/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- */ /* * This file is part of the LibreOffice project. * * This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ #include "ucalc.hxx" #include "helper/debughelper.hxx" #include "helper/qahelper.hxx" #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include using namespace formula; namespace { ScRange getCachedRange(const ScExternalRefCache::TableTypeRef& pCacheTab) { ScRange aRange; vector aRows; pCacheTab->getAllRows(aRows); bool bFirst = true; for (const SCROW nRow : aRows) { vector aCols; pCacheTab->getAllCols(nRow, aCols); for (const SCCOL nCol : aCols) { if (bFirst) { aRange.aStart = ScAddress(nCol, nRow, 0); aRange.aEnd = aRange.aStart; bFirst = false; } else { if (nCol < aRange.aStart.Col()) aRange.aStart.SetCol(nCol); else if (aRange.aEnd.Col() < nCol) aRange.aEnd.SetCol(nCol); if (nRow < aRange.aStart.Row()) aRange.aStart.SetRow(nRow); else if (aRange.aEnd.Row() < nRow) aRange.aEnd.SetRow(nRow); } } } return aRange; } } void Test::testFormulaCreateStringFromTokens() { // Insert sheets. OUString const aTabName1("Test"); OUString const aTabName2("Kevin's Data"); OUString const aTabName3("Past Data"); OUString const aTabName4("2013"); m_pDoc->InsertTab(0, aTabName1); m_pDoc->InsertTab(1, aTabName2); m_pDoc->InsertTab(2, aTabName3); m_pDoc->InsertTab(3, aTabName4); // Insert named ranges. static const struct { bool bGlobal; const char* pName; const char* pExpr; } aNames[] = { { true, "x", "Test.H1" }, { true, "y", "Test.H2" }, { true, "z", "Test.H3" }, { false, "sheetx", "Test.J1" } }; ScRangeName* pGlobalNames = m_pDoc->GetRangeName(); ScRangeName* pSheetNames = m_pDoc->GetRangeName(0); CPPUNIT_ASSERT_MESSAGE("Failed to obtain global named expression object.", pGlobalNames); CPPUNIT_ASSERT_MESSAGE("Failed to obtain sheet-local named expression object.", pSheetNames); for (size_t i = 0; i < SAL_N_ELEMENTS(aNames); ++i) { ScRangeData* pName = new ScRangeData( m_pDoc, OUString::createFromAscii(aNames[i].pName), OUString::createFromAscii(aNames[i].pExpr), ScAddress(0,0,0), ScRangeData::Type::Name, formula::FormulaGrammar::GRAM_NATIVE); if (aNames[i].bGlobal) { bool bInserted = pGlobalNames->insert(pName); CPPUNIT_ASSERT_MESSAGE("Failed to insert a new name.", bInserted); } else { bool bInserted = pSheetNames->insert(pName); CPPUNIT_ASSERT_MESSAGE("Failed to insert a new name.", bInserted); } } // Insert DB ranges. static const struct { const char* pName; SCTAB const nTab; SCCOL const nCol1; SCROW const nRow1; SCCOL const nCol2; SCROW const nRow2; } aDBs[] = { { "Table1", 0, 0, 0, 10, 10 }, { "Table2", 1, 0, 0, 10, 10 }, { "Table3", 2, 0, 0, 10, 10 } }; ScDBCollection* pDBs = m_pDoc->GetDBCollection(); CPPUNIT_ASSERT_MESSAGE("Failed to fetch DB collection object.", pDBs); for (size_t i = 0; i < SAL_N_ELEMENTS(aDBs); ++i) { std::unique_ptr pData( new ScDBData( OUString::createFromAscii( aDBs[i].pName), aDBs[i].nTab, aDBs[i].nCol1, aDBs[i].nRow1, aDBs[i].nCol2,aDBs[i].nRow2) ); bool bInserted = pDBs->getNamedDBs().insert(std::move(pData)); CPPUNIT_ASSERT_MESSAGE( OString( OStringLiteral("Failed to insert \"") + aDBs[i].pName + "\"").getStr(), bInserted); } const char* aTests[] = { "1+2", "SUM(A1:A10;B1:B10;C5;D6)", "IF(Test.B10<>10;\"Good\";\"Bad\")", "AVERAGE('2013'.B10:C20)", "'Kevin''s Data'.B10", "'Past Data'.B1+'2013'.B2*(1+'Kevin''s Data'.C10)", "x+y*z", // named ranges "SUM(sheetx;x;y;z)", // sheet local and global named ranges mixed "MAX(Table1)+MIN(Table2)*SUM(Table3)", // database ranges "{1;TRUE;3|FALSE;5;\"Text\"|;;}", // inline matrix "SUM('file:///path/to/fake.file'#$Sheet.A1:B10)", }; (void) aTests; std::unique_ptr pArray; sc::TokenStringContext aCxt(m_pDoc, formula::FormulaGrammar::GRAM_ENGLISH); // Artificially add external reference data after the context object is // initialized. aCxt.maExternalFileNames.emplace_back("file:///path/to/fake.file"); std::vector aExtTabNames; aExtTabNames.emplace_back("Sheet"); aCxt.maExternalCachedTabNames.emplace(0, aExtTabNames); ScAddress aPos(0,0,0); for (size_t i = 0; i < SAL_N_ELEMENTS(aTests); ++i) { #if 0 OUString aFormula = OUString::createFromAscii(aTests[i]); #endif ScCompiler aComp(m_pDoc, aPos, FormulaGrammar::GRAM_ENGLISH); #if 0 // TODO: This call to CompileString() causes the cppunittester to somehow fail on Windows. pArray.reset(aComp.CompileString(aFormula)); CPPUNIT_ASSERT_MESSAGE("Failed to compile formula string.", pArray.get()); OUString aCheck = pArray->CreateString(aCxt, aPos); CPPUNIT_ASSERT_EQUAL(aFormula, aCheck); #endif } m_pDoc->DeleteTab(3); m_pDoc->DeleteTab(2); m_pDoc->DeleteTab(1); m_pDoc->DeleteTab(0); } namespace { bool isEmpty( const formula::VectorRefArray& rArray, size_t nPos ) { if (rArray.mpStringArray) { if (rArray.mpStringArray[nPos]) return false; } if (rArray.mpNumericArray) return rtl::math::isNan(rArray.mpNumericArray[nPos]); else return true; } bool equals( const formula::VectorRefArray& rArray, size_t nPos, double fVal ) { if (rArray.mpStringArray && rArray.mpStringArray[nPos]) // This is a string cell. return false; return rArray.mpNumericArray && rArray.mpNumericArray[nPos] == fVal; } bool equals( const formula::VectorRefArray& rArray, size_t nPos, const OUString& rVal ) { if (!rArray.mpStringArray) return false; bool bEquals = OUString(rArray.mpStringArray[nPos]).equalsIgnoreAsciiCase(rVal); if (!bEquals) { cerr << "Expected: " << rVal.toAsciiUpperCase() << " (upcased)" << endl; cerr << "Actual: " << OUString(rArray.mpStringArray[nPos]) << " (upcased)" << endl; } return bEquals; } } void Test::testFormulaParseReference() { OUString aTab1("90's Music"), aTab2("90's and 70's"), aTab3("All Others"), aTab4("NoQuote"); m_pDoc->InsertTab(0, "Dummy"); // just to shift the sheet indices... m_pDoc->InsertTab(1, aTab1); // name with a single quote. m_pDoc->InsertTab(2, aTab2); // name with 2 single quotes. m_pDoc->InsertTab(3, aTab3); // name without single quotes. m_pDoc->InsertTab(4, aTab4); // name that doesn't require to be quoted. OUString aTabName; m_pDoc->GetName(1, aTabName); CPPUNIT_ASSERT_EQUAL(aTab1, aTabName); m_pDoc->GetName(2, aTabName); CPPUNIT_ASSERT_EQUAL(aTab2, aTabName); m_pDoc->GetName(3, aTabName); CPPUNIT_ASSERT_EQUAL(aTab3, aTabName); m_pDoc->GetName(4, aTabName); CPPUNIT_ASSERT_EQUAL(aTab4, aTabName); // Make sure the formula input and output match. { const char* aChecks[] = { "'90''s Music'.B12", "'90''s and 70''s'.$AB$100", "'All Others'.Z$100", "NoQuote.$C111" }; for (size_t i = 0; i < SAL_N_ELEMENTS(aChecks); ++i) { // Use the 'Dummy' sheet for this. OUString aInput = "=" + OUString::createFromAscii(aChecks[i]); m_pDoc->SetString(ScAddress(0,0,0), aInput); ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(0,0,0), aChecks[i], "Wrong formula"); } } ScAddress aPos; ScAddress::ExternalInfo aExtInfo; ScRefFlags nRes = aPos.Parse("'90''s Music'.D10", m_pDoc, formula::FormulaGrammar::CONV_OOO, &aExtInfo); CPPUNIT_ASSERT_MESSAGE("Failed to parse.", (nRes & ScRefFlags::VALID)); CPPUNIT_ASSERT_EQUAL(static_cast(1), aPos.Tab()); CPPUNIT_ASSERT_EQUAL(static_cast(3), aPos.Col()); CPPUNIT_ASSERT_EQUAL(static_cast(9), aPos.Row()); CPPUNIT_ASSERT_MESSAGE("This is not an external address.", !aExtInfo.mbExternal); nRes = aPos.Parse("'90''s and 70''s'.C100", m_pDoc, formula::FormulaGrammar::CONV_OOO, &aExtInfo); CPPUNIT_ASSERT_MESSAGE("Failed to parse.", (nRes & ScRefFlags::VALID)); CPPUNIT_ASSERT_EQUAL(static_cast(2), aPos.Tab()); CPPUNIT_ASSERT_EQUAL(static_cast(2), aPos.Col()); CPPUNIT_ASSERT_EQUAL(static_cast(99), aPos.Row()); CPPUNIT_ASSERT_MESSAGE("This is not an external address.", !aExtInfo.mbExternal); nRes = aPos.Parse("'All Others'.B3", m_pDoc, formula::FormulaGrammar::CONV_OOO, &aExtInfo); CPPUNIT_ASSERT_MESSAGE("Failed to parse.", (nRes & ScRefFlags::VALID)); CPPUNIT_ASSERT_EQUAL(static_cast(3), aPos.Tab()); CPPUNIT_ASSERT_EQUAL(static_cast(1), aPos.Col()); CPPUNIT_ASSERT_EQUAL(static_cast(2), aPos.Row()); CPPUNIT_ASSERT_MESSAGE("This is not an external address.", !aExtInfo.mbExternal); nRes = aPos.Parse("NoQuote.E13", m_pDoc, formula::FormulaGrammar::CONV_OOO, &aExtInfo); CPPUNIT_ASSERT_MESSAGE("Failed to parse.", (nRes & ScRefFlags::VALID)); CPPUNIT_ASSERT_EQUAL(static_cast(4), aPos.Tab()); CPPUNIT_ASSERT_EQUAL(static_cast(4), aPos.Col()); CPPUNIT_ASSERT_EQUAL(static_cast(12), aPos.Row()); CPPUNIT_ASSERT_MESSAGE("This is not an external address.", !aExtInfo.mbExternal); ScRange aRange; aRange.aStart.SetTab(0); nRes = aRange.Parse(":B", m_pDoc, formula::FormulaGrammar::CONV_OOO); CPPUNIT_ASSERT_MESSAGE("Should fail to parse.", !(nRes & ScRefFlags::VALID)); aRange.aStart.SetTab(0); nRes = aRange.Parse("B:", m_pDoc, formula::FormulaGrammar::CONV_OOO); CPPUNIT_ASSERT_MESSAGE("Should fail to parse.", !(nRes & ScRefFlags::VALID)); aRange.aStart.SetTab(0); nRes = aRange.Parse(":B2", m_pDoc, formula::FormulaGrammar::CONV_OOO); CPPUNIT_ASSERT_MESSAGE("Should fail to parse.", !(nRes & ScRefFlags::VALID)); aRange.aStart.SetTab(0); nRes = aRange.Parse("B2:", m_pDoc, formula::FormulaGrammar::CONV_OOO); CPPUNIT_ASSERT_MESSAGE("Should fail to parse.", !(nRes & ScRefFlags::VALID)); aRange.aStart.SetTab(0); nRes = aRange.Parse(":2", m_pDoc, formula::FormulaGrammar::CONV_OOO); CPPUNIT_ASSERT_MESSAGE("Should fail to parse.", !(nRes & ScRefFlags::VALID)); aRange.aStart.SetTab(0); nRes = aRange.Parse("2:", m_pDoc, formula::FormulaGrammar::CONV_OOO); CPPUNIT_ASSERT_MESSAGE("Should fail to parse.", !(nRes & ScRefFlags::VALID)); aRange.aStart.SetTab(0); nRes = aRange.Parse(":2B", m_pDoc, formula::FormulaGrammar::CONV_OOO); CPPUNIT_ASSERT_MESSAGE("Should fail to parse.", !(nRes & ScRefFlags::VALID)); aRange.aStart.SetTab(0); nRes = aRange.Parse("2B:", m_pDoc, formula::FormulaGrammar::CONV_OOO); CPPUNIT_ASSERT_MESSAGE("Should fail to parse.", !(nRes & ScRefFlags::VALID)); aRange.aStart.SetTab(0); nRes = aRange.Parse("abc_foo:abc_bar", m_pDoc, formula::FormulaGrammar::CONV_OOO); CPPUNIT_ASSERT_MESSAGE("Should fail to parse.", !(nRes & ScRefFlags::VALID)); aRange.aStart.SetTab(0); nRes = aRange.Parse("B1:B2~C1", m_pDoc, formula::FormulaGrammar::CONV_OOO); CPPUNIT_ASSERT_MESSAGE("Should fail to parse.", !(nRes & ScRefFlags::VALID)); aRange.aStart.SetTab(0); nRes = aRange.Parse("B:B", m_pDoc, formula::FormulaGrammar::CONV_OOO); CPPUNIT_ASSERT_MESSAGE("Failed to parse.", (nRes & ScRefFlags::VALID)); CPPUNIT_ASSERT_EQUAL(static_cast(0), aRange.aStart.Tab()); CPPUNIT_ASSERT_EQUAL(static_cast(1), aRange.aStart.Col()); CPPUNIT_ASSERT_EQUAL(static_cast(0), aRange.aStart.Row()); CPPUNIT_ASSERT_EQUAL(static_cast(0), aRange.aEnd.Tab()); CPPUNIT_ASSERT_EQUAL(static_cast(1), aRange.aEnd.Col()); CPPUNIT_ASSERT_EQUAL(m_pDoc->MaxRow(), aRange.aEnd.Row()); CPPUNIT_ASSERT_EQUAL(static_cast(ScRefFlags::COL_VALID | ScRefFlags::ROW_VALID | ScRefFlags::TAB_VALID | ScRefFlags::COL2_VALID | ScRefFlags::ROW2_VALID | ScRefFlags::TAB2_VALID), static_cast(nRes & (ScRefFlags::COL_VALID | ScRefFlags::ROW_VALID | ScRefFlags::TAB_VALID | ScRefFlags::COL2_VALID | ScRefFlags::ROW2_VALID | ScRefFlags::TAB2_VALID))); CPPUNIT_ASSERT_EQUAL(static_cast(ScRefFlags::ZERO), static_cast(nRes & (ScRefFlags::COL_ABS | ScRefFlags::COL2_ABS))); CPPUNIT_ASSERT_EQUAL(static_cast(ScRefFlags::ROW_ABS | ScRefFlags::ROW2_ABS), static_cast(nRes & (ScRefFlags::ROW_ABS | ScRefFlags::ROW2_ABS))); aRange.aStart.SetTab(0); nRes = aRange.Parse("2:2", m_pDoc, formula::FormulaGrammar::CONV_OOO); CPPUNIT_ASSERT_MESSAGE("Failed to parse.", (nRes & ScRefFlags::VALID)); CPPUNIT_ASSERT_EQUAL(static_cast(0), aRange.aStart.Tab()); CPPUNIT_ASSERT_EQUAL(static_cast(0), aRange.aStart.Col()); CPPUNIT_ASSERT_EQUAL(static_cast(1), aRange.aStart.Row()); CPPUNIT_ASSERT_EQUAL(static_cast(0), aRange.aEnd.Tab()); CPPUNIT_ASSERT_EQUAL(m_pDoc->MaxCol(), aRange.aEnd.Col()); CPPUNIT_ASSERT_EQUAL(static_cast(1), aRange.aEnd.Row()); CPPUNIT_ASSERT_EQUAL(static_cast(ScRefFlags::COL_VALID | ScRefFlags::ROW_VALID | ScRefFlags::TAB_VALID | ScRefFlags::COL2_VALID | ScRefFlags::ROW2_VALID | ScRefFlags::TAB2_VALID), static_cast(nRes & (ScRefFlags::COL_VALID | ScRefFlags::ROW_VALID | ScRefFlags::TAB_VALID | ScRefFlags::COL2_VALID | ScRefFlags::ROW2_VALID | ScRefFlags::TAB2_VALID))); CPPUNIT_ASSERT_EQUAL(static_cast(ScRefFlags::ZERO), static_cast(nRes & (ScRefFlags::ROW_ABS | ScRefFlags::ROW2_ABS))); CPPUNIT_ASSERT_EQUAL(static_cast(ScRefFlags::COL_ABS | ScRefFlags::COL2_ABS), static_cast(nRes & (ScRefFlags::COL_ABS | ScRefFlags::COL2_ABS))); nRes = aRange.Parse("NoQuote.B:C", m_pDoc, formula::FormulaGrammar::CONV_OOO); CPPUNIT_ASSERT_MESSAGE("Failed to parse.", (nRes & ScRefFlags::VALID)); CPPUNIT_ASSERT_EQUAL(static_cast(4), aRange.aStart.Tab()); CPPUNIT_ASSERT_EQUAL(static_cast(1), aRange.aStart.Col()); CPPUNIT_ASSERT_EQUAL(static_cast(0), aRange.aStart.Row()); CPPUNIT_ASSERT_EQUAL(static_cast(4), aRange.aEnd.Tab()); CPPUNIT_ASSERT_EQUAL(static_cast(2), aRange.aEnd.Col()); CPPUNIT_ASSERT_EQUAL(m_pDoc->MaxRow(), aRange.aEnd.Row()); CPPUNIT_ASSERT_EQUAL(static_cast(ScRefFlags::COL_VALID | ScRefFlags::ROW_VALID | ScRefFlags::TAB_VALID | ScRefFlags::COL2_VALID | ScRefFlags::ROW2_VALID | ScRefFlags::TAB2_VALID), static_cast(nRes & (ScRefFlags::COL_VALID | ScRefFlags::ROW_VALID | ScRefFlags::TAB_VALID | ScRefFlags::COL2_VALID | ScRefFlags::ROW2_VALID | ScRefFlags::TAB2_VALID))); CPPUNIT_ASSERT_EQUAL(static_cast(ScRefFlags::ZERO), static_cast(nRes & (ScRefFlags::COL_ABS | ScRefFlags::COL2_ABS))); CPPUNIT_ASSERT_EQUAL(static_cast(ScRefFlags::ROW_ABS | ScRefFlags::ROW2_ABS), static_cast(nRes & (ScRefFlags::ROW_ABS | ScRefFlags::ROW2_ABS))); // Both rows at sheet bounds and relative => convert to absolute => entire column reference. aRange.aStart.SetTab(0); nRes = aRange.Parse("B1:B1048576", m_pDoc, formula::FormulaGrammar::CONV_OOO); CPPUNIT_ASSERT_MESSAGE("Failed to parse.", (nRes & ScRefFlags::VALID)); CPPUNIT_ASSERT_EQUAL(static_cast(0), aRange.aStart.Tab()); CPPUNIT_ASSERT_EQUAL(static_cast(1), aRange.aStart.Col()); CPPUNIT_ASSERT_EQUAL(static_cast(0), aRange.aStart.Row()); CPPUNIT_ASSERT_EQUAL(static_cast(0), aRange.aEnd.Tab()); CPPUNIT_ASSERT_EQUAL(static_cast(1), aRange.aEnd.Col()); CPPUNIT_ASSERT_EQUAL(m_pDoc->MaxRow(), aRange.aEnd.Row()); CPPUNIT_ASSERT_EQUAL(static_cast(ScRefFlags::COL_VALID | ScRefFlags::ROW_VALID | ScRefFlags::TAB_VALID | ScRefFlags::COL2_VALID | ScRefFlags::ROW2_VALID | ScRefFlags::TAB2_VALID), static_cast(nRes & (ScRefFlags::COL_VALID | ScRefFlags::ROW_VALID | ScRefFlags::TAB_VALID | ScRefFlags::COL2_VALID | ScRefFlags::ROW2_VALID | ScRefFlags::TAB2_VALID))); CPPUNIT_ASSERT_EQUAL(static_cast(ScRefFlags::ZERO), static_cast(nRes & (ScRefFlags::COL_ABS | ScRefFlags::COL2_ABS))); CPPUNIT_ASSERT_EQUAL(static_cast(ScRefFlags::ROW_ABS | ScRefFlags::ROW2_ABS), static_cast(nRes & (ScRefFlags::ROW_ABS | ScRefFlags::ROW2_ABS))); // Both columns at sheet bounds and relative => convert to absolute => entire row reference. aRange.aStart.SetTab(0); nRes = aRange.Parse("A2:AMJ2", m_pDoc, formula::FormulaGrammar::CONV_OOO); CPPUNIT_ASSERT_MESSAGE("Failed to parse.", (nRes & ScRefFlags::VALID)); CPPUNIT_ASSERT_EQUAL(static_cast(0), aRange.aStart.Tab()); CPPUNIT_ASSERT_EQUAL(static_cast(0), aRange.aStart.Col()); CPPUNIT_ASSERT_EQUAL(static_cast(1), aRange.aStart.Row()); CPPUNIT_ASSERT_EQUAL(static_cast(0), aRange.aEnd.Tab()); CPPUNIT_ASSERT_EQUAL(m_pDoc->MaxCol(), aRange.aEnd.Col()); CPPUNIT_ASSERT_EQUAL(static_cast(1), aRange.aEnd.Row()); CPPUNIT_ASSERT_EQUAL(static_cast(ScRefFlags::COL_VALID | ScRefFlags::ROW_VALID | ScRefFlags::TAB_VALID | ScRefFlags::COL2_VALID | ScRefFlags::ROW2_VALID | ScRefFlags::TAB2_VALID), static_cast(nRes & (ScRefFlags::COL_VALID | ScRefFlags::ROW_VALID | ScRefFlags::TAB_VALID | ScRefFlags::COL2_VALID | ScRefFlags::ROW2_VALID | ScRefFlags::TAB2_VALID))); CPPUNIT_ASSERT_EQUAL(static_cast(ScRefFlags::ZERO), static_cast(nRes & (ScRefFlags::ROW_ABS | ScRefFlags::ROW2_ABS))); CPPUNIT_ASSERT_EQUAL(static_cast(ScRefFlags::COL_ABS | ScRefFlags::COL2_ABS), static_cast(nRes & (ScRefFlags::COL_ABS | ScRefFlags::COL2_ABS))); // Check for reference input conversion to and display string of entire column/row. { const char* aChecks[][2] = { { "=B:B", "B:B" }, { "=B1:B1048576", "B:B" }, { "=B1:B$1048576", "B1:B$1048576" }, { "=B$1:B1048576", "B$1:B1048576" }, { "=B$1:B$1048576", "B:B" }, { "=2:2", "2:2" }, { "=A2:AMJ2", "2:2" }, { "=A2:$AMJ2", "A2:$AMJ2" }, { "=$A2:AMJ2", "$A2:AMJ2" }, { "=$A2:$AMJ2", "2:2" } }; for (size_t i = 0; i < SAL_N_ELEMENTS(aChecks); ++i) { // Use the 'Dummy' sheet for this. m_pDoc->SetString(ScAddress(0,0,0), OUString::createFromAscii(aChecks[i][0])); ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(0,0,0), aChecks[i][1], "Wrong formula"); } } m_pDoc->DeleteTab(4); m_pDoc->DeleteTab(3); m_pDoc->DeleteTab(2); m_pDoc->DeleteTab(1); m_pDoc->DeleteTab(0); } void Test::testFetchVectorRefArray() { m_pDoc->InsertTab(0, "Test"); // All numeric cells in Column A. m_pDoc->SetValue(ScAddress(0,0,0), 1); m_pDoc->SetValue(ScAddress(0,1,0), 2); m_pDoc->SetValue(ScAddress(0,2,0), 3); m_pDoc->SetValue(ScAddress(0,3,0), 4); formula::VectorRefArray aArray = m_pDoc->FetchVectorRefArray(ScAddress(0,0,0), 4); CPPUNIT_ASSERT_MESSAGE("Failed to fetch vector ref array.", aArray.isValid()); CPPUNIT_ASSERT_MESSAGE("Array is expected to be numeric cells only.", !aArray.mpStringArray); CPPUNIT_ASSERT_EQUAL(1.0, aArray.mpNumericArray[0]); CPPUNIT_ASSERT_EQUAL(2.0, aArray.mpNumericArray[1]); CPPUNIT_ASSERT_EQUAL(3.0, aArray.mpNumericArray[2]); CPPUNIT_ASSERT_EQUAL(4.0, aArray.mpNumericArray[3]); aArray = m_pDoc->FetchVectorRefArray(ScAddress(0,0,0), 5); CPPUNIT_ASSERT_MESSAGE("Failed to fetch vector ref array.", aArray.isValid()); CPPUNIT_ASSERT_MESSAGE("Array is expected to be numeric cells only.", !aArray.mpStringArray); CPPUNIT_ASSERT_EQUAL(1.0, aArray.mpNumericArray[0]); CPPUNIT_ASSERT_EQUAL(2.0, aArray.mpNumericArray[1]); CPPUNIT_ASSERT_EQUAL(3.0, aArray.mpNumericArray[2]); CPPUNIT_ASSERT_EQUAL(4.0, aArray.mpNumericArray[3]); CPPUNIT_ASSERT_MESSAGE("This should be empty.", isEmpty(aArray, 4)); // All string cells in Column B. Note that the fetched string arrays are // only to be compared case-insensitively. Right now, we use upper cased // strings to achieve case-insensitive-ness, but that may change. So, // don't count on that. m_pDoc->SetString(ScAddress(1,0,0), "Andy"); m_pDoc->SetString(ScAddress(1,1,0), "Bruce"); m_pDoc->SetString(ScAddress(1,2,0), "Charlie"); m_pDoc->SetString(ScAddress(1,3,0), "David"); aArray = m_pDoc->FetchVectorRefArray(ScAddress(1,0,0), 5); CPPUNIT_ASSERT_MESSAGE("Failed to fetch vector ref array.", aArray.isValid()); CPPUNIT_ASSERT_MESSAGE("Array is expected to be string cells only.", !aArray.mpNumericArray); CPPUNIT_ASSERT_MESSAGE("Unexpected string cell.", equals(aArray, 0, "Andy")); CPPUNIT_ASSERT_MESSAGE("Unexpected string cell.", equals(aArray, 1, "Bruce")); CPPUNIT_ASSERT_MESSAGE("Unexpected string cell.", equals(aArray, 2, "Charlie")); CPPUNIT_ASSERT_MESSAGE("Unexpected string cell.", equals(aArray, 3, "David")); CPPUNIT_ASSERT_MESSAGE("This should be empty.", isEmpty(aArray, 4)); // Mixture of numeric, string, and empty cells in Column C. m_pDoc->SetString(ScAddress(2,0,0), "Header"); m_pDoc->SetValue(ScAddress(2,1,0), 11); m_pDoc->SetValue(ScAddress(2,2,0), 12); m_pDoc->SetValue(ScAddress(2,3,0), 13); m_pDoc->SetString(ScAddress(2,5,0), "=SUM(C2:C4)"); m_pDoc->CalcAll(); aArray = m_pDoc->FetchVectorRefArray(ScAddress(2,0,0), 7); CPPUNIT_ASSERT_MESSAGE("Failed to fetch vector ref array.", aArray.isValid()); CPPUNIT_ASSERT_MESSAGE("Array should have both numeric and string arrays.", aArray.mpNumericArray && aArray.mpStringArray); CPPUNIT_ASSERT_MESSAGE("Unexpected string cell.", equals(aArray, 0, "Header")); CPPUNIT_ASSERT_MESSAGE("Unexpected numeric cell.", equals(aArray, 1, 11)); CPPUNIT_ASSERT_MESSAGE("Unexpected numeric cell.", equals(aArray, 2, 12)); CPPUNIT_ASSERT_MESSAGE("Unexpected numeric cell.", equals(aArray, 3, 13)); CPPUNIT_ASSERT_MESSAGE("This should be empty.", isEmpty(aArray, 4)); CPPUNIT_ASSERT_MESSAGE("Unexpected numeric cell.", equals(aArray, 5, 36)); CPPUNIT_ASSERT_MESSAGE("This should be empty.", isEmpty(aArray, 6)); // Mixed type again in Column D, but it starts with a numeric cell. m_pDoc->SetValue(ScAddress(3,0,0), 10); m_pDoc->SetString(ScAddress(3,1,0), "Below 10"); // Leave 2 empty cells. m_pDoc->SetValue(ScAddress(3,4,0), 11); m_pDoc->SetString(ScAddress(3,5,0), "=12"); m_pDoc->SetString(ScAddress(3,6,0), "=13"); m_pDoc->SetString(ScAddress(3,7,0), "=CONCATENATE(\"A\";\"B\";\"C\")"); m_pDoc->CalcAll(); aArray = m_pDoc->FetchVectorRefArray(ScAddress(3,0,0), 8); CPPUNIT_ASSERT_MESSAGE("Failed to fetch vector ref array.", aArray.isValid()); CPPUNIT_ASSERT_MESSAGE("Array should have both numeric and string arrays.", aArray.mpNumericArray && aArray.mpStringArray); CPPUNIT_ASSERT_MESSAGE("Unexpected numeric cell.", equals(aArray, 0, 10)); CPPUNIT_ASSERT_MESSAGE("Unexpected string cell.", equals(aArray, 1, "Below 10")); CPPUNIT_ASSERT_MESSAGE("This should be empty.", isEmpty(aArray, 2)); CPPUNIT_ASSERT_MESSAGE("This should be empty.", isEmpty(aArray, 3)); CPPUNIT_ASSERT_MESSAGE("Unexpected numeric cell.", equals(aArray, 4, 11)); CPPUNIT_ASSERT_MESSAGE("Unexpected numeric cell.", equals(aArray, 5, 12)); CPPUNIT_ASSERT_MESSAGE("Unexpected numeric cell.", equals(aArray, 6, 13)); CPPUNIT_ASSERT_MESSAGE("Unexpected string cell.", equals(aArray, 7, "ABC")); // Column E consists of formula cells whose results are all numeric. for (SCROW i = 0; i <= 6; ++i) m_pDoc->SetString(ScAddress(4,i,0), "=ROW()"); m_pDoc->CalcAll(); // Leave row 7 empty. m_pDoc->SetString(ScAddress(4,8,0), "Andy"); m_pDoc->SetValue(ScAddress(4,9,0), 123); // This array fits within a single formula block. aArray = m_pDoc->FetchVectorRefArray(ScAddress(4,0,0), 5); CPPUNIT_ASSERT_MESSAGE("Failed to fetch vector ref array.", aArray.isValid()); CPPUNIT_ASSERT_MESSAGE("Array should be purely numeric.", aArray.mpNumericArray && !aArray.mpStringArray); CPPUNIT_ASSERT_MESSAGE("Unexpected numeric cell.", equals(aArray, 0, 1)); CPPUNIT_ASSERT_MESSAGE("Unexpected numeric cell.", equals(aArray, 1, 2)); CPPUNIT_ASSERT_MESSAGE("Unexpected numeric cell.", equals(aArray, 2, 3)); CPPUNIT_ASSERT_MESSAGE("Unexpected numeric cell.", equals(aArray, 3, 4)); CPPUNIT_ASSERT_MESSAGE("Unexpected numeric cell.", equals(aArray, 4, 5)); // This array spans over multiple blocks. aArray = m_pDoc->FetchVectorRefArray(ScAddress(4,0,0), 11); CPPUNIT_ASSERT_MESSAGE("Failed to fetch vector ref array.", aArray.isValid()); CPPUNIT_ASSERT_MESSAGE("Array should have both numeric and string arrays.", aArray.mpNumericArray && aArray.mpStringArray); CPPUNIT_ASSERT_MESSAGE("Unexpected numeric cell.", equals(aArray, 0, 1)); CPPUNIT_ASSERT_MESSAGE("Unexpected numeric cell.", equals(aArray, 1, 2)); CPPUNIT_ASSERT_MESSAGE("Unexpected numeric cell.", equals(aArray, 2, 3)); CPPUNIT_ASSERT_MESSAGE("Unexpected numeric cell.", equals(aArray, 3, 4)); CPPUNIT_ASSERT_MESSAGE("Unexpected numeric cell.", equals(aArray, 4, 5)); CPPUNIT_ASSERT_MESSAGE("Unexpected numeric cell.", equals(aArray, 5, 6)); CPPUNIT_ASSERT_MESSAGE("Unexpected numeric cell.", equals(aArray, 6, 7)); CPPUNIT_ASSERT_MESSAGE("This should be empty.", isEmpty(aArray, 7)); CPPUNIT_ASSERT_MESSAGE("Unexpected string cell.", equals(aArray, 8, "Andy")); CPPUNIT_ASSERT_MESSAGE("Unexpected string cell.", equals(aArray, 9, 123)); CPPUNIT_ASSERT_MESSAGE("This should be empty.", isEmpty(aArray, 10)); // Hit the cache but at a different start row. aArray = m_pDoc->FetchVectorRefArray(ScAddress(4,2,0), 3); CPPUNIT_ASSERT_MESSAGE("Failed to fetch vector ref array.", aArray.isValid()); CPPUNIT_ASSERT_MESSAGE("Array should at least have a numeric array.", aArray.mpNumericArray); CPPUNIT_ASSERT_MESSAGE("Unexpected numeric cell.", equals(aArray, 0, 3)); CPPUNIT_ASSERT_MESSAGE("Unexpected numeric cell.", equals(aArray, 1, 4)); CPPUNIT_ASSERT_MESSAGE("Unexpected numeric cell.", equals(aArray, 2, 5)); // Column F begins with empty rows at the top. m_pDoc->SetValue(ScAddress(5,2,0), 1.1); m_pDoc->SetValue(ScAddress(5,3,0), 1.2); m_pDoc->SetString(ScAddress(5,4,0), "=2*8"); m_pDoc->CalcAll(); aArray = m_pDoc->FetchVectorRefArray(ScAddress(5,2,0), 4); CPPUNIT_ASSERT_MESSAGE("Failed to fetch vector ref array.", aArray.isValid()); CPPUNIT_ASSERT_MESSAGE("Array should at least have a numeric array.", aArray.mpNumericArray); CPPUNIT_ASSERT_MESSAGE("Unexpected numeric cell.", equals(aArray, 0, 1.1)); CPPUNIT_ASSERT_MESSAGE("Unexpected numeric cell.", equals(aArray, 1, 1.2)); CPPUNIT_ASSERT_MESSAGE("Unexpected numeric cell.", equals(aArray, 2, 16)); CPPUNIT_ASSERT_MESSAGE("This should be empty.", isEmpty(aArray, 3)); aArray = m_pDoc->FetchVectorRefArray(ScAddress(5,0,0), 3); CPPUNIT_ASSERT_MESSAGE("Failed to fetch vector ref array.", aArray.isValid()); CPPUNIT_ASSERT_MESSAGE("Array should at least have a numeric array.", aArray.mpNumericArray); CPPUNIT_ASSERT_MESSAGE("This should be empty.", isEmpty(aArray, 0)); CPPUNIT_ASSERT_MESSAGE("This should be empty.", isEmpty(aArray, 1)); CPPUNIT_ASSERT_MESSAGE("Unexpected numeric cell.", equals(aArray, 2, 1.1)); aArray = m_pDoc->FetchVectorRefArray(ScAddress(5,0,0), 10); CPPUNIT_ASSERT_MESSAGE("Failed to fetch vector ref array.", aArray.isValid()); CPPUNIT_ASSERT_MESSAGE("Array should at least have a numeric array.", aArray.mpNumericArray); CPPUNIT_ASSERT_MESSAGE("This should be empty.", isEmpty(aArray, 0)); CPPUNIT_ASSERT_MESSAGE("This should be empty.", isEmpty(aArray, 1)); CPPUNIT_ASSERT_MESSAGE("Unexpected numeric cell.", equals(aArray, 2, 1.1)); CPPUNIT_ASSERT_MESSAGE("Unexpected numeric cell.", equals(aArray, 3, 1.2)); CPPUNIT_ASSERT_MESSAGE("Unexpected numeric cell.", equals(aArray, 4, 16)); CPPUNIT_ASSERT_MESSAGE("This should be empty.", isEmpty(aArray, 5)); CPPUNIT_ASSERT_MESSAGE("This should be empty.", isEmpty(aArray, 6)); CPPUNIT_ASSERT_MESSAGE("This should be empty.", isEmpty(aArray, 7)); CPPUNIT_ASSERT_MESSAGE("This should be empty.", isEmpty(aArray, 8)); CPPUNIT_ASSERT_MESSAGE("This should be empty.", isEmpty(aArray, 9)); // Get the array for F3:F4. This array should only consist of numeric array. aArray = m_pDoc->FetchVectorRefArray(ScAddress(5,2,0), 3); CPPUNIT_ASSERT_MESSAGE("Failed to fetch vector ref array.", aArray.isValid()); CPPUNIT_ASSERT_MESSAGE("Array should have a numeric array.", aArray.mpNumericArray); CPPUNIT_ASSERT_MESSAGE("Array should NOT have a string array.", !aArray.mpStringArray); // Column G consists only of strings. m_pDoc->SetString(ScAddress(6,0,0), "Title"); m_pDoc->SetString(ScAddress(6,1,0), "foo"); m_pDoc->SetString(ScAddress(6,2,0), "bar"); m_pDoc->SetString(ScAddress(6,3,0), "foo"); m_pDoc->SetString(ScAddress(6,4,0), "baz"); m_pDoc->SetString(ScAddress(6,5,0), "quack"); m_pDoc->SetString(ScAddress(6,6,0), "beep"); m_pDoc->SetString(ScAddress(6,7,0), "kerker"); aArray = m_pDoc->FetchVectorRefArray(ScAddress(6,1,0), 4); // G2:G5 CPPUNIT_ASSERT_MESSAGE("Failed to fetch vector ref array.", aArray.isValid()); CPPUNIT_ASSERT_MESSAGE("Array should NOT have a numeric array.", !aArray.mpNumericArray); CPPUNIT_ASSERT_MESSAGE("Array should have a string array.", aArray.mpStringArray); CPPUNIT_ASSERT_MESSAGE("Unexpected string cell.", equals(aArray, 0, "foo")); CPPUNIT_ASSERT_MESSAGE("Unexpected string cell.", equals(aArray, 1, "bar")); CPPUNIT_ASSERT_MESSAGE("Unexpected string cell.", equals(aArray, 2, "foo")); CPPUNIT_ASSERT_MESSAGE("Unexpected string cell.", equals(aArray, 3, "baz")); aArray = m_pDoc->FetchVectorRefArray(ScAddress(6,2,0), 4); // G3:G6 CPPUNIT_ASSERT_MESSAGE("Failed to fetch vector ref array.", aArray.isValid()); CPPUNIT_ASSERT_MESSAGE("Array should NOT have a numeric array.", !aArray.mpNumericArray); CPPUNIT_ASSERT_MESSAGE("Array should have a string array.", aArray.mpStringArray); CPPUNIT_ASSERT_MESSAGE("Unexpected string cell.", equals(aArray, 0, "bar")); CPPUNIT_ASSERT_MESSAGE("Unexpected string cell.", equals(aArray, 1, "foo")); CPPUNIT_ASSERT_MESSAGE("Unexpected string cell.", equals(aArray, 2, "baz")); CPPUNIT_ASSERT_MESSAGE("Unexpected string cell.", equals(aArray, 3, "quack")); // Column H starts with formula cells. for (SCROW i = 0; i < 10; ++i) m_pDoc->SetString(ScAddress(7,i,0), "=ROW()"); m_pDoc->CalcAll(); aArray = m_pDoc->FetchVectorRefArray(ScAddress(7,3,0), 3); // H4:H6 CPPUNIT_ASSERT_MESSAGE("Failed to fetch vector ref array.", aArray.isValid()); CPPUNIT_ASSERT_MESSAGE("Array should have a numeric array.", aArray.mpNumericArray); CPPUNIT_ASSERT_MESSAGE("Array should NOT have a string array.", !aArray.mpStringArray); CPPUNIT_ASSERT_MESSAGE("Unexpected string cell.", equals(aArray, 0, 4.0)); CPPUNIT_ASSERT_MESSAGE("Unexpected string cell.", equals(aArray, 1, 5.0)); CPPUNIT_ASSERT_MESSAGE("Unexpected string cell.", equals(aArray, 2, 6.0)); aArray = m_pDoc->FetchVectorRefArray(ScAddress(7,4,0), 10); // H5:H15 CPPUNIT_ASSERT_MESSAGE("Failed to fetch vector ref array.", aArray.isValid()); CPPUNIT_ASSERT_MESSAGE("Array should have a numeric array.", aArray.mpNumericArray); CPPUNIT_ASSERT_MESSAGE("Array should NOT have a string array.", !aArray.mpStringArray); CPPUNIT_ASSERT_MESSAGE("Unexpected string cell.", equals(aArray, 0, 5.0)); // Clear everything and start over. clearRange(m_pDoc, ScRange(0,0,0,m_pDoc->MaxCol(),m_pDoc->MaxRow(),0)); m_pDoc->PrepareFormulaCalc(); // Totally empty range in a totally empty column (Column A). aArray = m_pDoc->FetchVectorRefArray(ScAddress(0,0,0), 3); // A1:A3 CPPUNIT_ASSERT_MESSAGE("Array should have a numeric array.", aArray.mpNumericArray); CPPUNIT_ASSERT_MESSAGE("Array should NOT have a string array.", !aArray.mpStringArray); CPPUNIT_ASSERT(rtl::math::isNan(aArray.mpNumericArray[0])); CPPUNIT_ASSERT(rtl::math::isNan(aArray.mpNumericArray[1])); CPPUNIT_ASSERT(rtl::math::isNan(aArray.mpNumericArray[2])); // Totally empty range in a non-empty column (Column B). m_pDoc->SetString(ScAddress(1,10,0), "Some text"); // B11 aArray = m_pDoc->FetchVectorRefArray(ScAddress(1,0,0), 3); // B1:B3 CPPUNIT_ASSERT_MESSAGE("Array should have a numeric array.", aArray.mpNumericArray); CPPUNIT_ASSERT_MESSAGE("Array should NOT have a string array.", !aArray.mpStringArray); CPPUNIT_ASSERT(rtl::math::isNan(aArray.mpNumericArray[0])); CPPUNIT_ASSERT(rtl::math::isNan(aArray.mpNumericArray[1])); CPPUNIT_ASSERT(rtl::math::isNan(aArray.mpNumericArray[2])); aArray = m_pDoc->FetchVectorRefArray(ScAddress(1,12,0), 3); // B13:B15 CPPUNIT_ASSERT_MESSAGE("Array should have a numeric array.", aArray.mpNumericArray); CPPUNIT_ASSERT_MESSAGE("Array should NOT have a string array.", !aArray.mpStringArray); CPPUNIT_ASSERT(rtl::math::isNan(aArray.mpNumericArray[0])); CPPUNIT_ASSERT(rtl::math::isNan(aArray.mpNumericArray[1])); CPPUNIT_ASSERT(rtl::math::isNan(aArray.mpNumericArray[2])); // These values come from a cache because of the call above. aArray = m_pDoc->FetchVectorRefArray(ScAddress(1,1,0), 3); // B2:B4 CPPUNIT_ASSERT_MESSAGE("Array should have a numeric array.", aArray.mpNumericArray); CPPUNIT_ASSERT_MESSAGE("Array should NOT have a string array.", !aArray.mpStringArray); CPPUNIT_ASSERT(rtl::math::isNan(aArray.mpNumericArray[0])); CPPUNIT_ASSERT(rtl::math::isNan(aArray.mpNumericArray[1])); CPPUNIT_ASSERT(rtl::math::isNan(aArray.mpNumericArray[2])); // The column begins with a string header at row 1 (Column C). m_pDoc->SetString(ScAddress(2,0,0), "MyHeader"); for (SCROW i = 1; i <= 9; ++i) // rows 2-10 are numeric. m_pDoc->SetValue(ScAddress(2,i,0), i); aArray = m_pDoc->FetchVectorRefArray(ScAddress(2,1,0), 9); // C2:C10 CPPUNIT_ASSERT_MESSAGE("Array should have a numeric array.", aArray.mpNumericArray); CPPUNIT_ASSERT_MESSAGE("Array should NOT have a string array.", !aArray.mpStringArray); for (size_t i = 0; i < 9; ++i) CPPUNIT_ASSERT_EQUAL(double(i+1), aArray.mpNumericArray[i]); // The column begins with a number, followed by a string then followed by // a block of numbers (Column D). m_pDoc->SetValue(ScAddress(3,0,0), 0.0); m_pDoc->SetString(ScAddress(3,1,0), "Some string"); for (SCROW i = 2; i <= 9; ++i) // rows 3-10 are numeric. m_pDoc->SetValue(ScAddress(3,i,0), i); aArray = m_pDoc->FetchVectorRefArray(ScAddress(3,2,0), 8); // D3:D10 CPPUNIT_ASSERT_MESSAGE("Array should have a numeric array.", aArray.mpNumericArray); CPPUNIT_ASSERT_MESSAGE("Array should NOT have a string array.", !aArray.mpStringArray); for (size_t i = 0; i < 8; ++i) CPPUNIT_ASSERT_EQUAL(double(i+2), aArray.mpNumericArray[i]); // The column begins with a formula, followed by a string then followed by // a block of numbers (Column E). m_pDoc->SetString(ScAddress(4,0,0), "=1*2"); m_pDoc->SetString(ScAddress(4,1,0), "Some string"); for (SCROW i = 2; i <= 9; ++i) // rows 3-10 are numeric. m_pDoc->SetValue(ScAddress(4,i,0), i*2); aArray = m_pDoc->FetchVectorRefArray(ScAddress(4,2,0), 8); // E3:E10 CPPUNIT_ASSERT_MESSAGE("Array should have a numeric array.", aArray.mpNumericArray); CPPUNIT_ASSERT_MESSAGE("Array should NOT have a string array.", !aArray.mpStringArray); for (size_t i = 0; i < 8; ++i) CPPUNIT_ASSERT_EQUAL(double((i+2)*2), aArray.mpNumericArray[i]); m_pDoc->DeleteTab(0); } void Test::testGroupConverter3D() { m_pDoc->InsertTab(0, "Test"); m_pDoc->InsertTab(1, "Test2"); m_pDoc->SetValue(1, 0, 0, 1.0); m_pDoc->SetValue(1, 0, 1, 2.0); for (SCROW nRow = 0; nRow < 200; ++nRow) { OUString aFormula = "=SUM(Test.B" + OUString::number(nRow+1) + ":Test2.B" + OUString::number(nRow+1) + ")"; m_pDoc->SetString(0, nRow, 0, aFormula); } double nVal = m_pDoc->GetValue(0, 0, 0); CPPUNIT_ASSERT_EQUAL(3.0, nVal); m_pDoc->DeleteTab(1); m_pDoc->DeleteTab(0); } void Test::testFormulaHashAndTag() { m_pDoc->InsertTab(0, "Test"); ScAddress aPos1(0,0,0), aPos2(1,0,0); // Test formula hashing. static const struct { const char* pFormula1; const char* pFormula2; bool bEqual; } aHashTests[] = { { "=1", "=2", false }, // different constants { "=SUM(1;2;3;4;5)", "=AVERAGE(1;2;3;4;5)", false }, // different functions { "=C2*3", "=D2*3", true }, // relative references { "=C2*3", "=D2*4", false }, // different constants { "=C2*4", "=D2*4", true }, // relative references { "=3*4*5", "=3*4*\"foo\"", false }, // numeric vs string constants { "=$C3/2", "=$C3/2", true }, // absolute column references { "=C$3/2", "=D$3/2", true }, // absolute row references { "=$E$30/2", "=$E$30/2", true }, // absolute references { "=X20", "=$X$20", false }, // absolute vs relative { "=X20", "=X$20", false }, // absolute vs relative { "=X20", "=$X20", false }, // absolute vs relative { "=X$20", "=$X20", false }, // column absolute vs row absolute // similar enough for merging ... { "=A1", "=B1", true }, { "=$A$1", "=$B$1", true }, { "=A1", "=C2", true }, { "=SUM(A1)", "=SUM(B1)", true }, { "=A1+3", "=B1+3", true }, { "=A1+7", "=B1+42", false }, }; for (size_t i = 0; i < SAL_N_ELEMENTS(aHashTests); ++i) { m_pDoc->SetString(aPos1, OUString::createFromAscii(aHashTests[i].pFormula1)); m_pDoc->SetString(aPos2, OUString::createFromAscii(aHashTests[i].pFormula2)); size_t nHashVal1 = m_pDoc->GetFormulaHash(aPos1); size_t nHashVal2 = m_pDoc->GetFormulaHash(aPos2); std::ostringstream os; os << "(expr1:" << aHashTests[i].pFormula1 << "; expr2:" << aHashTests[i].pFormula2 << ")"; if (aHashTests[i].bEqual) { os << " Error: these hashes should be equal." << endl; CPPUNIT_ASSERT_EQUAL_MESSAGE(os.str(), nHashVal1, nHashVal2); } else { os << " Error: these hashes should differ." << endl; CPPUNIT_ASSERT_MESSAGE(os.str(), nHashVal1 != nHashVal2); } aPos1.IncRow(); aPos2.IncRow(); } // Go back to row 1. aPos1.SetRow(0); aPos2.SetRow(0); // Test formula vectorization state. static const struct { const char* pFormula; ScFormulaVectorState const eState; } aVectorTests[] = { { "=SUM(1;2;3;4;5)", FormulaVectorEnabled }, { "=NOW()", FormulaVectorDisabled }, { "=AVERAGE(X1:Y200)", FormulaVectorCheckReference }, { "=MAX(X1:Y200;10;20)", FormulaVectorCheckReference }, { "=MIN(10;11;22)", FormulaVectorEnabled }, { "=H4", FormulaVectorCheckReference }, }; for (size_t i = 0; i < SAL_N_ELEMENTS(aVectorTests); ++i) { m_pDoc->SetString(aPos1, OUString::createFromAscii(aVectorTests[i].pFormula)); ScFormulaVectorState eState = m_pDoc->GetFormulaVectorState(aPos1); ScFormulaVectorState eReferenceState = aVectorTests[i].eState; if (eState != eReferenceState) { std::ostringstream os; os << "Unexpected vectorization state: expr: '" << aVectorTests[i].pFormula << "'"; CPPUNIT_ASSERT_MESSAGE(os.str(), false); } aPos1.IncRow(); } m_pDoc->DeleteTab(0); } void Test::testFormulaTokenEquality() { struct FormulaTokenEqualityTest { const char* mpFormula1; const char* mpFormula2; bool const mbEqual; }; static const FormulaTokenEqualityTest aTests[] = { { "R1C2", "R1C2", true }, { "R1C2", "R1C3", false }, { "R1C2", "R2C2", false }, { "RC2", "RC[1]", false }, { "R1C2:R10C2", "R1C2:R10C2", true }, { "R1C2:R10C2", "R1C2:R11C2", false }, { "1", "2", false }, { "RC[1]+1.2", "RC[1]+1.2", true }, { "RC[1]*0.2", "RC[1]*0.5", false }, { "\"Test1\"", "\"Test2\"", false }, { "\"Test\"", "\"Test\"", true }, { "CONCATENATE(\"Test1\")", "CONCATENATE(\"Test1\")", true }, { "CONCATENATE(\"Test1\")", "CONCATENATE(\"Test2\")", false }, }; formula::FormulaGrammar::Grammar eGram = formula::FormulaGrammar::GRAM_ENGLISH_XL_R1C1; for (size_t i = 0; i < SAL_N_ELEMENTS(aTests); ++i) { ScFormulaCell aCell1(m_pDoc, ScAddress(), OUString::createFromAscii(aTests[i].mpFormula1), eGram); ScFormulaCell aCell2(m_pDoc, ScAddress(), OUString::createFromAscii(aTests[i].mpFormula2), eGram); ScFormulaCell::CompareState eComp = aCell1.CompareByTokenArray(aCell2); if (aTests[i].mbEqual) { if (eComp == ScFormulaCell::NotEqual) { std::ostringstream os; os << "These two formulas should be evaluated equal: '" << aTests[i].mpFormula1 << "' vs '" << aTests[i].mpFormula2 << "'" << endl; CPPUNIT_FAIL(os.str()); } } else { if (eComp != ScFormulaCell::NotEqual) { std::ostringstream os; os << "These two formulas should be evaluated non-equal: '" << aTests[i].mpFormula1 << "' vs '" << aTests[i].mpFormula2 << "'" << endl; CPPUNIT_FAIL(os.str()); } } } } void Test::testFormulaRefData() { ScAddress aAddr(4,5,3), aPos(2,2,2); ScSingleRefData aRef; aRef.InitAddress(aAddr); CPPUNIT_ASSERT_MESSAGE("Wrong ref data state.", !aRef.IsRowRel() && !aRef.IsColRel() && !aRef.IsTabRel()); CPPUNIT_ASSERT_EQUAL(SCCOL(4), aRef.Col()); CPPUNIT_ASSERT_EQUAL(SCROW(5), aRef.Row()); CPPUNIT_ASSERT_EQUAL(SCTAB(3), aRef.Tab()); aRef.SetRowRel(true); aRef.SetColRel(true); aRef.SetTabRel(true); aRef.SetAddress(aAddr, aPos); CPPUNIT_ASSERT_EQUAL(SCCOL(2), aRef.Col()); CPPUNIT_ASSERT_EQUAL(SCROW(3), aRef.Row()); CPPUNIT_ASSERT_EQUAL(SCTAB(1), aRef.Tab()); // Test extension of range reference. ScComplexRefData aDoubleRef; aDoubleRef.InitRange(ScRange(2,2,0,4,4,0)); aRef.InitAddress(ScAddress(6,5,0)); aDoubleRef.Extend(aRef, ScAddress()); ScRange aTest = aDoubleRef.toAbs(ScAddress()); CPPUNIT_ASSERT_EQUAL_MESSAGE("Wrong start position of extended range.", ScAddress(2,2,0), aTest.aStart); CPPUNIT_ASSERT_EQUAL_MESSAGE("Wrong end position of extended range.", ScAddress(6,5,0), aTest.aEnd); ScComplexRefData aDoubleRef2; aDoubleRef2.InitRangeRel(ScRange(1,2,0,8,6,0), ScAddress(5,5,0)); aDoubleRef.Extend(aDoubleRef2, ScAddress(5,5,0)); aTest = aDoubleRef.toAbs(ScAddress(5,5,0)); CPPUNIT_ASSERT_EQUAL_MESSAGE("Wrong start position of extended range.", ScAddress(1,2,0), aTest.aStart); CPPUNIT_ASSERT_EQUAL_MESSAGE("Wrong end position of extended range.", ScAddress(8,6,0), aTest.aEnd); } void Test::testFormulaCompiler() { static const struct { const char* pInput; FormulaGrammar::Grammar eInputGram; const char* pOutput; FormulaGrammar::Grammar eOutputGram; } aTests[] = { { "=B1-$C2+D$3-$E$4", FormulaGrammar::GRAM_NATIVE, "[.B1]-[.$C2]+[.D$3]-[.