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2 *
3 * Licensed to the Apache Software Foundation (ASF) under one
4 * or more contributor license agreements. See the NOTICE file
5 * distributed with this work for additional information
6 * regarding copyright ownership. The ASF licenses this file
7 * to you under the Apache License, Version 2.0 (the
8 * "License"); you may not use this file except in compliance
9 * with the License. You may obtain a copy of the License at
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11 * http://www.apache.org/licenses/LICENSE-2.0
12 *
13 * Unless required by applicable law or agreed to in writing,
14 * software distributed under the License is distributed on an
15 * "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
16 * KIND, either express or implied. See the License for the
17 * specific language governing permissions and limitations
18 * under the License.
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21
22
23
24 // MARKER(update_precomp.py): autogen include statement, do not remove
25 #include "precompiled_sw.hxx"
26
27 #include "XMLRangeHelper.hxx"
28 #include <unotools/charclass.hxx>
29 #include <rtl/ustrbuf.hxx>
30
31 #include <algorithm>
32 #include <functional>
33
34 using ::rtl::OUString;
35 using ::rtl::OUStringBuffer;
36
37 // ================================================================================
38
39 namespace
40 {
41 /** unary function that escapes backslashes and single quotes in a sal_Unicode
42 array (which you can get from an OUString with getStr()) and puts the result
43 into the OUStringBuffer given in the CTOR
44 */
45 class lcl_Escape : public ::std::unary_function< sal_Unicode, void >
46 {
47 public:
lcl_Escape(::rtl::OUStringBuffer & aResultBuffer)48 lcl_Escape( ::rtl::OUStringBuffer & aResultBuffer ) : m_aResultBuffer( aResultBuffer ) {}
operator ()(sal_Unicode aChar)49 void operator() ( sal_Unicode aChar )
50 {
51 static const sal_Unicode m_aQuote( '\'' );
52 static const sal_Unicode m_aBackslash( '\\' );
53
54 if( aChar == m_aQuote ||
55 aChar == m_aBackslash )
56 m_aResultBuffer.append( m_aBackslash );
57 m_aResultBuffer.append( aChar );
58 }
59
60 private:
61 ::rtl::OUStringBuffer & m_aResultBuffer;
62 };
63
64 // ----------------------------------------
65
66 /** unary function that removes backslash escapes in a sal_Unicode array (which
67 you can get from an OUString with getStr()) and puts the result into the
68 OUStringBuffer given in the CTOR
69 */
70 class lcl_UnEscape : public ::std::unary_function< sal_Unicode, void >
71 {
72 public:
lcl_UnEscape(::rtl::OUStringBuffer & aResultBuffer)73 lcl_UnEscape( ::rtl::OUStringBuffer & aResultBuffer ) : m_aResultBuffer( aResultBuffer ) {}
operator ()(sal_Unicode aChar)74 void operator() ( sal_Unicode aChar )
75 {
76 static const sal_Unicode m_aBackslash( '\\' );
77
78 if( aChar != m_aBackslash )
79 m_aResultBuffer.append( aChar );
80 }
81
82 private:
83 ::rtl::OUStringBuffer & m_aResultBuffer;
84 };
85
86 // ----------------------------------------
87
lcl_getXMLStringForCell(const XMLRangeHelper::Cell & rCell)88 OUStringBuffer lcl_getXMLStringForCell( const /*::chart::*/XMLRangeHelper::Cell & rCell )
89 {
