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office-gobmx/sc/qa/unit/ucalc_sort.cxx
Stephan Bergmann 6573ade5cf Use some range-based for loops 
Change-Id: I26ad6ff194742b69cb6048c48fa01de7715865ea
Reviewed-on: https://gerrit.libreoffice.org/c/core/+/135191
Tested-by: Jenkins
Reviewed-by: Stephan Bergmann <sbergman@redhat.com>
2022-05-31 18:51:58 +02:00

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/* -*- 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 "helper/sorthelper.hxx"
#include "helper/debughelper.hxx"
#include "helper/qahelper.hxx"
#include <scdll.hxx>
#include <postit.hxx>
#include <sortparam.hxx>
#include <dbdata.hxx>
#include <formulacell.hxx>
#include <scopetools.hxx>
#include <globalnames.hxx>
#include <dbdocfun.hxx>
#include <docfunc.hxx>
#include <scitems.hxx>
#include <editutil.hxx>
#include <drwlayer.hxx>
#include <queryiter.hxx>
#include <editeng/wghtitem.hxx>
#include <editeng/postitem.hxx>
#include <svx/svdocirc.hxx>
#include <svx/svdpage.hxx>
#include <rtl/math.hxx>
class TestSort : public test::BootstrapFixture
{
public:
TestSort();
virtual void setUp() override;
virtual void tearDown() override;
void testSort();
void testSortHorizontal();
void testSortHorizontalWholeColumn();
void testSortSingleRow();
void testSortWithFormulaRefs();
void testSortWithStrings();
void testSortInFormulaGroup();
void testSortWithCellFormats();
void testSortRefUpdate();
void testSortRefUpdate2();
void testSortRefUpdate3();
void testSortRefUpdate4();
void testSortRefUpdate4_Impl();
void testSortRefUpdate5();
void testSortRefUpdate6();
void testSortBroadcaster();
void testSortBroadcastBroadcaster();
void testSortOutOfPlaceResult();
void testSortPartialFormulaGroup();
void testSortImages();
void testQueryBinarySearch();
CPPUNIT_TEST_SUITE(TestSort);
CPPUNIT_TEST(testSort);
CPPUNIT_TEST(testSortHorizontal);
CPPUNIT_TEST(testSortHorizontalWholeColumn);
CPPUNIT_TEST(testSortSingleRow);
CPPUNIT_TEST(testSortWithFormulaRefs);
CPPUNIT_TEST(testSortWithStrings);
CPPUNIT_TEST(testSortInFormulaGroup);
CPPUNIT_TEST(testSortWithCellFormats);
CPPUNIT_TEST(testSortRefUpdate);
CPPUNIT_TEST(testSortRefUpdate2);
CPPUNIT_TEST(testSortRefUpdate3);
CPPUNIT_TEST(testSortRefUpdate4);
CPPUNIT_TEST(testSortRefUpdate5);
CPPUNIT_TEST(testSortRefUpdate6);
CPPUNIT_TEST(testSortBroadcaster);
CPPUNIT_TEST(testSortBroadcastBroadcaster);
CPPUNIT_TEST(testSortOutOfPlaceResult);
CPPUNIT_TEST(testSortPartialFormulaGroup);
CPPUNIT_TEST(testSortImages);
CPPUNIT_TEST(testQueryBinarySearch);
CPPUNIT_TEST_SUITE_END();
private:
ScDocShellRef m_xDocShell;
ScDocument* m_pDoc;
};
TestSort::TestSort()
{
}
void TestSort::setUp()
{
BootstrapFixture::setUp();
ScDLL::Init();
m_xDocShell = new ScDocShell(
SfxModelFlags::EMBEDDED_OBJECT |
SfxModelFlags::DISABLE_EMBEDDED_SCRIPTS |
SfxModelFlags::DISABLE_DOCUMENT_RECOVERY);
m_xDocShell->SetIsInUcalc();
m_xDocShell->DoInitUnitTest();
m_pDoc = &m_xDocShell->GetDocument();
}
void TestSort::tearDown()
{
m_xDocShell->DoClose();
m_xDocShell.clear();
test::BootstrapFixture::tearDown();
}
void TestSort::testSort()
{
m_pDoc->InsertTab(0, "test1");
// We need a drawing layer in order to create caption objects.
m_pDoc->InitDrawLayer(m_xDocShell.get());
ScAddress aPos(0,0,0);
{
const std::vector<std::vector<const char*>> aData = {
{ "2", "4" },
{ "4", "1" },
{ "1", "2" },
{ "1", "23" },
};
clearRange(m_pDoc, ScRange(0, 0, 0, 1, aData.size(), 0));
ScRange aDataRange = insertRangeData(m_pDoc, aPos, aData);
CPPUNIT_ASSERT_EQUAL_MESSAGE("failed to insert range data at correct position", aPos, aDataRange.aStart);
}
// Insert note in cell B2.
ScAddress rAddr(1, 1, 0);
ScPostIt* pNote = m_pDoc->GetOrCreateNote(rAddr);
pNote->SetText(rAddr, "Hello");
pNote->SetAuthor("Jim Bob");
ScSortParam aSortData;
aSortData.nCol1 = 1;
aSortData.nCol2 = 1;
aSortData.nRow1 = 0;
aSortData.nRow2 = 2;
aSortData.maKeyState[0].bDoSort = true;
aSortData.maKeyState[0].nField = 1;
aSortData.maKeyState[0].bAscending = true;
m_pDoc->Sort(0, aSortData, false, true, nullptr, nullptr);
double nVal = m_pDoc->GetValue(1,0,0);
ASSERT_DOUBLES_EQUAL(nVal, 1.0);
// check that note is also moved after sorting
pNote = m_pDoc->GetNote(1, 0, 0);
CPPUNIT_ASSERT(pNote);
ScRange aDataRange;
clearRange(m_pDoc, ScRange(0, 0, 0, 1, 9, 0)); // Clear A1:B10.
{
// 0 = empty cell
const std::vector<std::vector<const char*>> aData = {
{ "Title" },
{ nullptr },
{ nullptr },
{ "12" },
{ "b" },
{ "1" },
{ "9" },
{ "123" }
};
aDataRange = insertRangeData(m_pDoc, aPos, aData);
CPPUNIT_ASSERT_EQUAL_MESSAGE("failed to insert range data at correct position", aPos, aDataRange.aStart);
}
aSortData.nCol1 = aDataRange.aStart.Col();
aSortData.nCol2 = aDataRange.aEnd.Col();
aSortData.nRow1 = aDataRange.aStart.Row();
aSortData.nRow2 = aDataRange.aEnd.Row();
aSortData.bHasHeader = true;
aSortData.maKeyState[0].nField = 0;
m_pDoc->Sort(0, aSortData, false, true, nullptr, nullptr);
// Title should stay at the top, numbers should be sorted numerically,
// numbers always come before strings, and empty cells always occur at the
// end.
CPPUNIT_ASSERT_EQUAL(OUString("Title"), m_pDoc->GetString(aPos));
aPos.IncRow();
CPPUNIT_ASSERT_EQUAL(OUString("1"), m_pDoc->GetString(aPos));
aPos.IncRow();
CPPUNIT_ASSERT_EQUAL(OUString("9"), m_pDoc->GetString(aPos));
aPos.IncRow();
CPPUNIT_ASSERT_EQUAL(OUString("12"), m_pDoc->GetString(aPos));
aPos.IncRow();
CPPUNIT_ASSERT_EQUAL(OUString("123"), m_pDoc->GetString(aPos));
aPos.IncRow();
CPPUNIT_ASSERT_EQUAL(OUString("b"), m_pDoc->GetString(aPos));
aPos.IncRow();
CPPUNIT_ASSERT_EQUAL(CELLTYPE_NONE, m_pDoc->GetCellType(aPos));
m_pDoc->DeleteTab(0);
}
void TestSort::testSortHorizontal()
{
SortRefUpdateSetter aUpdateSet;
sc::AutoCalcSwitch aACSwitch(*m_pDoc, true);
m_pDoc->InsertTab(0, "Sort");
// Test case from fdo#78079.
// 0 = empty cell
const std::vector<std::vector<const char*>> aData = {
{ "table", "has UNIQUE", "Publish to EC2", "flag" },
{ "w2gi.mobilehit", "Yes", "No", "=CONCATENATE(B2;\"-\";C2)" },
{ "w2gi.visitors", "No", "No", "=CONCATENATE(B3;\"-\";C3)" },
{ "w2gi.pagedimension", "Yes", "Yes", "=CONCATENATE(B4;\"-\";C4)" },
};
// Insert raw data into A1:D4.
ScRange aDataRange = insertRangeData(m_pDoc, ScAddress(0,0,0), aData);
CPPUNIT_ASSERT_EQUAL(OUString("A1:D4"), aDataRange.Format(*m_pDoc, ScRefFlags::VALID));
// Check the formula values.
CPPUNIT_ASSERT_EQUAL(OUString("Yes-No"), m_pDoc->GetString(ScAddress(3,1,0)));
CPPUNIT_ASSERT_EQUAL(OUString("No-No"), m_pDoc->GetString(ScAddress(3,2,0)));
CPPUNIT_ASSERT_EQUAL(OUString("Yes-Yes"), m_pDoc->GetString(ScAddress(3,3,0)));
// Define A1:D4 as sheet-local anonymous database range.
m_pDoc->SetAnonymousDBData(
0, std::unique_ptr<ScDBData>(new ScDBData(STR_DB_LOCAL_NONAME, 0, 0, 0, 3, 3)));
// Sort A1:D4 horizontally, ascending by row 1.
ScDBDocFunc aFunc(*m_xDocShell);
ScSortParam aSortData;
aSortData.nCol1 = 0;
aSortData.nCol2 = 3;
aSortData.nRow1 = 0;
aSortData.nRow2 = 3;
aSortData.bHasHeader = true;
aSortData.bByRow = false; // Sort by column (in horizontal direction).
aSortData.aDataAreaExtras.mbCellFormats = true;
aSortData.maKeyState[0].bDoSort = true;
aSortData.maKeyState[0].nField = 0;
aSortData.maKeyState[0].bAscending = true;
bool bSorted = aFunc.Sort(0, aSortData, true, true, true);
CPPUNIT_ASSERT(bSorted);
{
// Expected output table content. 0 = empty cell
std::vector<std::vector<const char*>> aOutputCheck = {
{ "table", "flag", "has UNIQUE", "Publish to EC2" },
{ "w2gi.mobilehit", "Yes-No", "Yes", "No" },
{ "w2gi.visitors", "No-No", "No", "No" },
{ "w2gi.pagedimension", "Yes-Yes", "Yes", "Yes" },
};
bool bSuccess = checkOutput(m_pDoc, aDataRange, aOutputCheck, "Sorted by column with formula");
CPPUNIT_ASSERT_MESSAGE("Table output check failed", bSuccess);
}
ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(1,1,0), "CONCATENATE(C2;\"-\";D2)", "Wrong formula!");
ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(1,2,0), "CONCATENATE(C3;\"-\";D3)", "Wrong formula!");
ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(1,3,0), "CONCATENATE(C4;\"-\";D4)", "Wrong formula!");
m_pDoc->DeleteTab(0);
}
void TestSort::testSortHorizontalWholeColumn()
{
sc::AutoCalcSwitch aACSwitch(*m_pDoc, true);
m_pDoc->InsertTab(0, "Sort");
// 0 = empty cell
const std::vector<std::vector<const char*>> aData = {
{ "4", "2", "47", "a", "9" }
};
// Insert row data to C1:G1.
ScRange aSortRange = insertRangeData(m_pDoc, ScAddress(2,0,0), aData);
CPPUNIT_ASSERT_EQUAL(4.0, m_pDoc->GetValue(ScAddress(2,0,0)));
CPPUNIT_ASSERT_EQUAL(2.0, m_pDoc->GetValue(ScAddress(3,0,0)));
CPPUNIT_ASSERT_EQUAL(47.0, m_pDoc->GetValue(ScAddress(4,0,0)));
CPPUNIT_ASSERT_EQUAL(OUString("a"), m_pDoc->GetString(ScAddress(5,0,0)));
CPPUNIT_ASSERT_EQUAL(9.0, m_pDoc->GetValue(ScAddress(6,0,0)));
// Extend the sort range to whole column.
aSortRange.aEnd.SetRow(m_pDoc->MaxRow());
SCCOL nCol1 = aSortRange.aStart.Col();
SCCOL nCol2 = aSortRange.aEnd.Col();
SCROW nRow1 = aSortRange.aStart.Row();
SCROW nRow2 = aSortRange.aEnd.Row();
// Define C:G as sheet-local anonymous database range.
m_pDoc->SetAnonymousDBData(
0, std::unique_ptr<ScDBData>(new ScDBData(STR_DB_LOCAL_NONAME, 0, nCol1, nRow1, nCol2, nRow2, false, false)));
// Sort C:G horizontally ascending by row 1.
ScDBDocFunc aFunc(*m_xDocShell);
ScSortParam aSortData;
aSortData.nCol1 = nCol1;
aSortData.nCol2 = nCol2;
aSortData.nRow1 = nRow1;
aSortData.nRow2 = nRow2;
aSortData.bHasHeader = false;
aSortData.bByRow = false; // Sort by column (in horizontal direction).
aSortData.aDataAreaExtras.mbCellFormats = true;
aSortData.maKeyState[0].bDoSort = true;
aSortData.maKeyState[0].nField = 0;
aSortData.maKeyState[0].bAscending = true;
bool bSorted = aFunc.Sort(0, aSortData, true, true, true);
CPPUNIT_ASSERT(bSorted);
// Check the sort result.
