public ValueEval GetArea3DEval(Area3DPxg aptg)
{
SheetRangeEvaluator sre = CreateExternSheetRefEvaluator(aptg.SheetName, aptg.LastSheetName, aptg.ExternalWorkbookNumber);
return(new LazyAreaEval(aptg.FirstRow, aptg.FirstColumn,
aptg.LastRow, aptg.LastColumn, sre));
}
private static Ptg CreateDeletedRef(Ptg ptg)
{
if (ptg is RefPtg)
{
return(new RefErrorPtg());
}
if (ptg is Ref3DPtg)
{
Ref3DPtg rptg = (Ref3DPtg)ptg;
return(new DeletedRef3DPtg(rptg.ExternSheetIndex));
}
if (ptg is AreaPtg)
{
return(new AreaErrPtg());
}
if (ptg is Area3DPtg)
{
Area3DPtg area3DPtg = (Area3DPtg)ptg;
return(new DeletedArea3DPtg(area3DPtg.ExternSheetIndex));
}
if (ptg is Ref3DPxg)
{
Ref3DPxg pxg = (Ref3DPxg)ptg;
return(new Deleted3DPxg(pxg.ExternalWorkbookNumber, pxg.SheetName));
}
if (ptg is Area3DPxg)
{
Area3DPxg pxg = (Area3DPxg)ptg;
return(new Deleted3DPxg(pxg.ExternalWorkbookNumber, pxg.SheetName));
}
throw new ArgumentException("Unexpected ref ptg class (" + ptg.GetType().Name + ")");
}
// Fetch the workbook this refers to, and the name as defined with that
private ValueEval GetExternalNameXEval(ExternalName externName, string workbookName)
{
try
{
WorkbookEvaluator refWorkbookEvaluator = _bookEvaluator.GetOtherWorkbookEvaluator(workbookName);
IEvaluationName evaluationName = refWorkbookEvaluator.GetName(externName.Name, externName.Ix - 1);
if (evaluationName != null && evaluationName.HasFormula)
{
if (evaluationName.NameDefinition.Length > 1)
{
throw new Exception("Complex name formulas not supported yet");
}
// Need to Evaluate the reference in the context of the other book
OperationEvaluationContext refWorkbookContext = new OperationEvaluationContext(
refWorkbookEvaluator, refWorkbookEvaluator.Workbook, -1, -1, -1, _tracker);
Ptg ptg = evaluationName.NameDefinition[0];
if (ptg is Ref3DPtg)
{
Ref3DPtg ref3D = (Ref3DPtg)ptg;
return(refWorkbookContext.GetRef3DEval(ref3D));
}
else if (ptg is Ref3DPxg)
{
Ref3DPxg ref3D = (Ref3DPxg)ptg;
return(refWorkbookContext.GetRef3DEval(ref3D));
}
else if (ptg is Area3DPtg)
{
Area3DPtg area3D = (Area3DPtg)ptg;
return(refWorkbookContext.GetArea3DEval(area3D));
}
else if (ptg is Area3DPxg)
{
Area3DPxg area3D = (Area3DPxg)ptg;
return(refWorkbookContext.GetArea3DEval(area3D));
}
}
return(ErrorEval.REF_INVALID);
}
catch (WorkbookNotFoundException)
{
return(ErrorEval.REF_INVALID);
}
}
public void ParseStructuredReferences()
{
XSSFWorkbook wb = XSSFTestDataSamples.OpenSampleWorkbook("StructuredReferences.xlsx");
XSSFEvaluationWorkbook fpb = XSSFEvaluationWorkbook.Create(wb);
Ptg[] ptgs;
/*
* The following cases are tested (copied from FormulaParser.parseStructuredReference)
* 1 Table1[col]
* 2 Table1[[#Totals],[col]]
* 3 Table1[#Totals]
* 4 Table1[#All]
* 5 Table1[#Data]
* 6 Table1[#Headers]
* 7 Table1[#Totals]
* 8 Table1[#This Row]
* 9 Table1[[#All],[col]]
* 10 Table1[[#Headers],[col]]
* 11 Table1[[#Totals],[col]]
* 12 Table1[[#All],[col1]:[col2]]
* 13 Table1[[#Data],[col1]:[col2]]
* 14 Table1[[#Headers],[col1]:[col2]]
* 15 Table1[[#Totals],[col1]:[col2]]
* 16 Table1[[#Headers],[#Data],[col2]]
* 17 Table1[[#This Row], [col1]]
* 18 Table1[ [col1]:[col2] ]
*/
String tbl = "\\_Prime.1";
String noTotalsRowReason = ": Tables without a Totals row should return #REF! on [#Totals]";
////// Case 1: Evaluate Table1[col] with apostrophe-escaped #-signs ////////
ptgs = Parse(fpb, "SUM(" + tbl + "[calc='#*'#])");
Assert.AreEqual(2, ptgs.Length);
// Area3DPxg [sheet=Table ! A2:A7]
Assert.IsTrue(ptgs[0] is Area3DPxg);
Area3DPxg ptg0 = (Area3DPxg)ptgs[0];
Assert.AreEqual("Table", ptg0.SheetName);
Assert.AreEqual("A2:A7", ptg0.Format2DRefAsString());
// Note: structured references are evaluated and resolved to regular 3D area references.