$E$4]", FormulaGrammar::GRAM_ODFF }, { "=B1-$C2+D$3-$E$4", FormulaGrammar::GRAM_NATIVE, "B1-$C2+D$3-$E$4", FormulaGrammar::GRAM_NATIVE }, { "=B1-$C2+D$3-$E$4", FormulaGrammar::GRAM_NATIVE, "B1-$C2+D$3-$E$4", FormulaGrammar::GRAM_NATIVE_XL_A1 }, { "=B1-$C2+D$3-$E$4", FormulaGrammar::GRAM_NATIVE, "RC[1]-R[1]C3+R3C[3]-R4C5", FormulaGrammar::GRAM_NATIVE_XL_R1C1 }, }; for (size_t i = 0; i < SAL_N_ELEMENTS(aTests); ++i) { std::unique_ptr pArray = compileFormula(m_pDoc, OUString::createFromAscii(aTests[i].pInput), aTests[i].eInputGram); CPPUNIT_ASSERT_MESSAGE("Token array shouldn't be NULL!", pArray); OUString aFormula = toString(*m_pDoc, ScAddress(), *pArray, aTests[i].eOutputGram); CPPUNIT_ASSERT_EQUAL(OUString::createFromAscii(aTests[i].pOutput), aFormula); } } void Test::testFormulaCompilerJumpReordering() { struct TokenCheck { OpCode const meOp; StackVar const meType; }; // Set separators first. ScFormulaOptions aOptions; aOptions.SetFormulaSepArg(";"); aOptions.SetFormulaSepArrayCol(";"); aOptions.SetFormulaSepArrayRow("|"); getDocShell().SetFormulaOptions(aOptions); { OUString const aInput("=IF(B1;12;\"text\")"); // Compile formula string first. std::unique_ptr pCode(compileFormula(m_pDoc, aInput)); CPPUNIT_ASSERT(pCode); // Then generate RPN tokens. ScCompiler aCompRPN(m_pDoc, ScAddress(), *pCode, FormulaGrammar::GRAM_NATIVE); aCompRPN.CompileTokenArray(); // RPN tokens should be ordered: B1, ocIf, C1, ocSep, D1, ocClose. static const TokenCheck aCheckRPN[] = { { ocPush, svSingleRef }, { ocIf, svUnknown }, // type is context dependent, don't test it { ocPush, svDouble }, { ocSep, svSep }, { ocPush, svString }, { ocClose, svSep }, }; sal_uInt16 nLen = pCode->GetCodeLen(); CPPUNIT_ASSERT_EQUAL_MESSAGE("Wrong RPN token count.", static_cast(SAL_N_ELEMENTS(aCheckRPN)), nLen); FormulaToken** ppTokens = pCode->GetCode(); for (sal_uInt16 i = 0; i < nLen; ++i) { const FormulaToken* p = ppTokens[i]; CPPUNIT_ASSERT_EQUAL(aCheckRPN[i].meOp, p->GetOpCode()); if (aCheckRPN[i].meOp != ocIf ) CPPUNIT_ASSERT_EQUAL(static_cast(aCheckRPN[i].meType), static_cast(p->GetType())); } // Generate RPN tokens again, but this time no jump command reordering. pCode->DelRPN(); ScCompiler aCompRPN2(m_pDoc, ScAddress(), *pCode, FormulaGrammar::GRAM_NATIVE); aCompRPN2.EnableJumpCommandReorder(false); aCompRPN2.CompileTokenArray(); static const TokenCheck aCheckRPN2[] = { { ocPush, svSingleRef }, { ocPush, svDouble }, { ocPush, svString }, { ocIf, svUnknown }, // type is context dependent, don't test it }; nLen = pCode->GetCodeLen(); CPPUNIT_ASSERT_EQUAL_MESSAGE("Wrong RPN token count.", static_cast(SAL_N_ELEMENTS(aCheckRPN2)), nLen); ppTokens = pCode->GetCode(); for (sal_uInt16 i = 0; i < nLen; ++i) { const FormulaToken* p = ppTokens[i]; CPPUNIT_ASSERT_EQUAL(aCheckRPN2[i].meOp, p->GetOpCode()); if (aCheckRPN[i].meOp == ocPush) CPPUNIT_ASSERT_EQUAL(static_cast(aCheckRPN2[i].meType), static_cast(p->GetType())); } } } void Test::testFormulaCompilerImplicitIntersection2Param() { struct TestCaseFormula { OUString const aFormula; ScAddress const aCellAddress; ScRange const aSumRange; bool const bStartColRel; // SumRange-StartCol bool const bEndColRel; // SumRange-EndCol }; m_pDoc->InsertTab(0, "Formula"); sc::AutoCalcSwitch aACSwitch(*m_pDoc, true); // turn auto calc on. { TestCaseFormula aTestCases[] = { // Formula, FormulaCellAddress, SumRange with Implicit Intersection // Sumrange is single cell, address is abs { OUString("=SUMIF($B$2:$B$10;F2;$D$5)"), ScAddress(7, 5, 0), ScRange( ScAddress(3, 4, 0), ScAddress(3, 12, 0) ), false, false }, // Sumrange is single cell, address is relative { OUString("=SUMIF($B$2:$B$10;F2;D5)"), ScAddress(7, 5, 0), ScRange( ScAddress(3, 4, 0), ScAddress(3, 12, 0) ), true, true }, // Baserange(abs,abs), Sumrange(abs,abs) { OUString("=SUMIF($B$2:$B$10;F2;$D$5:$D$10)"), ScAddress(7, 5, 0), ScRange( ScAddress(3, 4, 0), ScAddress(3, 12, 0) ), false, false }, // Baserange(abs,rel), Sumrange(abs,abs) { OUString("=SUMIF($B$2:B10;F2;$D$5:$D$10)"), ScAddress(7, 5, 0), ScRange( ScAddress(3, 4, 0), ScAddress(3, 12, 0) ), false, false }, // Baserange(rel,abs), Sumrange(abs,abs) { OUString("=SUMIF(B2:$B$10;F2;$D$5:$D$10)"), ScAddress(7, 5, 0), ScRange( ScAddress(3, 4, 0), ScAddress(3, 12, 0) ), false, false }, // Baserange(rel,rel), Sumrange(abs,abs) { OUString("=SUMIF(B2:B10;F2;$D$5:$D$10)"), ScAddress(7, 5, 0), ScRange( ScAddress(3, 4, 0), ScAddress(3, 12, 0) ), false, false }, // Baserange(abs,abs), Sumrange(abs,rel) { OUString("=SUMIF($B$2:$B$10;F2;$D$5:D10)"), ScAddress(7, 5, 0), ScRange( ScAddress(3, 4, 0), ScAddress(3, 12, 0) ), false, true }, // Baserange(abs,abs), Sumrange(rel,abs) { OUString("=SUMIF($B$2:$B$10;F2;D5:$D$10)"), ScAddress(7, 5, 0), ScRange( ScAddress(3, 4, 0), ScAddress(3, 12, 0) ), true, false }, // Baserange(abs,abs), Sumrange(rel,rel) { OUString("=SUMIF($B$2:$B$10;F2;D5:D10)"), ScAddress(7, 5, 0), ScRange( ScAddress(3, 4, 0), ScAddress(3, 12, 0) ), true, true } }; for (const auto& rCase : aTestCases) { m_pDoc->SetString(rCase.aCellAddress, rCase.aFormula); const ScFormulaCell* pCell = m_pDoc->GetFormulaCell(rCase.aCellAddress); const ScTokenArray* pCode = pCell->GetCode(); CPPUNIT_ASSERT(pCode); sal_uInt16 nLen = pCode->GetCodeLen(); CPPUNIT_ASSERT_EQUAL_MESSAGE("Wrong RPN token count.", static_cast(4), nLen); FormulaToken** ppTokens = pCode->GetCode(); CPPUNIT_ASSERT_EQUAL_MESSAGE("Wrong type of token(first argument to SUMIF)", svDoubleRef, ppTokens[0]->GetType()); CPPUNIT_ASSERT_EQUAL_MESSAGE("Wrong type of token(third argument to SUMIF)", svDoubleRef, ppTokens[2]->GetType()); ScComplexRefData aSumRangeData = *ppTokens[2]->GetDoubleRef(); ScRange aSumRange = aSumRangeData.toAbs(rCase.aCellAddress); CPPUNIT_ASSERT_EQUAL_MESSAGE("Wrong sum-range in RPN array", rCase.aSumRange, aSumRange); CPPUNIT_ASSERT_EQUAL_MESSAGE("Wrong IsRel type for start column address in sum-range", rCase.bStartColRel, aSumRangeData.Ref1.IsColRel()); CPPUNIT_ASSERT_EQUAL_MESSAGE("Wrong IsRel type for end column address in sum-range", rCase.bEndColRel, aSumRangeData.Ref2.IsColRel()); } } } void Test::testFormulaCompilerImplicitIntersection1ParamNoChange() { struct TestCaseFormulaNoChange { OUString const aFormula; ScAddress const aCellAddress; bool const bMatrixFormula; bool const bForcedArray; }; m_pDoc->InsertTab(0, "Formula"); sc::AutoCalcSwitch aACSwitch(*m_pDoc, true); // turn auto calc on. { ScAddress aStartAddr(4, 5, 0); TestCaseFormulaNoChange aCasesNoChange[] = { { OUString("=COS(A$2:A$100)"), // No change because of abs col ref. aStartAddr, false, false }, { OUString("=COS($A7:$A100)"), // No intersection aStartAddr, false, false }, { OUString("=COS($A5:$C7)"), // No intersection 2-D range aStartAddr, false, false }, { OUString("=SUMPRODUCT(COS(A6:A10))"), // COS() in forced array mode aStartAddr, false, true }, { OUString("=COS(A6:A10)"), // Matrix formula aStartAddr, true, false } }; for (const auto& rCase : aCasesNoChange) { if (rCase.bMatrixFormula) { ScMarkData aMark(MAXROW, MAXCOL); aMark.SelectOneTable(0); SCCOL nColStart = rCase.aCellAddress.Col(); SCROW nRowStart = rCase.aCellAddress.Row(); m_pDoc->InsertMatrixFormula(nColStart, nRowStart, nColStart, nRowStart + 4, aMark, rCase.aFormula); } else m_pDoc->SetString(rCase.aCellAddress, rCase.aFormula); const ScFormulaCell* pCell = m_pDoc->GetFormulaCell(rCase.aCellAddress); const ScTokenArray* pCode = pCell->GetCode(); CPPUNIT_ASSERT(pCode); sal_uInt16 nRPNLen = pCode->GetCodeLen(); sal_uInt16 nRawLen = pCode->GetLen(); sal_uInt16 nRawArgPos; if (rCase.bForcedArray) { nRawArgPos = 4; CPPUNIT_ASSERT_EQUAL_MESSAGE("Wrong raw token count.", static_cast(7), nRawLen); CPPUNIT_ASSERT_EQUAL_MESSAGE("Wrong RPN token count.", static_cast(3), nRPNLen); } else { nRawArgPos = 2; CPPUNIT_ASSERT_EQUAL_MESSAGE("Wrong raw token count.", static_cast(4), nRawLen); CPPUNIT_ASSERT_EQUAL_MESSAGE("Wrong RPN token count.", static_cast(2), nRPNLen); } FormulaToken** ppRawTokens = pCode->GetArray(); FormulaToken** ppRPNTokens = pCode->GetCode(); CPPUNIT_ASSERT_EQUAL_MESSAGE("Wrong type of raw token(argument to COS)", svDoubleRef, ppRawTokens[nRawArgPos]->GetType()); CPPUNIT_ASSERT_EQUAL_MESSAGE("Wrong type of RPN token(argument to COS)", svDoubleRef, ppRPNTokens[0]->GetType()); ScComplexRefData aArgRangeRaw = *ppRawTokens[nRawArgPos]->GetDoubleRef(); ScComplexRefData aArgRangeRPN = *ppRPNTokens[0]->GetDoubleRef(); bool bRawMatchRPNToken(aArgRangeRaw == aArgRangeRPN); CPPUNIT_ASSERT_MESSAGE("raw arg token and RPN arg token contents do not match", bRawMatchRPNToken); } } } void Test::testFormulaCompilerImplicitIntersection1ParamWithChange() { struct TestCaseFormula { OUString const aFormula; ScAddress const aCellAddress; ScAddress const aArgAddr; }; m_pDoc->InsertTab(0, "Formula"); m_pDoc->InsertTab(1, "Formula1"); sc::AutoCalcSwitch aACSwitch(*m_pDoc, true); // turn auto calc on. { ScAddress aStartAddr(10, 5, 0); TestCaseFormula aCasesWithChange[] = { { OUString("=COS($A6:$A100)"), // Corner case with intersection aStartAddr, ScAddress(0, 5, 0) }, { OUString("=COS($A2:$A6)"), // Corner case with intersection aStartAddr, ScAddress(0, 5, 0) }, { OUString("=COS($A2:$A100)"), // Typical 1D case aStartAddr, ScAddress(0, 5, 0) }, { OUString("=COS($Formula.$A1:$C3)"), // 2D corner case ScAddress(0, 0, 1), // Formula in sheet 1 ScAddress(0, 0, 0) }, { OUString("=COS($Formula.$A1:$C3)"), // 2D corner case ScAddress(0, 2, 1), // Formula in sheet 1 ScAddress(0, 2, 0) }, { OUString("=COS($Formula.$A1:$C3)"), // 2D corner case ScAddress(2, 0, 1), // Formula in sheet 1 ScAddress(2, 0, 0) }, { OUString("=COS($Formula.$A1:$C3)"), // 2D corner case ScAddress(2, 2, 1), // Formula in sheet 1 ScAddress(2, 2, 0) }, { OUString("=COS($Formula.$A1:$C3)"), // Typical 2D case ScAddress(1, 1, 1), // Formula in sheet 1 ScAddress(1, 1, 0) } }; for (const auto& rCase : aCasesWithChange) { m_pDoc->SetString(rCase.aCellAddress, rCase.aFormula); const ScFormulaCell* pCell = m_pDoc->GetFormulaCell(rCase.aCellAddress); const ScTokenArray* pCode = pCell->GetCode(); CPPUNIT_ASSERT(pCode); sal_uInt16 nRPNLen = pCode->GetCodeLen(); CPPUNIT_ASSERT_EQUAL_MESSAGE("Wrong RPN token count.", static_cast(2), nRPNLen); FormulaToken** ppRPNTokens = pCode->GetCode(); CPPUNIT_ASSERT_EQUAL_MESSAGE("Wrong type of RPN token(argument to COS)", svSingleRef, ppRPNTokens[0]->GetType()); ScSingleRefData aArgAddrRPN = *ppRPNTokens[0]->GetSingleRef(); ScAddress aArgAddrActual = aArgAddrRPN.toAbs(rCase.aCellAddress); CPPUNIT_ASSERT_EQUAL_MESSAGE("Computed implicit intersection singleref is wrong", rCase.aArgAddr, aArgAddrActual); } } } void Test::testFormulaCompilerImplicitIntersection1NoGroup() { m_pDoc->InsertTab(0, "Formula"); sc::AutoCalcSwitch aACSwitch(*m_pDoc, true); // turn auto calc on. m_pDoc->SetString(ScAddress(1,2,0), "=COS(A1:A5)"); // B3 m_pDoc->SetString(ScAddress(1,3,0), "=COS(A1:A5)"); // B4 // Implicit intersection optimization in ScCompiler::HandleIIOpCode() internally changes // these to "=COS(A3)" and "=COS(A4)", but these shouldn't be merged into a formula group, // otherwise B4's formula would then be "=COS(A2:A6)". ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(1,2,0), "COS(A1:A5)", "Formula in B3 has changed."); ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(1,3,0), "COS(A1:A5)", "Formula in B4 has changed."); m_pDoc->DeleteTab(0); } void Test::testFormulaCompilerImplicitIntersectionOperators() { struct TestCase { OUString const formula[3]; double const result[3]; }; m_pDoc->InsertTab(0, "Test"); sc::AutoCalcSwitch aACSwitch(*m_pDoc, true); // turn auto calc on. m_pDoc->SetValue(2, 0, 0, 5); // C1 m_pDoc->SetValue(2, 1, 0, 4); // C2 m_pDoc->SetValue(2, 2, 0, 3); // C3 m_pDoc->SetValue(3, 0, 0, 1); // D1 m_pDoc->SetValue(3, 1, 0, 2); // D2 m_pDoc->SetValue(3, 2, 0, 3); // D3 TestCase tests[] = { { OUString("=C:C/D:D"), OUString("=C:C/D:D"), OUString("=C:C/D:D"), 5, 2, 1 }, { OUString("=C1:C2/D1:D2"), OUString("=C2:C3/D2:D3"), OUString("=C3:C4/D3:D4"), 5, 2, 1 } }; for (const TestCase& test : tests) { for(int i = 0; i < 2; ++i ) m_pDoc->SetString(ScAddress(4,i,0), test.formula[i]); // E1-3 for(int i = 0; i < 2; ++i ) CPPUNIT_ASSERT_EQUAL_MESSAGE(OUString( test.formula[i] + " result incorrect in row " + OUString::number(i+1)).toUtf8().getStr(), test.result[i], m_pDoc->GetValue(ScAddress(4,i,0))); } m_pDoc->DeleteTab(0); } void Test::testFormulaRefUpdate() { m_pDoc->InsertTab(0, "Formula"); sc::AutoCalcSwitch aACSwitch(*m_pDoc, true); // turn auto calc on. m_pDoc->SetValue(ScAddress(0,0,0), 2.0); // A1 m_pDoc->SetString(ScAddress(2,2,0), "=A1"); // C3 m_pDoc->SetString(ScAddress(2,3,0), "=$A$1"); // C4 ScAddress aPos(2,2,0); ASSERT_FORMULA_EQUAL(*m_pDoc, aPos, "A1", "Wrong formula in C3."); aPos = ScAddress(2,3,0); ASSERT_FORMULA_EQUAL(*m_pDoc, aPos, "$A$1", "Wrong formula in C4."); // Delete row 2 to push formula cells up (to C2:C3). m_pDoc->DeleteRow(ScRange(0,1,0,m_pDoc->MaxCol(),1,0)); aPos = ScAddress(2,1,0); ASSERT_FORMULA_EQUAL(*m_pDoc, aPos, "A1", "Wrong formula in C2."); aPos = ScAddress(2,2,0); ASSERT_FORMULA_EQUAL(*m_pDoc, aPos, "$A$1", "Wrong formula in C3."); // Insert one row at row 2 to move them back. m_pDoc->InsertRow(ScRange(0,1,0,m_pDoc->MaxCol(),1,0)); aPos = ScAddress(2,2,0); ASSERT_FORMULA_EQUAL(*m_pDoc, aPos, "A1", "Wrong formula in C3."); aPos = ScAddress(2,3,0); ASSERT_FORMULA_EQUAL(*m_pDoc, aPos, "$A$1", "Wrong formula in C4."); // Insert 2 rows at row 1 to shift all of A1 and C3:C4 down. m_pDoc->InsertRow(ScRange(0,0,0,m_pDoc->MaxCol(),1,0)); aPos = ScAddress(2,4,0); ASSERT_FORMULA_EQUAL(*m_pDoc, aPos, "A3", "Wrong formula in C5."); aPos = ScAddress(2,5,0); ASSERT_FORMULA_EQUAL(*m_pDoc, aPos, "$A$3", "Wrong formula in C6."); // Delete 2 rows at row 1 to shift them back. m_pDoc->DeleteRow(ScRange(0,0,0,m_pDoc->MaxCol(),1,0)); aPos = ScAddress(2,2,0); ASSERT_FORMULA_EQUAL(*m_pDoc, aPos, "A1", "Wrong formula in C3."); aPos = ScAddress(2,3,0); ASSERT_FORMULA_EQUAL(*m_pDoc, aPos, "$A$1", "Wrong formula in C4."); // Insert 3 columns at column B. to shift C3:C4 to F3:F4. m_pDoc->InsertCol(ScRange(1,0,0,3,m_pDoc->MaxRow(),0)); aPos = ScAddress(5,2,0); ASSERT_FORMULA_EQUAL(*m_pDoc, aPos, "A1", "Wrong formula in F3."); aPos = ScAddress(5,3,0); ASSERT_FORMULA_EQUAL(*m_pDoc, aPos, "$A$1", "Wrong formula in F4."); // Delete columns B:D to shift them back. m_pDoc->DeleteCol(ScRange(1,0,0,3,m_pDoc->MaxRow(),0)); aPos = ScAddress(2,2,0); ASSERT_FORMULA_EQUAL(*m_pDoc, aPos, "A1", "Wrong formula in C3."); aPos = ScAddress(2,3,0); ASSERT_FORMULA_EQUAL(*m_pDoc, aPos, "$A$1", "Wrong formula in C4."); // Insert cells over A1:A3 to only shift A1 down to A4. m_pDoc->InsertRow(ScRange(0,0,0,0,2,0)); aPos = ScAddress(2,2,0); ASSERT_FORMULA_EQUAL(*m_pDoc, aPos, "A4", "Wrong formula in C3."); aPos = ScAddress(2,3,0); ASSERT_FORMULA_EQUAL(*m_pDoc, aPos, "$A$4", "Wrong formula in C4."); // .. and back. m_pDoc->DeleteRow(ScRange(0,0,0,0,2,0)); aPos = ScAddress(2,2,0); ASSERT_FORMULA_EQUAL(*m_pDoc, aPos, "A1", "Wrong formula in C3."); aPos = ScAddress(2,3,0); ASSERT_FORMULA_EQUAL(*m_pDoc, aPos, "$A$1", "Wrong formula in C4."); // Delete row 1 which will delete the value cell (A1). m_pDoc->DeleteRow(ScRange(0,0,0,m_pDoc->MaxCol(),0,0)); aPos = ScAddress(2,1,0); ScFormulaCell* pFC = m_pDoc->GetFormulaCell(aPos); CPPUNIT_ASSERT_MESSAGE("This should be a formula cell.", pFC); CPPUNIT_ASSERT_EQUAL(int(FormulaError::NoRef), static_cast(pFC->GetErrCode())); aPos = ScAddress(2,2,0); pFC = m_pDoc->GetFormulaCell(aPos); CPPUNIT_ASSERT_MESSAGE("This should be a formula cell.", pFC); CPPUNIT_ASSERT_EQUAL(int(FormulaError::NoRef), static_cast(pFC->GetErrCode())); // Clear all and start over. clearRange(m_pDoc, ScRange(0,0,0,10,10,0)); // Test range updates // Fill B2:C3 with values. m_pDoc->SetValue(ScAddress(1,1,0), 1); m_pDoc->SetValue(ScAddress(1,2,0), 2); m_pDoc->SetValue(ScAddress(2,1,0), 3); m_pDoc->SetValue(ScAddress(2,2,0), 4); m_pDoc->SetString(ScAddress(0,5,0), "=SUM(B2:C3)"); m_pDoc->SetString(ScAddress(0,6,0), "=SUM($B$2:$C$3)"); aPos = ScAddress(0,5,0); ASSERT_FORMULA_EQUAL(*m_pDoc, aPos, "SUM(B2:C3)", "Wrong formula in A6."); aPos = ScAddress(0,6,0); ASSERT_FORMULA_EQUAL(*m_pDoc, aPos, "SUM($B$2:$C$3)", "Wrong formula in A7."); // Insert a row at row 1. m_pDoc->InsertRow(ScRange(0,0,0,m_pDoc->MaxCol(),0,0)); aPos = ScAddress(0,6,0); ASSERT_FORMULA_EQUAL(*m_pDoc, aPos, "SUM(B3:C4)", "Wrong formula in A7."); aPos = ScAddress(0,7,0); ASSERT_FORMULA_EQUAL(*m_pDoc, aPos, "SUM($B$3:$C$4)", "Wrong formula in A8."); // ... and back. m_pDoc->DeleteRow(ScRange(0,0,0,m_pDoc->MaxCol(),0,0)); aPos = ScAddress(0,5,0); ASSERT_FORMULA_EQUAL(*m_pDoc, aPos, "SUM(B2:C3)", "Wrong formula in A6."); aPos = ScAddress(0,6,0); ASSERT_FORMULA_EQUAL(*m_pDoc, aPos, "SUM($B$2:$C$3)", "Wrong formula in A7."); // Insert columns B:C to shift only the value range. m_pDoc->InsertCol(ScRange(1,0,0,2,m_pDoc->MaxRow(),0)); aPos = ScAddress(0,5,0); ASSERT_FORMULA_EQUAL(*m_pDoc, aPos, "SUM(D2:E3)", "Wrong formula in A6."); aPos = ScAddress(0,6,0); ASSERT_FORMULA_EQUAL(*m_pDoc, aPos, "SUM($D$2:$E$3)", "Wrong formula in A7."); // ... and back. m_pDoc->DeleteCol(ScRange(1,0,0,2,m_pDoc->MaxRow(),0)); aPos = ScAddress(0,5,0); ASSERT_FORMULA_EQUAL(*m_pDoc, aPos, "SUM(B2:C3)", "Wrong formula in A6."); aPos = ScAddress(0,6,0); ASSERT_FORMULA_EQUAL(*m_pDoc, aPos, "SUM($B$2:$C$3)", "Wrong formula in A7."); // Insert rows 5:6 to shift the formula cells only. m_pDoc->InsertRow(ScRange(0,4,0,m_pDoc->MaxCol(),5,0)); aPos = ScAddress(0,7,0); ASSERT_FORMULA_EQUAL(*m_pDoc, aPos, "SUM(B2:C3)", "Wrong formula in A8."); aPos = ScAddress(0,8,0); ASSERT_FORMULA_EQUAL(*m_pDoc, aPos, "SUM($B$2:$C$3)", "Wrong formula in A9."); // ... and back. m_pDoc->DeleteRow(ScRange(0,4,0,m_pDoc->MaxCol(),5,0)); aPos = ScAddress(0,5,0); ASSERT_FORMULA_EQUAL(*m_pDoc, aPos, "SUM(B2:C3)", "Wrong formula in A6."); aPos = ScAddress(0,6,0); ASSERT_FORMULA_EQUAL(*m_pDoc, aPos, "SUM($B$2:$C$3)", "Wrong formula in A7."); // Check the values of the formula cells in A6:A7. CPPUNIT_ASSERT_EQUAL(10.0, m_pDoc->GetValue(ScAddress(0,5,0))); CPPUNIT_ASSERT_EQUAL(10.0, m_pDoc->GetValue(ScAddress(0,6,0))); // Insert cells over B1:B2 to partially shift value range. m_pDoc->InsertRow(ScRange(1,0,0,1,1,0)); // Check the values of the formula cells in A6:A7 again. CPPUNIT_ASSERT_EQUAL(7.0, m_pDoc->GetValue(ScAddress(0,5,0))); CPPUNIT_ASSERT_EQUAL(7.0, m_pDoc->GetValue(ScAddress(0,6,0))); // ... and shift them back. m_pDoc->DeleteRow(ScRange(1,0,0,1,1,0)); // The formula cell results should be back too. CPPUNIT_ASSERT_EQUAL(10.0, m_pDoc->GetValue(ScAddress(0,5,0))); CPPUNIT_ASSERT_EQUAL(10.0, m_pDoc->GetValue(ScAddress(0,6,0))); // Delete rows 2:3 to completely remove the referenced range. m_pDoc->DeleteRow(ScRange(0,1,0,m_pDoc->MaxCol(),2,0)); // Both A4 and A5 should show #REF! errors. pFC = m_pDoc->GetFormulaCell(ScAddress(0,3,0)); CPPUNIT_ASSERT_MESSAGE("This should be a formula cell.", pFC); CPPUNIT_ASSERT_EQUAL(int(FormulaError::NoRef), static_cast(pFC->GetErrCode())); pFC = m_pDoc->GetFormulaCell(ScAddress(0,4,0)); CPPUNIT_ASSERT_MESSAGE("This should be a formula cell.", pFC); CPPUNIT_ASSERT_EQUAL(int(FormulaError::NoRef), static_cast(pFC->GetErrCode())); m_pDoc->DeleteTab(0); } void Test::testFormulaRefUpdateRange() { m_pDoc->InsertTab(0, "Formula"); sc::AutoCalcSwitch aACSwitch(*m_pDoc, true); // turn auto calc on. setExpandRefs(false); // Set values to B2:C5. m_pDoc->SetValue(ScAddress(1,1,0), 1); m_pDoc->SetValue(ScAddress(1,2,0), 2); m_pDoc->SetValue(ScAddress(1,3,0), 3); m_pDoc->SetValue(ScAddress(1,4,0), 4); m_pDoc->SetValue(ScAddress(2,1,0), 5); m_pDoc->SetValue(ScAddress(2,2,0), 6); m_pDoc->SetValue(ScAddress(2,3,0), 7); m_pDoc->SetValue(ScAddress(2,4,0), 8); // Set formula cells to A7 and A8. m_pDoc->SetString(ScAddress(0,6,0), "=SUM(B2:C5)"); m_pDoc->SetString(ScAddress(0,7,0), "=SUM($B$2:$C$5)"); ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(0,6,0), "SUM(B2:C5)", "Wrong formula in A7."); ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(0,7,0), "SUM($B$2:$C$5)", "Wrong formula in A8."); CPPUNIT_ASSERT_EQUAL(36.0, m_pDoc->GetValue(ScAddress(0,6,0))); CPPUNIT_ASSERT_EQUAL(36.0, m_pDoc->GetValue(ScAddress(0,7,0))); // Delete row 3. This should shrink the range references by one row. m_pDoc->DeleteRow(ScRange(0,2,0,m_pDoc->MaxCol(),2,0)); ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(0,5,0), "SUM(B2:C4)", "Wrong formula in A6."); ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(0,6,0), "SUM($B$2:$C$4)", "Wrong formula in A7."); CPPUNIT_ASSERT_EQUAL(28.0, m_pDoc->GetValue(ScAddress(0,5,0))); CPPUNIT_ASSERT_EQUAL(28.0, m_pDoc->GetValue(ScAddress(0,6,0))); // Delete row 4 - bottom of range m_pDoc->DeleteRow(ScRange(0,3,0,m_pDoc->MaxCol(),3,0)); ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(0,4,0), "SUM(B2:C3)", "Wrong formula in A5."); ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(0,5,0), "SUM($B$2:$C$3)", "Wrong formula in A6."); CPPUNIT_ASSERT_EQUAL(16.0, m_pDoc->GetValue(ScAddress(0,4,0))); CPPUNIT_ASSERT_EQUAL(16.0, m_pDoc->GetValue(ScAddress(0,5,0))); // Delete row 2 - top of range m_pDoc->DeleteRow(ScRange(0,1,0,m_pDoc->MaxCol(),1,0)); ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(0,3,0), "SUM(B2:C2)", "Wrong formula in A4."); ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(0,4,0), "SUM($B$2:$C$2)", "Wrong formula in A5."); CPPUNIT_ASSERT_EQUAL(10.0, m_pDoc->GetValue(ScAddress(0,3,0))); CPPUNIT_ASSERT_EQUAL(10.0, m_pDoc->GetValue(ScAddress(0,4,0))); // Clear the range and start over. clearRange(m_pDoc, ScRange(0,0,0,20,20,0)); // Fill C2:F3 with values. m_pDoc->SetValue(ScAddress(2,1,0), 1); m_pDoc->SetValue(ScAddress(3,1,0), 2); m_pDoc->SetValue(ScAddress(4,1,0), 3); m_pDoc->SetValue(ScAddress(5,1,0), 4); m_pDoc->SetValue(ScAddress(2,2,0), 5); m_pDoc->SetValue(ScAddress(3,2,0), 6); m_pDoc->SetValue(ScAddress(4,2,0), 7); m_pDoc->SetValue(ScAddress(5,2,0), 8); // Set formulas to A2 and A3. m_pDoc->SetString(ScAddress(0,1,0), "=SUM(C2:F3)"); m_pDoc->SetString(ScAddress(0,2,0), "=SUM($C$2:$F$3)"); ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(0,1,0), "SUM(C2:F3)", "Wrong formula in A2."); ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(0,2,0), "SUM($C$2:$F$3)", "Wrong formula in A3."); CPPUNIT_ASSERT_EQUAL(36.0, m_pDoc->GetValue(ScAddress(0,1,0))); CPPUNIT_ASSERT_EQUAL(36.0, m_pDoc->GetValue(ScAddress(0,2,0))); // Delete column D. m_pDoc->DeleteCol(ScRange(3,0,0,3,m_pDoc->MaxRow(),0)); ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(0,1,0), "SUM(C2:E3)", "Wrong formula in A2."); ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(0,2,0), "SUM($C$2:$E$3)", "Wrong formula in A3."); CPPUNIT_ASSERT_EQUAL(28.0, m_pDoc->GetValue(ScAddress(0,1,0))); CPPUNIT_ASSERT_EQUAL(28.0, m_pDoc->GetValue(ScAddress(0,2,0))); // Delete column E - the right edge of reference range. m_pDoc->DeleteCol(ScRange(4,0,0,4,m_pDoc->MaxRow(),0)); ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(0,1,0), "SUM(C2:D3)", "Wrong formula in A2."); ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(0,2,0), "SUM($C$2:$D$3)", "Wrong formula in A3."); CPPUNIT_ASSERT_EQUAL(16.0, m_pDoc->GetValue(ScAddress(0,1,0))); CPPUNIT_ASSERT_EQUAL(16.0, m_pDoc->GetValue(ScAddress(0,2,0))); // Delete column C - the left edge of reference range. m_pDoc->DeleteCol(ScRange(2,0,0,2,m_pDoc->MaxRow(),0)); ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(0,1,0), "SUM(C2:C3)", "Wrong formula in A2."); ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(0,2,0), "SUM($C$2:$C$3)", "Wrong formula in A3."); CPPUNIT_ASSERT_EQUAL(10.0, m_pDoc->GetValue(ScAddress(0,1,0))); CPPUNIT_ASSERT_EQUAL(10.0, m_pDoc->GetValue(ScAddress(0,2,0))); // Clear the range and start over. clearRange(m_pDoc, ScRange(0,0,0,20,20,0)); // Disable expansion of range reference on insertion in adjacent areas. setExpandRefs(false); // Fill C2:D3 with values. m_pDoc->SetValue(ScAddress(2,1,0), 1); m_pDoc->SetValue(ScAddress(3,1,0), 2); m_pDoc->SetValue(ScAddress(2,2,0), 3); m_pDoc->SetValue(ScAddress(3,2,0), 4); // Set formulas at A5 and A6. m_pDoc->SetString(ScAddress(0,4,0), "=SUM(C2:D3)"); m_pDoc->SetString(ScAddress(0,5,0), "=SUM($C$2:$D$3)"); ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(0,4,0), "SUM(C2:D3)", "Wrong formula in A5."); ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(0,5,0), "SUM($C$2:$D$3)", "Wrong formula in A6."); // Insert a column at column C. This should simply shift the reference without expansion. m_pDoc->InsertCol(ScRange(2,0,0,2,m_pDoc->MaxRow(),0)); ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(0,4,0), "SUM(D2:E3)", "Wrong formula in A5."); ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(0,5,0), "SUM($D$2:$E$3)", "Wrong formula in A6."); // Shift it back. m_pDoc->DeleteCol(ScRange(2,0,0,2,m_pDoc->MaxRow(),0)); ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(0,4,0), "SUM(C2:D3)", "Wrong formula in A5."); ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(0,5,0), "SUM($C$2:$D$3)", "Wrong formula in A6."); // Insert at column D. This should expand the reference by one column length. m_pDoc->InsertCol(ScRange(3,0,0,3,m_pDoc->MaxRow(),0)); ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(0,4,0), "SUM(C2:E3)", "Wrong formula in A5."); ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(0,5,0), "SUM($C$2:$E$3)", "Wrong formula in A6."); // Insert at column F. No expansion should occur since the edge expansion is turned off. m_pDoc->InsertCol(ScRange(5,0,0,5,m_pDoc->MaxRow(),0)); ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(0,4,0), "SUM(C2:E3)", "Wrong formula in A5."); ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(0,5,0), "SUM($C$2:$E$3)", "Wrong formula in A6."); // Insert at row 2. No expansion should occur with edge expansion turned off. m_pDoc->InsertRow(ScRange(0,1,0,m_pDoc->MaxCol(),1,0)); ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(0,5,0), "SUM(C3:E4)", "Wrong formula in A6."); ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(0,6,0), "SUM($C$3:$E$4)", "Wrong formula in A7."); // Insert at row 4 to expand the reference range. m_pDoc->InsertRow(ScRange(0,3,0,m_pDoc->MaxCol(),3,0)); ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(0,6,0), "SUM(C3:E5)", "Wrong formula in A7."); ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(0,7,0), "SUM($C$3:$E$5)", "Wrong formula in A8."); // Insert at row 6. No expansion with edge expansion turned off. m_pDoc->InsertRow(ScRange(0,5,0,m_pDoc->MaxCol(),5,0)); ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(0,7,0), "SUM(C3:E5)", "Wrong formula in A8."); ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(0,8,0), "SUM($C$3:$E$5)", "Wrong formula in A9."); // Clear the range and start over. clearRange(m_pDoc, ScRange(0,0,0,20,20,0)); // Turn edge expansion on. setExpandRefs(true); // Fill C6:D7 with values. m_pDoc->SetValue(ScAddress(2,5,0), 1); m_pDoc->SetValue(ScAddress(2,6,0), 2); m_pDoc->SetValue(ScAddress(3,5,0), 3); m_pDoc->SetValue(ScAddress(3,6,0), 4); // Set formulas at A2 and A3. m_pDoc->SetString(ScAddress(0,1,0), "=SUM(C6:D7)"); m_pDoc->SetString(ScAddress(0,2,0), "=SUM($C$6:$D$7)"); ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(0,1,0), "SUM(C6:D7)", "Wrong formula in A2."); ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(0,2,0), "SUM($C$6:$D$7)", "Wrong formula in A3."); // Insert at column E. This should expand the reference range by one column. m_pDoc->InsertCol(ScRange(4,0,0,4,m_pDoc->MaxRow(),0)); ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(0,1,0), "SUM(C6:E7)", "Wrong formula in A2."); ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(0,2,0), "SUM($C$6:$E$7)", "Wrong formula in A3."); // Insert at column C to edge-expand the reference range. m_pDoc->InsertCol(ScRange(2,0,0,2,m_pDoc->MaxRow(),0)); ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(0,1,0), "SUM(C6:F7)", "Wrong formula in A2."); ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(0,2,0), "SUM($C$6:$F$7)", "Wrong formula in A3."); // Insert at row 8 to edge-expand. m_pDoc->InsertRow(ScRange(0,7,0,m_pDoc->MaxCol(),7,0)); ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(0,1,0), "SUM(C6:F8)", "Wrong formula in A2."); ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(0,2,0), "SUM($C$6:$F$8)", "Wrong formula in A3."); // Insert at row 6 to edge-expand. m_pDoc->InsertRow(ScRange(0,5,0,m_pDoc->MaxCol(),5,0)); ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(0,1,0), "SUM(C6:F9)", "Wrong formula in A2."); ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(0,2,0), "SUM($C$6:$F$9)", "Wrong formula in A3."); m_pDoc->InsertTab(1, "StickyRange"); // A3:A18 all possible combinations of relative and absolute addressing, // leaving one row above and below unreferenced. ScAddress aPos(0,2,1); m_pDoc->SetString( aPos, "=B2:B1048575"); aPos.IncRow(); m_pDoc->SetString( aPos, "=B2:B$1048575"); aPos.IncRow(); m_pDoc->SetString( aPos, "=B2:$B1048575"); aPos.IncRow(); m_pDoc->SetString( aPos, "=B2:$B$1048575"); aPos.IncRow(); m_pDoc->SetString( aPos, "=B$2:B1048575"); aPos.IncRow(); m_pDoc->SetString( aPos, "=B$2:B$1048575"); aPos.IncRow(); m_pDoc->SetString( aPos, "=B$2:$B1048575"); aPos.IncRow(); m_pDoc->SetString( aPos, "=B$2:$B$1048575"); aPos.IncRow(); m_pDoc->SetString( aPos, "=$B2:B1048575"); aPos.IncRow(); m_pDoc->SetString( aPos, "=$B2:B$1048575"); aPos.IncRow(); m_pDoc->SetString( aPos, "=$B2:$B1048575"); aPos.IncRow(); m_pDoc->SetString( aPos, "=$B2:$B$1048575"); aPos.IncRow(); m_pDoc->SetString( aPos, "=$B$2:B1048575"); aPos.IncRow(); m_pDoc->SetString( aPos, "=$B$2:B$1048575"); aPos.IncRow(); m_pDoc->SetString( aPos, "=$B$2:$B1048575"); aPos.IncRow(); m_pDoc->SetString( aPos, "=$B$2:$B$1048575"); aPos.IncRow(); // A19 reference to two cells on one row. m_pDoc->SetString( aPos, "=B1048575:C1048575"); aPos.IncRow(); // Insert 2 rows in the middle to shift bottom reference down and make it // sticky. m_pDoc->InsertRow( ScRange( 0, aPos.Row(), 1, m_pDoc->MaxCol(), aPos.Row()+1, 1)); // A3:A18 must not result in #REF! anywhere. aPos.Set(0,2,1); ASSERT_FORMULA_EQUAL(*m_pDoc, aPos, "B2:B1048576", "Wrong reference in A3 after insertion."); aPos.IncRow(); ASSERT_FORMULA_EQUAL(*m_pDoc, aPos, "B2:B$1048576", "Wrong reference in A4 after insertion."); aPos.IncRow(); ASSERT_FORMULA_EQUAL(*m_pDoc, aPos, "B2:$B1048576", "Wrong reference in A5 after insertion."); aPos.IncRow(); ASSERT_FORMULA_EQUAL(*m_pDoc, aPos, "B2:$B$1048576", "Wrong reference in A6 after insertion."); aPos.IncRow(); ASSERT_FORMULA_EQUAL(*m_pDoc, aPos, "B$2:B1048576", "Wrong reference in A7 after insertion."); aPos.IncRow(); ASSERT_FORMULA_EQUAL(*m_pDoc, aPos, "B$2:B$1048576", "Wrong reference in A8 after insertion."); aPos.IncRow(); ASSERT_FORMULA_EQUAL(*m_pDoc, aPos, "B$2:$B1048576", "Wrong reference in A9 after insertion."); aPos.IncRow(); ASSERT_FORMULA_EQUAL(*m_pDoc, aPos, "B$2:$B$1048576", "Wrong reference in A10 after insertion."); aPos.IncRow(); ASSERT_FORMULA_EQUAL(*m_pDoc, aPos, "$B2:B1048576", "Wrong reference in A11 after insertion."); aPos.IncRow(); ASSERT_FORMULA_EQUAL(*m_pDoc, aPos, "$B2:B$1048576", "Wrong reference in A12 after insertion."); aPos.IncRow(); ASSERT_FORMULA_EQUAL(*m_pDoc, aPos, "$B2:$B1048576", "Wrong reference in A13 after insertion."); aPos.IncRow(); ASSERT_FORMULA_EQUAL(*m_pDoc, aPos, "$B2:$B$1048576", "Wrong reference in A14 after insertion."); aPos.IncRow(); ASSERT_FORMULA_EQUAL(*m_pDoc, aPos, "$B$2:B1048576", "Wrong reference in A15 after insertion."); aPos.IncRow(); ASSERT_FORMULA_EQUAL(*m_pDoc, aPos, "$B$2:B$1048576", "Wrong reference in A16 after insertion."); aPos.IncRow(); ASSERT_FORMULA_EQUAL(*m_pDoc, aPos, "$B$2:$B1048576", "Wrong reference in A17 after insertion."); aPos.IncRow(); ASSERT_FORMULA_EQUAL(*m_pDoc, aPos, "$B$2:$B$1048576", "Wrong reference in A18 after insertion."); aPos.IncRow(); // A19 reference to one row shifted out should be #REF! ASSERT_FORMULA_EQUAL(*m_pDoc, aPos, "B#REF!:C#REF!", "Wrong reference in A19 after insertion."); // A19 enter reference to last row. m_pDoc->SetString( aPos, "=B1048576:C1048576"); aPos.IncRow(); // Delete row 1 to shift top reference up, bottom reference stays sticky. m_pDoc->DeleteRow(ScRange(0,0,1,m_pDoc->MaxCol(),0,1)); // Check sticky bottom references and display of entire column references, // now in A2:A17. aPos.Set(0,1,1); ASSERT_FORMULA_EQUAL(*m_pDoc, aPos, "B:B", "Wrong reference in A2 after deletion."); aPos.IncRow(); ASSERT_FORMULA_EQUAL(*m_pDoc, aPos, "B1:B$1048576", "Wrong reference in A3 after deletion."); aPos.IncRow(); ASSERT_FORMULA_EQUAL(*m_pDoc, aPos, "B:$B", "Wrong reference in A4 after deletion."); aPos.IncRow(); ASSERT_FORMULA_EQUAL(*m_pDoc, aPos, "B1:$B$1048576", "Wrong reference in A5 after deletion."); aPos.IncRow(); ASSERT_FORMULA_EQUAL(*m_pDoc, aPos, "B$1:B1048576", "Wrong reference in A6 after deletion."); aPos.IncRow(); ASSERT_FORMULA_EQUAL(*m_pDoc, aPos, "B:B", "Wrong reference in A7 after deletion."); aPos.IncRow(); ASSERT_FORMULA_EQUAL(*m_pDoc, aPos, "B$1:$B1048576", "Wrong reference in A8 after deletion."); aPos.IncRow(); ASSERT_FORMULA_EQUAL(*m_pDoc, aPos, "B:$B", "Wrong reference in A9 after deletion."); aPos.IncRow(); ASSERT_FORMULA_EQUAL(*m_pDoc, aPos, "$B:B", "Wrong reference in A10 after deletion."); aPos.IncRow(); ASSERT_FORMULA_EQUAL(*m_pDoc, aPos, "$B1:B$1048576", "Wrong reference in A11 after deletion."); aPos.IncRow(); ASSERT_FORMULA_EQUAL(*m_pDoc, aPos, "$B:$B", "Wrong reference in A12 after deletion."); aPos.IncRow(); ASSERT_FORMULA_EQUAL(*m_pDoc, aPos, "$B1:$B$1048576", "Wrong reference in A13 after deletion."); aPos.IncRow(); ASSERT_FORMULA_EQUAL(*m_pDoc, aPos, "$B$1:B1048576", "Wrong reference in A14 after deletion."); aPos.IncRow(); ASSERT_FORMULA_EQUAL(*m_pDoc, aPos, "$B:B", "Wrong reference in A15 after deletion."); aPos.IncRow(); ASSERT_FORMULA_EQUAL(*m_pDoc, aPos, "$B$1:$B1048576", "Wrong reference in A16 after deletion."); aPos.IncRow(); ASSERT_FORMULA_EQUAL(*m_pDoc, aPos, "$B:$B", "Wrong reference in A17 after deletion."); aPos.IncRow(); // A18 reference to one last row should be shifted up. ASSERT_FORMULA_EQUAL(*m_pDoc, aPos, "B1048575:C1048575", "Wrong reference in A18 after deletion."); aPos.IncRow(); // Insert 4 rows in the middle. m_pDoc->InsertRow( ScRange( 0, aPos.Row(), 1, m_pDoc->MaxCol(), aPos.Row()+3, 1)); // Delete 2 rows in the middle. m_pDoc->DeleteRow( ScRange( 0, aPos.Row(), 1, m_pDoc->MaxCol(), aPos.Row()+1, 1)); // References in A2:A17 must still be the same. aPos.Set(0,1,1); ASSERT_FORMULA_EQUAL(*m_pDoc, aPos, "B:B", "Wrong reference in A2 after deletion."); aPos.IncRow(); ASSERT_FORMULA_EQUAL(*m_pDoc, aPos, "B1:B$1048576", "Wrong reference in A3 after deletion."); aPos.IncRow(); ASSERT_FORMULA_EQUAL(*m_pDoc, aPos, "B:$B", "Wrong reference in A4 after deletion."); aPos.IncRow(); ASSERT_FORMULA_EQUAL(*m_pDoc, aPos, "B1:$B$1048576", "Wrong reference in A5 after deletion."); aPos.IncRow(); ASSERT_FORMULA_EQUAL(*m_pDoc, aPos, "B$1:B1048576", "Wrong reference in A6 after deletion."); aPos.IncRow(); ASSERT_FORMULA_EQUAL(*m_pDoc, aPos, "B:B", "Wrong reference in A7 after deletion."); aPos.IncRow(); ASSERT_FORMULA_EQUAL(*m_pDoc, aPos, "B$1:$B1048576", "Wrong reference in A8 after deletion."); aPos.IncRow(); ASSERT_FORMULA_EQUAL(*m_pDoc, aPos, "B:$B", "Wrong reference in A9 after deletion."); aPos.IncRow(); ASSERT_FORMULA_EQUAL(*m_pDoc, aPos, "$B:B", "Wrong reference in A10 after deletion."); aPos.IncRow(); ASSERT_FORMULA_EQUAL(*m_pDoc, aPos, "$B1:B$1048576", "Wrong reference in A11 after deletion."); aPos.IncRow(); ASSERT_FORMULA_EQUAL(*m_pDoc, aPos, "$B:$B", "Wrong reference in A12 after deletion."); aPos.IncRow(); ASSERT_FORMULA_EQUAL(*m_pDoc, aPos, "$B1:$B$1048576", "Wrong reference in A13 after deletion."); aPos.IncRow(); ASSERT_FORMULA_EQUAL(*m_pDoc, aPos, "$B$1:B1048576", "Wrong reference in A14 after deletion."); aPos.IncRow(); ASSERT_FORMULA_EQUAL(*m_pDoc, aPos, "$B:B", "Wrong reference in A15 after deletion."); aPos.IncRow(); ASSERT_FORMULA_EQUAL(*m_pDoc, aPos, "$B$1:$B1048576", "Wrong reference in A16 after deletion."); aPos.IncRow(); ASSERT_FORMULA_EQUAL(*m_pDoc, aPos, "$B:$B", "Wrong reference in A17 after deletion."); aPos.IncRow(); // Enter values in B1 and B1048576 (last row). m_pDoc->SetValue( 1,0,1, 1.0); m_pDoc->SetValue( 1,m_pDoc->MaxRow(),1, 2.0); // Sticky reference including last row. m_pDoc->SetString( 2,0,1, "=SUM(B:B)"); // Reference to last row. CPPUNIT_ASSERT_EQUAL_MESSAGE("m_pDoc->MaxRow() changed, adapt unit test.", 1048575, int(m_pDoc->MaxRow())); m_pDoc->SetString( 2,1,1, "=SUM(B1048576:C1048576)"); CPPUNIT_ASSERT_EQUAL_MESSAGE("Wrong result in C1.", 3.0, m_pDoc->GetValue(2,0,1)); CPPUNIT_ASSERT_EQUAL_MESSAGE("Wrong result in C2.", 2.0, m_pDoc->GetValue(2,1,1)); // Delete last row. m_pDoc->DeleteRow( ScRange( 0, m_pDoc->MaxRow(), 1, m_pDoc->MaxCol(), m_pDoc->MaxRow(), 1)); CPPUNIT_ASSERT_EQUAL_MESSAGE("Wrong result in C1.", 1.0, m_pDoc->GetValue(2,0,1)); CPPUNIT_ASSERT_EQUAL_MESSAGE("Reference in C2 not invalidated.", OUString("#REF!"), m_pDoc->GetString(2,1,1)); // Enter values in A23 and AMJ23 (last column). m_pDoc->SetValue( 0,22,1, 1.0); m_pDoc->SetValue( m_pDoc->MaxCol(),22,1, 2.0); // C3 with sticky reference including last column. m_pDoc->SetString( 2,2,1, "=SUM(23:23)"); // C4 with reference to last column. CPPUNIT_ASSERT_EQUAL_MESSAGE("m_pDoc->MaxCol() changed, adapt unit test.", 1023, int(m_pDoc->MaxCol())); m_pDoc->SetString( 2,3,1, "=SUM(AMJ22:AMJ23)"); CPPUNIT_ASSERT_EQUAL_MESSAGE("Wrong result in C3.", 3.0, m_pDoc->GetValue(2,2,1)); CPPUNIT_ASSERT_EQUAL_MESSAGE("Wrong result in C4.", 2.0, m_pDoc->GetValue(2,3,1)); // Delete last column. m_pDoc->DeleteCol( ScRange( m_pDoc->MaxCol(), 0, 1, m_pDoc->MaxCol(), m_pDoc->MaxRow(), 1)); CPPUNIT_ASSERT_EQUAL_MESSAGE("Wrong result in C3.", 1.0, m_pDoc->GetValue(2,2,1)); CPPUNIT_ASSERT_EQUAL_MESSAGE("Reference in C4 not invalidated.", OUString("#REF!"), m_pDoc->GetString(2,3,1)); m_pDoc->DeleteTab(1); m_pDoc->DeleteTab(0); } void Test::testFormulaRefUpdateSheets() { m_pDoc->InsertTab(0, "Sheet1"); m_pDoc->InsertTab(1, "Sheet2"); OUString aName; m_pDoc->GetName(0, aName); CPPUNIT_ASSERT_EQUAL(OUString("Sheet1"), aName); m_pDoc->GetName(1, aName); CPPUNIT_ASSERT_EQUAL(OUString("Sheet2"), aName); sc::AutoCalcSwitch aACSwitch(*m_pDoc, true); // turn auto calc on. // Set values to B2:C3 on sheet Sheet1. m_pDoc->SetValue(ScAddress(1,1,0), 1); m_pDoc->SetValue(ScAddress(1,2,0), 2); m_pDoc->SetValue(ScAddress(2,1,0), 3); m_pDoc->SetValue(ScAddress(2,2,0), 4); // Set formulas to B2 and B3 on sheet Sheet2. m_pDoc->SetString(ScAddress(1,1,1), "=SUM(Sheet1.B2:C3)"); m_pDoc->SetString(ScAddress(1,2,1), "=SUM($Sheet1.$B$2:$C$3)"); ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(1,1,1), "SUM(Sheet1.B2:C3)", "Wrong formula in Sheet2.B2."); ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(1,2,1), "SUM($Sheet1.$B$2:$C$3)", "Wrong formula in Sheet2.B3."); // Swap the sheets. m_pDoc->MoveTab(0, 1); m_pDoc->GetName(0, aName); CPPUNIT_ASSERT_EQUAL(OUString("Sheet2"), aName); m_pDoc->GetName(1, aName); CPPUNIT_ASSERT_EQUAL(OUString("Sheet1"), aName); ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(1,1,0), "SUM(Sheet1.B2:C3)", "Wrong formula in Sheet2.B2."); ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(1,2,0), "SUM($Sheet1.$B$2:$C$3)", "Wrong formula in Sheet2.B3."); // Swap back. m_pDoc->MoveTab(0, 1); m_pDoc->GetName(0, aName); CPPUNIT_ASSERT_EQUAL(OUString("Sheet1"), aName); m_pDoc->GetName(1, aName); CPPUNIT_ASSERT_EQUAL(OUString("Sheet2"), aName); ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(1,1,1), "SUM(Sheet1.B2:C3)", "Wrong formula in Sheet2.B2."); ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(1,2,1), "SUM($Sheet1.$B$2:$C$3)", "Wrong formula in Sheet2.B3."); // Insert a new sheet between the two. m_pDoc->InsertTab(1, "Temp"); m_pDoc->GetName(1, aName); CPPUNIT_ASSERT_EQUAL(OUString("Temp"), aName); m_pDoc->GetName(2, aName); CPPUNIT_ASSERT_EQUAL(OUString("Sheet2"), aName); ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(1,1,2), "SUM(Sheet1.B2:C3)", "Wrong formula in Sheet2.B2."); ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(1,2,2), "SUM($Sheet1.$B$2:$C$3)", "Wrong formula in Sheet2.B3."); // Move the last sheet (Sheet2) to the first position. m_pDoc->MoveTab(2, 0); ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(1,1,0), "SUM(Sheet1.B2:C3)", "Wrong formula in Sheet2.B2."); ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(1,2,0), "SUM($Sheet1.$B$2:$C$3)", "Wrong formula in Sheet2.B3."); // Move back. m_pDoc->MoveTab(0, 2); ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(1,1,2), "SUM(Sheet1.B2:C3)", "Wrong formula in Sheet2.B2."); ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(1,2,2), "SUM($Sheet1.$B$2:$C$3)", "Wrong formula in Sheet2.B3."); // Move the "Temp" sheet to the last position. m_pDoc->MoveTab(1, 2); ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(1,1,1), "SUM(Sheet1.B2:C3)", "Wrong formula in Sheet2.B2."); ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(1,2,1), "SUM($Sheet1.$B$2:$C$3)", "Wrong formula in Sheet2.B3."); // Move back. m_pDoc->MoveTab(2, 1); // Delete the temporary sheet. m_pDoc->DeleteTab(1); m_pDoc->GetName(1, aName); CPPUNIT_ASSERT_EQUAL(OUString("Sheet2"), aName); ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(1,1,1), "SUM(Sheet1.B2:C3)", "Wrong formula in Sheet2.B2."); ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(1,2,1), "SUM($Sheet1.$B$2:$C$3)", "Wrong formula in Sheet2.B3."); // Insert a new sheet before the first one. m_pDoc->InsertTab(0, "Temp"); m_pDoc->GetName(1, aName); CPPUNIT_ASSERT_EQUAL(OUString("Sheet1"), aName); m_pDoc->GetName(2, aName); CPPUNIT_ASSERT_EQUAL(OUString("Sheet2"), aName); ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(1,1,2), "SUM(Sheet1.B2:C3)", "Wrong formula in Sheet2.B2."); ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(1,2,2), "SUM($Sheet1.$B$2:$C$3)", "Wrong formula in Sheet2.B3."); // Delete the temporary sheet. m_pDoc->DeleteTab(0); ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(1,1,1), "SUM(Sheet1.B2:C3)", "Wrong formula in Sheet2.B2."); ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(1,2,1), "SUM($Sheet1.$B$2:$C$3)", "Wrong formula in Sheet2.B3."); // Append a bunch of sheets. m_pDoc->InsertTab(2, "Temp1"); m_pDoc->InsertTab(3, "Temp2"); m_pDoc->InsertTab(4, "Temp3"); // Move these tabs around. This shouldn't affects the first 2 sheets. m_pDoc->MoveTab(2, 4); m_pDoc->MoveTab(3, 2); ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(1,1,1), "SUM(Sheet1.B2:C3)", "Wrong formula in Sheet2.B2."); ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(1,2,1), "SUM($Sheet1.$B$2:$C$3)", "Wrong formula in Sheet2.B3."); // Delete the temp sheets. m_pDoc->DeleteTab(4); m_pDoc->DeleteTab(3); m_pDoc->DeleteTab(2); // Delete Sheet1. m_pDoc->DeleteTab(0); m_pDoc->GetName(0, aName); CPPUNIT_ASSERT_EQUAL(OUString("Sheet2"), aName); ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(1,1,0), "SUM(#REF!.B2:C3)", "Wrong formula in Sheet2.B2."); ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(1,2,0), "SUM($#REF!.