CPPUNIT_ASSERT_EQUAL(2.0, m_pDoc->GetValue(ScAddress(2,0,0)));
CPPUNIT_ASSERT_EQUAL(4.0, m_pDoc->GetValue(ScAddress(3,0,0)));
CPPUNIT_ASSERT_EQUAL(9.0, m_pDoc->GetValue(ScAddress(4,0,0)));
CPPUNIT_ASSERT_EQUAL(47.0, m_pDoc->GetValue(ScAddress(5,0,0)));
CPPUNIT_ASSERT_EQUAL(OUString("a"), m_pDoc->GetString(ScAddress(6,0,0)));
// Undo and check.
SfxUndoManager* pUndoMgr = m_pDoc->GetUndoManager();
CPPUNIT_ASSERT(pUndoMgr);
pUndoMgr->Undo();
CPPUNIT_ASSERT_EQUAL(4.0, m_pDoc->GetValue(ScAddress(2,0,0)));
CPPUNIT_ASSERT_EQUAL(2.0, m_pDoc->GetValue(ScAddress(3,0,0)));
CPPUNIT_ASSERT_EQUAL(47.0, m_pDoc->GetValue(ScAddress(4,0,0)));
CPPUNIT_ASSERT_EQUAL(OUString("a"), m_pDoc->GetString(ScAddress(5,0,0)));
CPPUNIT_ASSERT_EQUAL(9.0, m_pDoc->GetValue(ScAddress(6,0,0)));
// Redo and check.
pUndoMgr->Redo();
CPPUNIT_ASSERT_EQUAL(2.0, m_pDoc->GetValue(ScAddress(2,0,0)));
CPPUNIT_ASSERT_EQUAL(4.0, m_pDoc->GetValue(ScAddress(3,0,0)));
CPPUNIT_ASSERT_EQUAL(9.0, m_pDoc->GetValue(ScAddress(4,0,0)));
CPPUNIT_ASSERT_EQUAL(47.0, m_pDoc->GetValue(ScAddress(5,0,0)));
CPPUNIT_ASSERT_EQUAL(OUString("a"), m_pDoc->GetString(ScAddress(6,0,0)));
m_pDoc->DeleteTab(0);
}
void TestSort::testSortSingleRow()
{
// This test case is from fdo#80462.
m_pDoc->InsertTab(0, "Test");
// Sort range consists of only one row.
m_pDoc->SetString(ScAddress(0,0,0), "X");
m_pDoc->SetString(ScAddress(1,0,0), "Y");
// Define A1:B1 as sheet-local anonymous database range.
m_pDoc->SetAnonymousDBData(
0, std::unique_ptr<ScDBData>(new ScDBData(STR_DB_LOCAL_NONAME, 0, 0, 0, 1, 0)));
// Sort A1:B1 horizontally, ascending by row 1.
ScDBDocFunc aFunc(*m_xDocShell);
ScSortParam aSortData;
aSortData.nCol1 = 0;
aSortData.nCol2 = 1;
aSortData.nRow1 = 0;
aSortData.nRow2 = 0;
aSortData.bHasHeader = true;
aSortData.bByRow = true;
aSortData.aDataAreaExtras.mbCellFormats = true;
aSortData.maKeyState[0].bDoSort = true;
aSortData.maKeyState[0].nField = 0;
aSortData.maKeyState[0].bAscending = true;
// Do the sorting. This should not crash.
bool bSorted = aFunc.Sort(0, aSortData, true, true, true);
CPPUNIT_ASSERT(bSorted);
// Another test case - single row horizontal sort with header column.
clearSheet(m_pDoc, 0);
// A1:G1
m_pDoc->SetString(ScAddress(0,0,0), "Header");
m_pDoc->SetValue(ScAddress(1,0,0), 1.0);
m_pDoc->SetValue(ScAddress(2,0,0), 10.0);
m_pDoc->SetValue(ScAddress(3,0,0), 3.0);
m_pDoc->SetValue(ScAddress(4,0,0), 9.0);
m_pDoc->SetValue(ScAddress(5,0,0), 12.0);
m_pDoc->SetValue(ScAddress(6,0,0), 2.0);
// Define A1:G1 as sheet-local anonymous database range.
m_pDoc->SetAnonymousDBData(
0, std::unique_ptr<ScDBData>(new ScDBData(STR_DB_LOCAL_NONAME, 0, 0, 0, 6, 0, false, true)));
// Update the sort data.
aSortData.nCol1 = 0;
aSortData.nCol2 = 6;
aSortData.bByRow = false;
bSorted = aFunc.Sort(0, aSortData, true, true, true);
CPPUNIT_ASSERT(bSorted);
// Check the result.
CPPUNIT_ASSERT_EQUAL(OUString("Header"), m_pDoc->GetString(ScAddress(0,0,0)));
CPPUNIT_ASSERT_EQUAL( 1.0, m_pDoc->GetValue(ScAddress(1,0,0)));
CPPUNIT_ASSERT_EQUAL( 2.0, m_pDoc->GetValue(ScAddress(2,0,0)));
CPPUNIT_ASSERT_EQUAL( 3.0, m_pDoc->GetValue(ScAddress(3,0,0)));
CPPUNIT_ASSERT_EQUAL( 9.0, m_pDoc->GetValue(ScAddress(4,0,0)));
CPPUNIT_ASSERT_EQUAL(10.0, m_pDoc->GetValue(ScAddress(5,0,0)));
CPPUNIT_ASSERT_EQUAL(12.0, m_pDoc->GetValue(ScAddress(6,0,0)));
// Undo and check.
SfxUndoManager* pUndoMgr = m_pDoc->GetUndoManager();
CPPUNIT_ASSERT(pUndoMgr);
pUndoMgr->Undo();
CPPUNIT_ASSERT_EQUAL(OUString("Header"), m_pDoc->GetString(ScAddress(0,0,0)));
CPPUNIT_ASSERT_EQUAL( 1.0, m_pDoc->GetValue(ScAddress(1,0,0)));
CPPUNIT_ASSERT_EQUAL(10.0, m_pDoc->GetValue(ScAddress(2,0,0)));
CPPUNIT_ASSERT_EQUAL( 3.0, m_pDoc->GetValue(ScAddress(3,0,0)));
CPPUNIT_ASSERT_EQUAL( 9.0, m_pDoc->GetValue(ScAddress(4,0,0)));
CPPUNIT_ASSERT_EQUAL(12.0, m_pDoc->GetValue(ScAddress(5,0,0)));
CPPUNIT_ASSERT_EQUAL( 2.0, m_pDoc->GetValue(ScAddress(6,0,0)));
// Redo and check.
pUndoMgr->Redo();
CPPUNIT_ASSERT_EQUAL(OUString("Header"), m_pDoc->GetString(ScAddress(0,0,0)));
CPPUNIT_ASSERT_EQUAL( 1.0, m_pDoc->GetValue(ScAddress(1,0,0)));
CPPUNIT_ASSERT_EQUAL( 2.0, m_pDoc->GetValue(ScAddress(2,0,0)));
CPPUNIT_ASSERT_EQUAL( 3.0, m_pDoc->GetValue(ScAddress(3,0,0)));
CPPUNIT_ASSERT_EQUAL( 9.0, m_pDoc->GetValue(ScAddress(4,0,0)));
CPPUNIT_ASSERT_EQUAL(10.0, m_pDoc->GetValue(ScAddress(5,0,0)));
CPPUNIT_ASSERT_EQUAL(12.0, m_pDoc->GetValue(ScAddress(6,0,0)));
m_pDoc->DeleteTab(0);
}
// regression test of fdo#53814, sorting doesn't work as expected
// if cells in the sort are referenced by formulas
void TestSort::testSortWithFormulaRefs()
{
SortRefUpdateSetter aUpdateSet;
m_pDoc->InsertTab(0, "List1");
m_pDoc->InsertTab(1, "List2");
const char* aFormulaData[6] = {
"=IF($List1.A2<>\"\";$List1.A2;\"\")",
"=IF($List1.A3<>\"\";$List1.A3;\"\")",
"=IF($List1.A4<>\"\";$List1.A4;\"\")",
"=IF($List1.A5<>\"\";$List1.A5;\"\")",
"=IF($List1.A6<>\"\";$List1.A6;\"\")",
"=IF($List1.A7<>\"\";$List1.A7;\"\")",
};
const char* const aTextData[4] = {
"bob",
"tim",
"brian",
"larry",
};
const char* aResults[6] = {
"bob",
"brian",
"larry",
"tim",
"",
"",
};
// Insert data to sort in A2:A5 on the 1st sheet.
for (SCROW i = 1; i <= 4; ++i)
m_pDoc->SetString( 0, i, 0, OUString::createFromAscii(aTextData[i-1]) );
// Insert formulas in A1:A6 on the 2nd sheet.
for (size_t i = 0; i < SAL_N_ELEMENTS(aFormulaData); ++i)
m_pDoc->SetString( 0, i, 1, OUString::createFromAscii(aFormulaData[i]) );
// Sort data in A2:A8 on the 1st sheet. No column header.
ScSortParam aSortData;
aSortData.nCol1 = 0;
aSortData.nCol2 = 0;
aSortData.nRow1 = 1;
aSortData.nRow2 = 7;
aSortData.maKeyState[0].bDoSort = true;
aSortData.maKeyState[0].nField = 0;
m_pDoc->Sort(0, aSortData, false, true, nullptr, nullptr);
for (size_t i = 0; i < SAL_N_ELEMENTS(aResults); ++i)
{
OUString sResult = m_pDoc->GetString(0, i + 1, 0);
CPPUNIT_ASSERT_EQUAL( OUString::createFromAscii( aResults[i] ), sResult );
}
m_pDoc->DeleteTab(1);
m_pDoc->DeleteTab(0);
}
void TestSort::testSortWithStrings()
{
m_pDoc->InsertTab(0, "Test");
ScFieldEditEngine& rEE = m_pDoc->GetEditEngine();
rEE.SetTextCurrentDefaults("Val1");
m_pDoc->SetString(ScAddress(1,1,0), "Header");
m_pDoc->SetString(ScAddress(1,2,0), "Val2");
m_pDoc->SetEditText(ScAddress(1,3,0), rEE.CreateTextObject());
CPPUNIT_ASSERT_EQUAL(OUString("Header"), m_pDoc->GetString(ScAddress(1,1,0)));
CPPUNIT_ASSERT_EQUAL(OUString("Val2"), m_pDoc->GetString(ScAddress(1,2,0)));
CPPUNIT_ASSERT_EQUAL(OUString("Val1"), m_pDoc->GetString(ScAddress(1,3,0)));
ScSortParam aParam;
aParam.nCol1 = 1;
aParam.nCol2 = 1;
aParam.nRow1 = 1;
aParam.nRow2 = 3;
aParam.bHasHeader = true;
aParam.maKeyState[0].bDoSort = true;
aParam.maKeyState[0].bAscending = true;
aParam.maKeyState[0].nField = 1;
m_pDoc->Sort(0, aParam, false, true, nullptr, nullptr);
CPPUNIT_ASSERT_EQUAL(OUString("Header"), m_pDoc->GetString(ScAddress(1,1,0)));
CPPUNIT_ASSERT_EQUAL(OUString("Val1"), m_pDoc->GetString(ScAddress(1,2,0)));
CPPUNIT_ASSERT_EQUAL(OUString("Val2"), m_pDoc->GetString(ScAddress(1,3,0)));
aParam.maKeyState[0].bAscending = false;
m_pDoc->Sort(0, aParam, false, true, nullptr, nullptr);
CPPUNIT_ASSERT_EQUAL(OUString("Header"), m_pDoc->GetString(ScAddress(1,1,0)));
CPPUNIT_ASSERT_EQUAL(OUString("Val2"), m_pDoc->GetString(ScAddress(1,2,0)));
CPPUNIT_ASSERT_EQUAL(OUString("Val1"), m_pDoc->GetString(ScAddress(1,3,0)));
m_pDoc->DeleteTab(0);
}
void TestSort::testSortInFormulaGroup()
{
SortRefUpdateSetter aUpdateSet;
static const struct {
SCCOL nCol;
SCROW nRow;
const char *pData;
} aEntries[] = {
{ 0, 0, "3" }, { 1, 0, "=A1" },
{ 0, 1, "1" }, { 1, 1, "=A2" },
{ 0, 2, "20" }, { 1, 2, "=A3" },
{ 0, 3, "10" }, { 1, 3, "=A4+1" }, // swap across groups
{ 0, 4, "2" }, { 1, 4, "=A5+1" },
{ 0, 5, "101" }, { 1, 5, "=A6" }, // swap inside contiguous group
{ 0, 6, "100" }, { 1, 6, "=A7" },
{ 0, 7, "102" }, { 1, 7, "=A8" },
{ 0, 8, "104" }, { 1, 8, "=A9" },
{ 0, 9, "103" }, { 1, 9, "=A10" },
};
m_pDoc->InsertTab(0, "sorttest");
for ( auto const & i: aEntries )
m_pDoc->SetString( i.nCol, i.nRow, 0,
OUString::createFromAscii( i.pData) );
ScSortParam aSortData;
aSortData.nCol1 = 0;
aSortData.nCol2 = 1;
aSortData.nRow1 = 0;
aSortData.nRow2 = 9;
aSortData.maKeyState[0].bDoSort = true;
aSortData.maKeyState[0].nField = 0;
aSortData.maKeyState[0].bAscending = true;
m_pDoc->Sort(0, aSortData, false, true, nullptr, nullptr);
static const double aResults[] = {
1.0, 1.0,
2.0, 3.0,
3.0, 3.0,
10.0, 11.0,
20.0, 20.0,
100.0, 100.0,
101.0, 101.0,
102.0, 102.0,
103.0, 103.0,
104.0, 104.0
};
for ( SCROW i = 0; i < SCROW(SAL_N_ELEMENTS( aEntries )); ++i )
{
double val = m_pDoc->GetValue( aEntries[i].nCol, aEntries[i].nRow, 0 );
CPPUNIT_ASSERT_MESSAGE("Mis-matching value after sort.",
rtl::math::approxEqual(val, aResults[i]));
}
m_pDoc->DeleteTab( 0 );
}
void TestSort::testSortWithCellFormats()
{
struct
{
bool isBold( const ScPatternAttr* pPat ) const
{
if (!pPat)
{
cerr << "Pattern is NULL!" << endl;
return false;
}
const SfxPoolItem* pItem = nullptr;
if (!pPat->GetItemSet().HasItem(ATTR_FONT_WEIGHT, &pItem))
{
cerr << "Pattern does not have a font weight item, but it should." << endl;
return false;
}
CPPUNIT_ASSERT(pItem);
if (static_cast<const SvxWeightItem*>(pItem)->GetEnumValue() != WEIGHT_BOLD)
{
cerr << "Font weight should be bold." << endl;
return false;
}
return true;
}
bool isItalic( const ScPatternAttr* pPat ) const
{
if (!pPat)
{
cerr << "Pattern is NULL!" << endl;
return false;
}
const SfxPoolItem* pItem = nullptr;
if (!pPat->GetItemSet().HasItem(ATTR_FONT_POSTURE, &pItem))
{
cerr << "Pattern does not have a font posture item, but it should." << endl;
return false;
}
CPPUNIT_ASSERT(pItem);
if (static_cast<const SvxPostureItem*>(pItem)->GetEnumValue() != ITALIC_NORMAL)
{
cerr << "Italic should be applied.." << endl;
return false;
}
return true;
}
bool isNormal( const ScPatternAttr* pPat ) const
{
if (!pPat)
{
cerr << "Pattern is NULL!" << endl;
return false;
}
const SfxPoolItem* pItem = nullptr;
if (pPat->GetItemSet().HasItem(ATTR_FONT_WEIGHT, &pItem))
{
// Check if the font weight is applied.
