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/* ====================================================================
   Licensed to the Apache Software Foundation (ASF) under one or more
   contributor license agreements.  See the NOTICE file distributed with
   this work for additional information regarding copyright ownership.
   The ASF licenses this file to You under the Apache License, Version 2.0
   (the "License"); you may not use this file except in compliance with
   the License.  You may obtain a copy of the License at

       http://www.apache.org/licenses/LICENSE-2.0

   Unless required by applicable law or agreed to in writing, software
   distributed under the License is distributed on an "AS IS" BASIS,
   WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
   See the License for the specific language governing permissions and
   limitations under the License.
==================================================================== */

package org.apache.poi.ss.formula.functions;

import java.util.regex.Matcher;
import java.util.regex.Pattern;

import org.apache.poi.ss.formula.TwoDEval;
import org.apache.poi.ss.formula.eval.BlankEval;
import org.apache.poi.ss.formula.eval.BoolEval;
import org.apache.poi.ss.formula.eval.ErrorEval;
import org.apache.poi.ss.formula.eval.EvaluationException;
import org.apache.poi.ss.formula.eval.MissingArgEval;
import org.apache.poi.ss.formula.eval.NumberEval;
import org.apache.poi.ss.formula.eval.NumericValueEval;
import org.apache.poi.ss.formula.eval.OperandResolver;
import org.apache.poi.ss.formula.eval.RefEval;
import org.apache.poi.ss.formula.eval.StringEval;
import org.apache.poi.ss.formula.eval.ValueEval;

/**
 * Common functionality used by VLOOKUP, HLOOKUP, LOOKUP and MATCH
 */
final class LookupUtils {

	/**
	 * Represents a single row or column within an AreaEval.
	 */
	public interface ValueVector {
		ValueEval getItem(int index);
		int getSize();
	}


	private static final class RowVector implements ValueVector {

		private final TwoDEval _tableArray;
		private final int _size;
		private final int _rowIndex;

		public RowVector(TwoDEval tableArray, int rowIndex) {
			_rowIndex = rowIndex;
			int lastRowIx =  tableArray.getHeight() - 1;
			if(rowIndex < 0 || rowIndex > lastRowIx) {
				throw new IllegalArgumentException("Specified row index (" + rowIndex
						+ ") is outside the allowed range (0.." + lastRowIx + ")");
			}
			_tableArray = tableArray;
			_size = tableArray.getWidth();
		}

		public ValueEval getItem(int index) {
			if(index > _size) {
				throw new ArrayIndexOutOfBoundsException("Specified index (" + index
						+ ") is outside the allowed range (0.." + (_size-1) + ")");
			}
			return _tableArray.getValue(_rowIndex, index);
		}
		public int getSize() {
			return _size;
		}
	}

	private static final class ColumnVector implements ValueVector {

		private final TwoDEval _tableArray;
		private final int _size;
		private final int _columnIndex;

		public ColumnVector(TwoDEval tableArray, int columnIndex) {
			_columnIndex = columnIndex;
			int lastColIx =  tableArray.getWidth()-1;
			if(columnIndex < 0 || columnIndex > lastColIx) {
				throw new IllegalArgumentException("Specified column index (" + columnIndex
						+ ") is outside the allowed range (0.." + lastColIx + ")");
			}
			_tableArray = tableArray;
			_size = _tableArray.getHeight();
		}

		public ValueEval getItem(int index) {
			if(index > _size) {
				throw new ArrayIndexOutOfBoundsException("Specified index (" + index
						+ ") is outside the allowed range (0.." + (_size-1) + ")");
			}
			return _tableArray.getValue(index, _columnIndex);
		}
		public int getSize() {
			return _size;
		}
	}

    private static final class SheetVector implements ValueVector {
        private final RefEval _re;
        private final int _size;

        public SheetVector(RefEval re) {
            _size = re.getNumberOfSheets();
            _re = re;
        }

        public ValueEval getItem(int index) {
            if(index >= _size) {
                throw new ArrayIndexOutOfBoundsException("Specified index (" + index
                        + ") is outside the allowed range (0.." + (_size-1) + ")");
            }
            int sheetIndex = _re.getFirstSheetIndex() + index;
            return _re.getInnerValueEval(sheetIndex);
        }
        public int getSize() {
            return _size;
        }
    }

	public static ValueVector createRowVector(TwoDEval tableArray, int relativeRowIndex) {
		return new RowVector(tableArray, relativeRowIndex);
	}
	public static ValueVector createColumnVector(TwoDEval tableArray, int relativeColumnIndex) {
		return new ColumnVector(tableArray, relativeColumnIndex);
	}
	/**
	 * @return null if the supplied area is neither a single row nor a single column
	 */
	public static ValueVector createVector(TwoDEval ae) {
		if (ae.isColumn()) {
			return createColumnVector(ae, 0);
		}
		if (ae.isRow()) {
			return createRowVector(ae, 0);
		}
		return null;
	}

	public static ValueVector createVector(RefEval re) {
	    return new SheetVector(re);
	}

	/**
	 * Enumeration to support 4 valued comparison results.

