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package oracle.toplink.essentials.expressions;

import java.security.AccessController;
import java.security.PrivilegedActionException;
import java.util.*;
import java.io.*;
import oracle.toplink.essentials.internal.expressions.*;
import oracle.toplink.essentials.internal.helper.*;
import oracle.toplink.essentials.exceptions.*;
import oracle.toplink.essentials.internal.helper.ClassConstants;
import oracle.toplink.essentials.internal.security.PrivilegedAccessHelper;
import oracle.toplink.essentials.internal.security.PrivilegedNewInstanceFromClass;

/**
 * 

* Purpose: ADVANCED: The expression operator is used internally to define SQL operations and functions. * It is possible for an advanced user to define their own operators. */ public class ExpressionOperator implements Serializable { /** Required for serialization compatibility. */ static final long serialVersionUID = -7066100204792043980L; protected int selector; protected String[] databaseStrings; protected boolean isPrefix = false; protected boolean isRepeating = false; protected Class nodeClass; protected int type; protected int[] argumentIndices = null; protected static Hashtable allOperators; protected static Hashtable platformOperatorNames; protected String[] javaStrings; /** Operator types */ public static final int LogicalOperator = 1; public static final int ComparisonOperator = 2; public static final int AggregateOperator = 3; public static final int OrderOperator = 4; public static final int FunctionOperator = 5; /** Logical operators */ public static final int And = 1; public static final int Or = 2; public static final int Not = 3; /** Comparison operators */ public static final int Equal = 4; public static final int NotEqual = 5; public static final int EqualOuterJoin = 6; public static final int LessThan = 7; public static final int LessThanEqual = 8; public static final int GreaterThan = 9; public static final int GreaterThanEqual = 10; public static final int Like = 11; public static final int NotLike = 12; public static final int In = 13; public static final int InSubQuery = 125; public static final int NotIn = 14; public static final int NotInSubQuery = 126; public static final int Between = 15; public static final int NotBetween = 16; public static final int IsNull = 17; public static final int NotNull = 18; public static final int Exists = 86; public static final int NotExists = 88; public static final int LikeEscape = 89; public static final int Decode = 105; public static final int Case = 117; /** Aggregate operators */ public static final int Count = 19; public static final int Sum = 20; public static final int Average = 21; public static final int Maximum = 22; public static final int Minimum = 23; public static final int StandardDeviation = 24; public static final int Variance = 25; public static final int Distinct = 87; /** Ordering operators */ public static final int Ascending = 26; public static final int Descending = 27; /** Function operators */ // General public static final int ToUpperCase = 28; public static final int ToLowerCase = 29; public static final int Chr = 30; public static final int Concat = 31; public static final int HexToRaw = 32; public static final int Initcap = 33; public static final int Instring = 34; public static final int Soundex = 35; public static final int LeftPad = 36; public static final int LeftTrim = 37; public static final int Replace = 38; public static final int RightPad = 39; public static final int RightTrim = 40; public static final int Substring = 41; public static final int ToNumber = 42; public static final int Translate = 43; public static final int Trim = 44; public static final int Ascii = 45; public static final int Length = 46; public static final int CharIndex = 96; public static final int CharLength = 97; public static final int Difference = 98; public static final int Reverse = 99; public static final int Replicate = 100; public static final int Right = 101; public static final int Locate = 112; public static final int Locate2 = 113; public static final int ToChar = 114; public static final int ToCharWithFormat = 115; public static final int RightTrim2 = 116; public static final int Any = 118; public static final int Some = 119; public static final int All = 120; public static final int Trim2 = 121; public static final int LeftTrim2 = 122; // Date public static final int AddMonths = 47; public static final int DateToString = 48; public static final int LastDay = 49; public static final int MonthsBetween = 50; public static final int NextDay = 51; public static final int RoundDate = 52; public static final int ToDate = 53; public static final int Today = 54; public static final int AddDate = 90; public static final int DateName = 92; public static final int DatePart = 93; public static final int DateDifference = 94; public static final int TruncateDate = 102; public static final int NewTime = 103; public static final int Nvl = 104; public static final int CurrentDate = 123; public static final int CurrentTime = 124; // Math public static final int Ceil = 55; public static final int Cos = 56; public static final int Cosh = 57; public static final int Abs = 58; public static final int Acos = 59; public static final int Asin = 60; public static final int Atan = 61; public static final int Exp = 62; public static final int Sqrt = 63; public static final int Floor = 64; public static final int Ln = 65; public static final int Log = 66; public static final int Mod = 67; public static final int Power = 68; public static final int Round = 69; public static final int Sign = 70; public static final int Sin = 71; public static final int Sinh = 72; public static final int Tan = 73; public static final int Tanh = 74; public static final int Trunc = 75; public static final int Greatest = 76; public static final int Least = 77; public static final int Add = 78; public static final int Subtract = 79; public static final int Divide = 80; public static final int Multiply = 81; public static final int Atan2 = 91; public static final int Cot = 95; // Object-relational public static final int Deref = 82; public static final int Ref = 83; public static final int RefToHex = 84; public static final int Value = 85; //XML Specific public static final int Extract = 106; public static final int ExtractValue = 107; public static final int ExistsNode = 108; public static final int GetStringVal = 109; public static final int GetNumberVal = 110; public static final int IsFragment = 111; /** * ADVANCED: * Create a new operator. */ public ExpressionOperator() { this.type = FunctionOperator; // For bug 2780072 provide default behavior to make this class more useable. setNodeClass(ClassConstants.FunctionExpression_Class); } /** * ADVANCED: * Create a new operator with the given name(s) and strings to print. */ public ExpressionOperator(int selector, Vector newDatabaseStrings) { this.type = FunctionOperator; // For bug 2780072 provide default behavior to make this class more useable. setNodeClass(ClassConstants.FunctionExpression_Class); this.selector = selector; this.printsAs(newDatabaseStrings); } /** * INTERNAL: * Build operator. */ public static ExpressionOperator abs() { return simpleFunction(Abs, "ABS"); } /** * INTERNAL: * Build operator. */ public static ExpressionOperator acos() { return simpleFunction(Acos, "ACOS"); } /** * INTERNAL: * Build operator. */ public static ExpressionOperator addDate() { ExpressionOperator exOperator = simpleThreeArgumentFunction(AddDate, "DATEADD"); int[] indices = new int[3]; indices[0] = 1; indices[1] = 2; indices[2] = 0; exOperator.setArgumentIndices(indices); return exOperator; } /** * INTERNAL: * Build operator. */ public static ExpressionOperator addMonths() { return simpleTwoArgumentFunction(AddMonths, "ADD_MONTHS"); } /** * ADVANCED: * Add an operator to the global list of operators. */ public static void addOperator(ExpressionOperator exOperator) { allOperators.put(new Integer(exOperator.getSelector()), exOperator); } /** * INTERNAL: * Create the AND operator. */ public static ExpressionOperator and() { return simpleLogical(And, "AND", "and"); } /** * INTERNAL: * Apply this to an object in memory. * Throw an error if the function is not supported. */ public Object applyFunction(Object source, Vector arguments) { if (source instanceof String) { if (getSelector() == ToUpperCase) { return ((String)source).toUpperCase(); } else if (getSelector() == ToLowerCase) { return ((String)source).toLowerCase(); } else if ((getSelector() == Concat) && (arguments.size() == 1) && (arguments.elementAt(0) instanceof String)) { return ((String)source).concat((String)arguments.elementAt(0)); } else if ((getSelector() == Substring) && (arguments.size() == 2) && (arguments.elementAt(0) instanceof Number) && (arguments.elementAt(1) instanceof Number)) { // assume the first parameter to be 1-based first index of the substring, the second - substring length. int beginIndexInclusive = ((Number)arguments.elementAt(0)).intValue() - 1; int endIndexExclusive = beginIndexInclusive + ((Number)arguments.elementAt(1)).intValue(); return ((String)source).substring(beginIndexInclusive, endIndexExclusive); } else if (getSelector() == ToNumber) { return