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   this work for additional information regarding copyright ownership.
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package org.apache.poi.ss.formula;

import java.text.CollationKey;
import java.text.Collator;
import java.text.DecimalFormat;
import java.text.DecimalFormatSymbols;
import java.util.*;

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.NumberEval;
import org.apache.poi.ss.formula.eval.RefEval;
import org.apache.poi.ss.formula.eval.StringEval;
import org.apache.poi.ss.formula.eval.ValueEval;
import org.apache.poi.ss.formula.functions.AggregateFunction;
import org.apache.poi.ss.usermodel.Cell;
import org.apache.poi.ss.usermodel.CellType;
import org.apache.poi.ss.usermodel.ConditionFilterData;
import org.apache.poi.ss.usermodel.ConditionFilterType;
import org.apache.poi.ss.usermodel.ConditionType;
import org.apache.poi.ss.usermodel.ConditionalFormatting;
import org.apache.poi.ss.usermodel.ConditionalFormattingRule;
import org.apache.poi.ss.usermodel.ExcelNumberFormat;
import org.apache.poi.ss.usermodel.Row;
import org.apache.poi.ss.usermodel.Sheet;
import org.apache.poi.ss.util.CellRangeAddress;
import org.apache.poi.ss.util.CellReference;
import org.apache.poi.util.LocaleUtil;

/**
 * Abstracted and cached version of a Conditional Format rule for use with a
 * {@link ConditionalFormattingEvaluator}. This references a rule, its owning
 * {@link ConditionalFormatting}, its priority order (lower index = higher priority in Excel),
 * and the information needed to evaluate the rule for a given cell.
 * 

* Having this all combined and cached avoids repeated access calls to the * underlying structural objects, XSSF CT* objects and HSSF raw byte structures. * Those objects can be referenced from here. This object will be out of sync if * anything modifies the referenced structures' evaluation properties. *

* The assumption is that consuming applications will read the display properties once and * create whatever style objects they need, caching those at the application level. * Thus this class only caches values needed for evaluation, not display. */ public class EvaluationConditionalFormatRule implements Comparable { private final WorkbookEvaluator workbookEvaluator; private final Sheet sheet; private final ConditionalFormatting formatting; private final ConditionalFormattingRule rule; /* cached values */ private final CellRangeAddress[] regions; private CellRangeAddress topLeftRegion; /** * Depending on the rule type, it may want to know about certain values in the region when evaluating {@link #matches(CellReference)}, * such as top 10, unique, duplicate, average, etc. This collection stores those if needed so they are not repeatedly calculated */ private final Map> meaningfulRegionValues = new HashMap<>(); private final int priority; private final int formattingIndex; private final int ruleIndex; private final String formula1; private final String formula2; private final String text; // cached for performance, used with cell text comparisons, which are case insensitive and need to be Locale aware (contains, starts with, etc.) private final String lowerText; private final OperatorEnum operator; private final ConditionType type; // cached for performance, to avoid reading the XMLBean every time a conditionally formatted cell is rendered private final ExcelNumberFormat numberFormat; // cached for performance, used to format numeric cells for string comparisons. See Bug #61764 for explanation private final DecimalFormat decimalTextFormat; /** * * @param workbookEvaluator * @param sheet * @param formatting * @param formattingIndex for priority, zero based * @param rule * @param ruleIndex for priority, zero based, if this is an HSSF rule. Unused for XSSF rules * @param regions could be read from formatting, but every call creates new objects in a new array. * this allows calling it once per formatting instance, and re-using the array. */ public EvaluationConditionalFormatRule(WorkbookEvaluator workbookEvaluator, Sheet sheet, ConditionalFormatting