Search in sources :

Example 1 with InvokeExpression

use of org.datanucleus.store.query.expression.InvokeExpression in project datanucleus-rdbms by datanucleus.

the class QueryToSQLMapper method getInvokedSqlExpressionForInvokeExpression.

protected SQLExpression getInvokedSqlExpressionForInvokeExpression(InvokeExpression expr) {
    Expression invokedExpr = expr.getLeft();
    SQLExpression invokedSqlExpr = null;
    if (invokedExpr == null) {
    // Static method
    } else if (invokedExpr instanceof PrimaryExpression) {
        processPrimaryExpression((PrimaryExpression) invokedExpr);
        invokedSqlExpr = stack.pop();
    } else if (invokedExpr instanceof Literal) {
        processLiteral((Literal) invokedExpr);
        invokedSqlExpr = stack.pop();
    } else if (invokedExpr instanceof ParameterExpression) {
        // TODO May be needed to set the second parameter to "false" here and then if the method
        // being invoked needs the parameters as a normal SQLLiteral then allow it to convert it itself
        processParameterExpression((ParameterExpression) invokedExpr, true);
        invokedSqlExpr = stack.pop();
    } else if (invokedExpr instanceof InvokeExpression) {
        processInvokeExpression((InvokeExpression) invokedExpr);
        invokedSqlExpr = stack.pop();
    } else if (invokedExpr instanceof VariableExpression) {
        processVariableExpression((VariableExpression) invokedExpr);
        invokedSqlExpr = stack.pop();
    } else if (invokedExpr instanceof ArrayExpression) {
        ArrayExpression arrExpr = (ArrayExpression) invokedExpr;
        SQLExpression[] arrSqlExprs = new SQLExpression[arrExpr.getArraySize()];
        for (int i = 0; i < arrExpr.getArraySize(); i++) {
            Expression arrElemExpr = arrExpr.getElement(i);
            arrElemExpr.evaluate(this);
            arrSqlExprs[i] = stack.pop();
        }
        JavaTypeMapping m = exprFactory.getMappingForType(Object[].class, false);
        invokedSqlExpr = new org.datanucleus.store.rdbms.sql.expression.ArrayExpression(stmt, m, arrSqlExprs);
    } else if (invokedExpr instanceof DyadicExpression) {
        DyadicExpression dyExpr = (DyadicExpression) invokedExpr;
        dyExpr.evaluate(this);
        invokedSqlExpr = stack.pop();
    } else {
        throw new NucleusException("Dont currently support invoke expression " + invokedExpr);
    }
    return invokedSqlExpr;
}
Also used : InvokeExpression(org.datanucleus.store.query.expression.InvokeExpression) SQLExpression(org.datanucleus.store.rdbms.sql.expression.SQLExpression) PrimaryExpression(org.datanucleus.store.query.expression.PrimaryExpression) JavaTypeMapping(org.datanucleus.store.rdbms.mapping.java.JavaTypeMapping) VariableExpression(org.datanucleus.store.query.expression.VariableExpression) DyadicExpression(org.datanucleus.store.query.expression.DyadicExpression) PrimaryExpression(org.datanucleus.store.query.expression.PrimaryExpression) BooleanSubqueryExpression(org.datanucleus.store.rdbms.sql.expression.BooleanSubqueryExpression) TypeConverterExpression(org.datanucleus.store.rdbms.sql.expression.TypeConverterExpression) StringExpression(org.datanucleus.store.rdbms.sql.expression.StringExpression) NumericSubqueryExpression(org.datanucleus.store.rdbms.sql.expression.NumericSubqueryExpression) StringSubqueryExpression(org.datanucleus.store.rdbms.sql.expression.StringSubqueryExpression) MapExpression(org.datanucleus.store.rdbms.sql.expression.MapExpression) ArrayExpression(org.datanucleus.store.query.expression.ArrayExpression) CaseExpression(org.datanucleus.store.query.expression.CaseExpression) CreatorExpression(org.datanucleus.store.query.expression.CreatorExpression) NewObjectExpression(org.datanucleus.store.rdbms.sql.expression.NewObjectExpression) OrderExpression(org.datanucleus.store.query.expression.OrderExpression) TemporalSubqueryExpression(org.datanucleus.store.rdbms.sql.expression.TemporalSubqueryExpression) ClassExpression(org.datanucleus.store.query.expression.ClassExpression) BooleanExpression(org.datanucleus.store.rdbms.sql.expression.BooleanExpression) Expression(org.datanucleus.store.query.expression.Expression) SQLExpression(org.datanucleus.store.rdbms.sql.expression.SQLExpression) ParameterExpression(org.datanucleus.store.query.expression.ParameterExpression) UnboundExpression(org.datanucleus.store.rdbms.sql.expression.UnboundExpression) TemporalExpression(org.datanucleus.store.rdbms.sql.expression.TemporalExpression) SubqueryExpression(org.datanucleus.store.query.expression.SubqueryExpression) ResultAliasExpression(org.datanucleus.store.rdbms.sql.expression.ResultAliasExpression) VariableExpression(org.datanucleus.store.query.expression.VariableExpression) TypeExpression(org.datanucleus.store.query.expression.TypeExpression) NumericExpression(org.datanucleus.store.rdbms.sql.expression.NumericExpression) CollectionExpression(org.datanucleus.store.rdbms.sql.expression.CollectionExpression) DyadicExpression(org.datanucleus.store.query.expression.DyadicExpression) ColumnExpression(org.datanucleus.store.rdbms.sql.expression.ColumnExpression) JoinExpression(org.datanucleus.store.query.expression.JoinExpression) InvokeExpression(org.datanucleus.store.query.expression.InvokeExpression) TemporalLiteral(org.datanucleus.store.rdbms.sql.expression.TemporalLiteral) Literal(org.datanucleus.store.query.expression.Literal) SQLLiteral(org.datanucleus.store.rdbms.sql.expression.SQLLiteral) ParameterLiteral(org.datanucleus.store.rdbms.sql.expression.ParameterLiteral) CollectionLiteral(org.datanucleus.store.rdbms.sql.expression.CollectionLiteral) BooleanLiteral(org.datanucleus.store.rdbms.sql.expression.BooleanLiteral) IntegerLiteral(org.datanucleus.store.rdbms.sql.expression.IntegerLiteral) NullLiteral(org.datanucleus.store.rdbms.sql.expression.NullLiteral) ParameterExpression(org.datanucleus.store.query.expression.ParameterExpression) ArrayExpression(org.datanucleus.store.query.expression.ArrayExpression) NucleusException(org.datanucleus.exceptions.NucleusException)

Example 2 with InvokeExpression

use of org.datanucleus.store.query.expression.InvokeExpression in project datanucleus-rdbms by datanucleus.

the class QueryToSQLMapper method processPrimaryExpression.