$B$2:$C$3)", "Wrong formula in Sheet2.B3."); m_pDoc->DeleteTab(0); } void Test::testFormulaRefUpdateInsertRows() { setExpandRefs(false); sc::AutoCalcSwitch aACSwitch(*m_pDoc, true); // turn auto calc on. m_pDoc->InsertTab(0, "Formula"); // Insert raw values in B2:B4. m_pDoc->SetValue(ScAddress(1,1,0), 1.0); m_pDoc->SetValue(ScAddress(1,2,0), 2.0); m_pDoc->SetValue(ScAddress(1,3,0), 3.0); // Insert a formula in B5 to sum up B2:B4. m_pDoc->SetString(ScAddress(1,4,0), "=SUM(B2:B4)"); CPPUNIT_ASSERT_EQUAL(6.0, m_pDoc->GetValue(ScAddress(1,4,0))); // Insert rows over rows 1:2. ScMarkData aMark(MAXROW, MAXCOL); aMark.SelectOneTable(0); ScDocFunc& rFunc = getDocShell().GetDocFunc(); rFunc.InsertCells(ScRange(0,0,0,m_pDoc->MaxCol(),1,0), &aMark, INS_INSROWS_BEFORE, false, true); // The raw data should have shifted to B4:B6. CPPUNIT_ASSERT_EQUAL(1.0, m_pDoc->GetValue(ScAddress(1,3,0))); CPPUNIT_ASSERT_EQUAL(2.0, m_pDoc->GetValue(ScAddress(1,4,0))); CPPUNIT_ASSERT_EQUAL(3.0, m_pDoc->GetValue(ScAddress(1,5,0))); ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(1,6,0), "SUM(B4:B6)", "Wrong formula!"); // Clear and start over. clearSheet(m_pDoc, 0); // Set raw values in A4:A6. m_pDoc->SetValue(ScAddress(0,3,0), 1.0); m_pDoc->SetValue(ScAddress(0,4,0), 2.0); m_pDoc->SetValue(ScAddress(0,5,0), 3.0); // Set formula in A3 to reference A4:A6. m_pDoc->SetString(ScAddress(0,2,0), "=MAX(A4:A6)"); CPPUNIT_ASSERT_EQUAL(3.0, m_pDoc->GetValue(ScAddress(0,2,0))); // Insert 3 rows over 2:4. This should push A3:A6 to A6:A9. rFunc.InsertCells(ScRange(0,1,0,m_pDoc->MaxCol(),3,0), &aMark, INS_INSROWS_BEFORE, false, true); ScFormulaCell* pFC = m_pDoc->GetFormulaCell(ScAddress(0,5,0)); CPPUNIT_ASSERT(pFC); CPPUNIT_ASSERT_EQUAL_MESSAGE("This formula cell should not be an error.", 0, static_cast(pFC->GetErrCode())); ASSERT_DOUBLES_EQUAL(3.0, m_pDoc->GetValue(ScAddress(0,5,0))); ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(0,5,0), "MAX(A7:A9)", "Wrong formula!"); m_pDoc->DeleteTab(0); } void Test::testFormulaRefUpdateSheetsDelete() { m_pDoc->InsertTab(0, "Sheet1"); m_pDoc->InsertTab(1, "Sheet2"); m_pDoc->InsertTab(2, "Sheet3"); m_pDoc->InsertTab(3, "Sheet4"); m_pDoc->SetString(ScAddress(4,1,0), "=SUM(Sheet2.A4:Sheet4.A4)"); m_pDoc->SetString(ScAddress(4,2,0), "=SUM($Sheet2.A4:$Sheet4.A4)"); m_pDoc->DeleteTab(1); ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(4,1,0), "SUM(Sheet3.A4:Sheet4.A4)", "Wrong Formula"); ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(4,2,0), "SUM($Sheet3.A4:$Sheet4.A4)", "Wrong Formula"); m_pDoc->InsertTab(1, "Sheet2"); m_pDoc->SetString(ScAddress(5,1,3), "=SUM(Sheet1.A5:Sheet3.A5)"); m_pDoc->SetString(ScAddress(5,2,3), "=SUM($Sheet1.A5:$Sheet3.A5)"); m_pDoc->DeleteTab(2); ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(5,1,2), "SUM(Sheet1.A5:Sheet2.A5)", "Wrong Formula"); ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(5,2,2), "SUM($Sheet1.A5:$Sheet2.A5)", "Wrong Formula"); m_pDoc->InsertTab(2, "Sheet3"); m_pDoc->SetString(ScAddress(6,1,3), "=SUM(Sheet1.A6:Sheet3.A6)"); m_pDoc->SetString(ScAddress(6,2,3), "=SUM($Sheet1.A6:$Sheet3.A6)"); m_pDoc->DeleteTabs(0,3); ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(6,1,0), "SUM(#REF!.A6:#REF!.A6)", "Wrong Formula"); ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(6,2,0), "SUM($#REF!.A6:$#REF!.A6)", "Wrong Formula"); m_pDoc->InsertTab(0, "Sheet1"); m_pDoc->InsertTab(1, "Sheet2"); m_pDoc->InsertTab(2, "Sheet3"); m_pDoc->SetString(ScAddress(1,1,1), "=SUM(Sheet1.A2:Sheet3.A2"); m_pDoc->SetString(ScAddress(2,1,1), "=SUM(Sheet1.A1:Sheet2.A1"); m_pDoc->SetString(ScAddress(3,1,1), "=SUM(Sheet2.A3:Sheet4.A3"); m_pDoc->SetString(ScAddress(1,2,1), "=SUM($Sheet1.A2:$Sheet3.A2"); m_pDoc->SetString(ScAddress(2,2,1), "=SUM($Sheet1.A1:$Sheet2.A1"); m_pDoc->SetString(ScAddress(3,2,1), "=SUM($Sheet2.A3:$Sheet4.A3"); m_pDoc->DeleteTab(2); ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(1,1,1), "SUM(Sheet1.A2:Sheet2.A2)", "Wrong Formula"); ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(2,1,1), "SUM(Sheet1.A1:Sheet2.A1)", "Wrong Formula"); ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(3,1,1), "SUM(Sheet2.A3:Sheet4.A3)", "Wrong Formula"); ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(1,2,1), "SUM($Sheet1.A2:$Sheet2.A2)", "Wrong Formula"); ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(2,2,1), "SUM($Sheet1.A1:$Sheet2.A1)", "Wrong Formula"); ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(3,2,1), "SUM($Sheet2.A3:$Sheet4.A3)", "Wrong Formula"); m_pDoc->DeleteTab(0); ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(1,1,0), "SUM(Sheet2.A2:Sheet2.A2)", "Wrong Formula"); ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(2,1,0), "SUM(Sheet2.A1:Sheet2.A1)", "Wrong Formula"); ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(3,1,0), "SUM(Sheet2.A3:Sheet4.A3)", "Wrong Formula"); ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(1,2,0), "SUM($Sheet2.A2:$Sheet2.A2)", "Wrong Formula"); ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(2,2,0), "SUM($Sheet2.A1:$Sheet2.A1)", "Wrong Formula"); ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(3,2,0), "SUM($Sheet2.A3:$Sheet4.A3)", "Wrong Formula"); m_pDoc->DeleteTab(0); m_pDoc->DeleteTab(0); } void Test::testFormulaRefUpdateInsertColumns() { sc::AutoCalcSwitch aACSwitch(*m_pDoc, true); // turn auto calc on. setExpandRefs(false); m_pDoc->InsertTab(0, "Formula"); // Set named range for B2 with absolute column and relative same row. const ScAddress aNamePos(0,1,0); bool bInserted = m_pDoc->InsertNewRangeName("RowRelativeRange", aNamePos, "$Formula.$B2"); CPPUNIT_ASSERT(bInserted); // Set named range for entire absolute column B. bInserted = m_pDoc->InsertNewRangeName("EntireColumn", aNamePos, "$B:$B"); CPPUNIT_ASSERT(bInserted); // Set named range for entire absolute row 2. bInserted = m_pDoc->InsertNewRangeName("EntireRow", aNamePos, "$2:$2"); CPPUNIT_ASSERT(bInserted); // Set values in B1:B3. m_pDoc->SetValue(ScAddress(1,0,0), 1.0); m_pDoc->SetValue(ScAddress(1,1,0), 2.0); m_pDoc->SetValue(ScAddress(1,2,0), 3.0); // Reference them in B4. m_pDoc->SetString(ScAddress(1,3,0), "=SUM(B1:B3)"); CPPUNIT_ASSERT_EQUAL(6.0, m_pDoc->GetValue(ScAddress(1,3,0))); // Use named range in C2 to reference B2. m_pDoc->SetString(ScAddress(2,1,0), "=RowRelativeRange"); CPPUNIT_ASSERT_EQUAL(2.0, m_pDoc->GetValue(ScAddress(2,1,0))); // Use named range in C3 to reference column B, values in B1,B2,B3,B4 m_pDoc->SetString(ScAddress(2,2,0), "=SUM(EntireColumn)"); CPPUNIT_ASSERT_EQUAL(12.0, m_pDoc->GetValue(ScAddress(2,2,0))); // Use named range in C4 to reference row 2, values in B2 and C2. m_pDoc->SetString(ScAddress(2,3,0), "=SUM(EntireRow)"); CPPUNIT_ASSERT_EQUAL(4.0, m_pDoc->GetValue(ScAddress(2,3,0))); // Insert columns over A:B. ScMarkData aMark(MAXROW, MAXCOL); aMark.SelectOneTable(0); ScDocFunc& rFunc = getDocShell().GetDocFunc(); rFunc.InsertCells(ScRange(0,0,0,1,m_pDoc->MaxRow(),0), &aMark, INS_INSCOLS_BEFORE, false, true); // Now, the original column B has moved to column D. ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(3,3,0), "SUM(D1:D3)", "Wrong formula in D4 after column insertion."); CPPUNIT_ASSERT_EQUAL(6.0, m_pDoc->GetValue(ScAddress(3,3,0))); // Check that the named reference points to the moved cell, now D2. ScRangeData* pName = m_pDoc->GetRangeName()->findByUpperName("ROWRELATIVERANGE"); CPPUNIT_ASSERT(pName); OUString aSymbol; pName->GetSymbol(aSymbol, aNamePos, formula::FormulaGrammar::GRAM_ENGLISH); CPPUNIT_ASSERT_EQUAL(OUString("$Formula.$D2"), aSymbol); // Check that the formula using the name, now in E2, still has the same result. ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(4,1,0), "RowRelativeRange", "Wrong formula in E2 after column insertion."); CPPUNIT_ASSERT_EQUAL(2.0, m_pDoc->GetValue(ScAddress(4,1,0))); // Check that the named column reference points to the moved column, now D. pName = m_pDoc->GetRangeName()->findByUpperName("ENTIRECOLUMN"); CPPUNIT_ASSERT(pName); pName->GetSymbol(aSymbol, aNamePos, formula::FormulaGrammar::GRAM_ENGLISH); CPPUNIT_ASSERT_EQUAL(OUString("$D:$D"), aSymbol); // Check that the formula using the name, now in E3, still has the same result. ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(4,2,0), "SUM(EntireColumn)", "Wrong formula in E3 after column insertion."); CPPUNIT_ASSERT_EQUAL(12.0, m_pDoc->GetValue(ScAddress(4,2,0))); // Check that the named row reference still points to the same entire row // and does not have a #REF! error due to inserted columns. pName = m_pDoc->GetRangeName()->findByUpperName("ENTIREROW"); CPPUNIT_ASSERT(pName); pName->GetSymbol(aSymbol, aNamePos, formula::FormulaGrammar::GRAM_ENGLISH); CPPUNIT_ASSERT_EQUAL(OUString("$2:$2"), aSymbol); // Check that the formula using the name, now in E4, still has the same result. ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(4,3,0), "SUM(EntireRow)", "Wrong formula in E4 after column insertion."); CPPUNIT_ASSERT_EQUAL(4.0, m_pDoc->GetValue(ScAddress(4,3,0))); m_pDoc->DeleteTab(0); } void Test::testFormulaRefUpdateMove() { m_pDoc->InsertTab(0, "Sheet1"); sc::AutoCalcSwitch aACSwitch(*m_pDoc, true); // turn auto calc on. // Set value to B4:B6. m_pDoc->SetValue(ScAddress(1,3,0), 1); m_pDoc->SetValue(ScAddress(1,4,0), 2); m_pDoc->SetValue(ScAddress(1,5,0), 3); // Set formulas to A9:A12 that references B4:B6. m_pDoc->SetString(ScAddress(0,8,0), "=SUM(B4:B6)"); m_pDoc->SetString(ScAddress(0,9,0), "=SUM($B$4:$B$6)"); m_pDoc->SetString(ScAddress(0,10,0), "=B5"); m_pDoc->SetString(ScAddress(0,11,0), "=$B$6"); CPPUNIT_ASSERT_EQUAL(6.0, m_pDoc->GetValue(0,8,0)); CPPUNIT_ASSERT_EQUAL(6.0, m_pDoc->GetValue(0,9,0)); CPPUNIT_ASSERT_EQUAL(2.0, m_pDoc->GetValue(0,10,0)); CPPUNIT_ASSERT_EQUAL(3.0, m_pDoc->GetValue(0,11,0)); // Move B4:B6 to D4 (two columns to the right). ScDocFunc& rFunc = getDocShell().GetDocFunc(); bool bMoved = rFunc.MoveBlock(ScRange(1,3,0,1,5,0), ScAddress(3,3,0), true, false, false, false); CPPUNIT_ASSERT_MESSAGE("Failed to move B4:B6.", bMoved); // The results of the formula cells that reference the moved range should remain the same. CPPUNIT_ASSERT_EQUAL(6.0, m_pDoc->GetValue(0,8,0)); CPPUNIT_ASSERT_EQUAL(6.0, m_pDoc->GetValue(0,9,0)); CPPUNIT_ASSERT_EQUAL(2.0, m_pDoc->GetValue(0,10,0)); CPPUNIT_ASSERT_EQUAL(3.0, m_pDoc->GetValue(0,11,0)); ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(0,8,0), "SUM(D4:D6)", "Wrong formula."); ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(0,9,0), "SUM($D$4:$D$6)", "Wrong formula."); ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(0,10,0), "D5", "Wrong formula."); ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(0,11,0), "$D$6", "Wrong formula."); // Move A9:A12 to B10:B13. bMoved = rFunc.MoveBlock(ScRange(0,8,0,0,11,0), ScAddress(1,9,0), true, false, false, false); CPPUNIT_ASSERT_MESSAGE("Failed to move A9:A12 to B10:B13", bMoved); // The results of these formula cells should still stay the same. CPPUNIT_ASSERT_EQUAL(6.0, m_pDoc->GetValue(1,9,0)); CPPUNIT_ASSERT_EQUAL(6.0, m_pDoc->GetValue(1,10,0)); CPPUNIT_ASSERT_EQUAL(2.0, m_pDoc->GetValue(1,11,0)); CPPUNIT_ASSERT_EQUAL(3.0, m_pDoc->GetValue(1,12,0)); // Displayed formulas should stay the same since the referenced range hasn't moved. ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(1,9,0), "SUM(D4:D6)", "Wrong formula."); ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(1,10,0), "SUM($D$4:$D$6)", "Wrong formula."); ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(1,11,0), "D5", "Wrong formula."); ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(1,12,0), "$D$6", "Wrong formula."); // The value cells are in D4:D6. Move D4:D5 to the right but leave D6 // where it is. bMoved = rFunc.MoveBlock(ScRange(3,3,0,3,4,0), ScAddress(4,3,0), true, false, false, false); CPPUNIT_ASSERT_MESSAGE("Failed to move D4:D5 to E4:E5", bMoved); // Only the values of B10 and B11 should be updated. CPPUNIT_ASSERT_EQUAL(3.0, m_pDoc->GetValue(1,9,0)); CPPUNIT_ASSERT_EQUAL(3.0, m_pDoc->GetValue(1,10,0)); CPPUNIT_ASSERT_EQUAL(2.0, m_pDoc->GetValue(1,11,0)); CPPUNIT_ASSERT_EQUAL(3.0, m_pDoc->GetValue(1,12,0)); ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(1,9,0), "SUM(D4:D6)", "Wrong formula."); ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(1,10,0), "SUM($D$4:$D$6)", "Wrong formula."); ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(1,11,0), "E5", "Wrong formula."); ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(1,12,0), "$D$6", "Wrong formula."); m_pDoc->DeleteTab(0); } void Test::testFormulaRefUpdateMoveUndo() { m_pDoc->InsertTab(0, "Test"); sc::AutoCalcSwitch aACSwitch(*m_pDoc, true); // turn auto calc on. // Set values in A1:A4. m_pDoc->SetValue(ScAddress(0,0,0), 1.0); m_pDoc->SetValue(ScAddress(0,1,0), 2.0); m_pDoc->SetValue(ScAddress(0,2,0), 3.0); m_pDoc->SetValue(ScAddress(0,3,0), 4.0); // Set formulas with single cell references in A6:A8. m_pDoc->SetString(ScAddress(0,5,0), "=A1"); CPPUNIT_ASSERT_EQUAL(1.0, m_pDoc->GetValue(ScAddress(0,5,0))); ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(0,5,0), "A1", "Wrong formula."); m_pDoc->SetString(ScAddress(0,6,0), "=A1+A2+A3"); CPPUNIT_ASSERT_EQUAL(6.0, m_pDoc->GetValue(ScAddress(0,6,0))); ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(0,6,0), "A1+A2+A3", "Wrong formula."); m_pDoc->SetString(ScAddress(0,7,0), "=A1+A3+A4"); CPPUNIT_ASSERT_EQUAL(8.0, m_pDoc->GetValue(ScAddress(0,7,0))); ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(0,7,0), "A1+A3+A4", "Wrong formula."); // Set formulas with range references in A10:A12. m_pDoc->SetString(ScAddress(0,9,0), "=SUM(A1:A2)"); CPPUNIT_ASSERT_EQUAL(3.0, m_pDoc->GetValue(ScAddress(0,9,0))); ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(0,9,0), "SUM(A1:A2)", "Wrong formula."); m_pDoc->SetString(ScAddress(0,10,0), "=SUM(A1:A3)"); CPPUNIT_ASSERT_EQUAL(6.0, m_pDoc->GetValue(ScAddress(0,10,0))); ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(0,10,0), "SUM(A1:A3)", "Wrong formula."); m_pDoc->SetString(ScAddress(0,11,0), "=SUM(A1:A4)"); CPPUNIT_ASSERT_EQUAL(10.0, m_pDoc->GetValue(ScAddress(0,11,0))); ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(0,11,0), "SUM(A1:A4)", "Wrong formula."); // Move A1:A3 to C1:C3. Note that A4 remains. ScDocFunc& rFunc = getDocShell().GetDocFunc(); bool bMoved = rFunc.MoveBlock(ScRange(0,0,0,0,2,0), ScAddress(2,0,0), true, true, false, true); CPPUNIT_ASSERT(bMoved); CPPUNIT_ASSERT_EQUAL(1.0, m_pDoc->GetValue(ScAddress(0,5,0))); ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(0,5,0), "C1", "Wrong formula."); CPPUNIT_ASSERT_EQUAL(6.0, m_pDoc->GetValue(ScAddress(0,6,0))); ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(0,6,0), "C1+C2+C3", "Wrong formula."); CPPUNIT_ASSERT_EQUAL(8.0, m_pDoc->GetValue(ScAddress(0,7,0))); ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(0,7,0), "C1+C3+A4", "Wrong formula."); CPPUNIT_ASSERT_EQUAL(3.0, m_pDoc->GetValue(ScAddress(0,9,0))); ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(0,9,0), "SUM(C1:C2)", "Wrong formula."); CPPUNIT_ASSERT_EQUAL(6.0, m_pDoc->GetValue(ScAddress(0,10,0))); ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(0,10,0), "SUM(C1:C3)", "Wrong formula."); CPPUNIT_ASSERT_EQUAL(4.0, m_pDoc->GetValue(ScAddress(0,11,0))); ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(0,11,0), "SUM(A1:A4)", "Wrong formula."); // Undo the move. SfxUndoManager* pUndoMgr = m_pDoc->GetUndoManager(); CPPUNIT_ASSERT(pUndoMgr); pUndoMgr->Undo(); CPPUNIT_ASSERT_EQUAL(1.0, m_pDoc->GetValue(ScAddress(0,5,0))); ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(0,5,0), "A1", "Wrong formula."); CPPUNIT_ASSERT_EQUAL(6.0, m_pDoc->GetValue(ScAddress(0,6,0))); ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(0,6,0), "A1+A2+A3", "Wrong formula."); CPPUNIT_ASSERT_EQUAL(8.0, m_pDoc->GetValue(ScAddress(0,7,0))); ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(0,7,0), "A1+A3+A4", "Wrong formula."); CPPUNIT_ASSERT_EQUAL(3.0, m_pDoc->GetValue(ScAddress(0,9,0))); ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(0,9,0), "SUM(A1:A2)", "Wrong formula."); CPPUNIT_ASSERT_EQUAL(6.0, m_pDoc->GetValue(ScAddress(0,10,0))); ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(0,10,0), "SUM(A1:A3)", "Wrong formula."); CPPUNIT_ASSERT_EQUAL(10.0, m_pDoc->GetValue(ScAddress(0,11,0))); ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(0,11,0), "SUM(A1:A4)","Wrong formula." ); // Make sure the broadcasters are still valid by changing the value of A1. m_pDoc->SetValue(ScAddress(0,0,0), 20); CPPUNIT_ASSERT_EQUAL(20.0, m_pDoc->GetValue(ScAddress(0,5,0))); CPPUNIT_ASSERT_EQUAL(25.0, m_pDoc->GetValue(ScAddress(0,6,0))); CPPUNIT_ASSERT_EQUAL(27.0, m_pDoc->GetValue(ScAddress(0,7,0))); CPPUNIT_ASSERT_EQUAL(22.0, m_pDoc->GetValue(ScAddress(0,9,0))); CPPUNIT_ASSERT_EQUAL(25.0, m_pDoc->GetValue(ScAddress(0,10,0))); CPPUNIT_ASSERT_EQUAL(29.0, m_pDoc->GetValue(ScAddress(0,11,0))); m_pDoc->DeleteTab(0); } void Test::testFormulaRefUpdateMoveUndo2() { m_pDoc->InsertTab(0, "Test"); sc::AutoCalcSwitch aACSwitch(*m_pDoc, true); // turn auto calc on. std::vector> aData = { { "1", "2", "=A2*10", "=SUM(A1:B1)" }, { "3", "4", "=SUM(A2:B2)", "=SUM(A2:B2)" }, { "=SUM(A1:B1)" }, }; ScRange aOutRange = insertRangeData(m_pDoc, ScAddress(0,0,0), aData); std::vector> aCheckInitial = { { "1", "2", "30", "3" }, { "3", "4", "7", "7" }, { "3", nullptr, nullptr, nullptr }, }; bool bGood = checkOutput(m_pDoc, aOutRange, aCheckInitial, "initial data"); CPPUNIT_ASSERT(bGood); // D1:D2 should be grouped. const ScFormulaCell* pFC = m_pDoc->GetFormulaCell(ScAddress(3,0,0)); CPPUNIT_ASSERT(pFC); CPPUNIT_ASSERT_EQUAL(SCROW(2), pFC->GetSharedLength()); // Drag A1:B1 into A2:B2 thereby overwriting the old A2:B2 content. ScDocFunc& rFunc = getDocShell().GetDocFunc(); bool bMoved = rFunc.MoveBlock(ScRange(0,0,0,1,0,0), ScAddress(0,1,0), true, true, false, true); CPPUNIT_ASSERT(bMoved); std::vector> aCheckAfter = { { nullptr, nullptr, "10", "3" }, { "1", "2", "3", "3" }, { "3", nullptr, nullptr, nullptr }, }; bGood = checkOutput(m_pDoc, aOutRange, aCheckAfter, "A1:B1 moved to A2:B2"); CPPUNIT_ASSERT(bGood); // Undo the move. SfxUndoManager* pUndoMgr = m_pDoc->GetUndoManager(); CPPUNIT_ASSERT(pUndoMgr); pUndoMgr->Undo(); bGood = checkOutput(m_pDoc, aOutRange, aCheckInitial, "after undo"); CPPUNIT_ASSERT(bGood); // D1:D2 should be grouped. pFC = m_pDoc->GetFormulaCell(ScAddress(3,0,0)); CPPUNIT_ASSERT(pFC); CPPUNIT_ASSERT_EQUAL(SCROW(2), pFC->GetSharedLength()); // Redo and check. pUndoMgr->Redo(); bGood = checkOutput(m_pDoc, aOutRange, aCheckAfter, "after redo"); CPPUNIT_ASSERT(bGood); m_pDoc->DeleteTab(0); } void Test::testFormulaRefUpdateMoveUndo3NonShared() { m_pDoc->InsertTab(0, "Test"); sc::AutoCalcSwitch aACSwitch(*m_pDoc, true); // turn auto calc on. std::vector> aData = { { "10", nullptr, nullptr }, { "=A1", nullptr, nullptr }, { "=A2+A1", nullptr, nullptr }, }; ScRange aOutRange = insertRangeData(m_pDoc, ScAddress(0,0,0), aData); std::vector> aCheckInitial = { { "10", nullptr, nullptr }, { "10", nullptr, nullptr }, { "20", nullptr, nullptr }, }; bool bGood = checkOutput(m_pDoc, aOutRange, aCheckInitial, "initial data"); CPPUNIT_ASSERT(bGood); // Drag A2:A3 into C2:C3. ScDocFunc& rFunc = getDocShell().GetDocFunc(); bool bMoved = rFunc.MoveBlock(ScRange(0,1,0,0,2,0), ScAddress(2,1,0), true, true, false, true); CPPUNIT_ASSERT(bMoved); std::vector> aCheckAfter = { { "10", nullptr, nullptr}, { nullptr, nullptr, "10" }, { nullptr, nullptr, "20" }, }; bGood = checkOutput(m_pDoc, aOutRange, aCheckAfter, "A2:A3 moved to C2:C3"); CPPUNIT_ASSERT(bGood); // Undo the move. SfxUndoManager* pUndoMgr = m_pDoc->GetUndoManager(); CPPUNIT_ASSERT(pUndoMgr); pUndoMgr->Undo(); bGood = checkOutput(m_pDoc, aOutRange, aCheckInitial, "after undo"); CPPUNIT_ASSERT(bGood); // Redo and check. pUndoMgr->Redo(); bGood = checkOutput(m_pDoc, aOutRange, aCheckAfter, "after redo"); CPPUNIT_ASSERT(bGood); m_pDoc->DeleteTab(0); } void Test::testFormulaRefUpdateMoveUndo3Shared() { m_pDoc->InsertTab(0, "Test"); sc::AutoCalcSwitch aACSwitch(*m_pDoc, true); // turn auto calc on. std::vector> aData = { { "10", nullptr, nullptr }, { "=A1", nullptr, nullptr }, { "=A2+$A$1", nullptr, nullptr }, { "=A3+$A$1", nullptr, nullptr }, }; ScRange aOutRange = insertRangeData(m_pDoc, ScAddress(0,0,0), aData); std::vector> aCheckInitial = { { "10", nullptr, nullptr }, { "10", nullptr, nullptr }, { "20", nullptr, nullptr }, { "30", nullptr, nullptr }, }; bool bGood = checkOutput(m_pDoc, aOutRange, aCheckInitial, "initial data"); CPPUNIT_ASSERT(bGood); // A3:A4 should be grouped. const ScFormulaCell* pFC = m_pDoc->GetFormulaCell(ScAddress(0,2,0)); CPPUNIT_ASSERT(pFC); CPPUNIT_ASSERT_EQUAL(SCROW(2), pFC->GetSharedLength()); // Drag A2:A4 into C2:C4. ScDocFunc& rFunc = getDocShell().GetDocFunc(); bool bMoved = rFunc.MoveBlock(ScRange(0,1,0,0,3,0), ScAddress(2,1,0), true, true, false, true); CPPUNIT_ASSERT(bMoved); std::vector> aCheckAfter = { { "10", nullptr, nullptr}, { nullptr, nullptr, "10" }, { nullptr, nullptr, "20" }, { nullptr, nullptr, "30" }, }; bGood = checkOutput(m_pDoc, aOutRange, aCheckAfter, "A2:A4 moved to C2:C4"); CPPUNIT_ASSERT(bGood); // C3:C4 should be grouped. pFC = m_pDoc->GetFormulaCell(ScAddress(2,2,0)); CPPUNIT_ASSERT(pFC); CPPUNIT_ASSERT_EQUAL(SCROW(2), pFC->GetSharedLength()); // Undo the move. SfxUndoManager* pUndoMgr = m_pDoc->GetUndoManager(); CPPUNIT_ASSERT(pUndoMgr); pUndoMgr->Undo(); bGood = checkOutput(m_pDoc, aOutRange, aCheckInitial, "after undo"); CPPUNIT_ASSERT(bGood); // A3:A4 should be grouped. pFC = m_pDoc->GetFormulaCell(ScAddress(0,2,0)); CPPUNIT_ASSERT(pFC); CPPUNIT_ASSERT_EQUAL(SCROW(2), pFC->GetSharedLength()); // Redo and check. pUndoMgr->Redo(); bGood = checkOutput(m_pDoc, aOutRange, aCheckAfter, "after redo"); CPPUNIT_ASSERT(bGood); m_pDoc->DeleteTab(0); } void Test::testFormulaRefUpdateMoveUndoDependents() { m_pDoc->InsertTab(0, "Test"); sc::AutoCalcSwitch aACSwitch(*m_pDoc, true); // turn auto calc on. std::vector> aData = { { "1" }, { "22" }, { "3" }, { "4" }, { "5" }, { "=SUM(C1:C5)" }, { "=C6" }, }; ScRange aOutRange = insertRangeData(m_pDoc, ScAddress(2,0,0), aData); std::vector> aCheckInitial = { { "1" }, { "22" }, { "3" }, { "4" }, { "5" }, { "35" }, { "35" }, }; bool bGood = checkOutput(m_pDoc, aOutRange, aCheckInitial, "initial data"); CPPUNIT_ASSERT(bGood); // Drag C2 into D2. ScDocFunc& rFunc = getDocShell().GetDocFunc(); bool bMoved = rFunc.MoveBlock(ScRange(2, 1, 0, 2, 1, 0), ScAddress(3, 1, 0), true, true, false, true); CPPUNIT_ASSERT(bMoved); std::vector> aCheckAfter = { { "1" }, { nullptr }, { "3" }, { "4" }, { "5" }, { "13" }, { "13" }, }; bGood = checkOutput(m_pDoc, aOutRange, aCheckAfter, "C2 moved to D2"); CPPUNIT_ASSERT(bGood); // Undo the move. SfxUndoManager* pUndoMgr = m_pDoc->GetUndoManager(); CPPUNIT_ASSERT(pUndoMgr); pUndoMgr->Undo(); bGood = checkOutput(m_pDoc, aOutRange, aCheckInitial, "after undo"); CPPUNIT_ASSERT(bGood); // Redo and check. pUndoMgr->Redo(); bGood = checkOutput(m_pDoc, aOutRange, aCheckAfter, "after redo"); CPPUNIT_ASSERT(bGood); m_pDoc->DeleteTab(0); } void Test::testFormulaRefUpdateMoveUndo4() { m_pDoc->InsertTab(0, "Test"); sc::AutoCalcSwitch aACSwitch(*m_pDoc, true); // turn auto calc on. std::vector> aData = { { "1", nullptr, "=B1", "=A1" }, { "2", nullptr, "=B2", "=A2" }, }; ScRange aOutRange = insertRangeData(m_pDoc, ScAddress(0,0,0), aData); std::vector> aCheckInitial = { { "1", nullptr, "0", "1" }, { "2", nullptr, "0", "2" }, }; bool bGood = checkOutput(m_pDoc, aOutRange, aCheckInitial, "initial data"); CPPUNIT_ASSERT(bGood); // Drag A1:A2 into B1:B2. ScDocFunc& rFunc = getDocShell().GetDocFunc(); bool bMoved = rFunc.MoveBlock(ScRange(0, 0, 0, 0, 1, 0), ScAddress(1, 0, 0), true, true, false, true); CPPUNIT_ASSERT(bMoved); std::vector> aCheckAfter = { { nullptr, "1", "1", "1" }, { nullptr, "2", "2", "2" }, }; bGood = checkOutput(m_pDoc, aOutRange, aCheckAfter, "A1:A2 moved to B1:B2"); CPPUNIT_ASSERT(bGood); ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(2,0,0), "B1", "Wrong formula"); // C1 ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(2,1,0), "B2", "Wrong formula"); // C2 ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(3,0,0), "B1", "Wrong formula"); // D1 ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(3,1,0), "B2", "Wrong formula"); // D2 // Undo the move. SfxUndoManager* pUndoMgr = m_pDoc->GetUndoManager(); CPPUNIT_ASSERT(pUndoMgr); pUndoMgr->Undo(); bGood = checkOutput(m_pDoc, aOutRange, aCheckInitial, "after undo"); CPPUNIT_ASSERT(bGood); ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(2,0,0), "B1", "Wrong formula"); // C1 ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(2,1,0), "B2", "Wrong formula"); // C2 ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(3,0,0), "A1", "Wrong formula"); // D1 ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(3,1,0), "A2", "Wrong formula"); // D2 // Redo and check. pUndoMgr->Redo(); bGood = checkOutput(m_pDoc, aOutRange, aCheckAfter, "after redo"); CPPUNIT_ASSERT(bGood); ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(2,0,0), "B1", "Wrong formula"); // C1 ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(2,1,0), "B2", "Wrong formula"); // C2 ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(3,0,0), "B1", "Wrong formula"); // D1 ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(3,1,0), "B2", "Wrong formula"); // D2 m_pDoc->DeleteTab(0); } void Test::testFormulaRefUpdateMoveToSheet() { sc::AutoCalcSwitch aACSwitch(*m_pDoc, true); // turn auto calc on. m_pDoc->InsertTab(0, "Sheet1"); m_pDoc->InsertTab(1, "Sheet2"); // Set values to A1:A2 on Sheet1, and B1:B2 to reference them. m_pDoc->SetValue(ScAddress(0,0,0), 11); m_pDoc->SetValue(ScAddress(0,1,0), 12); m_pDoc->SetString(ScAddress(1,0,0), "=A1"); m_pDoc->SetString(ScAddress(1,1,0), "=A2"); ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(1,0,0), "A1", "Wrong formula"); ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(1,1,0), "A2", "Wrong formula"); CPPUNIT_ASSERT_EQUAL(11.0, m_pDoc->GetValue(ScAddress(1,0,0))); CPPUNIT_ASSERT_EQUAL(12.0, m_pDoc->GetValue(ScAddress(1,1,0))); // Move A1:A2 on Sheet1 to B3:B4 on Sheet2. ScDocFunc& rFunc = getDocShell().GetDocFunc(); bool bMoved = rFunc.MoveBlock(ScRange(0,0,0,0,1,0), ScAddress(1,2,1), true, true, false, true); CPPUNIT_ASSERT(bMoved); ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(1,0,0), "Sheet2.B3", "Wrong formula"); ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(1,1,0), "Sheet2.B4", "Wrong formula"); // Undo and check again. SfxUndoManager* pUndoMgr = m_pDoc->GetUndoManager(); pUndoMgr->Undo(); ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(1,0,0), "A1", "Wrong formula"); ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(1,1,0), "A2", "Wrong formula"); // Redo and check. pUndoMgr->Redo(); ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(1,0,0), "Sheet2.B3", "Wrong formula"); ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(1,1,0), "Sheet2.B4", "Wrong formula"); m_pDoc->DeleteTab(1); m_pDoc->DeleteTab(0); } void Test::testFormulaRefUpdateDeleteContent() { sc::AutoCalcSwitch aACSwitch(*m_pDoc, true); // turn auto calc on. m_pDoc->InsertTab(0, "Test"); // Set value in B2. m_pDoc->SetValue(ScAddress(1,1,0), 2.0); // Set formula in C2 to reference B2. m_pDoc->SetString(ScAddress(2,1,0), "=B2"); CPPUNIT_ASSERT_EQUAL(2.0, m_pDoc->GetValue(ScAddress(2,1,0))); // Delete B2. ScDocFunc& rFunc = getDocShell().GetDocFunc(); ScMarkData aMark(MAXROW, MAXCOL); aMark.SetMarkArea(ScAddress(1,1,0)); rFunc.DeleteContents(aMark, InsertDeleteFlags::CONTENTS, true, true); CPPUNIT_ASSERT_EQUAL_MESSAGE("B2 should be empty.", CELLTYPE_NONE, m_pDoc->GetCellType(ScAddress(1,1,0))); CPPUNIT_ASSERT_EQUAL(0.0, m_pDoc->GetValue(ScAddress(2,1,0))); SfxUndoManager* pUndoMgr = m_pDoc->GetUndoManager(); CPPUNIT_ASSERT(pUndoMgr); // Undo and check the result of C2. pUndoMgr->Undo(); CPPUNIT_ASSERT_EQUAL(2.0, m_pDoc->GetValue(ScAddress(1,1,0))); // B2 CPPUNIT_ASSERT_EQUAL(2.0, m_pDoc->GetValue(ScAddress(2,1,0))); // C2 // Redo and check. pUndoMgr->Redo(); CPPUNIT_ASSERT_EQUAL_MESSAGE("B2 should be empty.", CELLTYPE_NONE, m_pDoc->GetCellType(ScAddress(1,1,0))); CPPUNIT_ASSERT_EQUAL(0.0, m_pDoc->GetValue(ScAddress(2,1,0))); m_pDoc->DeleteTab(0); } void Test::testFormulaRefUpdateDeleteAndShiftLeft() { sc::AutoCalcSwitch aACSwitch(*m_pDoc, true); // turn auto calc on. m_pDoc->InsertTab(0, "Test"); // Insert 1,2,3,4,5 in C1:G1. for (SCCOL i = 0; i <= 4; ++i) m_pDoc->SetValue(ScAddress(i+2,0,0), i+1); // Insert formula in H1. ScAddress aPos(7,0,0); m_pDoc->SetString(aPos, "=SUM(C1:G1)"); CPPUNIT_ASSERT_EQUAL(15.0, m_pDoc->GetValue(aPos)); // Delete columns D:E (middle of the reference). ScMarkData aMark(MAXROW, MAXCOL); aMark.SelectOneTable(0); ScDocFunc& rFunc = getDocShell().GetDocFunc(); bool bDeleted = rFunc.DeleteCells(ScRange(3,0,0,4,m_pDoc->MaxRow(),0), &aMark, DelCellCmd::CellsLeft, true); CPPUNIT_ASSERT(bDeleted); aPos.IncCol(-2); CPPUNIT_ASSERT_EQUAL(10.0, m_pDoc->GetValue(aPos)); ASSERT_FORMULA_EQUAL(*m_pDoc, aPos, "SUM(C1:E1)", "Wrong formula!"); // Undo and check. SfxUndoManager* pUndo = m_pDoc->GetUndoManager(); CPPUNIT_ASSERT(pUndo); pUndo->Undo(); aPos.IncCol(2); CPPUNIT_ASSERT_EQUAL(15.0, m_pDoc->GetValue(aPos)); ASSERT_FORMULA_EQUAL(*m_pDoc, aPos, "SUM(C1:G1)", "Wrong formula!"); // Delete columns C:D (left end of the reference). bDeleted = rFunc.DeleteCells(ScRange(2,0,0,3,m_pDoc->MaxRow(),0), &aMark, DelCellCmd::CellsLeft, true); CPPUNIT_ASSERT(bDeleted); aPos.IncCol(-2); CPPUNIT_ASSERT_EQUAL(12.0, m_pDoc->GetValue(aPos)); ASSERT_FORMULA_EQUAL(*m_pDoc, aPos, "SUM(C1:E1)", "Wrong formula!"); // Undo and check again. pUndo->Undo(); aPos.IncCol(2); CPPUNIT_ASSERT_EQUAL(15.0, m_pDoc->GetValue(aPos)); ASSERT_FORMULA_EQUAL(*m_pDoc, aPos, "SUM(C1:G1)", "Wrong formula!"); // Delete columns B:E (overlaps on the left). bDeleted = rFunc.DeleteCells(ScRange(1,0,0,4,m_pDoc->MaxRow(),0), &aMark, DelCellCmd::CellsLeft, true); CPPUNIT_ASSERT(bDeleted); aPos.IncCol(-4); CPPUNIT_ASSERT_EQUAL(9.0, m_pDoc->GetValue(aPos)); ASSERT_FORMULA_EQUAL(*m_pDoc, aPos, "SUM(B1:C1)", "Wrong formula!"); // Undo and check again. pUndo->Undo(); aPos.IncCol(4); CPPUNIT_ASSERT_EQUAL(15.0, m_pDoc->GetValue(aPos)); ASSERT_FORMULA_EQUAL(*m_pDoc, aPos, "SUM(C1:G1)", "Wrong formula!"); // Start over with a new scenario. clearSheet(m_pDoc, 0); // Insert 1,2,3,4,5,6 into C1:H1. for (SCCOL i = 0; i <= 5; ++i) m_pDoc->SetValue(ScAddress(i+2,0,0), i+1); // Set formula in B1. aPos = ScAddress(1,0,0); m_pDoc->SetString(aPos, "=SUM(C1:H1)"); CPPUNIT_ASSERT_EQUAL(21.0, m_pDoc->GetValue(aPos)); // Delete columns F:H (right end of the reference). bDeleted = rFunc.DeleteCells(ScRange(5,0,0,7,m_pDoc->MaxRow(),0), &aMark, DelCellCmd::CellsLeft, true); CPPUNIT_ASSERT(bDeleted); CPPUNIT_ASSERT_EQUAL(6.0, m_pDoc->GetValue(aPos)); ASSERT_FORMULA_EQUAL(*m_pDoc, aPos, "SUM(C1:E1)", "Wrong formula!"); // Undo and check. pUndo->Undo(); CPPUNIT_ASSERT_EQUAL(21.0, m_pDoc->GetValue(aPos)); ASSERT_FORMULA_EQUAL(*m_pDoc, aPos, "SUM(C1:H1)", "Wrong formula!"); // Delete columns G:I (overlaps on the right). bDeleted = rFunc.DeleteCells(ScRange(6,0,0,8,m_pDoc->MaxRow(),0), &aMark, DelCellCmd::CellsLeft, true); CPPUNIT_ASSERT(bDeleted); CPPUNIT_ASSERT_EQUAL(10.0, m_pDoc->GetValue(aPos)); ASSERT_FORMULA_EQUAL(*m_pDoc, aPos, "SUM(C1:F1)", "Wrong formula!"); // Undo and check again. pUndo->Undo(); CPPUNIT_ASSERT_EQUAL(21.0, m_pDoc->GetValue(aPos)); ASSERT_FORMULA_EQUAL(*m_pDoc, aPos, "SUM(C1:H1)", "Wrong formula!"); m_pDoc->DeleteTab(0); } void Test::testFormulaRefUpdateDeleteAndShiftLeft2() { sc::AutoCalcSwitch aACSwitch(*m_pDoc, true); // turn auto calc on. m_pDoc->InsertTab(0, "Test"); std::vector> aData = { { "1", "=COUNT($A$1:$A$4)", "=COUNT(A1)" }, { "2", "=COUNT($A$1:$A$4)", "=COUNT(A2)" }, { "3", "=COUNT($A$1:$A$4)", "=COUNT(A3)" }, { "4", "=COUNT($A$1:$A$4)", "=COUNT(A4)" }, }; insertRangeData(m_pDoc, ScAddress(), aData); auto funcCheckOriginal = [&]() { CPPUNIT_ASSERT_EQUAL(1.0, m_pDoc->GetValue(ScAddress(0,0,0))); // A1 CPPUNIT_ASSERT_EQUAL(2.0, m_pDoc->GetValue(ScAddress(0,1,0))); // A2 CPPUNIT_ASSERT_EQUAL(3.0, m_pDoc->GetValue(ScAddress(0,2,0))); // A3 CPPUNIT_ASSERT_EQUAL(4.0, m_pDoc->GetValue(ScAddress(0,3,0))); // A4 CPPUNIT_ASSERT_EQUAL(4.0, m_pDoc->GetValue(ScAddress(1,0,0))); // B1 CPPUNIT_ASSERT_EQUAL(4.0, m_pDoc->GetValue(ScAddress(1,1,0))); // B2 CPPUNIT_ASSERT_EQUAL(4.0, m_pDoc->GetValue(ScAddress(1,2,0))); // B3 CPPUNIT_ASSERT_EQUAL(4.0, m_pDoc->GetValue(ScAddress(1,3,0))); // B4 CPPUNIT_ASSERT_EQUAL(1.0, m_pDoc->GetValue(ScAddress(2,0,0))); // C1 CPPUNIT_ASSERT_EQUAL(1.0, m_pDoc->GetValue(ScAddress(2,1,0))); // C2 CPPUNIT_ASSERT_EQUAL(1.0, m_pDoc->GetValue(ScAddress(2,2,0))); // C3 CPPUNIT_ASSERT_EQUAL(1.0, m_pDoc->GetValue(ScAddress(2,3,0))); // C4 }; auto funcCheckDeleted = [&]() { CPPUNIT_ASSERT_EQUAL(OUString("#REF!"), m_pDoc->GetString(ScAddress(0,0,0))); // A1 CPPUNIT_ASSERT_EQUAL(OUString("#REF!"), m_pDoc->GetString(ScAddress(0,1,0))); // A2 CPPUNIT_ASSERT_EQUAL(OUString("#REF!"), m_pDoc->GetString(ScAddress(0,2,0))); // A3 CPPUNIT_ASSERT_EQUAL(OUString("#REF!"), m_pDoc->GetString(ScAddress(0,3,0))); // A4 CPPUNIT_ASSERT_EQUAL(OUString("#REF!"), m_pDoc->GetString(ScAddress(1,0,0))); // B1 CPPUNIT_ASSERT_EQUAL(OUString("#REF!"), m_pDoc->GetString(ScAddress(1,1,0))); // B2 CPPUNIT_ASSERT_EQUAL(OUString("#REF!"), m_pDoc->GetString(ScAddress(1,2,0))); // B3 CPPUNIT_ASSERT_EQUAL(OUString("#REF!"), m_pDoc->GetString(ScAddress(1,3,0))); // B4 }; funcCheckOriginal(); // Delete Column A. ScMarkData aMark(MAXROW, MAXCOL); aMark.SelectOneTable(0); ScDocFunc& rFunc = getDocShell().GetDocFunc(); bool bDeleted = rFunc.DeleteCells(ScRange(0,0,0,0,m_pDoc->MaxRow(),0), &aMark, DelCellCmd::CellsLeft, true); CPPUNIT_ASSERT(bDeleted); funcCheckDeleted(); // Undo and check. SfxUndoManager* pUndo = m_pDoc->GetUndoManager(); CPPUNIT_ASSERT(pUndo); pUndo->Undo(); funcCheckOriginal(); // Redo and check. pUndo->Redo(); funcCheckDeleted(); m_pDoc->DeleteTab(0); } void Test::testFormulaRefUpdateDeleteAndShiftUp() { sc::AutoCalcSwitch aACSwitch(*m_pDoc, true); // turn auto calc on. m_pDoc->InsertTab(0, "Test"); // Insert 1,2,3,4,5 in A3:A7. for (SCROW i = 0; i <= 4; ++i) m_pDoc->SetValue(ScAddress(0,i+2,0), i+1); // Insert formula in A8. ScAddress aPos(0,7,0); m_pDoc->SetString(aPos, "=SUM(A3:A7)"); CPPUNIT_ASSERT_EQUAL(15.0, m_pDoc->GetValue(aPos)); // Delete rows 4:5 (middle of the reference). ScMarkData aMark(MAXROW, MAXCOL); aMark.SelectOneTable(0); ScDocFunc& rFunc = getDocShell().GetDocFunc(); bool bDeleted = rFunc.DeleteCells(ScRange(0,3,0,m_pDoc->MaxCol(),4,0), &aMark, DelCellCmd::CellsUp, true); CPPUNIT_ASSERT(bDeleted); aPos.IncRow(-2); CPPUNIT_ASSERT_EQUAL(10.0, m_pDoc->GetValue(aPos)); ASSERT_FORMULA_EQUAL(*m_pDoc, aPos, "SUM(A3:A5)", "Wrong formula!"); // Undo and check. SfxUndoManager* pUndo = m_pDoc->GetUndoManager(); CPPUNIT_ASSERT(pUndo); pUndo->Undo(); aPos.IncRow(2); CPPUNIT_ASSERT_EQUAL(15.0, m_pDoc->GetValue(aPos)); ASSERT_FORMULA_EQUAL(*m_pDoc, aPos, "SUM(A3:A7)", "Wrong formula!"); // Delete rows 3:4 (top end of the reference). bDeleted = rFunc.DeleteCells(ScRange(0,2,0,m_pDoc->MaxCol(),3,0), &aMark, DelCellCmd::CellsUp, true); CPPUNIT_ASSERT(bDeleted); aPos.IncRow(-2); CPPUNIT_ASSERT_EQUAL(12.0, m_pDoc->GetValue(aPos)); ASSERT_FORMULA_EQUAL(*m_pDoc, aPos, "SUM(A3:A5)", "Wrong formula!"); // Undo and check again. pUndo->Undo(); aPos.IncRow(2); CPPUNIT_ASSERT_EQUAL(15.0, m_pDoc->GetValue(aPos)); ASSERT_FORMULA_EQUAL(*m_pDoc, aPos, "SUM(A3:A7)", "Wrong formula!"); // Delete rows 2:5 (overlaps on the top). bDeleted = rFunc.DeleteCells(ScRange(0,1,0,m_pDoc->MaxCol(),4,0), &aMark, DelCellCmd::CellsUp, true); CPPUNIT_ASSERT(bDeleted); aPos.IncRow(-4); CPPUNIT_ASSERT_EQUAL(9.0, m_pDoc->GetValue(aPos)); ASSERT_FORMULA_EQUAL(*m_pDoc, aPos, "SUM(A2:A3)", "Wrong formula!"); // Undo and check again. pUndo->Undo(); aPos.IncRow(4); CPPUNIT_ASSERT_EQUAL(15.0, m_pDoc->GetValue(aPos)); ASSERT_FORMULA_EQUAL(*m_pDoc, aPos, "SUM(A3:A7)", "Wrong formula!"); // Start over with a new scenario. clearSheet(m_pDoc, 0); // Insert 1,2,3,4,5,6 into A3:A8. for (SCROW i = 0; i <= 5; ++i) m_pDoc->SetValue(ScAddress(0,i+2,0), i+1); // Set formula in B1. aPos = ScAddress(0,1,0); m_pDoc->SetString(aPos, "=SUM(A3:A8)"); CPPUNIT_ASSERT_EQUAL(21.0, m_pDoc->GetValue(aPos)); // Delete rows 6:8 (bottom end of the reference). bDeleted = rFunc.DeleteCells(ScRange(0,5,0,m_pDoc->MaxCol(),7,0), &aMark, DelCellCmd::CellsUp, true); CPPUNIT_ASSERT(bDeleted); CPPUNIT_ASSERT_EQUAL(6.0, m_pDoc->GetValue(aPos)); ASSERT_FORMULA_EQUAL(*m_pDoc, aPos, "SUM(A3:A5)", "Wrong formula!"); // Undo and check. pUndo->Undo(); CPPUNIT_ASSERT_EQUAL(21.0, m_pDoc->GetValue(aPos)); ASSERT_FORMULA_EQUAL(*m_pDoc, aPos, "SUM(A3:A8)", "Wrong formula!"); // Delete rows 7:9 (overlaps on the bottom). bDeleted = rFunc.DeleteCells(ScRange(0,6,0,m_pDoc->MaxCol(),8,0), &aMark, DelCellCmd::CellsUp, true); CPPUNIT_ASSERT(bDeleted); CPPUNIT_ASSERT_EQUAL(10.0, m_pDoc->GetValue(aPos)); ASSERT_FORMULA_EQUAL(*m_pDoc, aPos, "SUM(A3:A6)", "Wrong formula!"); // Undo and check again. pUndo->Undo(); CPPUNIT_ASSERT_EQUAL(21.0, m_pDoc->GetValue(aPos)); ASSERT_FORMULA_EQUAL(*m_pDoc, aPos, "SUM(A3:A8)", "Wrong formula!"); m_pDoc->DeleteTab(0); } void Test::testFormulaRefUpdateName() { m_pDoc->InsertTab(0, "Formula"); sc::AutoCalcSwitch aACSwitch(*m_pDoc, true); // turn auto calc on. // Fill C2:C5 with values. m_pDoc->SetValue(ScAddress(2,1,0), 1); m_pDoc->SetValue(ScAddress(2,2,0), 2); m_pDoc->SetValue(ScAddress(2,3,0), 3); m_pDoc->SetValue(ScAddress(2,4,0), 4); // Add a named expression that references the immediate left cell. ScRangeName* pGlobalNames = m_pDoc->GetRangeName(); CPPUNIT_ASSERT_MESSAGE("Failed to obtain global named expression object.", pGlobalNames); ScRangeData* pName = new ScRangeData( m_pDoc, "ToLeft", "RC[-1]", ScAddress(2,1,0), ScRangeData::Type::Name, formula::FormulaGrammar::GRAM_NATIVE_XL_R1C1); bool bInserted = pGlobalNames->insert(pName); CPPUNIT_ASSERT_MESSAGE("Failed to insert a new name.", bInserted); // Insert formulas in D2:D5 using the named expression. m_pDoc->SetString(ScAddress(3,1,0), "=ToLeft"); m_pDoc->SetString(ScAddress(3,2,0), "=ToLeft"); m_pDoc->SetString(ScAddress(3,3,0), "=ToLeft"); m_pDoc->SetString(ScAddress(3,4,0), "=ToLeft"); // Make sure the results are correct. CPPUNIT_ASSERT_EQUAL(1.0, m_pDoc->GetValue(3,1,0)); CPPUNIT_ASSERT_EQUAL(2.0, m_pDoc->GetValue(3,2,0)); CPPUNIT_ASSERT_EQUAL(3.0, m_pDoc->GetValue(3,3,0)); CPPUNIT_ASSERT_EQUAL(4.0, m_pDoc->GetValue(3,4,0)); // Push cells in column C down by one cell. m_pDoc->InsertRow(ScRange(2,0,0,2,0,0)); // Make sure the results change accordingly. CPPUNIT_ASSERT_EQUAL(0.0, m_pDoc->GetValue(3,1,0)); CPPUNIT_ASSERT_EQUAL(1.0, m_pDoc->GetValue(3,2,0)); CPPUNIT_ASSERT_EQUAL(2.0, m_pDoc->GetValue(3,3,0)); CPPUNIT_ASSERT_EQUAL(3.0, m_pDoc->GetValue(3,4,0)); // Move cells back. m_pDoc->DeleteRow(ScRange(2,0,0,2,0,0)); // Make sure the results are back as well. CPPUNIT_ASSERT_EQUAL(1.0, m_pDoc->GetValue(3,1,0)); CPPUNIT_ASSERT_EQUAL(2.0, m_pDoc->GetValue(3,2,0)); CPPUNIT_ASSERT_EQUAL(3.0, m_pDoc->GetValue(3,3,0)); CPPUNIT_ASSERT_EQUAL(4.0, m_pDoc->GetValue(3,4,0)); // Fill B10:B12 with values. m_pDoc->SetValue(ScAddress(1,9,0), 10); m_pDoc->SetValue(ScAddress(1,10,0), 11); m_pDoc->SetValue(ScAddress(1,11,0), 12); // Insert a new named expression that references these values as absolute range. pName = new ScRangeData( m_pDoc, "MyRange", "$B$10:$B$12", ScAddress(0,0,0), ScRangeData::Type::Name, formula::FormulaGrammar::GRAM_NATIVE); bInserted = pGlobalNames->insert(pName); CPPUNIT_ASSERT_MESSAGE("Failed to insert a new name.", bInserted); // Set formula at C8 that references this named expression. m_pDoc->SetString(ScAddress(2,7,0), "=SUM(MyRange)"); CPPUNIT_ASSERT_EQUAL(33.0, m_pDoc->GetValue(ScAddress(2,7,0))); // Shift B10:B12 to right by 2 columns. m_pDoc->InsertCol(ScRange(1,9,0,2,11,0)); // This should shift the absolute range B10:B12 that MyRange references. pName = pGlobalNames->findByUpperName("MYRANGE"); CPPUNIT_ASSERT_MESSAGE("Failed to find named expression 'MyRange' in the global scope.", pName); OUString aExpr; pName->GetSymbol(aExpr); CPPUNIT_ASSERT_EQUAL(OUString("$D$10:$D$12"), aExpr); // This move shouldn't affect the value of C8. ScFormulaCell* pFC = m_pDoc->GetFormulaCell(ScAddress(2,7,0)); CPPUNIT_ASSERT_MESSAGE("This should be a formula cell.", pFC); CPPUNIT_ASSERT_EQUAL(33.0, m_pDoc->GetValue(ScAddress(2,7,0))); // Update the value of D10 and make sure C8 gets updated. m_pDoc->SetValue(ScAddress(3,9,0), 20); CPPUNIT_ASSERT_EQUAL(43.0, m_pDoc->GetValue(ScAddress(2,7,0))); // Insert a new sheet before the current. m_pDoc->InsertTab(0, "New"); OUString aName; m_pDoc->GetName(1, aName); CPPUNIT_ASSERT_EQUAL(OUString("Formula"), aName); pName = pGlobalNames->findByUpperName("MYRANGE"); CPPUNIT_ASSERT_MESSAGE("Failed to find named expression 'MyRange' in the global scope.", pName); m_pDoc->SetValue(ScAddress(3,9,1), 10); CPPUNIT_ASSERT_EQUAL(33.0, m_pDoc->GetValue(ScAddress(2,7,1))); // Delete the inserted sheet, which will shift the 'Formula' sheet to the left. m_pDoc->DeleteTab(0); aName.clear(); m_pDoc->GetName(0, aName); CPPUNIT_ASSERT_EQUAL(OUString("Formula"), aName); pName = pGlobalNames->findByUpperName("MYRANGE"); CPPUNIT_ASSERT_MESSAGE("Failed to find named expression 'MyRange' in the global scope.", pName); m_pDoc->SetValue(ScAddress(3,9,0), 11); CPPUNIT_ASSERT_EQUAL(34.0, m_pDoc->GetValue(ScAddress(2,7,0))); // Clear all and start over. clearRange(m_pDoc, ScRange(0,0,0,100,100,0)); pGlobalNames->clear(); pName = new ScRangeData( m_pDoc, "MyRange", "$B$1:$C$6", ScAddress(0,0,0), ScRangeData::Type::Name, formula::FormulaGrammar::GRAM_NATIVE); bInserted = pGlobalNames->insert(pName); CPPUNIT_ASSERT_MESSAGE("Failed to insert a new name.", bInserted); pName->GetSymbol(aExpr); CPPUNIT_ASSERT_EQUAL(OUString("$B$1:$C$6"), aExpr); // Insert range of cells to shift right. The range partially overlaps the named range. m_pDoc->InsertCol(ScRange(2,4,0,3,8,0)); // This should not alter the range. pName->GetSymbol(aExpr); CPPUNIT_ASSERT_EQUAL(OUString("$B$1:$C$6"), aExpr); m_pDoc->DeleteTab(0); } void Test::testFormulaRefUpdateNameMove() { sc::AutoCalcSwitch aACSwitch(*m_pDoc, true); // turn auto calc on. m_pDoc->InsertTab(0, "Test"); // Set values to B2:B4. m_pDoc->SetValue(ScAddress(1,1,0), 1.0); m_pDoc->SetValue(ScAddress(1,2,0), 2.0); m_pDoc->SetValue(ScAddress(1,3,0), 3.0); // Set named range for B2:B4. bool bInserted = m_pDoc->InsertNewRangeName("MyRange", ScAddress(0,0,0), "$Test.$B$2:$B$4"); CPPUNIT_ASSERT(bInserted); // Set formula in A10. m_pDoc->SetString(ScAddress(0,9,0), "=SUM(MyRange)"); CPPUNIT_ASSERT_EQUAL(6.0, m_pDoc->GetValue(ScAddress(0,9,0))); ScRangeData* pData = m_pDoc->GetRangeName()->findByUpperName("MYRANGE"); CPPUNIT_ASSERT(pData); OUString aSymbol; pData->GetSymbol(aSymbol, m_pDoc->GetGrammar()); CPPUNIT_ASSERT_EQUAL(OUString("$Test.