new java.math.BigDecimal((String)source); } else if (getSelector() == Trim) { return ((String)source).trim(); } else if (getSelector() == Length) { return new Integer(((String)source).length()); } } else if (source instanceof Number) { if (getSelector() == Ceil) { return new Double(Math.ceil(((Number)source).doubleValue())); } else if (getSelector() == Cos) { return new Double(Math.cos(((Number)source).doubleValue())); } else if (getSelector() == Abs) { return new Double(Math.abs(((Number)source).doubleValue())); } else if (getSelector() == Acos) { return new Double(Math.acos(((Number)source).doubleValue())); } else if (getSelector() == Asin) { return new Double(Math.asin(((Number)source).doubleValue())); } else if (getSelector() == Atan) { return new Double(Math.atan(((Number)source).doubleValue())); } else if (getSelector() == Exp) { return new Double(Math.exp(((Number)source).doubleValue())); } else if (getSelector() == Sqrt) { return new Double(Math.sqrt(((Number)source).doubleValue())); } else if (getSelector() == Floor) { return new Double(Math.floor(((Number)source).doubleValue())); } else if (getSelector() == Log) { return new Double(Math.log(((Number)source).doubleValue())); } else if ((getSelector() == Power) && (arguments.size() == 1) && (arguments.elementAt(0) instanceof Number)) { return new Double(Math.pow(((Number)source).doubleValue(), (((Number)arguments.elementAt(0)).doubleValue()))); } else if (getSelector() == Round) { return new Double(Math.round(((Number)source).doubleValue())); } else if (getSelector() == Sin) { return new Double(Math.sin(((Number)source).doubleValue())); } else if (getSelector() == Tan) { return new Double(Math.tan(((Number)source).doubleValue())); } else if ((getSelector() == Greatest) && (arguments.size() == 1) && (arguments.elementAt(0) instanceof Number)) { return new Double(Math.max(((Number)source).doubleValue(), (((Number)arguments.elementAt(0)).doubleValue()))); } else if ((getSelector() == Least) && (arguments.size() == 1) && (arguments.elementAt(0) instanceof Number)) { return new Double(Math.min(((Number)source).doubleValue(), (((Number)arguments.elementAt(0)).doubleValue()))); } else if ((getSelector() == Add) && (arguments.size() == 1) && (arguments.elementAt(0) instanceof Number)) { return new Double(((Number)source).doubleValue() + (((Number)arguments.elementAt(0)).doubleValue())); } else if ((getSelector() == Subtract) && (arguments.size() == 1) && (arguments.elementAt(0) instanceof Number)) { return new Double(((Number)source).doubleValue() - (((Number)arguments.elementAt(0)).doubleValue())); } else if ((getSelector() == Divide) && (arguments.size() == 1) && (arguments.elementAt(0) instanceof Number)) { return new Double(((Number)source).doubleValue() / (((Number)arguments.elementAt(0)).doubleValue())); } else if ((getSelector() == Multiply) && (arguments.size() == 1) && (arguments.elementAt(0) instanceof Number)) { return new Double(((Number)source).doubleValue() * (((Number)arguments.elementAt(0)).doubleValue())); } } throw QueryException.cannotConformExpression(); } /** * INTERNAL: * Create the ASCENDING operator. */ public static ExpressionOperator ascending() { return simpleOrdering(Ascending, "ASC", "ascending"); } /** * INTERNAL: * Build operator. */ public static ExpressionOperator ascii() { return simpleFunction(Ascii, "ASCII"); } /** * INTERNAL: * Build operator. */ public static ExpressionOperator asin() { return simpleFunction(Asin, "ASIN"); } /** * INTERNAL: * Build operator. */ public static ExpressionOperator atan() { return simpleFunction(Atan, "ATAN"); } /** * INTERNAL: * Create the AVERAGE operator. */ public static ExpressionOperator average() { return simpleAggregate(Average, "AVG", "average"); } /** * ADVANCED: * Tell the operator to be postfix, i.e. its strings start printing after * those of its first argument. */ public void bePostfix() { isPrefix = false; } /** * ADVANCED: * Tell the operator to be pretfix, i.e. its strings start printing before * those of its first argument. */ public void bePrefix() { isPrefix = true; } /** * INTERNAL: * Make this a repeating argument. Currently unused. */ public void beRepeating() { isRepeating = true; } /** * INTERNAL: * Create the BETWEEN Operator */ public static ExpressionOperator between() { ExpressionOperator result = new ExpressionOperator(); result.setSelector(Between); result.setType(ComparisonOperator); Vector v = oracle.toplink.essentials.internal.helper.NonSynchronizedVector.newInstance(); v.addElement("("); v.addElement(" BETWEEN "); v.addElement(" AND "); v.addElement(")"); result.printsAs(v); result.bePrefix(); result.setNodeClass(ClassConstants.FunctionExpression_Class); return result; } /** * INTERNAL: * Build operator. * Note: This operator works differently from other operators. * @see Expression#caseStatement(Hashtable, String) */ public static ExpressionOperator caseStatement() { ExpressionOperator exOperator = new ExpressionOperator(); exOperator.setType(FunctionOperator); exOperator.setSelector(Case); exOperator.bePrefix(); exOperator.setNodeClass(FunctionExpression.class); return exOperator; } /** * INTERNAL: * Build operator. */ public static ExpressionOperator ceil() { return simpleFunction(Ceil, "CEIL"); } /** * INTERNAL: * Build operator. */ public static ExpressionOperator charIndex() { return simpleTwoArgumentFunction(CharIndex, "CHARINDEX"); } /** * INTERNAL: * Build operator. */ public static ExpressionOperator charLength() { return simpleFunction(CharLength, "CHAR_LENGTH"); } /** * INTERNAL: * Build operator. */ public static ExpressionOperator chr() { return simpleFunction(Chr, "CHR"); } /** * INTERNAL: * Build operator. */ public static ExpressionOperator concat() { return simpleMath(Concat, "+"); } /** * INTERNAL: * Compare bewteen in memory. */ public boolean conformBetween(Object left, Object right) { Object start = ((Vector)right).elementAt(0); Object end = ((Vector)right).elementAt(1); if ((left == null) || (start == null) || (end == null)) { return false; } if ((left instanceof Number) && (start instanceof Number) && (end instanceof Number)) { return ((((Number)left).doubleValue()) >= (((Number)start).doubleValue())) && ((((Number)left).doubleValue()) <= (((Number)end).doubleValue())); } else if ((left instanceof String) && (start instanceof String) && (end instanceof String)) { return ((((String)left).compareTo(((String)start)) > 0) || (((String)left).compareTo(((String)start)) == 0)) && ((((String)left).compareTo(((String)end)) < 0) || (((String)left).compareTo(((String)end)) == 0)); } else if ((left instanceof java.util.Date) && (start instanceof java.util.Date) && (end instanceof java.util.Date)) { return (((java.util.Date)left).after(((java.util.Date)start)) || ((java.util.Date)left).equals(((java.util.Date)start))) && (((java.util.Date)left).before(((java.util.Date)end)) || ((java.util.Date)left).equals(((java.util.Date)end))); } throw QueryException.cannotConformExpression(); } /** * INTERNAL: * Compare like in memory. * This only works for % not _. * @author Christian Weeks aka ChristianLink */ public boolean conformLike(Object left, Object right) { if ((right == null) && (left == null)) { return true; } if (!(right instanceof String) || !(left instanceof String)) { throw QueryException.cannotConformExpression(); } String likeString = (String)right; if (likeString.indexOf("_") != -1) { throw QueryException.cannotConformExpression(); } String value = (String)left; if (likeString.indexOf("%") == -1) { // No % symbols return left.equals(right); } boolean strictStart = !likeString.startsWith("%"); boolean strictEnd = !likeString.endsWith("%"); StringTokenizer tokens = new StringTokenizer(likeString, "%"); int lastPosition = 0; String lastToken = null; if (strictStart) { lastToken = tokens.nextToken(); if (!value.startsWith(lastToken)) { return false; } } while (tokens.hasMoreTokens()) { lastToken = tokens.nextToken(); lastPosition = value.indexOf(lastToken, lastPosition); if (lastPosition < 0) { return false; } } if (strictEnd) { return value.endsWith(lastToken); } return true; } /** * INTERNAL: * Build operator. */ public static ExpressionOperator cos() { return simpleFunction(Cos, "COS"); } /** * INTERNAL: * Build operator. */ public static ExpressionOperator cosh() { return simpleFunction(Cosh, "COSH"); } /** * INTERNAL: * Build operator. */ public static ExpressionOperator cot() { return simpleFunction(Cot, "COT"); } /** * INTERNAL: * Create the COUNT operator. */ public static ExpressionOperator count() { return simpleAggregate(Count, "COUNT", "count"); } /** * INTERNAL: * Build operator. */ public static ExpressionOperator dateDifference() { return simpleThreeArgumentFunction(DateDifference, "DATEDIFF"); } /** * INTERNAL: * Build operator. */ public static ExpressionOperator dateName() { return simpleTwoArgumentFunction(DateName, "DATENAME"); } /** * INTERNAL: * Oracle equivalent to DATENAME is TO_CHAR. */ public static ExpressionOperator oracleDateName() { ExpressionOperator exOperator = new ExpressionOperator(); exOperator.setType(FunctionOperator); exOperator.setSelector(DateName); Vector v = oracle.toplink.essentials.internal.helper.NonSynchronizedVector.newInstance(3); v.addElement("TO_CHAR("); v.addElement(", '"); v.addElement("')"); exOperator.printsAs(v); exOperator.bePrefix(); int[] indices = { 1, 0 }; exOperator.setArgumentIndices(indices); exOperator.setNodeClass(ClassConstants.FunctionExpression_Class); return exOperator; } /** * INTERNAL: * Build operator. */ public static ExpressionOperator datePart() { return simpleTwoArgumentFunction(DatePart, "DATEPART"); } /** * INTERNAL: * Build operator. */ public static ExpressionOperator dateToString() { return simpleFunction(DateToString, "TO_CHAR"); } /** * INTERNAL: * Build operator. */ public static ExpressionOperator toChar() { return simpleFunction(ToChar, "TO_CHAR"); } /** * INTERNAL: * Build operator. */ public static ExpressionOperator toCharWithFormat() { return simpleTwoArgumentFunction(ToCharWithFormat, "TO_CHAR"); } /** * INTERNAL: * Build operator. * Note: This operator works differently from other operators. * @see Expression#decode(Hashtable, String) */ public static ExpressionOperator decode() { ExpressionOperator exOperator = new ExpressionOperator(); exOperator.setSelector(Decode); exOperator.setNodeClass(FunctionExpression.class); exOperator.setType(FunctionOperator); exOperator.bePrefix(); return exOperator; } /** * INTERNAL: * Build operator. */ public static ExpressionOperator deref() { return simpleFunction(Deref, "DEREF"); } /** * INTERNAL: * Create the DESCENDING operator. */ public static ExpressionOperator descending() { return simpleOrdering(Descending, "DESC", "descending"); } /** * INTERNAL: * Build operator. */ public static ExpressionOperator difference() { return simpleTwoArgumentFunction(Difference, "DIFFERENCE"); } /** * INTERNAL: * Create the DISTINCT operator. */ public static ExpressionOperator distinct() { return simpleFunction(Distinct, "DISTINCT", "distinct"); } /** * INTERNAL: * Compare the values in memory. * Used for in-memory querying, all operators are not support. */ public boolean doesRelationConform(Object left, Object right) { // Big case statement follows. // Note, compareTo for String returns a number <= -1 if the String is less than. We assumed that // it would return -1. The same thing for strings that are greater than (ie it returns >= 1). PWK // Equals if (getSelector() == Equal) { if ((left == null) && (right == null)) { return true; } else if ((left == null) || (right == null)) { return false; } if (((left instanceof Number) && (right instanceof Number)) && (left.getClass() != right.getClass())) { return ((Number)left).doubleValue() == ((Number)right).doubleValue(); } return left.equals(right); } else if (getSelector() == NotEqual) { if ((left == null) && (right == null)) { return false; } else if ((left == null) || (right == null)) { return true; } return !left.equals(right); } else if (getSelector() == IsNull) { return (left == null); } if (getSelector() == NotNull) { return (left != null); } // Less thans, greater thans else if (getSelector() == LessThan) {// You have gottan love polymorphism in Java, NOT!!! if ((left == null) || (right == null)) { return false; } if ((left instanceof Number) && (right instanceof Number)) { return (((Number)left).doubleValue()) < (((Number)right).doubleValue()); } else if ((left instanceof String) && (right instanceof String)) { return ((String)left).compareTo(((String)right)) < 0; } else if ((left instanceof java.util.Date) && (right instanceof java.util.Date)) { return ((java.util.Date)left).before(((java.util.Date)right)); } } else if (getSelector() == LessThanEqual) { if ((left == null) && (right == null)) { return true; } else if ((left == null) || (right == null)) { return false; } if ((left instanceof Number) && (right instanceof Number)) { return (((Number)left).doubleValue()) <= (((Number)right).doubleValue()); } else if ((left instanceof String) && (right instanceof String)) { int compareValue = ((String)left).compareTo(((String)right)); return (compareValue < 0) || (compareValue == 0); } else if ((left instanceof java.util.Date) && (right instanceof java.util.Date)) { return ((java.util.Date)left).equals(((java.util.Date)right)) || ((java.util.Date)left).before(((java.util.Date)right)); } } else if (getSelector() == GreaterThan) { if ((left == null) || (right == null)) { return false; } if ((left instanceof Number) && (right instanceof Number)) { return (((Number)left).doubleValue()) > (((Number)right).doubleValue()); } else if ((left instanceof String) && (right instanceof String)) { int compareValue = ((String)left).compareTo(((String)right)); return (compareValue > 0); } else if ((left instanceof java.util.Date) && (right instanceof java.util.Date)) { return ((java.util.Date)left).after(((java.util.Date)right)); } } else if (getSelector() == GreaterThanEqual) { if ((left == null) && (right == null)) { return true; } else if ((left == null) || (right == null)) { return false; } if ((left instanceof Number) && (right instanceof Number)) { return (((Number)left).doubleValue()) >= (((Number)right).doubleValue()); } else if ((left instanceof String) && (right instanceof String)) { int compareValue = ((String)left).compareTo(((String)right)); return (compareValue > 0) || (compareValue == 0); } else if ((left instanceof java.util.Date) && (right instanceof java.util.Date)) { return ((java.util.Date)left).equals(((java.util.Date)right)) || ((java.util.Date)left).after(((java.util.Date)right)); } } // Between else if ((getSelector() == Between) && (right instanceof Vector) && (((Vector)right).size() == 2)) { return conformBetween(left, right); } else if ((getSelector() == NotBetween) && (right instanceof Vector) && (((Vector)right).size() == 2)) { return !conformBetween(left, right); } // In else if ((getSelector() == In) && (right instanceof Vector)) { return ((Vector)right).contains(left); } else if ((getSelector() == NotIn) && (right instanceof Vector)) { return !((Vector)right).contains(left); } // Like //conformLike(left, right); else if ((getSelector() == Like) || (getSelector() == NotLike)) { // the regular expression framework we use to conform like is only supported in // JDK 1.4 and later. We will ask our JavaPlatform to do this for us. int doesLikeConform = JavaPlatform.conformLike(left, right); if (doesLikeConform == JavaPlatform.TRUE) { return getSelector() == Like;// Negate for NotLike } else if (doesLikeConform == JavaPlatform.FALSE) { return getSelector() != Like;// Negate for NotLike } } throw QueryException.cannotConformExpression(); } /** * INTERNAL: * Initialize the outer join operator * Note: This is merely a shell which is incomplete, and * so will be replaced by the platform's operator when we * go to print. We need to create this here so that the expression * class is correct, normally it assumes functions for unknown operators. */ public static ExpressionOperator equalOuterJoin() { return simpleRelation(EqualOuterJoin, "=*"); } /** * PUBLIC: * Test for equality */ public boolean equals(Object object) { if (!(object instanceof ExpressionOperator)) { return false; } return getSelector() == ((ExpressionOperator)object).getSelector(); } /** * PUBLIC: * Return the hash-code based on the unique selector. */ public int hashCode() { return getSelector(); } /** * INTERNAL: * Create the EXISTS operator. */ public static ExpressionOperator exists() { ExpressionOperator exOperator = new ExpressionOperator(); exOperator.setType(FunctionOperator); exOperator.setSelector(Exists); Vector v = oracle.toplink.essentials.internal.helper.NonSynchronizedVector.newInstance(2); v.addElement("EXISTS" + " "); v.addElement(" "); exOperator.printsAs(v); exOperator.bePrefix(); exOperator.setNodeClass(ClassConstants.FunctionExpression_Class); return exOperator; } /** * INTERNAL: * Build operator. */ public static ExpressionOperator exp() { return simpleFunction(Exp, "EXP"); } /** * INTERNAL: * Create an expression for this operator, using the given base. */ public Expression expressionFor(Expression base) { return expressionForArguments(base, oracle.toplink.essentials.internal.helper.NonSynchronizedVector.newInstance(0)); } /** * INTERNAL: * Create an expression for this operator, using the given base and a single argument. */ public Expression expressionFor(Expression base, Object value) { return newExpressionForArgument(base, value); } /** * INTERNAL: * Create an expression for this operator, using the given base and a single argument. * Base is used last in the expression */ public Expression expressionForWithBaseLast(Expression base, Object value) { return newExpressionForArgumentWithBaseLast(base, value); } /** * INTERNAL: * Create an expression for this operator, using the given base and arguments. */ public Expression expressionForArguments(Expression base, Vector arguments) { return newExpressionForArguments(base, arguments); } /** * INTERNAL: * Create the extract expression operator */ public static ExpressionOperator extract() { ExpressionOperator result = new ExpressionOperator(); Vector v = oracle.toplink.essentials.internal.helper.NonSynchronizedVector.newInstance(); v.addElement("extract("); v.addElement(","); v.addElement(")"); result.printsAs(v); result.bePrefix(); result.setSelector(Extract); result.setNodeClass(ClassConstants.FunctionExpression_Class); return result; } /** * INTERNAL: * Create the extractValue expression operator */ public static