/* (non-Javadoc)
     * @see org.datanucleus.query.evaluator.AbstractExpressionEvaluator#processPrimaryExpression(org.datanucleus.query.expression.PrimaryExpression)
     */
protected Object processPrimaryExpression(PrimaryExpression expr) {
    SQLExpression sqlExpr = null;
    if (expr.getLeft() != null) {
        if (expr.getLeft() instanceof DyadicExpression && expr.getLeft().getOperator() == Expression.OP_CAST) {
            String exprCastName = null;
            if (expr.getLeft().getLeft() instanceof PrimaryExpression) {
                exprCastName = "CAST_" + ((PrimaryExpression) expr.getLeft().getLeft()).getId();
            } else if (expr.getLeft().getLeft() instanceof VariableExpression) {
                exprCastName = "CAST_" + ((VariableExpression) expr.getLeft().getLeft()).getId();
            } else if (expr.getLeft().getLeft() instanceof InvokeExpression) {
                exprCastName = "CAST_" + expr.getLeft().getLeft();
            } else {
                throw new NucleusException("Don't currently support cast of " + expr.getLeft().getLeft());
            }
            expr.getLeft().getLeft().evaluate(this);
            sqlExpr = stack.pop();
            JavaTypeMapping mapping = sqlExpr.getJavaTypeMapping();
            if (mapping instanceof EmbeddedMapping) {
                // Cast of an embedded field, so use same table
                // Extract what we are casting it to
                Literal castLitExpr = (Literal) expr.getLeft().getRight();
                Class castType = resolveClass((String) castLitExpr.getLiteral());
                AbstractClassMetaData castCmd = ec.getMetaDataManager().getMetaDataForClass(castType, clr);
                JavaTypeMapping discMapping = ((EmbeddedMapping) mapping).getDiscriminatorMapping();
                if (discMapping != null) {
                    // Should have a discriminator always when casting this
                    SQLExpression discExpr = exprFactory.newExpression(stmt, sqlExpr.getSQLTable(), discMapping);
                    Object discVal = castCmd.getDiscriminatorValue();
                    SQLExpression discValExpr = exprFactory.newLiteral(stmt, discMapping, discVal);
                    BooleanExpression discRestrictExpr = discExpr.eq(discValExpr);
                    Iterator<String> subclassIter = storeMgr.getSubClassesForClass(castType.getName(), true, clr).iterator();
                    while (subclassIter.hasNext()) {
                        String subclassName = subclassIter.next();
                        AbstractClassMetaData subtypeCmd = storeMgr.getMetaDataManager().getMetaDataForClass(subclassName, clr);
                        discVal = subtypeCmd.getDiscriminatorValue();
                        discValExpr = exprFactory.newLiteral(stmt, discMapping, discVal);
                        BooleanExpression subtypeExpr = discExpr.eq(discValExpr);
                        discRestrictExpr = discRestrictExpr.ior(subtypeExpr);
                    }
                    stmt.whereAnd(discRestrictExpr, true);
                }
                SQLTableMapping tblMapping = new SQLTableMapping(sqlExpr.getSQLTable(), castCmd, sqlExpr.getJavaTypeMapping());
                setSQLTableMappingForAlias(exprCastName, tblMapping);
                SQLTableMapping sqlMapping = getSQLTableMappingForPrimaryExpression(stmt, exprCastName, expr, Boolean.FALSE);
                if (sqlMapping == null) {
                    throw new NucleusException("PrimaryExpression " + expr + " is not yet supported");
                }
                sqlExpr = exprFactory.newExpression(stmt, sqlMapping.table, sqlMapping.mapping);
                stack.push(sqlExpr);
                return sqlExpr;
            }
            // Evaluate the cast
            expr.getLeft().evaluate(this);
            sqlExpr = stack.pop();
            // Extract what we are casting it to
            Literal castLitExpr = (Literal) expr.getLeft().getRight();
            AbstractClassMetaData castCmd = ec.getMetaDataManager().getMetaDataForClass(resolveClass((String) castLitExpr.getLiteral()), clr);
            SQLTableMapping tblMapping = new SQLTableMapping(sqlExpr.getSQLTable(), castCmd, sqlExpr.getJavaTypeMapping());
            setSQLTableMappingForAlias(exprCastName, tblMapping);
            SQLTableMapping sqlMapping = getSQLTableMappingForPrimaryExpression(stmt, exprCastName, expr, Boolean.FALSE);
            if (sqlMapping == null) {
                throw new NucleusException("PrimaryExpression " + expr + " is not yet supported");
            }
            sqlExpr = exprFactory.newExpression(stmt, sqlMapping.table, sqlMapping.mapping);
            stack.push(sqlExpr);
            return sqlExpr;
        } else if (expr.getLeft() instanceof ParameterExpression) {
            // "{paramExpr}.field[.field[.field]]"
            // Need parameter values to process this
            setNotPrecompilable();
            ParameterExpression paramExpr = (ParameterExpression) expr.getLeft();
            Symbol paramSym = compilation.getSymbolTable().getSymbol(paramExpr.getId());
            if (paramSym.getValueType() != null && paramSym.getValueType().isArray()) {
                // Special case : array "methods" (particularly "length")
                String first = expr.getTuples().get(0);
                processParameterExpression(paramExpr, true);
                SQLExpression paramSqlExpr = stack.pop();
                sqlExpr = exprFactory.invokeMethod(stmt, "ARRAY", first, paramSqlExpr, null);
                stack.push(sqlExpr);
                return sqlExpr;
            }
            // Create Literal for the parameter (since we need to perform operations on it)
            processParameterExpression(paramExpr, true);
            SQLExpression paramSqlExpr = stack.pop();
            SQLLiteral lit = (SQLLiteral) paramSqlExpr;
            Object paramValue = lit.getValue();
            List<String> tuples = expr.getTuples();
            Iterator<String> tuplesIter = tuples.iterator();
            Object objValue = paramValue;
            while (tuplesIter.hasNext()) {
                String fieldName = tuplesIter.next();
                if (objValue == null) {
                    NucleusLogger.QUERY.warn(">> Compilation of " + expr + " : need to direct through field \"" + fieldName + "\" on null value, hence not compilable!");
                    // Null value, and we have further path to navigate TODO Handle this "NPE"
                    break;
                }
                objValue = getValueForObjectField(objValue, fieldName);
                // Using literal value of parameter, so cannot precompile it
                setNotPrecompilable();
            }
            if (objValue == null) {
                sqlExpr = exprFactory.newLiteral(stmt, null, null);
                stack.push(sqlExpr);
                return sqlExpr;
            }
            JavaTypeMapping m = exprFactory.getMappingForType(objValue.getClass(), false);
            sqlExpr = exprFactory.newLiteral(stmt, m, objValue);
            stack.push(sqlExpr);
            return sqlExpr;
        } else if (expr.getLeft() instanceof VariableExpression) {
            // "{varExpr}.field[.field[.field]]"
            VariableExpression varExpr = (VariableExpression) expr.getLeft();
            processVariableExpression(varExpr);
            SQLExpression varSqlExpr = stack.pop();
            if (varSqlExpr instanceof UnboundExpression) {
                // Bind as CROSS JOIN for now
                processUnboundExpression((UnboundExpression) varSqlExpr);
                varSqlExpr = stack.pop();
            }
            Class varType = clr.classForName(varSqlExpr.getJavaTypeMapping().getType());
            if (varSqlExpr.getSQLStatement() == stmt.getParentStatement()) {
                // Use parent mapper to get the mapping for this field since it has the table
                SQLTableMapping sqlMapping = parentMapper.getSQLTableMappingForPrimaryExpression(stmt, null, expr, Boolean.FALSE);
                if (sqlMapping == null) {
                    throw new NucleusException("PrimaryExpression " + expr.getId() + " is not yet supported");
                }
                // TODO Cater for the table required to join to not being the primary table of the outer query
                // This should check on
                // getDatastoreAdapter().supportsOption(RDBMSAdapter.ACCESS_PARENTQUERY_IN_SUBQUERY))