$B$2:$B$4"), aSymbol); // Move B2:B4 to D3. ScDocFunc& rFunc = getDocShell().GetDocFunc(); bool bMoved = rFunc.MoveBlock(ScRange(1,1,0,1,3,0), ScAddress(3,2,0), true, true, false, true); CPPUNIT_ASSERT(bMoved); // The named range should have moved as well. pData->GetSymbol(aSymbol, m_pDoc->GetGrammar()); CPPUNIT_ASSERT_EQUAL(OUString("$Test.$D$3:$D$5"), aSymbol); // The value of A10 should remain unchanged. CPPUNIT_ASSERT_EQUAL(6.0, m_pDoc->GetValue(ScAddress(0,9,0))); SfxUndoManager* pUndoMgr = m_pDoc->GetUndoManager(); CPPUNIT_ASSERT(pUndoMgr); // Undo and check. pUndoMgr->Undo(); pData = m_pDoc->GetRangeName()->findByUpperName("MYRANGE"); CPPUNIT_ASSERT(pData); pData->GetSymbol(aSymbol, m_pDoc->GetGrammar()); CPPUNIT_ASSERT_EQUAL(OUString("$Test.$B$2:$B$4"), aSymbol); CPPUNIT_ASSERT_EQUAL(6.0, m_pDoc->GetValue(ScAddress(0,9,0))); // Redo and check. pUndoMgr->Redo(); pData = m_pDoc->GetRangeName()->findByUpperName("MYRANGE"); CPPUNIT_ASSERT(pData); pData->GetSymbol(aSymbol, m_pDoc->GetGrammar()); CPPUNIT_ASSERT_EQUAL(OUString("$Test.$D$3:$D$5"), aSymbol); CPPUNIT_ASSERT_EQUAL(6.0, m_pDoc->GetValue(ScAddress(0,9,0))); // Undo again to bring it back to the initial condition, and clear the undo buffer. pUndoMgr->Undo(); pUndoMgr->Clear(); // Add an identical formula to A11 and make a formula group over A10:A11. m_pDoc->SetString(ScAddress(0,10,0), "=SUM(MyRange)"); ScFormulaCell* pFC = m_pDoc->GetFormulaCell(ScAddress(0,9,0)); CPPUNIT_ASSERT(pFC); CPPUNIT_ASSERT_EQUAL(static_cast(9), pFC->GetSharedTopRow()); CPPUNIT_ASSERT_EQUAL(static_cast(2), pFC->GetSharedLength()); // Move B2:B4 to D3 again. bMoved = rFunc.MoveBlock(ScRange(1,1,0,1,3,0), ScAddress(3,2,0), true, true, false, true); CPPUNIT_ASSERT(bMoved); // Values of A10 and A11 should remain the same. CPPUNIT_ASSERT_EQUAL(6.0, m_pDoc->GetValue(ScAddress(0,9,0))); CPPUNIT_ASSERT_EQUAL(6.0, m_pDoc->GetValue(ScAddress(0,10,0))); // Clear and start over. clearSheet(m_pDoc, 0); m_pDoc->GetRangeName()->clear(); // Set value to B2. m_pDoc->SetValue(ScAddress(1,1,0), 2.0); // Define B2 as 'MyCell'. bInserted = m_pDoc->InsertNewRangeName("MyCell", ScAddress(0,0,0), "$Test.$B$2"); CPPUNIT_ASSERT(bInserted); // Set formula to B3 that references B2 via MyCell. m_pDoc->SetString(ScAddress(1,2,0), "=MyCell*2"); CPPUNIT_ASSERT_EQUAL(4.0, m_pDoc->GetValue(ScAddress(1,2,0))); // Move B2 to D2. bMoved = rFunc.MoveBlock(ScRange(1,1,0,1,1,0), ScAddress(3,1,0), true, true, false, true); CPPUNIT_ASSERT(bMoved); // Value in B3 should remain unchanged. CPPUNIT_ASSERT_EQUAL(4.0, m_pDoc->GetValue(ScAddress(1,2,0))); m_pDoc->DeleteTab(0); } void Test::testFormulaRefUpdateNameExpandRef() { setExpandRefs(true); sc::AutoCalcSwitch aACSwitch(*m_pDoc, true); // turn auto calc on. m_pDoc->InsertTab(0, "Test"); bool bInserted = m_pDoc->InsertNewRangeName("MyRange", ScAddress(0,0,0), "$A$1:$A$3"); CPPUNIT_ASSERT(bInserted); // Set values to A1:A3. m_pDoc->SetValue(ScAddress(0,0,0), 1.0); m_pDoc->SetValue(ScAddress(0,1,0), 2.0); m_pDoc->SetValue(ScAddress(0,2,0), 3.0); m_pDoc->SetString(ScAddress(0,5,0), "=SUM(MyRange)"); CPPUNIT_ASSERT_EQUAL(6.0, m_pDoc->GetValue(ScAddress(0,5,0))); // Insert a new row at row 4, which should expand the named range to A1:A4. ScDocFunc& rFunc = getDocShell().GetDocFunc(); ScMarkData aMark(MAXROW, MAXCOL); aMark.SelectOneTable(0); rFunc.InsertCells(ScRange(0,3,0,m_pDoc->MaxCol(),3,0), &aMark, INS_INSROWS_BEFORE, false, true); ScRangeData* pName = m_pDoc->GetRangeName()->findByUpperName("MYRANGE"); CPPUNIT_ASSERT(pName); OUString aSymbol; pName->GetSymbol(aSymbol, m_pDoc->GetGrammar()); CPPUNIT_ASSERT_EQUAL(OUString("$A$1:$A$4"), aSymbol); // Make sure the listening area has been expanded as well. Note the // formula cell has been pushed downward by one cell. m_pDoc->SetValue(ScAddress(0,3,0), 4.0); CPPUNIT_ASSERT_EQUAL(10.0, m_pDoc->GetValue(ScAddress(0,6,0))); // Insert a new column at column 2, which should not expand the named // range as it is only one column wide. rFunc.InsertCells(ScRange(1,0,0,1,m_pDoc->MaxRow(),0), &aMark, INS_INSCOLS_BEFORE, false, true); pName = m_pDoc->GetRangeName()->findByUpperName("MYRANGE"); CPPUNIT_ASSERT(pName); pName->GetSymbol(aSymbol, m_pDoc->GetGrammar()); CPPUNIT_ASSERT_EQUAL(OUString("$A$1:$A$4"), aSymbol); // Make sure the referenced area has not changed. m_pDoc->SetValue(ScAddress(0,3,0), 2.0); CPPUNIT_ASSERT_EQUAL(8.0, m_pDoc->GetValue(ScAddress(0,6,0))); m_pDoc->SetValue(ScAddress(1,3,0), 2.0); CPPUNIT_ASSERT_EQUAL(8.0, m_pDoc->GetValue(ScAddress(0,6,0))); // Clear the document and start over. m_pDoc->GetRangeName()->clear(); clearSheet(m_pDoc, 0); // Set values to B4:B6. m_pDoc->SetValue(ScAddress(1,3,0), 1.0); m_pDoc->SetValue(ScAddress(1,4,0), 2.0); m_pDoc->SetValue(ScAddress(1,5,0), 3.0); bInserted = m_pDoc->InsertNewRangeName("MyRange", ScAddress(0,0,0), "$B$4:$B$6"); CPPUNIT_ASSERT(bInserted); // Set formula to A1. m_pDoc->SetString(ScAddress(0,0,0), "=SUM(MyRange)"); CPPUNIT_ASSERT_EQUAL(6.0, m_pDoc->GetValue(0,0,0)); // Insert rows over 3:5 which should expand the range by 3 rows. rFunc.InsertCells(ScRange(0,2,0,m_pDoc->MaxCol(),4,0), &aMark, INS_INSROWS_BEFORE, false, true); pName = m_pDoc->GetRangeName()->findByUpperName("MYRANGE"); CPPUNIT_ASSERT(pName); pName->GetSymbol(aSymbol, m_pDoc->GetGrammar()); CPPUNIT_ASSERT_EQUAL(OUString("$B$4:$B$9"), aSymbol); // Clear the document and start over. m_pDoc->GetRangeName()->clear(); clearSheet(m_pDoc, 0); // Set values to A1:A3. m_pDoc->SetValue(ScAddress(0,0,0), 1.0); m_pDoc->SetValue(ScAddress(0,1,0), 2.0); m_pDoc->SetValue(ScAddress(0,2,0), 3.0); // Name A1:A3 'MyData'. bInserted = m_pDoc->InsertNewRangeName("MyData", ScAddress(0,0,0), "$A$1:$A$3"); CPPUNIT_ASSERT(bInserted); // Set formulas to C1:C2 and E1. m_pDoc->SetString(ScAddress(2,0,0), "=SUM(MyData)"); m_pDoc->SetString(ScAddress(2,1,0), "=SUM(MyData)"); m_pDoc->SetString(ScAddress(4,0,0), "=SUM(MyData)"); // C1:C2 should be shared. const ScFormulaCell* pFC = m_pDoc->GetFormulaCell(ScAddress(2,0,0)); CPPUNIT_ASSERT(pFC); CPPUNIT_ASSERT_EQUAL(static_cast(0), pFC->GetSharedTopRow()); CPPUNIT_ASSERT_EQUAL(static_cast(2), pFC->GetSharedLength()); // E1 should not be shared. pFC = m_pDoc->GetFormulaCell(ScAddress(4,0,0)); CPPUNIT_ASSERT(pFC); CPPUNIT_ASSERT(!pFC->IsShared()); // Check the results. CPPUNIT_ASSERT_EQUAL(6.0, m_pDoc->GetValue(ScAddress(2,0,0))); CPPUNIT_ASSERT_EQUAL(6.0, m_pDoc->GetValue(ScAddress(2,1,0))); CPPUNIT_ASSERT_EQUAL(6.0, m_pDoc->GetValue(ScAddress(4,0,0))); // Insert a new row at row 3. This should expand MyData to A1:A4. rFunc.InsertCells(ScRange(0,2,0,m_pDoc->MaxCol(),2,0), &aMark, INS_INSROWS_BEFORE, false, true); // Set new value to A3. m_pDoc->SetValue(ScAddress(0,2,0), 4.0); // Check the results again. CPPUNIT_ASSERT_EQUAL(10.0, m_pDoc->GetValue(ScAddress(2,0,0))); CPPUNIT_ASSERT_EQUAL(10.0, m_pDoc->GetValue(ScAddress(2,1,0))); CPPUNIT_ASSERT_EQUAL(10.0, m_pDoc->GetValue(ScAddress(4,0,0))); m_pDoc->DeleteTab(0); } void Test::testFormulaRefUpdateNameExpandRef2() { setExpandRefs(true); sc::AutoCalcSwitch aACSwitch(*m_pDoc, true); // turn auto calc on. m_pDoc->InsertTab(0, "Test"); bool bInserted = m_pDoc->InsertNewRangeName("MyRange", ScAddress(0,0,0), "$A$1:$B$3"); CPPUNIT_ASSERT(bInserted); // Insert a new row at row 4, which should expand the named range to A1:A4. ScDocFunc& rFunc = getDocShell().GetDocFunc(); ScMarkData aMark(MAXROW, MAXCOL); aMark.SelectOneTable(0); // Insert a new column at column 3, which should expand the named rFunc.InsertCells(ScRange(1,0,0,1,m_pDoc->MaxRow(),0), &aMark, INS_INSCOLS_BEFORE, false, true); ScRangeData* pName = m_pDoc->GetRangeName()->findByUpperName("MYRANGE"); CPPUNIT_ASSERT(pName); OUString aSymbol; pName->GetSymbol(aSymbol, m_pDoc->GetGrammar()); CPPUNIT_ASSERT_EQUAL(OUString("$A$1:$C$3"), aSymbol); m_pDoc->DeleteTab(0); } void Test::testFormulaRefUpdateNameDeleteRow() { m_pDoc->InsertTab(0, "Test"); // Insert a new name 'MyRange' to reference B2:B4. bool bInserted = m_pDoc->InsertNewRangeName("MyRange", ScAddress(0,0,0), "$B$2:$B$4"); CPPUNIT_ASSERT(bInserted); const ScRangeData* pName = m_pDoc->GetRangeName()->findByUpperName("MYRANGE"); CPPUNIT_ASSERT(pName); sc::TokenStringContext aCxt(m_pDoc, formula::FormulaGrammar::GRAM_ENGLISH); const ScTokenArray* pCode = pName->GetCode(); OUString aExpr = pCode->CreateString(m_pDoc, aCxt, ScAddress(0,0,0)); CPPUNIT_ASSERT_EQUAL(OUString("$B$2:$B$4"), aExpr); // Insert a new name 'MyAddress' to reference $B$3. Note absolute row. bInserted = m_pDoc->InsertNewRangeName("MyAddress", ScAddress(0,0,0), "$B$3"); CPPUNIT_ASSERT(bInserted); const ScRangeData* pName2 = m_pDoc->GetRangeName()->findByUpperName("MYADDRESS"); CPPUNIT_ASSERT(pName2); sc::TokenStringContext aCxt2(m_pDoc, formula::FormulaGrammar::GRAM_ENGLISH); const ScTokenArray* pCode2 = pName2->GetCode(); OUString aExpr2 = pCode2->CreateString(m_pDoc, aCxt2, ScAddress(0,0,0)); CPPUNIT_ASSERT_EQUAL(OUString("$B$3"), aExpr2); ScDocFunc& rFunc = getDocShell().GetDocFunc(); // Delete row 3. ScMarkData aMark(MAXROW, MAXCOL); aMark.SelectOneTable(0); rFunc.DeleteCells(ScRange(0,2,0,m_pDoc->MaxCol(),2,0), &aMark, DelCellCmd::CellsUp, true); // The reference in the 'MyRange' name should get updated to B2:B3. aExpr = pCode->CreateString(m_pDoc, aCxt, ScAddress(0,0,0)); CPPUNIT_ASSERT_EQUAL(OUString("$B$2:$B$3"), aExpr); // The reference in the 'MyAddress' name should get updated to $B$#REF!. aExpr2 = pCode2->CreateString(m_pDoc, aCxt2, ScAddress(0,0,0)); CPPUNIT_ASSERT_EQUAL(OUString("$B$#REF!"), aExpr2); // Delete row 3 again. rFunc.DeleteCells(ScRange(0,2,0,m_pDoc->MaxCol(),2,0), &aMark, DelCellCmd::CellsUp, true); aExpr = pCode->CreateString(m_pDoc, aCxt, ScAddress(0,0,0)); CPPUNIT_ASSERT_EQUAL(OUString("$B$2:$B$2"), aExpr); // Undo and check. SfxUndoManager* pUndoMgr = m_pDoc->GetUndoManager(); CPPUNIT_ASSERT(pUndoMgr); pUndoMgr->Undo(); pName = m_pDoc->GetRangeName()->findByUpperName("MYRANGE"); CPPUNIT_ASSERT(pName); pCode = pName->GetCode(); aExpr = pCode->CreateString(m_pDoc, aCxt, ScAddress(0,0,0)); CPPUNIT_ASSERT_EQUAL(OUString("$B$2:$B$3"), aExpr); // Undo again and check. pUndoMgr->Undo(); pName = m_pDoc->GetRangeName()->findByUpperName("MYRANGE"); CPPUNIT_ASSERT(pName); pCode = pName->GetCode(); aExpr = pCode->CreateString(m_pDoc, aCxt, ScAddress(0,0,0)); CPPUNIT_ASSERT_EQUAL(OUString("$B$2:$B$4"), aExpr); // Delete row 2-3. rFunc.DeleteCells(ScRange(0,1,0,m_pDoc->MaxCol(),2,0), &aMark, DelCellCmd::CellsUp, true); aExpr = pCode->CreateString(m_pDoc, aCxt, ScAddress(0,0,0)); CPPUNIT_ASSERT_EQUAL(OUString("$B$2:$B$2"), aExpr); // Undo and check. pUndoMgr->Undo(); pName = m_pDoc->GetRangeName()->findByUpperName("MYRANGE"); CPPUNIT_ASSERT(pName); pCode = pName->GetCode(); aExpr = pCode->CreateString(m_pDoc, aCxt, ScAddress(0,0,0)); CPPUNIT_ASSERT_EQUAL(OUString("$B$2:$B$4"), aExpr); pName2 = m_pDoc->GetRangeName()->findByUpperName("MYADDRESS"); CPPUNIT_ASSERT(pName2); pCode2 = pName2->GetCode(); aExpr2 = pCode2->CreateString(m_pDoc, aCxt2, ScAddress(0,0,0)); CPPUNIT_ASSERT_EQUAL(OUString("$B$3"), aExpr2); m_pDoc->InsertTab(1, "test2"); ScMarkData aMark2(MAXROW, MAXCOL); aMark2.SelectOneTable(1); rFunc.DeleteCells(ScRange(0,2,1,m_pDoc->MaxCol(),2,1), &aMark2, DelCellCmd::CellsUp, true); pName = m_pDoc->GetRangeName()->findByUpperName("MYRANGE"); CPPUNIT_ASSERT(pName); pCode = pName->GetCode(); aExpr = pCode->CreateString(m_pDoc, aCxt, ScAddress(0,0,0)); CPPUNIT_ASSERT_EQUAL(OUString("$B$2:$B$4"), aExpr); pName2 = m_pDoc->GetRangeName()->findByUpperName("MYADDRESS"); CPPUNIT_ASSERT(pName2); pCode2 = pName2->GetCode(); // Deleting a range the 'MyAddress' name points into due to its implicit // relative sheet reference to the sheet where used does not invalidate // the named expression because when updating the sheet reference is // relative to its base position on sheet 0 (same for the 'MyRange' range, // which is the reason why it is not updated either). // This is a tad confusing... aExpr2 = pCode2->CreateString(m_pDoc, aCxt2, ScAddress(0,0,0)); CPPUNIT_ASSERT_EQUAL(OUString("$B$3"), aExpr2); m_pDoc->DeleteTab(1); m_pDoc->DeleteTab(0); } void Test::testFormulaRefUpdateNameCopySheet() { m_pDoc->InsertTab(0, "Test"); m_pDoc->InsertTab(1, "Test2"); bool bInserted = m_pDoc->InsertNewRangeName("RED", ScAddress(0,0,0), "$Test.$B$2"); CPPUNIT_ASSERT(bInserted); bInserted = m_pDoc->InsertNewRangeName("BLUE", ScAddress(0,0,0), "$Test.$B$3"); CPPUNIT_ASSERT(bInserted); m_pDoc->SetValue(1, 1, 0, 1); m_pDoc->SetValue(1, 2, 0, 2); // insert formula into Test2 that is =RED+BLUE m_pDoc->SetString(ScAddress(2,2,1), "=RED+BLUE"); double nVal = m_pDoc->GetValue(2, 2, 1); CPPUNIT_ASSERT_EQUAL(3.0, nVal); m_pDoc->CopyTab(1, 0); nVal = m_pDoc->GetValue(2, 2, 2); CPPUNIT_ASSERT_EQUAL(3.0, nVal); nVal = m_pDoc->GetValue(2, 2, 0); CPPUNIT_ASSERT_EQUAL(3.0, nVal); m_pDoc->SetValue(1, 1, 1, 3); nVal = m_pDoc->GetValue(2, 2, 2); CPPUNIT_ASSERT_EQUAL(5.0, nVal); nVal = m_pDoc->GetValue(2, 2, 0); CPPUNIT_ASSERT_EQUAL(5.0, nVal); m_pDoc->DeleteTab(2); m_pDoc->DeleteTab(1); m_pDoc->DeleteTab(0); m_pDoc->InsertTab(0, "Test1"); // Global name referencing sheet Test1. bInserted = m_pDoc->InsertNewRangeName("sheetnumber", ScAddress(0,0,0), "$Test1.$A$1"); CPPUNIT_ASSERT(bInserted); m_pDoc->SetString(ScAddress(0,0,0), "=SHEET()"); m_pDoc->SetString(ScAddress(1,0,0), "=sheetnumber"); nVal = m_pDoc->GetValue(1,0,0); CPPUNIT_ASSERT_EQUAL_MESSAGE("Sheet number should be 1", 1.0, nVal); // Copy sheet after. m_pDoc->CopyTab(0, 1); nVal = m_pDoc->GetValue(1,0,1); CPPUNIT_ASSERT_EQUAL_MESSAGE("New sheet number should be 2", 2.0, nVal); nVal = m_pDoc->GetValue(1,0,0); CPPUNIT_ASSERT_EQUAL_MESSAGE("Org sheet number should be 1", 1.0, nVal); const ScRangeData* pName = m_pDoc->GetRangeName(1)->findByUpperName("SHEETNUMBER"); CPPUNIT_ASSERT_MESSAGE("New sheet-local name should exist", pName); // Copy sheet before, shifting following now two sheets. m_pDoc->CopyTab(0, 0); nVal = m_pDoc->GetValue(1,0,0); CPPUNIT_ASSERT_EQUAL_MESSAGE("New sheet number should be 1", 1.0, nVal); pName = m_pDoc->GetRangeName(0)->findByUpperName("SHEETNUMBER"); CPPUNIT_ASSERT_MESSAGE("New sheet-local name should exist", pName); nVal = m_pDoc->GetValue(1,0,1); CPPUNIT_ASSERT_EQUAL_MESSAGE("Org sheet number should be 2", 2.0, nVal); pName = m_pDoc->GetRangeName(1)->findByUpperName("SHEETNUMBER"); CPPUNIT_ASSERT_MESSAGE("Org sheet-local name should not exist", !pName); nVal = m_pDoc->GetValue(1,0,2); CPPUNIT_ASSERT_EQUAL_MESSAGE("Old sheet number should be 3", 3.0, nVal); pName = m_pDoc->GetRangeName(2)->findByUpperName("SHEETNUMBER"); CPPUNIT_ASSERT_MESSAGE("Old sheet-local name should exist", pName); m_pDoc->DeleteTab(2); m_pDoc->DeleteTab(1); m_pDoc->DeleteTab(0); m_pDoc->InsertTab(0, "Test2"); // Local name referencing sheet Test2. bInserted = m_pDoc->GetRangeName(0)->insert( new ScRangeData( m_pDoc, "localname", "$Test2.$A$1")); CPPUNIT_ASSERT(bInserted); m_pDoc->SetString(ScAddress(0,0,0), "=SHEET()"); m_pDoc->SetString(ScAddress(1,0,0), "=localname"); nVal = m_pDoc->GetValue(1,0,0); CPPUNIT_ASSERT_EQUAL_MESSAGE("Localname sheet number should be 1", 1.0, nVal); // Insert sheet before and shift sheet with local name. m_pDoc->InsertTab(0, "Test1"); pName = m_pDoc->GetRangeName(1)->findByUpperName("LOCALNAME"); CPPUNIT_ASSERT_MESSAGE("Org sheet-local name should exist", pName); nVal = m_pDoc->GetValue(1,0,1); CPPUNIT_ASSERT_EQUAL_MESSAGE("Localname sheet number should be 2", 2.0, nVal); // Copy sheet before, shifting following now two sheets. m_pDoc->CopyTab(1, 0); pName = m_pDoc->GetRangeName(0)->findByUpperName("LOCALNAME"); CPPUNIT_ASSERT_MESSAGE("New sheet-local name should exist", pName); nVal = m_pDoc->GetValue(1,0,0); CPPUNIT_ASSERT_EQUAL_MESSAGE("New sheet number should be 1", 1.0, nVal); pName = m_pDoc->GetRangeName(1)->findByUpperName("LOCALNAME"); CPPUNIT_ASSERT_MESSAGE("Old sheet-local name should not exist", !pName); pName = m_pDoc->GetRangeName(2)->findByUpperName("LOCALNAME"); CPPUNIT_ASSERT_MESSAGE("Org sheet-local name should exist", pName); nVal = m_pDoc->GetValue(1,0,2); CPPUNIT_ASSERT_EQUAL_MESSAGE("New sheet number should be 3", 3.0, nVal); m_pDoc->DeleteTab(2); m_pDoc->DeleteTab(1); m_pDoc->DeleteTab(0); m_pDoc->SetRangeName(nullptr); // Test nested names during copying sheet. m_pDoc->InsertTab(0, "Test2"); ScAddress aPos(0,0,0); bInserted = m_pDoc->InsertNewRangeName( "global", aPos, "$Test2.$A$1"); CPPUNIT_ASSERT(bInserted); bInserted = m_pDoc->InsertNewRangeName( aPos.Tab(), "local", aPos, "$Test2.$A$2"); CPPUNIT_ASSERT(bInserted); bInserted = m_pDoc->InsertNewRangeName( "global_global", aPos, "global*100"); CPPUNIT_ASSERT(bInserted); bInserted = m_pDoc->InsertNewRangeName( "global_local", aPos, "local*1000"); CPPUNIT_ASSERT(bInserted); bInserted = m_pDoc->InsertNewRangeName( "global_unused", aPos, "$Test2.$A$1"); CPPUNIT_ASSERT(bInserted); bInserted = m_pDoc->InsertNewRangeName( "global_unused_noref", aPos, "42"); CPPUNIT_ASSERT(bInserted); bInserted = m_pDoc->InsertNewRangeName( aPos.Tab(), "local_global", aPos, "global*10000"); CPPUNIT_ASSERT(bInserted); bInserted = m_pDoc->InsertNewRangeName( aPos.Tab(), "local_local", aPos, "local*100000"); CPPUNIT_ASSERT(bInserted); bInserted = m_pDoc->InsertNewRangeName( aPos.Tab(), "local_unused", aPos, "$Test2.$A$2"); CPPUNIT_ASSERT(bInserted); bInserted = m_pDoc->InsertNewRangeName( aPos.Tab(), "local_unused_noref", aPos, "23"); CPPUNIT_ASSERT(bInserted); m_pDoc->SetString(aPos, "=SHEET()"); aPos.IncRow(); m_pDoc->SetString(aPos, "=A1*10+SHEET()"); aPos.IncRow(); m_pDoc->SetString(aPos, "=global_global"); aPos.IncRow(); m_pDoc->SetString(aPos, "=global_local"); aPos.IncRow(); m_pDoc->SetString(aPos, "=local_global"); aPos.IncRow(); m_pDoc->SetString(aPos, "=local_local"); testFormulaRefUpdateNameCopySheetCheckTab( 0, false); // Copy sheet after. m_pDoc->CopyTab(0, 1); testFormulaRefUpdateNameCopySheetCheckTab( 0, false); testFormulaRefUpdateNameCopySheetCheckTab( 1, true); // Copy sheet before, shifting following now two sheets. m_pDoc->CopyTab(1, 0); testFormulaRefUpdateNameCopySheetCheckTab( 0, true); testFormulaRefUpdateNameCopySheetCheckTab( 1, false); testFormulaRefUpdateNameCopySheetCheckTab( 2, true); m_pDoc->DeleteTab(2); m_pDoc->DeleteTab(1); m_pDoc->DeleteTab(0); } void Test::testFormulaRefUpdateNameCopySheetCheckTab( SCTAB nTab, bool bCheckNames ) { if (bCheckNames) { const ScRangeData* pName; pName = m_pDoc->GetRangeName(nTab)->findByUpperName("GLOBAL"); CPPUNIT_ASSERT_MESSAGE("Sheet-local name GLOBAL should exist", pName); pName = m_pDoc->GetRangeName(nTab)->findByUpperName("LOCAL"); CPPUNIT_ASSERT_MESSAGE("Sheet-local name LOCAL should exist", pName); pName = m_pDoc->GetRangeName(nTab)->findByUpperName("GLOBAL_GLOBAL"); CPPUNIT_ASSERT_MESSAGE("Sheet-local name GLOBAL_GLOBAL should exist", pName); pName = m_pDoc->GetRangeName(nTab)->findByUpperName("GLOBAL_LOCAL"); CPPUNIT_ASSERT_MESSAGE("Sheet-local name GLOBAL_LOCAL should exist", pName); pName = m_pDoc->GetRangeName(nTab)->findByUpperName("GLOBAL_UNUSED"); CPPUNIT_ASSERT_MESSAGE("Sheet-local name GLOBAL_UNUSED should exist", pName); pName = m_pDoc->GetRangeName(nTab)->findByUpperName("GLOBAL_UNUSED_NOREF"); CPPUNIT_ASSERT_MESSAGE("Sheet-local name GLOBAL_UNUSED_NOREF should not exist", !pName); pName = m_pDoc->GetRangeName(nTab)->findByUpperName("LOCAL_GLOBAL"); CPPUNIT_ASSERT_MESSAGE("Sheet-local name LOCAL_GLOBAL should exist", pName); pName = m_pDoc->GetRangeName(nTab)->findByUpperName("LOCAL_LOCAL"); CPPUNIT_ASSERT_MESSAGE("Sheet-local name LOCAL_LOCAL should exist", pName); pName = m_pDoc->GetRangeName(nTab)->findByUpperName("LOCAL_UNUSED"); CPPUNIT_ASSERT_MESSAGE("Sheet-local name LOCAL_UNUSED should exist", pName); pName = m_pDoc->GetRangeName(nTab)->findByUpperName("LOCAL_UNUSED_NOREF"); CPPUNIT_ASSERT_MESSAGE("Sheet-local name LOCAL_UNUSED_NOREF should exist", pName); } ScAddress aPos(0,0,0); aPos.SetRow(0); aPos.SetTab(nTab); int nSheet = nTab + 1; CPPUNIT_ASSERT_EQUAL( 1.0 * nSheet, m_pDoc->GetValue(aPos)); aPos.IncRow(); CPPUNIT_ASSERT_EQUAL( 11.0 * nSheet, m_pDoc->GetValue(aPos)); aPos.IncRow(); CPPUNIT_ASSERT_EQUAL( 100.0 * nSheet, m_pDoc->GetValue(aPos)); aPos.IncRow(); CPPUNIT_ASSERT_EQUAL( 11000.0 * nSheet, m_pDoc->GetValue(aPos)); aPos.IncRow(); CPPUNIT_ASSERT_EQUAL( 10000.0 * nSheet, m_pDoc->GetValue(aPos)); aPos.IncRow(); CPPUNIT_ASSERT_EQUAL( 1100000.0 * nSheet, m_pDoc->GetValue(aPos)); } void Test::testFormulaRefUpdateNameDelete() { m_pDoc->InsertTab(0, "Test"); // Insert a new name 'MyRange' to reference B1 bool bInserted = m_pDoc->InsertNewRangeName("MyRange", ScAddress(0,0,0), "$Test.$B$1"); CPPUNIT_ASSERT(bInserted); const ScRangeData* pName = m_pDoc->GetRangeName()->findByUpperName("MYRANGE"); CPPUNIT_ASSERT(pName); m_pDoc->DeleteCol(1, 0, 3, 0, 0, 1); const ScTokenArray* pCode = pName->GetCode(); sc::TokenStringContext aCxt(m_pDoc, formula::FormulaGrammar::GRAM_ENGLISH); OUString aExpr = pCode->CreateString(m_pDoc, aCxt, ScAddress(0,0,0)); CPPUNIT_ASSERT_EQUAL(OUString("$Test.$B$1"), aExpr); m_pDoc->DeleteTab(0); } void Test::testFormulaRefUpdateValidity() { struct { bool checkList( std::vector& rList ) { double aExpected[] = { 1.0, 2.0, 3.0 }; // must be sorted. size_t nCheckSize = SAL_N_ELEMENTS(aExpected); if (rList.size() != nCheckSize) { cerr << "List size is not what is expected." << endl; return false; } std::sort(rList.begin(), rList.end(), ScTypedStrData::LessCaseSensitive()); for (size_t i = 0; i < nCheckSize; ++i) { if (aExpected[i] != rList[i].GetValue()) { cerr << "Incorrect value at position " << i << ": expected=" << aExpected[i] << ", actual=" << rList[i].GetValue() << endl; return false; } } return true; } } aCheck; setExpandRefs(false); setCalcAsShown(m_pDoc, true); m_pDoc->InsertTab(0, "Formula"); // Set values in C2:C4. m_pDoc->SetValue(ScAddress(2,1,0), 1.0); m_pDoc->SetValue(ScAddress(2,2,0), 2.0); m_pDoc->SetValue(ScAddress(2,3,0), 3.0); // Set validity in A2. ScValidationData aData( SC_VALID_LIST, ScConditionMode::Equal, "C2:C4", "", m_pDoc, ScAddress(0,1,0), "", "", m_pDoc->GetGrammar(), m_pDoc->GetGrammar()); sal_uLong nIndex = m_pDoc->AddValidationEntry(aData); SfxUInt32Item aItem(ATTR_VALIDDATA, nIndex); ScPatternAttr aNewAttrs( std::make_unique(*m_pDoc->GetPool(), svl::Items{})); aNewAttrs.GetItemSet().Put(aItem); m_pDoc->ApplyPattern(0, 1, 0, aNewAttrs); const ScValidationData* pData = m_pDoc->GetValidationEntry(nIndex); CPPUNIT_ASSERT(pData); // Make sure the list is correct. std::vector aList; pData->FillSelectionList(aList, ScAddress(0,1,0)); bool bGood = aCheck.checkList(aList); CPPUNIT_ASSERT_MESSAGE("Initial list is incorrect.", bGood); ScDocFunc& rFunc = getDocShell().GetDocFunc(); ScMarkData aMark(MAXROW, MAXCOL); aMark.SelectOneTable(0); // Insert a new column at Column B, to move the list from C2:C4 to D2:D4. bool bInserted = rFunc.InsertCells(ScRange(1,0,0,1,m_pDoc->MaxRow(),0), &aMark, INS_INSCOLS_BEFORE, true, true); CPPUNIT_ASSERT_MESSAGE("Column insertion failed.", bInserted); CPPUNIT_ASSERT_EQUAL(1.0, m_pDoc->GetValue(ScAddress(3,1,0))); CPPUNIT_ASSERT_EQUAL(2.0, m_pDoc->GetValue(ScAddress(3,2,0))); CPPUNIT_ASSERT_EQUAL(3.0, m_pDoc->GetValue(ScAddress(3,3,0))); // Check the list values again. aList.clear(); pData->FillSelectionList(aList, ScAddress(0,1,0)); bGood = aCheck.checkList(aList); CPPUNIT_ASSERT_MESSAGE("List content is incorrect after column insertion.", bGood); SfxUndoManager* pUndoMgr = m_pDoc->GetUndoManager(); CPPUNIT_ASSERT(pUndoMgr); // Undo and check the list content again. The list moves back to C2:C4 after the undo. pUndoMgr->Undo(); CPPUNIT_ASSERT_EQUAL(1.0, m_pDoc->GetValue(ScAddress(2,1,0))); CPPUNIT_ASSERT_EQUAL(2.0, m_pDoc->GetValue(ScAddress(2,2,0))); CPPUNIT_ASSERT_EQUAL(3.0, m_pDoc->GetValue(ScAddress(2,3,0))); aList.clear(); pData->FillSelectionList(aList, ScAddress(0,1,0)); bGood = aCheck.checkList(aList); CPPUNIT_ASSERT_MESSAGE("List content is incorrect after undo of column insertion.", bGood); // Move C2:C4 to E5:E7. bool bMoved = rFunc.MoveBlock(ScRange(2,1,0,2,3,0), ScAddress(4,4,0), false, true, false, true); CPPUNIT_ASSERT(bMoved); CPPUNIT_ASSERT_EQUAL(1.0, m_pDoc->GetValue(ScAddress(4,4,0))); CPPUNIT_ASSERT_EQUAL(2.0, m_pDoc->GetValue(ScAddress(4,5,0))); CPPUNIT_ASSERT_EQUAL(3.0, m_pDoc->GetValue(ScAddress(4,6,0))); // Check the list again after the move. aList.clear(); pData->FillSelectionList(aList, ScAddress(0,1,0)); bGood = aCheck.checkList(aList); CPPUNIT_ASSERT_MESSAGE("List content is incorrect after moving C2:C4 to E5:E7.", bGood); // Undo the move and check. The list should be back to C2:C4. pUndoMgr->Undo(); CPPUNIT_ASSERT_EQUAL(1.0, m_pDoc->GetValue(ScAddress(2,1,0))); CPPUNIT_ASSERT_EQUAL(2.0, m_pDoc->GetValue(ScAddress(2,2,0))); CPPUNIT_ASSERT_EQUAL(3.0, m_pDoc->GetValue(ScAddress(2,3,0))); aList.clear(); pData->FillSelectionList(aList, ScAddress(0,1,0)); bGood = aCheck.checkList(aList); CPPUNIT_ASSERT_MESSAGE("List content is incorrect after undo of the move.", bGood); m_pDoc->DeleteTab(0); } void Test::testTokenArrayRefUpdateMove() { m_pDoc->InsertTab(0, "Sheet1"); m_pDoc->InsertTab(1, "Sheet2"); ScAddress aPos(0,0,0); // A1 sc::TokenStringContext aCxt(m_pDoc, m_pDoc->GetGrammar()); // Emulate cell movement from Sheet1.C3 to Sheet2.C3. sc::RefUpdateContext aRefCxt(*m_pDoc); aRefCxt.meMode = URM_MOVE; aRefCxt.maRange = ScAddress(2,2,1); // C3 on Sheet2. aRefCxt.mnTabDelta = -1; std::vector aTests = { "B1*C1", "SUM(B1:C1)", "$Sheet1.B1", "SUM(Sheet1.B1:Sheet2.B1)" }; // Since C3 is not referenced in any of the above formulas, moving C3 from // Sheet1 to Sheet2 should NOT change the displayed formula string at all. for (const OUString& aTest : aTests) { ScCompiler aComp(m_pDoc, aPos, m_pDoc->GetGrammar()); std::unique_ptr pArray(aComp.CompileString(aTest)); OUString aStr = pArray->CreateString(m_pDoc, aCxt, aPos); CPPUNIT_ASSERT_EQUAL(aTest, aStr); // This formula cell isn't moving its position. The displayed formula // string should not change. pArray->AdjustReferenceOnMove(aRefCxt, aPos, aPos); aStr = pArray->CreateString(m_pDoc, aCxt, aPos); CPPUNIT_ASSERT_EQUAL(aTest, aStr); } m_pDoc->DeleteTab(1); m_pDoc->DeleteTab(0); } void Test::testMultipleOperations() { m_pDoc->InsertTab(0, "MultiOp"); sc::AutoCalcSwitch aACSwitch(*m_pDoc, true); // turn auto calc on. // Insert the reference formula at top row. m_pDoc->SetValue(ScAddress(0,0,0), 1); m_pDoc->SetString(ScAddress(1,0,0), "=A1*10"); CPPUNIT_ASSERT_EQUAL(10.0, m_pDoc->GetValue(ScAddress(1,0,0))); // Insert variable inputs in A3:A5. m_pDoc->SetValue(ScAddress(0,2,0), 2); m_pDoc->SetValue(ScAddress(0,3,0), 3); m_pDoc->SetValue(ScAddress(0,4,0), 4); // Set multiple operations range. ScTabOpParam aParam; aParam.aRefFormulaCell = ScRefAddress(1,0,0); aParam.aRefFormulaEnd = aParam.aRefFormulaCell; aParam.aRefColCell = ScRefAddress(0,0,0); ScMarkData aMark(MAXROW, MAXCOL); aMark.SetMarkArea(ScRange(0,2,0,1,4,0)); // Select A3:B5. m_pDoc->InsertTableOp(aParam, 0, 2, 1, 4, aMark); CPPUNIT_ASSERT_EQUAL(20.0, m_pDoc->GetValue(1,2,0)); CPPUNIT_ASSERT_EQUAL(30.0, m_pDoc->GetValue(1,3,0)); CPPUNIT_ASSERT_EQUAL(40.0, m_pDoc->GetValue(1,4,0)); // Clear A3:B5. clearRange(m_pDoc, ScRange(0,2,0,1,4,0)); // This time, use indirect reference formula cell. m_pDoc->SetString(ScAddress(2,0,0), "=B1"); // C1 simply references B1. CPPUNIT_ASSERT_EQUAL(10.0, m_pDoc->GetValue(ScAddress(2,0,0))); // Insert variable inputs in A3:A5. m_pDoc->SetValue(ScAddress(0,2,0), 3); m_pDoc->SetValue(ScAddress(0,3,0), 4); m_pDoc->SetValue(ScAddress(0,4,0), 5); // Set multiple operations range again, but this time, we'll use C1 as the reference formula. aParam.aRefFormulaCell.Set(2,0,0,false,false,false); aParam.aRefFormulaEnd = aParam.aRefFormulaCell; m_pDoc->InsertTableOp(aParam, 0, 2, 1, 4, aMark); CPPUNIT_ASSERT_EQUAL(30.0, m_pDoc->GetValue(1,2,0)); CPPUNIT_ASSERT_EQUAL(40.0, m_pDoc->GetValue(1,3,0)); CPPUNIT_ASSERT_EQUAL(50.0, m_pDoc->GetValue(1,4,0)); m_pDoc->DeleteTab(0); } void Test::testFuncCOLUMN() { m_pDoc->InsertTab(0, "Formula"); sc::AutoCalcSwitch aACSwitch(*m_pDoc, true); // turn auto calc on. m_pDoc->SetString(ScAddress(5,10,0), "=COLUMN()"); CPPUNIT_ASSERT_EQUAL(6.0, m_pDoc->GetValue(ScAddress(5,10,0))); m_pDoc->SetString(ScAddress(0,1,0), "=F11"); CPPUNIT_ASSERT_EQUAL(6.0, m_pDoc->GetValue(ScAddress(0,1,0))); // Move the formula cell with COLUMN() function to change its value. m_pDoc->InsertCol(ScRange(5,0,0,5,m_pDoc->MaxRow(),0)); CPPUNIT_ASSERT_EQUAL(7.0, m_pDoc->GetValue(ScAddress(6,10,0))); // The cell that references the moved cell should update its value as well. CPPUNIT_ASSERT_EQUAL(7.0, m_pDoc->GetValue(ScAddress(0,1,0))); // Move the column in the other direction. m_pDoc->DeleteCol(ScRange(5,0,0,5,m_pDoc->MaxRow(),0)); CPPUNIT_ASSERT_EQUAL(6.0, m_pDoc->GetValue(ScAddress(5,10,0))); // The cell that references the moved cell should update its value as well. CPPUNIT_ASSERT_EQUAL(6.0, m_pDoc->GetValue(ScAddress(0,1,0))); m_pDoc->DeleteTab(0); } void Test::testFuncCOUNT() { m_pDoc->InsertTab(0, "Formula"); sc::AutoCalcSwitch aACSwitch(*m_pDoc, true); // turn auto calc on. m_pDoc->SetValue(ScAddress(0,0,0), 2); // A1 m_pDoc->SetValue(ScAddress(0,1,0), 4); // A2 m_pDoc->SetValue(ScAddress(0,2,0), 6); // A3 ScAddress aPos(1,0,0); m_pDoc->SetString(aPos, "=COUNT(A1:A3)"); CPPUNIT_ASSERT_EQUAL(3.0, m_pDoc->GetValue(aPos)); aPos.IncRow(); m_pDoc->SetString(aPos, "=COUNT(A1:A3;2)"); CPPUNIT_ASSERT_EQUAL(4.0, m_pDoc->GetValue(aPos)); aPos.IncRow(); m_pDoc->SetString(aPos, "=COUNT(A1:A3;2;4)"); CPPUNIT_ASSERT_EQUAL(5.0, m_pDoc->GetValue(aPos)); aPos.IncRow(); m_pDoc->SetString(aPos, "=COUNT(A1:A3;2;4;6)"); CPPUNIT_ASSERT_EQUAL(6.0, m_pDoc->GetValue(aPos)); // Matrix in C1. ScMarkData aMark(MAXROW, MAXCOL); aMark.SelectOneTable(0); m_pDoc->InsertMatrixFormula(2, 0, 2, 0, aMark, "=COUNT(SEARCH(\"a\";{\"a\";\"b\";\"a\"}))"); // Check that the #VALUE! error of "a" not found in "b" is not counted. CPPUNIT_ASSERT_EQUAL(2.0, m_pDoc->GetValue(ScAddress(2,0,0))); // Matrix in C3. m_pDoc->InsertMatrixFormula(2, 2, 2, 2, aMark, "=COUNTA(SEARCH(\"a\";{\"a\";\"b\";\"a\"}))"); // Check that the #VALUE! error of "a" not found in "b" is counted. CPPUNIT_ASSERT_EQUAL(3.0, m_pDoc->GetValue(ScAddress(2,2,0))); m_pDoc->DeleteTab(0); } void Test::testFuncCOUNTBLANK() { sc::AutoCalcSwitch aACSwitch(*m_pDoc, true); // turn auto calc on. m_pDoc->InsertTab(0, "Formula"); const char* aData[][4] = { { "1", nullptr, "=B1", "=\"\"" }, { "2", nullptr, "=B2", "=\"\"" }, { "A", nullptr, "=B3", "=\"\"" }, { "B", nullptr, "=B4", "=D3" }, { nullptr, nullptr, "=B5", "=D4" }, { "=COUNTBLANK(A1:A5)", "=COUNTBLANK(B1:B5)", "=COUNTBLANK(C1:C5)", "=COUNTBLANK(D1:D5)" } }; ScAddress aPos(0,0,0); ScRange aRange = insertRangeData(m_pDoc, aPos, aData, SAL_N_ELEMENTS(aData)); CPPUNIT_ASSERT_EQUAL(aPos, aRange.aStart); CPPUNIT_ASSERT_EQUAL(1.0, m_pDoc->GetValue(ScAddress(0,5,0))); CPPUNIT_ASSERT_EQUAL(5.0, m_pDoc->GetValue(ScAddress(1,5,0))); CPPUNIT_ASSERT_EQUAL(0.0, m_pDoc->GetValue(ScAddress(2,5,0))); CPPUNIT_ASSERT_EQUAL(5.0, m_pDoc->GetValue(ScAddress(3,5,0))); // Test single cell reference cases. clearSheet(m_pDoc, 0); const char* aData2[][2] = { { "1", "=COUNTBLANK(A1)" }, { "A", "=COUNTBLANK(A2)" }, { nullptr, "=COUNTBLANK(A3)" }, { "=\"\"", "=COUNTBLANK(A4)" }, { "=A4" , "=COUNTBLANK(A5)" }, }; aRange = insertRangeData(m_pDoc, aPos, aData2, SAL_N_ELEMENTS(aData2)); CPPUNIT_ASSERT_EQUAL(aPos, aRange.aStart); CPPUNIT_ASSERT_EQUAL(0.0, m_pDoc->GetValue(ScAddress(1,0,0))); CPPUNIT_ASSERT_EQUAL(0.0, m_pDoc->GetValue(ScAddress(1,1,0))); CPPUNIT_ASSERT_EQUAL(1.0, m_pDoc->GetValue(ScAddress(1,2,0))); CPPUNIT_ASSERT_EQUAL(1.0, m_pDoc->GetValue(ScAddress(1,3,0))); CPPUNIT_ASSERT_EQUAL(1.0, m_pDoc->GetValue(ScAddress(1,4,0))); m_pDoc->DeleteTab(0); } void Test::testFuncROW() { m_pDoc->InsertTab(0, "Formula"); sc::AutoCalcSwitch aACSwitch(*m_pDoc, true); // turn auto calc on. m_pDoc->SetString(ScAddress(5,10,0), "=ROW()"); CPPUNIT_ASSERT_EQUAL(11.0, m_pDoc->GetValue(ScAddress(5,10,0))); m_pDoc->SetString(ScAddress(0,1,0), "=F11"); CPPUNIT_ASSERT_EQUAL(11.0, m_pDoc->GetValue(ScAddress(0,1,0))); // Insert 2 new rows at row 4. m_pDoc->InsertRow(ScRange(0,3,0,m_pDoc->MaxCol(),4,0)); CPPUNIT_ASSERT_EQUAL(13.0, m_pDoc->GetValue(ScAddress(5,12,0))); // The cell that references the moved cell should update its value as well. CPPUNIT_ASSERT_EQUAL(13.0, m_pDoc->GetValue(ScAddress(0,1,0))); // Delete 2 rows to move it back. m_pDoc->DeleteRow(ScRange(0,3,0,m_pDoc->MaxCol(),4,0)); CPPUNIT_ASSERT_EQUAL(11.0, m_pDoc->GetValue(ScAddress(5,10,0))); // The cell that references the moved cell should update its value as well. CPPUNIT_ASSERT_EQUAL(11.0, m_pDoc->GetValue(ScAddress(0,1,0))); // Clear sheet and start over. clearSheet(m_pDoc, 0); m_pDoc->SetString(ScAddress(0,1,0), "=ROW(A5)"); m_pDoc->SetString(ScAddress(1,1,0), "=ROW(B5)"); m_pDoc->SetString(ScAddress(1,2,0), "=ROW(B6)"); CPPUNIT_ASSERT_EQUAL(5.0, m_pDoc->GetValue(ScAddress(0,1,0))); CPPUNIT_ASSERT_EQUAL(5.0, m_pDoc->GetValue(ScAddress(1,1,0))); CPPUNIT_ASSERT_EQUAL(6.0, m_pDoc->GetValue(ScAddress(1,2,0))); // B2:B3 should be shared. const ScFormulaCell* pFC = m_pDoc->GetFormulaCell(ScAddress(1,1,0)); CPPUNIT_ASSERT(pFC); CPPUNIT_ASSERT_EQUAL(static_cast(1), pFC->GetSharedTopRow()); CPPUNIT_ASSERT_EQUAL(static_cast(2), pFC->GetSharedLength()); // Insert a new row at row 4. ScDocFunc& rFunc = getDocShell().GetDocFunc(); ScMarkData aMark(MAXROW, MAXCOL); aMark.SelectOneTable(0); rFunc.InsertCells(ScRange(0,3,0,m_pDoc->MaxCol(),3,0), &aMark, INS_INSROWS_BEFORE, false, true); ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(0,1,0), "ROW(A6)", "Wrong formula!"); ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(1,1,0), "ROW(B6)", "Wrong formula!"); ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(1,2,0), "ROW(B7)", "Wrong formula!"); CPPUNIT_ASSERT_EQUAL(6.0, m_pDoc->GetValue(ScAddress(0,1,0))); CPPUNIT_ASSERT_EQUAL(6.0, m_pDoc->GetValue(ScAddress(1,1,0))); CPPUNIT_ASSERT_EQUAL(7.0, m_pDoc->GetValue(ScAddress(1,2,0))); m_pDoc->DeleteTab(0); } void Test::testFuncSUM() { CPPUNIT_ASSERT_MESSAGE ("failed to insert sheet", m_pDoc->InsertTab (0, "foo")); sc::AutoCalcSwitch aACSwitch(*m_pDoc, true); // turn on auto calc. // Single argument case. m_pDoc->SetValue(ScAddress(0,0,0), 1); m_pDoc->SetValue(ScAddress(0,1,0), 1); m_pDoc->SetString(ScAddress(0,2,0), "=SUM(A1:A2)"); m_pDoc->CalcAll(); CPPUNIT_ASSERT_EQUAL(2.0, m_pDoc->GetValue(ScAddress(0,2,0))); // Multiple argument case. m_pDoc->SetValue(ScAddress(0,0,0), 1); m_pDoc->SetValue(ScAddress(0,1,0), 22); m_pDoc->SetValue(ScAddress(0,2,0), 4); m_pDoc->SetValue(ScAddress(0,3,0), 5); m_pDoc->SetValue(ScAddress(0,4,0), 6); m_pDoc->SetValue(ScAddress(1,0,0), 3); m_pDoc->SetValue(ScAddress(1,1,0), 4); m_pDoc->SetValue(ScAddress(1,2,0), 5); m_pDoc->SetValue(ScAddress(1,3,0), 6); m_pDoc->SetValue(ScAddress(1,4,0), 7); m_pDoc->SetString(ScAddress(3,0,0), "=SUM(A1:A2;B1:B2)"); m_pDoc->SetString(ScAddress(3,1,0), "=SUM(A2:A3;B2:B3)"); m_pDoc->SetString(ScAddress(3,2,0), "=SUM(A3:A4;B3:B4)"); CPPUNIT_ASSERT_EQUAL(30.0, m_pDoc->GetValue(ScAddress(3,0,0))); CPPUNIT_ASSERT_EQUAL(35.0, m_pDoc->GetValue(ScAddress(3,1,0))); CPPUNIT_ASSERT_EQUAL(20.0, m_pDoc->GetValue(ScAddress(3,2,0))); // Clear and start over. clearRange(m_pDoc, ScRange(0,0,0,3,m_pDoc->MaxRow(),0)); // SUM needs to take the first error in case the range contains an error. m_pDoc->SetValue(ScAddress(0,0,0), 1.0); m_pDoc->SetValue(ScAddress(0,1,0), 10.0); m_pDoc->SetValue(ScAddress(0,2,0), 100.0); m_pDoc->SetString(ScAddress(0,3,0), "=SUM(A1:A3)"); CPPUNIT_ASSERT_EQUAL(111.0, m_pDoc->GetValue(ScAddress(0,3,0))); // Set #DIV/0! error to A3. A4 should also inherit this error. m_pDoc->SetString(ScAddress(0,2,0), "=1/0"); FormulaError nErr = m_pDoc->GetErrCode(ScAddress(0,2,0)); CPPUNIT_ASSERT_EQUAL_MESSAGE("Cell should have a division by zero error.", int(FormulaError::DivisionByZero), static_cast(nErr)); nErr = m_pDoc->GetErrCode(ScAddress(0,3,0)); CPPUNIT_ASSERT_EQUAL_MESSAGE("SUM should have also inherited a div-by-zero error.", int(FormulaError::DivisionByZero), static_cast(nErr)); // Set #NA! to A2. A4 should now inherit this error. m_pDoc->SetString(ScAddress(0,1,0), "=NA()"); nErr = m_pDoc->GetErrCode(ScAddress(0,1,0)); CPPUNIT_ASSERT_MESSAGE("A2 should be an error.", nErr != FormulaError::NONE); CPPUNIT_ASSERT_EQUAL_MESSAGE("A4 should have inherited the same error as A2.", static_cast(nErr), static_cast(m_pDoc->GetErrCode(ScAddress(0,3,0)))); m_pDoc->DeleteTab(0); } void Test::testFuncPRODUCT() { sc::AutoCalcSwitch aACSwitch(*m_pDoc, true); // turn on auto recalc. CPPUNIT_ASSERT_MESSAGE ("failed to insert sheet", m_pDoc->InsertTab(0, "foo")); ScAddress aPos(3, 0, 0); m_pDoc->SetValue(0, 0, 0, 3.0); // A1 m_pDoc->SetString(aPos, "=PRODUCT(A1)"); CPPUNIT_ASSERT_EQUAL_MESSAGE("Calculation of PRODUCT failed", 3.0, m_pDoc->GetValue(aPos)); m_pDoc->SetValue(0, 0, 0, -3.0); // A1 CPPUNIT_ASSERT_EQUAL_MESSAGE("Calculation of PRODUCT failed", -3.0, m_pDoc->GetValue(aPos)); m_pDoc->SetString(aPos, "=PRODUCT(B1)"); CPPUNIT_ASSERT_EQUAL_MESSAGE("Calculation of PRODUCT failed", 0.0, m_pDoc->GetValue(aPos)); m_pDoc->SetValue(1, 0, 0, 10.0); // B1 CPPUNIT_ASSERT_EQUAL_MESSAGE("Calculation of PRODUCT failed", 10.0, m_pDoc->GetValue(aPos)); m_pDoc->SetString(aPos, "=PRODUCT(A1:C3)"); CPPUNIT_ASSERT_EQUAL_MESSAGE("Calculation of PRODUCT failed", -30.0, m_pDoc->GetValue(aPos)); m_pDoc->SetValue(1, 1, 0, -1.0); // B2 CPPUNIT_ASSERT_EQUAL_MESSAGE("Calculation of PRODUCT failed", 30.0, m_pDoc->GetValue(aPos)); m_pDoc->SetValue(2, 0, 0, 4.0); // C1 CPPUNIT_ASSERT_EQUAL_MESSAGE("Calculation of PRODUCT failed", 120.0, m_pDoc->GetValue(aPos)); m_pDoc->SetValue(0, 1, 0, -2.0); // A2 CPPUNIT_ASSERT_EQUAL_MESSAGE("Calculation of PRODUCT failed", -240.0, m_pDoc->GetValue(aPos)); m_pDoc->SetValue(2, 1, 0, 8.0); // C2 CPPUNIT_ASSERT_EQUAL_MESSAGE("Calculation of PRODUCT failed", -1920.0, m_pDoc->GetValue(aPos)); m_pDoc->SetValue(0, 2, 0, 0.2); // A3 CPPUNIT_ASSERT_DOUBLES_EQUAL_MESSAGE("Calculation of PRODUCT failed", -384.0, m_pDoc->GetValue(aPos), 10e-4); m_pDoc->SetValue(1, 2, 0, -0.25); // B3 CPPUNIT_ASSERT_DOUBLES_EQUAL_MESSAGE("Calculation of PRODUCT failed", 96.0, m_pDoc->GetValue(aPos), 10e-4); m_pDoc->SetValue(2, 2, 0, -0.125); // C3 CPPUNIT_ASSERT_DOUBLES_EQUAL_MESSAGE("Calculation of PRODUCT failed", -12.0, m_pDoc->GetValue(aPos), 10e-4); m_pDoc->SetValue(2, 2, 0, 0.0); // C3 CPPUNIT_ASSERT_DOUBLES_EQUAL_MESSAGE("Calculation of PRODUCT failed", 0.0, m_pDoc->GetValue(aPos), 10e-4); m_pDoc->SetString(aPos, "=PRODUCT({2;3;4})"); CPPUNIT_ASSERT_EQUAL_MESSAGE("Calculation of PRODUCT with inline array failed", 24.0, m_pDoc->GetValue(aPos)); m_pDoc->SetString(aPos, "=PRODUCT({2;-2;2})"); CPPUNIT_ASSERT_EQUAL_MESSAGE("Calculation of PRODUCT with inline array failed", -8.0, m_pDoc->GetValue(aPos)); m_pDoc->SetString(aPos, "=PRODUCT({8;0.125;-1})"); CPPUNIT_ASSERT_EQUAL_MESSAGE("Calculation of PRODUCT with inline array failed", -1.0, m_pDoc->GetValue(aPos)); m_pDoc->SetString(aPos, "=PRODUCT({2;3};{4;5})"); CPPUNIT_ASSERT_EQUAL_MESSAGE("Calculation of PRODUCT with inline array failed", 120.0, m_pDoc->GetValue(aPos)); m_pDoc->SetString(aPos, "=PRODUCT({10;-8};{3;-1};{15;30};{7})"); CPPUNIT_ASSERT_EQUAL_MESSAGE("Calculation of PRODUCT with inline array failed", 756000.0, m_pDoc->GetValue(aPos)); m_pDoc->SetString(aPos, "=PRODUCT({10;-0.1;8};{0.125;4;0.25;2};{0.5};{1};{-1})"); CPPUNIT_ASSERT_EQUAL_MESSAGE("Calculation of PRODUCT with inline array failed", 1.0, m_pDoc->GetValue(aPos)); m_pDoc->DeleteTab(0); } void Test::testFuncSUMPRODUCT() { m_pDoc->InsertTab(0, "Test"); sc::AutoCalcSwitch aACSwitch(*m_pDoc, true); // turn on auto recalc. ScAddress aPos(0,0,0); m_pDoc->SetString(aPos, "=SUMPRODUCT(B1:B3;C1:C3)"); CPPUNIT_ASSERT_EQUAL(0.0, m_pDoc->GetValue(aPos)); m_pDoc->SetValue(ScAddress(2,0,0), 1.0); // C1 CPPUNIT_ASSERT_EQUAL(0.0, m_pDoc->GetValue(aPos)); m_pDoc->SetValue(ScAddress(1,0,0), 1.0); // B1 CPPUNIT_ASSERT_EQUAL(1.0, m_pDoc->GetValue(aPos)); m_pDoc->SetValue(ScAddress(1,1,0), 2.0); // B2 CPPUNIT_ASSERT_EQUAL(1.0, m_pDoc->GetValue(aPos)); m_pDoc->SetValue(ScAddress(2,1,0), 3.0); // C2 CPPUNIT_ASSERT_EQUAL(7.0, m_pDoc->GetValue(aPos)); m_pDoc->SetValue(ScAddress(2,2,0), -2.0); // C3 CPPUNIT_ASSERT_EQUAL(7.0, m_pDoc->GetValue(aPos)); m_pDoc->SetValue(ScAddress(1,2,0), 5.0); // B3 CPPUNIT_ASSERT_EQUAL(-3.0, m_pDoc->GetValue(aPos)); // Force an error in C2 and test ForcedArray matrix error propagation. m_pDoc->SetString( 2, 1, 0, "=1/0"); FormulaError nError = m_pDoc->GetErrCode(aPos); CPPUNIT_ASSERT_MESSAGE("Formula result should be a propagated error", nError != FormulaError::NONE); // Test ForceArray propagation of SUMPRODUCT parameters to ABS and + operator. // => ABS({-3,4})*({-3,4}+{-3,4}) => {3,4}*{-6,8} => {-18,32} => 14 m_pDoc->SetValue(ScAddress(4,0,0), -3.0); // E1 m_pDoc->SetValue(ScAddress(4,1,0), 4.0); // E2 // Non-intersecting formula in F3. m_pDoc->SetString(ScAddress(5,2,0), "=SUMPRODUCT(ABS(E1:E2);E1:E2+E1:E2)"); CPPUNIT_ASSERT_EQUAL(14.0, m_pDoc->GetValue(ScAddress(5,2,0))); m_pDoc->DeleteTab(0); } void Test::testFuncSUMXMY2() { m_pDoc->InsertTab(0, "Test SumXMY2"); sc::AutoCalcSwitch aACSwitch(*m_pDoc, true); // turn on auto recalc. ScAddress aPos(0,0,0); m_pDoc->SetString(aPos, "=SUMXMY2(B1:B3;C1:C3)"); CPPUNIT_ASSERT_EQUAL(0.0, m_pDoc->GetValue(aPos)); m_pDoc->SetValue(ScAddress(1,0,0), 1.0); // B1 CPPUNIT_ASSERT_EQUAL(1.0, m_pDoc->GetValue(aPos)); m_pDoc->SetValue(ScAddress(1,1,0), 2.0); // B2 CPPUNIT_ASSERT_EQUAL(5.0, m_pDoc->GetValue(aPos)); m_pDoc->SetValue(ScAddress(1,2,0), 3.0); // B3 CPPUNIT_ASSERT_EQUAL(14.0, m_pDoc->GetValue(aPos)); m_pDoc->SetValue(ScAddress(2,0,0), -1.0); // C1 CPPUNIT_ASSERT_EQUAL(17.0, m_pDoc->GetValue(aPos)); m_pDoc->SetValue(ScAddress(2,1,0), 3.0); // C2 CPPUNIT_ASSERT_EQUAL(14.0, m_pDoc->GetValue(aPos)); m_pDoc->SetValue(ScAddress(2,2,0), 1.0); // C3 CPPUNIT_ASSERT_EQUAL(9.0, m_pDoc->GetValue(aPos)); double result = 0.0; m_pDoc->SetString(0, 