formatting, int formattingIndex, ConditionalFormattingRule rule, int ruleIndex, CellRangeAddress[] regions) { super(); this.workbookEvaluator = workbookEvaluator; this.sheet = sheet; this.formatting = formatting; this.rule = rule; this.formattingIndex = formattingIndex; this.ruleIndex = ruleIndex; this.priority = rule.getPriority(); this.regions = regions; for (CellRangeAddress region : regions) { if (topLeftRegion == null) topLeftRegion = region; else if (region.getFirstColumn() < topLeftRegion.getFirstColumn() || region.getFirstRow() < topLeftRegion.getFirstRow()) { topLeftRegion = region; } } formula1 = rule.getFormula1(); formula2 = rule.getFormula2(); text = rule.getText(); lowerText = text == null ? null : text.toLowerCase(LocaleUtil.getUserLocale()); numberFormat = rule.getNumberFormat(); operator = OperatorEnum.values()[rule.getComparisonOperation()]; type = rule.getConditionType(); // Excel uses the stored text representation from the XML apparently, in tests done so far decimalTextFormat = new DecimalFormat("0", DecimalFormatSymbols.getInstance(Locale.ENGLISH)); decimalTextFormat.setMaximumFractionDigits(340); // DecimalFormat.DOUBLE_FRACTION_DIGITS, which is default scoped } /** * @return sheet */ public Sheet getSheet() { return sheet; } /** * @return the formatting */ public ConditionalFormatting getFormatting() { return formatting; } /** * @return conditional formatting index */ public int getFormattingIndex() { return formattingIndex; } /** * @return Excel number format string to apply to matching cells, or null to keep the cell default */ public ExcelNumberFormat getNumberFormat() { return numberFormat; } /** * @return the rule */ public ConditionalFormattingRule getRule() { return rule; } /** * @return rule index */ public int getRuleIndex() { return ruleIndex; } /** * @return the regions */ public CellRangeAddress[] getRegions() { return regions; } /** * @return the priority */ public int getPriority() { return priority; } /** * @return the formula1 */ public String getFormula1() { return formula1; } /** * @return the formula2 */ public String getFormula2() { return formula2; } /** * @return condition text if any, or null */ public String getText() { return text; } /** * @return the operator */ public OperatorEnum getOperator() { return operator; } /** * @return the type */ public ConditionType getType() { return type; } /** * Defined as equal sheet name and formatting and rule indexes * @see java.lang.Object#equals(java.lang.Object) */ @Override public boolean equals(Object obj) { if (obj == null) { return false; } if (! obj.getClass().equals(this.getClass())) { return false; } final EvaluationConditionalFormatRule r = (EvaluationConditionalFormatRule) obj; return getSheet().getSheetName().equalsIgnoreCase(r.getSheet().getSheetName()) && getFormattingIndex() == r.getFormattingIndex() && getRuleIndex() == r.getRuleIndex(); } /** * Per Excel Help, XSSF rule priority is sheet-wide, not just within the owning ConditionalFormatting object. * This can be seen by creating 4 rules applying to two different ranges and examining the XML. *

* HSSF priority is based on definition/persistence order. * * @param o * @return comparison based on sheet name, formatting index, and rule priority */ @Override public int compareTo(EvaluationConditionalFormatRule o) { int cmp = getSheet().getSheetName().compareToIgnoreCase(o.getSheet().getSheetName()); if (cmp != 0) { return cmp; } final int x = getPriority(); final int y = o.getPriority(); // logic from Integer.compare() cmp = Integer.compare(x, y); if (cmp != 0) { return cmp; } cmp = Integer.compare(getFormattingIndex(), o.getFormattingIndex()); if (cmp != 0) { return cmp; } return Integer.compare(getRuleIndex(), o.getRuleIndex()); } @Override public int hashCode() { int hash = sheet.getSheetName().hashCode(); hash = 31 * hash + formattingIndex; hash = 31 * hash + ruleIndex; return hash; } /** * @param ref * @return true if this rule evaluates to true for the given cell */ /* package */ boolean matches(CellReference ref) { // first check that it is in one of the regions