public NumberEval(Ptg ptg)
{
if (ptg is IntPtg)
{
this._value = ((IntPtg)ptg).Value;
}
else if (ptg is NumberPtg)
{
this._value = ((NumberPtg)ptg).Value;
}
}
public ParseNode(Ptg token, ParseNode[] children)
{
_token = token;
_children = children;
_isIf = IsIf(token);
int tokenCount = 1;
for (int i = 0; i < children.Length; i++)
{
tokenCount += children[i].GetTokenCount();
}
if (_isIf)
{
// there will be 2 or 3 extra tAttr tokens according to whether the false param is present
tokenCount += children.Length;
}
_tokenCount = tokenCount;
}
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);
}
throw new ArgumentException("Unexpected ref ptg class (" + ptg.GetType().Name + ")");
}
private static bool IsSimpleValueFunction(Ptg token)
{
if (token is AbstractFunctionPtg)
{
AbstractFunctionPtg aptg = (AbstractFunctionPtg)token;
if (aptg.DefaultOperandClass != Ptg.CLASS_VALUE)
{
return false;
}
int numberOfOperands = aptg.NumberOfOperands;
for (int i = numberOfOperands - 1; i >= 0; i--)
{
if (aptg.GetParameterClass(i) != Ptg.CLASS_VALUE)
{
return false;
}
}
return true;
}
return false;
}
public void SetParsedExpression(Ptg[] ptgs)
{
field_8_parsed_expr = LF.Utils.NPOI.SS.Formula.Formula.Create(ptgs);
}
/**
* Constructs an EmbeddedObjectRef record and Sets its fields appropriately.
*
* @param in the record input stream.
*/
public EmbeddedObjectRefSubRecord(ILittleEndianInput in1, int size)
{
// Much guess-work going on here due to lack of any documentation.
// See similar source code in OOO:
// http://lxr.go-oo.org/source/sc/sc/source/filter/excel/xiescher.cxx
// 1223 void XclImpOleObj::ReadPictFmla( XclImpStream& rStrm, sal_uInt16 nRecSize )
int streamIdOffset = in1.ReadShort(); // OOO calls this 'nFmlaLen'
int remaining = size - LittleEndianConsts.SHORT_SIZE;
int dataLenAfterFormula = remaining - streamIdOffset;
int formulaSize = in1.ReadUShort();
remaining -= LittleEndianConsts.SHORT_SIZE;
field_1_unknown_int = in1.ReadInt();
remaining -= LittleEndianConsts.INT_SIZE;
byte[] formulaRawBytes = ReadRawData(in1, formulaSize);
remaining -= formulaSize;
field_2_refPtg = ReadRefPtg(formulaRawBytes);
if (field_2_refPtg == null)
{
// common case
// field_2_n16 seems to be 5 here
// The formula almost looks like tTbl but the row/column values seem like garbage.
field_2_unknownFormulaData = formulaRawBytes;
}
else
{
field_2_unknownFormulaData = null;
}
int stringByteCount;
if (remaining >= dataLenAfterFormula + 3)
{
int tag = in1.ReadByte();
stringByteCount = LittleEndianConsts.BYTE_SIZE;
if (tag != 0x03)
{
throw new RecordFormatException("Expected byte 0x03 here");
}
int nChars = in1.ReadUShort();
stringByteCount += LittleEndianConsts.SHORT_SIZE;
if (nChars > 0)
{
// OOO: the 4th way Xcl stores a unicode string: not even a Grbit byte present if Length 0
field_3_unicode_flag = (in1.ReadByte() & 0x01) != 0;
stringByteCount += LittleEndianConsts.BYTE_SIZE;
if (field_3_unicode_flag)
{
field_4_ole_classname = StringUtil.ReadUnicodeLE(in1,nChars);
stringByteCount += nChars * 2;
}
else
{
field_4_ole_classname = StringUtil.ReadCompressedUnicode(in1,nChars);
stringByteCount += nChars;
}
}
else
{
field_4_ole_classname = "";
}
}
else
{
field_4_ole_classname = null;
stringByteCount = 0;
}
remaining -= stringByteCount;
// Pad to next 2-byte boundary
if (((stringByteCount + formulaSize) % 2) != 0)
{
int b = in1.ReadByte();
remaining -= LittleEndianConsts.BYTE_SIZE;
if (field_2_refPtg != null && field_4_ole_classname == null)
{
field_4_unknownByte = (byte)b;
}
}
int nUnexpectedPadding = remaining - dataLenAfterFormula;
if (nUnexpectedPadding > 0)
{
Console.WriteLine("Discarding " + nUnexpectedPadding + " unexpected padding bytes ");
ReadRawData(in1, nUnexpectedPadding);
remaining -= nUnexpectedPadding;
}
// Fetch the stream ID
if (dataLenAfterFormula >= 4)
{
field_5_stream_id = in1.ReadInt();
remaining -= LittleEndianConsts.INT_SIZE;
}
else
{
field_5_stream_id = null;
}
field_6_unknown = ReadRawData(in1, remaining);
}
/**
* Static method to convert an array of {@link Ptg}s in RPN order
* to a human readable string format in infix mode.