4, 0, "=SUMXMY2({2;3;4};{4;3;2})"); m_pDoc->GetValue(0, 4, 0, result); ASSERT_DOUBLES_EQUAL_MESSAGE("Calculation of SUMXMY2 with inline arrays failed", 8.0, result); m_pDoc->DeleteTab(0); } void Test::testFuncMIN() { sc::AutoCalcSwitch aACSwitch(*m_pDoc, true); // turn on auto recalc. m_pDoc->InsertTab(0, "Formula"); // A1:A2 m_pDoc->SetString(ScAddress(0,0,0), "a"); m_pDoc->SetString(ScAddress(0,1,0), "b"); // B1:B2 m_pDoc->SetValue(ScAddress(1,0,0), 1.0); m_pDoc->SetValue(ScAddress(1,1,0), 2.0); // Matrix in C1:C2. ScMarkData aMark(MAXROW, MAXCOL); aMark.SelectOneTable(0); m_pDoc->InsertMatrixFormula(2, 0, 2, 1, aMark, "=MIN(IF(A1:A2=\"c\";B1:B2))"); // Formula cell in C1:C2 should be a 1x2 matrix array. ScFormulaCell* pFC = m_pDoc->GetFormulaCell(ScAddress(2,0,0)); CPPUNIT_ASSERT(pFC); CPPUNIT_ASSERT_EQUAL_MESSAGE("This formula should be an array.", ScMatrixMode::Formula, pFC->GetMatrixFlag()); SCCOL nCols; SCROW nRows; pFC->GetMatColsRows(nCols, nRows); CPPUNIT_ASSERT_EQUAL(static_cast(1), nCols); CPPUNIT_ASSERT_EQUAL(static_cast(2), nRows); CPPUNIT_ASSERT_EQUAL_MESSAGE("Formula in C1 is invalid.", 0, static_cast(m_pDoc->GetErrCode(ScAddress(2,0,0)))); CPPUNIT_ASSERT_EQUAL_MESSAGE("Formula in C2 is invalid.", 0, static_cast(m_pDoc->GetErrCode(ScAddress(2,1,0)))); CPPUNIT_ASSERT_EQUAL(0.0, m_pDoc->GetValue(ScAddress(2,0,0))); CPPUNIT_ASSERT_EQUAL(0.0, m_pDoc->GetValue(ScAddress(2,1,0))); // Inline array input (A4). m_pDoc->SetString(ScAddress(0,3,0), "=MIN({-2;4;3})"); CPPUNIT_ASSERT_EQUAL(-2.0, m_pDoc->GetValue(ScAddress(0,3,0))); // Add more values to B3:B4. m_pDoc->SetValue(ScAddress(1,2,0), 20.0); m_pDoc->SetValue(ScAddress(1,3,0), -20.0); // Get the MIN of B1:B4. m_pDoc->SetString(ScAddress(2,4,0), "=MIN(B1:B4)"); CPPUNIT_ASSERT_EQUAL(-20.0, m_pDoc->GetValue(ScAddress(2,4,0))); m_pDoc->DeleteTab(0); } void Test::testFuncN() { OUString const aTabName("foo"); CPPUNIT_ASSERT_MESSAGE ("failed to insert sheet", m_pDoc->InsertTab (0, aTabName)); double result; // Clear the area first. clearRange(m_pDoc, ScRange(0, 0, 0, 1, 20, 0)); // Put values to reference. double val = 0; m_pDoc->SetValue(0, 0, 0, val); m_pDoc->SetString(0, 2, 0, "Text"); val = 1; m_pDoc->SetValue(0, 3, 0, val); val = -1; m_pDoc->SetValue(0, 4, 0, val); val = 12.3; m_pDoc->SetValue(0, 5, 0, val); m_pDoc->SetString(0, 6, 0, "'12.3"); // Cell references m_pDoc->SetString(1, 0, 0, "=N(A1)"); m_pDoc->SetString(1, 1, 0, "=N(A2)"); m_pDoc->SetString(1, 2, 0, "=N(A3)"); m_pDoc->SetString(1, 3, 0, "=N(A4)"); m_pDoc->SetString(1, 4, 0, "=N(A5)"); m_pDoc->SetString(1, 5, 0, "=N(A6)"); m_pDoc->SetString(1, 6, 0, "=N(A9)"); // In-line values m_pDoc->SetString(1, 7, 0, "=N(0)"); m_pDoc->SetString(1, 8, 0, "=N(1)"); m_pDoc->SetString(1, 9, 0, "=N(-1)"); m_pDoc->SetString(1, 10, 0, "=N(123)"); m_pDoc->SetString(1, 11, 0, "=N(\"\")"); m_pDoc->SetString(1, 12, 0, "=N(\"12\")"); m_pDoc->SetString(1, 13, 0, "=N(\"foo\")"); // Range references m_pDoc->SetString(2, 2, 0, "=N(A1:A8)"); m_pDoc->SetString(2, 3, 0, "=N(A1:A8)"); m_pDoc->SetString(2, 4, 0, "=N(A1:A8)"); m_pDoc->SetString(2, 5, 0, "=N(A1:A8)"); // Calculate and check the results. m_pDoc->CalcAll(); double checks1[] = { 0, 0, 0, 1, -1, 12.3, 0, // cell reference 0, 1, -1, 123, 0, 0, 0 // in-line values }; for (size_t i = 0; i < SAL_N_ELEMENTS(checks1); ++i) { m_pDoc->GetValue(1, i, 0, result); bool bGood = result == checks1[i]; if (!bGood) { cerr << "row " << (i+1) << ": expected=" << checks1[i] << " actual=" << result << endl; CPPUNIT_ASSERT_MESSAGE("Unexpected result for N", false); } } double checks2[] = { 0, 1, -1, 12.3 // range references }; for (size_t i = 0; i < SAL_N_ELEMENTS(checks2); ++i) { m_pDoc->GetValue(1, i+2, 0, result); bool bGood = result == checks2[i]; if (!bGood) { cerr << "row " << (i+2+1) << ": expected=" << checks2[i] << " actual=" << result << endl; CPPUNIT_ASSERT_MESSAGE("Unexpected result for N", false); } } m_pDoc->DeleteTab(0); } void Test::testFuncCOUNTIF() { sc::AutoCalcSwitch aACSwitch(*m_pDoc, true); // turn auto calc on. // COUNTIF (test case adopted from OOo i#36381) CPPUNIT_ASSERT_MESSAGE ("failed to insert sheet", m_pDoc->InsertTab (0, "foo")); // Empty A1:A39 first. clearRange(m_pDoc, ScRange(0, 0, 0, 0, 40, 0)); // Raw data (rows 1 through 9) const char* aData[] = { "1999", "2000", "0", "0", "0", "2002", "2001", "X", "2002" }; SCROW nRows = SAL_N_ELEMENTS(aData); for (SCROW i = 0; i < nRows; ++i) m_pDoc->SetString(0, i, 0, OUString::createFromAscii(aData[i])); printRange(m_pDoc, ScRange(0, 0, 0, 0, 8, 0), "data range for COUNTIF"); // formulas and results static const struct { const char* pFormula; double fResult; } aChecks[] = { { "=COUNTIF(A1:A12;1999)", 1 }, { "=COUNTIF(A1:A12;2002)", 2 }, { "=COUNTIF(A1:A12;1998)", 0 }, { "=COUNTIF(A1:A12;\">=1999\")", 5 }, { "=COUNTIF(A1:A12;\">1999\")", 4 }, { "=COUNTIF(A1:A12;\"<2001\")", 5 }, { "=COUNTIF(A1:A12;\">0\")", 5 }, { "=COUNTIF(A1:A12;\">=0\")", 8 }, { "=COUNTIF(A1:A12;0)", 3 }, { "=COUNTIF(A1:A12;\"X\")", 1 }, { "=COUNTIF(A1:A12;)", 3 } }; nRows = SAL_N_ELEMENTS(aChecks); for (SCROW i = 0; i < nRows; ++i) { SCROW nRow = 20 + i; m_pDoc->SetString(0, nRow, 0, OUString::createFromAscii(aChecks[i].pFormula)); } for (SCROW i = 0; i < nRows; ++i) { double result; SCROW nRow = 20 + i; m_pDoc->GetValue(0, nRow, 0, result); bool bGood = result == aChecks[i].fResult; if (!bGood) { cerr << "row " << (nRow+1) << ": formula" << aChecks[i].pFormula << " expected=" << aChecks[i].fResult << " actual=" << result << endl; CPPUNIT_ASSERT_MESSAGE("Unexpected result for COUNTIF", false); } } // Don't count empty strings when searching for a number. // Clear A1:A2. clearRange(m_pDoc, ScRange(0, 0, 0, 0, 1, 0)); m_pDoc->SetString(0, 0, 0, "=\"\""); m_pDoc->SetString(0, 1, 0, "=COUNTIF(A1;1)"); double result = m_pDoc->GetValue(0, 1, 0); ASSERT_DOUBLES_EQUAL_MESSAGE("We shouldn't count empty string as valid number.", 0.0, result); // Another test case adopted from fdo#77039. clearSheet(m_pDoc, 0); // Set formula cells with blank results in A1:A4. for (SCROW i = 0; i <=3; ++i) m_pDoc->SetString(ScAddress(0,i,0), "=\"\""); // Insert formula into A5 to count all cells with empty strings. m_pDoc->SetString(ScAddress(0,4,0), "=COUNTIF(A1:A4;\"\""); // We should correctly count with empty string key. CPPUNIT_ASSERT_EQUAL(4.0, m_pDoc->GetValue(ScAddress(0,4,0))); // Another test case adopted from tdf#99291, empty array elements should // not match empty cells, but cells with 0. clearSheet(m_pDoc, 0); ScMarkData aMark(MAXROW, MAXCOL); aMark.SelectOneTable(0); m_pDoc->InsertMatrixFormula(0,0, 0,1, aMark, "=COUNTIF(B1:B5;C1:C2)"); // As we will be testing for 0.0 values, check that formulas are actually present. OUString aFormula; m_pDoc->GetFormula(0,0,0, aFormula); CPPUNIT_ASSERT_EQUAL(OUString("{=COUNTIF(B1:B5;C1:C2)}"), aFormula); m_pDoc->GetFormula(0,1,0, aFormula); CPPUNIT_ASSERT_EQUAL(OUString("{=COUNTIF(B1:B5;C1:C2)}"), aFormula); // The 0.0 results expected. CPPUNIT_ASSERT_EQUAL(0.0, m_pDoc->GetValue(ScAddress(0,0,0))); CPPUNIT_ASSERT_EQUAL(0.0, m_pDoc->GetValue(ScAddress(0,1,0))); // 0.0 in B2, 1.0 in B3 and B4 m_pDoc->SetValue( ScAddress(1,1,0), 0.0); m_pDoc->SetValue( ScAddress(1,2,0), 1.0); m_pDoc->SetValue( ScAddress(1,3,0), 1.0); // Matched by 0.0 produced by empty cell in array, and 1.0 in C2. m_pDoc->SetValue( ScAddress(2,1,0), 1.0); CPPUNIT_ASSERT_EQUAL_MESSAGE("One cell with 0.0", 1.0, m_pDoc->GetValue(ScAddress(0,0,0))); CPPUNIT_ASSERT_EQUAL_MESSAGE("Two cells with 1.0", 2.0, m_pDoc->GetValue(ScAddress(0,1,0))); m_pDoc->DeleteTab(0); } void Test::testFuncIF() { sc::AutoCalcSwitch aACSwitch(*m_pDoc, true); // turn auto calc on. m_pDoc->InsertTab(0, "Formula"); m_pDoc->SetString(ScAddress(0,0,0), "=IF(B1=2;\"two\";\"not two\")"); CPPUNIT_ASSERT_EQUAL(OUString("not two"), m_pDoc->GetString(ScAddress(0,0,0))); m_pDoc->SetValue(ScAddress(1,0,0), 2.0); CPPUNIT_ASSERT_EQUAL(OUString("two"), m_pDoc->GetString(ScAddress(0,0,0))); m_pDoc->SetValue(ScAddress(1,0,0), 3.0); CPPUNIT_ASSERT_EQUAL(OUString("not two"), m_pDoc->GetString(ScAddress(0,0,0))); // Test nested IF in array/matrix if the nested IF condition is a scalar. ScMarkData aMark(MAXROW, MAXCOL); aMark.SelectOneTable(0); m_pDoc->InsertMatrixFormula(0,2, 1,2, aMark, "=IF({1;0};IF(1;23);42)"); // Results must be 23 and 42. CPPUNIT_ASSERT_EQUAL(23.0, m_pDoc->GetValue(ScAddress(0,2,0))); CPPUNIT_ASSERT_EQUAL(42.0, m_pDoc->GetValue(ScAddress(1,2,0))); // Test nested IF in array/matrix if nested IF conditions are range // references, data in A5:C8, matrix formula in D4 so there is no // implicit intersection between formula and ranges. { const char* aData[][3] = { { "1", "1", "16" }, { "0", "1", "32" }, { "1", "0", "64" }, { "0", "0", "128" } }; ScAddress aPos(0,4,0); ScRange aRange = insertRangeData(m_pDoc, aPos, aData, SAL_N_ELEMENTS(aData)); CPPUNIT_ASSERT_EQUAL(aPos, aRange.aStart); } m_pDoc->InsertMatrixFormula(3,3, 3,3, aMark, "=SUM(IF(A5:A8;IF(B5:B8;C5:C8;0);0))"); // Result must be 16, only the first row matches all criteria. CPPUNIT_ASSERT_EQUAL(16.0, m_pDoc->GetValue(ScAddress(3,3,0))); // A11:B11 // Test nested IF in array/matrix if the nested IF has no Else path. m_pDoc->InsertMatrixFormula(0,10, 1,10, aMark, "=IF(IF({1;0};12);34;56)"); // Results must be 34 and 56. CPPUNIT_ASSERT_EQUAL(34.0, m_pDoc->GetValue(ScAddress(0,10,0))); CPPUNIT_ASSERT_EQUAL(56.0, m_pDoc->GetValue(ScAddress(1,10,0))); m_pDoc->DeleteTab(0); } void Test::testFuncCHOOSE() { sc::AutoCalcSwitch aACSwitch(*m_pDoc, true); // turn auto calc on. m_pDoc->InsertTab(0, "Formula"); m_pDoc->SetString(ScAddress(0,0,0), "=CHOOSE(B1;\"one\";\"two\";\"three\")"); FormulaError nError = m_pDoc->GetErrCode(ScAddress(0,0,0)); CPPUNIT_ASSERT_MESSAGE("Formula result should be an error since B1 is still empty.", nError != FormulaError::NONE); m_pDoc->SetValue(ScAddress(1,0,0), 1.0); CPPUNIT_ASSERT_EQUAL(OUString("one"), m_pDoc->GetString(ScAddress(0,0,0))); m_pDoc->SetValue(ScAddress(1,0,0), 2.0); CPPUNIT_ASSERT_EQUAL(OUString("two"), m_pDoc->GetString(ScAddress(0,0,0))); m_pDoc->SetValue(ScAddress(1,0,0), 3.0); CPPUNIT_ASSERT_EQUAL(OUString("three"), m_pDoc->GetString(ScAddress(0,0,0))); m_pDoc->SetValue(ScAddress(1,0,0), 4.0); nError = m_pDoc->GetErrCode(ScAddress(0,0,0)); CPPUNIT_ASSERT_MESSAGE("Formula result should be an error due to out-of-bound input..", nError != FormulaError::NONE); m_pDoc->DeleteTab(0); } void Test::testFuncIFERROR() { // IFERROR/IFNA (fdo#56124) CPPUNIT_ASSERT_MESSAGE ("failed to insert sheet", m_pDoc->InsertTab (0, "foo")); // Empty A1:A39 first. clearRange(m_pDoc, ScRange(0, 0, 0, 0, 40, 0)); // Raw data (rows 1 through 12) const char* aData[] = { "1", "e", "=SQRT(4)", "=SQRT(-2)", "=A4", "=1/0", "=NA()", "bar", "4", "gee", "=1/0", "23" }; SCROW nRows = SAL_N_ELEMENTS(aData); for (SCROW i = 0; i < nRows; ++i) m_pDoc->SetString(0, i, 0, OUString::createFromAscii(aData[i])); printRange(m_pDoc, ScRange(0, 0, 0, 0, nRows-1, 0), "data range for IFERROR/IFNA"); // formulas and results static const struct { const char* pFormula; const char* pResult; } aChecks[] = { { "=IFERROR(A1;9)", "1" }, { "=IFERROR(A2;9)", "e" }, { "=IFERROR(A3;9)", "2" }, { "=IFERROR(A4;-7)", "-7" }, { "=IFERROR(A5;-7)", "-7" }, { "=IFERROR(A6;-7)", "-7" }, { "=IFERROR(A7;-7)", "-7" }, { "=IFNA(A6;9)", "#DIV/0!" }, { "=IFNA(A7;-7)", "-7" }, { "=IFNA(VLOOKUP(\"4\";A8:A10;1;0);-2)", "4" }, { "=IFNA(VLOOKUP(\"fop\";A8:A10;1;0);-2)", "-2" }, { "{=IFERROR(3*A11:A12;1998)}[0]", "1998" }, // um... this is not the correct way to insert a { "{=IFERROR(3*A11:A12;1998)}[1]", "69" } // matrix formula, just a place holder, see below }; nRows = SAL_N_ELEMENTS(aChecks); for (SCROW i = 0; i < nRows-2; ++i) { SCROW nRow = 20 + i; m_pDoc->SetString(0, nRow, 0, OUString::createFromAscii(aChecks[i].pFormula)); } // Create a matrix range in last two rows of the range above, actual data // of the placeholders. ScMarkData aMark(MAXROW, MAXCOL); aMark.SelectOneTable(0); m_pDoc->InsertMatrixFormula(0, 20 + nRows-2, 0, 20 + nRows-1, aMark, "=IFERROR(3*A11:A12;1998)"); m_pDoc->CalcAll(); for (SCROW i = 0; i < nRows; ++i) { SCROW nRow = 20 + i; OUString aResult = m_pDoc->GetString(0, nRow, 0); CPPUNIT_ASSERT_EQUAL_MESSAGE( aChecks[i].pFormula, OUString::createFromAscii( aChecks[i].pResult), aResult); } const SCCOL nCols = 3; const char* aData2[][nCols] = { { "1", "2", "3" }, { "4", "=1/0", "6" }, { "7", "8", "9" } }; const char* aCheck2[][nCols] = { { "1", "2", "3" }, { "4", "Error","6" }, { "7", "8", "9" } }; // Data in C1:E3 ScAddress aPos(2,0,0); ScRange aRange = insertRangeData(m_pDoc, aPos, aData2, SAL_N_ELEMENTS(aData2)); CPPUNIT_ASSERT_EQUAL(aPos, aRange.aStart); // Array formula in F4:H6 const SCROW nElems2 = SAL_N_ELEMENTS(aCheck2); const SCCOL nStartCol = aPos.Col() + nCols; const SCROW nStartRow = aPos.Row() + nElems2; m_pDoc->InsertMatrixFormula( nStartCol, nStartRow, nStartCol+nCols-1, nStartRow+nElems2-1, aMark, "=IFERROR(C1:E3;\"Error\")"); m_pDoc->CalcAll(); for (SCCOL nCol = nStartCol; nCol < nStartCol + nCols; ++nCol) { for (SCROW nRow = nStartRow; nRow < nStartRow + nElems2; ++nRow) { OUString aResult = m_pDoc->GetString( nCol, nRow, 0); CPPUNIT_ASSERT_EQUAL_MESSAGE( "IFERROR array result", OUString::createFromAscii( aCheck2[nRow-nStartRow][nCol-nStartCol]), aResult); } } m_pDoc->DeleteTab(0); } void Test::testFuncSHEET() { OUString const aTabName1("test1"); OUString const aTabName2("test2"); CPPUNIT_ASSERT_MESSAGE ("failed to insert sheet", m_pDoc->InsertTab (SC_TAB_APPEND, aTabName1)); m_pDoc->SetString(0, 0, 0, "=SHEETS()"); m_pDoc->CalcFormulaTree(false, false); double original; m_pDoc->GetValue(0, 0, 0, original); CPPUNIT_ASSERT_EQUAL_MESSAGE("result of SHEETS() should equal the number of sheets, but doesn't.", static_cast(original), m_pDoc->GetTableCount()); CPPUNIT_ASSERT_MESSAGE ("failed to insert sheet", m_pDoc->InsertTab (SC_TAB_APPEND, aTabName2)); double modified; m_pDoc->GetValue(0, 0, 0, modified); ASSERT_DOUBLES_EQUAL_MESSAGE("result of SHEETS() did not get updated after sheet insertion.", 1.0, modified - original); SCTAB nTabCount = m_pDoc->GetTableCount(); m_pDoc->DeleteTab(--nTabCount); m_pDoc->GetValue(0, 0, 0, modified); ASSERT_DOUBLES_EQUAL_MESSAGE("result of SHEETS() did not get updated after sheet removal.", 0.0, modified - original); m_pDoc->DeleteTab(--nTabCount); } void Test::testFuncNOW() { CPPUNIT_ASSERT_MESSAGE ("failed to insert sheet", m_pDoc->InsertTab (0, "foo")); double val = 1; m_pDoc->SetValue(0, 0, 0, val); m_pDoc->SetString(0, 1, 0, "=IF(A1>0;NOW();0"); double now1; m_pDoc->GetValue(0, 1, 0, now1); CPPUNIT_ASSERT_MESSAGE("Value of NOW() should be positive.", now1 > 0.0); val = 0; m_pDoc->SetValue(0, 0, 0, val); m_pDoc->CalcFormulaTree(false, false); double zero; m_pDoc->GetValue(0, 1, 0, zero); ASSERT_DOUBLES_EQUAL_MESSAGE("Result should equal the 3rd parameter of IF, which is zero.", 0.0, zero); val = 1; m_pDoc->SetValue(0, 0, 0, val); m_pDoc->CalcFormulaTree(false, false); double now2; m_pDoc->GetValue(0, 1, 0, now2); CPPUNIT_ASSERT_MESSAGE("Result should be the value of NOW() again.", (now2 - now1) >= 0.0); m_pDoc->DeleteTab(0); } void Test::testFuncNUMBERVALUE() { // NUMBERVALUE fdo#57180 CPPUNIT_ASSERT_MESSAGE ("failed to insert sheet", m_pDoc->InsertTab (0, "foo")); // Empty A1:A39 first. clearRange(m_pDoc, ScRange(0, 0, 0, 0, 40, 0)); // Raw data (rows 1 through 6) const char* aData[] = { "1ag9a9b9", "1ag34 5g g6 78b9%%", "1 234d56E-2", "d4", "54.4", "1a2b3e1%" }; SCROW nRows = SAL_N_ELEMENTS(aData); for (SCROW i = 0; i < nRows; ++i) m_pDoc->SetString(0, i, 0, OUString::createFromAscii(aData[i])); printRange(m_pDoc, ScRange(0, 0, 0, 0, nRows - 1, 0), "data range for NUMBERVALUE"); // formulas and results static const struct { const char* pFormula; const char* pResult; } aChecks[] = { { "=NUMBERVALUE(A1;\"b\";\"ag\")", "199.9" }, { "=NUMBERVALUE(A2;\"b\";\"ag\")", "134.56789" }, { "=NUMBERVALUE(A2;\"b\";\"g\")", "#VALUE!" }, { "=NUMBERVALUE(A3;\"d\")", "12.3456" }, { "=NUMBERVALUE(A4;\"d\";\"foo\")", "0.4" }, { "=NUMBERVALUE(A4;)", "Err:502" }, { "=NUMBERVALUE(A5;)", "Err:502" }, { "=NUMBERVALUE(A6;\"b\";\"a\")", "1.23" } }; nRows = SAL_N_ELEMENTS(aChecks); for (SCROW i = 0; i < nRows; ++i) { SCROW nRow = 20 + i; m_pDoc->SetString(0, nRow, 0, OUString::createFromAscii(aChecks[i].pFormula)); } m_pDoc->CalcAll(); for (SCROW i = 0; i < nRows; ++i) { SCROW nRow = 20 + i; OUString aResult = m_pDoc->GetString(0, nRow, 0); CPPUNIT_ASSERT_EQUAL_MESSAGE( aChecks[i].pFormula, OUString::createFromAscii( aChecks[i].pResult), aResult); } m_pDoc->DeleteTab(0); } void Test::testFuncLEN() { sc::AutoCalcSwitch aACSwitch(*m_pDoc, true); // turn auto calc on. m_pDoc->InsertTab(0, "Formula"); // Leave A1:A3 empty, and insert an array of LEN in B1:B3 that references // these empty cells. ScMarkData aMark(MAXROW, MAXCOL); aMark.SelectOneTable(0); m_pDoc->InsertMatrixFormula(1, 0, 1, 2, aMark, "=LEN(A1:A3)"); ScFormulaCell* pFC = m_pDoc->GetFormulaCell(ScAddress(1,0,0)); CPPUNIT_ASSERT(pFC); CPPUNIT_ASSERT_EQUAL_MESSAGE("This formula should be a matrix origin.", ScMatrixMode::Formula, pFC->GetMatrixFlag()); // This should be a 1x3 matrix. SCCOL nCols = -1; SCROW nRows = -1; pFC->GetMatColsRows(nCols, nRows); CPPUNIT_ASSERT_EQUAL(static_cast(1), nCols); CPPUNIT_ASSERT_EQUAL(static_cast(3), nRows); // LEN value should be 0 for an empty cell. CPPUNIT_ASSERT_EQUAL(0.0, m_pDoc->GetValue(ScAddress(1,0,0))); CPPUNIT_ASSERT_EQUAL(0.0, m_pDoc->GetValue(ScAddress(1,1,0))); CPPUNIT_ASSERT_EQUAL(0.0, m_pDoc->GetValue(ScAddress(1,2,0))); m_pDoc->DeleteTab(0); } void Test::testFuncLOOKUP() { FormulaGrammarSwitch aFGSwitch(m_pDoc, formula::FormulaGrammar::GRAM_ENGLISH_XL_R1C1); m_pDoc->InsertTab(0, "Test"); // Raw data const char* aData[][2] = { { "=CONCATENATE(\"A\")", "1" }, { "=CONCATENATE(\"B\")", "2" }, { "=CONCATENATE(\"C\")", "3" }, { nullptr, nullptr } // terminator }; // Insert raw data into A1:B3. for (SCROW i = 0; aData[i][0]; ++i) { m_pDoc->SetString(0, i, 0, OUString::createFromAscii(aData[i][0])); m_pDoc->SetString(1, i, 0, OUString::createFromAscii(aData[i][1])); } const char* aData2[][2] = { { "A", "=LOOKUP(RC[-1];R1C1:R3C1;R1C2:R3C2)" }, { "B", "=LOOKUP(RC[-1];R1C1:R3C1;R1C2:R3C2)" }, { "C", "=LOOKUP(RC[-1];R1C1:R3C1;R1C2:R3C2)" }, { nullptr, nullptr } // terminator }; // Insert check formulas into A5:B7. for (SCROW i = 0; aData2[i][0]; ++i) { m_pDoc->SetString(0, i+4, 0, OUString::createFromAscii(aData2[i][0])); m_pDoc->SetString(1, i+4, 0, OUString::createFromAscii(aData2[i][1])); } printRange(m_pDoc, ScRange(0,4,0,1,6,0), "Data range for LOOKUP."); // Values for B5:B7 should be 1, 2, and 3. CPPUNIT_ASSERT_EQUAL_MESSAGE("This formula should not have an error code.", 0, static_cast(m_pDoc->GetErrCode(ScAddress(1,4,0)))); CPPUNIT_ASSERT_EQUAL_MESSAGE("This formula should not have an error code.", 0, static_cast(m_pDoc->GetErrCode(ScAddress(1,5,0)))); CPPUNIT_ASSERT_EQUAL_MESSAGE("This formula should not have an error code.", 0, static_cast(m_pDoc->GetErrCode(ScAddress(1,6,0)))); ASSERT_DOUBLES_EQUAL(1.0, m_pDoc->GetValue(ScAddress(1,4,0))); ASSERT_DOUBLES_EQUAL(2.0, m_pDoc->GetValue(ScAddress(1,5,0))); ASSERT_DOUBLES_EQUAL(3.0, m_pDoc->GetValue(ScAddress(1,6,0))); m_pDoc->DeleteTab(0); } void Test::testFuncLOOKUParrayWithError() { sc::AutoCalcSwitch aACSwitch(*m_pDoc, true); m_pDoc->InsertTab(0, "Test"); std::vector> aData = { { "x", "y", "z" }, { "a", "b", "c" } }; insertRangeData(m_pDoc, ScAddress(2,1,0), aData); // C2:E3 m_pDoc->SetString(0,0,0, "=LOOKUP(2;1/(C2:E2<>\"\");C3:E3)"); // A1 CPPUNIT_ASSERT_EQUAL_MESSAGE("Should find match for last column.", OUString("c"), m_pDoc->GetString(0,0,0)); m_pDoc->SetString(4,1,0, ""); // E2 CPPUNIT_ASSERT_EQUAL_MESSAGE("Should find match for second last column.", OUString("b"), m_pDoc->GetString(0,0,0)); m_pDoc->SetString(6,1,0, "one"); // G2 m_pDoc->SetString(6,5,0, "two"); // G6 // Creates an interim array {1,#DIV/0!,#DIV/0!,#DIV/0!,1,#DIV/0!,#DIV/0!,#DIV/0!} m_pDoc->SetString(7,8,0, "=LOOKUP(2;1/(NOT(ISBLANK(G2:G9)));G2:G9)"); // H9 CPPUNIT_ASSERT_EQUAL_MESSAGE("Should find match for last row.", OUString("two"), m_pDoc->GetString(7,8,0)); // Lookup on empty range. m_pDoc->SetString(9,8,0, "=LOOKUP(2;1/(NOT(ISBLANK(I2:I9)));I2:I9)"); // J9 CPPUNIT_ASSERT_EQUAL_MESSAGE("Should find no match.", OUString("#N/A"), m_pDoc->GetString(9,8,0)); m_pDoc->DeleteTab(0); } void Test::testFuncVLOOKUP() { // VLOOKUP CPPUNIT_ASSERT_MESSAGE ("failed to insert sheet", m_pDoc->InsertTab (0, "foo")); // Clear A1:F40. clearRange(m_pDoc, ScRange(0, 0, 0, 5, 39, 0)); // Raw data const char* aData[][2] = { { "Key", "Val" }, { "10", "3" }, { "20", "4" }, { "30", "5" }, { "40", "6" }, { "50", "7" }, { "60", "8" }, { "70", "9" }, { "B", "10" }, { "B", "11" }, { "C", "12" }, { "D", "13" }, { "E", "14" }, { "F", "15" }, { nullptr, nullptr } // terminator }; // Insert raw data into A1:B14. for (SCROW i = 0; aData[i][0]; ++i) { m_pDoc->SetString(0, i, 0, OUString::createFromAscii(aData[i][0])); m_pDoc->SetString(1, i, 0, OUString::createFromAscii(aData[i][1])); } printRange(m_pDoc, ScRange(0, 0, 0, 1, 13, 0), "raw data for VLOOKUP"); // Formula data static const struct { const char* pLookup; const char* pFormula; const char* pRes; } aChecks[] = { { "Lookup", "Formula", nullptr }, { "12", "=VLOOKUP(D2;A2:B14;2;1)", "3" }, { "29", "=VLOOKUP(D3;A2:B14;2;1)", "4" }, { "31", "=VLOOKUP(D4;A2:B14;2;1)", "5" }, { "45", "=VLOOKUP(D5;A2:B14;2;1)", "6" }, { "56", "=VLOOKUP(D6;A2:B14;2;1)", "7" }, { "65", "=VLOOKUP(D7;A2:B14;2;1)", "8" }, { "78", "=VLOOKUP(D8;A2:B14;2;1)", "9" }, { "Andy", "=VLOOKUP(D9;A2:B14;2;1)", "#N/A" }, { "Bruce", "=VLOOKUP(D10;A2:B14;2;1)", "11" }, { "Charlie", "=VLOOKUP(D11;A2:B14;2;1)", "12" }, { "David", "=VLOOKUP(D12;A2:B14;2;1)", "13" }, { "Edward", "=VLOOKUP(D13;A2:B14;2;1)", "14" }, { "Frank", "=VLOOKUP(D14;A2:B14;2;1)", "15" }, { "Henry", "=VLOOKUP(D15;A2:B14;2;1)", "15" }, { "100", "=VLOOKUP(D16;A2:B14;2;1)", "9" }, { "1000", "=VLOOKUP(D17;A2:B14;2;1)", "9" }, { "Zena", "=VLOOKUP(D18;A2:B14;2;1)", "15" } }; // Insert formula data into D1:E18. for (size_t i = 0; i < SAL_N_ELEMENTS(aChecks); ++i) { m_pDoc->SetString(3, i, 0, OUString::createFromAscii(aChecks[i].pLookup)); m_pDoc->SetString(4, i, 0, OUString::createFromAscii(aChecks[i].pFormula)); } m_pDoc->CalcAll(); printRange(m_pDoc, ScRange(3, 0, 0, 4, 17, 0), "formula data for VLOOKUP"); // Verify results. for (size_t i = 0; i < SAL_N_ELEMENTS(aChecks); ++i) { if (i == 0) // Skip the header row. continue; OUString aRes = m_pDoc->GetString(4, i, 0); bool bGood = aRes.equalsAscii(aChecks[i].pRes); if (!bGood) { cerr << "row " << (i+1) << ": lookup value='" << aChecks[i].pLookup << "' expected='" << aChecks[i].pRes << "' actual='" << aRes << "'" << endl; CPPUNIT_ASSERT_MESSAGE("Unexpected result for VLOOKUP", false); } } // Clear the sheet and start over. clearSheet(m_pDoc, 0); // Lookup on sorted data interspersed with empty cells. // A1:B8 is the search range. m_pDoc->SetValue(ScAddress(0,2,0), 1.0); m_pDoc->SetValue(ScAddress(0,4,0), 2.0); m_pDoc->SetValue(ScAddress(0,7,0), 4.0); m_pDoc->SetString(ScAddress(1,2,0), "One"); m_pDoc->SetString(ScAddress(1,4,0), "Two"); m_pDoc->SetString(ScAddress(1,7,0), "Four"); // D1:D5 contain match values. m_pDoc->SetValue(ScAddress(3,0,0), 1.0); m_pDoc->SetValue(ScAddress(3,1,0), 2.0); m_pDoc->SetValue(ScAddress(3,2,0), 3.0); m_pDoc->SetValue(ScAddress(3,3,0), 4.0); m_pDoc->SetValue(ScAddress(3,4,0), 5.0); // E1:E5 contain formulas. m_pDoc->SetString(ScAddress(4,0,0), "=VLOOKUP(D1;$A$1:$B$8;2)"); m_pDoc->SetString(ScAddress(4,1,0), "=VLOOKUP(D2;$A$1:$B$8;2)"); m_pDoc->SetString(ScAddress(4,2,0), "=VLOOKUP(D3;$A$1:$B$8;2)"); m_pDoc->SetString(ScAddress(4,3,0), "=VLOOKUP(D4;$A$1:$B$8;2)"); m_pDoc->SetString(ScAddress(4,4,0), "=VLOOKUP(D5;$A$1:$B$8;2)"); m_pDoc->CalcAll(); // Check the formula results in E1:E5. CPPUNIT_ASSERT_EQUAL(OUString("One"), m_pDoc->GetString(ScAddress(4,0,0))); CPPUNIT_ASSERT_EQUAL(OUString("Two"), m_pDoc->GetString(ScAddress(4,1,0))); CPPUNIT_ASSERT_EQUAL(OUString("Two"), m_pDoc->GetString(ScAddress(4,2,0))); CPPUNIT_ASSERT_EQUAL(OUString("Four"), m_pDoc->GetString(ScAddress(4,3,0))); CPPUNIT_ASSERT_EQUAL(OUString("Four"), m_pDoc->GetString(ScAddress(4,4,0))); // Start over again. clearSheet(m_pDoc, 0); // Set A,B,...,G to A1:A7. m_pDoc->SetString(ScAddress(0,0,0), "A"); m_pDoc->SetString(ScAddress(0,1,0), "B"); m_pDoc->SetString(ScAddress(0,2,0), "C"); m_pDoc->SetString(ScAddress(0,3,0), "D"); m_pDoc->SetString(ScAddress(0,4,0), "E"); m_pDoc->SetString(ScAddress(0,5,0), "F"); m_pDoc->SetString(ScAddress(0,6,0), "G"); // Set the formula in C1. m_pDoc->SetString(ScAddress(2,0,0), "=VLOOKUP(\"C\";A1:A16;1)"); CPPUNIT_ASSERT_EQUAL(OUString("C"), m_pDoc->GetString(ScAddress(2,0,0))); // A21:E24, test position dependent implicit intersection as argument to a // scalar value parameter in a function that has a ReferenceOrForceArray // type parameter somewhere else and formula is not in array mode, // VLOOKUP(Value;ReferenceOrForceArray;...) const char* aData2[][5] = { { "1", "one", "3", "=VLOOKUP(C21:C24;A21:B24;2;0)", "three" }, { "2", "two", "1", "=VLOOKUP(C21:C24;A21:B24;2;0)", "one" }, { "3", "three", "4", "=VLOOKUP(C21:C24;A21:B24;2;0)", "four" }, { "4", "four", "2", "=VLOOKUP(C21:C24;A21:B24;2;0)", "two" } }; ScAddress aPos2(0,20,0); ScRange aRange2 = insertRangeData(m_pDoc, aPos2, aData2, SAL_N_ELEMENTS(aData2)); CPPUNIT_ASSERT_EQUAL(aPos2, aRange2.aStart); aPos2.SetCol(3); // column D formula results for (size_t i=0; i < SAL_N_ELEMENTS(aData2); ++i) { CPPUNIT_ASSERT_EQUAL( OUString::createFromAscii( aData2[i][4]), m_pDoc->GetString(aPos2)); aPos2.IncRow(); } m_pDoc->DeleteTab(0); } struct StrStrCheck { const char* pVal; const char* pRes; }; template static void runTestMATCH(ScDocument* pDoc, const char* aData[DataSize], const StrStrCheck aChecks[FormulaSize]) { size_t nDataSize = DataSize; for (size_t i = 0; i < nDataSize; ++i) pDoc->SetString(0, i, 0, OUString::createFromAscii(aData[i])); for (size_t i = 0; i < FormulaSize; ++i) { pDoc->SetString(1, i, 0, OUString::createFromAscii(aChecks[i].pVal)); OUStringBuffer aBuf; aBuf.append("=MATCH(B"); aBuf.append(static_cast(i+1)); aBuf.append(";A1:A"); aBuf.append(static_cast(nDataSize)); aBuf.append(";"); aBuf.append(static_cast(Type)); aBuf.append(")"); OUString aFormula = aBuf.makeStringAndClear(); pDoc->SetString(2, i, 0, aFormula); } pDoc->CalcAll(); Test::printRange(pDoc, ScRange(0, 0, 0, 2, FormulaSize-1, 0), "MATCH"); // verify the results. for (size_t i = 0; i < FormulaSize; ++i) { OUString aStr = pDoc->GetString(2, i, 0); if (!aStr.equalsAscii(aChecks[i].pRes)) { cerr << "row " << (i+1) << ": expected='" << aChecks[i].pRes << "' actual='" << aStr << "'" " criterion='" << aChecks[i].pVal << "'" << endl; CPPUNIT_ASSERT_MESSAGE("Unexpected result for MATCH", false); } } } template static void runTestHorizontalMATCH(ScDocument* pDoc, const char* aData[DataSize], const StrStrCheck aChecks[FormulaSize]) { size_t nDataSize = DataSize; for (size_t i = 0; i < nDataSize; ++i) pDoc->SetString(i, 0, 0, OUString::createFromAscii(aData[i])); for (size_t i = 0; i < FormulaSize; ++i) { pDoc->SetString(i, 1, 0, OUString::createFromAscii(aChecks[i].pVal)); // Assume we don't have more than 26 data columns... OUStringBuffer aBuf; aBuf.append("=MATCH("); aBuf.append(static_cast('A'+i)); aBuf.append("2;A1:"); aBuf.append(static_cast('A'+nDataSize)); aBuf.append("1;"); aBuf.append(static_cast(Type)); aBuf.append(")"); OUString aFormula = aBuf.makeStringAndClear(); pDoc->SetString(i, 2, 0, aFormula); } pDoc->CalcAll(); Test::printRange(pDoc, ScRange(0, 0, 0, FormulaSize-1, 2, 0), "MATCH"); // verify the results. for (size_t i = 0; i < FormulaSize; ++i) { OUString aStr = pDoc->GetString(i, 2, 0); if (!aStr.equalsAscii(aChecks[i].pRes)) { cerr << "column " << char('A'+i) << ": expected='" << aChecks[i].pRes << "' actual='" << aStr << "'" " criterion='" << aChecks[i].pVal << "'" << endl; CPPUNIT_ASSERT_MESSAGE("Unexpected result for horizontal MATCH", false); } } } void Test::testFuncMATCH() { CPPUNIT_ASSERT_MESSAGE ("failed to insert sheet", m_pDoc->InsertTab (0, "foo")); clearRange(m_pDoc, ScRange(0, 0, 0, 40, 40, 0)); { // Ascending in-exact match // data range (A1:A9) const char* aData[] = { "1", "2", "3", "4", "5", "6", "7", "8", "9", "B", "B", "C", }; // formula (B1:C12) static const StrStrCheck aChecks[] = { { "0.8", "#N/A" }, { "1.2", "1" }, { "2.3", "2" }, { "3.9", "3" }, { "4.1", "4" }, { "5.99", "5" }, { "6.1", "6" }, { "7.2", "7" }, { "8.569", "8" }, { "9.59", "9" }, { "10", "9" }, { "100", "9" }, { "Andy", "#N/A" }, { "Bruce", "11" }, { "Charlie", "12" } }; runTestMATCH(m_pDoc, aData, aChecks); clearRange(m_pDoc, ScRange(0, 0, 0, 4, 40, 0)); runTestHorizontalMATCH(m_pDoc, aData, aChecks); clearRange(m_pDoc, ScRange(0, 0, 0, 40, 4, 0)); } { // Descending in-exact match // data range (A1:A9) const char* aData[] = { "D", "C", "B", "9", "8", "7", "6", "5", "4", "3", "2", "1" }; // formula (B1:C12) static const StrStrCheck aChecks[] = { { "10", "#N/A" }, { "8.9", "4" }, { "7.8", "5" }, { "6.7", "6" }, { "5.5", "7" }, { "4.6", "8" }, { "3.3", "9" }, { "2.2", "10" }, { "1.1", "11" }, { "0.8", "12" }, { "0", "12" }, { "-2", "12" }, { "Andy", "3" }, { "Bruce", "2" }, { "Charlie", "1" }, { "David", "#N/A" } }; runTestMATCH(m_pDoc, aData, aChecks); clearRange(m_pDoc, ScRange(0, 0, 0, 4, 40, 0)); runTestHorizontalMATCH(m_pDoc, aData, aChecks); clearRange(m_pDoc, ScRange(0, 0, 0, 40, 4, 0)); } { // search range contains leading and trailing empty cell ranges. clearRange(m_pDoc, ScRange(0,0,0,2,100,0)); // A5:A8 contains sorted values. m_pDoc->SetValue(ScAddress(0,4,0), 1.0); m_pDoc->SetValue(ScAddress(0,5,0), 2.0); m_pDoc->SetValue(ScAddress(0,6,0), 3.0); m_pDoc->SetValue(ScAddress(0,7,0), 4.0); // Find value 2 which is in A6. m_pDoc->SetString(ScAddress(1,0,0), "=MATCH(2;A1:A20)"); m_pDoc->CalcAll(); CPPUNIT_ASSERT_EQUAL(OUString("6"), m_pDoc->GetString(ScAddress(1,0,0))); } { // Test the ReferenceOrForceArray parameter. clearRange(m_pDoc, ScRange(0,0,0,1,7,0)); // B1:B5 contain numeric values. m_pDoc->SetValue(ScAddress(1,0,0), 1.0); m_pDoc->SetValue(ScAddress(1,1,0), 2.0); m_pDoc->SetValue(ScAddress(1,2,0), 3.0); m_pDoc->SetValue(ScAddress(1,3,0), 4.0); m_pDoc->SetValue(ScAddress(1,4,0), 5.0); // Find string value "33" in concatenated array, no implicit // intersection is involved, array is forced. m_pDoc->SetString(ScAddress(0,5,0), "=MATCH(\"33\";B1:B5&B1:B5)"); m_pDoc->CalcAll(); CPPUNIT_ASSERT_EQUAL(3.0, m_pDoc->GetValue(ScAddress(0,5,0))); } m_pDoc->DeleteTab(0); } void Test::testFuncCELL() { OUString const aTabName("foo"); CPPUNIT_ASSERT_MESSAGE ("failed to insert sheet", m_pDoc->InsertTab (0, aTabName)); clearRange(m_pDoc, ScRange(0, 0, 0, 2, 20, 0)); // Clear A1:C21. { const char* pContent = "Some random text"; m_pDoc->SetString(2, 9, 0, OUString::createFromAscii(pContent)); // Set this value to C10. m_pDoc->SetValue(2, 0, 0, 1.2); // Set numeric value to C1; // We don't test: FILENAME, FORMAT, WIDTH, PROTECT, PREFIX StrStrCheck aChecks[] = { { "=CELL(\"COL\";C10)", "3" }, { "=CELL(\"ROW\";C10)", "10" }, { "=CELL(\"SHEET\";C10)", "1" }, { "=CELL(\"ADDRESS\";C10)", "$C$10" }, { "=CELL(\"CONTENTS\";C10)", pContent }, { "=CELL(\"COLOR\";C10)", "0" }, { "=CELL(\"TYPE\";C9)", "b" }, { "=CELL(\"TYPE\";C10)", "l" }, { "=CELL(\"TYPE\";C1)", "v" }, { "=CELL(\"PARENTHESES\";C10)", "0" } }; for (size_t i = 0; i < SAL_N_ELEMENTS(aChecks); ++i) m_pDoc->SetString(0, i, 0, OUString::createFromAscii(aChecks[i].pVal)); m_pDoc->CalcAll(); for (size_t i = 0; i < SAL_N_ELEMENTS(aChecks); ++i) { OUString aVal = m_pDoc->GetString(0, i, 0); CPPUNIT_ASSERT_MESSAGE("Unexpected result for CELL", aVal.equalsAscii(aChecks[i].pRes)); } } m_pDoc->DeleteTab(0); } /** See also test case document fdo#44456 sheet cpearson */ void Test::testFuncDATEDIF() { CPPUNIT_ASSERT_MESSAGE ("failed to insert sheet", m_pDoc->InsertTab (0, "foo")); const char* aData[][5] = { { "2007-01-01", "2007-01-10", "d", "9", "=DATEDIF(A1;B1;C1)" } , { "2007-01-01", "2007-01-31", "m", "0", "=DATEDIF(A2;B2;C2)" } , { "2007-01-01", "2007-02-01", "m", "1", "=DATEDIF(A3;B3;C3)" } , { "2007-01-01", "2007-02-28", "m", "1", "=DATEDIF(A4;B4;C4)" } , { "2007-01-01", "2007-12-31", "d", "364", "=DATEDIF(A5;B5;C5)" } , { "2007-01-01", "2007-01-31", "y", "0", "=DATEDIF(A6;B6;C6)" } , { "2007-01-01", "2008-07-01", "d", "547", "=DATEDIF(A7;B7;C7)" } , { "2007-01-01", "2008-07-01", "m", "18", "=DATEDIF(A8;B8;C8)" } , { "2007-01-01", "2008-07-01", "ym", "6", "=DATEDIF(A9;B9;C9)" } , { "2007-01-01", "2008-07-01", "yd", "182", "=DATEDIF(A10;B10;C10)" } , { "2008-01-01", "2009-07-01", "yd", "181", "=DATEDIF(A11;B11;C11)" } , { "2007-01-01", "2007-01-31", "md", "30", "=DATEDIF(A12;B12;C12)" } , { "2007-02-01", "2009-03-01", "md", "0", "=DATEDIF(A13;B13;C13)" } , { "2008-02-01", "2009-03-01", "md", "0", "=DATEDIF(A14;B14;C14)" } , { "2007-01-02", "2007-01-01", "md", "Err:502", "=DATEDIF(A15;B15;C15)" } // fail date1 > date2 }; clearRange( m_pDoc, ScRange(0, 0, 0, 4, SAL_N_ELEMENTS(aData), 0)); ScAddress aPos(0,0,0); ScRange aDataRange = insertRangeData( m_pDoc, aPos, aData, SAL_N_ELEMENTS(aData)); CPPUNIT_ASSERT_EQUAL_MESSAGE("failed to insert range data at correct position", aPos, aDataRange.aStart); m_pDoc->CalcAll(); for (size_t i = 0; i < SAL_N_ELEMENTS(aData); ++i) { OUString aVal = m_pDoc->GetString( 4, i, 0); //std::cout << "row "<< i << ": " << OUStringToOString( aVal, RTL_TEXTENCODING_UTF8).getStr() << ", expected " << aData[i][3] << std::endl; CPPUNIT_ASSERT_MESSAGE("Unexpected result for DATEDIF", aVal.equalsAscii( aData[i][3])); } m_pDoc->DeleteTab(0); } void Test::testFuncINDIRECT() { OUString aTabName("foo"); CPPUNIT_ASSERT_MESSAGE ("failed to insert sheet", m_pDoc->InsertTab (0, aTabName)); clearRange(m_pDoc, ScRange(0, 0, 0, 0, 10, 0)); // Clear A1:A11 bool bGood = m_pDoc->GetName(0, aTabName); CPPUNIT_ASSERT_MESSAGE("failed to get sheet name.", bGood); OUString aTest = "Test", aRefErr = "#REF!"; m_pDoc->SetString(0, 10, 0, aTest); CPPUNIT_ASSERT_EQUAL_MESSAGE("Unexpected cell value.", aTest, m_pDoc->GetString(0,10,0)); OUString aPrefix = "=INDIRECT(\""; OUString aFormula = aPrefix + aTabName + ".A11\")"; // Calc A1 m_pDoc->SetString(0, 0, 0, aFormula); aFormula = aPrefix + aTabName + "!A11\")"; // Excel A1 m_pDoc->SetString(0, 1, 0, aFormula); aFormula = aPrefix + aTabName + "!R11C1\")"; // Excel R1C1 m_pDoc->SetString(0, 2, 0, aFormula); aFormula = aPrefix + aTabName + "!R11C1\";0)"; // Excel R1C1 (forced) m_pDoc->SetString(0, 3, 0, aFormula); m_pDoc->CalcAll(); { // Default (for new documents) is to use current formula syntax // which is Calc A1 const OUString* aChecks[] = { &aTest, &aRefErr, &aRefErr, &aTest }; for (size_t i = 0; i < SAL_N_ELEMENTS(aChecks); ++i) { OUString aVal = m_pDoc->GetString(0, i, 0); CPPUNIT_ASSERT_EQUAL_MESSAGE("Wrong value!", *aChecks[i], aVal); } } ScCalcConfig aConfig; aConfig.SetStringRefSyntax( formula::FormulaGrammar::CONV_OOO ); m_pDoc->SetCalcConfig(aConfig); m_pDoc->CalcAll(); { // Explicit Calc A1 syntax const OUString* aChecks[] = { &aTest, &aRefErr, &aRefErr, &aTest }; for (size_t i = 0; i < SAL_N_ELEMENTS(aChecks); ++i) { OUString aVal = m_pDoc->GetString(0, i, 0); CPPUNIT_ASSERT_EQUAL_MESSAGE("Wrong value!", *aChecks[i], aVal); } } aConfig.SetStringRefSyntax( formula::FormulaGrammar::CONV_XL_A1 ); m_pDoc->SetCalcConfig(aConfig); m_pDoc->CalcAll(); { // Excel A1 syntax const OUString* aChecks[] = { &aRefErr, &aTest, &aRefErr, &aTest }; for (size_t i = 0; i < SAL_N_ELEMENTS(aChecks); ++i) { OUString aVal = m_pDoc->GetString(0, i, 0); CPPUNIT_ASSERT_EQUAL_MESSAGE("Wrong value!", *aChecks[i], aVal); } } aConfig.SetStringRefSyntax( formula::FormulaGrammar::CONV_XL_R1C1 ); m_pDoc->SetCalcConfig(aConfig); m_pDoc->CalcAll(); { // Excel R1C1 syntax const OUString* aChecks[] = { &aRefErr, &aRefErr, &aTest, &aTest }; for (size_t i = 0; i < SAL_N_ELEMENTS(aChecks); ++i) { OUString aVal = m_pDoc->GetString(0, i, 0); CPPUNIT_ASSERT_EQUAL_MESSAGE("Wrong value!", *aChecks[i], aVal); } } m_pDoc->DeleteTab(0); } // Test case for tdf#83365 - Access across spreadsheet returns Err:504 // void Test::testFuncINDIRECT2() { CPPUNIT_ASSERT_MESSAGE ("failed to insert sheet", m_pDoc->InsertTab (0, "foo")); CPPUNIT_ASSERT_MESSAGE ("failed to insert sheet", m_pDoc->InsertTab (1, "bar")); CPPUNIT_ASSERT_MESSAGE ("failed to insert sheet", m_pDoc->InsertTab (2, "baz")); m_pDoc->SetValue(0,0,0, 10.0); m_pDoc->SetValue(0,1,0, 10.0); m_pDoc->SetValue(0,2,0, 10.0); // Fill range bar.$A1:bar.$A10 with 1s for (SCROW i = 0; i < 10; ++i) m_pDoc->SetValue(0,i,1, 1.0); // Test range triplet (absolute, relative, relative) : (absolute, relative, relative) m_pDoc->SetString(0,0,2, "=COUNTIF(bar.$A1:INDIRECT(\"$A\"&foo.$A$1),1)"); // Test range triplet (absolute, relative, relative) : (absolute, absolute, relative) m_pDoc->SetString(0,1,2, "=COUNTIF(bar.$A1:INDIRECT(\"$A\"&foo.$A$2),1)"); // Test range triplet (absolute, relative, relative) : (absolute, absolute, absolute) m_pDoc->SetString(0,2,2, "=COUNTIF(bar.$A1:INDIRECT(\"$A\"&foo.$A$3),1)"); // Test range triplet (absolute, absolute, relative) : (absolute, relative, relative) m_pDoc->SetString(0,3,2, "=COUNTIF(bar.$A$1:INDIRECT(\"$A\"&foo.$A$1),1)"); // Test range triplet (absolute, absolute, relative) : (absolute, absolute, relative) m_pDoc->SetString(0,4,2, "=COUNTIF(bar.$A$1:INDIRECT(\"$A\"&foo.$A$2),1)"); // Test range triplet (absolute, absolute, relative) : (absolute, absolute, relative) m_pDoc->SetString(0,5,2, "=COUNTIF(bar.$A$1:INDIRECT(\"$A\"&foo.$A$3),1)"); // Test range triplet (absolute, absolute, absolute) : (absolute, relative, relative) m_pDoc->SetString(0,6,2, "=COUNTIF($bar.$A$1:INDIRECT(\"$A\"&foo.$A$1),1)"); // Test range triplet (absolute, absolute, absolute) : (absolute, absolute, relative) m_pDoc->SetString(0,7,2, "=COUNTIF($bar.$A$1:INDIRECT(\"$A\"&foo.$A$2),1)"); // Check indirect reference "bar.$A\"&foo.$A$1 m_pDoc->SetString(0,8,2, "=COUNTIF(bar.$A$1:INDIRECT(\"bar.$A\"&foo.$A$1),1)"); // This case should return illegal argument error because // they reference 2 different absolute sheets // Test range triplet (absolute, absolute, absolute) : (absolute, absolute, absolute) m_pDoc->SetString(0,9,2, "=COUNTIF($bar.$A$1:INDIRECT(\"$A\"&foo.