if (static_cast<const SvxWeightItem*>(pItem)->GetEnumValue() == WEIGHT_BOLD)
{
cerr << "This cell is bold, but shouldn't." << endl;
return false;
}
}
if (pPat->GetItemSet().HasItem(ATTR_FONT_POSTURE, &pItem))
{
// Check if the italics is applied.
if (static_cast<const SvxPostureItem*>(pItem)->GetEnumValue() == ITALIC_NORMAL)
{
cerr << "This cell is italic, but shouldn't." << endl;
return false;
}
}
return true;
}
} aCheck;
m_pDoc->InsertTab(0, "Test");
// Insert some values into A1:A4.
m_pDoc->SetString(ScAddress(0,0,0), "Header");
m_pDoc->SetString(ScAddress(0,1,0), "Normal");
m_pDoc->SetString(ScAddress(0,2,0), "Bold");
m_pDoc->SetString(ScAddress(0,3,0), "Italic");
// Set A3 bold and A4 italic.
const ScPatternAttr* pPat = m_pDoc->GetPattern(ScAddress(0,2,0));
CPPUNIT_ASSERT(pPat);
{
ScPatternAttr aNewPat(*pPat);
SfxItemSet& rSet = aNewPat.GetItemSet();
rSet.Put(SvxWeightItem(WEIGHT_BOLD, ATTR_FONT_WEIGHT));
m_pDoc->ApplyPattern(0, 2, 0, aNewPat);
// Make sure it's really in.
bool bGood = aCheck.isBold(m_pDoc->GetPattern(ScAddress(0,2,0)));
CPPUNIT_ASSERT_MESSAGE("A3 is not bold but it should.", bGood);
}
pPat = m_pDoc->GetPattern(ScAddress(0,3,0));
CPPUNIT_ASSERT(pPat);
{
ScPatternAttr aNewPat(*pPat);
SfxItemSet& rSet = aNewPat.GetItemSet();
rSet.Put(SvxPostureItem(ITALIC_NORMAL, ATTR_FONT_POSTURE));
m_pDoc->ApplyPattern(0, 3, 0, aNewPat);
bool bGood = aCheck.isItalic(m_pDoc->GetPattern(ScAddress(0,3,0)));
CPPUNIT_ASSERT_MESSAGE("A4 is not italic but it should.", bGood);
}
// Define A1:A4 as sheet-local anonymous database range, else sort wouldn't run.
m_pDoc->SetAnonymousDBData(
0, std::unique_ptr<ScDBData>(new ScDBData(STR_DB_LOCAL_NONAME, 0, 0, 0, 0, 3)));
// Sort A1:A4 ascending with cell formats.
ScDBDocFunc aFunc(*m_xDocShell);
ScSortParam aSortData;
aSortData.nCol1 = 0;
aSortData.nCol2 = 0;
aSortData.nRow1 = 0;
aSortData.nRow2 = 3;
aSortData.bHasHeader = true;
aSortData.aDataAreaExtras.mbCellFormats = true;
aSortData.maKeyState[0].bDoSort = true;
aSortData.maKeyState[0].nField = 0;
aSortData.maKeyState[0].bAscending = true;
bool bSorted = aFunc.Sort(0, aSortData, true, false, true);
CPPUNIT_ASSERT(bSorted);
// Check the sort result.
CPPUNIT_ASSERT_EQUAL(OUString("Header"), m_pDoc->GetString(ScAddress(0,0,0)));
CPPUNIT_ASSERT_EQUAL(OUString("Bold"), m_pDoc->GetString(ScAddress(0,1,0)));
CPPUNIT_ASSERT_EQUAL(OUString("Italic"), m_pDoc->GetString(ScAddress(0,2,0)));
CPPUNIT_ASSERT_EQUAL(OUString("Normal"), m_pDoc->GetString(ScAddress(0,3,0)));
// A2 should be bold now.
bool bBold = aCheck.isBold(m_pDoc->GetPattern(ScAddress(0,1,0)));
CPPUNIT_ASSERT_MESSAGE("A2 should be bold after the sort.", bBold);
// and A3 should be italic.
bool bItalic = aCheck.isItalic(m_pDoc->GetPattern(ScAddress(0,2,0)));
CPPUNIT_ASSERT_MESSAGE("A3 should be italic.", bItalic);
// A4 should have neither bold nor italic.
bool bNormal = aCheck.isNormal(m_pDoc->GetPattern(ScAddress(0,3,0)));
CPPUNIT_ASSERT_MESSAGE("A4 should be neither bold nor italic.", bNormal);
m_pDoc->DeleteTab(0);
}
void TestSort::testSortRefUpdate()
{
SortTypeSetter aSortTypeSet(true);
sc::AutoCalcSwitch aACSwitch(*m_pDoc, true); // turn auto calc on.
FormulaGrammarSwitch aFGSwitch(m_pDoc, formula::FormulaGrammar::GRAM_ENGLISH_XL_R1C1);
m_pDoc->InsertTab(0, "Sort");
// Set values to sort in column A.
m_pDoc->SetString(ScAddress(0,0,0), "Header");
double aValues[] = { 4.0, 36.0, 14.0, 29.0, 98.0, 78.0, 0.0, 99.0, 1.0 };
size_t nCount = SAL_N_ELEMENTS(aValues);
for (size_t i = 0; i < nCount; ++i)
m_pDoc->SetValue(ScAddress(0,i+1,0), aValues[i]);
// Set formulas to reference these values in column C.
m_pDoc->SetString(ScAddress(2,0,0), "Formula");
for (size_t i = 0; i < nCount; ++i)
m_pDoc->SetString(ScAddress(2,1+i,0), "=RC[-2]");
// Check the values in column C.
for (size_t i = 0; i < nCount; ++i)
{
double fCheck = aValues[i];
CPPUNIT_ASSERT_EQUAL(fCheck, m_pDoc->GetValue(ScAddress(2,i+1,0)));
}
ScDBDocFunc aFunc(*m_xDocShell);
// Define A1:A10 as sheet-local anonymous database range, else sort wouldn't run.
m_pDoc->SetAnonymousDBData(
0, std::unique_ptr<ScDBData>(new ScDBData(STR_DB_LOCAL_NONAME, 0, 0, 0, 0, 9)));
// Sort A1:A10 (with a header row).
ScSortParam aSortData;
aSortData.nCol1 = 0;
aSortData.nCol2 = 0;
aSortData.nRow1 = 0;
aSortData.nRow2 = 9;
aSortData.bHasHeader = true;
aSortData.maKeyState[0].bDoSort = true;
aSortData.maKeyState[0].nField = 0;
aSortData.maKeyState[0].bAscending = true;
bool bSorted = aFunc.Sort(0, aSortData, true, true, true);
CPPUNIT_ASSERT(bSorted);
double aSorted[] = { 0.0, 1.0, 4.0, 14.0, 29.0, 36.0, 78.0, 98.0, 99.0 };
// Check the sort result.
CPPUNIT_ASSERT_EQUAL(OUString("Header"), m_pDoc->GetString(ScAddress(0,0,0)));
for (size_t i = 0; i < nCount; ++i)
{
double fCheck = aSorted[i];
CPPUNIT_ASSERT_EQUAL(fCheck, m_pDoc->GetValue(ScAddress(0,i+1,0)));
}
// Sorting should not alter the values in column C.
m_pDoc->CalcAll(); // just in case...
for (size_t i = 0; i < nCount; ++i)
{
double fCheck = aValues[i];
CPPUNIT_ASSERT_EQUAL(fCheck, m_pDoc->GetValue(ScAddress(2,i+1,0)));
}
// C2 should now point to A4.
ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(2,1,0), "R[2]C[-2]", "Wrong formula in C2!");
// Undo the sort.
SfxUndoManager* pUndoMgr = m_pDoc->GetUndoManager();
pUndoMgr->Undo();
// Check the undo result.
CPPUNIT_ASSERT_EQUAL(OUString("Header"), m_pDoc->GetString(ScAddress(0,0,0)));
for (size_t i = 0; i < nCount; ++i)
{
double fCheck = aValues[i];
CPPUNIT_ASSERT_EQUAL(fCheck, m_pDoc->GetValue(ScAddress(0,i+1,0)));
}
// Values in column C should still be unaltered.
m_pDoc->CalcAll(); // just in case...
for (size_t i = 0; i < nCount; ++i)
{
double fCheck = aValues[i];
CPPUNIT_ASSERT_EQUAL(fCheck, m_pDoc->GetValue(ScAddress(2,i+1,0)));
}
// C2 should now point to A2.
ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(2,1,0), "RC[-2]", "Wrong formula in C2!");
// Redo.
pUndoMgr->Redo();
CPPUNIT_ASSERT_EQUAL(OUString("Header"), m_pDoc->GetString(ScAddress(0,0,0)));
for (size_t i = 0; i < nCount; ++i)
{
double fCheck = aSorted[i];
CPPUNIT_ASSERT_EQUAL(fCheck, m_pDoc->GetValue(ScAddress(0,i+1,0)));
}
// Sorting should not alter the values in column C.
m_pDoc->CalcAll(); // just in case...
for (size_t i = 0; i < nCount; ++i)
{
double fCheck = aValues[i];
CPPUNIT_ASSERT_EQUAL(fCheck, m_pDoc->GetValue(ScAddress(2,i+1,0)));
}
// C2 should now point to A4.
ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(2,1,0), "R[2]C[-2]", "Wrong formula in C2!");
// Undo again.
pUndoMgr->Undo();
// Formulas in column C should all be "RC[-2]" again.
for (size_t i = 0; i < nCount; ++i)
m_pDoc->SetString(ScAddress(2,1+i,0), "=RC[-2]");
// Turn off reference update on sort.
SortTypeSetter::changeTo(false);
bSorted = aFunc.Sort(0, aSortData, true, true, true);
CPPUNIT_ASSERT(bSorted);
// Check the sort result again.
CPPUNIT_ASSERT_EQUAL(OUString("Header"), m_pDoc->GetString(ScAddress(0,0,0)));
for (size_t i = 0; i < nCount; ++i)
{
double fCheck = aSorted[i];
CPPUNIT_ASSERT_EQUAL(fCheck, m_pDoc->GetValue(ScAddress(0,i+1,0)));
}
// Formulas in column C should all remain "RC[-2]".
for (size_t i = 0; i < nCount; ++i)
m_pDoc->SetString(ScAddress(2,1+i,0), "=RC[-2]");
// The values in column C should now be the same as sorted values in column A.
m_pDoc->CalcAll(); // just in case...
for (size_t i = 0; i < nCount; ++i)
{
double fCheck = aSorted[i];
CPPUNIT_ASSERT_EQUAL(fCheck, m_pDoc->GetValue(ScAddress(2,i+1,0))); // column C
}
m_pDoc->DeleteTab(0);
}
void TestSort::testSortRefUpdate2()
{
SortRefUpdateSetter aUpdateSet;
sc::AutoCalcSwitch aACSwitch(*m_pDoc, true); // turn auto calc on.
FormulaGrammarSwitch aFGSwitch(m_pDoc, formula::FormulaGrammar::GRAM_ENGLISH_XL_R1C1);
m_pDoc->InsertTab(0, "Sort");
// Set up the sheet.
const char* aData[][2] = {
{ "F1", "F2" },
{ "9", "=RC[-1]" },
{ "2", "=RC[-1]" },
{ "6", "=RC[-1]" },
{ "4", "=RC[-1]" },
{ nullptr, nullptr } // terminator
};
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]));
}
// Check the values in B2:B5.
