;
import java.sql.Timestamp;
import java.util.Calendar;
import java.util.Collections;
import java.util.Date;
import java.util.HashMap;
import java.util.HashSet;
import java.util.Map;
import java.util.Map.Entry;
import java.util.Set;

import javax.persistence.Parameter;
import javax.persistence.TemporalType;
import javax.persistence.TypedQuery;
import javax.persistence.criteria.ParameterExpression;

import org.apache.openjpa.kernel.Filters;
import org.apache.openjpa.kernel.QueryLanguages;
import org.apache.openjpa.lib.util.Localizer;
import org.apache.openjpa.lib.util.OrderedMap;
import org.apache.openjpa.meta.QueryMetaData;
import org.apache.openjpa.persistence.criteria.BindableParameter;

/**
 * An abstract implementation of the Query interface.
 */
public abstract class AbstractQuery implements OpenJPAQuerySPI {
    private static final Localizer _loc = Localizer.forPackage(AbstractQuery.class);

    protected boolean _relaxBindParameterTypeChecking;
    protected boolean _convertPositionalParams;

    // Will be null if this isn't a NamedQuery
    protected final QueryMetaData _qmd;

    protected transient EntityManagerImpl _em;

    protected Map, Object> _boundParams;
    protected Map> _declaredParams;

    public AbstractQuery(QueryMetaData qmd, EntityManagerImpl em) {
        _qmd = qmd;
        _em = em;

        _boundParams = new HashMap, Object>();
    }

    /**
     * Gets a map of values of each parameter indexed by their original key.
     * 
     * @return an empty map if no parameter is declared for this query. The unbound parameters has a value of null which
     *         is indistinguishable from the value being bound to null.
     */
    Map getParameterValues() {
        Map result = new HashMap();
        if (_boundParams == null)
            return result;
        for (Map.Entry> entry : getDeclaredParameters().entrySet()) {
            Object paramKey = entry.getKey();
            Parameter param = entry.getValue();
            result.put(paramKey, _boundParams.get(param));
        }
        return result;
    }

    public boolean isNative() {
        return QueryLanguages.LANG_SQL.equals(getLanguage());
    }

    protected abstract void assertOpen();

    protected abstract void lock();

    protected abstract void unlock();

   /**
    * @return a map of parameter name to type for this query.
    */
    protected abstract OrderedMap> getParamTypes();

    // =================================================================================
    // Parameter processing routines
    // =================================================================================