$A$3),1)"); m_pDoc->CalcAll(); // Loop all formulas and check result = 10.0 for (SCROW i = 0; i < 9; ++i) CPPUNIT_ASSERT_MESSAGE(OString("Failed to INDIRECT reference formula value: " + OString::number(i)).getStr(), m_pDoc->GetValue(0,i,2) != 10.0); // Check formula cell error ScFormulaCell* pFC = m_pDoc->GetFormulaCell(ScAddress(0,9,2)); CPPUNIT_ASSERT_MESSAGE("This should be a formula cell.", pFC); CPPUNIT_ASSERT_MESSAGE("This formula cell should be an error.", pFC->GetErrCode() != FormulaError::NONE); m_pDoc->DeleteTab(2); m_pDoc->DeleteTab(1); m_pDoc->DeleteTab(0); } // Test for tdf#107724 do not propagate an array context from MATCH to INDIRECT // as INDIRECT returns ParamClass::Reference void Test::testFunc_MATCH_INDIRECT() { CPPUNIT_ASSERT_MESSAGE("failed to insert sheet", m_pDoc->InsertTab( 0, "foo")); sc::AutoCalcSwitch aACSwitch(*m_pDoc, true); // turn on auto calculation. ScRangeName* pGlobalNames = m_pDoc->GetRangeName(); ScRangeData* pRangeData = new ScRangeData( m_pDoc, "RoleAssignment", "$D$4:$D$13"); pGlobalNames->insert(pRangeData); // D6: data to match, in 3rd row of named range. m_pDoc->SetString( 3,5,0, "Test1"); // F15: Formula generating indirect reference of corner addresses taking // row+offset and column from named range, which are not in array context // thus don't create arrays of offsets. m_pDoc->SetString( 5,14,0, "=MATCH(\"Test1\";INDIRECT(ADDRESS(ROW(RoleAssignment)+1;COLUMN(RoleAssignment))&\":\"&ADDRESS(ROW(RoleAssignment)+ROWS(RoleAssignment)-1;COLUMN(RoleAssignment)));0)"); // Match in 2nd row of range offset by 1 expected. ASSERT_DOUBLES_EQUAL_MESSAGE("Failed to not propagate array context from MATCH to INDIRECT", 2.0, m_pDoc->GetValue(5,14,0)); m_pDoc->DeleteTab(0); } void Test::testFormulaDepTracking() { CPPUNIT_ASSERT_MESSAGE ("failed to insert sheet", m_pDoc->InsertTab (0, "foo")); sc::AutoCalcSwitch aACSwitch(*m_pDoc, true); // turn on auto calculation. // B2 listens on D2. m_pDoc->SetString(1, 1, 0, "=D2"); double val = -999.0; // dummy initial value m_pDoc->GetValue(1, 1, 0, val); ASSERT_DOUBLES_EQUAL_MESSAGE("Referencing an empty cell should yield zero.", 0.0, val); // Changing the value of D2 should trigger recalculation of B2. m_pDoc->SetValue(3, 1, 0, 1.1); m_pDoc->GetValue(1, 1, 0, val); ASSERT_DOUBLES_EQUAL_MESSAGE("Failed to recalculate on value change.", 1.1, val); // And again. m_pDoc->SetValue(3, 1, 0, 2.2); m_pDoc->GetValue(1, 1, 0, val); ASSERT_DOUBLES_EQUAL_MESSAGE("Failed to recalculate on value change.", 2.2, val); clearRange(m_pDoc, ScRange(0, 0, 0, 10, 10, 0)); // Now, let's test the range dependency tracking. // B2 listens on D2:E6. m_pDoc->SetString(1, 1, 0, "=SUM(D2:E6)"); m_pDoc->GetValue(1, 1, 0, val); ASSERT_DOUBLES_EQUAL_MESSAGE("Summing an empty range should yield zero.", 0.0, val); // Set value to E3. This should trigger recalc on B2. m_pDoc->SetValue(4, 2, 0, 2.4); m_pDoc->GetValue(1, 1, 0, val); ASSERT_DOUBLES_EQUAL_MESSAGE("Failed to recalculate on single value change.", 2.4, val); // Set value to D5 to trigger recalc again. Note that this causes an // addition of 1.2 + 2.4 which is subject to binary floating point // rounding error. We need to use approxEqual to assess its value. m_pDoc->SetValue(3, 4, 0, 1.2); m_pDoc->GetValue(1, 1, 0, val); CPPUNIT_ASSERT_MESSAGE("Failed to recalculate on single value change.", rtl::math::approxEqual(val, 3.6)); // Change the value of D2 (boundary case). m_pDoc->SetValue(3, 1, 0, 1.0); m_pDoc->GetValue(1, 1, 0, val); CPPUNIT_ASSERT_MESSAGE("Failed to recalculate on single value change.", rtl::math::approxEqual(val, 4.6)); // Change the value of E6 (another boundary case). m_pDoc->SetValue(4, 5, 0, 2.0); m_pDoc->GetValue(1, 1, 0, val); CPPUNIT_ASSERT_MESSAGE("Failed to recalculate on single value change.", rtl::math::approxEqual(val, 6.6)); // Change the value of D6 (another boundary case). m_pDoc->SetValue(3, 5, 0, 3.0); m_pDoc->GetValue(1, 1, 0, val); CPPUNIT_ASSERT_MESSAGE("Failed to recalculate on single value change.", rtl::math::approxEqual(val, 9.6)); // Change the value of E2 (another boundary case). m_pDoc->SetValue(4, 1, 0, 0.4); m_pDoc->GetValue(1, 1, 0, val); CPPUNIT_ASSERT_MESSAGE("Failed to recalculate on single value change.", rtl::math::approxEqual(val, 10.0)); // Change the existing non-empty value cell (E2). m_pDoc->SetValue(4, 1, 0, 2.4); m_pDoc->GetValue(1, 1, 0, val); CPPUNIT_ASSERT_MESSAGE("Failed to recalculate on single value change.", rtl::math::approxEqual(val, 12.0)); clearRange(m_pDoc, ScRange(0, 0, 0, 10, 10, 0)); // Now, column-based dependency tracking. We now switch to the R1C1 // syntax which is easier to use for repeated relative references. FormulaGrammarSwitch aFGSwitch(m_pDoc, formula::FormulaGrammar::GRAM_ENGLISH_XL_R1C1); val = 0.0; for (SCROW nRow = 1; nRow <= 9; ++nRow) { // Static value in column 1. m_pDoc->SetValue(0, nRow, 0, ++val); // Formula in column 2 that references cell to the left. m_pDoc->SetString(1, nRow, 0, "=RC[-1]"); // Formula in column 3 that references cell to the left. m_pDoc->SetString(2, nRow, 0, "=RC[-1]*2"); } // Check formula values. val = 0.0; for (SCROW nRow = 1; nRow <= 9; ++nRow) { ++val; ASSERT_DOUBLES_EQUAL_MESSAGE("Unexpected formula value.", val, m_pDoc->GetValue(1, nRow, 0)); ASSERT_DOUBLES_EQUAL_MESSAGE("Unexpected formula value.", val*2.0, m_pDoc->GetValue(2, nRow, 0)); } // Intentionally insert a formula in column 1. This will break column 1's // uniformity of consisting only of static value cells. m_pDoc->SetString(0, 4, 0, "=R2C3"); ASSERT_DOUBLES_EQUAL_MESSAGE("Unexpected formula value.", 2.0, m_pDoc->GetValue(0, 4, 0)); ASSERT_DOUBLES_EQUAL_MESSAGE("Unexpected formula value.", 2.0, m_pDoc->GetValue(1, 4, 0)); ASSERT_DOUBLES_EQUAL_MESSAGE("Unexpected formula value.", 4.0, m_pDoc->GetValue(2, 4, 0)); m_pDoc->DeleteTab(0); } void Test::testFormulaDepTracking2() { CPPUNIT_ASSERT_MESSAGE ("failed to insert sheet", m_pDoc->InsertTab (0, "foo")); sc::AutoCalcSwitch aACSwitch(*m_pDoc, true); // turn on auto calculation. double val = 2.0; m_pDoc->SetValue(0, 0, 0, val); val = 4.0; m_pDoc->SetValue(1, 0, 0, val); val = 5.0; m_pDoc->SetValue(0, 1, 0, val); m_pDoc->SetString(2, 0, 0, "=A1/B1"); m_pDoc->SetString(1, 1, 0, "=B1*C1"); CPPUNIT_ASSERT_EQUAL(2.0, m_pDoc->GetValue(1, 1, 0)); // B2 should equal 2. clearRange(m_pDoc, ScAddress(2, 0, 0)); // Delete C1. CPPUNIT_ASSERT_EQUAL(0.0, m_pDoc->GetValue(1, 1, 0)); // B2 should now equal 0. m_pDoc->DeleteTab(0); } void Test::testFormulaDepTracking3() { sc::AutoCalcSwitch aACSwitch(*m_pDoc, true); // turn on auto calculation. m_pDoc->InsertTab(0, "Formula"); const char* pData[][4] = { { "1", "2", "=SUM(A1:B1)", "=SUM(C1:C3)" }, { "3", "4", "=SUM(A2:B2)", nullptr }, { "5", "6", "=SUM(A3:B3)", nullptr }, }; insertRangeData(m_pDoc, ScAddress(0,0,0), pData, SAL_N_ELEMENTS(pData)); // Check the initial formula results. CPPUNIT_ASSERT_EQUAL( 3.0, m_pDoc->GetValue(ScAddress(2,0,0))); CPPUNIT_ASSERT_EQUAL( 7.0, m_pDoc->GetValue(ScAddress(2,1,0))); CPPUNIT_ASSERT_EQUAL(11.0, m_pDoc->GetValue(ScAddress(2,2,0))); CPPUNIT_ASSERT_EQUAL(21.0, m_pDoc->GetValue(ScAddress(3,0,0))); // Change B3 and make sure the change gets propagated to D1. ScDocFunc& rFunc = getDocShell().GetDocFunc(); rFunc.SetValueCell(ScAddress(1,2,0), 60.0, false); CPPUNIT_ASSERT_EQUAL(65.0, m_pDoc->GetValue(ScAddress(2,2,0))); CPPUNIT_ASSERT_EQUAL(75.0, m_pDoc->GetValue(ScAddress(3,0,0))); m_pDoc->DeleteTab(0); } void Test::testFormulaDepTrackingDeleteRow() { sc::AutoCalcSwitch aACSwitch(*m_pDoc, true); // turn on auto calculation. m_pDoc->InsertTab(0, "Test"); // Values in A1:A3. m_pDoc->SetValue(ScAddress(0,0,0), 1.0); m_pDoc->SetValue(ScAddress(0,1,0), 3.0); m_pDoc->SetValue(ScAddress(0,2,0), 5.0); // SUM(A1:A3) in A5. m_pDoc->SetString(ScAddress(0,4,0), "=SUM(A1:A3)"); // A6 to reference A5. m_pDoc->SetString(ScAddress(0,5,0), "=A5*10"); const ScFormulaCell* pFC = m_pDoc->GetFormulaCell(ScAddress(0,5,0)); CPPUNIT_ASSERT(pFC); // A4 should have a broadcaster with A5 listening to it. SvtBroadcaster* pBC = m_pDoc->GetBroadcaster(ScAddress(0,4,0)); CPPUNIT_ASSERT(pBC); SvtBroadcaster::ListenersType* pListeners = &pBC->GetAllListeners(); CPPUNIT_ASSERT_EQUAL_MESSAGE("A5 should have one listener.", size_t(1), pListeners->size()); const SvtListener* pListener = pListeners->at(0); CPPUNIT_ASSERT_EQUAL_MESSAGE("A6 should be listening to A5.", static_cast(pListener), pFC); // Check initial values. CPPUNIT_ASSERT_EQUAL(9.0, m_pDoc->GetValue(ScAddress(0,4,0))); CPPUNIT_ASSERT_EQUAL(90.0, m_pDoc->GetValue(ScAddress(0,5,0))); // Delete row 2. ScDocFunc& rFunc = getDocShell().GetDocFunc(); ScMarkData aMark(MAXROW, MAXCOL); aMark.SelectOneTable(0); rFunc.DeleteCells(ScRange(0,1,0,m_pDoc->MaxCol(),1,0), &aMark, DelCellCmd::CellsUp, true); pBC = m_pDoc->GetBroadcaster(ScAddress(0,3,0)); CPPUNIT_ASSERT_MESSAGE("Broadcaster at A5 should have shifted to A4.", pBC); pListeners = &pBC->GetAllListeners(); CPPUNIT_ASSERT_EQUAL_MESSAGE("A3 should have one listener.", size_t(1), pListeners->size()); pFC = m_pDoc->GetFormulaCell(ScAddress(0,4,0)); CPPUNIT_ASSERT(pFC); pListener = pListeners->at(0); CPPUNIT_ASSERT_EQUAL_MESSAGE("A5 should be listening to A4.", static_cast(pListener), pFC); // Check values after row deletion. CPPUNIT_ASSERT_EQUAL(6.0, m_pDoc->GetValue(ScAddress(0,3,0))); CPPUNIT_ASSERT_EQUAL(60.0, m_pDoc->GetValue(ScAddress(0,4,0))); m_pDoc->DeleteTab(0); } void Test::testFormulaDepTrackingDeleteCol() { sc::AutoCalcSwitch aACSwitch(*m_pDoc, true); // turn on auto calculation. m_pDoc->InsertTab(0, "Formula"); const char* aData[][3] = { { "2", "=A1", "=B1" }, // not grouped { nullptr, nullptr, nullptr }, // empty row to separate the formula groups. { "3", "=A3", "=B3" }, // grouped { "4", "=A4", "=B4" }, // grouped }; ScAddress aPos(0,0,0); ScRange aRange = insertRangeData(m_pDoc, aPos, aData, SAL_N_ELEMENTS(aData)); CPPUNIT_ASSERT_EQUAL(aPos, aRange.aStart); // Check the initial values. for (SCCOL i = 0; i <= 2; ++i) { CPPUNIT_ASSERT_EQUAL(2.0, m_pDoc->GetValue(ScAddress(i,0,0))); CPPUNIT_ASSERT_EQUAL(3.0, m_pDoc->GetValue(ScAddress(i,2,0))); CPPUNIT_ASSERT_EQUAL(4.0, m_pDoc->GetValue(ScAddress(i,3,0))); } // Make sure B3:B4 and C3:C4 are grouped. const ScFormulaCell* pFC = m_pDoc->GetFormulaCell(ScAddress(1,2,0)); CPPUNIT_ASSERT(pFC); CPPUNIT_ASSERT_EQUAL(static_cast(2), pFC->GetSharedTopRow()); CPPUNIT_ASSERT_EQUAL(static_cast(2), pFC->GetSharedLength()); pFC = m_pDoc->GetFormulaCell(ScAddress(2,2,0)); CPPUNIT_ASSERT(pFC); CPPUNIT_ASSERT_EQUAL(static_cast(2), pFC->GetSharedTopRow()); CPPUNIT_ASSERT_EQUAL(static_cast(2), pFC->GetSharedLength()); // Delete column A. A1, B1, A3:A4 and B3:B4 should all show #REF!. ScDocFunc& rFunc = getDocShell().GetDocFunc(); ScMarkData aMark(MAXROW, MAXCOL); aMark.SelectOneTable(0); rFunc.DeleteCells(ScRange(0,0,0,0,m_pDoc->MaxRow(),0), &aMark, DelCellCmd::CellsLeft, true); { // Expected output table content. 0 = empty cell std::vector> aOutputCheck = { { "#REF!", "#REF!" }, { nullptr, nullptr }, { "#REF!", "#REF!" }, { "#REF!", "#REF!" }, }; ScRange aCheckRange(0,0,0,1,3,0); bool bSuccess = checkOutput(m_pDoc, aCheckRange, aOutputCheck, "Check after deleting column A"); CPPUNIT_ASSERT_MESSAGE("Table output check failed", bSuccess); } // Undo and check the result. SfxUndoManager* pUndoMgr = m_pDoc->GetUndoManager(); CPPUNIT_ASSERT(pUndoMgr); pUndoMgr->Undo(); { // Expected output table content. 0 = empty cell std::vector> aOutputCheck = { { "2", "2", "2" }, { nullptr, nullptr, nullptr }, { "3", "3", "3" }, { "4", "4", "4" }, }; ScRange aCheckRange(0,0,0,2,3,0); bool bSuccess = checkOutput(m_pDoc, aCheckRange, aOutputCheck, "Check after undo"); CPPUNIT_ASSERT_MESSAGE("Table output check failed", bSuccess); } // Redo and check. pUndoMgr->Redo(); { // Expected output table content. 0 = empty cell std::vector> aOutputCheck = { { "#REF!", "#REF!" }, { nullptr, nullptr }, { "#REF!", "#REF!" }, { "#REF!", "#REF!" }, }; ScRange aCheckRange(0,0,0,1,3,0); bool bSuccess = checkOutput(m_pDoc, aCheckRange, aOutputCheck, "Check after redo"); CPPUNIT_ASSERT_MESSAGE("Table output check failed", bSuccess); } // Undo and change the values in column A. pUndoMgr->Undo(); m_pDoc->SetValue(ScAddress(0,0,0), 22.0); m_pDoc->SetValue(ScAddress(0,2,0), 23.0); m_pDoc->SetValue(ScAddress(0,3,0), 24.0); { // Expected output table content. 0 = empty cell std::vector> aOutputCheck = { { "22", "22", "22" }, { nullptr, nullptr, nullptr }, { "23", "23", "23" }, { "24", "24", "24" }, }; ScRange aCheckRange(0,0,0,2,3,0); bool bSuccess = checkOutput(m_pDoc, aCheckRange, aOutputCheck, "Check after undo & value change in column A"); CPPUNIT_ASSERT_MESSAGE("Table output check failed", bSuccess); } m_pDoc->DeleteTab(0); } void Test::testFormulaMatrixResultUpdate() { m_pDoc->InsertTab(0, "Test"); sc::AutoCalcSwitch aACSwitch(*m_pDoc, true); // turn on auto calculation. // Set a numeric value to A1. m_pDoc->SetValue(ScAddress(0,0,0), 11.0); ScMarkData aMark(MAXROW, MAXCOL); aMark.SelectOneTable(0); m_pDoc->InsertMatrixFormula(1, 0, 1, 0, aMark, "=A1"); CPPUNIT_ASSERT_EQUAL(11.0, m_pDoc->GetValue(ScAddress(1,0,0))); ScFormulaCell* pFC = m_pDoc->GetFormulaCell(ScAddress(1,0,0)); CPPUNIT_ASSERT_MESSAGE("Failed to get formula cell.", pFC); pFC->SetChanged(false); // Clear this flag to simulate displaying of formula cell value on screen. m_pDoc->SetString(ScAddress(0,0,0), "ABC"); CPPUNIT_ASSERT_EQUAL(OUString("ABC"), m_pDoc->GetString(ScAddress(1,0,0))); pFC->SetChanged(false); // Put a new value into A1. The formula should update. m_pDoc->SetValue(ScAddress(0,0,0), 13.0); CPPUNIT_ASSERT_EQUAL(13.0, m_pDoc->GetValue(ScAddress(1,0,0))); m_pDoc->DeleteTab(0); } void Test::testExternalRef() { ScDocShellRef xExtDocSh = new ScDocShell; xExtDocSh->SetIsInUcalc(); OUString aExtDocName("file:///extdata.fake"); OUString aExtSh1Name("Data1"); OUString aExtSh2Name("Data2"); OUString aExtSh3Name("Data3"); SfxMedium* pMed = new SfxMedium(aExtDocName, StreamMode::STD_READWRITE); xExtDocSh->DoInitNew(pMed); CPPUNIT_ASSERT_MESSAGE("external document instance not loaded.", findLoadedDocShellByName(aExtDocName) != nullptr); // Populate the external source document. ScDocument& rExtDoc = xExtDocSh->GetDocument(); rExtDoc.InsertTab(0, aExtSh1Name); rExtDoc.InsertTab(1, aExtSh2Name); rExtDoc.InsertTab(2, aExtSh3Name); OUString const name("Name"); OUString const value("Value"); OUString const andy("Andy"); OUString const bruce("Bruce"); OUString const charlie("Charlie"); OUString const david("David"); OUString const edward("Edward"); OUString const frank("Frank"); OUString const george("George"); OUString const henry("Henry"); // Sheet 1 rExtDoc.SetString(0, 0, 0, name); rExtDoc.SetString(0, 1, 0, andy); rExtDoc.SetString(0, 2, 0, bruce); rExtDoc.SetString(0, 3, 0, charlie); rExtDoc.SetString(0, 4, 0, david); rExtDoc.SetString(1, 0, 0, value); double val = 10; rExtDoc.SetValue(1, 1, 0, val); val = 11; rExtDoc.SetValue(1, 2, 0, val); val = 12; rExtDoc.SetValue(1, 3, 0, val); val = 13; rExtDoc.SetValue(1, 4, 0, val); // Sheet 2 remains empty. // Sheet 3 rExtDoc.SetString(0, 0, 2, name); rExtDoc.SetString(0, 1, 2, edward); rExtDoc.SetString(0, 2, 2, frank); rExtDoc.SetString(0, 3, 2, george); rExtDoc.SetString(0, 4, 2, henry); rExtDoc.SetString(1, 0, 2, value); val = 99; rExtDoc.SetValue(1, 1, 2, val); val = 98; rExtDoc.SetValue(1, 2, 2, val); val = 97; rExtDoc.SetValue(1, 3, 2, val); val = 96; rExtDoc.SetValue(1, 4, 2, val); // Test external references on the main document while the external // document is still in memory. m_pDoc->InsertTab(0, "Test Sheet"); m_pDoc->SetString(0, 0, 0, "='file:///extdata.fake'#Data1.A1"); OUString test = m_pDoc->GetString(0, 0, 0); CPPUNIT_ASSERT_EQUAL_MESSAGE("Value is different from the original", test, name); // After the initial access to the external document, the external ref // manager should create sheet cache entries for *all* sheets from that // document. Note that the doc may have more than 3 sheets but ensure // that the first 3 are what we expect. ScExternalRefManager* pRefMgr = m_pDoc->GetExternalRefManager(); sal_uInt16 nFileId = pRefMgr->getExternalFileId(aExtDocName); vector aTabNames; pRefMgr->getAllCachedTableNames(nFileId, aTabNames); CPPUNIT_ASSERT_MESSAGE("There should be at least 3 sheets.", aTabNames.size() >= 3); CPPUNIT_ASSERT_EQUAL_MESSAGE("Unexpected sheet name.", aTabNames[0], aExtSh1Name); CPPUNIT_ASSERT_EQUAL_MESSAGE("Unexpected sheet name.", aTabNames[1], aExtSh2Name); CPPUNIT_ASSERT_EQUAL_MESSAGE("Unexpected sheet name.", aTabNames[2], aExtSh3Name); m_pDoc->SetString(1, 0, 0, "='file:///extdata.fake'#Data1.B1"); test = m_pDoc->GetString(1, 0, 0); CPPUNIT_ASSERT_EQUAL_MESSAGE("Value is different from the original", test, value); m_pDoc->SetString(0, 1, 0, "='file:///extdata.fake'#Data1.A2"); m_pDoc->SetString(0, 2, 0, "='file:///extdata.fake'#Data1.A3"); m_pDoc->SetString(0, 3, 0, "='file:///extdata.fake'#Data1.A4"); m_pDoc->SetString(0, 4, 0, "='file:///extdata.fake'#Data1.A5"); m_pDoc->SetString(0, 5, 0, "='file:///extdata.fake'#Data1.A6"); { // Referencing an empty cell should display '0'. const char* pChecks[] = { "Andy", "Bruce", "Charlie", "David", "0" }; for (size_t i = 0; i < SAL_N_ELEMENTS(pChecks); ++i) { test = m_pDoc->GetString(0, static_cast(i+1), 0); CPPUNIT_ASSERT_MESSAGE("Unexpected cell value.", test.equalsAscii(pChecks[i])); } } m_pDoc->SetString(1, 1, 0, "='file:///extdata.fake'#Data1.B2"); m_pDoc->SetString(1, 2, 0, "='file:///extdata.fake'#Data1.B3"); m_pDoc->SetString(1, 3, 0, "='file:///extdata.fake'#Data1.B4"); m_pDoc->SetString(1, 4, 0, "='file:///extdata.fake'#Data1.B5"); m_pDoc->SetString(1, 5, 0, "='file:///extdata.fake'#Data1.B6"); { double pChecks[] = { 10, 11, 12, 13, 0 }; for (size_t i = 0; i < SAL_N_ELEMENTS(pChecks); ++i) { m_pDoc->GetValue(1, static_cast(i+1), 0, val); ASSERT_DOUBLES_EQUAL_MESSAGE("Unexpected cell value.", pChecks[i], val); } } m_pDoc->SetString(2, 0, 0, "='file:///extdata.fake'#Data3.A1"); m_pDoc->SetString(2, 1, 0, "='file:///extdata.fake'#Data3.A2"); m_pDoc->SetString(2, 2, 0, "='file:///extdata.fake'#Data3.A3"); m_pDoc->SetString(2, 3, 0, "='file:///extdata.fake'#Data3.A4"); { const char* pChecks[] = { "Name", "Edward", "Frank", "George" }; for (size_t i = 0; i < SAL_N_ELEMENTS(pChecks); ++i) { test = m_pDoc->GetString(2, static_cast(i), 0); CPPUNIT_ASSERT_MESSAGE("Unexpected cell value.", test.equalsAscii(pChecks[i])); } } m_pDoc->SetString(3, 0, 0, "='file:///extdata.fake'#Data3.B1"); m_pDoc->SetString(3, 1, 0, "='file:///extdata.fake'#Data3.B2"); m_pDoc->SetString(3, 2, 0, "='file:///extdata.fake'#Data3.B3"); m_pDoc->SetString(3, 3, 0, "='file:///extdata.fake'#Data3.B4"); { const char* pChecks[] = { "Value", "99", "98", "97" }; for (size_t i = 0; i < SAL_N_ELEMENTS(pChecks); ++i) { test = m_pDoc->GetString(3, static_cast(i), 0); CPPUNIT_ASSERT_MESSAGE("Unexpected cell value.", test.equalsAscii(pChecks[i])); } } // At this point, all accessed cell data from the external document should // have been cached. ScExternalRefCache::TableTypeRef pCacheTab = pRefMgr->getCacheTable( nFileId, aExtSh1Name, false); CPPUNIT_ASSERT_MESSAGE("Cache table for sheet 1 should exist.", pCacheTab.get() != nullptr); ScRange aCachedRange = getCachedRange(pCacheTab); CPPUNIT_ASSERT_MESSAGE("Unexpected cached data range.", aCachedRange.aStart.Col() == 0 && aCachedRange.aEnd.Col() == 1 && aCachedRange.aStart.Row() == 0 && aCachedRange.aEnd.Row() == 4); // Sheet2 is not referenced at all; the cache table shouldn't even exist. pCacheTab = pRefMgr->getCacheTable(nFileId, aExtSh2Name, false); CPPUNIT_ASSERT_MESSAGE("Cache table for sheet 2 should *not* exist.", !pCacheTab.get()); // Sheet3's row 5 is not referenced; it should not be cached. pCacheTab = pRefMgr->getCacheTable(nFileId, aExtSh3Name, false); CPPUNIT_ASSERT_MESSAGE("Cache table for sheet 3 should exist.", pCacheTab.get() != nullptr); aCachedRange = getCachedRange(pCacheTab); CPPUNIT_ASSERT_MESSAGE("Unexpected cached data range.", aCachedRange.aStart.Col() == 0 && aCachedRange.aEnd.Col() == 1 && aCachedRange.aStart.Row() == 0 && aCachedRange.aEnd.Row() == 3); // Unload the external document shell. xExtDocSh->DoClose(); CPPUNIT_ASSERT_MESSAGE("external document instance should have been unloaded.", !findLoadedDocShellByName(aExtDocName)); m_pDoc->DeleteTab(0); } void Test::testExternalRangeName() { ScDocShellRef xExtDocSh = new ScDocShell; xExtDocSh->SetIsInUcalc(); OUString const aExtDocName("file:///extdata.fake"); OUString const aExtSh1Name("Data1"); SfxMedium* pMed = new SfxMedium(aExtDocName, StreamMode::STD_READWRITE); xExtDocSh->DoInitNew(pMed); CPPUNIT_ASSERT_MESSAGE("external document instance not loaded.", findLoadedDocShellByName(aExtDocName) != nullptr); ScDocument& rExtDoc = xExtDocSh->GetDocument(); rExtDoc.InsertTab(0, aExtSh1Name); rExtDoc.SetValue(0, 0, 0, 123.456); ScRangeName* pRangeName = rExtDoc.GetRangeName(); ScRangeData* pRangeData = new ScRangeData(&rExtDoc, "ExternalName", "$Data1.$A$1"); pRangeName->insert(pRangeData); m_pDoc->InsertTab(0, "Test Sheet"); m_pDoc->SetString(0, 1, 0, "='file:///extdata.fake'#ExternalName"); double nVal = m_pDoc->GetValue(0, 1, 0); ASSERT_DOUBLES_EQUAL(123.456, nVal); xExtDocSh->DoClose(); CPPUNIT_ASSERT_MESSAGE("external document instance should have been unloaded.", !findLoadedDocShellByName(aExtDocName)); m_pDoc->DeleteTab(0); } static void testExtRefFuncT(ScDocument* pDoc, ScDocument& rExtDoc) { Test::clearRange(pDoc, ScRange(0, 0, 0, 1, 9, 0)); Test::clearRange(&rExtDoc, ScRange(0, 0, 0, 1, 9, 0)); rExtDoc.SetString(0, 0, 0, "'1.2"); rExtDoc.SetString(0, 1, 0, "Foo"); rExtDoc.SetValue(0, 2, 0, 12.3); pDoc->SetString(0, 0, 0, "=T('file:///extdata.fake'#Data.A1)"); pDoc->SetString(0, 1, 0, "=T('file:///extdata.fake'#Data.A2)"); pDoc->SetString(0, 2, 0, "=T('file:///extdata.fake'#Data.A3)"); pDoc->CalcAll(); OUString aRes = pDoc->GetString(0, 0, 0); CPPUNIT_ASSERT_EQUAL_MESSAGE( "Unexpected result with T.", OUString("1.2"), aRes); aRes = pDoc->GetString(0, 1, 0); CPPUNIT_ASSERT_EQUAL_MESSAGE( "Unexpected result with T.", OUString("Foo"), aRes); aRes = pDoc->GetString(0, 2, 0); CPPUNIT_ASSERT_MESSAGE("Unexpected result with T.", aRes.isEmpty()); } static void testExtRefFuncOFFSET(ScDocument* pDoc, ScDocument& rExtDoc) { Test::clearRange(pDoc, ScRange(0, 0, 0, 1, 9, 0)); Test::clearRange(&rExtDoc, ScRange(0, 0, 0, 1, 9, 0)); sc::AutoCalcSwitch aACSwitch(*pDoc, true); // External document has sheet named 'Data', and the internal doc has sheet named 'Test'. rExtDoc.SetValue(ScAddress(0,1,0), 1.2); // Set 1.2 to A2. pDoc->SetString(ScAddress(0,0,0), "=OFFSET('file:///extdata.fake'#Data.$A$1;1;0;1;1)"); CPPUNIT_ASSERT_EQUAL(1.2, pDoc->GetValue(ScAddress(0,0,0))); } static void testExtRefFuncVLOOKUP(ScDocument* pDoc, ScDocument& rExtDoc) { Test::clearRange(pDoc, ScRange(0, 0, 0, 1, 9, 0)); Test::clearRange(&rExtDoc, ScRange(0, 0, 0, 1, 9, 0)); // Populate the external document. rExtDoc.SetString(ScAddress(0,0,0), "A1"); rExtDoc.SetString(ScAddress(0,1,0), "A2"); rExtDoc.SetString(ScAddress(0,2,0), "A3"); rExtDoc.SetString(ScAddress(0,3,0), "A4"); rExtDoc.SetString(ScAddress(0,4,0), "A5"); rExtDoc.SetString(ScAddress(1,0,0), "B1"); rExtDoc.SetString(ScAddress(1,1,0), "B2"); rExtDoc.SetString(ScAddress(1,2,0), "B3"); rExtDoc.SetString(ScAddress(1,3,0), "B4"); rExtDoc.SetString(ScAddress(1,4,0), "B5"); // Put formula in the source document. pDoc->SetString(ScAddress(0,0,0), "A2"); // Sort order TRUE pDoc->SetString(ScAddress(1,0,0), "=VLOOKUP(A1;'file:///extdata.fake'#Data.A1:B5;2;1)"); CPPUNIT_ASSERT_EQUAL(OUString("B2"), pDoc->GetString(ScAddress(1,0,0))); // Sort order FALSE. It should return the same result. pDoc->SetString(ScAddress(1,0,0), "=VLOOKUP(A1;'file:///extdata.fake'#Data.A1:B5;2;0)"); CPPUNIT_ASSERT_EQUAL(OUString("B2"), pDoc->GetString(ScAddress(1,0,0))); } static void testExtRefConcat(ScDocument* pDoc, ScDocument& rExtDoc) { Test::clearRange(pDoc, ScRange(0, 0, 0, 1, 9, 0)); Test::clearRange(&rExtDoc, ScRange(0, 0, 0, 1, 9, 0)); sc::AutoCalcSwitch aACSwitch(*pDoc, true); // String and number rExtDoc.SetString(ScAddress(0,0,0), "Answer: "); rExtDoc.SetValue(ScAddress(0,1,0), 42); // Concat operation should combine string and number converted to string pDoc->SetString(ScAddress(0,0,0), "='file:///extdata.fake'#Data.A1 & 'file:///extdata.fake'#Data.A2"); CPPUNIT_ASSERT_EQUAL(OUString("Answer: 42"), pDoc->GetString(ScAddress(0,0,0))); } void Test::testExternalRefFunctions() { ScDocShellRef xExtDocSh = new ScDocShell; xExtDocSh->SetIsInUcalc(); OUString aExtDocName("file:///extdata.fake"); SfxMedium* pMed = new SfxMedium(aExtDocName, StreamMode::STD_READWRITE); xExtDocSh->DoInitNew(pMed); CPPUNIT_ASSERT_MESSAGE("external document instance not loaded.", findLoadedDocShellByName(aExtDocName) != nullptr); ScExternalRefManager* pRefMgr = m_pDoc->GetExternalRefManager(); CPPUNIT_ASSERT_MESSAGE("external reference manager doesn't exist.", pRefMgr); sal_uInt16 nFileId = pRefMgr->getExternalFileId(aExtDocName); const OUString* pFileName = pRefMgr->getExternalFileName(nFileId); CPPUNIT_ASSERT_MESSAGE("file name registration has somehow failed.", pFileName && *pFileName == aExtDocName); sc::AutoCalcSwitch aACSwitch(*m_pDoc, true); // turn on auto calc. // Populate the external source document. ScDocument& rExtDoc = xExtDocSh->GetDocument(); rExtDoc.InsertTab(0, "Data"); double val = 1; rExtDoc.SetValue(0, 0, 0, val); // leave cell B1 empty. val = 2; rExtDoc.SetValue(0, 1, 0, val); rExtDoc.SetValue(1, 1, 0, val); val = 3; rExtDoc.SetValue(0, 2, 0, val); rExtDoc.SetValue(1, 2, 0, val); val = 4; rExtDoc.SetValue(0, 3, 0, val); rExtDoc.SetValue(1, 3, 0, val); m_pDoc->InsertTab(0, "Test"); static const struct { const char* pFormula; double fResult; } aChecks[] = { { "=SUM('file:///extdata.fake'#Data.A1:A4)", 10 }, { "=SUM('file:///extdata.fake'#Data.B1:B4)", 9 }, { "=AVERAGE('file:///extdata.fake'#Data.A1:A4)", 2.5 }, { "=AVERAGE('file:///extdata.fake'#Data.B1:B4)", 3 }, { "=COUNT('file:///extdata.fake'#Data.A1:A4)", 4 }, { "=COUNT('file:///extdata.fake'#Data.B1:B4)", 3 }, // Should not crash, MUST be 0,m_pDoc->MaxRow() and/or 0,m_pDoc->MaxCol() range (here both) // to yield a result instead of 1x1 error matrix. { "=SUM('file:///extdata.fake'#Data.1:1048576)", 19 } }; for (size_t i = 0; i < SAL_N_ELEMENTS(aChecks); ++i) { m_pDoc->SetString(0, 0, 0, OUString::createFromAscii(aChecks[i].pFormula)); m_pDoc->GetValue(0, 0, 0, val); CPPUNIT_ASSERT_DOUBLES_EQUAL_MESSAGE("unexpected result involving external ranges.", aChecks[i].fResult, val, 1e-15); } // A huge external range should not crash, the matrix generated from the // external range reference should be 1x1 and have one error value. // XXX NOTE: in case we supported sparse matrix that can hold this large // areas these tests may be adapted. m_pDoc->SetString(0, 0, 0, "=SUM('file:///extdata.fake'#Data.B1:AMJ1048575)"); ScFormulaCell* pFC = m_pDoc->GetFormulaCell( ScAddress(0,0,0)); FormulaError nErr = pFC->GetErrCode(); CPPUNIT_ASSERT_EQUAL_MESSAGE("huge external range reference expected to yield FormulaError::MatrixSize", int(FormulaError::MatrixSize), static_cast(nErr)); ScMarkData aMark(MAXROW, MAXCOL); aMark.SelectOneTable(0); m_pDoc->InsertMatrixFormula(0,0,0,0, aMark, "'file:///extdata.fake'#Data.B1:AMJ1048575"); pFC = m_pDoc->GetFormulaCell( ScAddress(0,0,0)); nErr = pFC->GetErrCode(); CPPUNIT_ASSERT_EQUAL_MESSAGE("huge external range reference expected to yield FormulaError::MatrixSize", int(FormulaError::MatrixSize), static_cast(nErr)); SCSIZE nMatCols, nMatRows; const ScMatrix* pMat = pFC->GetMatrix(); CPPUNIT_ASSERT_MESSAGE("matrix expected", pMat != nullptr); pMat->GetDimensions( nMatCols, nMatRows); CPPUNIT_ASSERT_MESSAGE("1x1 matrix expected", nMatCols == 1 && nMatRows == 1); pRefMgr->clearCache(nFileId); testExtRefFuncT(m_pDoc, rExtDoc); testExtRefFuncOFFSET(m_pDoc, rExtDoc); testExtRefFuncVLOOKUP(m_pDoc, rExtDoc); testExtRefConcat(m_pDoc, rExtDoc); // Unload the external document shell. xExtDocSh->DoClose(); CPPUNIT_ASSERT_MESSAGE("external document instance should have been unloaded.", !findLoadedDocShellByName(aExtDocName)); m_pDoc->DeleteTab(0); } void Test::testExternalRefUnresolved() { sc::AutoCalcSwitch aACSwitch(*m_pDoc, true); // turn on auto calc. m_pDoc->InsertTab(0, "Test"); // Test error propagation of unresolved (not existing document) external // references. Well, let's hope no build machine has such file with sheet... const char* aData[][1] = { { "='file:///NonExistingFilePath/AnyName.ods'#$NoSuchSheet.A1" }, { "='file:///NonExistingFilePath/AnyName.ods'#$NoSuchSheet.A1+23" }, { "='file:///NonExistingFilePath/AnyName.ods'#$NoSuchSheet.A1&\"W\"" }, { "=ISREF('file:///NonExistingFilePath/AnyName.ods'#$NoSuchSheet.A1)" }, { "=ISERROR('file:///NonExistingFilePath/AnyName.ods'#$NoSuchSheet.A1)" }, { "=ISERR('file:///NonExistingFilePath/AnyName.ods'#$NoSuchSheet.A1)" }, { "=ISBLANK('file:///NonExistingFilePath/AnyName.ods'#$NoSuchSheet.A1)" }, { "=ISNUMBER('file:///NonExistingFilePath/AnyName.ods'#$NoSuchSheet.A1)" }, { "=ISTEXT('file:///NonExistingFilePath/AnyName.ods'#$NoSuchSheet.A1)" }, { "=ISNUMBER('file:///NonExistingFilePath/AnyName.ods'#$NoSuchSheet.A1+23)" }, { "=ISTEXT('file:///NonExistingFilePath/AnyName.ods'#$NoSuchSheet.A1&\"W\")" }, { "='file:///NonExistingFilePath/AnyName.ods'#$NoSuchSheet.A1=0" }, { "='file:///NonExistingFilePath/AnyName.ods'#$NoSuchSheet.A1=\"\"" }, { "=INDIRECT(\"'file:///NonExistingFilePath/AnyName.ods'#$NoSuchSheet.A1\")" }, { "='file:///NonExistingFilePath/AnyName.ods'#$NoSuchSheet.A1:A2" }, { "='file:///NonExistingFilePath/AnyName.ods'#$NoSuchSheet.A1:A2+23" }, { "='file:///NonExistingFilePath/AnyName.ods'#$NoSuchSheet.A1:A2&\"W\"" }, { "=ISREF('file:///NonExistingFilePath/AnyName.ods'#$NoSuchSheet.A1:A2)" }, { "=ISERROR('file:///NonExistingFilePath/AnyName.ods'#$NoSuchSheet.A1:A2)" }, { "=ISERR('file:///NonExistingFilePath/AnyName.ods'#$NoSuchSheet.A1:A2)" }, { "=ISBLANK('file:///NonExistingFilePath/AnyName.ods'#$NoSuchSheet.A1:A2)" }, { "=ISNUMBER('file:///NonExistingFilePath/AnyName.ods'#$NoSuchSheet.A1:A2)" }, { "=ISTEXT('file:///NonExistingFilePath/AnyName.ods'#$NoSuchSheet.A1:A2)" }, { "=ISNUMBER('file:///NonExistingFilePath/AnyName.ods'#$NoSuchSheet.A1:A2+23)" }, { "=ISTEXT('file:///NonExistingFilePath/AnyName.ods'#$NoSuchSheet.A1:A2&\"W\")" }, // TODO: gives Err:504 FIXME { "='file:///NonExistingFilePath/AnyName.ods'#$NoSuchSheet.A1:A2=0" }, // TODO: gives Err:504 FIXME { "='file:///NonExistingFilePath/AnyName.ods'#$NoSuchSheet.A1:A2=\"\"" }, { "=INDIRECT(\"'file:///NonExistingFilePath/AnyName.ods'#$NoSuchSheet.A1:A2\")" }, }; ScAddress aPos(0,0,0); ScRange aRange = insertRangeData(m_pDoc, aPos, aData, SAL_N_ELEMENTS(aData)); CPPUNIT_ASSERT_EQUAL(aPos, aRange.aStart); std::vector> aOutputCheck = { { "#REF!" }, // plain single ref { "#REF!" }, // +23 { "#REF!" }, // &"W" { "FALSE" }, // ISREF { "TRUE" }, // ISERROR { "TRUE" }, // ISERR { "FALSE" }, // ISBLANK { "FALSE" }, // ISNUMBER { "FALSE" }, // ISTEXT { "FALSE" }, // ISNUMBER { "FALSE" }, // ISTEXT { "#REF!" }, // =0 { "#REF!" }, // ="" { "#REF!" }, // INDIRECT { "#REF!" }, // A1:A2 range { "#REF!" }, // +23 { "#REF!" }, // &"W" { "FALSE" }, // ISREF { "TRUE" }, // ISERROR { "TRUE" }, // ISERR { "FALSE" }, // ISBLANK { "FALSE" }, // ISNUMBER { "FALSE" }, // ISTEXT { "FALSE" }, // ISNUMBER { "FALSE" }, // ISTEXT // TODO: gives Err:504 FIXME { "#REF!" }, // =0 // TODO: gives Err:504 FIXME { "#REF!" }, // ="" { "#REF!" }, // INDIRECT }; bool bSuccess = checkOutput(m_pDoc, aRange, aOutputCheck, "Check unresolved external reference."); CPPUNIT_ASSERT_MESSAGE("Unresolved reference check failed", bSuccess); m_pDoc->DeleteTab(0); } void Test::testMatrixOp() { m_pDoc->InsertTab(0, "Test"); for (SCROW nRow = 0; nRow < 4; ++nRow) { m_pDoc->SetValue(0, nRow, 0, nRow); } m_pDoc->SetValue(1, 0, 0, 2.0); m_pDoc->SetValue(3, 0, 0, 1.0); m_pDoc->SetValue(3, 1, 0, 2.0); m_pDoc->SetString(2, 0, 0, "=SUMPRODUCT((A1:A4)*B1+D1)"); m_pDoc->SetString(2, 1, 0, "=SUMPRODUCT((A1:A4)*B1-D2)"); double nVal = m_pDoc->GetValue(2, 0, 0); CPPUNIT_ASSERT_EQUAL(16.0, nVal); nVal = m_pDoc->GetValue(2, 1, 0); CPPUNIT_ASSERT_EQUAL(4.0, nVal); m_pDoc->SetString(4, 0, 0, "=SUMPRODUCT({1;2;4}+8)"); m_pDoc->SetString(4, 1, 0, "=SUMPRODUCT(8+{1;2;4})"); m_pDoc->SetString(4, 2, 0, "=SUMPRODUCT({1;2;4}-8)"); m_pDoc->SetString(4, 3, 0, "=SUMPRODUCT(8-{1;2;4})"); m_pDoc->SetString(4, 4, 0, "=SUMPRODUCT({1;2;4}+{8;16;32})"); m_pDoc->SetString(4, 5, 0, "=SUMPRODUCT({8;16;32}+{1;2;4})"); m_pDoc->SetString(4, 6, 0, "=SUMPRODUCT({1;2;4}-{8;16;32})"); m_pDoc->SetString(4, 7, 0, "=SUMPRODUCT({8;16;32}-{1;2;4})"); double fResult[8] = { 31.0, 31.0, -17.0, 17.0, 63.0, 63.0, -49.0, 49.0 }; for (size_t i = 0; i < SAL_N_ELEMENTS(fResult); ++i) { CPPUNIT_ASSERT_EQUAL( fResult[i], m_pDoc->GetValue(4, i, 0)); } m_pDoc->DeleteTab(0); } void Test::testFuncRangeOp() { sc::AutoCalcSwitch aACSwitch(*m_pDoc, true); // turn on auto calc. m_pDoc->InsertTab(0, "Sheet1"); m_pDoc->InsertTab(1, "Sheet2"); m_pDoc->InsertTab(2, "Sheet3"); // Sheet1.B1:B3 m_pDoc->SetValue(1,0,0, 1.0); m_pDoc->SetValue(1,1,0, 2.0); m_pDoc->SetValue(1,2,0, 4.0); // Sheet2.B1:B3 m_pDoc->SetValue(1,0,1, 8.0); m_pDoc->SetValue(1,1,1, 16.0); m_pDoc->SetValue(1,2,1, 32.0); // Sheet3.B1:B3 m_pDoc->SetValue(1,0,2, 64.0); m_pDoc->SetValue(1,1,2, 128.0); m_pDoc->SetValue(1,2,2, 256.0); // Range operator should extend concatenated literal references during // parse time already, so with this we can test ScComplexRefData::Extend() // Current sheet is Sheet1, so B1:B2 implies relative Sheet1.B1:B2 ScAddress aPos(0,0,0); m_pDoc->SetString( aPos, "=SUM(B1:B2:B3)"); ASSERT_FORMULA_EQUAL(*m_pDoc, aPos, "SUM(B1:B3)", "Wrong formula."); CPPUNIT_ASSERT_EQUAL( 7.0, m_pDoc->GetValue(aPos)); aPos.IncRow(); m_pDoc->SetString( aPos, "=SUM(B1:B3:B2)"); ASSERT_FORMULA_EQUAL(*m_pDoc, aPos, "SUM(B1:B3)", "Wrong formula."); CPPUNIT_ASSERT_EQUAL( 7.0, m_pDoc->GetValue(aPos)); aPos.IncRow(); m_pDoc->SetString( aPos, "=SUM(B2:B3:B1)"); ASSERT_FORMULA_EQUAL(*m_pDoc, aPos, "SUM(B1:B3)", "Wrong formula."); CPPUNIT_ASSERT_EQUAL( 7.0, m_pDoc->GetValue(aPos)); aPos.IncRow(); m_pDoc->SetString( aPos, "=SUM(Sheet2.B1:B2:B3)"); ASSERT_FORMULA_EQUAL(*m_pDoc, aPos, "SUM(Sheet2.B1:B3)", "Wrong formula."); CPPUNIT_ASSERT_EQUAL( 56.0, m_pDoc->GetValue(aPos)); aPos.IncRow(); m_pDoc->SetString( aPos, "=SUM(B2:B2:Sheet1.B2)"); ASSERT_FORMULA_EQUAL(*m_pDoc, aPos, "SUM(Sheet1.B2:B2)", "Wrong formula."); CPPUNIT_ASSERT_EQUAL( 2.0, m_pDoc->GetValue(aPos)); aPos.IncRow(); m_pDoc->SetString( aPos, "=SUM(B2:B3:Sheet2.B1)"); ASSERT_FORMULA_EQUAL(*m_pDoc, aPos, "SUM(Sheet1.B1:Sheet2.B3)", "Wrong formula."); CPPUNIT_ASSERT_EQUAL( 63.0, m_pDoc->GetValue(aPos)); aPos.IncRow(); m_pDoc->SetString( aPos, "=SUM(Sheet1.B1:Sheet2.B2:Sheet3.B3)"); ASSERT_FORMULA_EQUAL(*m_pDoc, aPos, "SUM(Sheet1.B1:Sheet3.B3)", "Wrong formula."); CPPUNIT_ASSERT_EQUAL( 511.0, m_pDoc->GetValue(aPos)); // B1:Sheet2.B2 would be ambiguous, Sheet1.B1:Sheet2.B2 or Sheet2.B1:B2 // The actual representation of the error case may change, so this test may // have to be adapted. aPos.IncRow(); m_pDoc->SetString( aPos, "=SUM(B1:Sheet2.B2:Sheet3.B3)"); ASSERT_FORMULA_EQUAL(*m_pDoc, aPos, "SUM(#REF!.B2:#REF!.B3)", "Wrong formula."); CPPUNIT_ASSERT_EQUAL( OUString("#REF!"), m_pDoc->GetString(aPos)); aPos.IncRow(); m_pDoc->SetString( aPos, "=SUM(Sheet1.B1:Sheet3.B2:Sheet2.B3)"); ASSERT_FORMULA_EQUAL(*m_pDoc, aPos, "SUM(Sheet1.B1:Sheet3.B3)", "Wrong formula."); CPPUNIT_ASSERT_EQUAL( 511.0, m_pDoc->GetValue(aPos)); aPos.IncRow(); m_pDoc->SetString( aPos, "=SUM(B$2:B$2:B2)"); ASSERT_FORMULA_EQUAL(*m_pDoc, aPos, "SUM(B$2:B2)", "Wrong formula."); CPPUNIT_ASSERT_EQUAL( 2.0, m_pDoc->GetValue(aPos)); m_pDoc->DeleteTab(2); m_pDoc->DeleteTab(1); m_pDoc->DeleteTab(0); } void Test::testFuncFORMULA() { sc::AutoCalcSwitch aACSwitch(*m_pDoc, true); // turn on auto calc. m_pDoc->InsertTab(0, "Sheet1"); // Data in B1:D3 const char* aData[][3] = { { "=A1", "=FORMULA(B1)", "=FORMULA(B1:B3)" }, { nullptr, "=FORMULA(B2)", "=FORMULA(B1:B3)" }, { "=A3", "=FORMULA(B3)", "=FORMULA(B1:B3)" }, }; ScAddress aPos(1,0,0); ScRange aRange = insertRangeData(m_pDoc, aPos, aData, SAL_N_ELEMENTS(aData)); CPPUNIT_ASSERT_EQUAL(aPos, aRange.aStart); // Checks of C1:D3, where Cy==Dy, and D4:D6 const char* aChecks[] = { "=A1", "#N/A", "=A3", }; for (size_t i=0; i < SAL_N_ELEMENTS(aChecks); ++i) { CPPUNIT_ASSERT_EQUAL( OUString::createFromAscii( aChecks[i]), m_pDoc->GetString(2,i,0)); CPPUNIT_ASSERT_EQUAL( OUString::createFromAscii( aChecks[i]), m_pDoc->GetString(3,i,0)); } // Matrix in D4:D6, no intersection with B1:B3 ScMarkData aMark(MAXROW, MAXCOL); aMark.SelectOneTable(0); m_pDoc->InsertMatrixFormula(3, 3, 3, 5, aMark, "=FORMULA(B1:B3)"); for (size_t i=0; i < SAL_N_ELEMENTS(aChecks); ++i) { CPPUNIT_ASSERT_EQUAL( OUString::createFromAscii( aChecks[i]), m_pDoc->GetString(3,i+3,0)); } m_pDoc->DeleteTab(0); } void Test::testFuncTableRef() { sc::AutoCalcSwitch aACSwitch(*m_pDoc, true); // turn on auto calc. m_pDoc->InsertTab(0, "Sheet1"); ScMarkData aMark(MAXROW, MAXCOL); aMark.SelectOneTable(0); ScDocFunc& rDocFunc = getDocShell().GetDocFunc(); { ScDBCollection* pDBs = m_pDoc->GetDBCollection(); CPPUNIT_ASSERT_MESSAGE("Failed to fetch DB collection object.", pDBs); // Insert "table" database range definition for A1:B4, with default // HasHeader=true and HasTotals=false. std::unique_ptr pData(new ScDBData( "table", 0,0,0, 1,3)); bool bInserted = pDBs->getNamedDBs().insert(std::move(pData)); CPPUNIT_ASSERT_MESSAGE( "Failed to insert \"table\" database range.", bInserted); } { // Populate "table" database range with headers and data in A1:B4 const char* aData[][2] = { { "Header1", "Header2" }, { "1", "2" }, { "4", "8" }, { "16", "32" } }; ScAddress aPos(0,0,0); ScRange aRange = insertRangeData(m_pDoc, aPos, aData, SAL_N_ELEMENTS(aData)); CPPUNIT_ASSERT_EQUAL(aPos, aRange.aStart); } // Named expressions that use Table structured references. /* TODO: should the item/header separator really be equal to the parameter * separator, thus be locale dependent and ';' semicolon here, or should it * be a fixed ',' comma instead? */ static const struct { const char* pName; const char* pExpr; const char* pCounta; // expected result when used in row 2 (first data row) as argument to COUNTA() const char* pSum3; // expected result when used in row 3 (second data row) as argument to SUM(). const char* pSum4; // expected result when used in row 4 (third data row) as argument to SUM(). const char* pSumX; // expected result when used in row 5 (non-intersecting) as argument to SUM(). } aNames[] = { { "all", "table[[#All]]", "8", "63", "63", "63" }, { "data_implicit", "table[]", "6", "63", "63", "63" }, { "data", "table[[#Data]]", "6", "63", "63", "63" }, { "headers", "table[[#Headers]]", "2", "0", "0", "0" }, { "header1", "table[[Header1]]", "3", "21", "21", "21" }, { "header2", "table[[Header2]]", "3", "42", "42", "42" }, { "data_header1", "table[[#Data];[Header1]]", "3", "21", "21", "21" }, { "data_header2", "table[[#Data];[Header2]]", "3", "42", "42", "42" }, { "this_row", "table[[#This Row]]", "2", "12", "48", "#VALUE!" }, { "this_row_header1", "table[[#This Row];[Header1]]", "1", "4", "16", "#VALUE!" }, { "this_row_header2", "table[[#This Row];[Header2]]", "1", "8", "32", "#VALUE!" }, { "this_row_range_header_1_to_2", "table[[#This Row];[Header1]:[Header2]]", "2", "12", "48", "#VALUE!" } }; { // Insert named expressions. ScRangeName* pGlobalNames = m_pDoc->GetRangeName(); CPPUNIT_ASSERT_MESSAGE("Failed to obtain global named expression object.", pGlobalNames); for (size_t i = 0; i < SAL_N_ELEMENTS(aNames); ++i) { // Choose base position that does not intersect with the database // range definition to test later use of [#This Row] results in // proper rows. ScRangeData* pName = new ScRangeData( m_pDoc, OUString::createFromAscii(aNames[i].pName), OUString::createFromAscii(aNames[i].pExpr), ScAddress(2,4,0), ScRangeData::Type::Name, formula::FormulaGrammar::GRAM_NATIVE); bool bInserted = pGlobalNames->insert(pName); CPPUNIT_ASSERT_MESSAGE( OString(OStringLiteral("Failed to insert named expression ") + aNames[i].pName +".").getStr(), bInserted); } } // Use the named expressions in COUNTA() formulas, on row 2 that intersects. for (size_t i = 0; i < SAL_N_ELEMENTS(aNames); ++i) { OUString aFormula( "=COUNTA(" + OUString::createFromAscii( aNames[i].pName) + ")"); ScAddress aPos(3+i,1,0); m_pDoc->SetString( aPos, aFormula); // For easier "debugability" have position and formula in assertion. OUString aPrefix( aPos.Format(ScRefFlags::VALID) + " " + aFormula + " : "); CPPUNIT_ASSERT_EQUAL( OUString(aPrefix + OUString::createFromAscii( aNames[i].pCounta)), OUString(aPrefix + m_pDoc->GetString( aPos))); } // Use the named expressions in SUM() formulas, on row 3 that intersects. for (size_t i = 0; i < SAL_N_ELEMENTS(aNames); ++i) { OUString aFormula( "=SUM(" + OUString::createFromAscii( aNames[i].pName) + ")"); ScAddress aPos(3+i,2,0); m_pDoc->SetString( aPos, aFormula); // For easier "debugability" have position and formula in assertion. OUString aPrefix( aPos.Format(ScRefFlags::VALID) + " " + aFormula + " : "); CPPUNIT_ASSERT_EQUAL( OUString(aPrefix + OUString::createFromAscii( aNames[i].pSum3)), OUString(aPrefix + m_pDoc->GetString( aPos))); } // Use the named expressions in SUM() formulas, on row 4 that intersects. for (size_t i = 0; i < SAL_N_ELEMENTS(aNames); ++i) { OUString aFormula( "=SUM(" + OUString::createFromAscii( aNames[i].pName) + ")"); ScAddress aPos(3+i,3,0); m_pDoc->SetString( aPos, aFormula); // For easier "debugability" have position and formula in assertion. OUString aPrefix( aPos.Format(ScRefFlags::VALID) + " " + aFormula + " : "); CPPUNIT_ASSERT_EQUAL( OUString(aPrefix + OUString::createFromAscii( aNames[i].pSum4)), OUString(aPrefix + m_pDoc->GetString( aPos))); } // Use the named expressions in SUM() formulas, on row 5 that does not intersect. for (size_t i = 0; i < SAL_N_ELEMENTS(aNames); ++i) { OUString aFormula( "=SUM(" + OUString::createFromAscii( aNames[i].pName) + ")"); ScAddress aPos(3+i,4,0); m_pDoc->SetString( aPos, aFormula); // For easier "debugability" have position and formula in assertion. OUString aPrefix( aPos.Format(ScRefFlags::VALID) + " " + aFormula + " : "); CPPUNIT_ASSERT_EQUAL( OUString(aPrefix + OUString::createFromAscii( aNames[i].pSumX)), OUString(aPrefix + m_pDoc->GetString( aPos))); } // Insert a column at column B to extend database range from column A,B to // A,B,C. Use ScDocFunc so RefreshDirtyTableColumnNames() is called. rDocFunc.InsertCells(ScRange(1,0,0,1,m_pDoc->MaxRow(),0), &aMark, INS_INSCOLS_BEFORE, false, true); // Re-verify the named expression in SUM() formula, on row 4 that // intersects, now starting at column E, still works. m_pDoc->CalcAll(); for (size_t i = 0; i < SAL_N_ELEMENTS(aNames); ++i) { OUString aFormula( "=SUM(" + OUString::createFromAscii( aNames[i].pName) + ")"); ScAddress aPos(4+i,3,0); // For easier "debugability" have position and formula in assertion. OUString aPrefix( aPos.Format(ScRefFlags::VALID) + " " + aFormula + " : "); CPPUNIT_ASSERT_EQUAL( OUString(aPrefix + OUString::createFromAscii( aNames[i].pSum4)), OUString(aPrefix + m_pDoc->GetString( aPos))); } const char* pColumn2Formula = "=SUM(table[[#Data];[Column2]])"; { // Populate "table" database range with empty header and data in newly // inserted column, B1:B4 plus a table formula in B6. The empty header // should result in the internal table column name "Column2" that is // used in the formula. const char* aData[][1] = { { "" }, { "64" }, { "128" }, { "256" }, { "" }, { pColumn2Formula } }; ScAddress aPos(1,0,0); ScRange aRange = insertRangeData(m_pDoc, aPos, aData, SAL_N_ELEMENTS(aData)); CPPUNIT_ASSERT_EQUAL(aPos, aRange.aStart); } // Verify the formula result in B6 (64+128+256=448). { OUString aFormula( OUString::createFromAscii( pColumn2Formula)); ScAddress aPos(1,5,0); OUString aPrefix( aPos.Format(ScRefFlags::VALID) + " " + aFormula + " : "); CPPUNIT_ASSERT_EQUAL( OUString(aPrefix + "448"), OUString(aPrefix + m_pDoc->GetString(aPos))); } // Set header in column B. Use ScDocFunc to have table column names refreshed. rDocFunc.SetStringCell(ScAddress(1,0,0), "NewHeader",true); // Verify that formula adapted using the updated table column names. ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(1,5,0), "SUM(table[[#Data];[NewHeader]])", "Wrong formula"); // Set header in column A to identical string. Internal table column name // for B should get a "2" appended. rDocFunc.SetStringCell(ScAddress(0,0,0), "NewHeader",true); // Verify that formula adapted using the updated table column names. ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(1,5,0), "SUM(table[[#Data];[NewHeader2]])", "Wrong formula"); // Set header in column B to empty string, effectively clearing the cell. rDocFunc.SetStringCell(ScAddress(1,0,0), "",true); // Verify that formula is still using the previous table column name. ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(1,5,0), "SUM(table[[#Data];[NewHeader2]])", "Wrong formula"); // === header-less === { ScDBCollection* pDBs = m_pDoc->GetDBCollection(); CPPUNIT_ASSERT_MESSAGE("Failed to fetch DB collection object.", pDBs); // Insert "headerless" database range definition for E10:F12, without headers. std::unique_ptr pData(new ScDBData( "hltable", 0, 4,9, 5,11, true, false)); bool bInserted = pDBs->getNamedDBs().insert(std::move(pData)); CPPUNIT_ASSERT_MESSAGE( "Failed to insert \"hltable\" database range.", bInserted); } { // Populate "hltable" database range with data in E10:F12 const char* aData[][2] = { { "1", "2" }, { "4", "8" }, { "16", "32" } }; ScAddress aPos(4,9,0); ScRange aRange = insertRangeData(m_pDoc, aPos, aData, SAL_N_ELEMENTS(aData)); CPPUNIT_ASSERT_EQUAL(aPos, aRange.aStart); } // Named expressions that use header-less Table structured references. static const struct { const char* pName; const char* pExpr; const char* pCounta; // expected result when used in row 10 (first data row) as argument to COUNTA() const char* pSum3; // expected result when used in row 11 (second data row) as argument to SUM(). const char* pSum4; // expected result when used in row 12 (third data row) as argument to SUM(). const char* pSumX; // expected result when used in row 13 (non-intersecting) as argument to SUM(). } aHlNames[] = { { "hl_all", "hltable[[#All]]", "6", "63", "63", "63" }, { "hl_data_implicit", "hltable[]", "6", "63", "63", "63" }, { "hl_data", "hltable[[#Data]]", "6", "63", "63", "63" }, { "hl_headers", "hltable[[#Headers]]", "1", "#REF!", "#REF!", "#REF!" }, { "hl_column1", "hltable[[Column1]]", "3", "21", "21", "21" }, { "hl_column2", "hltable[[Column2]]", "3", "42", "42", "42" }, { "hl_data_column1", "hltable[[#Data];[Column1]]", "3", "21", "21", "21" }, { "hl_data_column2", "hltable[[#Data];[Column2]]", "3", "42", "42", "42" }, { "hl_this_row", "hltable[[#This Row]]", "2", "12", "48", "#VALUE!" }, { "hl_this_row_column1", "hltable[[#This Row];[Column1]]", "1", "4", "16", "#VALUE!" }, { "hl_this_row_column2", "hltable[[#This Row];[Column2]]", "1", "8", "32", "#VALUE!" }, { "hl_this_row_range_column_1_to_2", "hltable[[#This Row];[Column1]:[Column2]]", "2", "12", "48", "#VALUE!" } }; { // Insert named expressions. ScRangeName* pGlobalNames = m_pDoc->GetRangeName(); CPPUNIT_ASSERT_MESSAGE("Failed to obtain global named expression object.", pGlobalNames); for (size_t i = 0; i < SAL_N_ELEMENTS(aHlNames); ++i) { // Choose base position that does not intersect with the database // range definition to test later use of [#This Row] results in // proper rows. ScRangeData* pName = new ScRangeData( m_pDoc, OUString::createFromAscii(aHlNames[i].pName), OUString::createFromAscii(aHlNames[i].pExpr), ScAddress(6,12,0), ScRangeData::Type::Name, formula::FormulaGrammar::GRAM_NATIVE); bool bInserted = pGlobalNames->insert(pName); CPPUNIT_ASSERT_MESSAGE( OString(OStringLiteral("Failed to insert named expression ") + aHlNames[i].pName +".").getStr(), bInserted); } } // Use the named expressions in COUNTA() formulas, on row 10 that intersects. for (size_t i = 0; i < SAL_N_ELEMENTS(aHlNames); ++i) { OUString aFormula( "=COUNTA(" + OUString::createFromAscii( aHlNames[i].pName) + ")"); ScAddress aPos(7+i,9,0); m_pDoc->SetString( aPos, aFormula); // For easier "debugability" have position and formula in assertion. OUString aPrefix( aPos.Format(ScRefFlags::VALID) + " " + aFormula + " : "); CPPUNIT_ASSERT_EQUAL( OUString(aPrefix + OUString::createFromAscii( aHlNames[i].pCounta)), OUString(aPrefix + m_pDoc->GetString( aPos))); } // Use the named expressions in SUM() formulas, on row 11 that intersects. for (size_t i = 0; i < SAL_N_ELEMENTS(aHlNames); ++i) { OUString aFormula( "=SUM(" + OUString::createFromAscii( aHlNames[i].pName) + ")"); ScAddress aPos(7+i,10,0); m_pDoc->SetString( aPos, aFormula); // For easier "debugability" have position and formula in assertion. OUString aPrefix( aPos.Format(ScRefFlags::VALID) + " " + aFormula + " : "); CPPUNIT_ASSERT_EQUAL( OUString(aPrefix + OUString::createFromAscii( aHlNames[i].pSum3)), OUString(aPrefix + m_pDoc->GetString( aPos))); } // Use the named expressions in SUM() formulas, on row 12 that intersects. for (size_t i = 0; i < SAL_N_ELEMENTS(aHlNames); ++i) { OUString aFormula( "=SUM(" + OUString::createFromAscii( aHlNames[i].pName) + ")"); ScAddress aPos(7+i,11,0); m_pDoc->SetString( aPos, aFormula); // For easier "debugability" have position and formula in assertion. OUString aPrefix( aPos.Format(ScRefFlags::VALID) + " " + aFormula + " : "); CPPUNIT_ASSERT_EQUAL( OUString(aPrefix + OUString::createFromAscii( aHlNames[i].pSum4)), OUString(aPrefix + m_pDoc->GetString( aPos))); } // Use the named expressions in SUM() formulas, on row 13 that does not intersect. for (size_t i = 0; i < SAL_N_ELEMENTS(aHlNames); ++i) { OUString aFormula( "=SUM(" + OUString::createFromAscii( aHlNames[i].pName) + ")"); ScAddress aPos(7+i,12,0); m_pDoc->SetString( aPos, aFormula); // For easier "debugability" have position and formula in assertion. OUString aPrefix( aPos.Format(ScRefFlags::VALID) + " " + aFormula + " : "); CPPUNIT_ASSERT_EQUAL( OUString(aPrefix + OUString::createFromAscii( aHlNames[i].pSumX)), OUString(aPrefix + m_pDoc->GetString( aPos))); } // Insert a column at column F to extend database range from column E,F to // E,F,G. Use ScDocFunc so RefreshDirtyTableColumnNames() is called. rDocFunc.InsertCells(ScRange(5,0,0,5,m_pDoc->MaxRow(),0), &aMark, INS_INSCOLS_BEFORE, false, true); // Re-verify the named expression in SUM() formula, on row 12 that // intersects, now starting at column I, still works. m_pDoc->CalcAll(); for (size_t i = 0; i < SAL_N_ELEMENTS(aHlNames); ++i) { OUString aFormula( "=SUM(" + OUString::createFromAscii( aHlNames[i].pName) + ")"); ScAddress aPos(8+i,11,0); // For easier "debugability" have position and formula in assertion. OUString aPrefix( aPos.Format(ScRefFlags::VALID) + " " + aFormula + " : "); CPPUNIT_ASSERT_EQUAL( OUString(aPrefix + OUString::createFromAscii( aHlNames[i].pSum4)), OUString(aPrefix + m_pDoc->GetString( aPos))); } const char* pColumn3Formula = "=SUM(hltable[[#Data];[Column3]])"; { // Populate "hltable" database range with data in newly inserted // column, F10:F12 plus a table formula in F14. The new header should // result in the internal table column name "Column3" that is used in // the formula. const char* aData[][1] = { { "64" }, { "128" }, { "256" }, { "" }, { pColumn3Formula } }; ScAddress aPos(5,9,0); ScRange aRange = insertRangeData(m_pDoc, aPos, aData, SAL_N_ELEMENTS(aData)); CPPUNIT_ASSERT_EQUAL(aPos, aRange.aStart); } // Verify the formula result in F14 (64+128+256=448). { OUString aFormula( OUString::createFromAscii( pColumn3Formula)); ScAddress aPos(5,13,0); OUString aPrefix( aPos.Format(ScRefFlags::VALID) + " " + aFormula + " : "); CPPUNIT_ASSERT_EQUAL( OUString(aPrefix + "448"), OUString(aPrefix + m_pDoc->GetString(aPos))); } m_pDoc->DeleteTab(0); } void Test::testFuncFTEST() { sc::AutoCalcSwitch aACSwitch(*m_pDoc, true); // turn auto calc on. m_pDoc->InsertTab(0, "FTest"); ScAddress aPos(6,0,0); m_pDoc->SetString(aPos, "=FTEST(A1:C3;D1:F3)"); m_pDoc->SetValue(0, 0, 0, 9.0); // A1 OUString aVal = m_pDoc->GetString(aPos); CPPUNIT_ASSERT_EQUAL_MESSAGE("FTEST should return #VALUE! for less than 2 values", OUString("#VALUE!"), aVal); m_pDoc->SetValue(0, 1, 0, 8.0); // A2 aVal = m_pDoc->GetString(aPos); CPPUNIT_ASSERT_EQUAL_MESSAGE("FTEST should return #VALUE! for less than 2 values", OUString("#VALUE!"), aVal); m_pDoc->SetValue(3, 0, 0, 5.0); // D1 aVal = m_pDoc->GetString(aPos); CPPUNIT_ASSERT_EQUAL_MESSAGE("FTEST should return #VALUE! for less than 2 values", OUString("#VALUE!"), aVal); m_pDoc->SetValue(3, 1, 0, 6.0); // D2 CPPUNIT_ASSERT_DOUBLES_EQUAL_MESSAGE("Calculation of FTEST failed", 1.0000, m_pDoc->GetValue(aPos), 10e-4); m_pDoc->SetValue(1, 0, 0, 6.0); // B1 CPPUNIT_ASSERT_DOUBLES_EQUAL_MESSAGE("Calculation of FTEST failed", 0.6222, m_pDoc->GetValue(aPos), 10e-4); m_pDoc->SetValue(1, 1, 0, 8.0); // B2 CPPUNIT_ASSERT_DOUBLES_EQUAL_MESSAGE("Calculation of FTEST failed", 0.7732, m_pDoc->GetValue(aPos), 10e-4); m_pDoc->SetValue(4, 0, 0, 7.0); // E1 CPPUNIT_ASSERT_DOUBLES_EQUAL_MESSAGE("Calculation of FTEST failed", 0.8194, m_pDoc->GetValue(aPos), 10e-4); m_pDoc->SetValue(4, 1, 0, 4.0); // E2 CPPUNIT_ASSERT_DOUBLES_EQUAL_MESSAGE("Calculation of FTEST failed", 0.9674, m_pDoc->GetValue(aPos), 10e-4); m_pDoc->SetValue(2, 0, 0, 3.0); // C1 CPPUNIT_ASSERT_DOUBLES_EQUAL_MESSAGE("Calculation of FTEST failed", 0.3402, m_pDoc->GetValue(aPos), 10e-4); m_pDoc->SetValue(5, 0, 0, 28.0); // F1 CPPUNIT_ASSERT_DOUBLES_EQUAL_MESSAGE("Calculation of FTEST failed", 0.0161, m_pDoc->GetValue(aPos), 10e-4); m_pDoc->SetValue(2, 1, 0, 9.0); // C2 CPPUNIT_ASSERT_DOUBLES_EQUAL_MESSAGE("Calculation of FTEST failed", 0.0063, m_pDoc->GetValue(aPos), 10e-4); m_pDoc->SetValue(5, 1, 0, 4.0); // F2 CPPUNIT_ASSERT_DOUBLES_EQUAL_MESSAGE("Calculation of FTEST failed", 0.0081, m_pDoc->GetValue(aPos), 10e-4); m_pDoc->SetValue(0, 2, 0, 2.0); // A3 CPPUNIT_ASSERT_DOUBLES_EQUAL_MESSAGE("Calculation of FTEST failed", 0.0122, m_pDoc->GetValue(aPos), 10e-4); m_pDoc->SetValue(3, 2, 0, 8.0); // D3 CPPUNIT_ASSERT_DOUBLES_EQUAL_MESSAGE("Calculation of FTEST failed", 0.0178, m_pDoc->GetValue(aPos), 10e-4); m_pDoc->SetValue(1, 2, 0, 4.0); // B3 CPPUNIT_ASSERT_DOUBLES_EQUAL_MESSAGE("Calculation of FTEST failed", 0.0093, m_pDoc->GetValue(aPos), 10e-4); m_pDoc->SetValue(4, 2, 0, 7.0); // E3 CPPUNIT_ASSERT_DOUBLES_EQUAL_MESSAGE("Calculation of FTEST failed", 0.0132, m_pDoc->GetValue(aPos), 10e-4); m_pDoc->SetValue(5, 2, 0, 5.0); // F3 CPPUNIT_ASSERT_DOUBLES_EQUAL_MESSAGE("Calculation of FTEST failed", 0.0168, m_pDoc->GetValue(aPos), 10e-4); m_pDoc->SetValue(2, 2, 0, 13.0); // C3 CPPUNIT_ASSERT_DOUBLES_EQUAL_MESSAGE("Calculation of FTEST failed", 0.0422, m_pDoc->GetValue(aPos), 10e-4); m_pDoc->SetString(0, 2, 0, "a"); // A3 CPPUNIT_ASSERT_DOUBLES_EQUAL_MESSAGE("Calculation of FTEST failed", 0.0334, m_pDoc->GetValue(aPos), 10e-4); m_pDoc->SetString(2, 0, 0, "b"); // C1 CPPUNIT_ASSERT_DOUBLES_EQUAL_MESSAGE("Calculation of FTEST failed", 0.0261, m_pDoc->GetValue(aPos), 10e-4); m_pDoc->SetString(5, 1, 0, "c"); // F2 CPPUNIT_ASSERT_DOUBLES_EQUAL_MESSAGE("Calculation of FTEST failed", 0.0219, m_pDoc->GetValue(aPos), 10e-4); m_pDoc->SetString(4, 2, 0, "d"); // E3 CPPUNIT_ASSERT_DOUBLES_EQUAL_MESSAGE("Calculation of FTEST failed", 0.0161, m_pDoc->GetValue(aPos), 10e-4); m_pDoc->SetString(3, 2, 0, "e"); // D3 CPPUNIT_ASSERT_DOUBLES_EQUAL_MESSAGE("Calculation of FTEST failed", 0.0110, m_pDoc->GetValue(aPos), 10e-4); m_pDoc->DeleteTab(0); m_pDoc->InsertTab(0, "FTest2"); /* Summary of the following test A1:A5 = SQRT(C1*9/10)*{ 1.0, 1.0, 1.0, 1.0, 1.0 }; A6:A10 = -SQRT(C1*9/10)*{ 1.0, 1.0, 1.0, 1.0, 1.0 }; B1:B10 = SQRT(C2*19/20)*{ 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0 }; B11:B20 = -SQRT(C2*19/20)*{ 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0 }; C1 = POWER(1.5, D1) ; This is going to be the sample variance of the vector A1:A10 C2 = POWER(1.5, D2) ; This is going to be the sample variance of the vector B1:B20 D1 and D2 are varied over { -5.0, -4.0, -3.0, -2.0, -1.0, 0.0, 1.0, 2.0, 3.0, 4.0, 5.0 } Result of FTEST(A1:A10;B1:B20) in Calc is compared with that from Octave's var_test() function for each value of D1 and D2. The minimum variance ratio obtained in this way is 0.017342 and the maximum variance ratio is 57.665039 */ const size_t nNumParams = 11; const double fParameter[nNumParams] = { -5.0, -4.0, -3.0, -2.0, -1.0, 0.0, 1.0, 2.0, 3.0, 4.0, 5.0 }; // Results of var_test() from Octave const double fResults[nNumParams][nNumParams] = { { 0.9451191535603041,0.5429768686792684,0.213130093422756,0.06607644828558357,0.0169804365506927,0.003790723514148109, 0.0007645345628801703,0.0001435746909905777,2.566562398786942e-05,4.436218417280813e-06,7.495090956766148e-07 }, { 0.4360331979746912,0.9451191535603054,0.5429768686792684,0.2131300934227565,0.06607644828558357,0.0169804365506927, 0.003790723514148109,0.0007645345628801703,0.0001435746909905777,2.566562398786942e-05,4.436218417280813e-06 }, { 0.1309752286653509,0.4360331979746914,0.9451191535603058,0.5429768686792684,0.2131300934227565,0.06607644828558357, 0.0169804365506927,0.003790723514148109,0.0007645345628801703,0.0001435746909905777,2.566562398786942e-05 }, { 0.02453502500565108,0.1309752286653514,0.4360331979746914,0.9451191535603058,0.5429768686792689,0.2131300934227565, 0.06607644828558357,0.0169804365506927,0.003790723514148109,0.0007645345628801703,0.0001435746909905777 }, { 0.002886791075972228,0.02453502500565108,0.1309752286653514,0.4360331979746914,0.9451191535603041,0.5429768686792689, 0.2131300934227565,0.06607644828558357,0.0169804365506927,0.003790723514148109,0.0007645345628801703 }, { 0.0002237196492846927,0.002886791075972228,0.02453502500565108,0.1309752286653509,0.4360331979746912,0.9451191535603036, 0.5429768686792689,0.2131300934227565,0.06607644828558357,0.0169804365506927,0.003790723514148109 }, { 1.224926820153627e-05,0.0002237196492846927,0.002886791075972228,0.02453502500565108,0.1309752286653509,0.4360331979746914, 0.9451191535603054,0.5429768686792684,0.2131300934227565,0.06607644828558357,0.0169804365506927 }, { 5.109390206481379e-07,1.224926820153627e-05,0.0002237196492846927,0.002886791075972228,0.02453502500565108, 0.1309752286653509,0.4360331979746914,0.9451191535603058,0.5429768686792684,0.213130093422756,0.06607644828558357 }, { 1.739106880727093e-08,5.109390206481379e-07,1.224926820153627e-05,0.0002237196492846927,0.002886791075972228, 0.02453502500565086,0.1309752286653509,0.4360331979746914,0.9451191535603041,0.5429768686792684,0.2131300934227565 }, { 5.111255862999542e-10,1.739106880727093e-08,5.109390206481379e-07,1.224926820153627e-05,0.0002237196492846927, 0.002886791075972228,0.02453502500565108,0.1309752286653516,0.4360331979746914,0.9451191535603058,0.5429768686792684 }, { 1.354649725726631e-11,5.111255862999542e-10,1.739106880727093e-08,5.109390206481379e-07,1.224926820153627e-05, 0.0002237196492846927,0.002886791075972228,0.02453502500565108,0.1309752286653509,0.4360331979746914,0.9451191535603054 } }; m_pDoc->SetValue(3, 0, 0, fParameter[0]); // D1 m_pDoc->SetValue(3, 1, 0, fParameter[0]); // D2 aPos.Set(2,0,0); // C1 m_pDoc->SetString(aPos, "=POWER(1.5;D1)" ); // C1 aPos.Set(2, 1, 0); // C2 m_pDoc->SetString(aPos, "=POWER(1.5;D2)" ); // C2 for ( SCROW nRow = 0; nRow < 5; ++nRow ) // Set A1:A5 = SQRT(C1*9/10), and A6:A10 = -SQRT(C1*9/10) { aPos.Set(0, nRow, 0); m_pDoc->SetString(aPos, "=SQRT(C1*9/10)"); aPos.Set(0, nRow + 5, 0); m_pDoc->SetString(aPos, "=-SQRT(C1*9/10)"); } for ( SCROW nRow = 0; nRow < 10; ++nRow ) // Set B1:B10 = SQRT(C2*19/20), and B11:B20 = -SQRT(C2*19/20) { aPos.Set(1, nRow, 0); m_pDoc->SetString(aPos, "=SQRT(C2*19/20)"); aPos.Set(1, nRow + 10, 0); m_pDoc->SetString(aPos, "=-SQRT(C2*19/20)"); } aPos.Set(4, 0, 0); // E1 m_pDoc->SetString(aPos, "=FTEST(A1:A10;B1:B20)"); aPos.Set(4, 1, 0); // E2 m_pDoc->SetString(aPos, "=FTEST(B1:B20;A1:A10)"); ScAddress aPosRev(4, 1, 0); // E2 aPos.Set(4, 0, 0); // E1 for ( size_t nFirstIdx = 0; nFirstIdx < nNumParams; ++nFirstIdx ) { m_pDoc->SetValue(3, 0, 0, fParameter[nFirstIdx]); // Set D1 for ( size_t nSecondIdx = 0; nSecondIdx < nNumParams; ++nSecondIdx ) { m_pDoc->SetValue(3, 1, 0, fParameter[nSecondIdx]); // Set D2 double fExpected = fResults[nFirstIdx][nSecondIdx]; // Here a dynamic error limit is used. This is to handle correctly when the expected value is lower than the fixed error limit of 10e-5 CPPUNIT_ASSERT_DOUBLES_EQUAL_MESSAGE("Calculation of FTEST failed", fExpected, m_pDoc->GetValue(aPos), std::min(10e-5, fExpected*0.0001) ); CPPUNIT_ASSERT_DOUBLES_EQUAL_MESSAGE("Calculation of FTEST failed", fExpected, m_pDoc->GetValue(aPosRev), std::min(10e-5, fExpected*0.0001) ); } } m_pDoc->DeleteTab(0); } void Test::testFuncFTESTBug() { sc::AutoCalcSwitch aACSwitch(*m_pDoc, true); // turn auto calc on. m_pDoc->InsertTab(0, "FTest"); ScAddress aPos(9,0,0); m_pDoc->SetString(aPos, "=FTEST(H1:H3;I1:I3)"); m_pDoc->SetValue(7, 0, 0, 9.0); // H1 m_pDoc->SetValue(7, 1, 0, 8.0); // H2 m_pDoc->SetValue(7, 2, 0, 6.0); // H3 m_pDoc->SetValue(8, 0, 0, 5.0); // I1 m_pDoc->SetValue(8, 1, 0, 7.0); // I2 // tdf#93329 CPPUNIT_ASSERT_DOUBLES_EQUAL_MESSAGE("Calculation of FTEST failed", 0.9046, m_pDoc->GetValue(aPos), 10e-4); m_pDoc->DeleteTab(0); } void Test::testFuncCHITEST() { sc::AutoCalcSwitch aACSwitch(*m_pDoc, true); // turn auto calc on. m_pDoc->InsertTab(0, "ChiTest"); ScAddress aPos(6,0,0); // 2x2 matrices test m_pDoc->SetString(aPos, "=CHITEST(A1:B2;D1:E2)"); OUString aVal = m_pDoc->GetString(aPos); CPPUNIT_ASSERT_EQUAL_MESSAGE("CHITEST should return Err:502 for matrices with empty cells", OUString("Err:502"), aVal); m_pDoc->SetValue(0, 0, 0, 1.0); // A1 m_pDoc->SetValue(0, 1, 0, 2.0); // A2 m_pDoc->SetValue(1, 0, 0, 2.0); // B1 m_pDoc->SetValue(1, 1, 0, 1.0); // B2 aVal = m_pDoc->GetString(aPos); CPPUNIT_ASSERT_EQUAL_MESSAGE("CHITEST should return Err:502 for matrix with empty cells", OUString("Err:502"), aVal); m_pDoc->SetValue(3, 0, 0, 2.0); // D1 m_pDoc->SetValue(3, 1, 0, 3.0); // D2 CPPUNIT_ASSERT_DOUBLES_EQUAL_MESSAGE("Calculation of CHITEST failed", 0.3613, m_pDoc->GetValue(aPos), 10e-4); m_pDoc->SetValue(4, 1, 0, 1.0); // E2 CPPUNIT_ASSERT_DOUBLES_EQUAL_MESSAGE("Calculation of CHITEST failed", 0.3613, m_pDoc->GetValue(aPos), 10e-4); m_pDoc->SetValue(4, 0, 0, 3.0); // E1 CPPUNIT_ASSERT_DOUBLES_EQUAL_MESSAGE("Calculation of CHITEST failed", 0.2801, m_pDoc->GetValue(aPos), 10e-4); m_pDoc->SetValue(4, 0, 0, 0.0); // E1 aVal = m_pDoc->GetString(aPos); CPPUNIT_ASSERT_EQUAL_MESSAGE("CHITEST should return #DIV/0 for expected values of 0", OUString("#DIV/0!"), aVal); m_pDoc->SetValue(4, 0, 0, 3.0); // E1 m_pDoc->SetValue(1, 1, 0, 0.0); // B2 CPPUNIT_ASSERT_DOUBLES_EQUAL_MESSAGE("Calculation of CHITEST failed", 0.1410, m_pDoc->GetValue(aPos), 10e-4); // 3x3 matrices test m_pDoc->SetString(aPos, "=CHITEST(A1:C3;D1:F3)"); CPPUNIT_ASSERT_DOUBLES_EQUAL_MESSAGE("Calculation of CHITEST failed", 0.7051, m_pDoc->GetValue(aPos), 10e-4); m_pDoc->SetValue(2, 0, 0, 3.0); // C1 m_pDoc->SetValue(2, 1, 0, 2.0); // C2 m_pDoc->SetValue(2, 2, 0, 3.0); // C3 m_pDoc->SetValue(0, 2, 0, 4.0); // A3 m_pDoc->SetValue(1, 2, 0, 2.0); // B3 m_pDoc->SetValue(5, 0, 0, 1.0); // F1 m_pDoc->SetValue(5, 1, 0, 2.0); // F2 m_pDoc->SetValue(5, 2, 0, 3.0); // F3 m_pDoc->SetValue(3, 2, 0, 3.0); // D3 m_pDoc->SetValue(4, 2, 0, 1.0); // E3 CPPUNIT_ASSERT_DOUBLES_EQUAL_MESSAGE("Calculation of CHITEST failed", 0.1117, m_pDoc->GetValue(aPos), 10e-4); // test with strings m_pDoc->SetString(4, 2, 0, "a"); // E3 aVal = m_pDoc->GetString(aPos); CPPUNIT_ASSERT_EQUAL_MESSAGE("CHITEST should return Err:502 for matrices with strings", OUString("Err:502"), aVal); m_pDoc->SetString(1, 2, 0, "a"); // B3 aVal = m_pDoc->GetString(aPos); CPPUNIT_ASSERT_EQUAL_MESSAGE("CHITEST should return Err:502 for matrices with strings", OUString("Err:502"), aVal); m_pDoc->SetValue(4, 2, 0, 1.0); // E3 aVal = m_pDoc->GetString(aPos); CPPUNIT_ASSERT_EQUAL_MESSAGE("CHITEST should return Err:502 for matrices with strings", OUString("Err:502"), aVal); m_pDoc->SetValue(1, 2, 0, 2.0); // B3 CPPUNIT_ASSERT_DOUBLES_EQUAL_MESSAGE("Calculation of CHITEST failed", 0.1117, m_pDoc->GetValue(aPos), 10e-4); m_pDoc->SetValue(4, 1, 0, 5.0); // E2 CPPUNIT_ASSERT_DOUBLES_EQUAL_MESSAGE("Calculation of CHITEST failed", 0.0215, m_pDoc->GetValue(aPos), 10e-4); m_pDoc->SetValue(1, 2, 0, 1.0); // B3 CPPUNIT_ASSERT_DOUBLES_EQUAL_MESSAGE("Calculation of CHITEST failed", 0.0328, m_pDoc->GetValue(aPos), 10e-4); m_pDoc->SetValue(5, 0, 0, 3.0); // F1 CPPUNIT_ASSERT_DOUBLES_EQUAL_MESSAGE("Calculation of CHITEST failed", 0.1648, m_pDoc->GetValue(aPos), 10e-4); m_pDoc->SetValue(0, 1, 0, 3.0); // A2 CPPUNIT_ASSERT_DOUBLES_EQUAL_MESSAGE("Calculation of CHITEST failed", 0.1870, m_pDoc->GetValue(aPos), 10e-4); m_pDoc->SetValue(3, 1, 0, 5.0); // D2 CPPUNIT_ASSERT_DOUBLES_EQUAL_MESSAGE("Calculation of CHITEST failed", 0.1377, m_pDoc->GetValue(aPos), 10e-4); m_pDoc->SetValue(3, 2, 0, 4.0); // D3 CPPUNIT_ASSERT_DOUBLES_EQUAL_MESSAGE("Calculation of CHITEST failed", 0.1566, m_pDoc->GetValue(aPos), 10e-4); m_pDoc->SetValue(0, 0, 0, 0.0); // A1 CPPUNIT_ASSERT_DOUBLES_EQUAL_MESSAGE("Calculation of CHITEST failed", 0.0868, m_pDoc->GetValue(aPos), 10e-4); // no convergence error m_pDoc->SetValue(4, 0, 0, 1.0E308); // E1 aVal = m_pDoc->GetString(aPos); CPPUNIT_ASSERT_EQUAL(OUString("Err:523"), aVal); m_pDoc->SetValue(4, 0, 0, 3.0); // E1 // zero in all cells m_pDoc->SetValue(0, 1, 0, 0.0); // A2 CPPUNIT_ASSERT_DOUBLES_EQUAL_MESSAGE("Calculation of CHITEST failed", 0.0150, m_pDoc->GetValue(aPos), 10e-4); m_pDoc->SetValue(0, 2, 0, 0.0); // A3 CPPUNIT_ASSERT_DOUBLES_EQUAL_MESSAGE("Calculation of CHITEST failed", 0.0026, m_pDoc->GetValue(aPos), 10e-4); m_pDoc->SetValue(1, 0, 0, 0.0); // B1 CPPUNIT_ASSERT_DOUBLES_EQUAL_MESSAGE("Calculation of CHITEST failed", 0.00079, m_pDoc->GetValue(aPos), 10e-5); m_pDoc->SetValue(1, 2, 0, 0.0); // B3 CPPUNIT_ASSERT_DOUBLES_EQUAL_MESSAGE("Calculation of CHITEST failed", 0.0005, m_pDoc->GetValue(aPos), 10e-4); m_pDoc->SetValue(2, 0, 0, 0.0); // C1 CPPUNIT_ASSERT_DOUBLES_EQUAL_MESSAGE("Calculation of CHITEST failed", 0.0001, m_pDoc->GetValue(aPos), 10e-4); m_pDoc->SetValue(2, 1, 0, 0.0); // C2 m_pDoc->SetValue(2, 2, 0, 0.0); // C3 m_pDoc->SetValue(3, 0, 0, 0.0); // D1 aVal = m_pDoc->GetString(aPos); CPPUNIT_ASSERT_EQUAL_MESSAGE("CHITEST should return #DIV/0! for matrices with empty", OUString("#DIV/0!"), aVal); m_pDoc->SetValue(3, 1, 0, 0.0); // D2 m_pDoc->SetValue(3, 2, 0, 0.0); // D3 m_pDoc->SetValue(4, 0, 0, 0.0); // E1 m_pDoc->SetValue(4, 1, 0, 0.0); // E2 m_pDoc->SetValue(4, 2, 0, 0.0); // E3 m_pDoc->SetValue(5, 0, 0, 0.0); // F1 m_pDoc->SetValue(5, 1, 0, 0.0); // F2 m_pDoc->SetValue(5, 2, 0, 0.0); // F3 aVal = m_pDoc->GetString(aPos); CPPUNIT_ASSERT_EQUAL_MESSAGE("CHITEST should return #DIV/0! for matrices with empty", OUString("#DIV/0!"), aVal); m_pDoc->DeleteTab(0); } void Test::testFuncTTEST() { sc::AutoCalcSwitch aACSwitch(*m_pDoc, true); // turn auto calc on. m_pDoc->InsertTab(0, "TTest"); ScAddress aPos(6,0,0); // type 1, mode/tails 1 m_pDoc->SetString(aPos, "=TTEST(A1:C3;D1:F3;1;1)"); OUString aVal = m_pDoc->GetString(aPos); CPPUNIT_ASSERT_EQUAL_MESSAGE("TTEST should return #VALUE! for empty matrices", OUString("#VALUE!"), aVal); m_pDoc->SetValue(0, 0, 0, 8.0); // A1 m_pDoc->SetValue(1, 0, 0, 2.0); // B1 m_pDoc->SetValue(3, 0, 0, 3.0); // D1 m_pDoc->SetValue(4, 0, 0, 1.0); // E1 CPPUNIT_ASSERT_DOUBLES_EQUAL_MESSAGE("Calculation of TTEST failed", 0.18717, m_pDoc->GetValue(aPos), 10e-5); m_pDoc->SetValue(2, 0, 0, 1.0); // C1 CPPUNIT_ASSERT_DOUBLES_EQUAL_MESSAGE("Calculation of TTEST failed", 0.18717, m_pDoc->GetValue(aPos), 10e-5); m_pDoc->SetValue(5, 0, 0, 6.0); // F1 CPPUNIT_ASSERT_DOUBLES_EQUAL_MESSAGE("Calculation of TTEST failed", 0.45958, m_pDoc->GetValue(aPos), 10e-5); m_pDoc->SetValue(0, 1, 0, -4.0); // A2 CPPUNIT_ASSERT_DOUBLES_EQUAL_MESSAGE("Calculation of TTEST failed", 0.45958, m_pDoc->GetValue(aPos), 10e-5); m_pDoc->SetValue(3, 1, 0, 1.0); // D2 CPPUNIT_ASSERT_DOUBLES_EQUAL_MESSAGE("Calculation of TTEST failed", 0.35524, m_pDoc->GetValue(aPos), 10e-5); m_pDoc->SetValue(1, 1, 0, 5.0); // B2 CPPUNIT_ASSERT_DOUBLES_EQUAL_MESSAGE("Calculation of TTEST failed", 0.35524, m_pDoc->GetValue(aPos), 10e-5); m_pDoc->SetValue(4, 1, 0, -2.0); // E2 CPPUNIT_ASSERT_DOUBLES_EQUAL_MESSAGE("Calculation of TTEST failed", 0.41043, m_pDoc->GetValue(aPos), 10e-5); m_pDoc->SetValue(2, 1, 0, -1.0); // C2 CPPUNIT_ASSERT_DOUBLES_EQUAL_MESSAGE("Calculation of TTEST failed", 0.41043, m_pDoc->GetValue(aPos), 10e-5); m_pDoc->SetValue(5, 1, 0, -3.0); // F2 CPPUNIT_ASSERT_DOUBLES_EQUAL_MESSAGE("Calculation of TTEST failed", 0.34990, m_pDoc->GetValue(aPos), 10e-5); m_pDoc->SetValue(0, 2, 0, 10.0); // A3 CPPUNIT_ASSERT_DOUBLES_EQUAL_MESSAGE("Calculation of TTEST failed", 0.34990, m_pDoc->GetValue(aPos), 10e-5); m_pDoc->SetValue(3, 2, 0, 10.0); // D3 CPPUNIT_ASSERT_DOUBLES_EQUAL_MESSAGE("Calculation of TTEST failed", 0.34686, m_pDoc->GetValue(aPos), 10e-5); m_pDoc->SetValue(1, 2, 0, 3.0); // B3 CPPUNIT_ASSERT_DOUBLES_EQUAL_MESSAGE("Calculation of TTEST failed", 0.34686, m_pDoc->GetValue(aPos), 10e-5); m_pDoc->SetValue(4, 2, 0, 9.0); // E3 CPPUNIT_ASSERT_DOUBLES_EQUAL_MESSAGE("Calculation of TTEST failed", 0.47198, m_pDoc->GetValue(aPos), 10e-5); m_pDoc->SetValue(2, 2, 0, -5.0); // C3 CPPUNIT_ASSERT_DOUBLES_EQUAL_MESSAGE("Calculation of TTEST failed", 0.47198, m_pDoc->GetValue(aPos), 10e-5); m_pDoc->SetValue(5, 2, 0, 6.0); // F3 CPPUNIT_ASSERT_DOUBLES_EQUAL_MESSAGE("Calculation of TTEST failed", 0.25529, m_pDoc->GetValue(aPos), 10e-5); m_pDoc->SetString(1, 1, 0, "a"); // B2 CPPUNIT_ASSERT_DOUBLES_EQUAL_MESSAGE("Calculation of TTEST failed", 0.12016, m_pDoc->GetValue(aPos), 10e-5); m_pDoc->SetString(4, 1, 0, "b"); // E2 CPPUNIT_ASSERT_DOUBLES_EQUAL_MESSAGE("Calculation of TTEST failed", 0.12016, m_pDoc->GetValue(aPos), 10e-5); m_pDoc->SetString(2, 2, 0, "c"); // C3 CPPUNIT_ASSERT_DOUBLES_EQUAL_MESSAGE("Calculation of TTEST failed", 0.25030, m_pDoc->GetValue(aPos), 10e-5); m_pDoc->SetString(5, 1, 0, "d"); // F2 CPPUNIT_ASSERT_DOUBLES_EQUAL_MESSAGE("Calculation of TTEST failed", 0.19637, m_pDoc->GetValue(aPos), 10e-5); // type 1, mode/tails 2 m_pDoc->SetString(aPos, "=TTEST(A1:C3;D1:F3;2;1)"); CPPUNIT_ASSERT_DOUBLES_EQUAL_MESSAGE("Calculation of TTEST failed", 0.39273, m_pDoc->GetValue(aPos), 10e-5); m_pDoc->SetValue(1, 1, 0, 4.0); // B2 CPPUNIT_ASSERT_DOUBLES_EQUAL_MESSAGE("Calculation of TTEST failed", 0.39273, m_pDoc->GetValue(aPos), 10e-5); m_pDoc->SetValue(4, 1, 0, 3.0); // E2 CPPUNIT_ASSERT_DOUBLES_EQUAL_MESSAGE("Calculation of TTEST failed", 0.43970, m_pDoc->GetValue(aPos), 10e-5); m_pDoc->SetValue(2, 2, 0, -2.0); // C3 CPPUNIT_ASSERT_DOUBLES_EQUAL_MESSAGE("Calculation of TTEST failed", 0.22217, m_pDoc->GetValue(aPos), 10e-5); m_pDoc->SetValue(5, 1, 0, -10.0); // F2 CPPUNIT_ASSERT_DOUBLES_EQUAL_MESSAGE("Calculation of TTEST failed", 0.64668, m_pDoc->GetValue(aPos), 10e-5); m_pDoc->SetValue(0, 1, 0, 3.0); // A2 CPPUNIT_ASSERT_DOUBLES_EQUAL_MESSAGE("Calculation of TTEST failed", 0.95266, m_pDoc->GetValue(aPos), 10e-5); m_pDoc->SetValue(3, 2, 0, -1.0); // D3 CPPUNIT_ASSERT_DOUBLES_EQUAL_MESSAGE("Calculation of TTEST failed", 0.62636, m_pDoc->GetValue(aPos), 10e-5); // type 2, mode/tails 2 m_pDoc->SetString(aPos, "=TTEST(A1:C3;D1:F3;2;2)"); CPPUNIT_ASSERT_DOUBLES_EQUAL_MESSAGE("Calculation of TTEST failed", 0.62549, m_pDoc->GetValue(aPos), 10e-5); m_pDoc->SetValue(5, 1, 0, -1.0); // F2 CPPUNIT_ASSERT_DOUBLES_EQUAL_MESSAGE("Calculation of TTEST failed", 0.94952, m_pDoc->GetValue(aPos), 10e-5); m_pDoc->SetValue(2, 2, 0, 5.0); // C3 CPPUNIT_ASSERT_DOUBLES_EQUAL_MESSAGE("Calculation of TTEST failed", 0.58876, m_pDoc->GetValue(aPos), 10e-5); m_pDoc->SetValue(2, 1, 0, 2.0); // C2 CPPUNIT_ASSERT_DOUBLES_EQUAL_MESSAGE("Calculation of TTEST failed", 0.43205, m_pDoc->GetValue(aPos), 10e-5); m_pDoc->SetValue(3, 2, 0, -4.0); // D3 CPPUNIT_ASSERT_DOUBLES_EQUAL_MESSAGE("Calculation of TTEST failed", 0.36165, m_pDoc->GetValue(aPos), 10e-5); m_pDoc->SetValue(0, 1, 0, 1.0); // A2 CPPUNIT_ASSERT_DOUBLES_EQUAL_MESSAGE("Calculation of TTEST failed", 0.44207, m_pDoc->GetValue(aPos), 10e-5); // type 3, mode/tails 1 m_pDoc->SetString(aPos, "=TTEST(A1:C3;D1:F3;1;3)"); CPPUNIT_ASSERT_DOUBLES_EQUAL_MESSAGE("Calculation of TTEST failed", 0.22132, m_pDoc->GetValue(aPos), 10e-5); m_pDoc->SetValue(0, 0, 0, 1.0); // A1 CPPUNIT_ASSERT_DOUBLES_EQUAL_MESSAGE("Calculation of TTEST failed", 0.36977, m_pDoc->GetValue(aPos), 10e-5); m_pDoc->SetValue(0, 2, 0, -30.0); // A3 CPPUNIT_ASSERT_DOUBLES_EQUAL_MESSAGE("Calculation of TTEST failed", 0.16871, m_pDoc->GetValue(aPos), 10e-5); m_pDoc->SetValue(3, 1, 0, 5.0); // D2 CPPUNIT_ASSERT_DOUBLES_EQUAL_MESSAGE("Calculation of TTEST failed", 0.14396, m_pDoc->GetValue(aPos), 10e-5); m_pDoc->SetValue(5, 1, 0, 2.0); // F2 CPPUNIT_ASSERT_DOUBLES_EQUAL_MESSAGE("Calculation of TTEST failed", 0.12590, m_pDoc->GetValue(aPos), 10e-5); m_pDoc->SetValue(4, 2, 0, 2.0); // E3 CPPUNIT_ASSERT_DOUBLES_EQUAL_MESSAGE("Calculation of TTEST failed", 0.16424, m_pDoc->GetValue(aPos), 10e-5); m_pDoc->SetValue(5, 0, 0, -1.0); // F1 CPPUNIT_ASSERT_DOUBLES_EQUAL_MESSAGE("Calculation of TTEST failed", 0.21472, m_pDoc->GetValue(aPos), 10e-5); m_pDoc->DeleteTab(0); } void Test::testFuncSUMX2PY2() { sc::AutoCalcSwitch aACSwitch(*m_pDoc, true); // turn auto calc on. m_pDoc->InsertTab(0, "SumX2PY2 Test"); OUString aVal; ScAddress aPos(6,0,0); m_pDoc->SetString(aPos, "=SUMX2PY2(A1:C3;D1:F3)"); CPPUNIT_ASSERT_EQUAL_MESSAGE("Calculation of SUMX2PY2 failed", 0.0, m_pDoc->GetValue(aPos)); m_pDoc->SetValue(0, 0, 0, 1.0); // A1 CPPUNIT_ASSERT_EQUAL_MESSAGE("Calculation of SUMX2PY2 failed", 0.0, m_pDoc->GetValue(aPos)); m_pDoc->SetValue(3, 0, 0, 2.0); // D1 CPPUNIT_ASSERT_EQUAL_MESSAGE("Calculation of SUMX2PY2 failed", 5.0, m_pDoc->GetValue(aPos)); m_pDoc->SetValue(1, 0, 0, 2.0); // B1 CPPUNIT_ASSERT_EQUAL_MESSAGE("Calculation of SUMX2PY2 failed", 5.0, m_pDoc->GetValue(aPos)); m_pDoc->SetValue(4, 0, 0, 0.0); // E1 CPPUNIT_ASSERT_EQUAL_MESSAGE("Calculation of SUMX2PY2 failed", 9.0, m_pDoc->GetValue(aPos)); m_pDoc->SetValue(2, 0, 0, 3.0); // C1 m_pDoc->SetValue(5, 0, 0, 3.0); // F1 CPPUNIT_ASSERT_EQUAL_MESSAGE("Calculation of SUMX2PY2 failed", 27.0, m_pDoc->GetValue(aPos)); m_pDoc->SetValue(0, 1, 0, 10.0); // A2 m_pDoc->SetValue(3, 1, 0, -10.0); // D2 CPPUNIT_ASSERT_EQUAL_MESSAGE("Calculation of SUMX2PY2 failed", 227.0, m_pDoc->GetValue(aPos)); m_pDoc->SetValue(1, 1, 0, -5.0); // B2 CPPUNIT_ASSERT_EQUAL_MESSAGE("Calculation of SUMX2PY2 failed", 227.0, m_pDoc->GetValue(aPos)); m_pDoc->SetValue(4, 1, 0, -5.0); // E2 CPPUNIT_ASSERT_EQUAL_MESSAGE("Calculation of SUMX2PY2 failed", 277.0, m_pDoc->GetValue(aPos)); m_pDoc->SetValue(2, 1, 0, 0.0); // C2 m_pDoc->SetValue(5, 1, 0, 0.0); // F2 CPPUNIT_ASSERT_EQUAL_MESSAGE("Calculation of SUMX2PY2 failed", 277.0, m_pDoc->GetValue(aPos)); m_pDoc->SetValue(0, 2, 0, -8.0); // A3 m_pDoc->SetValue(3, 2, 0, 8.0); // D3 CPPUNIT_ASSERT_EQUAL_MESSAGE("Calculation of SUMX2PY2 failed", 405.0, m_pDoc->GetValue(aPos)); m_pDoc->SetValue(1, 2, 0, 0.0); // B3 m_pDoc->SetValue(4, 2, 0, 0.0); // E3 CPPUNIT_ASSERT_EQUAL_MESSAGE("Calculation of SUMX2PY2 failed", 405.0, m_pDoc->GetValue(aPos)); m_pDoc->SetValue(2, 2, 0, 1.0); // C3 m_pDoc->SetValue(5, 2, 0, 1.0); // F3 CPPUNIT_ASSERT_EQUAL_MESSAGE("Calculation of SUMX2PY2 failed", 407.0, m_pDoc->GetValue(aPos)); // add some strings m_pDoc->SetString(4, 1, 0, "a"); // E2 CPPUNIT_ASSERT_EQUAL_MESSAGE("Calculation of SUMX2PY2 failed", 357.0, m_pDoc->GetValue(aPos)); m_pDoc->SetString(1, 1, 0, "a"); // B2 CPPUNIT_ASSERT_EQUAL_MESSAGE("Calculation of SUMX2PY2 failed", 357.0, m_pDoc->GetValue(aPos)); m_pDoc->SetString(0, 0, 0, "a"); // A1 CPPUNIT_ASSERT_EQUAL_MESSAGE("Calculation of SUMX2PY2 failed", 352.0, m_pDoc->GetValue(aPos)); m_pDoc->SetString(3, 0, 0, "a"); // D1 CPPUNIT_ASSERT_EQUAL_MESSAGE("Calculation of SUMX2PY2 failed", 352.0, m_pDoc->GetValue(aPos)); m_pDoc->SetString(aPos, "=SUMX2PY2({1;2;3};{2;3;4})"); CPPUNIT_ASSERT_EQUAL_MESSAGE("Calculation of SUMX2PY2 failed", 43.0, m_pDoc->GetValue(aPos)); m_pDoc->SetString(aPos, "=SUMX2PY2({1;2;3};{2;3})"); aVal = m_pDoc->GetString(aPos); CPPUNIT_ASSERT_EQUAL_MESSAGE("SUMX2PY2 should return #VALUE! for matrices with different sizes", OUString("#VALUE!"), aVal); m_pDoc->SetString(aPos, "=SUMX2PY2({1;2;3})"); aVal = m_pDoc->GetString(aPos); CPPUNIT_ASSERT_EQUAL_MESSAGE("SUMX2PY2 needs two parameters", OUString("Err:511"), aVal); m_pDoc->DeleteTab(0); } void Test::testFuncSUMX2MY2() { sc::AutoCalcSwitch aACSwitch(*m_pDoc, true); // turn auto calc on. m_pDoc->InsertTab(0, "SumX2MY2 Test"); OUString aVal; ScAddress aPos(6,0,0); m_pDoc->SetString(aPos, "=SUMX2MY2(A1:C3;D1:F3)"); CPPUNIT_ASSERT_EQUAL_MESSAGE("Calculation of SUMX2MY2 failed", 0.0, m_pDoc->GetValue(aPos)); m_pDoc->SetValue(0, 0, 0, 10.0); // A1 CPPUNIT_ASSERT_EQUAL_MESSAGE("Calculation of SUMX2MY2 failed", 0.0, m_pDoc->GetValue(aPos)); m_pDoc->SetValue(3, 0, 0, -9.0); // D1 CPPUNIT_ASSERT_EQUAL_MESSAGE("Calculation of SUMX2MY2 failed", 19.0, m_pDoc->GetValue(aPos)); m_pDoc->SetValue(1, 0, 0, 2.0); // B1 CPPUNIT_ASSERT_EQUAL_MESSAGE("Calculation of SUMX2MY2 failed", 19.0, m_pDoc->GetValue(aPos)); m_pDoc->SetValue(4, 0, 0, 1.0); // E1 CPPUNIT_ASSERT_EQUAL_MESSAGE("Calculation of SUMX2MY2 failed", 22.0, m_pDoc->GetValue(aPos)); m_pDoc->SetValue(2, 0, 0, 3.0); // C1 CPPUNIT_ASSERT_EQUAL_MESSAGE("Calculation of SUMX2MY2 failed", 22.0, m_pDoc->GetValue(aPos)); m_pDoc->SetValue(5, 0, 0, 3.0); // F1 CPPUNIT_ASSERT_EQUAL_MESSAGE("Calculation of SUMX2MY2 failed", 22.0, m_pDoc->GetValue(aPos)); m_pDoc->SetValue(0, 1, 0, 10.0); // A2 CPPUNIT_ASSERT_EQUAL_MESSAGE("Calculation of SUMX2MY2 failed", 22.0, m_pDoc->GetValue(aPos)); m_pDoc->SetValue(3, 1, 0, -10.0); // D2 CPPUNIT_ASSERT_EQUAL_MESSAGE("Calculation of SUMX2MY2 failed", 22.0, m_pDoc->GetValue(aPos)); m_pDoc->SetValue(1, 1, 0, -5.0); // B2 CPPUNIT_ASSERT_EQUAL_MESSAGE("Calculation of SUMX2MY2 failed", 22.0, m_pDoc->GetValue(aPos)); m_pDoc->SetValue(4, 1, 0, -5.0); // E2 CPPUNIT_ASSERT_EQUAL_MESSAGE("Calculation of SUMX2MY2 failed", 22.0, m_pDoc->GetValue(aPos)); m_pDoc->SetValue(2, 1, 0, -3.0); // C2 CPPUNIT_ASSERT_EQUAL_MESSAGE("Calculation of SUMX2MY2 failed", 22.0, m_pDoc->GetValue(aPos)); m_pDoc->SetValue(5, 1, 0, 3.0); // F2 CPPUNIT_ASSERT_EQUAL_MESSAGE("Calculation of SUMX2MY2 failed", 22.0, m_pDoc->GetValue(aPos)); m_pDoc->SetValue(0, 2, 0, -8.0); // A3 CPPUNIT_ASSERT_EQUAL_MESSAGE("Calculation of SUMX2MY2 failed", 22.0, m_pDoc->GetValue(aPos)); m_pDoc->SetValue(3, 2, 0, 3.0); // D3 CPPUNIT_ASSERT_EQUAL_MESSAGE("Calculation of SUMX2MY2 failed", 77.0, m_pDoc->GetValue(aPos)); m_pDoc->SetValue(1, 2, 0, 2.0); // B3 CPPUNIT_ASSERT_EQUAL_MESSAGE("Calculation of SUMX2MY2 failed", 77.0, m_pDoc->GetValue(aPos)); m_pDoc->SetValue(4, 2, 0, -6.0); // E3 CPPUNIT_ASSERT_EQUAL_MESSAGE("Calculation of SUMX2MY2 failed", 45.0, m_pDoc->GetValue(aPos)); m_pDoc->SetValue(2, 2, 0, -4.0); // C3 CPPUNIT_ASSERT_EQUAL_MESSAGE("Calculation of SUMX2MY2 failed", 45.0, m_pDoc->GetValue(aPos)); m_pDoc->SetValue(5, 2, 0, 6.0); // F3 CPPUNIT_ASSERT_EQUAL_MESSAGE("Calculation of SUMX2MY2 failed", 25.0, m_pDoc->GetValue(aPos)); // add some strings m_pDoc->SetString(5, 2, 0, "a"); // F3 CPPUNIT_ASSERT_EQUAL_MESSAGE("Calculation of SUMX2MY2 failed", 45.0, m_pDoc->GetValue(aPos)); m_pDoc->SetString(0, 2, 0, "a"); // A3 CPPUNIT_ASSERT_EQUAL_MESSAGE("Calculation of SUMX2MY2 failed", -10.0, m_pDoc->GetValue(aPos)); m_pDoc->SetString(1, 0, 0, "a"); // B1 CPPUNIT_ASSERT_EQUAL_MESSAGE("Calculation of SUMX2MY2 failed", -13.0, m_pDoc->GetValue(aPos)); m_pDoc->SetString(3, 0, 0, "a"); // D1 CPPUNIT_ASSERT_EQUAL_MESSAGE("Calculation of SUMX2MY2 failed", -32.0, m_pDoc->GetValue(aPos)); m_pDoc->SetString(aPos, "=SUMX2MY2({1;3;5};{0;4;4})"); CPPUNIT_ASSERT_EQUAL_MESSAGE("Calculation of SUMX2MY2 failed", 3.0, m_pDoc->GetValue(aPos)); m_pDoc->SetString(aPos, "=SUMX2MY2({1;-3;-5};{0;-4;4})"); CPPUNIT_ASSERT_EQUAL_MESSAGE("Calculation of SUMX2MY2 failed", 3.0, m_pDoc->GetValue(aPos)); m_pDoc->SetString(aPos, "=SUMX2MY2({9;5;1};{3;-3;3})"); CPPUNIT_ASSERT_EQUAL_MESSAGE("Calculation of SUMX2MY2 failed", 80.0, m_pDoc->GetValue(aPos)); m_pDoc->SetString(aPos, "=SUMX2MY2({1;2;3};{2;3})"); aVal = m_pDoc->GetString(aPos); CPPUNIT_ASSERT_EQUAL_MESSAGE("SUMX2MY2 should return #VALUE! for matrices with different sizes", OUString("#VALUE!"), aVal); m_pDoc->SetString(aPos, "=SUMX2MY2({1;2;3})"); aVal = m_pDoc->GetString(aPos); CPPUNIT_ASSERT_EQUAL_MESSAGE("SUMX2MY2 needs two parameters", OUString("Err:511"), aVal); m_pDoc->DeleteTab(0); } void Test::testFuncGCD() { sc::AutoCalcSwitch aACSwitch(*m_pDoc, true); // turn auto calc on. m_pDoc->InsertTab(0, "GCDTest"); OUString aVal; ScAddress aPos(4,0,0); m_pDoc->SetString(aPos, "=GCD(A1)"); CPPUNIT_ASSERT_EQUAL_MESSAGE("Calculation of GCD for failed", 0.0, m_pDoc->GetValue(aPos)); m_pDoc->SetValue(0, 0, 0, 10.0); // A1 CPPUNIT_ASSERT_EQUAL_MESSAGE("Calculation of GCD for failed", 10.0, m_pDoc->GetValue(aPos)); m_pDoc->SetValue(0, 0, 0, -2.0); // A1 aVal = m_pDoc->GetString(aPos); CPPUNIT_ASSERT_EQUAL_MESSAGE("GCD should return Err:502 for values less than 0", OUString("Err:502"), aVal); m_pDoc->SetString(0, 0, 0, "a"); // A1 aVal = m_pDoc->GetString(aPos); CPPUNIT_ASSERT_EQUAL_MESSAGE("GCD should return #VALUE! for a single string", OUString("#VALUE!"), aVal); m_pDoc->SetString(aPos, "=GCD(A1:B2)"); CPPUNIT_ASSERT_EQUAL_MESSAGE("Calculation of GCD for failed", 0.0, m_pDoc->GetValue(aPos)); m_pDoc->SetValue(0, 1, 0, -12.0); // B1 aVal = m_pDoc->GetString(aPos); CPPUNIT_ASSERT_EQUAL_MESSAGE("GCD should return Err:502 for a matrix with values less than 0", OUString("Err:502"), aVal); m_pDoc->SetValue(0, 0, 0, 15.0); // A1 m_pDoc->SetValue(0, 1, 0, 0.0); // B1 CPPUNIT_ASSERT_EQUAL_MESSAGE("Calculation of GCD for failed", 15.0, m_pDoc->GetValue(aPos)); m_pDoc->SetValue(1, 0, 0, 5.0); // B1 CPPUNIT_ASSERT_EQUAL_MESSAGE("Calculation of GCD for failed", 5.0, m_pDoc->GetValue(aPos)); m_pDoc->SetValue(0, 1, 0, 10.0); // A2 CPPUNIT_ASSERT_EQUAL_MESSAGE("Calculation of GCD for failed", 5.0, m_pDoc->GetValue(aPos)); m_pDoc->SetValue(1, 0, 0, 30.0); // B1 CPPUNIT_ASSERT_EQUAL_MESSAGE("Calculation of GCD for failed", 5.0, m_pDoc->GetValue(aPos)); m_pDoc->SetValue(0, 0, 0, 20.0); // A1 CPPUNIT_ASSERT_EQUAL_MESSAGE("Calculation of GCD for failed", 10.0, m_pDoc->GetValue(aPos)); m_pDoc->SetValue(1, 1, 0, 120.0); // B2 CPPUNIT_ASSERT_EQUAL_MESSAGE("Calculation of GCD for failed", 10.0, m_pDoc->GetValue(aPos)); m_pDoc->SetValue(0, 1, 0, 80.0); // A2 m_pDoc->SetValue(1, 0, 0, 40.0); // B1 CPPUNIT_ASSERT_EQUAL_MESSAGE("Calculation of GCD for failed", 20.0, m_pDoc->GetValue(aPos)); m_pDoc->SetValue(1, 0, 0, 45.0); // B1 CPPUNIT_ASSERT_EQUAL_MESSAGE("Calculation of GCD for failed", 5.0, m_pDoc->GetValue(aPos)); // with floor m_pDoc->SetValue(1, 0, 0, 45.381); // B1 CPPUNIT_ASSERT_EQUAL_MESSAGE("Calculation of GCD for failed", 5.0, m_pDoc->GetValue(aPos)); m_pDoc->SetValue(1, 1, 0, 120.895); // B2 CPPUNIT_ASSERT_EQUAL_MESSAGE("Calculation of GCD for failed", 5.0, m_pDoc->GetValue(aPos)); m_pDoc->SetValue(0, 0, 0, 20.97); // A1 CPPUNIT_ASSERT_EQUAL_MESSAGE("Calculation of GCD for failed", 5.0, m_pDoc->GetValue(aPos)); m_pDoc->SetValue(0, 1, 0, 10.15); // A2 CPPUNIT_ASSERT_EQUAL_MESSAGE("Calculation of GCD for failed", 5.0, m_pDoc->GetValue(aPos)); // inline array m_pDoc->SetString(aPos, "=GCD({3;6;9})"); CPPUNIT_ASSERT_EQUAL_MESSAGE("Calculation of GCD for failed", 3.0, m_pDoc->GetValue(aPos)); m_pDoc->SetString(aPos, "=GCD({150;0})"); CPPUNIT_ASSERT_EQUAL_MESSAGE("Calculation of GCD for failed", 150.0, m_pDoc->GetValue(aPos)); m_pDoc->SetString(aPos, "=GCD({-3;6;9})"); aVal = m_pDoc->GetString(aPos); CPPUNIT_ASSERT_EQUAL_MESSAGE("GCD should return Err:502 for an array with values less than 0", OUString("Err:502"), aVal); m_pDoc->SetString(aPos, "=GCD({\"a\";6;9})"); aVal = m_pDoc->GetString(aPos); CPPUNIT_ASSERT_EQUAL_MESSAGE("GCD should return Err:502 for an array with strings", OUString("Err:502"), aVal); //many inline array m_pDoc->SetString(aPos, "=GCD({6;6;6};{3;6;9})"); CPPUNIT_ASSERT_EQUAL_MESSAGE("Calculation of GCD for failed", 3.0, m_pDoc->GetValue(aPos)); m_pDoc->SetString(aPos, "=GCD({300;300;300};{150;0})"); CPPUNIT_ASSERT_EQUAL_MESSAGE("Calculation of GCD for failed", 150.0, m_pDoc->GetValue(aPos)); m_pDoc->SetString(aPos,"=GCD({3;6;9};{3;-6;9})"); aVal = m_pDoc->GetString(aPos); CPPUNIT_ASSERT_EQUAL_MESSAGE("GCD should return Err:502 for an array with values less than 0", OUString("Err:502"), aVal); m_pDoc->SetString(aPos, "=GCD({3;6;9};{\"a\";6;9})"); aVal = m_pDoc->GetString(aPos); CPPUNIT_ASSERT_EQUAL_MESSAGE("GCD should return Err:502 for an array with strings", OUString("Err:502"), aVal); // inline list of values m_pDoc->SetString(aPos, "=GCD(12;24;36;48;60)"); CPPUNIT_ASSERT_EQUAL_MESSAGE("Calculation of GCD for failed", 12.0, m_pDoc->GetValue(aPos)); m_pDoc->SetString(aPos, "=GCD(0;12;24;36;48;60)"); CPPUNIT_ASSERT_EQUAL_MESSAGE("Calculation of GCD for failed", 12.0, m_pDoc->GetValue(aPos)); m_pDoc->SetString(aPos, "=GCD(\"a\";1)"); aVal = m_pDoc->GetString(aPos); CPPUNIT_ASSERT_EQUAL_MESSAGE("GCD should return #VALUE! for an array with strings", OUString("#VALUE!"), aVal); m_pDoc->DeleteTab(0); } void Test::testFuncLCM() { sc::AutoCalcSwitch aACSwitch(*m_pDoc, true); // turn auto calc on. m_pDoc->InsertTab(0, "LCMTest"); OUString aVal; ScAddress aPos(4,0,0); m_pDoc->SetString(aPos, "=LCM(A1)"); CPPUNIT_ASSERT_EQUAL_MESSAGE("Calculation of LCM for failed", 0.0, m_pDoc->GetValue(aPos)); m_pDoc->SetValue(0, 0, 0, 10.0); // A1 CPPUNIT_ASSERT_EQUAL_MESSAGE("Calculation of LCM for failed", 10.0, m_pDoc->GetValue(aPos)); m_pDoc->SetValue(0, 0, 0, -2.0); // A1 aVal = m_pDoc->GetString(aPos); CPPUNIT_ASSERT_EQUAL_MESSAGE("LCM should return Err:502 for values less than 0", OUString("Err:502"), aVal); m_pDoc->SetString(0, 0, 0, "a"); // A1 aVal = m_pDoc->GetString(aPos); CPPUNIT_ASSERT_EQUAL_MESSAGE("LCM should return #VALUE! for a single string", OUString("#VALUE!"), aVal); m_pDoc->SetString(aPos, "=LCM(A1:B2)"); CPPUNIT_ASSERT_EQUAL_MESSAGE("Calculation of GCD for failed", 1.0, m_pDoc->GetValue(aPos)); m_pDoc->SetValue(0, 1, 0, -12.0); // B1 aVal = m_pDoc->GetString(aPos); CPPUNIT_ASSERT_EQUAL_MESSAGE("LCM should return Err:502 for a matrix with values less than 0", OUString("Err:502"), aVal); m_pDoc->SetValue(0, 0, 0, 15.0); // A1 m_pDoc->SetValue(0, 1, 0, 0.0); // A2 CPPUNIT_ASSERT_EQUAL_MESSAGE("Calculation of LCM for failed", 0.0, m_pDoc->GetValue(aPos)); m_pDoc->SetValue(1, 0, 0, 5.0); // B1 CPPUNIT_ASSERT_EQUAL_MESSAGE("Calculation of LCM for failed", 0.0, m_pDoc->GetValue(aPos)); m_pDoc->SetValue(0, 1, 0, 10.0); // A2 CPPUNIT_ASSERT_EQUAL_MESSAGE("Calculation of LCM for failed", 30.0, m_pDoc->GetValue(aPos)); m_pDoc->SetValue(1, 0, 0, 30.0); // B1 CPPUNIT_ASSERT_EQUAL_MESSAGE("Calculation of LCM for failed", 30.0, m_pDoc->GetValue(aPos)); m_pDoc->SetValue(0, 0, 0, 20.0); // A1 CPPUNIT_ASSERT_EQUAL_MESSAGE("Calculation of LCM for failed", 60.0, m_pDoc->GetValue(aPos)); m_pDoc->SetValue(1, 1, 0, 125.0); // B2 CPPUNIT_ASSERT_EQUAL_MESSAGE("Calculation of LCM for failed", 1500.0, m_pDoc->GetValue(aPos)); m_pDoc->SetValue(1, 0, 0, 99.0); // B1 CPPUNIT_ASSERT_EQUAL_MESSAGE("Calculation