                sqlExpr = exprFactory.newExpression(varSqlExpr.getSQLStatement(), sqlMapping.table, sqlMapping.mapping);
                stack.push(sqlExpr);
                return sqlExpr;
            }
            SQLTableMapping varTblMapping = getSQLTableMappingForAlias(varExpr.getId());
            if (varTblMapping == null) {
                throw new NucleusUserException("Variable " + varExpr.getId() + " is not yet bound, so cannot get field " + expr.getId());
            }
            if (varTblMapping.cmd == null) {
                throw new NucleusUserException("Variable " + varExpr.getId() + " of type " + varType.getName() + " cannot evaluate " + expr.getId());
            }
            SQLTableMapping sqlMapping = getSQLTableMappingForPrimaryExpression(varSqlExpr.getSQLStatement(), varExpr.getId(), expr, Boolean.FALSE);
            sqlExpr = exprFactory.newExpression(sqlMapping.table.getSQLStatement(), sqlMapping.table, sqlMapping.mapping);
            stack.push(sqlExpr);
            return sqlExpr;
        } else if (expr.getLeft() instanceof InvokeExpression) {
            InvokeExpression invokeExpr = (InvokeExpression) expr.getLeft();
            SQLExpression invokedSqlExpr = getInvokedSqlExpressionForInvokeExpression(invokeExpr);
            processInvokeExpression(invokeExpr, invokedSqlExpr);
            SQLExpression invokeSqlExpr = stack.pop();
            Table tbl = invokeSqlExpr.getSQLTable().getTable();
            if (expr.getTuples().size() > 1) {
                throw new NucleusUserException("Dont currently support evaluating " + expr.getId() + " on " + invokeSqlExpr);
            }
            SQLTable invokeSqlTbl = invokeSqlExpr.getSQLTable();
            if (invokedSqlExpr.getJavaTypeMapping() instanceof OptionalMapping && invokeExpr.getOperation().equals("get") && expr.getTuples().size() == 1) {
                OptionalMapping opMapping = (OptionalMapping) invokedSqlExpr.getJavaTypeMapping();
                if (opMapping.getWrappedMapping() instanceof PersistableMapping) {
                    // Special case of Optional.get().{field}, so we need to join to the related table
                    AbstractMemberMetaData mmd = invokedSqlExpr.getJavaTypeMapping().getMemberMetaData();
                    AbstractClassMetaData otherCmd = ec.getMetaDataManager().getMetaDataForClass(mmd.getCollection().getElementType(), clr);
                    Table otherTbl = storeMgr.getDatastoreClass(otherCmd.getFullClassName(), clr);
                    // Optional type so do LEFT OUTER JOIN since if it is null then we would eliminate all other results
                    invokeSqlTbl = stmt.join(JoinType.LEFT_OUTER_JOIN, invokeSqlExpr.getSQLTable(), opMapping.getWrappedMapping(), otherTbl, null, otherTbl.getIdMapping(), null, null, true);
                    tbl = invokeSqlTbl.getTable();
                }
            }
            if (tbl instanceof DatastoreClass) {
                // Table of a class, so assume to have field in the table of the class
                // TODO Allow joins to superclasses if required
                JavaTypeMapping mapping = ((DatastoreClass) tbl).getMemberMapping(expr.getId());
                if (mapping == null) {
                    throw new NucleusUserException("Dont currently support evaluating " + expr.getId() + " on " + invokeSqlExpr + ". The field " + expr.getId() + " doesnt exist in table " + tbl);
                }
                sqlExpr = exprFactory.newExpression(stmt, invokeSqlTbl, mapping);
                stack.push(sqlExpr);
                return sqlExpr;
            } else if (tbl instanceof JoinTable) {
                if (invokeSqlExpr.getJavaTypeMapping() instanceof EmbeddedMapping) {
                    // Table containing an embedded element/key/value so assume we have a column in the join table
                    EmbeddedMapping embMapping = (EmbeddedMapping) invokeSqlExpr.getJavaTypeMapping();
                    JavaTypeMapping mapping = embMapping.getJavaTypeMapping(expr.getId());
                    if (mapping == null) {
                        throw new NucleusUserException("Dont currently support evaluating " + expr.getId() + " on " + invokeSqlExpr + ". The field " + expr.getId() + " doesnt exist in table " + tbl);
                    }
                    sqlExpr = exprFactory.newExpression(stmt, invokeSqlTbl, mapping);
                    stack.push(sqlExpr);
                    return sqlExpr;
                }
            }
            throw new NucleusUserException("Dont currently support evaluating " + expr.getId() + " on " + invokeSqlExpr + " with invoke having table of " + tbl);
        } else {
            throw new NucleusUserException("Dont currently support PrimaryExpression with 'left' of " + expr.getLeft());
        }
    }
    // Real primary expression ("field.field", "alias.field.field" etc)
    SQLTableMapping sqlMapping = getSQLTableMappingForPrimaryExpression(stmt, null, expr, null);
    if (sqlMapping == null) {
        throw new NucleusException("PrimaryExpression " + expr.getId() + " is not yet supported");
    }
    sqlExpr = exprFactory.newExpression(stmt, sqlMapping.table, sqlMapping.mapping);
    if (sqlMapping.mmd != null && sqlExpr instanceof MapExpression) {
        // This sqlMapping is for something joined in a FROM clause, so set the alias on the returned MapExpression to avoid doing the same joins
        String alias = getAliasForSQLTableMapping(sqlMapping);
        if (alias == null && parentMapper != null) {
            alias = parentMapper.getAliasForSQLTableMapping(sqlMapping);
        }
        ((MapExpression) sqlExpr).setAliasForMapTable(alias);
    }
    stack.push(sqlExpr);
    return sqlExpr;
}
Also used : SQLExpression(org.datanucleus.store.rdbms.sql.expression.SQLExpression) PrimaryExpression(org.datanucleus.store.query.expression.PrimaryExpression) JavaTypeMapping(org.datanucleus.store.rdbms.mapping.java.JavaTypeMapping) Symbol(org.datanucleus.store.query.compiler.Symbol) SQLLiteral(org.datanucleus.store.rdbms.sql.expression.SQLLiteral) UnboundExpression(org.datanucleus.store.rdbms.sql.expression.UnboundExpression) AbstractClassMetaData(org.datanucleus.metadata.AbstractClassMetaData) BooleanExpression(org.datanucleus.store.rdbms.sql.expression.BooleanExpression) TemporalLiteral(org.datanucleus.store.rdbms.sql.expression.TemporalLiteral) Literal(org.datanucleus.store.query.expression.Literal) SQLLiteral(org.datanucleus.store.rdbms.sql.expression.SQLLiteral) ParameterLiteral(org.datanucleus.store.rdbms.sql.expression.ParameterLiteral) CollectionLiteral(org.datanucleus.store.rdbms.sql.expression.CollectionLiteral) BooleanLiteral(org.datanucleus.store.rdbms.sql.expression.BooleanLiteral) IntegerLiteral(org.datanucleus.store.rdbms.sql.expression.IntegerLiteral) NullLiteral(org.datanucleus.store.rdbms.sql.expression.NullLiteral) SQLTable(org.datanucleus.store.rdbms.sql.SQLTable) ListIterator(java.util.ListIterator) Iterator(java.util.Iterator) ArrayList(java.util.ArrayList) List(java.util.List) MapExpression(org.datanucleus.store.rdbms.sql.expression.MapExpression) InvokeExpression(org.datanucleus.store.query.expression.InvokeExpression) Table(org.datanucleus.store.rdbms.table.Table) JoinTable(org.datanucleus.store.rdbms.table.JoinTable) ClassTable(org.datanucleus.store.rdbms.table.ClassTable) ElementContainerTable(org.datanucleus.store.rdbms.table.ElementContainerTable) MapTable(org.datanucleus.store.rdbms.table.MapTable) SQLTable(org.datanucleus.store.rdbms.sql.SQLTable) ArrayTable(org.datanucleus.store.rdbms.table.ArrayTable) CollectionTable(org.datanucleus.store.rdbms.table.CollectionTable) NucleusUserException(org.datanucleus.exceptions.NucleusUserException) VariableExpression(org.datanucleus.store.query.expression.VariableExpression) DyadicExpression(org.datanucleus.store.query.expression.DyadicExpression) OptionalMapping(org.datanucleus.store.rdbms.mapping.java.OptionalMapping) PersistableMapping(org.datanucleus.store.rdbms.mapping.java.PersistableMapping) EmbeddedMapping(org.datanucleus.store.rdbms.mapping.java.EmbeddedMapping) ParameterExpression(org.datanucleus.store.query.expression.ParameterExpression) DatastoreClass(org.datanucleus.store.rdbms.table.DatastoreClass) FetchPlanForClass(org.datanucleus.FetchPlanForClass) DatastoreClass(org.datanucleus.store.rdbms.table.DatastoreClass) NucleusException(org.datanucleus.exceptions.NucleusException) AbstractMemberMetaData(org.datanucleus.metadata.AbstractMemberMetaData) JoinTable(org.datanucleus.store.rdbms.table.JoinTable)