* Excel lookup functions have complex behaviour in the case where the lookup array has mixed * types, and/or is unordered. Contrary to suggestions in some Excel documentation, there * does not appear to be a universal ordering across types. The binary search algorithm used * changes behaviour when the evaluated 'mid' value has a different type to the lookup value.

* * A simple int might have done the same job, but there is risk in confusion with the well * known Comparable.compareTo() and Comparator.compare() which both use * a ubiquitous 3 value result encoding. */ public static final class CompareResult { private final boolean _isTypeMismatch; private final boolean _isLessThan; private final boolean _isEqual; private final boolean _isGreaterThan; private CompareResult(boolean isTypeMismatch, int simpleCompareResult) { if(isTypeMismatch) { _isTypeMismatch = true; _isLessThan = false; _isEqual = false; _isGreaterThan = false; } else { _isTypeMismatch = false; _isLessThan = simpleCompareResult < 0; _isEqual = simpleCompareResult == 0; _isGreaterThan = simpleCompareResult > 0; } } public static final CompareResult TYPE_MISMATCH = new CompareResult(true, 0); public static final CompareResult LESS_THAN = new CompareResult(false, -1); public static final CompareResult EQUAL = new CompareResult(false, 0); public static final CompareResult GREATER_THAN = new CompareResult(false, +1); public static CompareResult valueOf(int simpleCompareResult) { if(simpleCompareResult < 0) { return LESS_THAN; } if(simpleCompareResult > 0) { return GREATER_THAN; } return EQUAL; } public static CompareResult valueOf(boolean matches) { if(matches) { return EQUAL ; } return LESS_THAN; } public boolean isTypeMismatch() { return _isTypeMismatch; } public boolean isLessThan() { return _isLessThan; } public boolean isEqual() { return _isEqual; } public boolean isGreaterThan() { return _isGreaterThan; } public String toString() { return getClass().getName() + " [" + formatAsString() + "]"; } private String formatAsString() { if(_isTypeMismatch) { return "TYPE_MISMATCH"; } if(_isLessThan) { return "LESS_THAN"; } if(_isEqual) { return "EQUAL"; } if(_isGreaterThan) { return "GREATER_THAN"; } // toString must be reliable return "??error??"; } } public interface LookupValueComparer { /** * @return one of 4 instances or CompareResult: LESS_THAN, EQUAL, * GREATER_THAN or TYPE_MISMATCH */ CompareResult compareTo(ValueEval other); } private static abstract class LookupValueComparerBase implements LookupValueComparer { private final Class _targetClass; protected LookupValueComparerBase(ValueEval targetValue) { if(targetValue == null) { throw new RuntimeException("targetValue cannot be null"); } _targetClass = targetValue.getClass(); } public final CompareResult compareTo(ValueEval other) { if (other == null) { throw new RuntimeException("compare to value cannot be null"); } if (_targetClass != other.getClass()) { return CompareResult.TYPE_MISMATCH; } return compareSameType(other); } public String toString() { return getClass().getName() + " [" + getValueAsString() + "]"; } protected abstract CompareResult compareSameType(ValueEval other); /** used only for debug purposes */ protected abstract String getValueAsString(); } private static final class StringLookupComparer extends LookupValueComparerBase { private final String _value; private final Pattern _wildCardPattern; private final boolean _matchExact; private final boolean _isMatchFunction; protected StringLookupComparer(StringEval se, boolean matchExact, boolean isMatchFunction) { super(se); _value = se.getStringValue(); _wildCardPattern = Countif.StringMatcher.getWildCardPattern(_value); _matchExact = matchExact; _isMatchFunction = isMatchFunction; } protected CompareResult compareSameType(ValueEval other) { StringEval se = (StringEval) other; String stringValue = se.getStringValue(); if (_wildCardPattern != null) { Matcher matcher = _wildCardPattern.matcher(stringValue); boolean matches = matcher.matches(); if (_isMatchFunction || !_matchExact) { return CompareResult.valueOf(matches); } } return CompareResult.valueOf(_value.compareToIgnoreCase(stringValue)); } protected String getValueAsString() { return _value; } } private static final class NumberLookupComparer extends LookupValueComparerBase { private final double _value; protected NumberLookupComparer(NumberEval ne) { super(ne); _value = ne.getNumberValue(); } protected CompareResult compareSameType(ValueEval other) { NumberEval ne = (NumberEval) other; return CompareResult.valueOf(Double.compare(_value, ne.getNumberValue())); } protected String getValueAsString() { return String.valueOf(_value); } } private static final class BooleanLookupComparer extends LookupValueComparerBase { private final boolean _value; protected BooleanLookupComparer(BoolEval be) { super(be); _value = be.getBooleanValue(); } protected CompareResult compareSameType(ValueEval other) { BoolEval be = (BoolEval) other; boolean otherVal = be.getBooleanValue(); if(_value == otherVal) { return CompareResult.EQUAL; } // TRUE > FALSE if(_value) { return CompareResult.GREATER_THAN; } return CompareResult.LESS_THAN; } protected String getValueAsString() { return String.valueOf(_value); } } /** * Processes the third argument to VLOOKUP, or HLOOKUP (col_index_num * or row_index_num respectively).
* Sample behaviour: *