of LCM for failed", 49500.0, m_pDoc->GetValue(aPos)); m_pDoc->SetValue(0, 1, 0, 37.0); // A2 CPPUNIT_ASSERT_EQUAL_MESSAGE("Calculation of LCM for failed", 1831500.0, m_pDoc->GetValue(aPos)); // with floor m_pDoc->SetValue(1, 0, 0, 99.89); // B1 CPPUNIT_ASSERT_EQUAL_MESSAGE("Calculation of LCM for failed", 1831500.0, m_pDoc->GetValue(aPos)); m_pDoc->SetValue(1, 1, 0, 11.32); // B2 CPPUNIT_ASSERT_EQUAL_MESSAGE("Calculation of LCM for failed", 73260.0, m_pDoc->GetValue(aPos)); m_pDoc->SetValue(0, 0, 0, 22.58); // A1 CPPUNIT_ASSERT_EQUAL_MESSAGE("Calculation of LCM for failed", 7326.0, m_pDoc->GetValue(aPos)); m_pDoc->SetValue(0, 1, 0, 3.99); // A2 CPPUNIT_ASSERT_EQUAL_MESSAGE("Calculation of LCM for failed", 198.0, m_pDoc->GetValue(aPos)); // inline array m_pDoc->SetString(aPos, "=LCM({3;6;9})"); CPPUNIT_ASSERT_EQUAL_MESSAGE("Calculation of LCM for failed", 18.0, m_pDoc->GetValue(aPos)); m_pDoc->SetString(aPos, "=LCM({150;0})"); CPPUNIT_ASSERT_EQUAL_MESSAGE("Calculation of LCM for failed", 0.0, m_pDoc->GetValue(aPos)); m_pDoc->SetString(aPos, "=LCM({-3;6;9})"); aVal = m_pDoc->GetString(aPos); CPPUNIT_ASSERT_EQUAL_MESSAGE("LCM should return Err:502 for an array with values less than 0", OUString("Err:502"), aVal); m_pDoc->SetString(aPos, "=LCM({\"a\";6;9})"); aVal = m_pDoc->GetString(aPos); CPPUNIT_ASSERT_EQUAL_MESSAGE("LCM should return Err:502 for an array with strings", OUString("Err:502"), aVal); //many inline array m_pDoc->SetString(aPos, "=LCM({6;6;6};{3;6;9})"); CPPUNIT_ASSERT_EQUAL_MESSAGE("Calculation of LCM for failed", 18.0, m_pDoc->GetValue(aPos)); m_pDoc->SetString(aPos, "=LCM({300;300;300};{150;0})"); CPPUNIT_ASSERT_EQUAL_MESSAGE("Calculation of LCM for failed", 0.0, m_pDoc->GetValue(aPos)); m_pDoc->SetString(aPos,"=LCM({3;6;9};{3;-6;9})"); aVal = m_pDoc->GetString(aPos); CPPUNIT_ASSERT_EQUAL_MESSAGE("LCM should return Err:502 for an array with values less than 0", OUString("Err:502"), aVal); m_pDoc->SetString(aPos, "=LCM({3;6;9};{\"a\";6;9})"); aVal = m_pDoc->GetString(aPos); CPPUNIT_ASSERT_EQUAL_MESSAGE("LCM should return Err:502 for an array with strings", OUString("Err:502"), aVal); m_pDoc->SetString(aPos, "=LCM(12;24;36;48;60)"); CPPUNIT_ASSERT_EQUAL_MESSAGE("Calculation of LCM for failed", 720.0, m_pDoc->GetValue(aPos)); m_pDoc->SetString(aPos, "=LCM(0;12;24;36;48;60)"); CPPUNIT_ASSERT_EQUAL_MESSAGE("Calculation of LCM for failed", 0.0, m_pDoc->GetValue(aPos)); m_pDoc->SetString(aPos, "=LCM(\"a\";1)"); aVal = m_pDoc->GetString(aPos); CPPUNIT_ASSERT_EQUAL_MESSAGE("LCM should return #VALUE! for an array with strings", OUString("#VALUE!"), aVal); m_pDoc->DeleteTab(0); } void Test::testFuncSUMSQ() { sc::AutoCalcSwitch aACSwitch(*m_pDoc, true); // turn auto calc on. m_pDoc->InsertTab(0, "SUMSQTest"); ScAddress aPos(4,0,0); m_pDoc->SetString(aPos, "=SUMSQ(A1)"); CPPUNIT_ASSERT_EQUAL_MESSAGE("Calculation of SUMSQ for failed", 0.0, m_pDoc->GetValue(aPos)); m_pDoc->SetValue(0, 0, 0, 1.0); // A1 CPPUNIT_ASSERT_EQUAL_MESSAGE("Calculation of SUMSQ for failed", 1.0, m_pDoc->GetValue(aPos)); m_pDoc->SetValue(0, 0, 0, -1.0); // A1 CPPUNIT_ASSERT_EQUAL_MESSAGE("Calculation of SUMSQ for failed", 1.0, m_pDoc->GetValue(aPos)); m_pDoc->SetValue(0, 1, 0, -2.0); // A2 CPPUNIT_ASSERT_EQUAL_MESSAGE("Calculation of SUMSQ for failed", 1.0, m_pDoc->GetValue(aPos)); m_pDoc->SetString(aPos, "=SUMSQ(A1:A3)"); CPPUNIT_ASSERT_EQUAL_MESSAGE("Calculation of SUMSQ for failed", 5.0, m_pDoc->GetValue(aPos)); m_pDoc->SetValue(1, 0, 0, 3.0); // B1 CPPUNIT_ASSERT_EQUAL_MESSAGE("Calculation of SUMSQ for failed", 5.0, m_pDoc->GetValue(aPos)); m_pDoc->SetString(aPos, "=SUMSQ(A1:C3)"); CPPUNIT_ASSERT_EQUAL_MESSAGE("Calculation of SUMSQ for failed", 14.0, m_pDoc->GetValue(aPos)); m_pDoc->SetValue(1, 1, 0, -4.0); // B2 CPPUNIT_ASSERT_EQUAL_MESSAGE("Calculation of SUMSQ for failed", 30.0, m_pDoc->GetValue(aPos)); m_pDoc->SetString(1, 2, 0, "a"); // B3 CPPUNIT_ASSERT_EQUAL_MESSAGE("Calculation of SUMSQ with a string for failed", 30.0, m_pDoc->GetValue(aPos)); m_pDoc->SetValue(1, 2, 0, 0.0); // B3 CPPUNIT_ASSERT_EQUAL_MESSAGE("Calculation of SUMSQ with a string for failed", 30.0, m_pDoc->GetValue(aPos)); m_pDoc->SetValue(0, 2, 0, 6.0); // A3 CPPUNIT_ASSERT_EQUAL_MESSAGE("Calculation of SUMSQ with a string for failed", 66.0, m_pDoc->GetValue(aPos)); m_pDoc->SetValue(2, 0, 0, -5.0); // C1 CPPUNIT_ASSERT_EQUAL_MESSAGE("Calculation of SUMSQ with a string for failed", 91.0, m_pDoc->GetValue(aPos)); m_pDoc->SetValue(2, 1, 0, 3.0); // C2 CPPUNIT_ASSERT_EQUAL_MESSAGE("Calculation of SUMSQ with a string for failed", 100.0, m_pDoc->GetValue(aPos)); m_pDoc->SetValue(2, 2, 0, 2.0); // C3 CPPUNIT_ASSERT_EQUAL_MESSAGE("Calculation of SUMSQ with a string for failed", 104.0, m_pDoc->GetValue(aPos)); // inline array m_pDoc->SetString(aPos, "=SUMSQ({1;2;3})"); CPPUNIT_ASSERT_EQUAL_MESSAGE("Calculation of SUMSQ for failed", 14.0, m_pDoc->GetValue(aPos)); m_pDoc->SetString(aPos, "=SUMSQ({3;6;9})"); CPPUNIT_ASSERT_EQUAL_MESSAGE("Calculation of SUMSQ for failed", 126.0, m_pDoc->GetValue(aPos)); m_pDoc->SetString(aPos, "=SUMSQ({15;0})"); CPPUNIT_ASSERT_EQUAL_MESSAGE("Calculation of SUMSQ for failed", 225.0, m_pDoc->GetValue(aPos)); m_pDoc->SetString(aPos, "=SUMSQ({-3;3;1})"); CPPUNIT_ASSERT_EQUAL_MESSAGE("Calculation of SUMSQ for failed", 19.0, m_pDoc->GetValue(aPos)); m_pDoc->SetString(aPos, "=SUMSQ({\"a\";-4;-5})"); CPPUNIT_ASSERT_EQUAL_MESSAGE("Calculation of SUMSQ for failed", 41.0, m_pDoc->GetValue(aPos)); m_pDoc->SetString(aPos, "=SUMSQ({2;3};{4;5})"); CPPUNIT_ASSERT_EQUAL_MESSAGE("Calculation of SUMSQ for failed", 54.0, m_pDoc->GetValue(aPos)); m_pDoc->SetString(aPos, "=SUMSQ({-3;3;1};{-1})"); CPPUNIT_ASSERT_EQUAL_MESSAGE("Calculation of SUMSQ for failed", 20.0, m_pDoc->GetValue(aPos)); m_pDoc->SetString(aPos, "=SUMSQ({-4};{1;4;2};{-5;7};{9})"); CPPUNIT_ASSERT_EQUAL_MESSAGE("Calculation of SUMSQ for failed", 192.0, m_pDoc->GetValue(aPos)); m_pDoc->SetString(aPos, "=SUMSQ({-2;2};{1};{-1};{0;0;0;4})"); CPPUNIT_ASSERT_EQUAL_MESSAGE("Calculation of SUMSQ for failed", 26.0, m_pDoc->GetValue(aPos)); m_pDoc->SetString(aPos, "=SUMSQ(4;1;-3)"); CPPUNIT_ASSERT_EQUAL_MESSAGE("Calculation of SUMSQ for failed", 26.0, m_pDoc->GetValue(aPos)); m_pDoc->SetString(aPos, "=SUMSQ(0;5;13;-7;-4)"); CPPUNIT_ASSERT_EQUAL_MESSAGE("Calculation of SUMSQ for failed", 259.0, m_pDoc->GetValue(aPos)); m_pDoc->SetString(aPos, "=SUMSQ(0;12;24;36;48;60)"); CPPUNIT_ASSERT_EQUAL_MESSAGE("Calculation of SUMSQ for failed", 7920.0, m_pDoc->GetValue(aPos)); m_pDoc->SetString(aPos, "=SUMSQ(0;-12;-24;36;-48;60)"); CPPUNIT_ASSERT_EQUAL_MESSAGE("Calculation of SUMSQ for failed", 7920.0, m_pDoc->GetValue(aPos)); m_pDoc->SetString(aPos, "=SUMSQ(\"a\";1;\"d\";-4;2)"); OUString aVal = m_pDoc->GetString(aPos); CPPUNIT_ASSERT_EQUAL_MESSAGE("SUMSQ should return #VALUE! for an array with strings", OUString("#VALUE!"), aVal); m_pDoc->DeleteTab(0); } void Test::testFuncMDETERM() { sc::AutoCalcSwitch aACSwitch(*m_pDoc, true); // turn auto calc on. m_pDoc->InsertTab(0, "MDETERM_test"); ScAddress aPos(8,0,0); OUString const aColCodes("ABCDEFGH"); OUString const aFormulaTemplate("=MDETERM(A1:B2)"); OUStringBuffer aFormulaBuffer(aFormulaTemplate); for( SCSIZE nSize = 3; nSize <= 8; nSize++ ) { double fVal = 1.0; // Generate a singular integer matrix for( SCROW nRow = 0; nRow < static_cast(nSize); nRow++ ) { for( SCCOL nCol = 0; nCol < static_cast(nSize); nCol++ ) { m_pDoc->SetValue(nCol, nRow, 0, fVal); fVal += 1.0; } } aFormulaBuffer[12] = aColCodes[nSize-1]; aFormulaBuffer[13] = static_cast( '0' + nSize ); m_pDoc->SetString(aPos, aFormulaBuffer.toString()); #if SAL_TYPES_SIZEOFPOINTER == 4 // On crappy 32-bit targets, presumably without extended precision on // interim results or optimization not catching it, this test fails // when comparing to 0.0, so have a narrow error margin. See also // commit message of 8140309d636d4a870875f2dd75ed3dfff2c0fbaf CPPUNIT_ASSERT_DOUBLES_EQUAL_MESSAGE("Calculation of MDETERM incorrect for singular integer matrix", 0.0, m_pDoc->GetValue(aPos), 1e-12); #else // Even on one (and only one) x86_64 target the result was // 6.34413156928661e-17 instead of 0.0 (tdf#99730) so lower the bar to // 10e-14. // Then again on aarch64, ppc64* and s390x it also fails. // Sigh... why do we even test this? The original complaint in tdf#32834 // was about -9.51712667007776E-016 CPPUNIT_ASSERT_DOUBLES_EQUAL_MESSAGE("Calculation of MDETERM incorrect for singular integer matrix", 0.0, m_pDoc->GetValue(aPos), 1e-14); #endif } int const aVals[] = {23, 31, 13, 12, 34, 64, 34, 31, 98, 32, 33, 63, 45, 54, 65, 76}; int nIdx = 0; for( SCROW nRow = 0; nRow < 4; nRow++ ) for( SCCOL nCol = 0; nCol < 4; nCol++ ) m_pDoc->SetValue(nCol, nRow, 0, static_cast(aVals[nIdx++])); m_pDoc->SetString(aPos, "=MDETERM(A1:D4)"); // Following test is conservative in the sense that on Linux x86_64 the error is less that 1.0E-9 CPPUNIT_ASSERT_DOUBLES_EQUAL_MESSAGE("Calculation of MDETERM incorrect for non-singular integer matrix", -180655.0, m_pDoc->GetValue(aPos), 1.0E-6); m_pDoc->DeleteTab(0); } void Test::testFormulaErrorPropagation() { sc::AutoCalcSwitch aACSwitch(*m_pDoc, true); // turn auto calc on. m_pDoc->InsertTab(0, "Sheet1"); ScMarkData aMark(MAXROW, MAXCOL); aMark.SelectOneTable(0); ScAddress aPos, aPos2; const OUString aTRUE("TRUE"); const OUString aFALSE("FALSE"); aPos.Set(0,0,0);// A1 m_pDoc->SetValue( aPos, 1.0); aPos.IncCol(); // B1 m_pDoc->SetValue( aPos, 2.0); aPos.IncCol(); aPos.IncRow(); // C2 m_pDoc->SetString( aPos, "=ISERROR(A1:B1+3)"); CPPUNIT_ASSERT_EQUAL_MESSAGE( aPos.Format(ScRefFlags::VALID).toUtf8().getStr(), aTRUE, m_pDoc->GetString(aPos)); aPos.IncRow(); // C3 m_pDoc->SetString( aPos, "=ISERROR(A1:B1+{3})"); CPPUNIT_ASSERT_EQUAL_MESSAGE( aPos.Format(ScRefFlags::VALID).toUtf8().getStr(), aTRUE, m_pDoc->GetString(aPos)); aPos.IncRow(); // C4 aPos2 = aPos; aPos2.IncCol(); // D4 m_pDoc->InsertMatrixFormula(aPos.Col(), aPos.Row(), aPos2.Col(), aPos2.Row(), aMark, "=ISERROR(A1:B1+{3})"); CPPUNIT_ASSERT_EQUAL_MESSAGE( aPos.Format(ScRefFlags::VALID).toUtf8().getStr(), aFALSE, m_pDoc->GetString(aPos)); CPPUNIT_ASSERT_EQUAL_MESSAGE( aPos2.Format(ScRefFlags::VALID).toUtf8().getStr(), aFALSE, m_pDoc->GetString(aPos2)); aPos.IncRow(); // C5 m_pDoc->SetString( aPos, "=ISERROR({1;\"x\"}+{3;4})"); CPPUNIT_ASSERT_EQUAL_MESSAGE( aPos.Format(ScRefFlags::VALID).toUtf8().getStr(), aFALSE, m_pDoc->GetString(aPos)); aPos.IncRow(); // C6 aPos2 = aPos; aPos2.IncCol(); // D6 m_pDoc->InsertMatrixFormula(aPos.Col(), aPos.Row(), aPos2.Col(), aPos2.Row(), aMark, "=ISERROR({1;\"x\"}+{3;4})"); CPPUNIT_ASSERT_EQUAL_MESSAGE( aPos.Format(ScRefFlags::VALID).toUtf8().getStr(), aFALSE, m_pDoc->GetString(aPos)); CPPUNIT_ASSERT_EQUAL_MESSAGE( aPos2.Format(ScRefFlags::VALID).toUtf8().getStr(), aTRUE, m_pDoc->GetString(aPos2)); aPos.IncRow(); // C7 m_pDoc->SetString( aPos, "=ISERROR({\"x\";2}+{3;4})"); CPPUNIT_ASSERT_EQUAL_MESSAGE( aPos.Format(ScRefFlags::VALID).toUtf8().getStr(), aTRUE, m_pDoc->GetString(aPos)); aPos.IncRow(); // C8 aPos2 = aPos; aPos2.IncCol(); // D8 m_pDoc->InsertMatrixFormula(aPos.Col(), aPos.Row(), aPos2.Col(), aPos2.Row(), aMark, "=ISERROR({\"x\";2}+{3;4})"); CPPUNIT_ASSERT_EQUAL_MESSAGE( aPos.Format(ScRefFlags::VALID).toUtf8().getStr(), aTRUE, m_pDoc->GetString(aPos)); CPPUNIT_ASSERT_EQUAL_MESSAGE( aPos2.Format(ScRefFlags::VALID).toUtf8().getStr(), aFALSE, m_pDoc->GetString(aPos2)); aPos.IncRow(); // C9 m_pDoc->SetString( aPos, "=ISERROR(({1;\"x\"}+{3;4})-{5;6})"); CPPUNIT_ASSERT_EQUAL_MESSAGE( aPos.Format(ScRefFlags::VALID).toUtf8().getStr(), aFALSE, m_pDoc->GetString(aPos)); aPos.IncRow(); // C10 aPos2 = aPos; aPos2.IncCol(); // D10 m_pDoc->InsertMatrixFormula(aPos.Col(), aPos.Row(), aPos2.Col(), aPos2.Row(), aMark, "=ISERROR(({1;\"x\"}+{3;4})-{5;6})"); CPPUNIT_ASSERT_EQUAL_MESSAGE( aPos.Format(ScRefFlags::VALID).toUtf8().getStr(), aFALSE, m_pDoc->GetString(aPos)); CPPUNIT_ASSERT_EQUAL_MESSAGE( aPos2.Format(ScRefFlags::VALID).toUtf8().getStr(), aTRUE, m_pDoc->GetString(aPos2)); aPos.IncRow(); // C11 m_pDoc->SetString( aPos, "=ISERROR(({\"x\";2}+{3;4})-{5;6})"); CPPUNIT_ASSERT_EQUAL_MESSAGE( aPos.Format(ScRefFlags::VALID).toUtf8().getStr(), aTRUE, m_pDoc->GetString(aPos)); aPos.IncRow(); // C12 aPos2 = aPos; aPos2.IncCol(); // D12 m_pDoc->InsertMatrixFormula(aPos.Col(), aPos.Row(), aPos2.Col(), aPos2.Row(), aMark, "=ISERROR(({\"x\";2}+{3;4})-{5;6})"); CPPUNIT_ASSERT_EQUAL_MESSAGE( aPos.Format(ScRefFlags::VALID).toUtf8().getStr(), aTRUE, m_pDoc->GetString(aPos)); CPPUNIT_ASSERT_EQUAL_MESSAGE( aPos2.Format(ScRefFlags::VALID).toUtf8().getStr(), aFALSE, m_pDoc->GetString(aPos2)); m_pDoc->DeleteTab(0); } namespace { class ColumnTest { ScDocument * m_pDoc; const SCROW m_nTotalRows; const SCROW m_nStart1; const SCROW m_nEnd1; const SCROW m_nStart2; const SCROW m_nEnd2; public: ColumnTest( ScDocument * pDoc, SCROW nTotalRows, SCROW nStart1, SCROW nEnd1, SCROW nStart2, SCROW nEnd2 ) : m_pDoc(pDoc), m_nTotalRows(nTotalRows) , m_nStart1(nStart1), m_nEnd1(nEnd1) , m_nStart2(nStart2), m_nEnd2(nEnd2) {} void operator() ( SCCOL nColumn, const OUString& rFormula, std::function const & lExpected ) const { ScDocument aClipDoc(SCDOCMODE_CLIP); ScMarkData aMark(MAXROW, MAXCOL); ScAddress aPos(nColumn, m_nStart1, 0); m_pDoc->SetString(aPos, rFormula); ASSERT_DOUBLES_EQUAL( lExpected(m_nStart1), m_pDoc->GetValue(aPos) ); // Copy formula cell to clipboard. ScClipParam aClipParam(aPos, false); aMark.SetMarkArea(aPos); m_pDoc->CopyToClip(aClipParam, &aClipDoc, &aMark, false, false); // Paste it to first range. InsertDeleteFlags nFlags = InsertDeleteFlags::CONTENTS; ScRange aDestRange(nColumn, m_nStart1, 0, nColumn, m_nEnd1, 0); aMark.SetMarkArea(aDestRange); m_pDoc->CopyFromClip(aDestRange, aMark, nFlags, nullptr, &aClipDoc); // Paste it second range. aDestRange = ScRange(nColumn, m_nStart2, 0, nColumn, m_nEnd2, 0); aMark.SetMarkArea(aDestRange); m_pDoc->CopyFromClip(aDestRange, aMark, nFlags, nullptr, &aClipDoc); // Check the formula results for passed column. for( SCROW i = 0; i < m_nTotalRows; ++i ) { if( !((m_nStart1 <= i && i <= m_nEnd1) || (m_nStart2 <= i && i <= m_nEnd2)) ) continue; double fExpected = lExpected(i); ASSERT_DOUBLES_EQUAL(fExpected, m_pDoc->GetValue(ScAddress(nColumn,i,0))); } } }; } void Test::testTdf97369() { const SCROW TOTAL_ROWS = 330; const SCROW ROW_RANGE = 10; const SCROW START1 = 9; const SCROW END1 = 159; const SCROW START2 = 169; const SCROW END2 = 319; const double SHIFT1 = 200; const double SHIFT2 = 400; CPPUNIT_ASSERT_MESSAGE ("failed to insert sheet", m_pDoc->InsertTab (0, "tdf97369")); sc::AutoCalcSwitch aACSwitch(*m_pDoc, true); // turn on auto calc. // set up columns A, B, C for( SCROW i = 0; i < TOTAL_ROWS; ++i ) { m_pDoc->SetValue(ScAddress(0, i, 0), i); // A m_pDoc->SetValue(ScAddress(1, i, 0), i + SHIFT1); // B m_pDoc->SetValue(ScAddress(2, i, 0), i + SHIFT2); // C } const ColumnTest columnTest( m_pDoc, TOTAL_ROWS, START1, END1, START2, END2 ); auto lExpectedinD = [=] (SCROW n) { return 3.0 * (n-START1) + SHIFT1 + SHIFT2; }; columnTest(3, "=SUM(A1:C1)", lExpectedinD); auto lExpectedinE = [=] (SCROW ) { return SHIFT1 + SHIFT2; }; columnTest(4, "=SUM(A$1:C$1)", lExpectedinE); auto lExpectedinF = [=] (SCROW n) { return ((2*n + 1 - ROW_RANGE) * ROW_RANGE) / 2.0; }; columnTest(5, "=SUM(A1:A10)", lExpectedinF); auto lExpectedinG = [=] (SCROW n) { return ((n + 1) * n) / 2.0; }; columnTest(6, "=SUM(A$1:A10)", lExpectedinG); auto lExpectedinH = [=] (SCROW n) { return 3.0 * (((2*n + 1 - ROW_RANGE) * ROW_RANGE) / 2) + ROW_RANGE * (SHIFT1 + SHIFT2); }; columnTest(7, "=SUM(A1:C10)", lExpectedinH); auto lExpectedinI = [=] (SCROW ) { return 3.0 * (((2*START1 + 1 - ROW_RANGE) * ROW_RANGE) / 2) + ROW_RANGE * (SHIFT1 + SHIFT2); }; columnTest(8, "=SUM(A$1:C$10)", lExpectedinI); m_pDoc->DeleteTab(0); } void Test::testTdf97587() { const SCROW TOTAL_ROWS = 150; const SCROW ROW_RANGE = 10; CPPUNIT_ASSERT_MESSAGE ("failed to insert sheet", m_pDoc->InsertTab (0, "tdf97587")); sc::AutoCalcSwitch aACSwitch(*m_pDoc, true); // turn on auto calc. std::set emptyCells = {0, 100}; for( SCROW i = 0; i < ROW_RANGE; ++i ) { emptyCells.insert(i + TOTAL_ROWS / 3); emptyCells.insert(i + TOTAL_ROWS); } // set up columns A for( SCROW i = 0; i < TOTAL_ROWS; ++i ) { if( emptyCells.find(i) != emptyCells.end() ) continue; m_pDoc->SetValue(ScAddress(0, i, 0), 1.0); } ScDocument aClipDoc(SCDOCMODE_CLIP); ScMarkData aMark(MAXROW, MAXCOL); ScAddress aPos(1, 0, 0); m_pDoc->SetString(aPos, "=SUM(A1:A10)"); // Copy formula cell to clipboard. ScClipParam aClipParam(aPos, false); aMark.SetMarkArea(aPos); m_pDoc->CopyToClip(aClipParam, &aClipDoc, &aMark, false, false); // Paste it to first range. ScRange aDestRange(1, 1, 0, 1, TOTAL_ROWS + ROW_RANGE, 0); aMark.SetMarkArea(aDestRange); m_pDoc->CopyFromClip(aDestRange, aMark, InsertDeleteFlags::CONTENTS, nullptr, &aClipDoc); // Check the formula results in column B. for( SCROW i = 0; i < TOTAL_ROWS + 1; ++i ) { int k = std::count_if( emptyCells.begin(), emptyCells.end(), [=](SCROW n) { return (i <= n && n < i + ROW_RANGE); } ); double fExpected = ROW_RANGE - k; ASSERT_DOUBLES_EQUAL(fExpected, m_pDoc->GetValue(ScAddress(1,i,0))); } m_pDoc->DeleteTab(0); } void Test::testMatConcat() { CPPUNIT_ASSERT(m_pDoc->InsertTab (0, "Test")); for (SCCOL nCol = 0; nCol < 10; ++nCol) { for (SCROW nRow = 0; nRow < 10; ++nRow) { m_pDoc->SetValue(ScAddress(nCol, nRow, 0), nCol*nRow); } } ScMarkData aMark(MAXROW, MAXCOL); aMark.SelectOneTable(0); m_pDoc->InsertMatrixFormula(0, 12, 9, 21, aMark, "=A1:J10&A1:J10"); for (SCCOL nCol = 0; nCol < 10; ++nCol) { for (SCROW nRow = 12; nRow < 22; ++nRow) { OUString aStr = m_pDoc->GetString(ScAddress(nCol, nRow, 0)); CPPUNIT_ASSERT_EQUAL(OUString(OUString::number(nCol * (nRow - 12)) + OUString::number(nCol * (nRow - 12))), aStr); } } { // Data in A12:B16 const char* aData[][2] = { { "q", "w" }, { "a", "" }, { "", "x" }, { "", "" }, { "e", "r" }, }; ScAddress aPos(0,11,0); ScRange aRange = insertRangeData(m_pDoc, aPos, aData, SAL_N_ELEMENTS(aData)); CPPUNIT_ASSERT_EQUAL(aPos, aRange.aStart); } // Matrix formula in C17:C21 m_pDoc->InsertMatrixFormula(2, 16, 2, 20, aMark, "=A12:A16&B12:B16"); // Check proper concatenation including empty cells. OUString aStr; ScAddress aPos(2,16,0); aStr = m_pDoc->GetString(aPos); CPPUNIT_ASSERT_EQUAL(OUString("qw"),aStr); aPos.IncRow(); aStr = m_pDoc->GetString(aPos); CPPUNIT_ASSERT_EQUAL(OUString("a"),aStr); aPos.IncRow(); aStr = m_pDoc->GetString(aPos); CPPUNIT_ASSERT_EQUAL(OUString("x"),aStr); aPos.IncRow(); aStr = m_pDoc->GetString(aPos); CPPUNIT_ASSERT_EQUAL(OUString(),aStr); aPos.IncRow(); aStr = m_pDoc->GetString(aPos); CPPUNIT_ASSERT_EQUAL(OUString("er"),aStr); m_pDoc->DeleteTab(0); } void Test::testMatConcatReplication() { // if one of the matrices is a one column or row matrix // the matrix is replicated across the larger matrix CPPUNIT_ASSERT(m_pDoc->InsertTab (0, "Test")); for (SCCOL nCol = 0; nCol < 10; ++nCol) { for (SCROW nRow = 0; nRow < 10; ++nRow) { m_pDoc->SetValue(ScAddress(nCol, nRow, 0), nCol*nRow); } } ScMarkData aMark(MAXROW, MAXCOL); aMark.SelectOneTable(0); m_pDoc->InsertMatrixFormula(0, 12, 9, 21, aMark, "=A1:J10&A1:J1"); for (SCCOL nCol = 0; nCol < 10; ++nCol) { for (SCROW nRow = 12; nRow < 22; ++nRow) { OUString aStr = m_pDoc->GetString(ScAddress(nCol, nRow, 0)); CPPUNIT_ASSERT_EQUAL(OUString(OUString::number(nCol * (nRow - 12)) + "0"), aStr); } } m_pDoc->DeleteTab(0); } void Test::testRefR1C1WholeCol() { CPPUNIT_ASSERT(m_pDoc->InsertTab (0, "Test")); ScAddress aPos(1, 1, 1); ScCompiler aComp(m_pDoc, aPos, FormulaGrammar::GRAM_ENGLISH_XL_R1C1); std::unique_ptr pTokens(aComp.CompileString("=C[10]")); sc::TokenStringContext aCxt(m_pDoc, formula::FormulaGrammar::GRAM_ENGLISH); OUString aFormula = pTokens->CreateString(m_pDoc, aCxt, aPos); CPPUNIT_ASSERT_EQUAL(OUString("L:L"), aFormula); m_pDoc->DeleteTab(0); } void Test::testRefR1C1WholeRow() { CPPUNIT_ASSERT(m_pDoc->InsertTab (0, "Test")); ScAddress aPos(1, 1, 1); ScCompiler aComp(m_pDoc, aPos, FormulaGrammar::GRAM_ENGLISH_XL_R1C1); std::unique_ptr pTokens(aComp.CompileString("=R[3]")); sc::TokenStringContext aCxt(m_pDoc, formula::FormulaGrammar::GRAM_ENGLISH); OUString aFormula = pTokens->CreateString(m_pDoc, aCxt, aPos); CPPUNIT_ASSERT_EQUAL(OUString("5:5"), aFormula); m_pDoc->DeleteTab(0); } void Test::testSingleCellCopyColumnLabel() { ScDocOptions aOptions = m_pDoc->GetDocOptions(); aOptions.SetLookUpColRowNames(true); m_pDoc->SetDocOptions(aOptions); m_pDoc->InsertTab(0, "Test"); m_pDoc->SetString(0, 0, 0, "a"); m_pDoc->SetValue(0, 1, 0, 1.0); m_pDoc->SetValue(0, 2, 0, 2.0); m_pDoc->SetValue(0, 3, 0, 3.0); m_pDoc->SetString(1, 1, 0, "='a'"); double nVal = m_pDoc->GetValue(1, 1, 0); ASSERT_DOUBLES_EQUAL(1.0, nVal); ScDocument aClipDoc(SCDOCMODE_CLIP); copyToClip(m_pDoc, ScRange(1, 1, 0), &aClipDoc); pasteOneCellFromClip(m_pDoc, ScRange(1, 2, 0), &aClipDoc); nVal = m_pDoc->GetValue(1, 2, 0); ASSERT_DOUBLES_EQUAL(2.0, nVal); m_pDoc->DeleteTab(0); } // Significant whitespace operator intersection in Excel syntax, tdf#96426 void Test::testIntersectionOpExcel() { CPPUNIT_ASSERT(m_pDoc->InsertTab (0, "Test")); ScRangeName* pGlobalNames = m_pDoc->GetRangeName(); // Horizontal cell range covering C2. pGlobalNames->insert( new ScRangeData( m_pDoc, "horz", "$B$2:$D$2")); // Vertical cell range covering C2. pGlobalNames->insert( new ScRangeData( m_pDoc, "vert", "$C$1:$C$3")); // Data in C2. m_pDoc->SetValue(2,1,0, 1.0); m_pDoc->SetGrammar(FormulaGrammar::GRAM_ENGLISH_XL_A1); // Choose formula positions that don't intersect with those data ranges. ScAddress aPos(0,3,0); m_pDoc->SetString(aPos,"=B2:D2 C1:C3"); CPPUNIT_ASSERT_EQUAL_MESSAGE("A4 intersecting references failed", 1.0, m_pDoc->GetValue(aPos)); aPos.IncRow(); m_pDoc->SetString(aPos,"=horz vert"); CPPUNIT_ASSERT_EQUAL_MESSAGE("A5 intersecting named expressions failed", 1.0, m_pDoc->GetValue(aPos)); aPos.IncRow(); m_pDoc->SetString(aPos,"=(horz vert)*2"); CPPUNIT_ASSERT_EQUAL_MESSAGE("A6 calculating with intersecting named expressions failed", 2.0, m_pDoc->GetValue(aPos)); aPos.IncRow(); m_pDoc->SetString(aPos,"=2*(horz vert)"); CPPUNIT_ASSERT_EQUAL_MESSAGE("A7 calculating with intersecting named expressions failed", 2.0, m_pDoc->GetValue(aPos)); m_pDoc->SetGrammar(FormulaGrammar::GRAM_ENGLISH); m_pDoc->DeleteTab(0); } //Test Subtotal and Aggregate during hide rows #tdf93171 void Test::testFuncRowsHidden() { sc::AutoCalcSwitch aACSwitch(*m_pDoc, true); // turn auto calc on. m_pDoc->InsertTab(0, "Test"); m_pDoc->SetValue(0, 0, 0, 1); //A1 m_pDoc->SetValue(0, 1, 0, 2); //A2 m_pDoc->SetValue(0, 2, 0, 4); //A3 m_pDoc->SetValue(0, 3, 0, 8); //A4 m_pDoc->SetValue(0, 4, 0, 16); //A5 m_pDoc->SetValue(0, 5, 0, 32); //A6 ScAddress aPos(0,6,0); m_pDoc->SetString(aPos, "=SUBTOTAL(109; A1:A6)"); CPPUNIT_ASSERT_EQUAL_MESSAGE("Calculation of SUBTOTAL failed", 63.0, m_pDoc->GetValue(aPos)); //Hide row 1 m_pDoc->SetRowHidden(0, 0, 0, true); CPPUNIT_ASSERT_EQUAL_MESSAGE("Calculation of SUBTOTAL failed", 62.0, m_pDoc->GetValue(aPos)); m_pDoc->SetRowHidden(0, 0, 0, false); //Hide row 2 and 3 m_pDoc->SetRowHidden(1, 2, 0, true); CPPUNIT_ASSERT_EQUAL_MESSAGE("Calculation of SUBTOTAL failed", 57.0, m_pDoc->GetValue(aPos)); m_pDoc->SetRowHidden(1, 2, 0, false); CPPUNIT_ASSERT_EQUAL_MESSAGE("Calculation of SUBTOTAL failed", 63.0, m_pDoc->GetValue(aPos)); m_pDoc->SetString(aPos, "=AGGREGATE(9; 5; A1:A6)"); //9=SUM 5=Ignore only hidden rows CPPUNIT_ASSERT_EQUAL_MESSAGE("Calculation of AGGREGATE failed", 63.0, m_pDoc->GetValue(aPos)); //Hide row 1 m_pDoc->SetRowHidden(0, 0, 0, true); CPPUNIT_ASSERT_EQUAL_MESSAGE("Calculation of AGGREGATE failed", 62.0, m_pDoc->GetValue(aPos)); m_pDoc->SetRowHidden(0, 0, 0, false); //Hide rows 3 to 5 m_pDoc->SetRowHidden(2, 4, 0, true); CPPUNIT_ASSERT_EQUAL_MESSAGE("Calculation of AGGREGATE failed", 35.0, m_pDoc->GetValue(aPos)); m_pDoc->SetRowHidden(2, 4, 0, false); CPPUNIT_ASSERT_EQUAL_MESSAGE("Calculation of AGGREGATE failed", 63.0, m_pDoc->GetValue(aPos)); m_pDoc->SetString(aPos, "=SUM(A1:A6)"); m_pDoc->SetRowHidden(2, 4, 0, true); CPPUNIT_ASSERT_EQUAL_MESSAGE("Calculation of SUM failed", 63.0, m_pDoc->GetValue(aPos)); m_pDoc->DeleteTab(0); } // Test COUNTIFS, SUMIFS, AVERAGEIFS in array context. void Test::testFuncSUMIFS() { sc::AutoCalcSwitch aACSwitch(*m_pDoc, true); // turn auto calc on. m_pDoc->InsertTab(0, "Test"); // Data in A1:B7, query in A9:A11 std::vector> aData = { { "a", "1" }, { "b", "2" }, { "c", "4" }, { "d", "8" }, { "a", "16" }, { "b", "32" }, { "c", "64" }, { "" }, // {} doesn't work with some compilers { "a" }, { "b" }, { "c" }, }; insertRangeData(m_pDoc, ScAddress(0,0,0), aData); ScMarkData aMark(MAXROW, MAXCOL); aMark.SelectOneTable(0); // Matrix formula in C8:C10 with SUMIFS m_pDoc->InsertMatrixFormula(2, 7, 2, 9, aMark, "=SUMIFS(B1:B7;A1:A7;A9:A11)"); // Matrix formula in D8:D10 with COUNTIFS m_pDoc->InsertMatrixFormula(3, 7, 3, 9, aMark, "=COUNTIFS(A1:A7;A9:A11)"); // Matrix formula in E8:E10 with AVERAGEIFS m_pDoc->InsertMatrixFormula(4, 7, 4, 9, aMark, "=AVERAGEIFS(B1:B7;A1:A7;A9:A11)"); { // Result B1+B5, B2+B6, B3+B7 and counts and averages. std::vector> aCheck = { { "17", "2", "8.5" }, { "34", "2", "17" }, { "68", "2", "34" } }; bool bGood = checkOutput(m_pDoc, ScRange(2,7,0, 4,9,0), aCheck, "SUMIFS, COUNTIFS and AVERAGEIFS in array context"); CPPUNIT_ASSERT_MESSAGE("SUMIFS, COUNTIFS or AVERAGEIFS in array context failed", bGood); } // Matrix formula in G8:G10 with SUMIFS and reference list arrays. m_pDoc->InsertMatrixFormula(6, 7, 6, 9, aMark, "=SUMIFS(OFFSET(B1;ROW(1:3);0;2);OFFSET(B1;ROW(1:3);0;2);\">4\")"); // Matrix formula in H8:H10 with COUNTIFS and reference list arrays. m_pDoc->InsertMatrixFormula(7, 7, 7, 9, aMark, "=COUNTIFS(OFFSET(B1;ROW(1:3);0;2);\">4\")"); // Matrix formula in I8:I10 with AVERAGEIFS and reference list arrays. m_pDoc->InsertMatrixFormula(8, 7, 8, 9, aMark, "=AVERAGEIFS(OFFSET(B1;ROW(1:3);0;2);OFFSET(B1;ROW(1:3);0;2);\">4\")"); { // Result sums, counts and averages. std::vector> aCheck = { { "0", "0", "#DIV/0!" }, { "8", "1", "8" }, { "24", "2", "12" } }; bool bGood = checkOutput(m_pDoc, ScRange(6,7,0, 8,9,0), aCheck, "SUMIFS, COUNTIFS and AVERAGEIFS with reference list arrays"); CPPUNIT_ASSERT_MESSAGE("SUMIFS, COUNTIFS or AVERAGEIFS with reference list arrays failed", bGood); } // Matrix formula in K8:K10 with SUMIFS and reference list array condition // and "normal" data range. m_pDoc->InsertMatrixFormula(10, 7, 10, 9, aMark, "=SUMIFS(B1:B2;OFFSET(B1;ROW(1:3);0;2);\">4\")"); // Matrix formula in L8:L10 with AVERAGEIFS and reference list array // condition and "normal" data range. m_pDoc->InsertMatrixFormula(11, 7, 11, 9, aMark, "=AVERAGEIFS(B1:B2;OFFSET(B1;ROW(1:3);0;2);\">4\")"); { // Result sums and averages. std::vector> aCheck = { { "0", "#DIV/0!" }, { "2", "2" }, { "3", "1.5" } }; bool bGood = checkOutput(m_pDoc, ScRange(10,7,0, 11,9,0), aCheck, "SUMIFS, COUNTIFS and AVERAGEIFS with reference list array and normal range"); CPPUNIT_ASSERT_MESSAGE("SUMIFS, COUNTIFS or AVERAGEIFS with reference list array and normal range failed", bGood); } // Matrix formula in G18:G20 with SUMIFS and reference list arrays and a // "normal" criteria range. m_pDoc->InsertMatrixFormula(6, 17, 6, 19, aMark, "=SUMIFS(OFFSET(B1;ROW(1:3);0;2);OFFSET(B1;ROW(1:3);0;2);\">4\";B1:B2;\">1\")"); // Matrix formula in H18:H20 with COUNTIFS and reference list arrays and a // "normal" criteria range. m_pDoc->InsertMatrixFormula(7, 17, 7, 19, aMark, "=COUNTIFS(OFFSET(B1;ROW(1:3);0;2);\">4\";B1:B2;\">1\")"); // Matrix formula in I18:I20 with AVERAGEIFS and reference list arrays and // a "normal" criteria range. m_pDoc->InsertMatrixFormula(8, 17, 8, 19, aMark, "=AVERAGEIFS(OFFSET(B1;ROW(1:3);0;2);OFFSET(B1;ROW(1:3);0;2);\">4\";B1:B2;\">1\")"); { // Result sums, counts and averages. std::vector> aCheck = { { "0", "0", "#DIV/0!" }, { "8", "1", "8" }, { "16", "1", "16" } }; bool bGood = checkOutput(m_pDoc, ScRange(6,17,0, 8,19,0), aCheck, "SUMIFS, COUNTIFS and AVERAGEIFS with reference list arrays and a normal criteria range"); CPPUNIT_ASSERT_MESSAGE("SUMIFS, COUNTIFS or AVERAGEIFS with reference list arrays and a normal criteria range failed", bGood); } // Matrix formula in K18:K20 with SUMIFS and reference list array condition // and "normal" data range and a "normal" criteria range. m_pDoc->InsertMatrixFormula(10, 17, 10, 19, aMark, "=SUMIFS(B1:B2;OFFSET(B1;ROW(1:3);0;2);\">4\";B1:B2;\">1\")"); // Matrix formula in L18:L20 with AVERAGEIFS and reference list array // condition and "normal" data range and a "normal" criteria range. m_pDoc->InsertMatrixFormula(11, 17, 11, 19, aMark, "=AVERAGEIFS(B1:B2;OFFSET(B1;ROW(1:3);0;2);\">4\";B1:B2;\">1\")"); { // Result sums and averages. std::vector> aCheck = { { "0", "#DIV/0!" }, { "2", "2" }, { "2", "2" } }; bool bGood = checkOutput(m_pDoc, ScRange(10,17,0, 11,19,0), aCheck, "SUMIFS, COUNTIFS and AVERAGEIFS with reference list array and normal data and criteria range"); CPPUNIT_ASSERT_MESSAGE("SUMIFS, COUNTIFS or AVERAGEIFS with reference list array and normal data and criteria range failed", bGood); } // Same, but swapped normal and array criteria. // Matrix formula in G28:G30 with SUMIFS and reference list arrays and a // "normal" criteria range, swapped. m_pDoc->InsertMatrixFormula(6, 27, 6, 29, aMark, "=SUMIFS(OFFSET(B1;ROW(1:3);0;2);B1:B2;\">1\";OFFSET(B1;ROW(1:3);0;2);\">4\")"); // Matrix formula in H28:H30 with COUNTIFS and reference list arrays and a // "normal" criteria range, swapped. m_pDoc->InsertMatrixFormula(7, 27, 7, 29, aMark, "=COUNTIFS(B1:B2;\">1\";OFFSET(B1;ROW(1:3);0;2);\">4\")"); // Matrix formula in I28:I30 with AVERAGEIFS and reference list arrays and // a "normal" criteria range, swapped. m_pDoc->InsertMatrixFormula(8, 27, 8, 29, aMark, "=AVERAGEIFS(OFFSET(B1;ROW(1:3);0;2);B1:B2;\">1\";OFFSET(B1;ROW(1:3);0;2);\">4\")"); { // Result sums, counts and averages. std::vector> aCheck = { { "0", "0", "#DIV/0!" }, { "8", "1", "8" }, { "16", "1", "16" } }; bool bGood = checkOutput(m_pDoc, ScRange(6,27,0, 8,29,0), aCheck, "SUMIFS, COUNTIFS and AVERAGEIFS with reference list arrays and a normal criteria range, swapped"); CPPUNIT_ASSERT_MESSAGE("SUMIFS, COUNTIFS or AVERAGEIFS with reference list arrays and a normal criteria range failed, swapped", bGood); } // Matrix formula in K28:K30 with SUMIFS and reference list array condition // and "normal" data range and a "normal" criteria range, swapped. m_pDoc->InsertMatrixFormula(10, 27, 10, 29, aMark, "=SUMIFS(B1:B2;B1:B2;\">1\";OFFSET(B1;ROW(1:3);0;2);\">4\")"); // Matrix formula in L28:L30 with AVERAGEIFS and reference list array // condition and "normal" data range and a "normal" criteria range, // swapped. m_pDoc->InsertMatrixFormula(11, 27, 11, 29, aMark, "=AVERAGEIFS(B1:B2;B1:B2;\">1\";OFFSET(B1;ROW(1:3);0;2);\">4\")"); { // Result sums and averages. std::vector> aCheck = { { "0", "#DIV/0!" }, { "2", "2" }, { "2", "2" } }; bool bGood = checkOutput(m_pDoc, ScRange(10,27,0, 11,29,0), aCheck, "SUMIFS, COUNTIFS and AVERAGEIFS with reference list array and normal data and criteria range, swapped"); CPPUNIT_ASSERT_MESSAGE("SUMIFS, COUNTIFS or AVERAGEIFS with reference list array and normal data and criteria range failed, swapped", bGood); } m_pDoc->DeleteTab(0); } // Test SUBTOTAL with reference lists in array context. void Test::testFuncRefListArraySUBTOTAL() { sc::AutoCalcSwitch aACSwitch(*m_pDoc, true); // turn auto calc on. m_pDoc->InsertTab(0, "Test"); m_pDoc->SetValue(0,0,0, 1.0); // A1 m_pDoc->SetValue(0,1,0, 2.0); // A2 m_pDoc->SetValue(0,2,0, 4.0); // A3 m_pDoc->SetValue(0,3,0, 8.0); // A4 m_pDoc->SetValue(0,4,0, 16.0); // A5 m_pDoc->SetValue(0,5,0, 32.0); // A6 // Matrix in B7:B9, individual SUM of A2:A3, A3:A4 and A4:A5 ScMarkData aMark(MAXROW, MAXCOL); aMark.SelectOneTable(0); m_pDoc->InsertMatrixFormula(1, 6, 1, 8, aMark, "=SUBTOTAL(9;OFFSET(A1;ROW(1:3);0;2))"); ScAddress aPos(1,6,0); CPPUNIT_ASSERT_EQUAL_MESSAGE("SUBTOTAL SUM for A2:A3 failed", 6.0, m_pDoc->GetValue(aPos)); aPos.IncRow(); CPPUNIT_ASSERT_EQUAL_MESSAGE("SUBTOTAL SUM for A3:A4 failed", 12.0, m_pDoc->GetValue(aPos)); aPos.IncRow(); CPPUNIT_ASSERT_EQUAL_MESSAGE("SUBTOTAL SUM for A4:A5 failed", 24.0, m_pDoc->GetValue(aPos)); // Matrix in C7:C9, individual AVERAGE of A2:A3, A3:A4 and A4:A5 m_pDoc->InsertMatrixFormula(2, 6, 2, 8, aMark, "=SUBTOTAL(1;OFFSET(A1;ROW(1:3);0;2))"); aPos.Set(2,6,0); CPPUNIT_ASSERT_EQUAL_MESSAGE("SUBTOTAL AVERAGE for A2:A3 failed", 3.0, m_pDoc->GetValue(aPos)); aPos.IncRow(); CPPUNIT_ASSERT_EQUAL_MESSAGE("SUBTOTAL AVERAGE for A3:A4 failed", 6.0, m_pDoc->GetValue(aPos)); aPos.IncRow(); CPPUNIT_ASSERT_EQUAL_MESSAGE("SUBTOTAL AVERAGE for A4:A5 failed", 12.0, m_pDoc->GetValue(aPos)); // Matrix in D7:D9, individual MIN of A2:A3, A3:A4 and A4:A5 m_pDoc->InsertMatrixFormula(3, 6, 3, 8, aMark, "=SUBTOTAL(5;OFFSET(A1;ROW(1:3);0;2))"); aPos.Set(3,6,0); CPPUNIT_ASSERT_EQUAL_MESSAGE("SUBTOTAL MIN for A2:A3 failed", 2.0, m_pDoc->GetValue(aPos)); aPos.IncRow(); CPPUNIT_ASSERT_EQUAL_MESSAGE("SUBTOTAL MIN for A3:A4 failed", 4.0, m_pDoc->GetValue(aPos)); aPos.IncRow(); CPPUNIT_ASSERT_EQUAL_MESSAGE("SUBTOTAL MIN for A4:A5 failed", 8.0, m_pDoc->GetValue(aPos)); // Matrix in E7:E9, individual MAX of A2:A3, A3:A4 and A4:A5 m_pDoc->InsertMatrixFormula(4, 6, 4, 8, aMark, "=SUBTOTAL(4;OFFSET(A1;ROW(1:3);0;2))"); aPos.Set(4,6,0); CPPUNIT_ASSERT_EQUAL_MESSAGE("SUBTOTAL MAX for A2:A3 failed", 4.0, m_pDoc->GetValue(aPos)); aPos.IncRow(); CPPUNIT_ASSERT_EQUAL_MESSAGE("SUBTOTAL MAX for A3:A4 failed", 8.0, m_pDoc->GetValue(aPos)); aPos.IncRow(); CPPUNIT_ASSERT_EQUAL_MESSAGE("SUBTOTAL MAX for A4:A5 failed", 16.0, m_pDoc->GetValue(aPos)); // Matrix in F7:F9, individual STDEV of A2:A3, A3:A4 and A4:A5 m_pDoc->InsertMatrixFormula(5, 6, 5, 8, aMark, "=SUBTOTAL(7;OFFSET(A1;ROW(1:3);0;2))"); aPos.Set(5,6,0); CPPUNIT_ASSERT_DOUBLES_EQUAL_MESSAGE("SUBTOTAL STDEV for A2:A3 failed", 1.414214, m_pDoc->GetValue(aPos), 1e-6); aPos.IncRow(); CPPUNIT_ASSERT_DOUBLES_EQUAL_MESSAGE("SUBTOTAL STDEV for A3:A4 failed", 2.828427, m_pDoc->GetValue(aPos), 1e-6); aPos.IncRow(); CPPUNIT_ASSERT_DOUBLES_EQUAL_MESSAGE("SUBTOTAL STDEV for A4:A5 failed", 5.656854, m_pDoc->GetValue(aPos), 1e-6); // Matrix in G7:G9, individual AVERAGE of A2:A3, A3:A4 and A4:A5 // Plus two "ordinary" ranges, one before and one after. m_pDoc->InsertMatrixFormula(6, 6, 6, 8, aMark, "=SUBTOTAL(1;A1:A2;OFFSET(A1;ROW(1:3);0;2);A5:A6)"); aPos.Set(6,6,0); CPPUNIT_ASSERT_EQUAL_MESSAGE("SUBTOTAL AVERAGE for A1:A2,A2:A3,A5:A6 failed", 9.5, m_pDoc->GetValue(aPos)); aPos.IncRow(); CPPUNIT_ASSERT_EQUAL_MESSAGE("SUBTOTAL AVERAGE for A1:A2,A3:A4,A5:A6 failed", 10.5, m_pDoc->GetValue(aPos)); aPos.IncRow(); CPPUNIT_ASSERT_EQUAL_MESSAGE("SUBTOTAL AVERAGE for A1:A2,A4:A5,A5:A6 failed", 12.5, m_pDoc->GetValue(aPos)); // Matrix in H7:H9, individual MAX of A2:A3, A3:A4 and A4:A5 // Plus two "ordinary" ranges, one before and one after. m_pDoc->InsertMatrixFormula(7, 6, 7, 8, aMark, "=SUBTOTAL(4;A1:A2;OFFSET(A1;ROW(1:3);0;2);A5:A6)"); aPos.Set(7,6,0); CPPUNIT_ASSERT_EQUAL_MESSAGE("SUBTOTAL MAX for A1:A2,A2:A3,A5:A6 failed", 32.0, m_pDoc->GetValue(aPos)); aPos.IncRow(); CPPUNIT_ASSERT_EQUAL_MESSAGE("SUBTOTAL MAX for A1:A2,A3:A4,A5:A6 failed", 32.0, m_pDoc->GetValue(aPos)); aPos.IncRow(); CPPUNIT_ASSERT_EQUAL_MESSAGE("SUBTOTAL MAX for A1:A2,A4:A5,A5:A6 failed", 32.0, m_pDoc->GetValue(aPos)); // Matrix in I7:I9, individual STDEV of A2:A3, A3:A4 and A4:A5 // Plus two "ordinary" ranges, one before and one after. m_pDoc->InsertMatrixFormula(8, 6, 8, 8, aMark, "=SUBTOTAL(7;A1:A2;OFFSET(A1;ROW(1:3);0;2);A5:A6)"); aPos.Set(8,6,0); CPPUNIT_ASSERT_DOUBLES_EQUAL_MESSAGE("SUBTOTAL STDEV for A1:A2,A2:A3,A5:A6 failed", 12.35718, m_pDoc->GetValue(aPos), 1e-5); aPos.IncRow(); CPPUNIT_ASSERT_DOUBLES_EQUAL_MESSAGE("SUBTOTAL STDEV for A1:A2,A3:A4,A5:A6 failed", 11.86170, m_pDoc->GetValue(aPos), 1e-5); aPos.IncRow(); CPPUNIT_ASSERT_DOUBLES_EQUAL_MESSAGE("SUBTOTAL STDEV for A1:A2,A4:A5,A5:A6 failed", 11.55422, m_pDoc->GetValue(aPos), 1e-5); // Empty two cells such that they affect two ranges. m_pDoc->SetString(0,1,0, ""); // A2 m_pDoc->SetString(0,2,0, ""); // A3 // Matrix in J7:J9, individual COUNTBLANK of A2:A3, A3:A4 and A4:A5 m_pDoc->InsertMatrixFormula(9, 6, 9, 8, aMark, "=COUNTBLANK(OFFSET(A1;ROW(1:3);0;2))"); aPos.Set(9,6,0); CPPUNIT_ASSERT_EQUAL_MESSAGE("COUNTBLANK for A1:A2,A2:A3,A5:A6 failed", 2.0, m_pDoc->GetValue(aPos)); aPos.IncRow(); CPPUNIT_ASSERT_EQUAL_MESSAGE("COUNTBLANK for A1:A2,A3:A4,A5:A6 failed", 1.0, m_pDoc->GetValue(aPos)); aPos.IncRow(); CPPUNIT_ASSERT_EQUAL_MESSAGE("COUNTBLANK for A1:A2,A4:A5,A5:A6 failed", 0.0, m_pDoc->GetValue(aPos)); // Restore these two cell values so we'd catch failures below. m_pDoc->SetValue(0,1,0, 2.0); // A2 m_pDoc->SetValue(0,2,0, 4.0); // A3 // Hide rows 2 to 4. m_pDoc->SetRowHidden(1,3,0, true); // Matrix in K7, array of references as OFFSET result. m_pDoc->InsertMatrixFormula(10, 6, 10, 6, aMark, "=SUM(SUBTOTAL(109;OFFSET(A1;ROW(A1:A7)-ROW(A1);;1)))"); aPos.Set(10,6,0); CPPUNIT_ASSERT_EQUAL_MESSAGE("SUM SUBTOTAL failed", 49.0, m_pDoc->GetValue(aPos)); aPos.IncRow(); // ForceArray in K8, array of references as OFFSET result. m_pDoc->SetString( aPos, "=SUMPRODUCT(SUBTOTAL(109;OFFSET(A1;ROW(A1:A7)-ROW(A1);;1)))"); CPPUNIT_ASSERT_EQUAL_MESSAGE("SUMPRODUCT SUBTOTAL failed", 49.0, m_pDoc->GetValue(aPos)); m_pDoc->DeleteTab(0); } // tdf#115493 jump commands return the matrix result instead of the reference // list array. void Test::testFuncJumpMatrixArrayIF() { sc::AutoCalcSwitch aACSwitch(*m_pDoc, true); // turn auto calc on. m_pDoc->InsertTab(0, "Test"); m_pDoc->SetString(0,0,0, "a"); // A1 std::vector> aData = { { "a", "1" }, { "b", "2" }, { "a", "4" } }; // A7:B9 insertRangeData(m_pDoc, ScAddress(0,6,0), aData); ScMarkData aMark(MAXROW, MAXCOL); aMark.SelectOneTable(0); // Matrix in C10, summing B7,B9 m_pDoc->InsertMatrixFormula( 2,9, 2,9, aMark, "=SUM(IF(EXACT(A7:A9;A$1);B7:B9;0))"); CPPUNIT_ASSERT_EQUAL_MESSAGE("Formula C10 failed", 5.0, m_pDoc->GetValue(ScAddress(2,9,0))); // Matrix in C11, summing B7,B9 m_pDoc->InsertMatrixFormula( 2,10, 2,10, aMark, "=SUM(IF(EXACT(OFFSET(A7;0;0):OFFSET(A7;2;0);A$1);OFFSET(A7;0;1):OFFSET(A7;2;1);0))"); CPPUNIT_ASSERT_EQUAL_MESSAGE("Formula C11 failed", 5.0, m_pDoc->GetValue(ScAddress(2,10,0))); m_pDoc->DeleteTab(0); } // tdf#123477 OFFSET() returns the matrix result instead of the reference list // array if result is not used as ReferenceOrRefArray. void Test::testFuncJumpMatrixArrayOFFSET() { sc::AutoCalcSwitch aACSwitch(*m_pDoc, true); // turn auto calc on. m_pDoc->InsertTab(0, "Test"); std::vector> aData = { { "abc" }, { "bcd" }, { "cde" } }; insertRangeData(m_pDoc, ScAddress(0,0,0), aData); // A1:A3 ScMarkData aMark(MAXROW, MAXCOL); aMark.SelectOneTable(0); // Matrix in C5:C7, COLUMN()-3 here offsets by 0 but the entire expression // is in array/matrix context. m_pDoc->InsertMatrixFormula( 2,4, 2,6, aMark, "=FIND(\"c\";OFFSET(A1:A3;0;COLUMN()-3))"); CPPUNIT_ASSERT_EQUAL_MESSAGE("Formula C5 failed", 3.0, m_pDoc->GetValue(ScAddress(2,4,0))); CPPUNIT_ASSERT_EQUAL_MESSAGE("Formula C6 failed", 2.0, m_pDoc->GetValue(ScAddress(2,5,0))); CPPUNIT_ASSERT_EQUAL_MESSAGE("Formula C7 failed", 1.0, m_pDoc->GetValue(ScAddress(2,6,0))); m_pDoc->DeleteTab(0); } // Test iterations with circular chain of references. void Test::testIterations() { ScDocOptions aDocOpts = m_pDoc->GetDocOptions(); aDocOpts.SetIter( true ); m_pDoc->SetDocOptions( aDocOpts ); m_pDoc->InsertTab(0, "Test"); m_pDoc->SetValue( 0, 0, 0, 0.01 ); // A1 m_pDoc->SetString( 0, 1, 0, "=A1" ); // A2 m_pDoc->SetString( 0, 2, 0, "=COS(A2)" ); // A3 m_pDoc->CalcAll(); // Establish reference cycle for the computation of the fixed point of COS() function m_pDoc->SetString( 0, 0, 0, "=A3" ); // A1 m_pDoc->CalcAll(); CPPUNIT_ASSERT_EQUAL_MESSAGE( "Cell A3 should not have any formula error", FormulaError::NONE, m_pDoc->GetErrCode( ScAddress( 0, 2, 0) ) ); CPPUNIT_ASSERT_DOUBLES_EQUAL_MESSAGE( "Iterations to calculate fixed point of cos() failed", 0.7387, m_pDoc->GetValue(0, 2, 0), 1e-4 ); // Modify the formula m_pDoc->SetString( 0, 2, 0, "=COS(A2)+0.001" ); // A3 m_pDoc->CalcAll(); CPPUNIT_ASSERT_EQUAL_MESSAGE( "Cell A3 should not have any formula error after perturbation", FormulaError::NONE, m_pDoc->GetErrCode( ScAddress( 0, 2, 0) ) ); CPPUNIT_ASSERT_DOUBLES_EQUAL_MESSAGE( "Iterations to calculate perturbed fixed point of cos() failed", 0.7399, m_pDoc->GetValue(0, 2, 0), 1e-4 ); m_pDoc->DeleteTab(0); aDocOpts.SetIter( false ); m_pDoc->SetDocOptions( aDocOpts ); } // tdf#111428 CellStoreEvent and its counter used for quick "has a column // formula cells" must point to the correct column. void Test::testInsertColCellStoreEventSwap() { sc::AutoCalcSwitch aACSwitch(*m_pDoc, true); // turn auto calc on. m_pDoc->InsertTab(0, "Test"); m_pDoc->SetValue( 0,0,0, 1.0 ); // A1 m_pDoc->SetString( 1,0,0, "=A1" ); // B1 // Insert column left of B m_pDoc->InsertCol( ScRange(1,0,0, 1,m_pDoc->MaxRow(),0)); ScAddress aPos(2,0,0); // C1, new formula position CPPUNIT_ASSERT_EQUAL_MESSAGE( "Should be formula cell having value", 1.0, m_pDoc->GetValue(aPos)); // After having swapped in an empty column, editing or adding a formula // cell has to use the correct store context. To test this, // ScDocument::SetString() can't be used as it doesn't expose the behavior // in question, use ScDocFunc::SetFormulaCell() instead which actually is // also called when editing a cell and creating a formula cell. ScFormulaCell* pCell = new ScFormulaCell( m_pDoc, aPos, "=A1+1"); ScDocFunc& rDocFunc = getDocShell().GetDocFunc(); rDocFunc.SetFormulaCell( aPos, pCell, false); // C1, change formula CPPUNIT_ASSERT_EQUAL_MESSAGE( "Initial calculation failed", 2.0, m_pDoc->GetValue(aPos)); m_pDoc->SetValue( 0,0,0, 2.0 ); // A1, change value CPPUNIT_ASSERT_EQUAL_MESSAGE( "Recalculation failed", 3.0, m_pDoc->GetValue(aPos)); m_pDoc->DeleteTab(0); } /* vim:set shiftwidth=4 softtabstop=4 expandtab: */