Example 3 with InvokeExpression

use of org.datanucleus.store.query.expression.InvokeExpression in project datanucleus-rdbms by datanucleus.

the class QueryToSQLMapper method compileResult.

/**
 * Method to compile the result clause of the query into the SQLStatement.
 * Note that this also compiles queries of the candidate (no specified result), selecting the candidate field(s).
 * @param stmt SELECT statement
 */
protected void compileResult(SelectStatement stmt) {
    compileComponent = CompilationComponent.RESULT;
    boolean unionsPresent = stmt.getNumberOfUnions() > 0;
    // TODO Cater for more expression types where we have UNIONs and select each UNION separately
    if (compilation.getExprResult() != null) {
        // Select any result expressions
        Expression[] resultExprs = compilation.getExprResult();
        for (int i = 0; i < resultExprs.length; i++) {
            String alias = resultExprs[i].getAlias();
            if (alias != null && resultAliases == null) {
                resultAliases = new HashSet<>();
            }
            if (resultExprs[i] instanceof InvokeExpression || resultExprs[i] instanceof ParameterExpression || resultExprs[i] instanceof Literal) {
                // Process expressions that need no special treatment
                if (resultExprs[i] instanceof InvokeExpression) {
                    processInvokeExpression((InvokeExpression) resultExprs[i]);
                } else if (resultExprs[i] instanceof ParameterExpression) {
                    // Second argument : parameters are literals in result
                    processParameterExpression((ParameterExpression) resultExprs[i], true);
                } else {
                    processLiteral((Literal) resultExprs[i]);
                }
                SQLExpression sqlExpr = stack.pop();
                validateExpressionForResult(sqlExpr);
                int[] cols = stmt.select(sqlExpr, alias);
                StatementMappingIndex idx = new StatementMappingIndex(sqlExpr.getJavaTypeMapping());
                idx.setColumnPositions(cols);
                if (alias != null) {
                    resultAliases.add(alias);
                    idx.setColumnAlias(alias);
                }
                resultDefinition.addMappingForResultExpression(i, idx);
            } else if (resultExprs[i] instanceof PrimaryExpression) {
                PrimaryExpression primExpr = (PrimaryExpression) resultExprs[i];
                if (primExpr.getId().equals(candidateAlias)) {
                    // "this", so select fetch plan fields
                    if (unionsPresent) {
                        // Process the first union separately (in case they have TYPE/instanceof) and then handle remaining UNIONs below
                        stmt.setAllowUnions(false);
                    }
                    StatementClassMapping map = new StatementClassMapping(candidateCmd.getFullClassName(), null);
                    SQLStatementHelper.selectFetchPlanOfCandidateInStatement(stmt, map, candidateCmd, fetchPlan, 1);
                    resultDefinition.addMappingForResultExpression(i, map);
                    if (unionsPresent) {
                        // Process remaining UNIONs. Assumed that we have the same result mapping as the first UNION otherwise SQL wouldn't work anyway
                        stmt.setAllowUnions(true);
                        List<SelectStatement> unionStmts = stmt.getUnions();
                        SelectStatement originalStmt = stmt;
                        for (SelectStatement unionStmt : unionStmts) {
                            this.stmt = unionStmt;
                            unionStmt.setQueryGenerator(this);
                            unionStmt.setAllowUnions(false);
                            StatementClassMapping dummyClsMapping = new StatementClassMapping(candidateCmd.getFullClassName(), null);
                            SQLStatementHelper.selectFetchPlanOfCandidateInStatement(unionStmt, dummyClsMapping, candidateCmd, fetchPlan, 1);
                            unionStmt.setQueryGenerator(null);
                            unionStmt.setAllowUnions(true);
                        }
                        this.stmt = originalStmt;
                    }
                } else {
                    processPrimaryExpression(primExpr);
                    SQLExpression sqlExpr = stack.pop();
                    validateExpressionForResult(sqlExpr);
                    if (primExpr.getId().endsWith("#KEY") || primExpr.getId().endsWith("#VALUE")) {
                        // JPQL KEY(map) or VALUE(map), so select FetchPlan fields where persistable
                        if (sqlExpr.getJavaTypeMapping() instanceof PersistableMapping) {
                            // Method returns persistable object, so select the FetchPlan
                            String selectedType = ((PersistableMapping) sqlExpr.getJavaTypeMapping()).getType();
                            AbstractClassMetaData selectedCmd = ec.getMetaDataManager().getMetaDataForClass(selectedType, clr);
                            FetchPlanForClass fpForCmd = fetchPlan.getFetchPlanForClass(selectedCmd);
                            int[] membersToSelect = fpForCmd.getMemberNumbers();
                            ClassTable selectedTable = (ClassTable) sqlExpr.getSQLTable().getTable();
                            StatementClassMapping map = new StatementClassMapping(selectedCmd.getFullClassName(), null);
                            if (selectedCmd.getIdentityType() == IdentityType.DATASTORE) {
                                int[] cols = stmt.select(sqlExpr.getSQLTable(), selectedTable.getSurrogateMapping(SurrogateColumnType.DATASTORE_ID, false), alias);
                                StatementMappingIndex idx = new StatementMappingIndex(selectedTable.getSurrogateMapping(SurrogateColumnType.DATASTORE_ID, false));
                                idx.setColumnPositions(cols);
                                map.addMappingForMember(SurrogateColumnType.DATASTORE_ID.getFieldNumber(), idx);
                            }
                            // Select the FetchPlan members
                            for (int memberToSelect : membersToSelect) {
                                AbstractMemberMetaData selMmd = selectedCmd.getMetaDataForManagedMemberAtAbsolutePosition(memberToSelect);
                                // TODO Arbitrary penultimate argument
                                SQLStatementHelper.selectMemberOfSourceInStatement(stmt, map, fetchPlan, sqlExpr.getSQLTable(), selMmd, clr, 1, null);
                            }
                            resultDefinition.addMappingForResultExpression(i, map);
                            continue;
                        } else if (sqlExpr.getJavaTypeMapping() instanceof EmbeddedMapping) {
                            // Method returns embedded object, so select the FetchPlan
                            EmbeddedMapping embMapping = (EmbeddedMapping) sqlExpr.getJavaTypeMapping();
                            AbstractClassMetaData selectedCmd = ec.getMetaDataManager().getMetaDataForClass(embMapping.getType(), clr);
                            // Select the FetchPlan members
                            StatementClassMapping map = new StatementClassMapping(selectedCmd.getFullClassName(), null);
                            int[] membersToSelect = fetchPlan.getFetchPlanForClass(selectedCmd).getMemberNumbers();