90 ::rtl::OUStringBuffer aBuffer;
91 if( rCell.empty())
92 return aBuffer;
93
94 sal_Int32 nCol = rCell.nColumn;
95 aBuffer.append( (sal_Unicode)'.' );
96 if( ! rCell.bRelativeColumn )
97 aBuffer.append( (sal_Unicode)'$' );
98
99 // get A, B, C, ..., AA, AB, ... representation of column number
100 if( nCol < 26 )
101 aBuffer.append( (sal_Unicode)('A' + nCol) );
102 else if( nCol < 702 )
103 {
104 aBuffer.append( (sal_Unicode)('A' + nCol / 26 - 1 ));
105 aBuffer.append( (sal_Unicode)('A' + nCol % 26) );
106 }
107 else // works for nCol <= 18,278
108 {
109 aBuffer.append( (sal_Unicode)('A' + nCol / 702 - 1 ));
110 aBuffer.append( (sal_Unicode)('A' + (nCol % 702) / 26 ));
111 aBuffer.append( (sal_Unicode)('A' + nCol % 26) );
112 }
113
114 // write row number as number
115 if( ! rCell.bRelativeRow )
116 aBuffer.append( (sal_Unicode)'$' );
117 aBuffer.append( rCell.nRow + (sal_Int32)1 );
118
119 return aBuffer;
120 }
121
lcl_getSingleCellAddressFromXMLString(const::rtl::OUString & rXMLString,sal_Int32 nStartPos,sal_Int32 nEndPos,XMLRangeHelper::Cell & rOutCell)122 void lcl_getSingleCellAddressFromXMLString(
123 const ::rtl::OUString& rXMLString,
124 sal_Int32 nStartPos, sal_Int32 nEndPos,
125 /*::chart::*/XMLRangeHelper::Cell & rOutCell )
126 {
127 // expect "\$?[a-zA-Z]+\$?[1-9][0-9]*"
128 static const sal_Unicode aDollar( '$' );
129 static const sal_Unicode aLetterA( 'A' );
130
131 ::rtl::OUString aCellStr = rXMLString.copy( nStartPos, nEndPos - nStartPos + 1 ).toAsciiUpperCase();
132 const sal_Unicode* pStrArray = aCellStr.getStr();
133 sal_Int32 nLength = aCellStr.getLength();
134 sal_Int32 i = nLength - 1, nColumn = 0;
135
136 // parse number for row
137 while( CharClass::isAsciiDigit( pStrArray[ i ] ) && i >= 0 )
138 i--;
139 rOutCell.nRow = (aCellStr.copy( i + 1 )).toInt32() - 1;
140 // a dollar in XML means absolute (whereas in UI it means relative)
141 if( pStrArray[ i ] == aDollar )
142 {
143 i--;
144 rOutCell.bRelativeRow = false;
145 }
146 else
147 rOutCell.bRelativeRow = true;
148
149 // parse rest for column
150 sal_Int32 nPower = 1;
151 while( CharClass::isAsciiAlpha( pStrArray[ i ] ))
152 {
153 nColumn += (pStrArray[ i ] - aLetterA + 1) * nPower;
154 i--;
155 nPower *= 26;
156 }
157 rOutCell.nColumn = nColumn - 1;
158
159 rOutCell.bRelativeColumn = true;
160 if( i >= 0 &&
161 pStrArray[ i ] == aDollar )
162 rOutCell.bRelativeColumn = false;
163 rOutCell.bIsEmpty = false;
164 }
165
lcl_getCellAddressFromXMLString(const::rtl::OUString & rXMLString,sal_Int32 nStartPos,sal_Int32 nEndPos,XMLRangeHelper::Cell & rOutCell,::rtl::OUString & rOutTableName)166 bool lcl_getCellAddressFromXMLString(
167 const ::rtl::OUString& rXMLString,
168 sal_Int32 nStartPos, sal_Int32 nEndPos,
169 /*::chart::*/XMLRangeHelper::Cell & rOutCell,
170 ::rtl::OUString& rOutTableName )
171 {
172 static const sal_Unicode aDot( '.' );
173 static const sal_Unicode aQuote( '\'' );
174 static const sal_Unicode aBackslash( '\\' );
175
176 sal_Int32 nNextDelimiterPos = nStartPos;
177
178 sal_Int32 nDelimiterPos = nStartPos;
179 bool bInQuotation = false;
180 // parse table name
181 while( nDelimiterPos < nEndPos &&
182 ( bInQuotation || rXMLString[ nDelimiterPos ] != aDot ))
183 {
