xref: /trunk/main/sc/source/core/tool/rangeseq.cxx (revision b3f79822)
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21 
22 
23 
24 // MARKER(update_precomp.py): autogen include statement, do not remove
25 #include "precompiled_sc.hxx"
26 
27 
28 
29 #include <svl/zforlist.hxx>
30 #include <rtl/math.hxx>
31 #include <tools/debug.hxx>
32 
33 #include <com/sun/star/uno/Any.hxx>
34 #include <com/sun/star/uno/Sequence.hxx>
35 
36 #include "rangeseq.hxx"
37 #include "document.hxx"
38 #include "dociter.hxx"
39 #include "scmatrix.hxx"
40 #include "cell.hxx"
41 
42 using namespace com::sun::star;
43 
44 //------------------------------------------------------------------------
45 
lcl_HasErrors(ScDocument * pDoc,const ScRange & rRange)46 bool lcl_HasErrors( ScDocument* pDoc, const ScRange& rRange )
47 {
48     // no need to look at empty cells - just use ScCellIterator
49     ScCellIterator aIter( pDoc, rRange );
50     ScBaseCell* pCell = aIter.GetFirst();
51     while (pCell)
52     {
53         if ( pCell->GetCellType() == CELLTYPE_FORMULA && static_cast<ScFormulaCell*>(pCell)->GetErrCode() != 0 )
54             return true;
55         pCell = aIter.GetNext();
56     }
57     return false;   // no error found
58 }
59 
lcl_DoubleToLong(double fVal)60 long lcl_DoubleToLong( double fVal )
61 {
62 	double fInt = (fVal >= 0.0) ? ::rtl::math::approxFloor( fVal ) :
63 								  ::rtl::math::approxCeil( fVal );
64 	if ( fInt >= LONG_MIN && fInt <= LONG_MAX )
65 		return (long)fInt;
66 	else
67 		return 0;		// out of range
68 }
69 
FillLongArray(uno::Any & rAny,ScDocument * pDoc,const ScRange & rRange)70 sal_Bool ScRangeToSequence::FillLongArray( uno::Any& rAny, ScDocument* pDoc, const ScRange& rRange )
71 {
72 	SCTAB nTab = rRange.aStart.Tab();
73 	SCCOL nStartCol = rRange.aStart.Col();
74 	SCROW nStartRow = rRange.aStart.Row();
75 	long nColCount = rRange.aEnd.Col() + 1 - rRange.aStart.Col();
76 	long nRowCount = rRange.aEnd.Row() + 1 - rRange.aStart.Row();
77 
78 	uno::Sequence< uno::Sequence<sal_Int32> > aRowSeq( nRowCount );
79 	uno::Sequence<sal_Int32>* pRowAry = aRowSeq.getArray();
80 	for (long nRow = 0; nRow < nRowCount; nRow++)
81 	{
82 		uno::Sequence<sal_Int32> aColSeq( nColCount );
83 		sal_Int32* pColAry = aColSeq.getArray();
84 		for (long nCol = 0; nCol < nColCount; nCol++)
85 			pColAry[nCol] = lcl_DoubleToLong( pDoc->GetValue(
86 				ScAddress( (SCCOL)(nStartCol+nCol), (SCROW)(nStartRow+nRow), nTab ) ) );
87 
88 		pRowAry[nRow] = aColSeq;
89 	}
90 
91 	rAny <<= aRowSeq;
92     return !lcl_HasErrors( pDoc, rRange );
93 }
94 
95 
FillLongArray(uno::Any & rAny,const ScMatrix * pMatrix)96 sal_Bool ScRangeToSequence::FillLongArray( uno::Any& rAny, const ScMatrix* pMatrix )
97 {
98 	if (!pMatrix)
99 		return sal_False;
100 
101 	SCSIZE nColCount;
102 	SCSIZE nRowCount;
103 	pMatrix->GetDimensions( nColCount, nRowCount );
104 
105 	uno::Sequence< uno::Sequence<sal_Int32> > aRowSeq( static_cast<sal_Int32>(nRowCount) );
106 	uno::Sequence<sal_Int32>* pRowAry = aRowSeq.getArray();
107 	for (SCSIZE nRow = 0; nRow < nRowCount; nRow++)
108 	{
109 		uno::Sequence<sal_Int32> aColSeq( static_cast<sal_Int32>(nColCount) );
110 		sal_Int32* pColAry = aColSeq.getArray();
111 		for (SCSIZE nCol = 0; nCol < nColCount; nCol++)
112 			if ( pMatrix->IsString( nCol, nRow ) )
113 				pColAry[nCol] = 0;
114 			else
115 				pColAry[nCol] = lcl_DoubleToLong( pMatrix->GetDouble( nCol, nRow ) );
116 
117 		pRowAry[nRow] = aColSeq;
118 	}
119 
120 	rAny <<= aRowSeq;
