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package org.apache.poi.ss.formula;

import org.apache.poi.ss.formula.ptg.AbstractFunctionPtg;
import org.apache.poi.ss.formula.ptg.AttrPtg;
import org.apache.poi.ss.formula.ptg.ControlPtg;
import org.apache.poi.ss.formula.ptg.FuncVarPtg;
import org.apache.poi.ss.formula.ptg.IntersectionPtg;
import org.apache.poi.ss.formula.ptg.MemAreaPtg;
import org.apache.poi.ss.formula.ptg.MemFuncPtg;
import org.apache.poi.ss.formula.ptg.Ptg;
import org.apache.poi.ss.formula.ptg.RangePtg;
import org.apache.poi.ss.formula.ptg.UnionPtg;
import org.apache.poi.ss.formula.ptg.ValueOperatorPtg;
import org.apache.poi.util.Removal;

/**
 * This class performs 'operand class' transformation. Non-base tokens are classified into three
 * operand classes:
 * 
    *
  • reference
  • *
  • value
  • *
  • array
  • *
*

* * The final operand class chosen for each token depends on the formula type and the token's place * in the formula. If POI gets the operand class wrong, Excel may interpret the formula * incorrectly. This condition is typically manifested as a formula cell that displays as '#VALUE!', * but resolves correctly when the user presses F2, enter.

* * The logic implemented here was partially inspired by the description in * "OpenOffice.org's Documentation of the Microsoft Excel File Format". The model presented there * seems to be inconsistent with observed Excel behaviour (These differences have not been fully * investigated). The implementation in this class has been heavily modified in order to satisfy * concrete examples of how Excel performs the same logic (see TestRVA).