CPPUNIT_ASSERT_EQUAL(9.0, m_pDoc->GetValue(ScAddress(1,1,0)));
CPPUNIT_ASSERT_EQUAL(2.0, m_pDoc->GetValue(ScAddress(1,2,0)));
CPPUNIT_ASSERT_EQUAL(6.0, m_pDoc->GetValue(ScAddress(1,3,0)));
CPPUNIT_ASSERT_EQUAL(4.0, m_pDoc->GetValue(ScAddress(1,4,0)));
ScDBDocFunc aFunc(*m_xDocShell);
// Define A1:B5 as sheet-local anonymous database range, else sort wouldn't run.
m_pDoc->SetAnonymousDBData(
0, std::unique_ptr<ScDBData>(new ScDBData(STR_DB_LOCAL_NONAME, 0, 0, 0, 1, 4)));
// Sort A1:B5 by column A (with a row header).
ScSortParam aSortData;
aSortData.nCol1 = 0;
aSortData.nCol2 = 1;
aSortData.nRow1 = 0;
aSortData.nRow2 = 4;
aSortData.bHasHeader = true;
aSortData.maKeyState[0].bDoSort = true;
aSortData.maKeyState[0].nField = 0;
aSortData.maKeyState[0].bAscending = true;
bool bSorted = aFunc.Sort(0, aSortData, true, true, true);
CPPUNIT_ASSERT(bSorted);
// Check the sort result in column A.
CPPUNIT_ASSERT_EQUAL(2.0, m_pDoc->GetValue(ScAddress(0,1,0)));
CPPUNIT_ASSERT_EQUAL(4.0, m_pDoc->GetValue(ScAddress(0,2,0)));
CPPUNIT_ASSERT_EQUAL(6.0, m_pDoc->GetValue(ScAddress(0,3,0)));
CPPUNIT_ASSERT_EQUAL(9.0, m_pDoc->GetValue(ScAddress(0,4,0)));
// and column B.
CPPUNIT_ASSERT_EQUAL(2.0, m_pDoc->GetValue(ScAddress(1,1,0)));
CPPUNIT_ASSERT_EQUAL(4.0, m_pDoc->GetValue(ScAddress(1,2,0)));
CPPUNIT_ASSERT_EQUAL(6.0, m_pDoc->GetValue(ScAddress(1,3,0)));
CPPUNIT_ASSERT_EQUAL(9.0, m_pDoc->GetValue(ScAddress(1,4,0)));
// Formulas in column B should still point to their respective left neighbor cell.
for (SCROW i = 1; i <= 4; ++i)
{
ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(1,i,0), "RC[-1]", "Wrong formula!");
}
// Undo and check the result in column B.
SfxUndoManager* pUndoMgr = m_pDoc->GetUndoManager();
pUndoMgr->Undo();
CPPUNIT_ASSERT_EQUAL(9.0, m_pDoc->GetValue(ScAddress(1,1,0)));
CPPUNIT_ASSERT_EQUAL(2.0, m_pDoc->GetValue(ScAddress(1,2,0)));
CPPUNIT_ASSERT_EQUAL(6.0, m_pDoc->GetValue(ScAddress(1,3,0)));
CPPUNIT_ASSERT_EQUAL(4.0, m_pDoc->GetValue(ScAddress(1,4,0)));
// and redo.
pUndoMgr->Redo();
CPPUNIT_ASSERT_EQUAL(2.0, m_pDoc->GetValue(ScAddress(1,1,0)));
CPPUNIT_ASSERT_EQUAL(4.0, m_pDoc->GetValue(ScAddress(1,2,0)));
CPPUNIT_ASSERT_EQUAL(6.0, m_pDoc->GetValue(ScAddress(1,3,0)));
CPPUNIT_ASSERT_EQUAL(9.0, m_pDoc->GetValue(ScAddress(1,4,0)));
m_pDoc->DeleteTab(0);
}
void TestSort::testSortRefUpdate3()
{
SortRefUpdateSetter aUpdateSet;
sc::AutoCalcSwitch aACSwitch(*m_pDoc, true); // turn auto calc on.
m_pDoc->InsertTab(0, "Sort");
const char* pData[] = {
"Header",
"1",
"=A2+10",
"2",
"=A4+10",
"=A2+A4",
nullptr // terminator
};
for (SCROW i = 0; pData[i]; ++i)
m_pDoc->SetString(ScAddress(0,i,0), OUString::createFromAscii(pData[i]));
// Check the initial values.
CPPUNIT_ASSERT_EQUAL(OUString("Header"), m_pDoc->GetString(ScAddress(0,0,0)));
CPPUNIT_ASSERT_EQUAL( 1.0, m_pDoc->GetValue(ScAddress(0,1,0)));
CPPUNIT_ASSERT_EQUAL(11.0, m_pDoc->GetValue(ScAddress(0,2,0)));
CPPUNIT_ASSERT_EQUAL( 2.0, m_pDoc->GetValue(ScAddress(0,3,0)));
CPPUNIT_ASSERT_EQUAL(12.0, m_pDoc->GetValue(ScAddress(0,4,0)));
CPPUNIT_ASSERT_EQUAL( 3.0, m_pDoc->GetValue(ScAddress(0,5,0)));
ScDBDocFunc aFunc(*m_xDocShell);
// Sort A1:A6.
m_pDoc->SetAnonymousDBData(
0, std::unique_ptr<ScDBData>(new ScDBData(STR_DB_LOCAL_NONAME, 0, 0, 0, 0, 5)));
// Sort A1:A6 by column A (with a row header).
ScSortParam aSortData;
aSortData.nCol1 = 0;
aSortData.nCol2 = 0;
aSortData.nRow1 = 0;
aSortData.nRow2 = 5;
aSortData.bHasHeader = true;
aSortData.maKeyState[0].bDoSort = true;
aSortData.maKeyState[0].nField = 0;
aSortData.maKeyState[0].bAscending = true;
bool bSorted = aFunc.Sort(0, aSortData, true, true, true);
CPPUNIT_ASSERT(bSorted);
// Check the sorted values.
m_pDoc->CalcAll();
CPPUNIT_ASSERT_EQUAL(OUString("Header"), m_pDoc->GetString(ScAddress(0,0,0)));
CPPUNIT_ASSERT_EQUAL( 1.0, m_pDoc->GetValue(ScAddress(0,1,0)));
CPPUNIT_ASSERT_EQUAL( 2.0, m_pDoc->GetValue(ScAddress(0,2,0)));
CPPUNIT_ASSERT_EQUAL( 3.0, m_pDoc->GetValue(ScAddress(0,3,0)));
CPPUNIT_ASSERT_EQUAL(11.0, m_pDoc->GetValue(ScAddress(0,4,0)));
CPPUNIT_ASSERT_EQUAL(12.0, m_pDoc->GetValue(ScAddress(0,5,0)));
// Make sure the formula cells have been adjusted correctly.
ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(0,3,0), "A2+A3", "Wrong formula in A4.");
ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(0,4,0), "A2+10", "Wrong formula in A5.");
ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(0,5,0), "A3+10", "Wrong formula in A6.");
// Undo and check the result.
SfxUndoManager* pUndoMgr = m_pDoc->GetUndoManager();
pUndoMgr->Undo();
m_pDoc->CalcAll();
CPPUNIT_ASSERT_EQUAL(OUString("Header"), m_pDoc->GetString(ScAddress(0,0,0)));
CPPUNIT_ASSERT_EQUAL( 1.0, m_pDoc->GetValue(ScAddress(0,1,0)));
CPPUNIT_ASSERT_EQUAL(11.0, m_pDoc->GetValue(ScAddress(0,2,0)));
CPPUNIT_ASSERT_EQUAL( 2.0, m_pDoc->GetValue(ScAddress(0,3,0)));
CPPUNIT_ASSERT_EQUAL(12.0, m_pDoc->GetValue(ScAddress(0,4,0)));
CPPUNIT_ASSERT_EQUAL( 3.0, m_pDoc->GetValue(ScAddress(0,5,0)));
// Redo and check the result.
pUndoMgr->Redo();
m_pDoc->CalcAll();
CPPUNIT_ASSERT_EQUAL(OUString("Header"), m_pDoc->GetString(ScAddress(0,0,0)));
CPPUNIT_ASSERT_EQUAL( 1.0, m_pDoc->GetValue(ScAddress(0,1,0)));
CPPUNIT_ASSERT_EQUAL( 2.0, m_pDoc->GetValue(ScAddress(0,2,0)));
CPPUNIT_ASSERT_EQUAL( 3.0, m_pDoc->GetValue(ScAddress(0,3,0)));
CPPUNIT_ASSERT_EQUAL(11.0, m_pDoc->GetValue(ScAddress(0,4,0)));
CPPUNIT_ASSERT_EQUAL(12.0, m_pDoc->GetValue(ScAddress(0,5,0)));
m_pDoc->DeleteTab(0);
}
// Derived from fdo#79441 https://bugs.freedesktop.org/attachment.cgi?id=100144
// testRefInterne.ods
void TestSort::testSortRefUpdate4()
{
// This test has to work in both update reference modes.
{
SortRefNoUpdateSetter aUpdateSet;
testSortRefUpdate4_Impl();
}
{
SortRefUpdateSetter aUpdateSet;
testSortRefUpdate4_Impl();
}
}
void TestSort::testSortRefUpdate4_Impl()
{
sc::AutoCalcSwitch aACSwitch(*m_pDoc, true); // turn auto calc on.
m_pDoc->InsertTab(0, "Sort");
m_pDoc->InsertTab(1, "Lesson1");
m_pDoc->InsertTab(2, "Lesson2");
{
const std::vector<std::vector<const char*>> aData = {
{ "Name", "Note" },
{ "Student1", "1" },
{ "Student2", "2" },
{ "Student3", "3" },
{ "Student4", "4" },
{ "Student5", "5" },
};
SCTAB nTab = 1;
ScAddress aPos(0,0,nTab);
clearRange(m_pDoc, ScRange(0, 0, nTab, 1, aData.size(), nTab));
ScRange aLesson1Range = insertRangeData(m_pDoc, aPos, aData);
CPPUNIT_ASSERT_EQUAL_MESSAGE("failed to insert range data at correct position", aPos, aLesson1Range.aStart);
}
{
const std::vector<std::vector<const char*>> aData = {
{ "Name", "Note" },
{ "=Lesson1.A2", "3" },
{ "=Lesson1.A3", "4" },
{ "=Lesson1.A4", "9" },
{ "=Lesson1.A5", "6" },
{ "=Lesson1.A6", "3" },
};
SCTAB nTab = 2;
ScAddress aPos(0,0,nTab);
clearRange(m_pDoc, ScRange(0, 0, nTab, 1, aData.size(), nTab));
ScRange aLesson2Range = insertRangeData(m_pDoc, aPos, aData);
CPPUNIT_ASSERT_EQUAL_MESSAGE("failed to insert range data at correct position", aPos, aLesson2Range.aStart);
}
ScRange aSortRange;
{
const std::vector<std::vector<const char*>> aData = {
{ "Name", "Lesson1", "Lesson2", "Average" },
{ "=Lesson1.A2", "=Lesson1.B2", "=Lesson2.B2", "=AVERAGE(B2:C2)" },
{ "=Lesson1.A3", "=Lesson1.B3", "=Lesson2.B3", "=AVERAGE(B3:C3)" },
{ "=Lesson1.A4", "=Lesson1.B4", "=Lesson2.B4", "=AVERAGE(B4:C4)" },
{ "=Lesson1.A5", "=Lesson1.B5", "=Lesson2.B5", "=AVERAGE(B5:C5)" },
{ "=Lesson1.A6", "=Lesson1.B6", "=Lesson2.B6", "=AVERAGE(B6:C6)" },
};
SCTAB nTab = 0;
ScAddress aPos(0,0,nTab);
clearRange(m_pDoc, ScRange(0, 0, nTab, 1, aData.size(), nTab));
aSortRange = insertRangeData(m_pDoc, aPos, aData);
CPPUNIT_ASSERT_EQUAL_MESSAGE("failed to insert range data at correct position", aPos, aSortRange.aStart);
}
ScDBDocFunc aFunc(*m_xDocShell);
// Sort A1:D6 by column D (Average, with a row header).