                            for (int memberToSelect : membersToSelect) {
                                AbstractMemberMetaData selMmd = selectedCmd.getMetaDataForManagedMemberAtAbsolutePosition(memberToSelect);
                                JavaTypeMapping selMapping = embMapping.getJavaTypeMapping(selMmd.getName());
                                if (selMapping.includeInFetchStatement()) {
                                    int[] cols = stmt.select(sqlExpr.getSQLTable(), selMapping, alias);
                                    StatementMappingIndex idx = new StatementMappingIndex(selMapping);
                                    idx.setColumnPositions(cols);
                                    map.addMappingForMember(memberToSelect, idx);
                                }
                            }
                            resultDefinition.addMappingForResultExpression(i, map);
                            continue;
                        }
                    }
                    // TODO If the user selects an alias here that is joined, should maybe respect FetchPlan for that (like above for candidate)
                    // TODO Cater for use of UNIONs (e.g "complete-table" inheritance) where mapping is different in other UNION
                    // The difficulty here is that processPrimaryExpression makes use of the sqlTableByPrimary lookup, which is based on the primary statement, so
                    // it still doesn't find the right table/mapping for the UNIONed statements.
                    int[] cols = null;
                    if (sqlExpr instanceof SQLLiteral) {
                        cols = stmt.select(sqlExpr, alias);
                    } else {
                        cols = stmt.select(sqlExpr.getSQLTable(), sqlExpr.getJavaTypeMapping(), alias);
                    }
                    StatementMappingIndex idx = new StatementMappingIndex(sqlExpr.getJavaTypeMapping());
                    idx.setColumnPositions(cols);
                    if (alias != null) {
                        resultAliases.add(alias);
                        idx.setColumnAlias(alias);
                    }
                    resultDefinition.addMappingForResultExpression(i, idx);
                }
            } else if (resultExprs[i] instanceof VariableExpression) {
                // Subquery?
                processVariableExpression((VariableExpression) resultExprs[i]);
                SQLExpression sqlExpr = stack.pop();
                validateExpressionForResult(sqlExpr);
                if (sqlExpr instanceof UnboundExpression) {
                    // Variable wasn't bound in the compilation so far, so handle as cross-join
                    processUnboundExpression((UnboundExpression) sqlExpr);
                    sqlExpr = stack.pop();
                    NucleusLogger.QUERY.debug("QueryToSQL.exprResult variable was still unbound, so binding via cross-join");
                }
                int[] cols = stmt.select(sqlExpr, alias);
                StatementMappingIndex idx = new StatementMappingIndex(sqlExpr.getJavaTypeMapping());
                idx.setColumnPositions(cols);
                if (alias != null) {
                    resultAliases.add(alias);
                    idx.setColumnAlias(alias);
                }
                resultDefinition.addMappingForResultExpression(i, idx);
            } else if (resultExprs[i] instanceof TypeExpression) {
                // TYPE(identification_variable | single_valued_path_expr | input_parameter)
                TypeExpression typeExpr = (TypeExpression) resultExprs[i];
                Expression containedExpr = typeExpr.getContainedExpression();
                if (containedExpr instanceof PrimaryExpression) {
                    processPrimaryExpression((PrimaryExpression) containedExpr);
                    SQLExpression sqlExpr = stack.pop();
                    JavaTypeMapping discrimMapping = sqlExpr.getSQLTable().getTable().getSurrogateMapping(SurrogateColumnType.DISCRIMINATOR, true);
                    if (discrimMapping == null) {
                        // TODO If we have a UNIONED primary expression then it would be possible to just select the DN_TYPE from the particular union
                        throw new NucleusException("Result has call to " + typeExpr + " but contained expression has no discriminator. Not supported");
                    }
                    int[] cols = stmt.select(sqlExpr.getSQLTable(), discrimMapping, null, true);
                    StatementMappingIndex idx = new StatementMappingIndex(discrimMapping);
                    idx.setColumnPositions(cols);
                    resultDefinition.addMappingForResultExpression(i, idx);
                } else {
                    throw new NucleusException("Result has call to " + typeExpr + " but contained expression not supported");
                }
            } else if (resultExprs[i] instanceof CreatorExpression) {
                processCreatorExpression((CreatorExpression) resultExprs[i]);
                NewObjectExpression sqlExpr = (NewObjectExpression) stack.pop();
                StatementNewObjectMapping stmtMap = getStatementMappingForNewObjectExpression(sqlExpr, stmt);
                resultDefinition.addMappingForResultExpression(i, stmtMap);
            } else if (resultExprs[i] instanceof DyadicExpression || resultExprs[i] instanceof CaseExpression) {
                if (unionsPresent) {
                    // Process the first union separately (in case they have TYPE/instanceof) and then handle remaining UNIONs below
                    stmt.setAllowUnions(false);
                }
                // TODO If we have something like "DISTINCT this" then maybe could actually select the FetchPlan like if it was a basic PrimaryExpression(this)
                resultExprs[i].evaluate(this);
                SQLExpression sqlExpr = stack.pop();
                int[] cols = stmt.select(sqlExpr, alias);
                StatementMappingIndex idx = new StatementMappingIndex(sqlExpr.getJavaTypeMapping());
                idx.setColumnPositions(cols);
                if (alias != null) {
                    resultAliases.add(alias);
                    idx.setColumnAlias(alias);
                }
                resultDefinition.addMappingForResultExpression(i, idx);
                if (unionsPresent) {
                    // Process remaining UNIONs. Assumed that we have the same result mapping as the first UNION otherwise SQL wouldn't work anyway
                    stmt.setAllowUnions(true);
                    List<SelectStatement> unionStmts = stmt.getUnions();
                    SelectStatement originalStmt = stmt;
                    for (SelectStatement unionStmt : unionStmts) {
                        this.stmt = unionStmt;
                        unionStmt.setQueryGenerator(this);
                        unionStmt.setAllowUnions(false);
                        resultExprs[i].evaluate(this);
                        sqlExpr = stack.pop();
                        unionStmt.select(sqlExpr, alias);
                        unionStmt.setQueryGenerator(null);
                        unionStmt.setAllowUnions(true);
                    }
                    this.stmt = originalStmt;
                }
            } else {
                throw new NucleusException("Dont currently support result clause containing expression of type " + resultExprs[i]);