* * * * * * * * * * * * *
Input   ReturnValue  Thrown Error
54 
2.92 
"5"4 
"2.18e1"21 
"-$2"-3*
FALSE-1*
TRUE0 
"TRUE" #REF!
"abc" #REF!
"" #REF!
<blank> #VALUE!

* * Note - out of range errors (result index too high) are handled by the caller. * @return column or row index as a zero-based value, never negative. * @throws EvaluationException when the specified arg cannot be coerced to a non-negative integer */ public static int resolveRowOrColIndexArg(ValueEval rowColIndexArg, int srcCellRow, int srcCellCol) throws EvaluationException { if(rowColIndexArg == null) { throw new IllegalArgumentException("argument must not be null"); } ValueEval veRowColIndexArg; try { veRowColIndexArg = OperandResolver.getSingleValue(rowColIndexArg, srcCellRow, (short)srcCellCol); } catch (EvaluationException e) { // All errors get translated to #REF! throw EvaluationException.invalidRef(); } int oneBasedIndex; if(veRowColIndexArg instanceof StringEval) { StringEval se = (StringEval) veRowColIndexArg; String strVal = se.getStringValue(); Double dVal = OperandResolver.parseDouble(strVal); if(dVal == null) { // String does not resolve to a number. Raise #REF! error. throw EvaluationException.invalidRef(); // This includes text booleans "TRUE" and "FALSE". They are not valid. } // else - numeric value parses OK } // actual BoolEval values get interpreted as FALSE->0 and TRUE->1 oneBasedIndex = OperandResolver.coerceValueToInt(veRowColIndexArg); if (oneBasedIndex < 1) { // note this is asymmetric with the errors when the index is too large (#REF!) throw EvaluationException.invalidValue(); } return oneBasedIndex - 1; // convert to zero based } /** * The second argument (table_array) should be an area ref, but can actually be a cell ref, in * which case it is interpreted as a 1x1 area ref. Other scalar values cause #VALUE! error. */ public static TwoDEval resolveTableArrayArg(ValueEval eval) throws EvaluationException { if (eval instanceof TwoDEval) { return (TwoDEval) eval; } if(eval instanceof RefEval) { RefEval refEval = (RefEval) eval; // Make this cell ref look like a 1x1 area ref. // It doesn't matter if eval is a 2D or 3D ref, because that detail is never asked of AreaEval. return refEval.offset(0, 0, 0, 0); } throw EvaluationException.invalidValue(); } /** * Resolves the last (optional) parameter (range_lookup) to the VLOOKUP and HLOOKUP functions. * @param rangeLookupArg must not be null */ public static boolean resolveRangeLookupArg(ValueEval rangeLookupArg, int srcCellRow, int srcCellCol) throws EvaluationException { ValueEval valEval = OperandResolver.getSingleValue(rangeLookupArg, srcCellRow, srcCellCol); if(valEval == MissingArgEval.instance) { // Tricky: // forth arg exists but is not supplied: "=VLOOKUP(A1,A2:A4,2,)" return false; } if(valEval instanceof BlankEval) { // Tricky: // fourth arg supplied but evaluates to blank // this does not get the default value return false; } if(valEval instanceof BoolEval) { // Happy day flow BoolEval boolEval = (BoolEval) valEval; return boolEval.getBooleanValue(); } if (valEval instanceof StringEval) { String stringValue = ((StringEval) valEval).getStringValue(); if(stringValue.length() < 1) { // More trickiness: // Empty string is not the same as BlankEval. It causes #VALUE! error throw EvaluationException.invalidValue(); } // TODO move parseBoolean to OperandResolver Boolean b = Countif.parseBoolean(stringValue); if(b != null) { // string converted to boolean OK return b; } // Even more trickiness: // Note - even if the StringEval represents a number value (for example "1"), // Excel does not resolve it to a boolean. throw EvaluationException.invalidValue(); // This is in contrast to the code below,, where NumberEvals values (for // example 0.01) *do* resolve to equivalent boolean values. } if (valEval instanceof NumericValueEval) { NumericValueEval nve = (NumericValueEval) valEval; // zero is FALSE, everything else is TRUE return 0.0 != nve.getNumberValue(); } throw new RuntimeException("Unexpected