* * Hopefully, as additional important test cases are identified and added to the test suite, * patterns might become more obvious in this code and allow for simplification. * * @author Josh Micich */ final class OperandClassTransformer { private final FormulaType _formulaType; public OperandClassTransformer(FormulaType formulaType) { _formulaType = formulaType; } /** * Traverses the supplied formula parse tree, calling Ptg.setClass() for each non-base * token to set its operand class. */ public void transformFormula(ParseNode rootNode) { byte rootNodeOperandClass; switch (_formulaType) { case CELL: rootNodeOperandClass = Ptg.CLASS_VALUE; break; case ARRAY: rootNodeOperandClass = Ptg.CLASS_ARRAY; break; case NAMEDRANGE: case DATAVALIDATION_LIST: rootNodeOperandClass = Ptg.CLASS_REF; break; default: throw new RuntimeException("Incomplete code - formula type (" + _formulaType + ") not supported yet"); } transformNode(rootNode, rootNodeOperandClass, false); } /** * @param callerForceArrayFlag true if one of the current node's parents is a * function Ptg which has been changed from default 'V' to 'A' type (due to requirements on * the function return value). */ private void transformNode(ParseNode node, byte desiredOperandClass, boolean callerForceArrayFlag) { Ptg token = node.getToken(); ParseNode[] children = node.getChildren(); boolean isSimpleValueFunc = isSimpleValueFunction(token); if (isSimpleValueFunc) { boolean localForceArray = desiredOperandClass == Ptg.CLASS_ARRAY; for (int i = 0; i < children.length; i++) { transformNode(children[i], desiredOperandClass, localForceArray); } setSimpleValueFuncClass((AbstractFunctionPtg) token, desiredOperandClass, callerForceArrayFlag); return; } if (isSingleArgSum(token)) { // Need to process the argument of SUM with transformFunctionNode below // so make a dummy FuncVarPtg for that call. token = FuncVarPtg.SUM; // Note - the tAttrSum token (node.getToken()) is a base // token so does not need to have its operand class set } if (token instanceof ValueOperatorPtg || token instanceof ControlPtg || token instanceof MemFuncPtg || token instanceof MemAreaPtg || token instanceof UnionPtg || token instanceof IntersectionPtg) { // Value Operator Ptgs and Control are base tokens, so token will be unchanged // but any child nodes are processed according to desiredOperandClass and callerForceArrayFlag // As per OOO documentation Sec 3.2.4 "Token Class Transformation", "Step 1" // All direct operands of value operators that are initially 'R' type will // be converted to 'V' type. byte localDesiredOperandClass = desiredOperandClass == Ptg.CLASS_REF ? Ptg.CLASS_VALUE : desiredOperandClass; for (int i = 0; i < children.length; i++) { transformNode(children[i], localDesiredOperandClass, callerForceArrayFlag); } return; } if (token instanceof AbstractFunctionPtg) { transformFunctionNode((AbstractFunctionPtg) token, children, desiredOperandClass, callerForceArrayFlag); return; } if (children.length > 0) { if (token == RangePtg.instance) { // TODO is any token transformation required under the various ref operators? return; } throw new IllegalStateException("Node should not have any children"); } if (token.isBaseToken()) { // nothing to do return; } token.setClass(transformClass(token.getPtgClass(), desiredOperandClass, callerForceArrayFlag)); } private static boolean isSingleArgSum(Ptg token) { if (token instanceof AttrPtg) { AttrPtg attrPtg = (AttrPtg) token; return attrPtg.isSum(); } return false; } private static boolean isSimpleValueFunction(Ptg token) { if (token instanceof AbstractFunctionPtg) { AbstractFunctionPtg aptg = (AbstractFunctionPtg) token; if (aptg.getDefaultOperandClass() != Ptg.CLASS_VALUE) { return false; } int numberOfOperands = aptg.getNumberOfOperands(); for (int i=numberOfOperands-1; i>=0; i--) { if (aptg.getParameterClass(i) != Ptg.CLASS_VALUE) { return false; } } return true; } return false; } private byte transformClass(byte currentOperandClass, byte desiredOperandClass, boolean callerForceArrayFlag) { switch (desiredOperandClass) { case Ptg.CLASS_VALUE: if (!callerForceArrayFlag) { return Ptg.CLASS_VALUE; } // else fall through case Ptg.CLASS_ARRAY: return Ptg.CLASS_ARRAY; case Ptg.CLASS_REF: if (!callerForceArrayFlag) { return currentOperandClass; } return Ptg.CLASS_REF; } throw new IllegalStateException("Unexpected operand class (" + desiredOperandClass + ")"); } private void transformFunctionNode(AbstractFunctionPtg afp, ParseNode[] children, byte desiredOperandClass, boolean callerForceArrayFlag) { boolean localForceArrayFlag; byte defaultReturnOperandClass = afp.getDefaultOperandClass(); if (callerForceArrayFlag) { switch (defaultReturnOperandClass) { case Ptg.CLASS_REF: if (desiredOperandClass == Ptg.CLASS_REF) { afp.setClass(Ptg.CLASS_REF); } else { afp.setClass(Ptg.CLASS_ARRAY); } localForceArrayFlag = false; break; case Ptg.CLASS_ARRAY: afp.setClass(Ptg.CLASS_ARRAY); localForceArrayFlag = false; break; case Ptg.CLASS_VALUE: afp.setClass(Ptg.CLASS_ARRAY); localForceArrayFlag = true; break; default: throw new IllegalStateException("Unexpected operand class (" + defaultReturnOperandClass + ")"); } } else { if (defaultReturnOperandClass == desiredOperandClass) { localForceArrayFlag = false; // an alternative would have been to for non-base Ptgs to set their operand class // from their default, but this would require the call in many subclasses because // the default OC is not known until the end of the constructor afp.setClass(defaultReturnOperandClass); } else { switch (desiredOperandClass) { case Ptg.CLASS_VALUE: // always OK to set functions to return 'value' afp.setClass(Ptg.CLASS_VALUE); localForceArrayFlag = false; break; case Ptg.CLASS_ARRAY: switch (defaultReturnOperandClass) { case Ptg.CLASS_REF: afp.setClass(Ptg.CLASS_REF); // afp.setClass(Ptg.CLASS_ARRAY); break; case Ptg.CLASS_VALUE: afp.setClass(Ptg.CLASS_ARRAY); break; default: throw new IllegalStateException("Unexpected operand class (" + defaultReturnOperandClass + ")"); } localForceArrayFlag = (defaultReturnOperandClass == Ptg.CLASS_VALUE); break; case Ptg.CLASS_REF: switch (defaultReturnOperandClass) { case Ptg.CLASS_ARRAY: afp.setClass(Ptg.CLASS_ARRAY); break; case Ptg.CLASS_VALUE: afp.setClass(Ptg.CLASS_VALUE); break; default: throw new IllegalStateException("Unexpected operand class (" + defaultReturnOperandClass + ")"); } localForceArrayFlag = false; break; default: throw new IllegalStateException("Unexpected operand class (" + desiredOperandClass + ")"); } } } for (int i = 0; i < children.length; i++) { ParseNode child = children[i]; byte paramOperandClass = afp.getParameterClass(i); transformNode(child, paramOperandClass, localForceArrayFlag); } } private void setSimpleValueFuncClass(AbstractFunctionPtg afp, byte desiredOperandClass, boolean callerForceArrayFlag) { if (callerForceArrayFlag || desiredOperandClass == Ptg.CLASS_ARRAY) { afp.setClass(Ptg.CLASS_ARRAY); } else { afp.setClass(Ptg.CLASS_VALUE); } } }





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