            }
        }
        if (stmt.getNumberOfSelects() == 0) {
            // Nothing selected so likely the user had some "new MyClass()" expression, so select "1"
            stmt.select(exprFactory.newLiteral(stmt, storeMgr.getMappingManager().getMapping(Integer.class), 1), null);
        }
    } else {
        // Select of the candidate (no result)
        if (candidateCmd.getIdentityType() == IdentityType.NONDURABLE) {
            // Nondurable identity cases have no "id" for later fetching so get all fields now
            if (NucleusLogger.QUERY.isDebugEnabled()) {
                NucleusLogger.QUERY.debug(Localiser.msg("052520", candidateCmd.getFullClassName()));
            }
            fetchPlan.setGroup("all");
        }
        if (subclasses) {
        // TODO Check for special case of candidate+subclasses stores in same table with discriminator, so select FetchGroup of subclasses also
        }
        int maxFetchDepth = fetchPlan.getMaxFetchDepth();
        if (extensionsByName != null && extensionsByName.containsKey(PropertyNames.PROPERTY_MAX_FETCH_DEPTH)) {
            maxFetchDepth = (Integer) extensionsByName.get(PropertyNames.PROPERTY_MAX_FETCH_DEPTH);
        }
        if (maxFetchDepth < 0) {
            NucleusLogger.QUERY.debug("No limit specified on query fetch so limiting to 3 levels from candidate. " + "Specify the '" + PropertyNames.PROPERTY_MAX_FETCH_DEPTH + "' to override this");
            // TODO Arbitrary
            maxFetchDepth = 3;
        }
        // This means that we then cater for a UNION using a different column name than the primary statement
        if (unionsPresent) {
            // Process the first union separately (in case they have TYPE/instanceof) and then handle remaining UNIONs below
            stmt.setAllowUnions(false);
        }
        selectFetchPlanForCandidate(stmt, resultDefinitionForClass, maxFetchDepth);
        if (unionsPresent) {
            // Process remaining UNIONs. Assumed that we have the same result mapping as the first UNION otherwise SQL wouldn't work anyway
            stmt.setAllowUnions(true);
            List<SelectStatement> unionStmts = stmt.getUnions();
            SelectStatement originalStmt = stmt;
            for (SelectStatement unionStmt : unionStmts) {
                this.stmt = unionStmt;
                unionStmt.setQueryGenerator(this);
                unionStmt.setAllowUnions(false);
                // We don't want to overwrite anything in the root StatementClassMapping
                StatementClassMapping dummyResClsMapping = new StatementClassMapping();
                selectFetchPlanForCandidate(unionStmt, dummyResClsMapping, maxFetchDepth);
                unionStmt.setQueryGenerator(null);
                unionStmt.setAllowUnions(true);
            }
            this.stmt = originalStmt;
        }
    }
    compileComponent = null;
}
Also used : SQLExpression(org.datanucleus.store.rdbms.sql.expression.SQLExpression) PrimaryExpression(org.datanucleus.store.query.expression.PrimaryExpression) FetchPlanForClass(org.datanucleus.FetchPlanForClass) JavaTypeMapping(org.datanucleus.store.rdbms.mapping.java.JavaTypeMapping) SQLLiteral(org.datanucleus.store.rdbms.sql.expression.SQLLiteral) UnboundExpression(org.datanucleus.store.rdbms.sql.expression.UnboundExpression) CreatorExpression(org.datanucleus.store.query.expression.CreatorExpression) AbstractClassMetaData(org.datanucleus.metadata.AbstractClassMetaData) CaseExpression(org.datanucleus.store.query.expression.CaseExpression) NewObjectExpression(org.datanucleus.store.rdbms.sql.expression.NewObjectExpression) SelectStatement(org.datanucleus.store.rdbms.sql.SelectStatement) TemporalLiteral(org.datanucleus.store.rdbms.sql.expression.TemporalLiteral) Literal(org.datanucleus.store.query.expression.Literal) SQLLiteral(org.datanucleus.store.rdbms.sql.expression.SQLLiteral) ParameterLiteral(org.datanucleus.store.rdbms.sql.expression.ParameterLiteral) CollectionLiteral(org.datanucleus.store.rdbms.sql.expression.CollectionLiteral) BooleanLiteral(org.datanucleus.store.rdbms.sql.expression.BooleanLiteral) IntegerLiteral(org.datanucleus.store.rdbms.sql.expression.IntegerLiteral) NullLiteral(org.datanucleus.store.rdbms.sql.expression.NullLiteral) ArrayList(java.util.ArrayList) List(java.util.List) InvokeExpression(org.datanucleus.store.query.expression.InvokeExpression) TypeExpression(org.datanucleus.store.query.expression.TypeExpression) VariableExpression(org.datanucleus.store.query.expression.VariableExpression) DyadicExpression(org.datanucleus.store.query.expression.DyadicExpression) PersistableMapping(org.datanucleus.store.rdbms.mapping.java.PersistableMapping) PrimaryExpression(org.datanucleus.store.query.expression.PrimaryExpression) BooleanSubqueryExpression(org.datanucleus.store.rdbms.sql.expression.BooleanSubqueryExpression) TypeConverterExpression(org.datanucleus.store.rdbms.sql.expression.TypeConverterExpression) StringExpression(org.datanucleus.store.rdbms.sql.expression.StringExpression) NumericSubqueryExpression(org.datanucleus.store.rdbms.sql.expression.NumericSubqueryExpression) StringSubqueryExpression(org.datanucleus.store.rdbms.sql.expression.StringSubqueryExpression) MapExpression(org.datanucleus.store.rdbms.sql.expression.MapExpression) ArrayExpression(org.datanucleus.store.query.expression.ArrayExpression) CaseExpression(org.datanucleus.store.query.expression.CaseExpression) CreatorExpression(org.datanucleus.store.query.expression.CreatorExpression) NewObjectExpression(org.datanucleus.store.rdbms.sql.expression.NewObjectExpression) OrderExpression(org.datanucleus.store.query.expression.OrderExpression) TemporalSubqueryExpression(org.datanucleus.store.rdbms.sql.expression.TemporalSubqueryExpression) ClassExpression(org.datanucleus.store.query.expression.ClassExpression) BooleanExpression(org.datanucleus.store.rdbms.sql.expression.BooleanExpression) Expression(org.datanucleus.store.query.expression.Expression) SQLExpression(org.datanucleus.store.rdbms.sql.expression.SQLExpression) ParameterExpression(org.datanucleus.store.query.expression.ParameterExpression) UnboundExpression(org.datanucleus.store.rdbms.sql.expression.UnboundExpression) TemporalExpression(org.datanucleus.store.rdbms.sql.expression.TemporalExpression) SubqueryExpression(org.datanucleus.store.query.expression.SubqueryExpression) ResultAliasExpression(org.datanucleus.store.rdbms.sql.expression.ResultAliasExpression) VariableExpression(org.datanucleus.store.query.expression.VariableExpression) TypeExpression(org.datanucleus.store.query.expression.TypeExpression) NumericExpression(org.datanucleus.store.rdbms.sql.expression.NumericExpression) CollectionExpression(org.datanucleus.store.rdbms.sql.expression.CollectionExpression) DyadicExpression(org.datanucleus.store.query.expression.DyadicExpression) ColumnExpression(org.datanucleus.store.rdbms.sql.expression.ColumnExpression) JoinExpression(org.datanucleus.store.query.expression.JoinExpression) InvokeExpression(org.datanucleus.store.query.expression.InvokeExpression) EmbeddedMapping(org.datanucleus.store.rdbms.mapping.java.EmbeddedMapping) ClassTable(org.datanucleus.store.rdbms.table.ClassTable) ParameterExpression(org.datanucleus.store.query.expression.ParameterExpression) NucleusException(org.datanucleus.exceptions.NucleusException) AbstractMemberMetaData(org.datanucleus.metadata.AbstractMemberMetaData)