Assert.AreEqual("Table!A2:A7", ptg0.ToFormulaString());
// AttrPtg [sum ]
Assert.IsTrue(ptgs[1] is AttrPtg);
AttrPtg ptg1 = (AttrPtg)ptgs[1];
Assert.IsTrue(ptg1.IsSum);
////// Case 1: Evaluate "Table1[col]" ////////
ptgs = Parse(fpb, tbl + "[Name]");
Assert.AreEqual(1, ptgs.Length);
Assert.AreEqual("Table!B2:B7", ptgs[0].ToFormulaString(), "Table1[col]");
////// Case 2: Evaluate "Table1[[#Totals],[col]]" ////////
ptgs = Parse(fpb, tbl + "[[#Totals],[col]]");
Assert.AreEqual(1, ptgs.Length);
Assert.AreEqual(ErrPtg.REF_INVALID, ptgs[0], "Table1[[#Totals],[col]]" + noTotalsRowReason);
////// Case 3: Evaluate "Table1[#Totals]" ////////
ptgs = Parse(fpb, tbl + "[#Totals]");
Assert.AreEqual(1, ptgs.Length);
Assert.AreEqual(ErrPtg.REF_INVALID, ptgs[0], "Table1[#Totals]" + noTotalsRowReason);
////// Case 4: Evaluate "Table1[#All]" ////////
ptgs = Parse(fpb, tbl + "[#All]");
Assert.AreEqual(1, ptgs.Length);
Assert.AreEqual("Table!A1:C7", ptgs[0].ToFormulaString(), "Table1[#All]");
////// Case 5: Evaluate "Table1[#Data]" (excludes Header and Data rows) ////////
ptgs = Parse(fpb, tbl + "[#Data]");
Assert.AreEqual(1, ptgs.Length);
Assert.AreEqual("Table!A2:C7", ptgs[0].ToFormulaString(), "Table1[#Data]");
////// Case 6: Evaluate "Table1[#Headers]" ////////
ptgs = Parse(fpb, tbl + "[#Headers]");
Assert.AreEqual(1, ptgs.Length);
Assert.AreEqual("Table!A1:C1", ptgs[0].ToFormulaString(), "Table1[#Headers]");
////// Case 7: Evaluate "Table1[#Totals]" ////////
ptgs = Parse(fpb, tbl + "[#Totals]");
Assert.AreEqual(1, ptgs.Length);
Assert.AreEqual(ErrPtg.REF_INVALID, ptgs[0], "Table1[#Totals]" + noTotalsRowReason);
////// Case 8: Evaluate "Table1[#This Row]" ////////
ptgs = Parse(fpb, tbl + "[#This Row]", 2);
Assert.AreEqual(1, ptgs.Length);
Assert.AreEqual("Table!A3:C3", ptgs[0].ToFormulaString(), "Table1[#This Row]");
////// Evaluate "Table1[@]" (equivalent to "Table1[#This Row]") ////////
ptgs = Parse(fpb, tbl + "[@]", 2);
Assert.AreEqual(1, ptgs.Length);
Assert.AreEqual("Table!A3:C3", ptgs[0].ToFormulaString());
////// Evaluate "Table1[#This Row]" when rowIndex is outside Table ////////
ptgs = Parse(fpb, tbl + "[#This Row]", 10);
Assert.AreEqual(1, ptgs.Length);
Assert.AreEqual(ErrPtg.VALUE_INVALID, ptgs[0], "Table1[#This Row]");
////// Evaluate "Table1[@]" when rowIndex is outside Table ////////
ptgs = Parse(fpb, tbl + "[@]", 10);
Assert.AreEqual(1, ptgs.Length);
Assert.AreEqual(ErrPtg.VALUE_INVALID, ptgs[0], "Table1[@]");
////// Evaluate "Table1[[#Data],[col]]" ////////
ptgs = Parse(fpb, tbl + "[[#Data], [Number]]");
Assert.AreEqual(1, ptgs.Length);
Assert.AreEqual("Table!C2:C7", ptgs[0].ToFormulaString(), "Table1[[#Data],[col]]");