* @param book used for defined names and 3D references
* @param ptgs must not be <c>null</c>
* @return a human readable String
*/
public static String ToFormulaString(HSSFWorkbook book, Ptg[] ptgs)
{
return FormulaRenderer.ToFormulaString(HSSFEvaluationWorkbook.Create(book), ptgs);
}
/**
* Also checks for a related shared formula and unlinks it if found
*/
public void SetParsedExpression(Ptg[] ptgs)
{
NotifyFormulaChanging();
_formulaRecord.ParsedExpression=(ptgs);
}
/**
* Creates a {@link Formula} object from a supplied {@link Ptg} array.
* Handles <code>null</code>s OK.
* @param ptgs may be <code>null</code>
* @return Never <code>null</code> (Possibly empty if the supplied <c>ptgs</c> is <code>null</code>)
*/
public static Formula Create(Ptg[] ptgs)
{
if (ptgs == null || ptgs.Length < 1)
{
return EMPTY;
}
int totalSize = Ptg.GetEncodedSize(ptgs);
byte[] encodedData = new byte[totalSize];
Ptg.SerializePtgs(ptgs, encodedData, 0);
int encodedTokenLen = Ptg.GetEncodedSizeWithoutArrayData(ptgs);
return new Formula(encodedData, encodedTokenLen);
}
private static bool IsDeletedCellRef(Ptg ptg)
{
if (ptg == ErrPtg.REF_INVALID)
{
return true;
}
if (ptg is DeletedArea3DPtg)
{
return true;
}
if (ptg is DeletedRef3DPtg)
{
return true;
}
if (ptg is AreaErrPtg)
{
return true;
}
if (ptg is RefErrorPtg)
{
return true;
}
return false;
}
public static bool DoesFormulaReferToDeletedCell(Ptg[] ptgs)
{
for (int i = 0; i < ptgs.Length; i++)
{
if (IsDeletedCellRef(ptgs[i]))
{
return true;
}
}
return false;
}
/**
* Writes the ptgs to the data buffer, starting at the specified offset.
*
* <br/>
* The 2 byte encode Length field is <b>not</b> written by this method.
* @return number of bytes written
*/
public static int SerializePtgs(Ptg[] ptgs, byte[] array, int offset)
{
int size = ptgs.Length;
LittleEndianByteArrayOutputStream out1 = new LittleEndianByteArrayOutputStream(array, offset);
ArrayList arrayPtgs = null;
for (int k = 0; k < size; k++)
{
Ptg ptg = ptgs[k];
ptg.Write(out1);
if (ptg is ArrayPtg)
{
if (arrayPtgs == null)
{
arrayPtgs = new ArrayList(5);
}
arrayPtgs.Add(ptg);
}
}
if (arrayPtgs != null)
{
for (int i = 0; i < arrayPtgs.Count; i++)
{
ArrayPtg p = (ArrayPtg)arrayPtgs[i];
p.WriteTokenValueBytes(out1);
}
}
return out1.WriteIndex - offset; ;
}
/**
* Used to calculate value that should be encoded at the start of the encoded Ptg token array;
* @return the size of the encoded Ptg tokens not including any trailing array data.
*/
public static int GetEncodedSizeWithoutArrayData(Ptg[] ptgs)
{
int result = 0;
for (int i = 0; i < ptgs.Length; i++)
{
Ptg ptg = ptgs[i];
if (ptg is ArrayPtg)
{
result += ArrayPtg.PLAIN_TOKEN_SIZE;
}
else
{
result += ptg.Size;
}
}
return result;
}
/**
* This method will return the same result as {@link #getEncodedSizeWithoutArrayData(Ptg[])}
* if there are no array tokens present.
* @return the full size taken to encode the specified <c>Ptg</c>s
*/
public static int GetEncodedSize(Ptg[] ptgs)
{
int result = 0;
for (int i = 0; i < ptgs.Length; i++)
{
result += ptgs[i].Size;
}
return result;
}
public StringEval(Ptg ptg):this(((StringPtg)ptg).Value)
{
}
public ParseNode(Ptg token):this(token, EMPTY_ARRAY)
{
}
public ParseNode(Ptg token, ParseNode child0, ParseNode child1): this(token, new ParseNode[] { child0, child1, })
{
}
/**
* Static method To convert an array of {@link Ptg}s in RPN order
* To a human readable string format in infix mode.