{
ScSortParam aSortData;
aSortData.nCol1 = aSortRange.aStart.Col();
aSortData.nCol2 = aSortRange.aEnd.Col();
aSortData.nRow1 = aSortRange.aStart.Row();
aSortData.nRow2 = aSortRange.aEnd.Row();
aSortData.bHasHeader = true;
aSortData.maKeyState[0].bDoSort = true; // sort on
aSortData.maKeyState[0].nField = 3; // Average
aSortData.maKeyState[0].bAscending = false; // descending
m_pDoc->SetAnonymousDBData( 0, std::unique_ptr<ScDBData>(new ScDBData( STR_DB_LOCAL_NONAME, aSortRange.aStart.Tab(),
aSortData.nCol1, aSortData.nRow1, aSortData.nCol2, aSortData.nRow2)));
bool bSorted = aFunc.Sort(0, aSortData, true, true, true);
CPPUNIT_ASSERT(bSorted);
// Check the sorted values.
m_pDoc->CalcAll();
CPPUNIT_ASSERT_EQUAL(OUString("Name"), m_pDoc->GetString(ScAddress(0,0,0)));
CPPUNIT_ASSERT_EQUAL(OUString("Student3"), m_pDoc->GetString(ScAddress(0,1,0)));
CPPUNIT_ASSERT_EQUAL(OUString("Student4"), m_pDoc->GetString(ScAddress(0,2,0)));
CPPUNIT_ASSERT_EQUAL(OUString("Student5"), m_pDoc->GetString(ScAddress(0,3,0)));
CPPUNIT_ASSERT_EQUAL(OUString("Student2"), m_pDoc->GetString(ScAddress(0,4,0)));
CPPUNIT_ASSERT_EQUAL(OUString("Student1"), m_pDoc->GetString(ScAddress(0,5,0)));
CPPUNIT_ASSERT_EQUAL( 6.0, m_pDoc->GetValue(ScAddress(3,1,0)));
CPPUNIT_ASSERT_EQUAL( 5.0, m_pDoc->GetValue(ScAddress(3,2,0)));
CPPUNIT_ASSERT_EQUAL( 4.0, m_pDoc->GetValue(ScAddress(3,3,0)));
CPPUNIT_ASSERT_EQUAL( 3.0, m_pDoc->GetValue(ScAddress(3,4,0)));
CPPUNIT_ASSERT_EQUAL( 2.0, m_pDoc->GetValue(ScAddress(3,5,0)));
// Make sure the formula cells have been adjusted correctly.
const char* aCheck[][4] = {
// Name Lesson1 Lesson2 Average
{ "Lesson1.A4", "Lesson1.B4", "Lesson2.B4", "AVERAGE(B2:C2)" },
{ "Lesson1.A5", "Lesson1.B5", "Lesson2.B5", "AVERAGE(B3:C3)" },
{ "Lesson1.A6", "Lesson1.B6", "Lesson2.B6", "AVERAGE(B4:C4)" },
{ "Lesson1.A3", "Lesson1.B3", "Lesson2.B3", "AVERAGE(B5:C5)" },
{ "Lesson1.A2", "Lesson1.B2", "Lesson2.B2", "AVERAGE(B6:C6)" },
};
for (SCROW nRow=0; nRow < static_cast<SCROW>(SAL_N_ELEMENTS(aCheck)); ++nRow)
{
for (SCCOL nCol=0; nCol < 4; ++nCol)
{
ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(nCol,nRow+1,0), aCheck[nRow][nCol], OString("Wrong formula in " + OStringChar(char('A'+nCol)) + OString::number(nRow+2) + ".").getStr());
}
}
// Undo and check the result.
SfxUndoManager* pUndoMgr = m_pDoc->GetUndoManager();
pUndoMgr->Undo();
m_pDoc->CalcAll();
CPPUNIT_ASSERT_EQUAL(OUString("Name"), m_pDoc->GetString(ScAddress(0,0,0)));
CPPUNIT_ASSERT_EQUAL( 2.0, m_pDoc->GetValue(ScAddress(3,1,0)));
CPPUNIT_ASSERT_EQUAL( 3.0, m_pDoc->GetValue(ScAddress(3,2,0)));
CPPUNIT_ASSERT_EQUAL( 6.0, m_pDoc->GetValue(ScAddress(3,3,0)));
CPPUNIT_ASSERT_EQUAL( 5.0, m_pDoc->GetValue(ScAddress(3,4,0)));
CPPUNIT_ASSERT_EQUAL( 4.0, m_pDoc->GetValue(ScAddress(3,5,0)));
// Redo and check the result.
pUndoMgr->Redo();
m_pDoc->CalcAll();
CPPUNIT_ASSERT_EQUAL(OUString("Name"), m_pDoc->GetString(ScAddress(0,0,0)));
CPPUNIT_ASSERT_EQUAL( 6.0, m_pDoc->GetValue(ScAddress(3,1,0)));
CPPUNIT_ASSERT_EQUAL( 5.0, m_pDoc->GetValue(ScAddress(3,2,0)));
CPPUNIT_ASSERT_EQUAL( 4.0, m_pDoc->GetValue(ScAddress(3,3,0)));
CPPUNIT_ASSERT_EQUAL( 3.0, m_pDoc->GetValue(ScAddress(3,4,0)));
CPPUNIT_ASSERT_EQUAL( 2.0, m_pDoc->GetValue(ScAddress(3,5,0)));
}
// Sort A2:AMJ6 by column A (Name, without header).
{
ScSortParam aSortData;
aSortData.nCol1 = 0;
aSortData.nCol2 = m_pDoc->MaxCol();
aSortData.nRow1 = aSortRange.aStart.Row()+1;
aSortData.nRow2 = aSortRange.aEnd.Row();
aSortData.bHasHeader = false;
aSortData.maKeyState[0].bDoSort = true; // sort on
aSortData.maKeyState[0].nField = 0; // Name
aSortData.maKeyState[0].bAscending = false; // descending
m_pDoc->SetAnonymousDBData( 0, std::unique_ptr<ScDBData>(new ScDBData( STR_DB_LOCAL_NONAME, aSortRange.aStart.Tab(),
aSortData.nCol1, aSortData.nRow1, aSortData.nCol2, aSortData.nRow2)));
bool bSorted = aFunc.Sort(0, aSortData, true, true, true);
CPPUNIT_ASSERT(bSorted);
// Check the sorted values.
m_pDoc->CalcAll();
CPPUNIT_ASSERT_EQUAL(OUString("Name"), m_pDoc->GetString(ScAddress(0,0,0)));
CPPUNIT_ASSERT_EQUAL(OUString("Student5"), m_pDoc->GetString(ScAddress(0,1,0)));
CPPUNIT_ASSERT_EQUAL(OUString("Student4"), m_pDoc->GetString(ScAddress(0,2,0)));
CPPUNIT_ASSERT_EQUAL(OUString("Student3"), m_pDoc->GetString(ScAddress(0,3,0)));
CPPUNIT_ASSERT_EQUAL(OUString("Student2"), m_pDoc->GetString(ScAddress(0,4,0)));
CPPUNIT_ASSERT_EQUAL(OUString("Student1"), m_pDoc->GetString(ScAddress(0,5,0)));
CPPUNIT_ASSERT_EQUAL( 4.0, m_pDoc->GetValue(ScAddress(3,1,0)));
CPPUNIT_ASSERT_EQUAL( 5.0, m_pDoc->GetValue(ScAddress(3,2,0)));
CPPUNIT_ASSERT_EQUAL( 6.0, m_pDoc->GetValue(ScAddress(3,3,0)));
CPPUNIT_ASSERT_EQUAL( 3.0, m_pDoc->GetValue(ScAddress(3,4,0)));
CPPUNIT_ASSERT_EQUAL( 2.0, m_pDoc->GetValue(ScAddress(3,5,0)));
// Make sure the formula cells have been adjusted correctly.
const char* aCheck[][4] = {
// Name Lesson1 Lesson2 Average
{ "Lesson1.A6", "Lesson1.B6", "Lesson2.B6", "AVERAGE(B2:C2)" },
{ "Lesson1.A5", "Lesson1.B5", "Lesson2.B5", "AVERAGE(B3:C3)" },
{ "Lesson1.A4", "Lesson1.B4", "Lesson2.B4", "AVERAGE(B4:C4)" },
{ "Lesson1.A3", "Lesson1.B3", "Lesson2.B3", "AVERAGE(B5:C5)" },
{ "Lesson1.A2", "Lesson1.B2", "Lesson2.B2", "AVERAGE(B6:C6)" },
};
for (SCROW nRow=0; nRow < static_cast<SCROW>(SAL_N_ELEMENTS(aCheck)); ++nRow)
{
for (SCCOL nCol=0; nCol < 4; ++nCol)
{
ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(nCol,nRow+1,0), aCheck[nRow][nCol], OString("Wrong formula in " + OStringChar(char('A'+nCol)) + OString::number(nRow+2) + ".").getStr());
}
}
}
m_pDoc->DeleteTab(2);
m_pDoc->DeleteTab(1);
m_pDoc->DeleteTab(0);
}
// Make sure the refupdate works also with volatile cells, see fdo#83067
/* FIXME: this test is not roll-over-midnight safe and will fail then! We may
* want to have something different, but due to the nature of volatile
* functions it's not that easy to come up with something reproducible staying
* stable over sorts... ;-) Check for time and don't run test a few seconds
* before midnight, ermm... */
void TestSort::testSortRefUpdate5()
{
SortRefUpdateSetter aUpdateSet;
sc::AutoCalcSwitch aACSwitch(*m_pDoc, true); // turn auto calc on.
m_pDoc->InsertTab(0, "Sort");
double aValCheck[][3] = {
// Result, Unsorted order, Sorted result.
{ 0, 4, 0 },
{ 0, 1, 0 },
{ 0, 3, 0 },
{ 0, 2, 0 },
};
ScRange aSortRange;
{
const std::vector<std::vector<const char*>> aData = {
{ "Date", "Volatile", "Order" },
{ "1999-05-05", "=TODAY()-$A2", "4" },
{ "1994-10-18", "=TODAY()-$A3", "1" },
{ "1996-06-30", "=TODAY()-$A4", "3" },
{ "1995-11-21", "=TODAY()-$A5", "2" },
};
SCTAB nTab = 0;
ScAddress aPos(0,0,nTab);
clearRange(m_pDoc, ScRange(0, 0, nTab, 2, aData.size(), nTab));
aSortRange = insertRangeData(m_pDoc, aPos, aData);
CPPUNIT_ASSERT_EQUAL_MESSAGE("failed to insert range data at correct position", aPos, aSortRange.aStart);
// Actual results and expected sorted results.
for (SCROW nRow=0; nRow < static_cast<SCROW>(SAL_N_ELEMENTS(aValCheck)); ++nRow)
{
double fVal = m_pDoc->GetValue(ScAddress(1,nRow+1,0));
aValCheck[nRow][0] = fVal;
aValCheck[static_cast<size_t>(aValCheck[nRow][1])-1][2] = fVal;
}
}
ScDBDocFunc aFunc(*m_xDocShell);
// Sort A1:B5.
m_pDoc->SetAnonymousDBData( 0, std::unique_ptr<ScDBData>(new ScDBData( STR_DB_LOCAL_NONAME, aSortRange.aStart.Tab(),
aSortRange.aStart.Col(), aSortRange.aStart.Row(), aSortRange.aEnd.Col(), aSortRange.aEnd.Row())));
// Sort by column A.
ScSortParam aSortData;
aSortData.nCol1 = aSortRange.aStart.Col();
aSortData.nCol2 = aSortRange.aEnd.Col();
aSortData.nRow1 = aSortRange.aStart.Row();
aSortData.nRow2 = aSortRange.aEnd.Row();
aSortData.bHasHeader = true;
aSortData.maKeyState[0].bDoSort = true; // sort on
aSortData.maKeyState[0].nField = 0; // Date
aSortData.maKeyState[0].bAscending = true; // ascending
bool bSorted = aFunc.Sort(0, aSortData, true, true, true);
CPPUNIT_ASSERT(bSorted);
// Check the sorted values.
m_pDoc->CalcAll();
for (SCROW nRow=0; nRow < static_cast<SCROW>(SAL_N_ELEMENTS(aValCheck)); ++nRow)
{
size_t i = static_cast<size_t>(m_pDoc->GetValue(ScAddress(2,nRow+1,0))); // order 1..4
CPPUNIT_ASSERT_EQUAL( static_cast<size_t>(nRow+1), i);
CPPUNIT_ASSERT_EQUAL( aValCheck[i-1][2], m_pDoc->GetValue(ScAddress(1,nRow+1,0)));
}
// Make sure the formula cells have been adjusted correctly.
const char* aFormulaCheck[] = {
// Volatile
"TODAY()-$A2",
"TODAY()-$A3",
"TODAY()-$A4",
"TODAY()-$A5",
};
for (SCROW nRow=0; nRow < static_cast<SCROW>(SAL_N_ELEMENTS(aFormulaCheck)); ++nRow)
{
ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(1,nRow+1,0), aFormulaCheck[nRow], OString("Wrong formula in B" + OString::number(nRow+2) + ".").getStr());
}
// Undo and check the result.
SfxUndoManager* pUndoMgr = m_pDoc->GetUndoManager();
pUndoMgr->Undo();
m_pDoc->CalcAll();
for (SCROW nRow=0; nRow < static_cast<SCROW>(SAL_N_ELEMENTS(aValCheck)); ++nRow)
{
CPPUNIT_ASSERT_EQUAL( aValCheck[nRow][0], m_pDoc->GetValue(ScAddress(1,nRow+1,0)));
CPPUNIT_ASSERT_EQUAL( aValCheck[nRow][1], m_pDoc->GetValue(ScAddress(2,nRow+1,0)));
}
// Redo and check the result.
pUndoMgr->Redo();
m_pDoc->CalcAll();
for (SCROW nRow=0; nRow < static_cast<SCROW>(SAL_N_ELEMENTS(aValCheck)); ++nRow)
{
size_t i = static_cast<size_t>(m_pDoc->GetValue(ScAddress(2,nRow+1,0))); // order 1..4
CPPUNIT_ASSERT_EQUAL( static_cast<size_t>(nRow+1), i);
CPPUNIT_ASSERT_EQUAL( aValCheck[i-1][2], m_pDoc->GetValue(ScAddress(1,nRow+1,0)));
}
m_pDoc->DeleteTab(0);
}
void TestSort::testSortRefUpdate6()
{
SortRefNoUpdateSetter aUpdateSet;
sc::AutoCalcSwitch aACSwitch(*m_pDoc, true); // turn auto calc on.
m_pDoc->InsertTab(0, "Sort");
const std::vector<std::vector<const char*>> aData = {
{ "Order", "Value", "1" },
{ "9", "1", "=C1+B2" },
{ "1", "2", "=C2+B3" },
{ "8", "3", "=C3+B4" },
};
ScAddress aPos(0,0,0);
ScRange aDataRange = insertRangeData(m_pDoc, aPos, aData);
CPPUNIT_ASSERT_EQUAL(aPos, aDataRange.aStart);
{
// Expected output table content. 0 = empty cell
std::vector<std::vector<const char*>> aOutputCheck = {
{ "Order", "Value", "1" },
{ "9", "1", "2" },
{ "1", "2", "4" },
{ "8", "3", "7" },
};
bool bSuccess = checkOutput(m_pDoc, aDataRange, aOutputCheck, "Initial value");
CPPUNIT_ASSERT_MESSAGE("Table output check failed", bSuccess);
}
ScDBDocFunc aFunc(*m_xDocShell);
// Sort A1:C4.
m_pDoc->SetAnonymousDBData(
0, std::unique_ptr<ScDBData>(new ScDBData(STR_DB_LOCAL_NONAME, 0, 0, 0, 2, 3)));
// Sort A1:A6 by column A (with a row header).