ExpressionOperator extractValue() { ExpressionOperator result = new ExpressionOperator(); Vector v = oracle.toplink.essentials.internal.helper.NonSynchronizedVector.newInstance(); v.addElement("extractValue("); v.addElement(","); v.addElement(")"); result.printsAs(v); result.bePrefix(); result.setSelector(ExtractValue); result.setNodeClass(ClassConstants.FunctionExpression_Class); return result; } /** * INTERNAL: * Create the existsNode expression operator */ public static ExpressionOperator existsNode() { ExpressionOperator result = new ExpressionOperator(); Vector v = oracle.toplink.essentials.internal.helper.NonSynchronizedVector.newInstance(); v.addElement("existsNode("); v.addElement(","); v.addElement(")"); result.printsAs(v); result.bePrefix(); result.setSelector(ExistsNode); result.setNodeClass(ClassConstants.FunctionExpression_Class); return result; } public static ExpressionOperator getStringVal() { ExpressionOperator result = new ExpressionOperator(); Vector v = oracle.toplink.essentials.internal.helper.NonSynchronizedVector.newInstance(); v.addElement(".getStringVal()"); result.printsAs(v); result.bePostfix(); result.setSelector(GetStringVal); result.setNodeClass(ClassConstants.FunctionExpression_Class); return result; } public static ExpressionOperator getNumberVal() { ExpressionOperator result = new ExpressionOperator(); Vector v = oracle.toplink.essentials.internal.helper.NonSynchronizedVector.newInstance(); v.addElement(".getNumberVal()"); result.printsAs(v); result.bePostfix(); result.setSelector(GetNumberVal); result.setNodeClass(ClassConstants.FunctionExpression_Class); return result; } public static ExpressionOperator isFragment() { ExpressionOperator result = new ExpressionOperator(); Vector v = oracle.toplink.essentials.internal.helper.NonSynchronizedVector.newInstance(); v.addElement(".isFragment()"); result.printsAs(v); result.bePostfix(); result.setSelector(IsFragment); result.setNodeClass(ClassConstants.FunctionExpression_Class); return result; } /** * INTERNAL: * Build operator. */ public static ExpressionOperator floor() { return simpleFunction(Floor, "FLOOR"); } /** * ADVANCED: * Return the hashtable of all operators. */ public static synchronized Hashtable getAllOperators() { if (allOperators == null) { initializeOperators(); } return allOperators; } /** * INTERNAL: */ public String[] getDatabaseStrings() { return databaseStrings; } /** * INTERNAL: */ public String[] getJavaStrings() { return javaStrings; } /** * INTERNAL: */ public Class getNodeClass() { return nodeClass; } /** * INTERNAL: * Lookup the operator with the given name. */ public static ExpressionOperator getOperator(Integer selector) { return (ExpressionOperator)getAllOperators().get(selector); } /** * INTERNAL: * Return the selector id. */ public int getSelector() { return selector; } /** * ADVANCED: * Return the type of function. * This must be one of the static function types defined in this class. */ public int getType() { return this.type; } /** * INTERNAL: * Build operator. */ public static ExpressionOperator greatest() { return simpleTwoArgumentFunction(Greatest, "GREATEST"); } /** * INTERNAL: * Build operator. */ public static ExpressionOperator hexToRaw() { return simpleFunction(HexToRaw, "HEXTORAW"); } /** * INTERNAL: * Build operator. */ public static ExpressionOperator ifNull() { return simpleTwoArgumentFunction(Nvl, "NVL"); } /** * INTERNAL: * Create the IN operator. */ public static ExpressionOperator in() { ExpressionOperator result = new ExpressionOperator(); result.setType(ExpressionOperator.FunctionOperator); result.setSelector(In); Vector v = new Vector(2); v.addElement(" IN ("); v.addElement(")"); result.printsAs(v); result.bePostfix(); result.setNodeClass(ClassConstants.FunctionExpression_Class); return result; } /** * INTERNAL: * Create the IN operator taking a subquery. * Note, the subquery itself comes with parenethesis, so the IN operator * should not add any parenethesis. */ public static ExpressionOperator inSubQuery() { ExpressionOperator result = new ExpressionOperator(); result.setType(ExpressionOperator.FunctionOperator); result.setSelector(InSubQuery); Vector v = new Vector(1); v.addElement(" IN "); result.printsAs(v); result.bePostfix(); result.setNodeClass(ClassConstants.FunctionExpression_Class); return result; } /** * INTERNAL: * Build operator. */ public static ExpressionOperator initcap() { return simpleFunction(Initcap, "INITCAP"); } /** * INTERNAL: */ protected static void initializeAggregateFunctionOperators() { addOperator(count()); addOperator(sum()); addOperator(average()); addOperator(minimum()); addOperator(maximum()); addOperator(variance()); addOperator(standardDeviation()); addOperator(distinct()); } /** * INTERNAL: */ protected static void initializeFunctionOperators() { addOperator(notOperator()); addOperator(ascending()); addOperator(descending()); addOperator(any()); addOperator(some()); addOperator(all()); addOperator(in()); addOperator(inSubQuery()); addOperator(notIn()); addOperator(notInSubQuery()); } /** * INTERNAL: */ protected static void initializeLogicalOperators() { addOperator(and()); addOperator(or()); addOperator(isNull()); addOperator(notNull()); } /** * INTERNAL: */ public static Hashtable initializeOperators() { resetOperators(); initializeFunctionOperators(); initializeRelationOperators(); initializeLogicalOperators(); initializeAggregateFunctionOperators(); return allOperators; } /** * INTERNAL: * Initialize a mapping to the platform operator names for usage with exceptions. */ public static String getPlatformOperatorName(int operator) { String name = (String)getPlatformOperatorNames().get(new Integer(operator)); if (name == null) { name = String.valueOf(operator); } return name; } /** * INTERNAL: * Initialize a mapping to the platform operator names for usage with exceptions. */ public static synchronized Hashtable getPlatformOperatorNames() { if (platformOperatorNames == null) { platformOperatorNames = new Hashtable(); platformOperatorNames.put(new Integer(ToUpperCase), "ToUpperCase"); platformOperatorNames.put(new Integer(ToLowerCase), "ToLowerCase"); platformOperatorNames.put(new Integer(Chr), "Chr"); platformOperatorNames.put(new Integer(Concat), "Concat"); platformOperatorNames.put(new Integer(HexToRaw), "HexToRaw"); platformOperatorNames.put(new Integer(Initcap), "Initcap"); platformOperatorNames.put(new Integer(Instring), "Instring"); platformOperatorNames.put(new Integer(Soundex), "Soundex"); platformOperatorNames.put(new Integer(LeftPad), "LeftPad"); platformOperatorNames.put(new Integer(LeftTrim), "LeftTrim"); platformOperatorNames.put(new Integer(RightPad), "RightPad"); platformOperatorNames.put(new Integer(RightTrim), "RightTrim"); platformOperatorNames.put(new Integer(Substring), "Substring"); platformOperatorNames.put(new Integer(Translate), "Translate"); platformOperatorNames.put(new Integer(Ascii), "Ascii"); platformOperatorNames.put(new Integer(Length), "Length"); platformOperatorNames.put(new Integer(CharIndex), "CharIndex"); platformOperatorNames.put(new Integer(CharLength), "CharLength"); platformOperatorNames.put(new Integer(Difference), "Difference"); platformOperatorNames.put(new Integer(Reverse), "Reverse"); platformOperatorNames.put(new Integer(Replicate), "Replicate"); platformOperatorNames.put(new Integer(Right), "Right"); platformOperatorNames.put(new Integer(Locate), "Locate"); platformOperatorNames.put(new Integer(Locate2), "Locate"); platformOperatorNames.put(new Integer(ToNumber), "ToNumber"); platformOperatorNames.put(new Integer(ToChar), "ToChar"); platformOperatorNames.put(new Integer(ToCharWithFormat), "ToChar"); platformOperatorNames.put(new Integer(AddMonths), "AddMonths"); platformOperatorNames.put(new Integer(DateToString), "DateToString"); platformOperatorNames.put(new Integer(MonthsBetween), "MonthsBetween"); platformOperatorNames.put(new Integer(NextDay), "NextDay"); platformOperatorNames.put(new Integer(RoundDate), "RoundDate"); platformOperatorNames.put(new Integer(AddDate), "AddDate"); platformOperatorNames.put(new Integer(DateName), "DateName"); platformOperatorNames.put(new Integer(DatePart), "DatePart"); platformOperatorNames.put(new Integer(DateDifference), "DateDifference"); platformOperatorNames.put(new Integer(TruncateDate), "TruncateDate"); platformOperatorNames.put(new Integer(NewTime), "NewTime"); platformOperatorNames.put(new Integer(Nvl), "Nvl"); platformOperatorNames.put(new Integer(NewTime), "NewTime"); platformOperatorNames.put(new Integer(Ceil), "Ceil"); platformOperatorNames.put(new Integer(Cos), "Cos"); platformOperatorNames.put(new Integer(Cosh), "Cosh"); platformOperatorNames.put(new Integer(Abs), "Abs"); platformOperatorNames.put(new Integer(Acos), "Acos"); platformOperatorNames.put(new Integer(Asin), "Asin"); platformOperatorNames.put(new Integer(Atan), "Atan"); platformOperatorNames.put(new Integer(Exp), "Exp"); platformOperatorNames.put(new Integer(Sqrt), "Sqrt"); platformOperatorNames.put(new Integer(Floor), "Floor"); platformOperatorNames.put(new Integer(Ln), "Ln"); platformOperatorNames.put(new Integer(Log), "Log"); platformOperatorNames.put(new Integer(Mod), "Mod"); platformOperatorNames.put(new Integer(Power), "Power"); platformOperatorNames.put(new