121 	return sal_True;
122 }
123 
124 //------------------------------------------------------------------------
125 
FillDoubleArray(uno::Any & rAny,ScDocument * pDoc,const ScRange & rRange)126 sal_Bool ScRangeToSequence::FillDoubleArray( uno::Any& rAny, ScDocument* pDoc, const ScRange& rRange )
127 {
128 	SCTAB nTab = rRange.aStart.Tab();
129 	SCCOL nStartCol = rRange.aStart.Col();
130 	SCROW nStartRow = rRange.aStart.Row();
131 	long nColCount = rRange.aEnd.Col() + 1 - rRange.aStart.Col();
132 	long nRowCount = rRange.aEnd.Row() + 1 - rRange.aStart.Row();
133 
134 	uno::Sequence< uno::Sequence<double> > aRowSeq( nRowCount );
135 	uno::Sequence<double>* pRowAry = aRowSeq.getArray();
136 	for (long nRow = 0; nRow < nRowCount; nRow++)
137 	{
138 		uno::Sequence<double> aColSeq( nColCount );
139 		double* pColAry = aColSeq.getArray();
140 		for (long nCol = 0; nCol < nColCount; nCol++)
141 			pColAry[nCol] = pDoc->GetValue(
142 				ScAddress( (SCCOL)(nStartCol+nCol), (SCROW)(nStartRow+nRow), nTab ) );
143 
144 		pRowAry[nRow] = aColSeq;
145 	}
146 
147 	rAny <<= aRowSeq;
148     return !lcl_HasErrors( pDoc, rRange );
149 }
150 
151 
FillDoubleArray(uno::Any & rAny,const ScMatrix * pMatrix)152 sal_Bool ScRangeToSequence::FillDoubleArray( uno::Any& rAny, const ScMatrix* pMatrix )
153 {
154 	if (!pMatrix)
155 		return sal_False;
156 
157 	SCSIZE nColCount;
158 	SCSIZE nRowCount;
159 	pMatrix->GetDimensions( nColCount, nRowCount );
160 
161 	uno::Sequence< uno::Sequence<double> > aRowSeq( static_cast<sal_Int32>(nRowCount) );
162 	uno::Sequence<double>* pRowAry = aRowSeq.getArray();
163 	for (SCSIZE nRow = 0; nRow < nRowCount; nRow++)
164 	{
165 		uno::Sequence<double> aColSeq( static_cast<sal_Int32>(nColCount) );
166 		double* pColAry = aColSeq.getArray();
167 		for (SCSIZE nCol = 0; nCol < nColCount; nCol++)
168 			if ( pMatrix->IsString( nCol, nRow ) )
169 				pColAry[nCol] = 0.0;
170 			else
171 				pColAry[nCol] = pMatrix->GetDouble( nCol, nRow );
172 
173 		pRowAry[nRow] = aColSeq;
174 	}
175 
176 	rAny <<= aRowSeq;
177 	return sal_True;
178 }
179 
180 //------------------------------------------------------------------------
181 
FillStringArray(uno::Any & rAny,ScDocument * pDoc,const ScRange & rRange)182 sal_Bool ScRangeToSequence::FillStringArray( uno::Any& rAny, ScDocument* pDoc, const ScRange& rRange )
183 {
184 	SCTAB nTab = rRange.aStart.Tab();
185 	SCCOL nStartCol = rRange.aStart.Col();
186 	SCROW nStartRow = rRange.aStart.Row();
187 	long nColCount = rRange.aEnd.Col() + 1 - rRange.aStart.Col();
188 	long nRowCount = rRange.aEnd.Row() + 1 - rRange.aStart.Row();
189 
190     bool bHasErrors = false;
191 
192 	uno::Sequence< uno::Sequence<rtl::OUString> > aRowSeq( nRowCount );
193 	uno::Sequence<rtl::OUString>* pRowAry = aRowSeq.getArray();
194 	for (long nRow = 0; nRow < nRowCount; nRow++)
195 	{
196 		uno::Sequence<rtl::OUString> aColSeq( nColCount );
197 		rtl::OUString* pColAry = aColSeq.getArray();
198 		for (long nCol = 0; nCol < nColCount; nCol++)
199 		{
200             sal_uInt16 nErrCode = pDoc->GetStringForFormula(
201                         ScAddress((SCCOL)(nStartCol+nCol), (SCROW)(nStartRow+nRow), nTab),
202                         pColAry[nCol] );
203             if ( nErrCode != 0 )
204                 bHasErrors = true;
205 		}
206 		pRowAry[nRow] = aColSeq;
207 	}
208 
209 	rAny <<= aRowSeq;
210     return !bHasErrors;
211 }
212 
213 