* @param book used for defined names and 3D references
* @param ptgs must not be <c>null</c>
* @return a human readable String
*/
public static String ToFormulaString(IFormulaRenderingWorkbook book, Ptg[] ptgs)
{
if (ptgs == null || ptgs.Length == 0)
{
throw new ArgumentException("ptgs must not be null");
}
Stack stack = new Stack();
for (int i = 0; i < ptgs.Length; i++)
{
Ptg ptg = ptgs[i];
// TODO - what about MemNoMemPtg?
if (ptg is MemAreaPtg || ptg is MemFuncPtg || ptg is MemErrPtg)
{
// marks the start of a list of area expressions which will be naturally combined
// by their trailing operators (e.g. UnionPtg)
// TODO - Put comment and throw exception in ToFormulaString() of these classes
continue;
}
if (ptg is ParenthesisPtg)
{
String contents = (String)stack.Pop();
stack.Push("(" + contents + ")");
continue;
}
if (ptg is AttrPtg)
{
AttrPtg attrPtg = ((AttrPtg)ptg);
if (attrPtg.IsOptimizedIf || attrPtg.IsOptimizedChoose || attrPtg.IsSkip)
{
continue;
}
if (attrPtg.IsSpace)
{
// POI currently doesn't render spaces in formulas
continue;
// but if it ever did, care must be taken:
// tAttrSpace comes *before* the operand it applies To, which may be consistent
// with how the formula text appears but is against the RPN ordering assumed here
}
if (attrPtg.IsSemiVolatile)
{
// similar To tAttrSpace - RPN is violated
continue;
}
if (attrPtg.IsSum)
{
String[] operands = GetOperands(stack, attrPtg.NumberOfOperands);
stack.Push(attrPtg.ToFormulaString(operands));
continue;
}
throw new Exception("Unexpected tAttr: " + attrPtg.ToString());
}
if (ptg is WorkbookDependentFormula)
{
WorkbookDependentFormula optg = (WorkbookDependentFormula)ptg;
stack.Push(optg.ToFormulaString(book));
continue;
}
if (!(ptg is OperationPtg))
{
stack.Push(ptg.ToFormulaString());
continue;
}
OperationPtg o = (OperationPtg)ptg;
String[] operands1 = GetOperands(stack, o.NumberOfOperands);
stack.Push(o.ToFormulaString(operands1));
}
if (stack.Count == 0)
{
// inspection of the code above reveals that every stack.pop() is followed by a
// stack.push(). So this is either an internal error or impossible.
throw new InvalidOperationException("Stack underflow");
}
String result = (String)stack.Pop();
if (stack.Count != 0)
{
// Might be caused by some Tokens like AttrPtg and Mem*Ptg, which really shouldn't
// Put anything on the stack
throw new InvalidOperationException("too much stuff left on the stack");
}
return result;
}
public void SetArrayFormula(CellRangeAddress r, Ptg[] ptgs)
{
ArrayRecord arr = new ArrayRecord(LF.Utils.NPOI.SS.Formula.Formula.Create(ptgs), new CellRangeAddress8Bit(r.FirstRow, r.LastRow, r.FirstColumn, r.LastColumn));
_sharedValueManager.AddArrayRecord(arr);
}
public FormulaPair(Ptg[] formula1, Ptg[] formula2)
{
_formula1 = formula1;
_formula2 = formula2;
}
/**
* @param in the stream to read data from
* @param cbFContinued the seconf short in the record header
* @param cmoOt the Containing Obj's {@link CommonObjectDataSubRecord#field_1_objectType}
*/
public LbsDataSubRecord(ILittleEndianInput in1, int cbFContinued, int cmoOt)
{
_cbFContinued = cbFContinued;
int encodedTokenLen = in1.ReadUShort();
if (encodedTokenLen > 0)
{
int formulaSize = in1.ReadUShort();
_unknownPreFormulaInt = in1.ReadInt();
Ptg[] ptgs = Ptg.ReadTokens(formulaSize, in1);
if (ptgs.Length != 1)
{
throw new RecordFormatException("Read " + ptgs.Length
+ " tokens but expected exactly 1");
}
_linkPtg = ptgs[0];
switch (encodedTokenLen - formulaSize - 6)
{
case 1:
_unknownPostFormulaByte = (byte)in1.ReadByte();
break;
case 0:
_unknownPostFormulaByte = null;
break;
default:
throw new RecordFormatException("Unexpected leftover bytes");
}
}
_cLines = in1.ReadUShort();
_iSel = in1.ReadUShort();
_flags = in1.ReadUShort();
_idEdit = in1.ReadUShort();
// From [MS-XLS].pdf 2.5.147 FtLbsData:
// This field MUST exist if and only if the Containing Obj?s cmo.ot is equal to 0x14.