184 // skip escaped characters (with backslash)
185 if( rXMLString[ nDelimiterPos ] == aBackslash )
186 ++nDelimiterPos;
187 // toggle quotation mode when finding single quotes
188 else if( rXMLString[ nDelimiterPos ] == aQuote )
189 bInQuotation = ! bInQuotation;
190
191 ++nDelimiterPos;
192 }
193
194 if( nDelimiterPos == -1 ||
195 nDelimiterPos >= nEndPos )
196 {
197 return false;
198 }
199 if( nDelimiterPos > nStartPos )
200 {
201 // there is a table name before the address
202
203 ::rtl::OUStringBuffer aTableNameBuffer;
204 const sal_Unicode * pTableName = rXMLString.getStr();
205
206 // remove escapes from table name
207 ::std::for_each( pTableName + nStartPos,
208 pTableName + nDelimiterPos,
209 lcl_UnEscape( aTableNameBuffer ));
210
211 // unquote quoted table name
212 const sal_Unicode * pBuf = aTableNameBuffer.getStr();
213 if( pBuf[ 0 ] == aQuote &&
214 pBuf[ aTableNameBuffer.getLength() - 1 ] == aQuote )
215 {
216 ::rtl::OUString aName = aTableNameBuffer.makeStringAndClear();
217 rOutTableName = aName.copy( 1, aName.getLength() - 2 );
218 }
219 else
220 rOutTableName = aTableNameBuffer.makeStringAndClear();
221 }
222
223 for( sal_Int32 i = 0;
224 nNextDelimiterPos < nEndPos;
225 nDelimiterPos = nNextDelimiterPos, i++ )
226 {
227 nNextDelimiterPos = rXMLString.indexOf( aDot, nDelimiterPos + 1 );
228 if( nNextDelimiterPos == -1 ||
229 nNextDelimiterPos > nEndPos )
230 nNextDelimiterPos = nEndPos + 1;
231
232 if( i==0 )
233 // only take first cell
234 lcl_getSingleCellAddressFromXMLString(
235 rXMLString, nDelimiterPos + 1, nNextDelimiterPos - 1, rOutCell );
236 }
237
238 return true;
239 }
240
lcl_getCellRangeAddressFromXMLString(const::rtl::OUString & rXMLString,sal_Int32 nStartPos,sal_Int32 nEndPos,XMLRangeHelper::CellRange & rOutRange)241 bool lcl_getCellRangeAddressFromXMLString(
242 const ::rtl::OUString& rXMLString,
243 sal_Int32 nStartPos, sal_Int32 nEndPos,
244 /*::chart::*/XMLRangeHelper::CellRange & rOutRange )
245 {
246 bool bResult = true;
247 static const sal_Unicode aColon( ':' );
248 static const sal_Unicode aQuote( '\'' );
249 static const sal_Unicode aBackslash( '\\' );
250
251 sal_Int32 nDelimiterPos = nStartPos;
252 bool bInQuotation = false;
253 // parse table name
254 while( nDelimiterPos < nEndPos &&
255 ( bInQuotation || rXMLString[ nDelimiterPos ] != aColon ))
256 {
257 // skip escaped characters (with backslash)
258 if( rXMLString[ nDelimiterPos ] == aBackslash )
259 ++nDelimiterPos;
260 // toggle quotation mode when finding single quotes
261 else if( rXMLString[ nDelimiterPos ] == aQuote )
262 bInQuotation = ! bInQuotation;
263
264 ++nDelimiterPos;
265 }
266
267 if( nDelimiterPos == nEndPos )
268 {
269 // only one cell
270 bResult = lcl_getCellAddressFromXMLString( rXMLString, nStartPos, nEndPos,
271 rOutRange.aUpperLeft,
272 rOutRange.aTableName );
273 }
274 else
275 {
276 // range (separated by a colon)
277 bResult = lcl_getCellAddressFromXMLString( rXMLString, nStartPos, nDelimiterPos - 1,
278 rOutRange.aUpperLeft,
279 rOutRange.aTableName );
280 ::rtl::OUString sTableSecondName;
281 if( bResult )
282 {
283 bResult = lcl_getCellAddressFromXMLString( rXMLString, nDelimiterPos + 1, nEndPos,
284 rOutRange.aLowerRight,
285 sTableSecondName );