FillStringArray(uno::Any & rAny,const ScMatrix * pMatrix,SvNumberFormatter * pFormatter)214 sal_Bool ScRangeToSequence::FillStringArray( uno::Any& rAny, const ScMatrix* pMatrix,
215 											SvNumberFormatter* pFormatter )
216 {
217 	if (!pMatrix)
218 		return sal_False;
219 
220 	SCSIZE nColCount;
221 	SCSIZE nRowCount;
222 	pMatrix->GetDimensions( nColCount, nRowCount );
223 
224 	uno::Sequence< uno::Sequence<rtl::OUString> > aRowSeq( static_cast<sal_Int32>(nRowCount) );
225 	uno::Sequence<rtl::OUString>* pRowAry = aRowSeq.getArray();
226 	for (SCSIZE nRow = 0; nRow < nRowCount; nRow++)
227 	{
228 		uno::Sequence<rtl::OUString> aColSeq( static_cast<sal_Int32>(nColCount) );
229 		rtl::OUString* pColAry = aColSeq.getArray();
230 		for (SCSIZE nCol = 0; nCol < nColCount; nCol++)
231 		{
232 			String aStr;
233 			if ( pMatrix->IsString( nCol, nRow ) )
234 			{
235 				if ( !pMatrix->IsEmpty( nCol, nRow ) )
236 					aStr = pMatrix->GetString( nCol, nRow );
237 			}
238 			else if ( pFormatter )
239 			{
240 				double fVal = pMatrix->GetDouble( nCol, nRow );
241 				Color* pColor;
242 				pFormatter->GetOutputString( fVal, 0, aStr, &pColor );
243 			}
244 			pColAry[nCol] = rtl::OUString( aStr );
245 		}
246 
247 		pRowAry[nRow] = aColSeq;
248 	}
249 
250 	rAny <<= aRowSeq;
251 	return sal_True;
252 }
253 
254 //------------------------------------------------------------------------
255 
lcl_GetValueFromCell(ScBaseCell & rCell)256 double lcl_GetValueFromCell( ScBaseCell& rCell )
257 {
258 	//!	ScBaseCell member function?
259 
260 	CellType eType = rCell.GetCellType();
261 	if ( eType == CELLTYPE_VALUE )
262 		return ((ScValueCell&)rCell).GetValue();
263 	else if ( eType == CELLTYPE_FORMULA )
264 		return ((ScFormulaCell&)rCell).GetValue();		// called only if result is value
265 
266 	DBG_ERROR( "GetValueFromCell: wrong type" );
267 	return 0;
268 }
269 
FillMixedArray(uno::Any & rAny,ScDocument * pDoc,const ScRange & rRange,sal_Bool bAllowNV)270 sal_Bool ScRangeToSequence::FillMixedArray( uno::Any& rAny, ScDocument* pDoc, const ScRange& rRange,
271 										sal_Bool bAllowNV )
272 {
273 	SCTAB nTab = rRange.aStart.Tab();
274 	SCCOL nStartCol = rRange.aStart.Col();
275 	SCROW nStartRow = rRange.aStart.Row();
276 	long nColCount = rRange.aEnd.Col() + 1 - rRange.aStart.Col();
277 	long nRowCount = rRange.aEnd.Row() + 1 - rRange.aStart.Row();
278 
279 	String aDocStr;
280 	sal_Bool bHasErrors = sal_False;
281 
282 	uno::Sequence< uno::Sequence<uno::Any> > aRowSeq( nRowCount );
283 	uno::Sequence<uno::Any>* pRowAry = aRowSeq.getArray();
284 	for (long nRow = 0; nRow < nRowCount; nRow++)
285 	{
286 		uno::Sequence<uno::Any> aColSeq( nColCount );
287 		uno::Any* pColAry = aColSeq.getArray();
288 		for (long nCol = 0; nCol < nColCount; nCol++)
289 		{
290 			uno::Any& rElement = pColAry[nCol];
291 
292 			ScAddress aPos( (SCCOL)(nStartCol+nCol), (SCROW)(nStartRow+nRow), nTab );
293 			ScBaseCell* pCell = pDoc->GetCell( aPos );
294 			if ( pCell )
295 			{
296 				if ( pCell->GetCellType() == CELLTYPE_FORMULA &&
297 						((ScFormulaCell*)pCell)->GetErrCode() != 0 )
298 				{
299 					// if NV is allowed, leave empty for errors
300 					bHasErrors = sal_True;
301 				}
302 				else if ( pCell->HasValueData() )
303 					rElement <<= (double) lcl_GetValueFromCell( *pCell );
304 				else
305 					rElement <<= rtl::OUString( pCell->GetStringData() );
306 			}
307 			else
308 				rElement <<= rtl::OUString();		// empty: empty string
309 		}
310 		pRowAry[nRow] = aColSeq;
311 	}
312 
313 	rAny <<= aRowSeq;
314 	return bAllowNV || !bHasErrors;
