TestOperandClassTransformer.java
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package org.apache.poi.hssf.model;
import static org.junit.jupiter.api.Assertions.assertEquals;
import static org.junit.jupiter.api.Assertions.assertFalse;
import static org.junit.jupiter.api.Assertions.assertNotEquals;
import static org.junit.jupiter.api.Assertions.assertNotNull;
import org.apache.poi.ss.formula.eval.BlankEval;
import org.apache.poi.ss.formula.eval.ErrorEval;
import org.apache.poi.ss.formula.eval.NumberEval;
import org.apache.poi.ss.formula.eval.ValueEval;
import org.apache.poi.ss.formula.functions.EvalFactory;
import org.apache.poi.ss.formula.functions.MatrixFunction;
import org.apache.poi.ss.formula.ptg.AbstractFunctionPtg;
import org.apache.poi.ss.formula.ptg.FuncVarPtg;
import org.apache.poi.ss.formula.ptg.Ptg;
import org.junit.jupiter.api.Disabled;
import org.junit.jupiter.api.Test;
/**
* Tests specific formula examples in {@code OperandClassTransformer}.
*/
final class TestOperandClassTransformer {
private static Ptg[] parseFormula(String formula) {
Ptg[] result = HSSFFormulaParser.parse(formula, null);
assertNotNull(result, "Ptg array should not be null");
return result;
}
@Test
void testMdeterm() {
String formula = "MDETERM(ABS(A1))";
Ptg[] ptgs = parseFormula(formula);
confirmTokenClass(ptgs, 0, Ptg.CLASS_ARRAY);
confirmFuncClass(ptgs, 1, "ABS", Ptg.CLASS_ARRAY);
confirmFuncClass(ptgs, 2, "MDETERM", Ptg.CLASS_VALUE);
}
@Test
void testMdetermReturnsValueInvalidOnABlankCell() {
ValueEval matrixRef = EvalFactory.createAreaEval("A1:B2",
new ValueEval[]{
BlankEval.instance,
new NumberEval(1),
new NumberEval(2),
new NumberEval(3)
}
);
ValueEval result = MatrixFunction.MDETERM.evaluate(new ValueEval[]{matrixRef} , 0, 0);
assertEquals(ErrorEval.VALUE_INVALID, result);
}
/**
* In the example: {@code INDEX(PI(),1)}, Excel encodes PI() as 'array'. It is not clear
* what rule justifies this. POI currently encodes it as 'value' which Excel(2007) seems to
* tolerate. Changing the metadata for INDEX to have first parameter as 'array' class breaks
* other formulas involving INDEX. It seems like a special case needs to be made. Perhaps an
* important observation is that INDEX is one of very few functions that returns 'reference' type.
* <p>
* This test has been added but disabled in order to document this issue.
*/
@Test
@Disabled
void testIndexPi1() {
String formula = "INDEX(PI(),1)";
Ptg[] ptgs = parseFormula(formula);
confirmFuncClass(ptgs, 1, "PI", Ptg.CLASS_ARRAY); // fails as of POI 3.1
confirmFuncClass(ptgs, 2, "INDEX", Ptg.CLASS_VALUE);
}
/**
* Even though count expects args of type R, because A1 is a direct operand of a
* value operator it must get type V
*/
@Test
void testDirectOperandOfValueOperator() {
String formula = "COUNT(A1*1)";
Ptg[] ptgs = parseFormula(formula);
assertNotEquals(Ptg.CLASS_REF, ptgs[0].getPtgClass());
confirmTokenClass(ptgs, 0, Ptg.CLASS_VALUE);
confirmTokenClass(ptgs, 3, Ptg.CLASS_VALUE);
}
/**
* A cell ref passed to a function expecting type V should be converted to type V
*/
@Test
void testRtoV() {
String formula = "lookup(A1, A3:A52, B3:B52)";
Ptg[] ptgs = parseFormula(formula);
confirmTokenClass(ptgs, 0, Ptg.CLASS_VALUE);
}
@Test
void testComplexIRR_bug45041() {
String formula = "(1+IRR(SUMIF(A:A,ROW(INDIRECT(MIN(A:A)&\":\"&MAX(A:A))),B:B),0))^365-1";
Ptg[] ptgs = parseFormula(formula);
FuncVarPtg rowFunc = (FuncVarPtg) ptgs[10];
FuncVarPtg sumifFunc = (FuncVarPtg) ptgs[12];
assertEquals("ROW", rowFunc.getName());
assertEquals("SUMIF", sumifFunc.getName());
assertNotEquals(Ptg.CLASS_VALUE, rowFunc.getPtgClass());
assertNotEquals(Ptg.CLASS_VALUE, sumifFunc.getPtgClass());
confirmTokenClass(ptgs, 1, Ptg.CLASS_REF);
confirmTokenClass(ptgs, 2, Ptg.CLASS_REF);
confirmFuncClass(ptgs, 3, "MIN", Ptg.CLASS_VALUE);
confirmTokenClass(ptgs, 6, Ptg.CLASS_REF);
confirmFuncClass(ptgs, 7, "MAX", Ptg.CLASS_VALUE);
confirmFuncClass(ptgs, 9, "INDIRECT", Ptg.CLASS_REF);
confirmFuncClass(ptgs, 10, "ROW", Ptg.CLASS_ARRAY);
confirmTokenClass(ptgs, 11, Ptg.CLASS_REF);
confirmFuncClass(ptgs, 12, "SUMIF", Ptg.CLASS_ARRAY);
confirmFuncClass(ptgs, 14, "IRR", Ptg.CLASS_VALUE);
}
private void confirmFuncClass(Ptg[] ptgs, int i, String expectedFunctionName, byte operandClass) {
confirmTokenClass(ptgs, i, operandClass);
AbstractFunctionPtg afp = (AbstractFunctionPtg) ptgs[i];
assertEquals(expectedFunctionName, afp.getName());
}
private void confirmTokenClass(Ptg[] ptgs, int i, byte operandClass) {
Ptg ptg = ptgs[i];
assertFalse(ptg.isBaseToken(), "ptg[" + i + "] is a base token");
assertEquals(operandClass, ptg.getPtgClass());
}
}