Integer(Round), "Round"); platformOperatorNames.put(new Integer(Sign), "Sign"); platformOperatorNames.put(new Integer(Sin), "Sin"); platformOperatorNames.put(new Integer(Sinh), "Sinh"); platformOperatorNames.put(new Integer(Tan), "Tan"); platformOperatorNames.put(new Integer(Tanh), "Tanh"); platformOperatorNames.put(new Integer(Trunc), "Trunc"); platformOperatorNames.put(new Integer(Greatest), "Greatest"); platformOperatorNames.put(new Integer(Least), "Least"); platformOperatorNames.put(new Integer(Add), "Add"); platformOperatorNames.put(new Integer(Subtract), "Subtract"); platformOperatorNames.put(new Integer(Divide), "Divide"); platformOperatorNames.put(new Integer(Multiply), "Multiply"); platformOperatorNames.put(new Integer(Atan2), "Atan2"); platformOperatorNames.put(new Integer(Cot), "Cot"); platformOperatorNames.put(new Integer(Deref), "Deref"); platformOperatorNames.put(new Integer(Ref), "Ref"); platformOperatorNames.put(new Integer(RefToHex), "RefToHex"); platformOperatorNames.put(new Integer(Value), "Value"); platformOperatorNames.put(new Integer(Extract), "Extract"); platformOperatorNames.put(new Integer(ExtractValue), "ExtractValue"); platformOperatorNames.put(new Integer(ExistsNode), "ExistsNode"); platformOperatorNames.put(new Integer(GetStringVal), "GetStringVal"); platformOperatorNames.put(new Integer(GetNumberVal), "GetNumberVal"); platformOperatorNames.put(new Integer(IsFragment), "IsFragment"); } return platformOperatorNames; } /** * INTERNAL: */ protected static void initializeRelationOperators() { addOperator(simpleRelation(Equal, "=", "equal")); addOperator(simpleRelation(NotEqual, "<>", "notEqual")); addOperator(simpleRelation(LessThan, "<", "lessThan")); addOperator(simpleRelation(LessThanEqual, "<=", "lessThanEqual")); addOperator(simpleRelation(GreaterThan, ">", "greaterThan")); addOperator(simpleRelation(GreaterThanEqual, ">=", "greaterThanEqual")); addOperator(like()); addOperator(likeEscape()); addOperator(notLike()); addOperator(between()); addOperator(exists()); addOperator(notExists()); } /** * INTERNAL: * Build operator. */ public static ExpressionOperator instring() { return simpleTwoArgumentFunction(Instring, "INSTR"); } /** * Aggregate functions are function in the select such as COUNT. */ public boolean isAggregateOperator() { return getType() == AggregateOperator; } /** * Comparison functions are functions such as = and >. */ public boolean isComparisonOperator() { return getType() == ComparisonOperator; } /** * INTERNAL: * If we have all the required information, this operator is complete * and can be used as is. Otherwise we will need to look up a platform- * specific operator. */ public boolean isComplete() { return (databaseStrings != null) && (databaseStrings.length != 0); } /** * General functions are any normal function such as UPPER. */ public boolean isFunctionOperator() { return getType() == FunctionOperator; } /** * Logical functions are functions such as and and or. */ public boolean isLogicalOperator() { return getType() == LogicalOperator; } /** * INTERNAL: * Create the ISNULL operator. */ public static ExpressionOperator isNull() { ExpressionOperator result = new ExpressionOperator(); result.setType(ComparisonOperator); result.setSelector(IsNull); Vector v = oracle.toplink.essentials.internal.helper.NonSynchronizedVector.newInstance(); v.addElement("("); v.addElement(" IS NULL)"); result.printsAs(v); result.bePrefix(); result.printsJavaAs(".isNull()"); result.setNodeClass(ClassConstants.FunctionExpression_Class); return result; } /** * Order functions are used in the order by such as ASC. */ public boolean isOrderOperator() { return getType() == OrderOperator; } /** * ADVANCED: * Return true if this is a prefix operator. */ public boolean isPrefix() { return isPrefix; } /** * INTERNAL: * Build operator. */ public static ExpressionOperator lastDay() { return simpleFunction(LastDay, "LAST_DAY"); } /** * INTERNAL: * Build operator. */ public static ExpressionOperator least() { return simpleTwoArgumentFunction(Least, "LEAST"); } /** * INTERNAL: * Build operator. */ public static ExpressionOperator leftPad() { return simpleThreeArgumentFunction(LeftPad, "LPAD"); } /** * INTERNAL: * Build operator. */ public static ExpressionOperator leftTrim() { return simpleFunction(LeftTrim, "LTRIM"); } /** * INTERNAL: * Build leftTrim operator that takes one parameter. */ public static ExpressionOperator leftTrim2() { return simpleTwoArgumentFunction(LeftTrim2, "LTRIM"); } /** * INTERNAL: * Build operator. */ public static ExpressionOperator length() { return simpleFunction(Length, "LENGTH"); } /** * INTERNAL: * Create the LIKE operator. */ public static ExpressionOperator like() { return simpleRelation(Like, "LIKE", "like"); } /** * INTERNAL: * Create the LIKE operator. */ public static ExpressionOperator likeEscape() { ExpressionOperator result = new ExpressionOperator(); result.setSelector(LikeEscape); result.setType(ComparisonOperator); Vector v = oracle.toplink.essentials.internal.helper.NonSynchronizedVector.newInstance(); v.addElement("("); v.addElement(" LIKE "); v.addElement(" ESCAPE "); v.addElement(")"); result.printsAs(v); result.bePrefix(); result.setNodeClass(ClassConstants.FunctionExpression_Class); return result; } /** * INTERNAL: * Build operator. */ public static ExpressionOperator ln() { return simpleFunction(Ln, "LN"); } /** * INTERNAL: * Build locate operator i.e. LOCATE("ob", t0.F_NAME) */ public static ExpressionOperator locate() { ExpressionOperator expOperator = simpleTwoArgumentFunction(Locate, "LOCATE"); int[] argumentIndices = new int[2]; argumentIndices[0] = 1; argumentIndices[1] = 0; expOperator.setArgumentIndices(argumentIndices); return expOperator; } /** * INTERNAL: * Build locate operator with 3 params i.e. LOCATE("coffee", t0.DESCRIP, 4). * Last parameter is a start at. */ public static ExpressionOperator locate2() { ExpressionOperator expOperator = simpleThreeArgumentFunction(Locate2, "LOCATE"); int[] argumentIndices = new int[3]; argumentIndices[0] = 1; argumentIndices[1] = 0; argumentIndices[2] = 2; expOperator.setArgumentIndices(argumentIndices); return expOperator; } /** * INTERNAL: * Build operator. */ public static ExpressionOperator log() { return simpleFunction(Log, "LOG"); } /** * INTERNAL: * Create the MAXIMUM operator. */ public static ExpressionOperator maximum() { return simpleAggregate(Maximum, "MAX", "maximum"); } /** * INTERNAL: * Create the MINIMUM operator. */ public static ExpressionOperator minimum() { return simpleAggregate(Minimum, "MIN", "minimum"); } /** * INTERNAL: * Build operator. */ public static ExpressionOperator mod() { return simpleTwoArgumentFunction(Mod, "MOD"); } /** * INTERNAL: * Build operator. */ public static ExpressionOperator monthsBetween() { return simpleTwoArgumentFunction(MonthsBetween, "MONTHS_BETWEEN"); } /** * INTERNAL: * Create a new expression. Optimized for the single argument case. */ public Expression newExpressionForArgument(Expression base, Object singleArgument) { if (representsEqualToNull(singleArgument)) { return base.isNull(); } if (representsNotEqualToNull(singleArgument)) { return base.notNull(); } try { Expression exp = null; if (PrivilegedAccessHelper.shouldUsePrivilegedAccess()){ try { exp = (Expression)AccessController.doPrivileged(new PrivilegedNewInstanceFromClass(getNodeClass())); } catch (PrivilegedActionException exception) { return null; } } else { exp = (Expression)PrivilegedAccessHelper.newInstanceFromClass(getNodeClass()); } exp.create(base, singleArgument, this); return exp; } catch (InstantiationException e) { return null; } catch (IllegalAccessException f) { return null; } } /** * INTERNAL: * Create a new expression. Optimized for the single argument case with base last */ public Expression newExpressionForArgumentWithBaseLast(Expression base, Object singleArgument) { if (representsEqualToNull(singleArgument)) { return base.isNull(); } if (representsNotEqualToNull(singleArgument)) { return base.notNull(); } try { Expression exp = null; if (PrivilegedAccessHelper.shouldUsePrivilegedAccess()){ try { exp = (Expression)AccessController.doPrivileged(new PrivilegedNewInstanceFromClass(getNodeClass())); } catch (PrivilegedActionException exception) { return null; } } else { exp = (Expression)PrivilegedAccessHelper.newInstanceFromClass(getNodeClass()); } exp.createWithBaseLast(base, singleArgument, this); return exp; } catch (InstantiationException e) { return null; } catch (IllegalAccessException f) { return null; } } /** * INTERNAL: * The general case. */ public Expression newExpressionForArguments(Expression base, Vector arguments) { if (representsEqualToNull(arguments)) { return base.isNull(); } if (representsNotEqualToNull(arguments)) { return base.notNull(); } try { Expression exp = null; if (PrivilegedAccessHelper.shouldUsePrivilegedAccess()){ try { exp = (Expression)AccessController.doPrivileged(new PrivilegedNewInstanceFromClass(getNodeClass())); } catch (PrivilegedActionException exception) { return null; } } else { exp = (Expression)PrivilegedAccessHelper.newInstanceFromClass(getNodeClass()); } exp.create(base, arguments, this); return exp; } catch (InstantiationException e) { return null; } catch (IllegalAccessException f) { return null; } } /** * INTERNAL: * Build operator. */ public static ExpressionOperator newTime() { return simpleThreeArgumentFunction(NewTime, "NEW_TIME"); } /** * INTERNAL: * Build operator. */ public static ExpressionOperator nextDay() { return simpleTwoArgumentFunction(NextDay, "NEXT_DAY"); } /** * INTERNAL: * Create the NOT EXISTS operator. */ public static ExpressionOperator notExists() { ExpressionOperator exOperator = new ExpressionOperator(); exOperator.setType(FunctionOperator); exOperator.setSelector(NotExists); Vector v = oracle.toplink.essentials.internal.helper.NonSynchronizedVector.newInstance(2); v.addElement("NOT EXISTS" + " "); v.addElement(" "); exOperator.printsAs(v); exOperator.bePrefix(); exOperator.setNodeClass(ClassConstants.FunctionExpression_Class); return exOperator; } /** * INTERNAL: * Create the NOTIN operator. */ public static ExpressionOperator notIn() { ExpressionOperator result = new ExpressionOperator(); result.setType(ExpressionOperator.FunctionOperator); result.setSelector(NotIn); Vector v = new Vector(2); v.addElement(" NOT IN ("); v.addElement(")"); result.printsAs(v); result.bePostfix(); result.setNodeClass(ClassConstants.FunctionExpression_Class); return result; } /** * INTERNAL: * Create the NOTIN operator taking a subQuery. * Note, the subquery itself comes with parenethesis, so the IN operator * should not add any parenethesis. */ public static ExpressionOperator notInSubQuery() { ExpressionOperator result = new ExpressionOperator(); result.setType(ExpressionOperator.FunctionOperator); result.setSelector(NotInSubQuery); Vector v = new Vector(1); v.addElement(" NOT IN "); result.printsAs(v); result.bePostfix(); result.setNodeClass(ClassConstants.FunctionExpression_Class); return result; } /** * INTERNAL: * Create the NOTLIKE operator. */ public static ExpressionOperator notLike() { return simpleRelation(NotLike, "NOT LIKE", "notLike"); } /** * INTERNAL: * Create the NOTNULL operator. */ public static ExpressionOperator notNull() { ExpressionOperator result = new ExpressionOperator(); result.setType(ComparisonOperator); result.setSelector(NotNull); Vector v = oracle.toplink.essentials.internal.helper.NonSynchronizedVector.newInstance(); v.addElement("("); v.addElement(" IS NOT NULL)"); result.printsAs(v); result.bePrefix(); result.printsJavaAs(".notNull()"); result.setNodeClass(ClassConstants.FunctionExpression_Class); return result; } /** * INTERNAL: * Create the NOT operator. */ public static ExpressionOperator notOperator() { ExpressionOperator result = new ExpressionOperator(); result.setSelector(Not); Vector v = oracle.toplink.essentials.internal.helper.NonSynchronizedVector.newInstance(); v.addElement("NOT ("); v.addElement(")"); result.printsAs(v); result.bePrefix(); result.printsJavaAs(".not()"); result.setNodeClass(ClassConstants.FunctionExpression_Class); return result; } /** * INTERNAL: * Create the OR operator. */ public static ExpressionOperator or() { return simpleLogical(Or, "OR", "or"); } /** * INTERNAL: * Build operator. */ public static ExpressionOperator power() { return simpleTwoArgumentFunction(Power, "POWER"); } /** * INTERNAL: Print the collection onto the SQL stream. */ public void printCollection(Vector items, ExpressionSQLPrinter printer) { int dbStringIndex = 0; try { if (isPrefix()) { printer.getWriter().write(getDatabaseStrings()[0]); dbStringIndex = 1; } else { dbStringIndex = 0; } } catch (IOException e) { e.printStackTrace(); } for (int i = 0; i < items.size(); i++) { int index = 0; if (argumentIndices == null) { index = i; } else { index = argumentIndices[i]; } ; Expression item = (Expression)items.elementAt(index); if ((getSelector() == Ref) || ((getSelector() == Deref) && (item.isObjectExpression()))) { DatabaseTable alias = ((ObjectExpression)item).aliasForTable((DatabaseTable)((ObjectExpression)item).getDescriptor().getTables().firstElement()); printer.printString(alias.getName()); } else if ((getSelector() == Count) && (item.isExpressionBuilder())) { printer.printString("*"); } else if (getType() == FunctionOperator) { item.printSQLWithoutConversion(printer); } else { item.printSQL(printer); } if (dbStringIndex < getDatabaseStrings().length) { printer.printString(getDatabaseStrings()[dbStringIndex++]); } } } /** * INTERNAL: Print the collection onto the SQL stream. */ public void printJavaCollection(Vector items, ExpressionJavaPrinter printer) { int javaStringIndex = 0; for (int i = 0; i < items.size(); i++) { Expression item = (Expression)items.elementAt(i); item.printJava(printer); if (javaStringIndex < getJavaStrings().length) { printer.printString(getJavaStrings()[javaStringIndex++]); } } } /** * INTERNAL: * For performance, special case printing two children, since it's by far the most common */ public void printDuo(Expression first, Expression second, ExpressionSQLPrinter printer) { int dbStringIndex; if (isPrefix()) { printer.printString(getDatabaseStrings()[0]); dbStringIndex = 1; } else { dbStringIndex = 0; } first.printSQL(printer); if (dbStringIndex < getDatabaseStrings().length) { printer.printString(getDatabaseStrings()[dbStringIndex++]); } if (second != null) { second.printSQL(printer); if (dbStringIndex < getDatabaseStrings().length) { printer.printString(getDatabaseStrings()[dbStringIndex++]); } } } /** * INTERNAL: * For performance, special case printing two children, since it's by far the most common */ public void printJavaDuo(Expression first, Expression second, ExpressionJavaPrinter printer) { int javaStringIndex = 0; first.printJava(printer); if (javaStringIndex < getJavaStrings().length) { printer.printString(getJavaStrings()[javaStringIndex++]); } if (second != null) { second.printJava(printer); if (javaStringIndex < getJavaStrings().length) { printer.printString(getJavaStrings()[javaStringIndex]); } } } /** * ADVANCED: * Set the single string for this operator. */ public void printsAs(String s) { Vector v = oracle.toplink.essentials.internal.helper.NonSynchronizedVector.newInstance(1); v.addElement(s); printsAs(v); } /** * ADVANCED: * Set the strings for this operator. */ public void printsAs(Vector dbStrings) { this.databaseStrings = new String[dbStrings.size()]; for (int i = 0; i < dbStrings.size(); i++) { getDatabaseStrings()[i] = (String)dbStrings.elementAt(i); } } /** * ADVANCED: * Set the single string for this operator. */ public void printsJavaAs(String s) { Vector v = oracle.toplink.essentials.internal.helper.NonSynchronizedVector.newInstance(1); v.addElement(s); printsJavaAs(v); } /** * ADVANCED: * Set the strings for this operator. */ public void printsJavaAs(Vector dbStrings) { this.javaStrings = new String[dbStrings.size()]; for (int i = 0; i < dbStrings.size(); i++) { getJavaStrings()[i] = (String)dbStrings.elementAt(i); } } /** * INTERNAL: * Build operator. */ public static ExpressionOperator ref() { return simpleFunction(Ref, "REF"); } /** * INTERNAL: * Build operator. */ public static ExpressionOperator refToHex() { return simpleFunction(RefToHex, "REFTOHEX"); } /** * INTERNAL: * Build operator. */ public static ExpressionOperator replace() { return simpleThreeArgumentFunction(Replace, "REPLACE"); } /** * INTERNAL: * Build operator. */ public static ExpressionOperator replicate() { return simpleTwoArgumentFunction(Replicate, "REPLICATE"); } /** * INTERNAL: * Test if this operator instance represents a comparison to null, which * we have to print specially. Also special-cased for performance. */ public boolean representsEqualToNull(Object singleArgument) { if (singleArgument instanceof Vector) { return representsEqualToNull((Vector)singleArgument); } return (getSelector() == Equal) && (singleArgument == null); } /** * INTERNAL: * Test if this operator instance represents a comparison to null, which * we have to print specially. */ public boolean representsEqualToNull(Vector arguments) { return (getSelector() == Equal) && (arguments.size() == 1) && (arguments.elementAt(0) == null); } /** * INTERNAL: * Test if this operator instance represents a comparison to null, which * we have to print specially. Also special-cased for performance. */ public boolean representsNotEqualToNull(Object singleArgument) { if (singleArgument instanceof Vector) { return representsNotEqualToNull((Vector)singleArgument); } return (getSelector() == NotEqual) && (singleArgument == null); } /** * INTERNAL: * Test if this operator instance represents a comparison to null, which * we have to print specially. */ public boolean representsNotEqualToNull(Vector arguments) { return (getSelector() == NotEqual) && (arguments.size() == 1) && (arguments.elementAt(0) == null); } /** * INTERNAL: * Reset all the operators. */ public static void resetOperators() { allOperators = new Hashtable(); } /** * INTERNAL: * Build operator. */ public static ExpressionOperator reverse() { return simpleFunction(Reverse, "REVERSE"); } /** * INTERNAL: * Build operator. */ public static ExpressionOperator right() { return simpleTwoArgumentFunction(Right, "RIGHT"); } /** * INTERNAL: * Build operator. */ public static ExpressionOperator rightPad() { return simpleThreeArgumentFunction(RightPad, "RPAD"); } /** * INTERNAL: * Build operator. */ public static ExpressionOperator rightTrim() { return simpleFunction(RightTrim, "RTRIM"); } /** * INTERNAL: * Build rightTrim operator that takes one parameter. * @bug 2916893 rightTrim(substring) broken. */ public static ExpressionOperator rightTrim2() { return simpleTwoArgumentFunction(RightTrim2, "RTRIM"); } /** * INTERNAL: * Build operator. */ public static ExpressionOperator round() { return simpleTwoArgumentFunction(Round, "ROUND"); } /** * INTERNAL: * Build operator. */ public static ExpressionOperator roundDate() { return simpleTwoArgumentFunction(RoundDate, "ROUND"); } /** * ADVANCED: * Set the array of indexes to use when building the SQL function. */ public void setArgumentIndices(int[] indices) { argumentIndices = indices; } /** * ADVANCED: * Set the node class for this operator. For user-defined functions this is * set automatically but can be changed. *