315 }
316 
317 
FillMixedArray(uno::Any & rAny,const ScMatrix * pMatrix,bool bDataTypes)318 sal_Bool ScRangeToSequence::FillMixedArray( uno::Any& rAny, const ScMatrix* pMatrix, bool bDataTypes )
319 {
320 	if (!pMatrix)
321 		return sal_False;
322 
323 	SCSIZE nColCount;
324 	SCSIZE nRowCount;
325 	pMatrix->GetDimensions( nColCount, nRowCount );
326 
327 	uno::Sequence< uno::Sequence<uno::Any> > aRowSeq( static_cast<sal_Int32>(nRowCount) );
328 	uno::Sequence<uno::Any>* pRowAry = aRowSeq.getArray();
329 	for (SCSIZE nRow = 0; nRow < nRowCount; nRow++)
330 	{
331 		uno::Sequence<uno::Any> aColSeq( static_cast<sal_Int32>(nColCount) );
332 		uno::Any* pColAry = aColSeq.getArray();
333 		for (SCSIZE nCol = 0; nCol < nColCount; nCol++)
334 		{
335 			if ( pMatrix->IsString( nCol, nRow ) )
336 			{
337 				String aStr;
338 				if ( !pMatrix->IsEmpty( nCol, nRow ) )
339 					aStr = pMatrix->GetString( nCol, nRow );
340 				pColAry[nCol] <<= rtl::OUString( aStr );
341 			}
342 			else
343             {
344                 double fVal = pMatrix->GetDouble( nCol, nRow );
345                 if (bDataTypes && pMatrix->IsBoolean( nCol, nRow ))
346                     pColAry[nCol] <<= (fVal ? true : false);
347                 else
348                     pColAry[nCol] <<= fVal;
349             }
350 		}
351 
352 		pRowAry[nRow] = aColSeq;
353 	}
354 
355 	rAny <<= aRowSeq;
356 	return sal_True;
357 }
358 
359 //------------------------------------------------------------------------
360 
361 // static
ConvertAnyToDouble(double & o_fVal,com::sun::star::uno::TypeClass & o_eClass,const com::sun::star::uno::Any & rAny)362 bool ScApiTypeConversion::ConvertAnyToDouble( double & o_fVal,
363         com::sun::star::uno::TypeClass & o_eClass,
364         const com::sun::star::uno::Any & rAny )
365 {
366     bool bRet = false;
367     o_eClass = rAny.getValueTypeClass();
368     switch (o_eClass)
369     {
370         //! extract integer values
371         case uno::TypeClass_ENUM:
372         case uno::TypeClass_BOOLEAN:
373         case uno::TypeClass_CHAR:
374         case uno::TypeClass_BYTE:
375         case uno::TypeClass_SHORT:
376         case uno::TypeClass_UNSIGNED_SHORT:
377         case uno::TypeClass_LONG:
378         case uno::TypeClass_UNSIGNED_LONG:
379         case uno::TypeClass_FLOAT:
380         case uno::TypeClass_DOUBLE:
381             rAny >>= o_fVal;
382             bRet = true;
383             break;
384         default:
385             ;   // nothing, avoid warning
386     }
387     if (!bRet)
388         o_fVal = 0.0;
389     return bRet;
390 }
391 
392 //------------------------------------------------------------------------
393 
394 // static
CreateMixedMatrix(const com::sun::star::uno::Any & rAny)395 ScMatrixRef ScSequenceToMatrix::CreateMixedMatrix( const com::sun::star::uno::Any & rAny )
396 {
397     ScMatrixRef xMatrix;
398     uno::Sequence< uno::Sequence< uno::Any > > aSequence;
399     if ( rAny >>= aSequence )
400     {
401         sal_Int32 nRowCount = aSequence.getLength();
402         const uno::Sequence<uno::Any>* pRowArr = aSequence.getConstArray();
403         sal_Int32 nMaxColCount = 0;
404         sal_Int32 nCol, nRow;
405         for (nRow=0; nRow<nRowCount; nRow++)
406         {
407             sal_Int32 nTmp = pRowArr[nRow].getLength();
408             if ( nTmp > nMaxColCount )
409                 nMaxColCount = nTmp;
410         }
411         if ( nMaxColCount && nRowCount )
412         {
413             rtl::OUString aUStr;