ScSortParam aSortData;
aSortData.nCol1 = 0;
aSortData.nCol2 = 2;
aSortData.nRow1 = 0;
aSortData.nRow2 = 3;
aSortData.bHasHeader = true;
aSortData.maKeyState[0].bDoSort = true;
aSortData.maKeyState[0].nField = 0;
aSortData.maKeyState[0].bAscending = true;
bool bSorted = aFunc.Sort(0, aSortData, true, true, true);
CPPUNIT_ASSERT(bSorted);
{
// Expected output table content. 0 = empty cell
std::vector<std::vector<const char*>> aOutputCheck = {
{ "Order", "Value", "1" },
{ "1", "2", "3" },
{ "8", "3", "6" },
{ "9", "1", "7" },
};
bool bSuccess = checkOutput(m_pDoc, aDataRange, aOutputCheck, "Sorted without reference update");
CPPUNIT_ASSERT_MESSAGE("Table output check failed", bSuccess);
}
// Make sure that the formulas in C2:C4 are not adjusted.
ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(2,1,0), "C1+B2", "Wrong formula!");
ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(2,2,0), "C2+B3", "Wrong formula!");
ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(2,3,0), "C3+B4", "Wrong formula!");
// Undo and check.
SfxUndoManager* pUndoMgr = m_pDoc->GetUndoManager();
CPPUNIT_ASSERT(pUndoMgr);
pUndoMgr->Undo();
{
// Expected output table content. 0 = empty cell
std::vector<std::vector<const char*>> aOutputCheck = {
{ "Order", "Value", "1" },
{ "9", "1", "2" },
{ "1", "2", "4" },
{ "8", "3", "7" },
};
bool bSuccess = checkOutput(m_pDoc, aDataRange, aOutputCheck, "After undo");
CPPUNIT_ASSERT_MESSAGE("Table output check failed", bSuccess);
}
// Redo and check.
pUndoMgr->Redo();
{
// Expected output table content. 0 = empty cell
std::vector<std::vector<const char*>> aOutputCheck = {
{ "Order", "Value", "1" },
{ "1", "2", "3" },
{ "8", "3", "6" },
{ "9", "1", "7" },
};
bool bSuccess = checkOutput(m_pDoc, aDataRange, aOutputCheck, "After redo");
CPPUNIT_ASSERT_MESSAGE("Table output check failed", bSuccess);
}
// Change the value of C1 and make sure the formula broadcasting chain still works.
ScDocFunc& rFunc = m_xDocShell->GetDocFunc();
rFunc.SetValueCell(ScAddress(2,0,0), 11.0, false);
{
// Expected output table content. 0 = empty cell
std::vector<std::vector<const char*>> aOutputCheck = {
{ "Order", "Value", "11" },
{ "1", "2", "13" },
{ "8", "3", "16" },
{ "9", "1", "17" },
};
bool bSuccess = checkOutput(m_pDoc, aDataRange, aOutputCheck, "Change the header value");
CPPUNIT_ASSERT_MESSAGE("Table output check failed", bSuccess);
}
// Undo and check.
pUndoMgr->Undo();
{
// Expected output table content. 0 = empty cell
std::vector<std::vector<const char*>> aOutputCheck = {
{ "Order", "Value", "1" },
{ "1", "2", "3" },
{ "8", "3", "6" },
{ "9", "1", "7" },
};
bool bSuccess = checkOutput(m_pDoc, aDataRange, aOutputCheck, "After undo of header value change");
CPPUNIT_ASSERT_MESSAGE("Table output check failed", bSuccess);
}
m_pDoc->DeleteTab(0);
}
// fdo#86762 check that broadcasters are sorted correctly and empty cell is
// broadcasted.
void TestSort::testSortBroadcaster()
{
SortRefNoUpdateSetter aUpdateSet;
sc::AutoCalcSwitch aACSwitch(*m_pDoc, true); // turn auto calc on.
m_pDoc->InsertTab(0, "Sort");
{
const std::vector<std::vector<const char*>> aData = {
{ "1", nullptr, nullptr, "=B1", "=$B$1", "=SUM(A1:B1)", "=SUM($A$1:$B$1)" },
{ "2", "8", nullptr, "=B2", "=$B$2", "=SUM(A2:B2)", "=SUM($A$2:$B$2)" },
};
ScAddress aPos(0,0,0);
ScRange aDataRange = insertRangeData(m_pDoc, aPos, aData);
CPPUNIT_ASSERT_EQUAL(aPos, aDataRange.aStart);
{
// Expected output table content. 0 = empty cell
std::vector<std::vector<const char*>> aOutputCheck = {
{ "1", nullptr, nullptr, "0", "0", "1", "1" },
{ "2", "8", nullptr, "8", "8", "10", "10" },
};
bool bSuccess = checkOutput(m_pDoc, aDataRange, aOutputCheck, "Initial value");
CPPUNIT_ASSERT_MESSAGE("Table output check failed", bSuccess);
}
// Sort A1:B2.
m_pDoc->SetAnonymousDBData(
0, std::unique_ptr<ScDBData>(new ScDBData(STR_DB_LOCAL_NONAME, 0, 0, 0, 1, 1)));
ScDBDocFunc aFunc(*m_xDocShell);
// Sort A1:B2 by column A descending.
ScSortParam aSortData;
aSortData.nCol1 = 0;
aSortData.nCol2 = 1;
aSortData.nRow1 = 0;
aSortData.nRow2 = 1;
aSortData.bHasHeader = false;
aSortData.bByRow = true;
aSortData.maKeyState[0].bDoSort = true;
aSortData.maKeyState[0].nField = 0;
aSortData.maKeyState[0].bAscending = false;
bool bSorted = aFunc.Sort(0, aSortData, true, true, true);
CPPUNIT_ASSERT(bSorted);
{
// Expected output table content. 0 = empty cell
std::vector<std::vector<const char*>> aOutputCheck = {
{ "2", "8", nullptr, "8", "8", "10", "10" },
{ "1", nullptr, nullptr, "0", "0", "1", "1" },
};
bool bSuccess = checkOutput(m_pDoc, aDataRange, aOutputCheck, "Sorted without reference update");
CPPUNIT_ASSERT_MESSAGE("Table output check failed", bSuccess);
}
// Make sure that the formulas in D1:G2 are not adjusted.
ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(3,0,0), "B1", "Wrong formula!");
ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(3,1,0), "B2", "Wrong formula!");
ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(4,0,0), "$B$1", "Wrong formula!");
ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(4,1,0), "$B$2", "Wrong formula!");
ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(5,0,0), "SUM(A1:B1)", "Wrong formula!");
ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(5,1,0), "SUM(A2:B2)", "Wrong formula!");
ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(6,0,0), "SUM($A$1:$B$1)", "Wrong formula!");
ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(6,1,0), "SUM($A$2:$B$2)", "Wrong formula!");
// Enter new value and check that it is broadcasted. First in empty cell.
m_pDoc->SetString(1,1,0, "16");
double nVal = m_pDoc->GetValue(3,1,0);
ASSERT_DOUBLES_EQUAL( 16.0, nVal);
nVal = m_pDoc->GetValue(4,1,0);
ASSERT_DOUBLES_EQUAL( 16.0, nVal);
nVal = m_pDoc->GetValue(5,1,0);
ASSERT_DOUBLES_EQUAL( 17.0, nVal);
nVal = m_pDoc->GetValue(6,1,0);
ASSERT_DOUBLES_EQUAL( 17.0, nVal);
// Enter new value and check that it is broadcasted. Now overwriting data.
m_pDoc->SetString(1,0,0, "32");
nVal = m_pDoc->GetValue(3,0,0);
ASSERT_DOUBLES_EQUAL( 32.0, nVal);
nVal = m_pDoc->GetValue(4,0,0);
ASSERT_DOUBLES_EQUAL( 32.0, nVal);
nVal = m_pDoc->GetValue(5,0,0);
ASSERT_DOUBLES_EQUAL( 34.0, nVal);
nVal = m_pDoc->GetValue(6,0,0);
ASSERT_DOUBLES_EQUAL( 34.0, nVal);
}
// The same for sort by column. Start data at A5.
{
const std::vector<std::vector<const char*>> aData = {
{ "1", "2" },
{ nullptr, "8" },
{ nullptr, nullptr },
{ "=A6", "=B6" },
{ "=$A$6", "=$B$6" },
{ "=SUM(A5:A6)", "=SUM(B5:B6)" },
{ "=SUM($A$5:$A$6)", "=SUM($B$5:$B$6)" },
};
ScAddress aPos(0,4,0);
ScRange aDataRange = insertRangeData(m_pDoc, aPos, aData);
CPPUNIT_ASSERT_EQUAL(aPos, aDataRange.aStart);
{
// Expected output table content. 0 = empty cell
std::vector<std::vector<const char*>> aOutputCheck = {
{ "1", "2" },
{ nullptr, "8" },
{ nullptr, nullptr },
{ "0", "8" },
{ "0", "8" },
{ "1", "10" },
{ "1", "10" },
};
bool bSuccess = checkOutput(m_pDoc, aDataRange, aOutputCheck, "Initial value");
CPPUNIT_ASSERT_MESSAGE("Table output check failed", bSuccess);
}
// Sort A5:B6.
m_pDoc->SetAnonymousDBData(
0, std::unique_ptr<ScDBData>(new ScDBData(STR_DB_LOCAL_NONAME, 0, 0, 4, 1, 5)));
ScDBDocFunc aFunc(*m_xDocShell);
// Sort A5:B6 by row 5 descending.
ScSortParam aSortData;
aSortData.nCol1 = 0;
aSortData.nCol2 = 1;
aSortData.nRow1 = 4;
aSortData.nRow2 = 5;
aSortData.bHasHeader = false;
aSortData.bByRow = false;
aSortData.maKeyState[0].bDoSort = true;
aSortData.maKeyState[0].nField = 0;
aSortData.maKeyState[0].bAscending = false;
bool bSorted = aFunc.Sort(0, aSortData, true, true, true);
CPPUNIT_ASSERT(bSorted);
{
// Expected output table content. 0 = empty cell
std::vector<std::vector<const char*>> aOutputCheck = {
{ "2", "1" },
{ "8", nullptr },
{ nullptr, nullptr },
{ "8", "0" },
{ "8", "0" },
{ "10", "1" },
{ "10", "1" },
};
bool bSuccess = checkOutput(m_pDoc, aDataRange, aOutputCheck, "Sorted without reference update");
CPPUNIT_ASSERT_MESSAGE("Table output check failed", bSuccess);
}
// Make sure that the formulas in A8:B11 are not adjusted.
ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(0,7,0), "A6", "Wrong formula!");
ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(1,7,0), "B6", "Wrong formula!");
ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(0,8,0), "$A$6", "Wrong formula!");
ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(1,8,0), "$B$6", "Wrong formula!");
ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(0,9,0), "SUM(A5:A6)", "Wrong formula!");
ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(1,9,0), "SUM(B5:B6)", "Wrong formula!");
ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(0,10,0), "SUM($A$5:$A$6)", "Wrong formula!");
ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(1,10,0), "SUM($B$5:$B$6)", "Wrong formula!");
// Enter new value and check that it is broadcasted. First in empty cell.
m_pDoc->SetString(1,5,0, "16");
double nVal = m_pDoc->GetValue(1,7,0);
ASSERT_DOUBLES_EQUAL(nVal, 16.0);
nVal = m_pDoc->GetValue(1,8,0);
ASSERT_DOUBLES_EQUAL(nVal, 16.0);
nVal = m_pDoc->GetValue(1,9,0);
ASSERT_DOUBLES_EQUAL(nVal, 17.0);
nVal = m_pDoc->GetValue(1,10,0);
ASSERT_DOUBLES_EQUAL(nVal, 17.0);
// Enter new value and check that it is broadcasted. Now overwriting data.
m_pDoc->SetString(0,5,0, "32");
nVal = m_pDoc->GetValue(0,7,0);
ASSERT_DOUBLES_EQUAL(nVal, 32.0);
nVal = m_pDoc->GetValue(0,8,0);
ASSERT_DOUBLES_EQUAL(nVal, 32.0);
nVal = m_pDoc->GetValue(0,9,0);
ASSERT_DOUBLES_EQUAL(nVal, 34.0);
nVal = m_pDoc->GetValue(0,10,0);
ASSERT_DOUBLES_EQUAL(nVal, 34.0);
}
m_pDoc->DeleteTab(0);
}
// tdf#99417 check that formulas are tracked that *only* indirectly depend on
// sorted data and no other broadcasting than BroadcastBroadcasters is
// involved (for which this test can not be included in testSortBroadcaster()).
void TestSort::testSortBroadcastBroadcaster()
{
SortRefNoUpdateSetter aUpdateSet;
sc::AutoCalcSwitch aACSwitch(*m_pDoc, true); // turn auto calc on.
m_pDoc->InsertTab(0, "Sort");
{
const std::vector<std::vector<const char*>> aData = {
{ "1", "=A1", "=B1" },
{ "2", "=A2", "=B2" },
};
ScAddress aPos(0,0,0);
ScRange aDataRange = insertRangeData(m_pDoc, aPos, aData);
CPPUNIT_ASSERT_EQUAL(aPos, aDataRange.aStart);
{
// Expected output table content. 0 = empty cell
std::vector<std::vector<const char*>> aOutputCheck = {
{ "1", "1", "1" },
{ "2", "2", "2" },
};
bool bSuccess = checkOutput(m_pDoc, aDataRange, aOutputCheck, "Initial value");
CPPUNIT_ASSERT_MESSAGE("Table output check failed", bSuccess);
}
// Sort A1:A2.
m_pDoc->SetAnonymousDBData(
0, std::unique_ptr<ScDBData>(new ScDBData(STR_DB_LOCAL_NONAME, 0, 0, 0, 0, 1)));
ScDBDocFunc aFunc(*m_xDocShell);
// Sort A1:A2 by column A descending.