defined for this format CellRangeAddress region = null; for (CellRangeAddress r : regions) { if (r.isInRange(ref)) { region = r; break; } } if (region == null) { // cell not in range of this rule return false; } final ConditionType ruleType = getRule().getConditionType(); // these rules apply to all cells in a region. Specific condition criteria // may specify no special formatting for that value partition, but that's display logic if (ruleType.equals(ConditionType.COLOR_SCALE) || ruleType.equals(ConditionType.DATA_BAR) || ruleType.equals(ConditionType.ICON_SET)) { return true; } Cell cell = null; final Row row = sheet.getRow(ref.getRow()); if (row != null) { cell = row.getCell(ref.getCol()); } if (ruleType.equals(ConditionType.CELL_VALUE_IS)) { // undefined cells never match a VALUE_IS condition if (cell == null) return false; return checkValue(cell, topLeftRegion); } if (ruleType.equals(ConditionType.FORMULA)) { return checkFormula(ref, topLeftRegion); } if (ruleType.equals(ConditionType.FILTER)) { return checkFilter(cell, ref, topLeftRegion); } // TODO: anything else, we don't handle yet, such as top 10 return false; } /** * @param cell the cell to check for * @param region for adjusting relative formulas * @return if the value of the cell is valid or not for the formatting rule */ private boolean checkValue(Cell cell, CellRangeAddress region) { if (cell == null || DataValidationEvaluator.isType(cell, CellType.BLANK) || DataValidationEvaluator.isType(cell,CellType.ERROR) || (DataValidationEvaluator.isType(cell,CellType.STRING) && (cell.getStringCellValue() == null || cell.getStringCellValue().isEmpty()) ) ) { return false; } ValueEval eval = unwrapEval(workbookEvaluator.evaluate(rule.getFormula1(), ConditionalFormattingEvaluator.getRef(cell), region)); String f2 = rule.getFormula2(); ValueEval eval2 = BlankEval.instance; if (f2 != null && f2.length() > 0) { eval2 = unwrapEval(workbookEvaluator.evaluate(f2, ConditionalFormattingEvaluator.getRef(cell), region)); } // we assume the cell has been evaluated, and the current formula value stored if (DataValidationEvaluator.isType(cell, CellType.BOOLEAN) && (eval == BlankEval.instance || eval instanceof BoolEval) && (eval2 == BlankEval.instance || eval2 instanceof BoolEval) ) { return operator.isValid(cell.getBooleanCellValue(), eval == BlankEval.instance ? null : ((BoolEval) eval).getBooleanValue(), eval2 == BlankEval.instance ? null : ((BoolEval) eval2).getBooleanValue()); } if (DataValidationEvaluator.isType(cell, CellType.NUMERIC) && (eval == BlankEval.instance || eval instanceof NumberEval ) && (eval2 == BlankEval.instance || eval2 instanceof NumberEval) ) { return operator.isValid(cell.getNumericCellValue(), eval == BlankEval.instance ? null : ((NumberEval) eval).getNumberValue(), eval2 == BlankEval.instance ? null : ((NumberEval) eval2).getNumberValue()); } if (DataValidationEvaluator.isType(cell, CellType.STRING) && (eval == BlankEval.instance || eval instanceof StringEval ) && (eval2 == BlankEval.instance || eval2 instanceof StringEval) ) { return operator.isValid(cell.getStringCellValue(), eval == BlankEval.instance ? null : ((StringEval) eval).getStringValue(), eval2 == BlankEval.instance ? null : ((StringEval) eval2).getStringValue()); } return operator.isValidForIncompatibleTypes(); } private ValueEval unwrapEval(ValueEval eval) { ValueEval comp = eval; while (comp instanceof RefEval) { RefEval ref = (RefEval) comp; comp = ref.getInnerValueEval(ref.getFirstSheetIndex()); } return comp; } /** * @param ref needed for offsets from region anchor - may be null! * @param region for adjusting relative formulas * @return true/false using the same rules as Data Validation evaluations */ private boolean checkFormula(CellReference ref, CellRangeAddress region) { ValueEval comp = unwrapEval(workbookEvaluator.evaluate(rule.getFormula1(), ref, region)); // Copied for now from DataValidationEvaluator.ValidationEnum.FORMULA#isValidValue() if (comp instanceof BlankEval) { return true; } if (comp instanceof ErrorEval) { return false; } if (comp instanceof BoolEval) { return ((BoolEval) comp).getBooleanValue(); } // empirically tested in Excel - 0=false, any other number = true/valid // see test file DataValidationEvaluations.xlsx if (comp instanceof NumberEval) { return ((NumberEval) comp).getNumberValue() != 0; } return false; // anything else is false, such as text } private boolean checkFilter(Cell cell, CellReference ref, CellRangeAddress region) { final ConditionFilterType filterType = rule.getConditionFilterType(); if (filterType == null) { return false; } final ValueAndFormat cv = getCellValue(cell); // TODO: this could/should be delegated to the Enum type, but that's in the usermodel package, // we may not want evaluation code there. Of course, maybe the enum should go here in formula, // and not be returned by the SS model, but then we need the XSSF rule to expose the raw OOXML // type value, which isn't ideal either. switch (filterType) { case FILTER: return false; // we don't evaluate HSSF filters yet case TOP_10: // from testing, Excel only operates on numbers and dates (which are stored as numbers) in the range. // numbers stored as text are ignored, but numbers formatted as text are treated as numbers. if (! cv.isNumber()) { return false; } return getMeaningfulValues(region, false, new ValueFunction() { @Override public Set evaluate(List allValues) { final ConditionFilterData conf = rule.getFilterConfiguration(); if (! conf.getBottom()) { allValues.sort(Collections.reverseOrder()); } else { Collections.sort(allValues); } int limit = (int) conf.getRank(); if (conf.getPercent()) { limit = allValues.size() * limit / 100; } if (allValues.size() <= limit) { return new HashSet<>(allValues); } return new HashSet<>(allValues.subList(0, limit)); } }).contains(cv); case UNIQUE_VALUES: // Per Excel help, "duplicate" means matching value AND format // https://support.office.com/en-us/article/Filter-for-unique-values-or-remove-duplicate-values-ccf664b0-81d6-449b-bbe1-8daaec1e83c2 return getMeaningfulValues(region, true, new ValueFunction() { @Override public Set evaluate(List allValues) { Collections.sort(allValues); final Set unique = new HashSet<>(); for (int i = 0; i < allValues.size(); i++) { final ValueAndFormat v = allValues.get(i); // skip this if the current value matches the next one, or is the last one and matches the previous one if ( (i < allValues.size()-1 && v.equals(allValues.get(i+1)) ) || ( i > 0 && i == allValues.size()-1 && v.equals(allValues.get(i-1)) ) ) { // current value matches next value, skip both i++; continue; } unique.add(v); } return unique; } }).contains(cv); case DUPLICATE_VALUES: // Per Excel help, "duplicate" means matching value AND format // https://support.office.com/en-us/article/Filter-for-unique-values-or-remove-duplicate-values-ccf664b0-81d6-449b-bbe1-8daaec1e83c2 return getMeaningfulValues(region, true, new ValueFunction() { @Override public Set evaluate(List allValues) { Collections.sort(allValues); final Set dup = new HashSet<>(); for (int i = 0; i < allValues.size(); i++) { final ValueAndFormat v = allValues.get(i); // skip this if the current value matches the next one, or is the last one and matches the previous one if ( (i < allValues.size()-1 && v.equals(allValues.get(i+1)) ) || ( i > 0 && i == allValues.size()-1 && v.equals(allValues.get(i-1)) ) ) { // current value matches next value, add one dup.add(v); i++; } } return dup; } }).contains(cv); case ABOVE_AVERAGE: // from testing, Excel only operates on numbers and dates (which are stored as numbers) in the range. // numbers stored as text are ignored, but numbers formatted as text are treated as numbers. final ConditionFilterData conf = rule.getFilterConfiguration(); // actually ordered, so iteration order is predictable List values = new ArrayList<>(getMeaningfulValues(region, false, new ValueFunction() { @Override public Set evaluate(List allValues) { double total = 0; ValueEval[] pop = new ValueEval[allValues.size()]; for (int i = 0; i < allValues.size(); i++) { ValueAndFormat v = allValues.get(i); total += v.value.doubleValue(); pop[i] = new NumberEval(v.value.doubleValue()); } final Set avgSet = new LinkedHashSet<>(1); avgSet.add(new ValueAndFormat(Double.valueOf(allValues.size() == 0 ? 