414             xMatrix = new ScMatrix(
415                     static_cast<SCSIZE>(nMaxColCount),
416                     static_cast<SCSIZE>(nRowCount) );
417             ScMatrix* pMatrix = xMatrix;
418             SCSIZE nCols, nRows;
419             pMatrix->GetDimensions( nCols, nRows);
420             if (nCols != static_cast<SCSIZE>(nMaxColCount) || nRows != static_cast<SCSIZE>(nRowCount))
421             {
422                 DBG_ERRORFILE( "ScSequenceToMatrix::CreateMixedMatrix: matrix exceeded max size, returning NULL matrix");
423                 return NULL;
424             }
425             for (nRow=0; nRow<nRowCount; nRow++)
426             {
427                 sal_Int32 nColCount = pRowArr[nRow].getLength();
428                 const uno::Any* pColArr = pRowArr[nRow].getConstArray();
429                 for (nCol=0; nCol<nColCount; nCol++)
430                 {
431                     double fVal;
432                     uno::TypeClass eClass;
433                     if (ScApiTypeConversion::ConvertAnyToDouble( fVal, eClass, pColArr[nCol]))
434                     {
435                         if (eClass == uno::TypeClass_BOOLEAN)
436                             pMatrix->PutBoolean( (fVal ? true : false),
437                                     static_cast<SCSIZE>(nCol),
438                                     static_cast<SCSIZE>(nRow) );
439                         else
440                             pMatrix->PutDouble( fVal,
441                                     static_cast<SCSIZE>(nCol),
442                                     static_cast<SCSIZE>(nRow) );
443                     }
444                     else
445                     {
446                         // Try string, else use empty as last resort.
447 
448                         //Reflection* pRefl = pColArr[nCol].getReflection();
449                         //if ( pRefl->equals( *OUString_getReflection() ) )
450                         if ( pColArr[nCol] >>= aUStr )
451                             pMatrix->PutString( String( aUStr ),
452                                     static_cast<SCSIZE>(nCol),
453                                     static_cast<SCSIZE>(nRow) );
454                         else
455                             pMatrix->PutEmpty(
456                                     static_cast<SCSIZE>(nCol),
457                                     static_cast<SCSIZE>(nRow) );
458                     }
459                 }
460                 for (nCol=nColCount; nCol<nMaxColCount; nCol++)
461                 {
462                     pMatrix->PutEmpty(
463                             static_cast<SCSIZE>(nCol),
464                             static_cast<SCSIZE>(nRow) );
465                 }
466             }
467         }
468     }
469     return xMatrix;
470 }
471 
472 
473 //------------------------------------------------------------------------
474 
GetString(String & rString,const uno::Any & rAny,sal_uInt16 nEncoding)475 sal_Bool ScByteSequenceToString::GetString( String& rString, const uno::Any& rAny,
476 										sal_uInt16 nEncoding )
477 {
478 	uno::Sequence<sal_Int8> aSeq;
479 	if ( rAny >>= aSeq )
480 	{
481 		rString = String( (const sal_Char*)aSeq.getConstArray(),
482 							(xub_StrLen)aSeq.getLength(), nEncoding );
483 		rString.EraseTrailingChars( (sal_Unicode) 0 );
484 		return sal_True;
485 	}
486 	return sal_False;
487 }
488 
489 //------------------------------------------------------------------------
490 
491