ScSortParam aSortData;
aSortData.nCol1 = 0;
aSortData.nCol2 = 0;
aSortData.nRow1 = 0;
aSortData.nRow2 = 1;
aSortData.bHasHeader = false;
aSortData.bByRow = true;
aSortData.maKeyState[0].bDoSort = true;
aSortData.maKeyState[0].nField = 0;
aSortData.maKeyState[0].bAscending = false;
bool bSorted = aFunc.Sort(0, aSortData, true, true, true);
CPPUNIT_ASSERT(bSorted);
{
// Expected output table content. 0 = empty cell
std::vector<std::vector<const char*>> aOutputCheck = {
{ "2", "2", "2" },
{ "1", "1", "1" },
};
bool bSuccess = checkOutput(m_pDoc, aDataRange, aOutputCheck, "Sorted without reference update");
CPPUNIT_ASSERT_MESSAGE("Table output check failed", bSuccess);
}
// Make sure that the formulas in B1:C2 are not adjusted.
ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(1,0,0), "A1", "Wrong formula!");
ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(1,1,0), "A2", "Wrong formula!");
ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(2,0,0), "B1", "Wrong formula!");
ASSERT_FORMULA_EQUAL(*m_pDoc, ScAddress(2,1,0), "B2", "Wrong formula!");
}
m_pDoc->DeleteTab(0);
}
void TestSort::testSortOutOfPlaceResult()
{
m_pDoc->InsertTab(0, "Sort");
m_pDoc->InsertTab(1, "Result");
const char* pData[] = {
"Header",
"1",
"23",
"2",
"9",
"-2",
nullptr // terminator
};
// source data in A1:A6.
for (SCROW i = 0; pData[i]; ++i)
m_pDoc->SetString(ScAddress(0,i,0), OUString::createFromAscii(pData[i]));
// Check the initial values.
CPPUNIT_ASSERT_EQUAL(OUString("Header"), m_pDoc->GetString(ScAddress(0,0,0)));
CPPUNIT_ASSERT_EQUAL( 1.0, m_pDoc->GetValue(ScAddress(0,1,0)));
CPPUNIT_ASSERT_EQUAL(23.0, m_pDoc->GetValue(ScAddress(0,2,0)));
CPPUNIT_ASSERT_EQUAL( 2.0, m_pDoc->GetValue(ScAddress(0,3,0)));
CPPUNIT_ASSERT_EQUAL( 9.0, m_pDoc->GetValue(ScAddress(0,4,0)));
CPPUNIT_ASSERT_EQUAL(-2.0, m_pDoc->GetValue(ScAddress(0,5,0)));
ScDBDocFunc aFunc(*m_xDocShell);
// Sort A1:A6, and set the result to C2:C7
m_pDoc->SetAnonymousDBData(
0, std::unique_ptr<ScDBData>(new ScDBData(STR_DB_LOCAL_NONAME, 0, 0, 0, 0, 5)));
ScSortParam aSortData;
aSortData.nCol1 = 0;
aSortData.nCol2 = 0;
aSortData.nRow1 = 0;
aSortData.nRow2 = 5;
aSortData.bHasHeader = true;
aSortData.bInplace = false;
aSortData.nDestTab = 1;
aSortData.nDestCol = 2;
aSortData.nDestRow = 1;
aSortData.maKeyState[0].bDoSort = true;
aSortData.maKeyState[0].nField = 0;
aSortData.maKeyState[0].bAscending = true;
bool bSorted = aFunc.Sort(0, aSortData, true, true, true);
CPPUNIT_ASSERT(bSorted);
// Source data still intact.
CPPUNIT_ASSERT_EQUAL(OUString("Header"), m_pDoc->GetString(ScAddress(0,0,0)));
CPPUNIT_ASSERT_EQUAL( 1.0, m_pDoc->GetValue(ScAddress(0,1,0)));
CPPUNIT_ASSERT_EQUAL(23.0, m_pDoc->GetValue(ScAddress(0,2,0)));
CPPUNIT_ASSERT_EQUAL( 2.0, m_pDoc->GetValue(ScAddress(0,3,0)));
CPPUNIT_ASSERT_EQUAL( 9.0, m_pDoc->GetValue(ScAddress(0,4,0)));
CPPUNIT_ASSERT_EQUAL(-2.0, m_pDoc->GetValue(ScAddress(0,5,0)));
// Sort result in C2:C7 on sheet "Result".
CPPUNIT_ASSERT_EQUAL(OUString("Header"), m_pDoc->GetString(ScAddress(2,1,1)));
CPPUNIT_ASSERT_EQUAL(-2.0, m_pDoc->GetValue(ScAddress(2,2,1)));
CPPUNIT_ASSERT_EQUAL( 1.0, m_pDoc->GetValue(ScAddress(2,3,1)));
CPPUNIT_ASSERT_EQUAL( 2.0, m_pDoc->GetValue(ScAddress(2,4,1)));
CPPUNIT_ASSERT_EQUAL( 9.0, m_pDoc->GetValue(ScAddress(2,5,1)));
CPPUNIT_ASSERT_EQUAL(23.0, m_pDoc->GetValue(ScAddress(2,6,1)));
m_pDoc->DeleteTab(1);
m_pDoc->DeleteTab(0);
}
void TestSort::testSortPartialFormulaGroup()
{
SortRefUpdateSetter aUpdateSet;
sc::AutoCalcSwitch aACSwitch(*m_pDoc, true); // turn auto calc on.
FormulaGrammarSwitch aFGSwitch(m_pDoc, formula::FormulaGrammar::GRAM_ENGLISH_XL_R1C1);
m_pDoc->InsertTab(0, "Sort");
// Set up the sheet.
const char* aData[][2] = {
{ "F1", "F2" },
{ "43", "=RC[-1]" },
{ "50", "=RC[-1]" },
{ "8", "=RC[-1]" },
{ "47", "=RC[-1]" },
{ "28", "=RC[-1]" },
{ nullptr, nullptr } // terminator
};
// A1:B6.
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]));
}
// Check the initial condition.
for (SCROW i = 1; i <= 5; ++i)
// A2:A6 should equal B2:B6.
CPPUNIT_ASSERT_EQUAL(m_pDoc->GetValue(ScAddress(0,i,0)), m_pDoc->GetValue(ScAddress(1,i,0)));
const ScFormulaCell* pFC = m_pDoc->GetFormulaCell(ScAddress(1,1,0));
CPPUNIT_ASSERT(pFC);
CPPUNIT_ASSERT_MESSAGE("This formula cell should be the first in a group.", pFC->IsSharedTop());
CPPUNIT_ASSERT_EQUAL_MESSAGE("Incorrect formula group length.", static_cast<SCROW>(5), pFC->GetSharedLength());
ScDBDocFunc aFunc(*m_xDocShell);
// Sort only B2:B4. This caused crash at one point (c.f. fdo#81617).
m_pDoc->SetAnonymousDBData(0, std::unique_ptr<ScDBData>(new ScDBData(STR_DB_LOCAL_NONAME, 0, 1, 1, 1, 3)));
ScSortParam aSortData;
aSortData.nCol1 = 1;
aSortData.nCol2 = 1;
aSortData.nRow1 = 1;
aSortData.nRow2 = 3;
aSortData.bHasHeader = false;
aSortData.bInplace = true;
aSortData.maKeyState[0].bDoSort = true;
aSortData.maKeyState[0].nField = 0;
aSortData.maKeyState[0].bAscending = true;
bool bSorted = aFunc.Sort(0, aSortData, true, true, true);
CPPUNIT_ASSERT(bSorted);
m_pDoc->CalcAll(); // just in case...
// Check the cell values after the partial sort.
// Column A
CPPUNIT_ASSERT_EQUAL(43.0, m_pDoc->GetValue(ScAddress(0,1,0)));
CPPUNIT_ASSERT_EQUAL(50.0, m_pDoc->GetValue(ScAddress(0,2,0)));
CPPUNIT_ASSERT_EQUAL( 8.0, m_pDoc->GetValue(ScAddress(0,3,0)));
CPPUNIT_ASSERT_EQUAL(47.0, m_pDoc->GetValue(ScAddress(0,4,0)));
CPPUNIT_ASSERT_EQUAL(28.0, m_pDoc->GetValue(ScAddress(0,5,0)));
// Column B
CPPUNIT_ASSERT_EQUAL( 8.0, m_pDoc->GetValue(ScAddress(1,1,0)));
CPPUNIT_ASSERT_EQUAL(43.0, m_pDoc->GetValue(ScAddress(1,2,0)));
CPPUNIT_ASSERT_EQUAL(50.0, m_pDoc->GetValue(ScAddress(1,3,0)));
CPPUNIT_ASSERT_EQUAL(47.0, m_pDoc->GetValue(ScAddress(1,4,0)));
CPPUNIT_ASSERT_EQUAL(28.0, m_pDoc->GetValue(ScAddress(1,5,0)));
m_pDoc->DeleteTab(0);
}
void TestSort::testSortImages()
{
m_pDoc->InsertTab(0, "testSortImages");
// We need a drawing layer in order to create caption objects.
m_pDoc->InitDrawLayer(m_xDocShell.get());
ScDrawLayer* pDrawLayer = m_pDoc->GetDrawLayer();
CPPUNIT_ASSERT(pDrawLayer);
ScAddress aPos(0,0,0);
{
const std::vector<std::vector<const char*>> aData = {
{ "2" },
{ "1" },
};
clearRange(m_pDoc, ScRange(0, 0, 0, 1, aData.size(), 0));
ScRange aDataRange = insertRangeData(m_pDoc, aPos, aData);
CPPUNIT_ASSERT_EQUAL_MESSAGE("failed to insert range data at correct position", aPos, aDataRange.aStart);
}
// Insert graphic in cell B2.
const tools::Rectangle aOrigRect(1000, 1000, 1200, 1200);
SdrCircObj* pObj = new SdrCircObj(*pDrawLayer, SdrCircKind::Full, aOrigRect);
SdrPage* pPage = pDrawLayer->GetPage(0);
CPPUNIT_ASSERT(pPage);
pPage->InsertObject(pObj);
// Anchor to cell
ScDrawLayer::SetCellAnchoredFromPosition(*pObj, *m_pDoc, 0, false);
// Move to cell B2
ScAddress aCellPos(1, 1, 0);
pDrawLayer->MoveObject(pObj, aCellPos);
std::map<SCROW, std::vector<SdrObject*>> pRowObjects
= pDrawLayer->GetObjectsAnchoredToRange(aCellPos.Tab(), aCellPos.Col(), aCellPos.Row(), aCellPos.Row());
CPPUNIT_ASSERT_EQUAL(static_cast<size_t>(1), pRowObjects[aCellPos.Row()].size());
ScSortParam aSortData;
aSortData.nCol1 = 0;
aSortData.nCol2 = 1;
aSortData.nRow1 = 0;
aSortData.nRow2 = 1;
aSortData.maKeyState[0].bDoSort = true;
aSortData.maKeyState[0].nField = 0;
aSortData.maKeyState[0].bAscending = true;
m_pDoc->Sort(0, aSortData, false, true, nullptr, nullptr);
double nVal = m_pDoc->GetValue(0,0,0);
ASSERT_DOUBLES_EQUAL(nVal, 1.0);
// check that note is also moved after sorting
aCellPos = ScAddress(1, 0, 0);
pRowObjects
= pDrawLayer->GetObjectsAnchoredToRange(aCellPos.Tab(), aCellPos.Col(), aCellPos.Row(), aCellPos.Row());
CPPUNIT_ASSERT_EQUAL(static_cast<size_t>(1), pRowObjects[aCellPos.Row()].size());
m_pDoc->DeleteTab(0);
}
namespace
{
class TestQueryIterator
: public ScQueryCellIteratorBase< ScQueryCellIteratorAccess::Direct, ScQueryCellIteratorType::Generic >
{
typedef ScQueryCellIteratorBase< ScQueryCellIteratorAccess::Direct, ScQueryCellIteratorType::Generic > Base;
public:
TestQueryIterator( ScDocument& rDocument, ScInterpreterContext& rContext, SCTAB nTable,
const ScQueryParam& aParam, bool bMod )
: Base( rDocument, rContext, nTable, aParam, bMod )
{
}
using Base::BinarySearch; // make public
SCROW GetRow() const { return nRow; }
};
ScQueryParam makeSearchParam( const ScRange& range, SCCOL col, ScQueryOp op, double value )
{
ScQueryParam param;
param.nCol1 = param.nCol2 = col;
param.nRow1 = range.aStart.Row();
param.nRow2 = range.aEnd.Row();
param.nTab = 0;
ScQueryEntry& entry = param.GetEntry(0);
ScQueryEntry::Item& item = entry.GetQueryItem();
entry.bDoQuery = true;
entry.eOp = op;
item.mfVal = value;
item.meType = ScQueryEntry::ByValue;
return param;
}
} // namespace
void TestSort::testQueryBinarySearch()
{
m_pDoc->InsertTab(0, "testQueryBinarySearch");
const ScAddress formulaAddress( 10, 0, 0 );
ScRange range;
SCCOL ascendingCol;
SCCOL descendingCol;
OUString ascendingRangeName;
OUString descendingRangeName;
{
const std::vector<std::vector<const char*>> data = {
{ "1", "9" }, // 0
{ "2", "9" }, // 1
{ "4", "5" }, // 2
{ "5", "5" }, // 3
{ "5", "5" }, // 4
{ "5", "5" }, // 5
{ "5", "5" }, // 6
{ "5", "4" }, // 7
{ "5", "4" }, // 8
{ "9", "2" }, // 9
{ "9", "1" }, // 10
};
ascendingCol = 0;
descendingCol = 1;
ascendingRangeName = u"$A$1:$A$" + OUString::number(data.size());
descendingRangeName = u"$B$1:$B$" + OUString::number(data.size());
ScAddress pos(0,0,0);
range = insertRangeData(m_pDoc, pos, data);
CPPUNIT_ASSERT_EQUAL( ScRange( 0, 0, 0, data[ 0 ].size() - 1, data.size() - 1, 0 ), range );
}
{
// This should return the last 5.