////// Case 9: Evaluate "Table1[[#All],[col]]" ////////
ptgs = Parse(fpb, tbl + "[[#All], [Number]]");
Assert.AreEqual(1, ptgs.Length);
Assert.AreEqual("Table!C1:C7", ptgs[0].ToFormulaString(), "Table1[[#All],[col]]");
////// Case 10: Evaluate "Table1[[#Headers],[col]]" ////////
ptgs = Parse(fpb, tbl + "[[#Headers], [Number]]");
Assert.AreEqual(1, ptgs.Length);
// also acceptable: Table1!B1
Assert.AreEqual("Table!C1:C1", ptgs[0].ToFormulaString(), "Table1[[#Headers],[col]]");
////// Case 11: Evaluate "Table1[[#Totals],[col]]" ////////
ptgs = Parse(fpb, tbl + "[[#Totals],[Name]]");
Assert.AreEqual(1, ptgs.Length);
Assert.AreEqual(ErrPtg.REF_INVALID, ptgs[0], "Table1[[#Totals],[col]]" + noTotalsRowReason);
////// Case 12: Evaluate "Table1[[#All],[col1]:[col2]]" ////////
ptgs = Parse(fpb, tbl + "[[#All], [Name]:[Number]]");
Assert.AreEqual(1, ptgs.Length);
Assert.AreEqual("Table!B1:C7", ptgs[0].ToFormulaString(), "Table1[[#All],[col1]:[col2]]");
////// Case 13: Evaluate "Table1[[#Data],[col]:[col2]]" ////////
ptgs = Parse(fpb, tbl + "[[#Data], [Name]:[Number]]");
Assert.AreEqual(1, ptgs.Length);
Assert.AreEqual("Table!B2:C7", ptgs[0].ToFormulaString(), "Table1[[#Data],[col]:[col2]]");
////// Case 14: Evaluate "Table1[[#Headers],[col1]:[col2]]" ////////
ptgs = Parse(fpb, tbl + "[[#Headers], [Name]:[Number]]");
Assert.AreEqual(1, ptgs.Length);
Assert.AreEqual("Table!B1:C1", ptgs[0].ToFormulaString(), "Table1[[#Headers],[col1]:[col2]]");
////// Case 15: Evaluate "Table1[[#Totals],[col]:[col2]]" ////////
ptgs = Parse(fpb, tbl + "[[#Totals], [Name]:[Number]]");
Assert.AreEqual(1, ptgs.Length);
Assert.AreEqual(ErrPtg.REF_INVALID, ptgs[0], "Table1[[#Totals],[col]:[col2]]" + noTotalsRowReason);
////// Case 16: Evaluate "Table1[[#Headers],[#Data],[col]]" ////////
ptgs = Parse(fpb, tbl + "[[#Headers],[#Data],[Number]]");
Assert.AreEqual(1, ptgs.Length);
Assert.AreEqual("Table!C1:C7", ptgs[0].ToFormulaString(), "Table1[[#Headers],[#Data],[col]]");
////// Case 17: Evaluate "Table1[[#This Row], [col1]]" ////////
ptgs = Parse(fpb, tbl + "[[#This Row], [Number]]", 2);
Assert.AreEqual(1, ptgs.Length);
// also acceptable: Table!C3
Assert.AreEqual("Table!C3:C3", ptgs[0].ToFormulaString(), "Table1[[#This Row], [col1]]");
////// Case 18: Evaluate "Table1[[col]:[col2]]" ////////
ptgs = Parse(fpb, tbl + "[[Name]:[Number]]");
Assert.AreEqual(1, ptgs.Length);
Assert.AreEqual("Table!B2:C7", ptgs[0].ToFormulaString(), "Table1[[col]:[col2]]");
wb.Close();
}
private static ValueEval EvaluateIndirect(OperationEvaluationContext ec, String text,
bool isA1style)
{
int tmp = ec.RowIndex;
tmp = ec.ColumnIndex;
// Search backwards for '!' because sheet names can contain '!'