0 : total / allValues.size()), null, decimalTextFormat)); final double stdDev = allValues.size() <= 1 ? 0 : ((NumberEval) AggregateFunction.STDEV.evaluate(pop, 0, 0)).getNumberValue(); avgSet.add(new ValueAndFormat(Double.valueOf(stdDev), null, decimalTextFormat)); return avgSet; } })); Double val = cv.isNumber() ? cv.getValue() : null; if (val == null) { return false; } double avg = values.get(0).value.doubleValue(); double stdDev = values.get(1).value.doubleValue(); /* * use StdDev, aboveAverage, equalAverage to find: * comparison value * operator type */ Double comp = Double.valueOf(conf.getStdDev() > 0 ? (avg + (conf.getAboveAverage() ? 1 : -1) * stdDev * conf.getStdDev()) : avg) ; final OperatorEnum op; if (conf.getAboveAverage()) { if (conf.getEqualAverage()) { op = OperatorEnum.GREATER_OR_EQUAL; } else { op = OperatorEnum.GREATER_THAN; } } else { if (conf.getEqualAverage()) { op = OperatorEnum.LESS_OR_EQUAL; } else { op = OperatorEnum.LESS_THAN; } } return op.isValid(val, comp, null); case CONTAINS_TEXT: // implemented both by a cfRule "text" attribute and a formula. Use the text. return text == null ? false : cv.toString().toLowerCase(LocaleUtil.getUserLocale()).contains(lowerText); case NOT_CONTAINS_TEXT: // implemented both by a cfRule "text" attribute and a formula. Use the text. return text == null ? true : ! cv.toString().toLowerCase(LocaleUtil.getUserLocale()).contains(lowerText); case BEGINS_WITH: // implemented both by a cfRule "text" attribute and a formula. Use the text. return cv.toString().toLowerCase(LocaleUtil.getUserLocale()).startsWith(lowerText); case ENDS_WITH: // implemented both by a cfRule "text" attribute and a formula. Use the text. return cv.toString().toLowerCase(LocaleUtil.getUserLocale()).endsWith(lowerText); case CONTAINS_BLANKS: try { String v = cv.getString(); // see TextFunction.TRIM for implementation return v == null || v.trim().length() == 0; } catch (Exception e) { // not a valid string value, and not a blank cell (that's checked earlier) return false; } case NOT_CONTAINS_BLANKS: try { String v = cv.getString(); // see TextFunction.TRIM for implementation return v != null && v.trim().length() > 0; } catch (Exception e) { // not a valid string value, but not blank return true; } case CONTAINS_ERRORS: return cell != null && DataValidationEvaluator.isType(cell, CellType.ERROR); case NOT_CONTAINS_ERRORS: return cell == null || ! DataValidationEvaluator.isType(cell, CellType.ERROR); case TIME_PERIOD: // implemented both by a cfRule "text" attribute and a formula. Use the formula. return checkFormula(ref, region); default: return false; } } /** * from testing, Excel only operates on numbers and dates (which are stored as numbers) in the range. * numbers stored as text are ignored, but numbers formatted as text are treated as numbers. * * @param region * @return the meaningful values in the range of cells specified */ private Set getMeaningfulValues(CellRangeAddress region, boolean withText, ValueFunction func) { Set values = meaningfulRegionValues.get(region); if (values != null) { return values; } List allValues = new ArrayList<>((region.getLastColumn() - region.getFirstColumn() + 1) * (region.getLastRow() - region.getFirstRow() + 1)); for (int r=region.getFirstRow(); r <= region.getLastRow(); r++) { final Row row = sheet.getRow(r); if (row == null) { continue; } for (int c = region.getFirstColumn(); c <= region.getLastColumn(); c++) { Cell cell = row.getCell(c); final ValueAndFormat cv = getCellValue(cell); if (withText || cv.isNumber()) { allValues.add(cv); } } } values = func.evaluate(allValues); meaningfulRegionValues.put(region, values); return values; } private ValueAndFormat getCellValue(Cell cell) { if (cell != null) { final String format = cell.getCellStyle().getDataFormatString(); CellType type = cell.getCellType(); if (type == CellType.FORMULA) { type = cell.getCachedFormulaResultType(); } switch (type) { case NUMERIC: return new