m_pDoc->SetFormula( formulaAddress, "=MATCH(5;" + ascendingRangeName + ";1)",
formula::FormulaGrammar::GRAM_NATIVE_UI);
CPPUNIT_ASSERT_EQUAL( 9.0, m_pDoc->GetValue( formulaAddress ));
ScQueryParam param = makeSearchParam( range, ascendingCol, SC_LESS_EQUAL, 5 );
TestQueryIterator it( *m_pDoc, m_pDoc->GetNonThreadedContext(), 0, param, false );
CPPUNIT_ASSERT(it.BinarySearch( ascendingCol ));
CPPUNIT_ASSERT_EQUAL(SCROW(8), it.GetRow());
}
{
ScQueryParam param = makeSearchParam( range, ascendingCol, SC_LESS, 5 );
TestQueryIterator it( *m_pDoc, m_pDoc->GetNonThreadedContext(), 0, param, false );
CPPUNIT_ASSERT(it.BinarySearch( ascendingCol ));
CPPUNIT_ASSERT_EQUAL(SCROW(2), it.GetRow());
}
{
ScQueryParam param = makeSearchParam( range, ascendingCol, SC_EQUAL, 5 );
TestQueryIterator it( *m_pDoc, m_pDoc->GetNonThreadedContext(), 0, param, false );
CPPUNIT_ASSERT(it.BinarySearch( ascendingCol ));
CPPUNIT_ASSERT_EQUAL(SCROW(8), it.GetRow());
}
{
// Descending, this should return the last 5.
m_pDoc->SetFormula( formulaAddress, "=MATCH(5;" + descendingRangeName + ";-1)",
formula::FormulaGrammar::GRAM_NATIVE_UI);
CPPUNIT_ASSERT_EQUAL(7.0, m_pDoc->GetValue( formulaAddress ));
ScQueryParam param = makeSearchParam( range, descendingCol, SC_GREATER_EQUAL, 5 );
TestQueryIterator it( *m_pDoc, m_pDoc->GetNonThreadedContext(), 0, param, false );
CPPUNIT_ASSERT(it.BinarySearch( descendingCol ));
CPPUNIT_ASSERT_EQUAL(SCROW(6), it.GetRow());
}
{
ScQueryParam param = makeSearchParam( range, descendingCol, SC_GREATER, 5 );
TestQueryIterator it( *m_pDoc, m_pDoc->GetNonThreadedContext(), 0, param, false );
CPPUNIT_ASSERT(it.BinarySearch( descendingCol ));
CPPUNIT_ASSERT_EQUAL(SCROW(1), it.GetRow());
}
{
// There's no 6, so this should return the last 5.
m_pDoc->SetFormula( formulaAddress, "=MATCH(6;" + ascendingRangeName + ";1)",
formula::FormulaGrammar::GRAM_NATIVE_UI);
CPPUNIT_ASSERT_EQUAL( 9.0, m_pDoc->GetValue( formulaAddress ));
ScQueryParam param = makeSearchParam( range, ascendingCol, SC_LESS_EQUAL, 6 );
TestQueryIterator it( *m_pDoc, m_pDoc->GetNonThreadedContext(), 0, param, false );
CPPUNIT_ASSERT(it.BinarySearch( ascendingCol ));
CPPUNIT_ASSERT_EQUAL(SCROW(8), it.GetRow());
}
{
ScQueryParam param = makeSearchParam( range, ascendingCol, SC_LESS, 6 );
TestQueryIterator it( *m_pDoc, m_pDoc->GetNonThreadedContext(), 0, param, false );
CPPUNIT_ASSERT(it.BinarySearch( ascendingCol ));
CPPUNIT_ASSERT_EQUAL(SCROW(8), it.GetRow());
}
{
ScQueryParam param = makeSearchParam( range, ascendingCol, SC_EQUAL, 6 );
TestQueryIterator it( *m_pDoc, m_pDoc->GetNonThreadedContext(), 0, param, false );
CPPUNIT_ASSERT(it.BinarySearch( ascendingCol ));
CPPUNIT_ASSERT_EQUAL(SCROW(8), it.GetRow());
}
{
// Descending, there's no 6, so this should return the last 9.
m_pDoc->SetFormula( formulaAddress, "=MATCH(6;" + descendingRangeName + ";-1)",
formula::FormulaGrammar::GRAM_NATIVE_UI);
CPPUNIT_ASSERT_EQUAL( 2.0, m_pDoc->GetValue( formulaAddress ));
ScQueryParam param = makeSearchParam( range, descendingCol, SC_GREATER_EQUAL, 6 );
TestQueryIterator it( *m_pDoc, m_pDoc->GetNonThreadedContext(), 0, param, false );
CPPUNIT_ASSERT(it.BinarySearch( descendingCol ));
CPPUNIT_ASSERT_EQUAL(SCROW(1), it.GetRow());
}
{
ScQueryParam param = makeSearchParam( range, descendingCol, SC_GREATER, 6 );
TestQueryIterator it( *m_pDoc, m_pDoc->GetNonThreadedContext(), 0, param, false );
CPPUNIT_ASSERT(it.BinarySearch( descendingCol ));
CPPUNIT_ASSERT_EQUAL(SCROW(1), it.GetRow());
}
{
// All values are larger than 0, so there should be no match.
m_pDoc->SetFormula( formulaAddress, "=MATCH(0;" + ascendingRangeName + ";1)",
formula::FormulaGrammar::GRAM_NATIVE_UI);
CPPUNIT_ASSERT_EQUAL( FormulaError::NotAvailable, m_pDoc->GetErrCode( formulaAddress ));
ScQueryParam param = makeSearchParam( range, ascendingCol, SC_LESS_EQUAL, 0 );
TestQueryIterator it( *m_pDoc, m_pDoc->GetNonThreadedContext(), 0, param, false );
CPPUNIT_ASSERT(!it.BinarySearch( ascendingCol ));
CPPUNIT_ASSERT_EQUAL(SCROW(0), it.GetRow());
}
{
ScQueryParam param = makeSearchParam( range, ascendingCol, SC_LESS, 0 );
TestQueryIterator it( *m_pDoc, m_pDoc->GetNonThreadedContext(), 0, param, false );
CPPUNIT_ASSERT(!it.BinarySearch( ascendingCol ));
CPPUNIT_ASSERT_EQUAL(SCROW(0), it.GetRow());
}
{
ScQueryParam param = makeSearchParam( range, ascendingCol, SC_EQUAL, 0 );
TestQueryIterator it( *m_pDoc, m_pDoc->GetNonThreadedContext(), 0, param, false );
CPPUNIT_ASSERT(!it.BinarySearch( ascendingCol ));
CPPUNIT_ASSERT_EQUAL(SCROW(0), it.GetRow());
}
{
// Descending, all values are larger than 0, so this should return the last item.
m_pDoc->SetFormula( formulaAddress, "=MATCH(0;" + descendingRangeName + ";-1)",
formula::FormulaGrammar::GRAM_NATIVE_UI);
CPPUNIT_ASSERT_EQUAL( 11.0, m_pDoc->GetValue( formulaAddress ));
ScQueryParam param = makeSearchParam( range, descendingCol, SC_GREATER_EQUAL, 0 );
TestQueryIterator it( *m_pDoc, m_pDoc->GetNonThreadedContext(), 0, param, false );
CPPUNIT_ASSERT(it.BinarySearch( descendingCol ));
CPPUNIT_ASSERT_EQUAL(SCROW(10), it.GetRow());
}
{
ScQueryParam param = makeSearchParam( range, descendingCol, SC_GREATER, 0 );
TestQueryIterator it( *m_pDoc, m_pDoc->GetNonThreadedContext(), 0, param, false );
CPPUNIT_ASSERT(it.BinarySearch( descendingCol ));
CPPUNIT_ASSERT_EQUAL(SCROW(10), it.GetRow());
}
{
// All values are smaller than 10, so this should return the last item.
m_pDoc->SetFormula( formulaAddress, "=MATCH(10;" + ascendingRangeName + ";1)",
formula::FormulaGrammar::GRAM_NATIVE_UI);
CPPUNIT_ASSERT_EQUAL( 11.0, m_pDoc->GetValue( formulaAddress ));
ScQueryParam param = makeSearchParam( range, ascendingCol, SC_LESS_EQUAL, 10 );
TestQueryIterator it( *m_pDoc, m_pDoc->GetNonThreadedContext(), 0, param, false );
CPPUNIT_ASSERT(it.BinarySearch( ascendingCol ));
CPPUNIT_ASSERT_EQUAL(SCROW(10), it.GetRow());
}
{
ScQueryParam param = makeSearchParam( range, ascendingCol, SC_LESS, 10 );
TestQueryIterator it( *m_pDoc, m_pDoc->GetNonThreadedContext(), 0, param, false );
CPPUNIT_ASSERT(it.BinarySearch( ascendingCol ));
CPPUNIT_ASSERT_EQUAL(SCROW(10), it.GetRow());
}
{
ScQueryParam param = makeSearchParam( range, ascendingCol, SC_EQUAL, 10 );
TestQueryIterator it( *m_pDoc, m_pDoc->GetNonThreadedContext(), 0, param, false );
CPPUNIT_ASSERT(it.BinarySearch( ascendingCol ));
CPPUNIT_ASSERT_EQUAL(SCROW(10), it.GetRow());
}
{
// Descending, all values are smaller than 10, so there should be no match.
m_pDoc->SetFormula( formulaAddress, "=MATCH(10;" + descendingRangeName + ";-1)",
formula::FormulaGrammar::GRAM_NATIVE_UI);
CPPUNIT_ASSERT_EQUAL( FormulaError::NotAvailable, m_pDoc->GetErrCode( formulaAddress ));
ScQueryParam param = makeSearchParam( range, descendingCol, SC_GREATER_EQUAL, 10 );
TestQueryIterator it( *m_pDoc, m_pDoc->GetNonThreadedContext(), 0, param, false );
CPPUNIT_ASSERT(!it.BinarySearch( descendingCol ));
CPPUNIT_ASSERT_EQUAL(SCROW(0), it.GetRow());
}
{
ScQueryParam param = makeSearchParam( range, descendingCol, SC_GREATER, 10 );
TestQueryIterator it( *m_pDoc, m_pDoc->GetNonThreadedContext(), 0, param, false );
CPPUNIT_ASSERT(!it.BinarySearch( descendingCol ));
CPPUNIT_ASSERT_EQUAL(SCROW(0), it.GetRow());
}
{
// Search as ascending but use descending range, will return no match.
ScQueryParam param = makeSearchParam( range, descendingCol, SC_LESS_EQUAL, 1 );
TestQueryIterator it( *m_pDoc, m_pDoc->GetNonThreadedContext(), 0, param, false );
CPPUNIT_ASSERT(!it.BinarySearch( descendingCol ));
CPPUNIT_ASSERT_EQUAL(SCROW(0), it.GetRow());
}
{
// Search as descending but use ascending range, will return no match.
ScQueryParam param = makeSearchParam( range, ascendingCol, SC_GREATER_EQUAL, 9 );
TestQueryIterator it( *m_pDoc, m_pDoc->GetNonThreadedContext(), 0, param, false );
CPPUNIT_ASSERT(!it.BinarySearch( ascendingCol ));
CPPUNIT_ASSERT_EQUAL(SCROW(0), it.GetRow());
}
{
// SC_EQUAL with descending is considered an error, will return no match.
ScQueryParam param = makeSearchParam( range, descendingCol, SC_EQUAL, 9 );
TestQueryIterator it( *m_pDoc, m_pDoc->GetNonThreadedContext(), 0, param, false );
CPPUNIT_ASSERT(!it.BinarySearch( descendingCol ));
CPPUNIT_ASSERT_EQUAL(SCROW(0), it.GetRow());
}
m_pDoc->DeleteTab(0);
}
CPPUNIT_TEST_SUITE_REGISTRATION(TestSort);
CPPUNIT_PLUGIN_IMPLEMENT();
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