286 }
287 if( bResult &&
288 sTableSecondName.getLength() &&
289 ! sTableSecondName.equals( rOutRange.aTableName ))
290 bResult = false;
291 }
292
293 return bResult;
294 }
295
296 } // anonymous namespace
297
298 // ================================================================================
299
300 //namespace chart
301 //{
302 namespace XMLRangeHelper
303 {
304
getCellRangeFromXMLString(const OUString & rXMLString)305 CellRange getCellRangeFromXMLString( const OUString & rXMLString )
306 {
307 static const sal_Unicode aSpace( ' ' );
308 static const sal_Unicode aQuote( '\'' );
309 static const sal_Unicode aDollar( '$' );
310 static const sal_Unicode aBackslash( '\\' );
311
312 sal_Int32 nStartPos = 0;
313 sal_Int32 nEndPos = nStartPos;
314 const sal_Int32 nLength = rXMLString.getLength();
315
316 // reset
317 CellRange aResult;
318
319 // iterate over different ranges
320 for( sal_Int32 i = 0;
321 nEndPos < nLength;
322 nStartPos = ++nEndPos, i++ )
323 {
324 // find start point of next range
325
326 // ignore leading '$'
327 if( rXMLString[ nEndPos ] == aDollar)
328 nEndPos++;
329
330 bool bInQuotation = false;
331 // parse range
332 while( nEndPos < nLength &&
333 ( bInQuotation || rXMLString[ nEndPos ] != aSpace ))
334 {
335 // skip escaped characters (with backslash)
336 if( rXMLString[ nEndPos ] == aBackslash )
337 ++nEndPos;
338 // toggle quotation mode when finding single quotes
339 else if( rXMLString[ nEndPos ] == aQuote )
340 bInQuotation = ! bInQuotation;
341
342 ++nEndPos;
343 }
344
345 if( ! lcl_getCellRangeAddressFromXMLString(
346 rXMLString,
347 nStartPos, nEndPos - 1,
348 aResult ))
349 {
350 // if an error occured, bail out
351 return CellRange();
352 }
353 }
354
355 return aResult;
356 }
357
getXMLStringFromCellRange(const CellRange & rRange)358 OUString getXMLStringFromCellRange( const CellRange & rRange )
359 {
360 static const sal_Unicode aSpace( ' ' );
361 static const sal_Unicode aQuote( '\'' );
362
363 ::rtl::OUStringBuffer aBuffer;
364
365 if( (rRange.aTableName).getLength())
366 {
367 bool bNeedsEscaping = ( rRange.aTableName.indexOf( aQuote ) > -1 );
368 bool bNeedsQuoting = bNeedsEscaping || ( rRange.aTableName.indexOf( aSpace ) > -1 );
369
370 // quote table name if it contains spaces or quotes
371 if( bNeedsQuoting )
372 {
373 // leading quote
374 aBuffer.append( aQuote );
375
376 // escape existing quotes
377 if( bNeedsEscaping )
378 {
379 const sal_Unicode * pTableNameBeg = rRange.aTableName.getStr();
380
381 // append the quoted string at the buffer
382 ::std::for_each( pTableNameBeg,
383 pTableNameBeg + rRange.aTableName.getLength(),
384 lcl_Escape( aBuffer ) );
385 }
386 else
387 aBuffer.append( rRange.aTableName );
388
389 // final quote
390 aBuffer.append( aQuote );
391 }
392 else
393 aBuffer.append( rRange.aTableName );
394 }
395 aBuffer.append( lcl_getXMLStringForCell( rRange.aUpperLeft ));
396
397 if( ! rRange.aLowerRight.empty())
398 {
399 // we have a range (not a single cell)
400 aBuffer.append( sal_Unicode( ':' ));
401 aBuffer.append( lcl_getXMLStringForCell( rRange.aLowerRight ));
402 }
403
404 return aBuffer.makeStringAndClear();
405 }
406
407 } // namespace XMLRangeHelper
408 //} // namespace chart
409