ValueAndFormat(Double.valueOf(cell.getNumericCellValue()), format, decimalTextFormat); case STRING: case BOOLEAN: return new ValueAndFormat(cell.getStringCellValue(), format); default: break; } } return new ValueAndFormat("", ""); } /** * instances evaluate the values for a region and return the positive matches for the function type. * TODO: when we get to use Java 8, this is obviously a Lambda Function. */ protected interface ValueFunction { /** * * @param values * @return the desired values for the rules implemented by the current instance */ Set evaluate(List values); } /** * Not calling it OperatorType to avoid confusion for now with other classes. * Definition order matches OOXML type ID indexes. * Note that this has NO_COMPARISON as the first item, unlike the similar * DataValidation operator enum. Thanks, Microsoft. */ public static enum OperatorEnum { NO_COMPARISON { /** always false/invalid */ @Override public > boolean isValid(C cellValue, C v1, C v2) { return false; } }, BETWEEN { @Override public > boolean isValid(C cellValue, C v1, C v2) { if (v1 == null) { if (cellValue instanceof Number) { // use zero for null double n1 = 0; double n2 = v2 == null ? 0 : ((Number) v2).doubleValue(); return Double.compare( ((Number) cellValue).doubleValue(), n1) >= 0 && Double.compare(((Number) cellValue).doubleValue(), n2) <= 0; } else if (cellValue instanceof String) { String n1 = ""; String n2 = v2 == null ? "" : (String) v2; return ((String) cellValue).compareToIgnoreCase(n1) >= 0 && ((String) cellValue).compareToIgnoreCase(n2) <= 0; } else if (cellValue instanceof Boolean) return false; return false; // just in case - not a typical possibility } return cellValue.compareTo(v1) >= 0 && cellValue.compareTo(v2) <= 0; } }, NOT_BETWEEN { @Override public > boolean isValid(C cellValue, C v1, C v2) { if (v1 == null) { if (cellValue instanceof Number) { // use zero for null double n1 = 0; double n2 = v2 == null ? 0 : ((Number) v2).doubleValue(); return Double.compare( ((Number) cellValue).doubleValue(), n1) < 0 || Double.compare(((Number) cellValue).doubleValue(), n2) > 0; } else if (cellValue instanceof String) { String n1 = ""; String n2 = v2 == null ? "" : (String) v2; return ((String) cellValue).compareToIgnoreCase(n1) < 0 || ((String) cellValue).compareToIgnoreCase(n2) > 0; } else if (cellValue instanceof Boolean) return true; return false; // just in case - not a typical possibility } return cellValue.compareTo(v1) < 0 || cellValue.compareTo(v2) > 0; } public boolean isValidForIncompatibleTypes() { return true; } }, EQUAL { @Override public > boolean isValid(C cellValue, C v1, C v2) { if (v1 == null) { if (cellValue instanceof Number) { // use zero for null return Double.compare( ((Number) cellValue).doubleValue(), 0) == 0; } else if (cellValue instanceof String) { return false; // even an empty string is not equal the empty cell, only another empty cell is, handled higher up } else if (cellValue instanceof Boolean) return false; return false; // just in case - not a typical possibility } // need to avoid instanceof, to work around a 1.6 compiler bug if (cellValue.getClass() == String.class) { return cellValue.toString().compareToIgnoreCase(v1.toString()) == 0; } return cellValue.compareTo(v1) == 0; } }, NOT_EQUAL { @Override public > boolean isValid(C cellValue, C v1, C v2) { if (v1 == null) { return true; // non-null not equal null, returns true } // need to avoid instanceof, to work around a 1.6 compiler bug if (cellValue.getClass() == String.class) { return cellValue.toString().compareToIgnoreCase(v1.toString()) == 0; } return cellValue.compareTo(v1) != 0; } public boolean isValidForIncompatibleTypes() { return true; } }, GREATER_THAN { @Override public > boolean isValid(C cellValue, C v1, C v2) { if (v1 == null) { if (cellValue instanceof Number) { // use zero for null return Double.compare( ((Number) cellValue).doubleValue(), 0) > 0; } else if (cellValue instanceof String) { return true; // non-null string greater than empty cell } else if (cellValue instanceof Boolean) return true; return false; // just in case - not a typical possibility } return