Example 4 with InvokeExpression

use of org.datanucleus.store.query.expression.InvokeExpression in project datanucleus-rdbms by datanucleus.

the class QueryToSQLMapper method processInvokeExpression.

/**
 * Internal method to handle the processing of an InvokeExpression.
 * @param expr The InvokeExpression
 * @param invokedSqlExpr The SQLExpression that we are invoking the method on.
 * @return The resultant SQLExpression
 */
protected SQLExpression processInvokeExpression(InvokeExpression expr, SQLExpression invokedSqlExpr) {
    if (invokedSqlExpr instanceof NullLiteral) {
        // We cannot invoke anything on a null TODO Handle this "NPE"
        NucleusLogger.QUERY.warn("Compilation of InvokeExpression needs to invoke method \"" + expr.getOperation() + "\" on " + invokedSqlExpr + " but not possible");
    }
    String operation = expr.getOperation();
    if (invokedSqlExpr instanceof MapExpression && operation.equals("contains") && compilation.getQueryLanguage().equalsIgnoreCase(Query.LANGUAGE_JPQL)) {
        // JPQL "MEMBER OF" will be passed through from generic compilation as "contains" since we don't know types at that point
        operation = "containsValue";
    }
    // Process the arguments for invoking
    List args = expr.getArguments();
    List sqlExprArgs = null;
    if (args != null) {
        sqlExprArgs = new ArrayList<SQLExpression>();
        Iterator<Expression> iter = args.iterator();
        while (iter.hasNext()) {
            Expression argExpr = iter.next();
            if (argExpr instanceof PrimaryExpression) {
                processPrimaryExpression((PrimaryExpression) argExpr);
                SQLExpression argSqlExpr = stack.pop();
                if (compileComponent == CompilationComponent.RESULT && operation.equalsIgnoreCase("count") && stmt.getNumberOfTableGroups() > 1) {
                    if (argSqlExpr.getSQLTable() == stmt.getPrimaryTable() && argSqlExpr.getJavaTypeMapping() == stmt.getPrimaryTable().getTable().getIdMapping()) {
                        // Result with "count(this)" and joins to other groups, so enforce distinct
                        argSqlExpr.distinct();
                    }
                }
                sqlExprArgs.add(argSqlExpr);
            } else if (argExpr instanceof ParameterExpression) {
                processParameterExpression((ParameterExpression) argExpr);
                sqlExprArgs.add(stack.pop());
            } else if (argExpr instanceof InvokeExpression) {
                processInvokeExpression((InvokeExpression) argExpr);
                sqlExprArgs.add(stack.pop());
            } else if (argExpr instanceof Literal) {
                processLiteral((Literal) argExpr);
                sqlExprArgs.add(stack.pop());
            } else if (argExpr instanceof DyadicExpression) {
                // Evaluate using this evaluator
                argExpr.evaluate(this);
                sqlExprArgs.add(stack.pop());
            } else if (argExpr instanceof VariableExpression) {
                processVariableExpression((VariableExpression) argExpr);
                sqlExprArgs.add(stack.pop());
            } else if (argExpr instanceof CaseExpression) {
                processCaseExpression((CaseExpression) argExpr);
                sqlExprArgs.add(stack.pop());
            } else {
                throw new NucleusException("Dont currently support invoke expression argument " + argExpr);
            }
        }
        if (operation.equals("INDEX")) {
            // Special case of index expression
            List<Expression> indexArgs = expr.getArguments();
            if (indexArgs == null || indexArgs.size() > 1) {
                throw new NucleusException("Can only use INDEX with single argument");
            }
            PrimaryExpression indexExpr = (PrimaryExpression) indexArgs.get(0);
            String joinAlias = indexExpr.getId();
            String collExprName = joinAlias;
            if (explicitJoinPrimaryByAlias != null) {
                collExprName = explicitJoinPrimaryByAlias.get(joinAlias);
                if (collExprName == null) {
                    throw new NucleusException("Unable to locate primary expression for alias " + joinAlias);
                }
            }
            // Find an expression for the collection field
            List<String> tuples = new ArrayList<>();
            StringTokenizer primTokenizer = new StringTokenizer(collExprName, ".");
            while (primTokenizer.hasMoreTokens()) {
                String token = primTokenizer.nextToken();
                tuples.add(token);
            }
            PrimaryExpression collPrimExpr = new PrimaryExpression(tuples);
            processPrimaryExpression(collPrimExpr);
            SQLExpression collSqlExpr = stack.pop();
            sqlExprArgs.add(collSqlExpr);
        }
    }
    // Invoke the method
    SQLExpression sqlExpr = null;
    if (invokedSqlExpr instanceof org.datanucleus.store.rdbms.sql.expression.SubqueryExpression) {
        if (operation.equalsIgnoreCase("isEmpty")) {
            // Special case of {subquery}.isEmpty(), equates to "NOT EXISTS (subquery)"
            org.datanucleus.store.rdbms.sql.expression.SubqueryExpression subquerySqlExpr = (org.datanucleus.store.rdbms.sql.expression.SubqueryExpression) invokedSqlExpr;
            SQLStatement subStmt = subquerySqlExpr.getSubqueryStatement();
            SQLExpression subqueryNotExistsExpr = new BooleanSubqueryExpression(stmt, "EXISTS", subStmt).not();
            stack.push(subqueryNotExistsExpr);
            return subqueryNotExistsExpr;
        } else if (operation.equalsIgnoreCase("size")) {
            // {subquery}.size() should simply be changed to have a subquery of "SELECT COUNT(*) FROM ..."
            throw new NucleusUserException("Attempt to invoke method `" + operation + "` on Subquery. This is not supported. Change the subquery to return COUNT() instead.");
        }
        throw new NucleusUserException("Attempt to invoke method `" + operation + "` on Subquery. This is not supported");
    }
    if (invokedSqlExpr != null) {
        sqlExpr = invokedSqlExpr.invoke(operation, sqlExprArgs);
    } else {
        sqlExpr = exprFactory.invokeMethod(stmt, null, operation, null, sqlExprArgs);
    }
    stack.push(sqlExpr);
    return sqlExpr;
}
Also used : SQLExpression(org.datanucleus.store.rdbms.sql.expression.SQLExpression) PrimaryExpression(org.datanucleus.store.query.expression.PrimaryExpression) ArrayList(java.util.ArrayList) SQLStatement(org.datanucleus.store.rdbms.sql.SQLStatement) CaseExpression(org.datanucleus.store.query.expression.CaseExpression) BooleanSubqueryExpression(org.datanucleus.store.rdbms.sql.expression.BooleanSubqueryExpression) NumericSubqueryExpression(org.datanucleus.store.rdbms.sql.expression.NumericSubqueryExpression) StringSubqueryExpression(org.datanucleus.store.rdbms.sql.expression.StringSubqueryExpression) TemporalSubqueryExpression(org.datanucleus.store.rdbms.sql.expression.TemporalSubqueryExpression) SubqueryExpression(org.datanucleus.store.query.expression.SubqueryExpression) TemporalLiteral(org.datanucleus.store.rdbms.sql.expression.TemporalLiteral) Literal(org.datanucleus.store.query.expression.Literal) SQLLiteral(org.datanucleus.store.rdbms.sql.expression.SQLLiteral) ParameterLiteral(org.datanucleus.store.rdbms.sql.expression.ParameterLiteral) CollectionLiteral(org.datanucleus.store.rdbms.sql.expression.CollectionLiteral) BooleanLiteral(org.datanucleus.store.rdbms.sql.expression.BooleanLiteral) IntegerLiteral(org.datanucleus.store.rdbms.sql.expression.IntegerLiteral) NullLiteral(org.datanucleus.store.rdbms.sql.expression.NullLiteral) ArrayList(java.util.ArrayList) List(java.util.List) MapExpression(org.datanucleus.store.rdbms.sql.expression.MapExpression) InvokeExpression(org.datanucleus.store.query.expression.InvokeExpression) NucleusUserException(org.datanucleus.exceptions.NucleusUserException) VariableExpression(org.datanucleus.store.query.expression.VariableExpression) DyadicExpression(org.datanucleus.store.query.expression.DyadicExpression) StringTokenizer(java.util.StringTokenizer) PrimaryExpression(org.datanucleus.store.query.expression.PrimaryExpression) BooleanSubqueryExpression(org.datanucleus.store.rdbms.sql.expression.BooleanSubqueryExpression) TypeConverterExpression(org.datanucleus.store.rdbms.sql.expression.TypeConverterExpression) StringExpression(org.datanucleus.store.rdbms.sql.expression.StringExpression) NumericSubqueryExpression(org.datanucleus.store.rdbms.sql.expression.NumericSubqueryExpression) StringSubqueryExpression(org.datanucleus.store.rdbms.sql.expression.StringSubqueryExpression) MapExpression(org.datanucleus.store.rdbms.sql.expression.MapExpression) ArrayExpression(org.datanucleus.store.query.expression.ArrayExpression) CaseExpression(org.datanucleus.store.query.expression.CaseExpression) CreatorExpression(org.datanucleus.store.query.expression.CreatorExpression) NewObjectExpression(org.datanucleus.store.rdbms.sql.expression.NewObjectExpression) OrderExpression(org.datanucleus.store.query.expression.OrderExpression) TemporalSubqueryExpression(org.datanucleus.store.rdbms.sql.expression.TemporalSubqueryExpression) ClassExpression(org.datanucleus.store.query.expression.ClassExpression) BooleanExpression(org.datanucleus.store.rdbms.sql.expression.BooleanExpression) Expression(org.datanucleus.store.query.expression.Expression) SQLExpression(org.datanucleus.store.rdbms.sql.expression.SQLExpression) ParameterExpression(org.datanucleus.store.query.expression.ParameterExpression) UnboundExpression(org.datanucleus.store.rdbms.sql.expression.UnboundExpression) TemporalExpression(org.datanucleus.store.rdbms.sql.expression.TemporalExpression) SubqueryExpression(org.datanucleus.store.query.expression.SubqueryExpression) ResultAliasExpression(org.datanucleus.store.rdbms.sql.expression.ResultAliasExpression) VariableExpression(org.datanucleus.store.query.expression.VariableExpression) TypeExpression(org.datanucleus.store.query.expression.TypeExpression) NumericExpression(org.datanucleus.store.rdbms.sql.expression.NumericExpression) CollectionExpression(org.datanucleus.store.rdbms.sql.expression.CollectionExpression) DyadicExpression(org.datanucleus.store.query.expression.DyadicExpression) ColumnExpression(org.datanucleus.store.rdbms.sql.expression.ColumnExpression) JoinExpression(org.datanucleus.store.query.expression.JoinExpression) InvokeExpression(org.datanucleus.store.query.expression.InvokeExpression) BooleanSubqueryExpression(org.datanucleus.store.rdbms.sql.expression.BooleanSubqueryExpression) ParameterExpression(org.datanucleus.store.query.expression.ParameterExpression) NucleusException(org.datanucleus.exceptions.NucleusException) NullLiteral(org.datanucleus.store.rdbms.sql.expression.NullLiteral)

Example 5 with InvokeExpression

use of org.datanucleus.store.query.expression.InvokeExpression in project datanucleus-rdbms by datanucleus.

the class QueryToSQLMapper method processCreatorExpression.