int plingPos = text.LastIndexOf('!');
String workbookName;
String sheetName;
String refText; // whitespace around this Gets Trimmed OK
if (plingPos < 0)
{
workbookName = null;
sheetName = null;
refText = text;
}
else
{
String[] parts = ParseWorkbookAndSheetName(text.Substring(0, plingPos));
if (parts == null)
{
return(ErrorEval.REF_INVALID);
}
workbookName = parts[0];
sheetName = parts[1];
refText = text.Substring(plingPos + 1);
}
String refStrPart1;
String refStrPart2;
if (Table.IsStructuredReference.Match(refText).Success)
{ // The argument is structured reference
Area3DPxg areaPtg = null;
try
{
areaPtg = FormulaParser.ParseStructuredReference(refText, (IFormulaParsingWorkbook)ec.GetWorkbook(), ec.RowIndex);
}
catch (FormulaParseException e)
{
return(ErrorEval.REF_INVALID);
}
return(ec.GetArea3DEval(areaPtg));
}
else
{ // The argumnet is regular reference
int colonPos = refText.IndexOf(':');
if (colonPos < 0)
{
refStrPart1 = refText.Trim();
refStrPart2 = null;
}
else
{
refStrPart1 = refText.Substring(0, colonPos).Trim();
refStrPart2 = refText.Substring(colonPos + 1).Trim();
}
return(ec.GetDynamicReference(workbookName, sheetName, refStrPart1, refStrPart2, isA1style));
}
}
/**
* @return <c>true</c> if this Ptg needed to be changed
*/
private Ptg AdjustPtgDueToRowMove(Ptg ptg, int currentExternSheetIx)
{
if (ptg is RefPtg)
{
if (currentExternSheetIx != _externSheetIndex)
{
// local refs on other sheets are unaffected
return(null);
}
RefPtg rptg = (RefPtg)ptg;
return(RowMoveRefPtg(rptg));
}
if (ptg is Ref3DPtg)
{
Ref3DPtg rptg = (Ref3DPtg)ptg;
if (_externSheetIndex != rptg.ExternSheetIndex)
{
// only move 3D refs that refer to the sheet with cells being moved
// (currentExternSheetIx is irrelevant)
return(null);
}
return(RowMoveRefPtg(rptg));
}
if (ptg is Ref3DPxg)
{
Ref3DPxg rpxg = (Ref3DPxg)ptg;
if (rpxg.ExternalWorkbookNumber > 0 ||
!_sheetName.Equals(rpxg.SheetName))
{
// only move 3D refs that refer to the sheet with cells being moved
return(null);
}
return(RowMoveRefPtg(rpxg));
}
if (ptg is Area2DPtgBase)
{
if (currentExternSheetIx != _externSheetIndex)
{
// local refs on other sheets are unaffected
return(ptg);
}
return(RowMoveAreaPtg((Area2DPtgBase)ptg));
}
if (ptg is Area3DPtg)
{
Area3DPtg aptg = (Area3DPtg)ptg;
if (_externSheetIndex != aptg.ExternSheetIndex)
{
// only move 3D refs that refer to the sheet with cells being moved
// (currentExternSheetIx is irrelevant)
return(null);
}
return(RowMoveAreaPtg(aptg));
}
if (ptg is Area3DPxg)
{
Area3DPxg apxg = (Area3DPxg)ptg;
if (apxg.ExternalWorkbookNumber > 0 ||
!_sheetName.Equals(apxg.SheetName))
{
// only move 3D refs that refer to the sheet with cells being moved
return(null);
}
return(RowMoveAreaPtg(apxg));
}
return(null);
}