if (cmoOt == 0x14)
{
_dropData = new LbsDropData(in1);
}
// From [MS-XLS].pdf 2.5.147 FtLbsData:
// This array MUST exist if and only if the fValidPlex flag (0x2) is set
if ((_flags & 0x2) != 0)
{
_rgLines = new String[_cLines];
for (int i = 0; i < _cLines; i++)
{
_rgLines[i] = StringUtil.ReadUnicodeString(in1);
}
}
// bits 5-6 in the _flags specify the type
// of selection behavior this list control is expected to support
// From [MS-XLS].pdf 2.5.147 FtLbsData:
// This array MUST exist if and only if the wListType field is not equal to 0.
if (((_flags >> 4) & 0x2) != 0)
{
_bsels = new bool[_cLines];
for (int i = 0; i < _cLines; i++)
{
_bsels[i] = in1.ReadByte() == 1;
}
}
}
public BoolEval(Ptg ptg)
{
this.value = ((BoolPtg)ptg).Value;
}
public void SetParsedExpression(Ptg[] ptgs)
{
field_5_name_definition = Formula.Create(ptgs);
}
private static bool IsIf(Ptg token)
{
if (token is FuncVarPtg)
{
FuncVarPtg func = (FuncVarPtg)token;
if (FunctionMetadataRegistry.FUNCTION_NAME_IF.Equals(func.Name))
{
return true;
}
}
return false;
}
private String ToFormulaString(Ptg[] ParsedExpression)
{
if (ParsedExpression == null)
{
return null;
}
return HSSFFormulaParser.ToFormulaString(workbook, ParsedExpression);
}
public void Add(Ptg token)
{
if (token == null)
{
throw new ArgumentException("token must not be null");
}
_ptgs[_offset] = token;
_offset++;
}
private static bool IsSingleArgSum(Ptg token)
{
if (token is AttrPtg)
{
AttrPtg attrPtg = (AttrPtg)token;
return attrPtg.IsSum;
}
return false;
}
public void SetPlaceholder(int index, Ptg token)
{
if (_ptgs[index] != null)
{
throw new InvalidOperationException("Invalid placeholder index (" + index + ")");
}
_ptgs[index] = token;
}
public DVRecord(int validationType, int operator1, int errorStyle, bool emptyCellAllowed,
bool suppressDropDownArrow, bool isExplicitList,
bool showPromptBox, String promptTitle, String promptText,
bool showErrorBox, String errorTitle, String errorText,
Ptg[] formula1, Ptg[] formula2,
CellRangeAddressList regions)
{
int flags = 0;
flags = opt_data_type.SetValue(flags, validationType);
flags = opt_condition_operator.SetValue(flags, operator1);
flags = opt_error_style.SetValue(flags, errorStyle);
flags = opt_empty_cell_allowed.SetBoolean(flags, emptyCellAllowed);
flags = opt_suppress_dropdown_arrow.SetBoolean(flags, suppressDropDownArrow);
flags = opt_string_list_formula.SetBoolean(flags, isExplicitList);
flags = opt_show_prompt_on_cell_selected.SetBoolean(flags, showPromptBox);
flags = opt_show_error_on_invalid_value.SetBoolean(flags, showErrorBox);
_option_flags = flags;
_promptTitle = ResolveTitleText(promptTitle);
_promptText = ResolveTitleText(promptText);
_errorTitle = ResolveTitleText(errorTitle);
_errorText = ResolveTitleText(errorText);
_formula1 = LF.Utils.NPOI.SS.Formula.Formula.Create(formula1);
_formula2 = LF.Utils.NPOI.SS.Formula.Formula.Create(formula2);
_regions = regions;
}
private Ptg AdjustPtgDueToShiftMove(Ptg ptg)
{
Ptg updatedPtg = null;
if (ptg is Ref3DPtg)
{
Ref3DPtg ref1 = (Ref3DPtg)ptg;
if (ref1.ExternSheetIndex == _srcSheetIndex)
{
ref1.ExternSheetIndex = (_dstSheetIndex);
updatedPtg = ref1;
}
else if (ref1.ExternSheetIndex == _dstSheetIndex)
{
ref1.ExternSheetIndex = (_srcSheetIndex);
updatedPtg = ref1;
}
}
return updatedPtg;
}