/* (non-Javadoc)
     * @see org.datanucleus.query.evaluator.AbstractExpressionEvaluator#processCreatorExpression(org.datanucleus.query.expression.CreatorExpression)
     */
@Override
protected Object processCreatorExpression(CreatorExpression expr) {
    String className = expr.getId();
    Class cls = null;
    try {
        cls = clr.classForName(className);
    } catch (ClassNotResolvedException cnre) {
        if (importsDefinition != null) {
            cls = importsDefinition.resolveClassDeclaration(className, clr, null);
        }
    }
    List<SQLExpression> ctrArgExprs = null;
    List<String> ctrArgAliases = null;
    boolean hasAliases = false;
    List args = expr.getArguments();
    if (args != null) {
        Class[] ctrArgTypes = new Class[args.size()];
        boolean[] ctrArgTypeCheck = new boolean[args.size()];
        ctrArgExprs = new ArrayList<>(args.size());
        ctrArgAliases = new ArrayList<>(args.size());
        Iterator iter = args.iterator();
        int i = 0;
        while (iter.hasNext()) {
            Expression argExpr = (Expression) iter.next();
            String argAlias = argExpr.getAlias();
            if (argAlias != null) {
                hasAliases = true;
            }
            SQLExpression sqlExpr = (SQLExpression) evaluate(argExpr);
            // TODO Cater for "SQL_function" mapping on to ANY type of constructor argument at that position since we don't know the precise type
            if (argExpr instanceof InvokeExpression && ((InvokeExpression) argExpr).getOperation().equalsIgnoreCase("SQL_function")) {
                ctrArgTypeCheck[i] = false;
            } else {
                ctrArgTypeCheck[i] = true;
            }
            ctrArgExprs.add(sqlExpr);
            ctrArgAliases.add(argAlias != null ? argAlias : "####");
            if (sqlExpr instanceof NewObjectExpression) {
                ctrArgTypes[i] = ((NewObjectExpression) sqlExpr).getNewClass();
            } else if (sqlExpr.getJavaTypeMapping() instanceof DatastoreIdMapping || sqlExpr.getJavaTypeMapping() instanceof PersistableMapping) {
                ctrArgTypes[i] = clr.classForName(sqlExpr.getJavaTypeMapping().getType());
            } else {
                ctrArgTypes[i] = sqlExpr.getJavaTypeMapping().getJavaType();
            }
            i++;
        }
        // Check that this class has the required constructor
        Constructor ctr = ClassUtils.getConstructorWithArguments(cls, ctrArgTypes, ctrArgTypeCheck);
        if (ctr == null) {
            throw new NucleusUserException(Localiser.msg("021033", className, StringUtils.objectArrayToString(ctrArgTypes)));
        }
    }
    // TODO Retain the selected constructor (above)
    NewObjectExpression newExpr = new NewObjectExpression(stmt, cls, ctrArgExprs);
    if (hasAliases) {
        newExpr.setArgAliases(ctrArgAliases);
    }
    stack.push(newExpr);
    return newExpr;
}
Also used : InvokeExpression(org.datanucleus.store.query.expression.InvokeExpression) SQLExpression(org.datanucleus.store.rdbms.sql.expression.SQLExpression) Constructor(java.lang.reflect.Constructor) NucleusUserException(org.datanucleus.exceptions.NucleusUserException) ClassNotResolvedException(org.datanucleus.exceptions.ClassNotResolvedException) NewObjectExpression(org.datanucleus.store.rdbms.sql.expression.NewObjectExpression) PersistableMapping(org.datanucleus.store.rdbms.mapping.java.PersistableMapping) DatastoreIdMapping(org.datanucleus.store.rdbms.mapping.java.DatastoreIdMapping) PrimaryExpression(org.datanucleus.store.query.expression.PrimaryExpression) BooleanSubqueryExpression(org.datanucleus.store.rdbms.sql.expression.BooleanSubqueryExpression) TypeConverterExpression(org.datanucleus.store.rdbms.sql.expression.TypeConverterExpression) StringExpression(org.datanucleus.store.rdbms.sql.expression.StringExpression) NumericSubqueryExpression(org.datanucleus.store.rdbms.sql.expression.NumericSubqueryExpression) StringSubqueryExpression(org.datanucleus.store.rdbms.sql.expression.StringSubqueryExpression) MapExpression(org.datanucleus.store.rdbms.sql.expression.MapExpression) ArrayExpression(org.datanucleus.store.query.expression.ArrayExpression) CaseExpression(org.datanucleus.store.query.expression.CaseExpression) CreatorExpression(org.datanucleus.store.query.expression.CreatorExpression) NewObjectExpression(org.datanucleus.store.rdbms.sql.expression.NewObjectExpression) OrderExpression(org.datanucleus.store.query.expression.OrderExpression) TemporalSubqueryExpression(org.datanucleus.store.rdbms.sql.expression.TemporalSubqueryExpression) ClassExpression(org.datanucleus.store.query.expression.ClassExpression) BooleanExpression(org.datanucleus.store.rdbms.sql.expression.BooleanExpression) Expression(org.datanucleus.store.query.expression.Expression) SQLExpression(org.datanucleus.store.rdbms.sql.expression.SQLExpression) ParameterExpression(org.datanucleus.store.query.expression.ParameterExpression) UnboundExpression(org.datanucleus.store.rdbms.sql.expression.UnboundExpression) TemporalExpression(org.datanucleus.store.rdbms.sql.expression.TemporalExpression) SubqueryExpression(org.datanucleus.store.query.expression.SubqueryExpression) ResultAliasExpression(org.datanucleus.store.rdbms.sql.expression.ResultAliasExpression) VariableExpression(org.datanucleus.store.query.expression.VariableExpression) TypeExpression(org.datanucleus.store.query.expression.TypeExpression) NumericExpression(org.datanucleus.store.rdbms.sql.expression.NumericExpression) CollectionExpression(org.datanucleus.store.rdbms.sql.expression.CollectionExpression) DyadicExpression(org.datanucleus.store.query.expression.DyadicExpression) ColumnExpression(org.datanucleus.store.rdbms.sql.expression.ColumnExpression) JoinExpression(org.datanucleus.store.query.expression.JoinExpression) InvokeExpression(org.datanucleus.store.query.expression.InvokeExpression) ListIterator(java.util.ListIterator) Iterator(java.util.Iterator) DatastoreClass(org.datanucleus.store.rdbms.table.DatastoreClass) FetchPlanForClass(org.datanucleus.FetchPlanForClass) ArrayList(java.util.ArrayList) List(java.util.List)

Aggregations

DyadicExpression (org.datanucleus.store.query.expression.DyadicExpression)5 InvokeExpression (org.datanucleus.store.query.expression.InvokeExpression)5 ParameterExpression (org.datanucleus.store.query.expression.ParameterExpression)5 PrimaryExpression (org.datanucleus.store.query.expression.PrimaryExpression)5 VariableExpression (org.datanucleus.store.query.expression.VariableExpression)5 BooleanExpression (org.datanucleus.store.rdbms.sql.expression.BooleanExpression)5 MapExpression (org.datanucleus.store.rdbms.sql.expression.MapExpression)5 SQLExpression (org.datanucleus.store.rdbms.sql.expression.SQLExpression)5 UnboundExpression (org.datanucleus.store.rdbms.sql.expression.UnboundExpression)5 ArrayList (java.util.ArrayList)4 List (java.util.List)4 NucleusException (org.datanucleus.exceptions.NucleusException)4 ArrayExpression (org.datanucleus.store.query.expression.ArrayExpression)4 CaseExpression (org.datanucleus.store.query.expression.CaseExpression)4 ClassExpression (org.datanucleus.store.query.expression.ClassExpression)4 CreatorExpression (org.datanucleus.store.query.expression.CreatorExpression)4 Expression (org.datanucleus.store.query.expression.Expression)4 JoinExpression (org.datanucleus.store.query.expression.JoinExpression)4 Literal (org.datanucleus.store.query.expression.Literal)4 OrderExpression (org.datanucleus.store.query.expression.OrderExpression)4