cellValue.compareTo(v1) > 0; } }, LESS_THAN { @Override public > boolean isValid(C cellValue, C v1, C v2) { if (v1 == null) { if (cellValue instanceof Number) { // use zero for null return Double.compare( ((Number) cellValue).doubleValue(), 0) < 0; } else if (cellValue instanceof String) { return false; // non-null string greater than empty cell } else if (cellValue instanceof Boolean) return false; return false; // just in case - not a typical possibility } return cellValue.compareTo(v1) < 0; } }, GREATER_OR_EQUAL { @Override public > boolean isValid(C cellValue, C v1, C v2) { if (v1 == null) { if (cellValue instanceof Number) { // use zero for null return Double.compare( ((Number) cellValue).doubleValue(), 0) >= 0; } else if (cellValue instanceof String) { return true; // non-null string greater than empty cell } else if (cellValue instanceof Boolean) return true; return false; // just in case - not a typical possibility } return cellValue.compareTo(v1) >= 0; } }, LESS_OR_EQUAL { @Override public > boolean isValid(C cellValue, C v1, C v2) { if (v1 == null) { if (cellValue instanceof Number) { // use zero for null return Double.compare( ((Number) cellValue).doubleValue(), 0) <= 0; } else if (cellValue instanceof String) { return false; // non-null string not less than empty cell } else if (cellValue instanceof Boolean) return false; // for completeness return false; // just in case - not a typical possibility } return cellValue.compareTo(v1) <= 0; } }, ; /** * Evaluates comparison using operator instance rules * @param cellValue won't be null, assumption is previous checks handled that * @param v1 if null, per Excel behavior various results depending on the type of cellValue and the specific enum instance * @param v2 null if not needed. If null when needed, various results, per Excel behavior * @return true if the comparison is valid */ public abstract > boolean isValid(C cellValue, C v1, C v2); /** * Called when the cell and comparison values are of different data types * Needed for negation operators, which should return true. * @return true if this comparison is true when the types to compare are different */ public boolean isValidForIncompatibleTypes() { return false; } } /** * Note: this class has a natural ordering that is inconsistent with equals. */ protected static class ValueAndFormat implements Comparable { private final Double value; private final String string; private final String format; private final DecimalFormat decimalTextFormat; public ValueAndFormat(Double value, String format, DecimalFormat df) { this.value = value; this.format = format; string = null; decimalTextFormat = df; } public ValueAndFormat(String value, String format) { this.value = null; this.format = format; string = value; decimalTextFormat = null; } public boolean isNumber() { return value != null; } public Double getValue() { return value; } public String getString() { return string; } public String toString() { if(isNumber()) { return decimalTextFormat.format(getValue().doubleValue()); } else { return getString(); } } @Override public boolean equals(Object obj) { if (!(obj instanceof ValueAndFormat)) { return false; } ValueAndFormat o = (ValueAndFormat) obj; return (Objects.equals(value, o.value) && Objects.equals(format, o.format) && Objects.equals(string, o.string)); } /** * Note: this class has a natural ordering that is inconsistent with equals. * @param o * @return value comparison */ @Override public int compareTo(ValueAndFormat o) { if (value == null && o.value != null) { return 1; } if (o.value == null && value != null) { return -1; } int cmp = value == null ? 0 : value.compareTo(o.value); if (cmp != 0) { return cmp; } if (string == null && o.string != null) { return 1; } if (o.string == null && string != null) { return -1; } return string == null ? 0 : string.compareTo(o.string); } @Override public int hashCode() { return (string == null ? 0 : string.hashCode()) * 37 * 37 + 37 * (value == null ? 0 : value.hashCode()) + (format == null ? 0 : format.hashCode()); } } }





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