    /**
     * Binds the parameter identified by the given position to the given value. The parameter are bound to a value in
     * the context of this query. The same parameter may be bound to a different value in the context of another 
     * query. 
* For non-native queries, the given position must be a valid position in the declared parameters.
* As native queries may not be parsed and hence their declared parameters may not be known, setting an positional * parameter has the side-effect of a positional parameter being declared. * * @param position * positive, integer position of the parameter * @param value * an assignment compatible value * @return the same query instance * @throws IllegalArgumentException * if position does not correspond to a positional parameter of the query or if the argument is of * incorrect type */ public OpenJPAQuery setParameter(int pos, Object value) { if (_convertPositionalParams == true) { return setParameter("_" + String.valueOf(pos), value); } assertOpen(); _em.assertNotCloseInvoked(); lock(); try { if (pos < 1) { throw new IllegalArgumentException(_loc.get("illegal-index", pos).getMessage()); } Parameter param = null; if (isNative()) { param = new ParameterImpl(pos, Object.class); declareParameter(pos, param); } else { param = getParameter(pos); } bindValue(param, value); return this; } finally { unlock(); } } /** * Sets the value of the given positional parameter after conversion of the given value to the given Temporal Type. */ public OpenJPAQuery setParameter(int position, Calendar value, TemporalType t) { return setParameter(position, convertTemporalType(value, t)); } /** * Sets the value of the given named parameter after conversion of the given value to the given Temporal Type. */ public OpenJPAQuery setParameter(int position, Date value, TemporalType type) { return setParameter(position, convertTemporalType(value, type)); } /** * Converts the given Date to a value corresponding to given temporal type. */ Object convertTemporalType(Date value, TemporalType type) { switch (type) { case DATE: return value; case TIME: return new Time(value.getTime()); case TIMESTAMP: return new Timestamp(value.getTime()); default: return null; } } Object convertTemporalType(Calendar value, TemporalType type) { return convertTemporalType(value.getTime(), type); } /** * Affirms if declared parameters use position identifier. */ public boolean hasPositionalParameters() { return !getDeclaredParameterKeys(Integer.class).isEmpty(); } /** * Gets the array of positional parameter values. The n-th array element represents (n+1)-th positional parameter. * If a parameter has been declared but not bound to a value then the value is null and hence is indistinguishable * from the value being actually null. If the parameter indexing is not contiguous then the unspecified parameters * are considered as null. */ public Object[] getPositionalParameters() { lock(); try { Set positionalKeys = getDeclaredParameterKeys(Integer.class); Object[] result = new Object[calculateMaxKey(positionalKeys)]; for (Integer pos : positionalKeys) { Parameter param = getParameter(pos); result[pos.intValue() - 1] = isBound(param) ? getParameterValue(pos) : null; } return result; } finally { unlock(); } } /** * Calculate the maximum value of the given set. */ int calculateMaxKey(Set p) { if (p == null) return 0; int max = Integer.MIN_VALUE; for (Integer i : p) max = Math.max(max, i); return max; } /** * Binds the given values as positional parameters. The n-th array element value is set to a Parameter with (n+1)-th * positional identifier. */ public OpenJPAQuery setParameters(Object... params) { assertOpen(); _em.assertNotCloseInvoked(); lock(); try { clearBinding(); for (int i = 0; params != null && i < params.length; i++) { setParameter(i + 1, params[i]); } return this; } finally { unlock(); } } void clearBinding() { if (_boundParams != null) _boundParams.clear(); } /** * Gets the value of all the named parameters. * * If a parameter has been declared but not bound to a value then the value is null and hence is indistinguishable * from the value being actually null. */ public Map getNamedParameters() { lock(); try { Map result = new HashMap(); Set namedKeys = getDeclaredParameterKeys(String.class); for (String name : namedKeys) { Parameter param = getParameter(name); result.put(name, isBound(param) ? getParameterValue(name) : null); } return result; } finally { unlock(); } } /** * Sets the values of the parameters from the given Map. The keys of the given map designate the name of the * declared parameter. */ public OpenJPAQuery setParameters(Map params) { assertOpen(); _em.assertNotCloseInvoked(); lock(); try { clearBinding(); if (params != null) for (Map.Entry e : (Set) params.entrySet()) setParameter((String) e.getKey(), e.getValue()); return this; } finally { unlock(); } } /** * Get the parameter of the given name and type. * * @throws IllegalArgumentException * if the parameter of the specified name does not exist or is not assignable to the type * @throws IllegalStateException * if invoked on a native query */ public Parameter getParameter(String name, Class type) { Parameter param = getParameter(name); if (param.getParameterType().isAssignableFrom(type)) throw new IllegalArgumentException(param + " does not match the requested type " + type); return (Parameter) param; } /** * Get the positional parameter with the given position and type. * * @throws IllegalArgumentException * if the parameter with the specified position does not exist or is not assignable to the type * @throws IllegalStateException * if invoked on a native query unless the same parameter position is bound already. */ public Parameter getParameter(int pos, Class type) { if (_convertPositionalParams == true) { return getParameter("_" + String.valueOf(pos), type); } Parameter param = getParameter(pos); if (param.getParameterType().isAssignableFrom(type)) throw new IllegalArgumentException(param + " does not match the requested type " + type); return (Parameter) param; } /** * Return the value bound to the parameter. * * @param param * parameter object * @return parameter value * @throws IllegalStateException * if the parameter has not been been bound * @throws IllegalArgumentException * if the parameter does not belong to this query */ public T getParameterValue(Parameter p) { if (!isBound(p)) { throw new IllegalArgumentException(_loc.get("param-missing", p, getQueryString(), getBoundParameterKeys()) .getMessage()); } return (T) _boundParams.get(p); } /** * Gets the parameters declared in this query. */ public Set> getParameters() { Set> result = new HashSet>(); result.addAll(getDeclaredParameters().values()); return result; } public OpenJPAQuery setParameter(Parameter p, T arg1) { bindValue(p, arg1); if (BindableParameter.class.isInstance(p)) { BindableParameter.class.cast(p).setValue(arg1); } return this; } public OpenJPAQuery setParameter(Parameter p, Date date, TemporalType type) { return setParameter(p, (Date) convertTemporalType(date, type)); } public TypedQuery setParameter(Parameter p, Calendar cal, TemporalType type) { return setParameter(p, (Calendar) convertTemporalType(cal, type)); } /** * Get the parameter object corresponding to the declared parameter of the given name. This method is not required * to be supported for native queries. * * @throws IllegalArgumentException * if the parameter of the specified name does not exist * @throws IllegalStateException * if invoked on a native query */ public Parameter getParameter(String name) { if (isNative()) { throw new IllegalStateException(_loc.get("param-named-non-native", name).getMessage()); } Parameter param = getDeclaredParameters().get(name); if (param == null) { Set exps = getDeclaredParameterKeys(ParameterExpression.class); for (ParameterExpression e : exps) { if (name.equals(e.getName())) return e; } throw new IllegalArgumentException(_loc.get("param-missing-name", name, getQueryString(), getDeclaredParameterKeys()).getMessage()); } return param; } /** * Get the positional parameter with the given position. The parameter may just have been declared and not bound to * a value. * * @param position * specified in the user query. * @return parameter object * @throws IllegalArgumentException * if the parameter with the given position does not exist */ public Parameter getParameter(int pos) { if (_convertPositionalParams == true) { return getParameter("_" + String.valueOf(pos)); } Parameter param = getDeclaredParameters().get(pos); if (param == null) throw new IllegalArgumentException(_loc.get("param-missing-pos", pos, getQueryString(), getDeclaredParameterKeys()).getMessage()); return param; } /** * Return the value bound to the parameter. * * @param name * name of the parameter * @return parameter value * * @throws IllegalStateException * if this parameter has not been bound */ public Object getParameterValue(String name) { return _boundParams.get(getParameter(name)); } /** * Return the value bound to the parameter. * * @param pos * position of the parameter * @return parameter value * * @throws IllegalStateException * if this parameter has not been bound */ public Object getParameterValue(int pos) { Parameter param = getParameter(pos); assertBound(param); return _boundParams.get(param); } /** * Gets the parameter keys bound with this query. Parameter key can be Integer, String or a ParameterExpression * itself but all parameters keys of a particular query are of the same type. */ public Set getBoundParameterKeys() { if (_boundParams == null) return Collections.EMPTY_SET; getDeclaredParameters(); Set result = new HashSet(); for (Map.Entry> entry : _declaredParams.entrySet()) { if (isBound(entry.getValue())) { result.add(entry.getKey()); } } return result; } /** * Gets the declared parameter keys in the given query. This information is only available after the query has been * parsed. As native language queries are not parsed, this information is not available for them. * * @return set of parameter identifiers in a parsed query */ public Set getDeclaredParameterKeys() { return getDeclaredParameters().keySet(); } public Set getDeclaredParameterKeys(Class keyType) { Set result = new HashSet(); for (Object key : getDeclaredParameterKeys()) { if (keyType.isInstance(key)) result.add((T) key); } return result; } /** * Gets the parameter instances declared in this query. All parameter keys are of the same type. It is not allowed * to mix keys of different type such as named and positional keys. * * For string-based queries, the parser supplies the information about the declared parameters as a LinkedMap of * expected parameter value type indexed by parameter identifier. For non string-based queries that a facade itself * may construct (e.g. CriteriaQuery), the parameters must be declared by the caller. This receiver constructs * concrete Parameter instances from the given parameter identifiers. * * @return a Map where the key represents the original identifier of the parameter (can be a String, Integer or a * ParameterExpression itself) and the value is the concrete Parameter instance either constructed as a * result of this call or supplied by declaring the parameter explicitly via * {@linkplain #declareParameter(Parameter)}. */ public Map> getDeclaredParameters() { if (_declaredParams == null) { _declaredParams = new HashMap>(); OrderedMap> paramTypes = null; // Check to see if we have a cached version of the paramTypes in QueryMetaData. if (_qmd != null) { paramTypes = _qmd.getParamTypes(); } if (paramTypes == null) { paramTypes = getParamTypes(); // Cache the param types as they haven't been set yet. if (_qmd != null) { _qmd.setParamTypes(paramTypes); } } for (Entry> entry : paramTypes.entrySet()) { Object key = entry.getKey(); Class expectedValueType = entry.getValue(); Parameter param; if (key instanceof Integer) { param = new ParameterImpl((Integer) key, expectedValueType); } else if (key instanceof String) { param = new ParameterImpl((String) key, expectedValueType); } else if (key instanceof Parameter) { param = (Parameter) key; } else { throw new IllegalArgumentException("parameter identifier " + key + " unrecognized"); } declareParameter(key, param); } } return _declaredParams; } /** * Declares the given parameter for this query. Used by non-string based queries that are constructed by the facade * itself rather than OpenJPA parsing the query to detect the declared parameters. * * @param key * this is the key to identify the parameter later in the context of this query. Valid key types are * Integer, String or ParameterExpression itself. * @param the * parameter instance to be declared */ public void declareParameter(Object key, Parameter param) { if (_declaredParams == null) { _declaredParams = new HashMap>(); } _declaredParams.put(key, param); } /** * Affirms if the given parameter is bound to a value for this query. */ public boolean isBound(Parameter param) { return _boundParams != null && _boundParams.containsKey(param); } void assertBound(Parameter param) { if (!isBound(param)) { throw new IllegalStateException(_loc.get("param-not-bound", param, getQueryString(), getBoundParameterKeys()).getMessage()); } } /** * Binds the given value to the given parameter. Validates if the parameter can accept the value by its type. */ void bindValue(Parameter param, Object value) { Object bindVal = assertValueAssignable(param, value); _boundParams.put(param, bindVal); } public OpenJPAQuery setParameter(String name, Calendar value, TemporalType type) { return setParameter(name, convertTemporalType(value, type)); } public OpenJPAQuery setParameter(String name, Date value, TemporalType type) { return setParameter(name, convertTemporalType(value, type)); } /** * Sets the parameter of the given name to the given value. */ public OpenJPAQuery setParameter(String name, Object value) { assertOpen(); _em.assertNotCloseInvoked(); lock(); try { // native queries can not have named parameters if (isNative()) { throw new IllegalArgumentException(_loc.get("no-named-params", name, getQueryString()).toString()); } else { bindValue(getParameter(name), value); } return this; } finally { unlock(); } } /** * Convert the given value to match the given parameter type, if possible. * * @param param * a query parameter * @param v * a user-supplied value for the parameter */ Object assertValueAssignable(Parameter param, Object v) { Class expectedType = param.getParameterType(); if (v == null) { if (expectedType.isPrimitive()) throw new IllegalArgumentException(_loc.get("param-null-primitive", param).getMessage()); return v; } if (getRelaxBindParameterTypeChecking()) { try { return Filters.convert(v, expectedType); } catch (Exception e) { throw new IllegalArgumentException(_loc.get("param-type-mismatch", new Object[] { param, getQueryString(), v, v.getClass().getName(), expectedType.getName() }) .getMessage()); } } else { if (!Filters.canConvert(v.getClass(), expectedType, true)) { throw new IllegalArgumentException(_loc.get("param-type-mismatch", new Object[] { param, getQueryString(), v, v.getClass().getName(), expectedType.getName() }) .getMessage()); } else { return v; } } } // ================== End of Parameter Processing routines ================================ @Override public boolean getRelaxBindParameterTypeChecking() { return _relaxBindParameterTypeChecking; } public void setRelaxBindParameterTypeChecking(Object value) { if (value != null) { if (value instanceof String) { _relaxBindParameterTypeChecking = "true".equalsIgnoreCase(value.toString()); } else if (value instanceof Boolean) { _relaxBindParameterTypeChecking = ((Boolean) value).booleanValue(); } } } }