A list of Operator types, an example, and the node class used follows. *

LogicalOperator AND LogicalExpression *

ComparisonOperator <> RelationExpression *

AggregateOperator COUNT FunctionExpression *

OrderOperator ASCENDING " *

FunctionOperator RTRIM " *

Node classes given belong to oracle.toplink.essentials.internal.expressions. */ public void setNodeClass(Class nodeClass) { this.nodeClass = nodeClass; } /** * INTERNAL: * Set the selector id. */ public void setSelector(int selector) { this.selector = selector; } /** * ADVANCED: * Set the type of function. * This must be one of the static function types defined in this class. */ public void setType(int type) { this.type = type; } /** * INTERNAL: * Build operator. */ public static ExpressionOperator sign() { return simpleFunction(Sign, "SIGN"); } /** * INTERNAL: * Create an operator for a simple aggregate given a Java name and a single * String for the database (parentheses will be added automatically). */ public static ExpressionOperator simpleAggregate(int selector, String databaseName, String javaName) { ExpressionOperator exOperator = new ExpressionOperator(); exOperator.setType(AggregateOperator); exOperator.setSelector(selector); Vector v = oracle.toplink.essentials.internal.helper.NonSynchronizedVector.newInstance(2); v.addElement(databaseName + "("); v.addElement(")"); exOperator.printsAs(v); exOperator.bePrefix(); exOperator.printsJavaAs("." + javaName + "()"); exOperator.setNodeClass(ClassConstants.FunctionExpression_Class); return exOperator; } /** * INTERNAL: * Create an operator for a simple function given a Java name and a single * String for the database (parentheses will be added automatically). */ public static ExpressionOperator simpleFunction(int selector, String databaseName) { ExpressionOperator exOperator = new ExpressionOperator(); exOperator.setType(FunctionOperator); exOperator.setSelector(selector); Vector v = oracle.toplink.essentials.internal.helper.NonSynchronizedVector.newInstance(2); v.addElement(databaseName + "("); v.addElement(")"); exOperator.printsAs(v); exOperator.bePrefix(); exOperator.setNodeClass(ClassConstants.FunctionExpression_Class); return exOperator; } /** * INTERNAL: * Create an operator for a simple function call without parentheses */ public static ExpressionOperator simpleFunctionNoParentheses(int selector, String databaseName) { ExpressionOperator exOperator = new ExpressionOperator(); exOperator.setType(FunctionOperator); exOperator.setSelector(selector); Vector v = oracle.toplink.essentials.internal.helper.NonSynchronizedVector.newInstance(1); v.addElement(databaseName); exOperator.printsAs(v); exOperator.bePrefix(); exOperator.setNodeClass(ClassConstants.FunctionExpression_Class); return exOperator; } /** * INTERNAL: * Create an operator for a simple function given a Java name and a single * String for the database (parentheses will be added automatically). */ public static ExpressionOperator simpleFunction(int selector, String databaseName, String javaName) { ExpressionOperator exOperator = simpleFunction(selector, databaseName); exOperator.printsJavaAs("." + javaName + "()"); return exOperator; } /** * INTERNAL: * Create an operator for a simple logical given a Java name and a single * String for the database (parentheses will be added automatically). */ public static ExpressionOperator simpleLogical(int selector, String databaseName, String javaName) { ExpressionOperator exOperator = new ExpressionOperator(); exOperator.setType(LogicalOperator); exOperator.setSelector(selector); exOperator.printsAs(" " + databaseName + " "); exOperator.bePostfix(); Vector v = oracle.toplink.essentials.internal.helper.NonSynchronizedVector.newInstance(2); v.addElement("." + javaName + "("); v.addElement(")"); exOperator.printsJavaAs(v); exOperator.setNodeClass(ClassConstants.LogicalExpression_Class); return exOperator; } /** * INTERNAL: * Create an operator for a simple math operatin, i.e. +, -, *, / */ public static ExpressionOperator simpleMath(int selector, String databaseName) { ExpressionOperator exOperator = new ExpressionOperator(); exOperator.setType(FunctionOperator); exOperator.setSelector(selector); Vector v = oracle.toplink.essentials.internal.helper.NonSynchronizedVector.newInstance(3); v.addElement("("); v.addElement(" " + databaseName + " "); v.addElement(")"); exOperator.printsAs(v); exOperator.bePrefix(); exOperator.setNodeClass(ClassConstants.FunctionExpression_Class); return exOperator; } /** * INTERNAL: * Create an operator for a simple ordering given a Java name and a single * String for the database (parentheses will be added automatically). */ public static ExpressionOperator simpleOrdering(int selector, String databaseName, String javaName) { ExpressionOperator exOperator = new ExpressionOperator(); exOperator.setType(OrderOperator); exOperator.setSelector(selector); exOperator.printsAs(" " + databaseName); exOperator.bePostfix(); exOperator.printsJavaAs("." + javaName + "()"); exOperator.setNodeClass(ClassConstants.FunctionExpression_Class); return exOperator; } /** * INTERNAL: * Create an operator for a simple relation given a Java name and a single * String for the database (parentheses will be added automatically). */ public static ExpressionOperator simpleRelation(int selector, String databaseName) { ExpressionOperator exOperator = new ExpressionOperator(); exOperator.setType(ComparisonOperator); exOperator.setSelector(selector); exOperator.printsAs(" " + databaseName + " "); exOperator.bePostfix(); exOperator.setNodeClass(ClassConstants.RelationExpression_Class); return exOperator; } /** * INTERNAL: * Create an operator for a simple relation given a Java name and a single * String for the database (parentheses will be added automatically). */ public static ExpressionOperator simpleRelation(int selector, String databaseName, String javaName) { ExpressionOperator exOperator = simpleRelation(selector, databaseName); Vector v = oracle.toplink.essentials.internal.helper.NonSynchronizedVector.newInstance(2); v.addElement("." + javaName + "("); v.addElement(")"); exOperator.printsJavaAs(v); return exOperator; } /** * INTERNAL: * Build operator. */ public static ExpressionOperator simpleThreeArgumentFunction(int selector, String dbString) { ExpressionOperator exOperator = new ExpressionOperator(); exOperator.setType(FunctionOperator); exOperator.setSelector(selector); Vector v = oracle.toplink.essentials.internal.helper.NonSynchronizedVector.newInstance(4); v.addElement(dbString + "("); v.addElement(", "); v.addElement(", "); v.addElement(")"); exOperator.printsAs(v); exOperator.bePrefix(); exOperator.setNodeClass(ClassConstants.FunctionExpression_Class); return exOperator; } /** * INTERNAL: * Build operator. */ public static ExpressionOperator simpleTwoArgumentFunction(int selector, String dbString) { ExpressionOperator exOperator = new ExpressionOperator(); exOperator.setType(FunctionOperator); exOperator.setSelector(selector); Vector v = oracle.toplink.essentials.internal.helper.NonSynchronizedVector.newInstance(5); v.addElement(dbString + "("); v.addElement(", "); v.addElement(")"); exOperator.printsAs(v); exOperator.bePrefix(); exOperator.setNodeClass(ClassConstants.FunctionExpression_Class); return exOperator; } /** * INTERNAL: * e.g.: ... "Bob" CONCAT "Smith" ... * Parentheses will not be addded. [RMB - March 5 2000] */ public static ExpressionOperator simpleLogicalNoParens(int selector, String dbString) { ExpressionOperator exOperator = new ExpressionOperator(); exOperator.setType(FunctionOperator); exOperator.setSelector(selector); Vector v = oracle.toplink.essentials.internal.helper.NonSynchronizedVector.newInstance(5); v.addElement(""); v.addElement(" " + dbString + " "); v.addElement(""); exOperator.printsAs(v); exOperator.bePrefix(); exOperator.setNodeClass(ClassConstants.FunctionExpression_Class); return exOperator; } /** * INTERNAL: * Build operator. */ public static ExpressionOperator sin() { return simpleFunction(Sin, "SIN"); } /** * INTERNAL: * Build operator. */ public static ExpressionOperator sinh() { return simpleFunction(Sinh, "SINH"); } /** * INTERNAL: * Build operator. */ public static ExpressionOperator soundex() { return simpleFunction(Soundex, "SOUNDEX"); } /** * INTERNAL: * Build operator. */ public static ExpressionOperator sqrt() { return simpleFunction(Sqrt, "SQRT"); } /** * INTERNAL: * Build operator. */ public static ExpressionOperator standardDeviation() { return simpleAggregate(StandardDeviation, "STDDEV", "standardDeviation"); } /** * INTERNAL: * Build operator. */ public static ExpressionOperator substring() { return simpleThreeArgumentFunction(Substring, "SUBSTR"); } /** * INTERNAL: * Create the SUM operator. */ public static ExpressionOperator sum() { return simpleAggregate(Sum, "SUM", "sum"); } /** * INTERNAL: * Function, to add months to a date. */ public static ExpressionOperator sybaseAddMonthsOperator() { ExpressionOperator exOperator = new ExpressionOperator(); exOperator.setType(FunctionOperator); exOperator.setSelector(AddMonths); Vector v = oracle.toplink.essentials.internal.helper.NonSynchronizedVector.newInstance(3); v.addElement("DATEADD(month, "); v.addElement(", "); v.addElement(")"); exOperator.printsAs(v); exOperator.bePrefix(); int[] indices = { 1, 0 }; exOperator.setArgumentIndices(indices); exOperator.setNodeClass(ClassConstants.FunctionExpression_Class); return exOperator; } /** * INTERNAL: * Build operator. */ public static ExpressionOperator sybaseAtan2Operator() { return ExpressionOperator.simpleTwoArgumentFunction(Atan2, "ATN2"); } /** * INTERNAL: * Build instring operator */ public static ExpressionOperator sybaseInStringOperator() { ExpressionOperator exOperator = new ExpressionOperator(); exOperator.setType(FunctionOperator); exOperator.setSelector(Instring); Vector v = oracle.toplink.essentials.internal.helper.NonSynchronizedVector.newInstance(3); v.addElement("CHARINDEX("); v.addElement(", "); v.addElement(")"); exOperator.printsAs(v); exOperator.bePrefix(); int[] indices = { 1, 0 }; exOperator.setArgumentIndices(indices); exOperator.setNodeClass(ClassConstants.FunctionExpression_Class); return exOperator; } /** * INTERNAL: * Build Sybase equivalent to TO_NUMBER. */ public static ExpressionOperator sybaseToNumberOperator() { ExpressionOperator exOperator = new ExpressionOperator(); exOperator.setType(FunctionOperator); exOperator.setSelector(ToNumber); Vector v = oracle.toplink.essentials.internal.helper.NonSynchronizedVector.newInstance(2); v.addElement("CONVERT(NUMERIC, "); v.addElement(")"); exOperator.printsAs(v); exOperator.bePrefix(); exOperator.setNodeClass(ClassConstants.FunctionExpression_Class); return exOperator; } /** * INTERNAL: * Build Sybase equivalent to TO_CHAR. */ public static ExpressionOperator sybaseToDateToStringOperator() { ExpressionOperator exOperator = new ExpressionOperator(); exOperator.setType(FunctionOperator); exOperator.setSelector(DateToString); Vector v = oracle.toplink.essentials.internal.helper.NonSynchronizedVector.newInstance(2); v.addElement("CONVERT(CHAR, "); v.addElement(")"); exOperator.printsAs(v); exOperator.bePrefix(); exOperator.setNodeClass(ClassConstants.FunctionExpression_Class); return exOperator; } /** * INTERNAL: * Build Sybase equivalent to TO_DATE. */ public static ExpressionOperator sybaseToDateOperator() { ExpressionOperator exOperator = new ExpressionOperator(); exOperator.setType(FunctionOperator); exOperator.setSelector(ToDate); Vector v = oracle.toplink.essentials.internal.helper.NonSynchronizedVector.newInstance(2); v.addElement("CONVERT(DATETIME, "); v.addElement(")"); exOperator.printsAs(v); exOperator.bePrefix(); exOperator.setNodeClass(ClassConstants.FunctionExpression_Class); return exOperator; } /** * INTERNAL: * Build Sybase equivalent to TO_CHAR. */ public static ExpressionOperator sybaseToCharOperator() { ExpressionOperator exOperator = new ExpressionOperator(); exOperator.setType(FunctionOperator); exOperator.setSelector(ToChar); Vector v = oracle.toplink.essentials.internal.helper.NonSynchronizedVector.newInstance(2); v.addElement("CONVERT(CHAR, "); v.addElement(")"); exOperator.printsAs(v); exOperator.bePrefix(); exOperator.setNodeClass(ClassConstants.FunctionExpression_Class); return exOperator; } /** * INTERNAL: * Build Sybase equivalent to TO_CHAR. */ public static ExpressionOperator sybaseToCharWithFormatOperator() { ExpressionOperator exOperator = new ExpressionOperator(); exOperator.setType(FunctionOperator); exOperator.setSelector(ToCharWithFormat); Vector v = oracle.toplink.essentials.internal.helper.NonSynchronizedVector.newInstance(3); v.addElement("CONVERT(CHAR, "); v.addElement(","); v.addElement(")"); exOperator.printsAs(v); exOperator.bePrefix(); exOperator.setNodeClass(ClassConstants.FunctionExpression_Class); return exOperator; } /** * INTERNAL: * Build the Sybase equivalent to Locate */ public static ExpressionOperator sybaseLocateOperator() { ExpressionOperator result = simpleTwoArgumentFunction(ExpressionOperator.Locate, "CHARINDEX"); int[] argumentIndices = new int[2]; argumentIndices[0] = 1; argumentIndices[1] = 0; result.setArgumentIndices(argumentIndices); return result; } /** * INTERNAL: * Build operator. */ public static ExpressionOperator tan() { return simpleFunction(Tan, "TAN"); } /** * INTERNAL: * Build operator. */ public static ExpressionOperator tanh() { return simpleFunction(Tanh, "TANH"); } /** * INTERNAL: * Build operator. */ public static ExpressionOperator toDate() { return simpleFunction(ToDate, "TO_DATE"); } /** * INTERNAL: * Build operator. */ public static ExpressionOperator today() { return currentTimeStamp(); } /** * INTERNAL: * Build operator. */ public static ExpressionOperator currentTimeStamp() { return simpleFunctionNoParentheses(Today, "CURRENT_TIMESTAMP"); } /** * INTERNAL: * Build operator. */ public static ExpressionOperator currentDate() { return simpleFunctionNoParentheses(CurrentDate, "CURRENT_DATE"); } /** * INTERNAL: * Build operator. */ public static ExpressionOperator currentTime() { return simpleFunctionNoParentheses(CurrentTime, "CURRENT_TIME"); } /** * INTERNAL: * Create the toLowerCase operator. */ public static ExpressionOperator toLowerCase() { return simpleFunction(ToLowerCase, "LOWER", "toLowerCase"); } /** * INTERNAL: * Build operator. */ public static ExpressionOperator toNumber() { return simpleFunction(ToNumber, "TO_NUMBER"); } /** * Print a debug representation of this operator. */ public String toString() { if ((getDatabaseStrings() == null) || (getDatabaseStrings().length == 0)) { //CR#... Print a useful name for the missing plaftorm operator. return "platform operator - " + getPlatformOperatorName(getSelector()); } else { return "operator " + getDatabaseStrings()[0]; } } /** * INTERNAL: * Create the TOUPPERCASE operator. */ public static ExpressionOperator toUpperCase() { return simpleFunction(ToUpperCase, "UPPER", "toUpperCase"); } /** * INTERNAL: * Build operator. */ public static ExpressionOperator translate() { return simpleThreeArgumentFunction(Translate, "TRANSLATE"); } /** * INTERNAL: * Build operator. */ public static ExpressionOperator trim() { return simpleFunction(Trim, "TRIM"); } /** * INTERNAL: * Build Trim operator. */ public static ExpressionOperator trim2() { ExpressionOperator exOperator = new ExpressionOperator(); exOperator.setType(FunctionOperator); exOperator.setSelector(Trim2); Vector v = oracle.toplink.essentials.internal.helper.NonSynchronizedVector.newInstance(5); v.addElement("TRIM("); v.addElement(" FROM "); v.addElement(")"); exOperator.printsAs(v); exOperator.bePrefix(); exOperator.setNodeClass(ClassConstants.FunctionExpression_Class); return exOperator; } /** * INTERNAL: * Build operator. */ public static ExpressionOperator trunc() { return simpleTwoArgumentFunction(Trunc, "TRUNC"); } /** * INTERNAL: * Build operator. */ public static ExpressionOperator truncateDate() { return simpleTwoArgumentFunction(TruncateDate, "TRUNC"); } /** * INTERNAL: * Build operator. */ public static ExpressionOperator value() { return simpleFunction(Value, "VALUE"); } /** * INTERNAL: * Build operator. */ public static ExpressionOperator variance() { return simpleAggregate(Variance, "VARIANCE", "variance"); } /** * INTERNAL: * Create the ANY operator. */ public static ExpressionOperator any() { ExpressionOperator exOperator = new ExpressionOperator(); exOperator.setType(FunctionOperator); exOperator.setSelector(Any); exOperator.printsAs("ANY"); exOperator.bePostfix(); exOperator.setNodeClass(ClassConstants.FunctionExpression_Class); return exOperator; } /** * INTERNAL: * Create the SOME operator. */ public static ExpressionOperator some() { ExpressionOperator exOperator = new ExpressionOperator(); exOperator.setType(FunctionOperator); exOperator.setSelector(Some); exOperator.printsAs("SOME"); exOperator.bePostfix(); exOperator.setNodeClass(ClassConstants.FunctionExpression_Class); return exOperator; } /** * INTERNAL: * Create the ALL operator. */ public static ExpressionOperator all() { ExpressionOperator exOperator = new ExpressionOperator(); exOperator.setType(FunctionOperator); exOperator.setSelector(All); exOperator.printsAs("ALL"); exOperator.bePostfix(); exOperator.setNodeClass(ClassConstants.FunctionExpression_Class); return exOperator; } /** * INTERNAL: * Indicates whether operator has selector Any or Some */ public boolean isAny() { return selector == ExpressionOperator.Any || selector == ExpressionOperator.Some; } /** * INTERNAL: * Indicates whether operator has selector All */ public boolean isAll() { return selector == ExpressionOperator.All; } /** * INTERNAL: * Indicates whether operator has selector Any, Some or All */ public boolean isAnyOrAll() { return isAny() || isAll(); } }





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