eval type (" + valEval + ")"); } public static int lookupIndexOfValue(ValueEval lookupValue, ValueVector vector, boolean isRangeLookup) throws EvaluationException { LookupValueComparer lookupComparer = createLookupComparer(lookupValue, isRangeLookup, false); int result; if(isRangeLookup) { result = performBinarySearch(vector, lookupComparer); } else { result = lookupIndexOfExactValue(lookupComparer, vector); } if(result < 0) { throw new EvaluationException(ErrorEval.NA); } return result; } /** * Finds first (lowest index) exact occurrence of specified value. * @param lookupComparer the value to be found in column or row vector * @param vector the values to be searched. For VLOOKUP this is the first column of the * tableArray. For HLOOKUP this is the first row of the tableArray. * @return zero based index into the vector, -1 if value cannot be found */ private static int lookupIndexOfExactValue(LookupValueComparer lookupComparer, ValueVector vector) { // find first occurrence of lookup value int size = vector.getSize(); for (int i = 0; i < size; i++) { if(lookupComparer.compareTo(vector.getItem(i)).isEqual()) { return i; } } return -1; } /** * Encapsulates some standard binary search functionality so the unusual Excel behaviour can * be clearly distinguished. */ private static final class BinarySearchIndexes { private int _lowIx; private int _highIx; public BinarySearchIndexes(int highIx) { _lowIx = -1; _highIx = highIx; } /** * @return -1 if the search range is empty */ public int getMidIx() { int ixDiff = _highIx - _lowIx; if(ixDiff < 2) { return -1; } return _lowIx + (ixDiff / 2); } public int getLowIx() { return _lowIx; } public int getHighIx() { return _highIx; } public void narrowSearch(int midIx, boolean isLessThan) { if(isLessThan) { _highIx = midIx; } else { _lowIx = midIx; } } } /** * Excel has funny behaviour when the some elements in the search vector are the wrong type. * */ private static int performBinarySearch(ValueVector vector, LookupValueComparer lookupComparer) { // both low and high indexes point to values assumed too low and too high. BinarySearchIndexes bsi = new BinarySearchIndexes(vector.getSize()); while(true) { int midIx = bsi.getMidIx(); if(midIx < 0) { return bsi.getLowIx(); } CompareResult cr = lookupComparer.compareTo(vector.getItem(midIx)); if(cr.isTypeMismatch()) { int newMidIx = handleMidValueTypeMismatch(lookupComparer, vector, bsi, midIx); if(newMidIx < 0) { continue; } midIx = newMidIx; cr = lookupComparer.compareTo(vector.getItem(midIx)); } if(cr.isEqual()) { return findLastIndexInRunOfEqualValues(lookupComparer, vector, midIx, bsi.getHighIx()); } bsi.narrowSearch(midIx, cr.isLessThan()); } } /** * Excel seems to handle mismatched types initially by just stepping 'mid' ix forward to the * first compatible value. * @param midIx 'mid' index (value which has the wrong type) * @return usually -1, signifying that the BinarySearchIndex has been narrowed to the new mid * index. Zero or greater signifies that an exact match for the lookup value was found */ private static int handleMidValueTypeMismatch(LookupValueComparer lookupComparer, ValueVector vector, BinarySearchIndexes bsi, int midIx) { int newMid = midIx; int highIx = bsi.getHighIx(); while(true) { newMid++; if(newMid == highIx) { // every element from midIx to highIx was the wrong type // move highIx down to the low end of the mid values bsi.narrowSearch(midIx, true); return -1; } CompareResult cr = lookupComparer.compareTo(vector.getItem(newMid)); if(cr.isLessThan() && newMid == highIx-1) { // move highIx down to the low end of the mid values bsi.narrowSearch(midIx, true); return -1; // but only when "newMid == highIx-1"? slightly weird. // It would seem more efficient to always do this. } if(cr.isTypeMismatch()) { // keep stepping over values until the right type is found continue; } if(cr.isEqual()) { return newMid; } // Note - if moving highIx down (due to lookup




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