Line data Source code
1 : /******************************************************************************
2 : *
3 : * Project: GeoTIFF Driver
4 : * Purpose: Write/set operations on GTiffDataset
5 : * Author: Frank Warmerdam, warmerdam@pobox.com
6 : *
7 : ******************************************************************************
8 : * Copyright (c) 1998, 2002, Frank Warmerdam <warmerdam@pobox.com>
9 : * Copyright (c) 2007-2015, Even Rouault <even dot rouault at spatialys dot com>
10 : *
11 : * SPDX-License-Identifier: MIT
12 : ****************************************************************************/
13 :
14 : #include "gtiffdataset.h"
15 : #include "gtiffrasterband.h"
16 : #include "gtiffoddbitsband.h"
17 : #include "gtiffjpegoverviewds.h"
18 :
19 : #include <cassert>
20 : #include <cerrno>
21 :
22 : #include <algorithm>
23 : #include <cmath>
24 : #include <limits>
25 : #include <memory>
26 : #include <mutex>
27 : #include <set>
28 : #include <string>
29 : #include <tuple>
30 : #include <utility>
31 :
32 : #include "cpl_error.h"
33 : #include "cpl_error_internal.h" // CPLErrorHandlerAccumulatorStruct
34 : #include "cpl_float.h"
35 : #include "cpl_md5.h"
36 : #include "cpl_vsi.h"
37 : #include "cpl_vsi_virtual.h"
38 : #include "cpl_worker_thread_pool.h"
39 : #include "fetchbufferdirectio.h"
40 : #include "gdal_mdreader.h" // GDALWriteRPCTXTFile()
41 : #include "gdal_priv.h"
42 : #include "gdal_priv_templates.hpp" // GDALIsValueInRange<>
43 : #include "gdal_thread_pool.h" // GDALGetGlobalThreadPool()
44 : #include "geovalues.h" // RasterPixelIsPoint
45 : #include "gt_jpeg_copy.h"
46 : #include "gt_overview.h" // GTIFFBuildOverviewMetadata()
47 : #include "quant_table_md5sum.h"
48 : #include "quant_table_md5sum_jpeg9e.h"
49 : #include "tif_jxl.h"
50 : #include "tifvsi.h"
51 : #include "xtiffio.h"
52 :
53 : #if LIFFLIB_VERSION > 20230908 || defined(INTERNAL_LIBTIFF)
54 : /* libtiff < 4.6.1 doesn't generate a LERC mask for multi-band contig configuration */
55 : #define LIBTIFF_MULTIBAND_LERC_NAN_OK
56 : #endif
57 :
58 : static const int knGTIFFJpegTablesModeDefault = JPEGTABLESMODE_QUANT;
59 :
60 : static constexpr const char szPROFILE_BASELINE[] = "BASELINE";
61 : static constexpr const char szPROFILE_GeoTIFF[] = "GeoTIFF";
62 : static constexpr const char szPROFILE_GDALGeoTIFF[] = "GDALGeoTIFF";
63 :
64 : // Due to libgeotiff/xtiff.c declaring TIFFTAG_GEOTIEPOINTS with field_readcount
65 : // and field_writecount == -1 == TIFF_VARIABLE, we are limited to writing
66 : // 65535 values in that tag. That could potentially be overcome by changing the tag
67 : // declaration to using TIFF_VARIABLE2 where the count is a uint32_t.
68 : constexpr int knMAX_GCP_COUNT =
69 : static_cast<int>(std::numeric_limits<uint16_t>::max() / 6);
70 :
71 : enum
72 : {
73 : ENDIANNESS_NATIVE,
74 : ENDIANNESS_LITTLE,
75 : ENDIANNESS_BIG
76 : };
77 :
78 17876 : static signed char GTiffGetWebPLevel(CSLConstList papszOptions)
79 : {
80 17876 : int nWebPLevel = DEFAULT_WEBP_LEVEL;
81 17876 : const char *pszValue = CSLFetchNameValue(papszOptions, "WEBP_LEVEL");
82 17876 : if (pszValue != nullptr)
83 : {
84 51 : nWebPLevel = atoi(pszValue);
85 51 : if (!(nWebPLevel >= 1 && nWebPLevel <= 100))
86 : {
87 0 : CPLError(CE_Warning, CPLE_IllegalArg,
88 : "WEBP_LEVEL=%s value not recognised, ignoring.", pszValue);
89 0 : nWebPLevel = DEFAULT_WEBP_LEVEL;
90 : }
91 : }
92 17876 : return static_cast<signed char>(nWebPLevel);
93 : }
94 :
95 17882 : static bool GTiffGetWebPLossless(CSLConstList papszOptions)
96 : {
97 17882 : return CPLFetchBool(papszOptions, "WEBP_LOSSLESS", false);
98 : }
99 :
100 17948 : static double GTiffGetLERCMaxZError(CSLConstList papszOptions)
101 : {
102 17948 : return CPLAtof(CSLFetchNameValueDef(papszOptions, "MAX_Z_ERROR", "0.0"));
103 : }
104 :
105 8011 : static double GTiffGetLERCMaxZErrorOverview(CSLConstList papszOptions)
106 : {
107 8011 : return CPLAtof(CSLFetchNameValueDef(
108 : papszOptions, "MAX_Z_ERROR_OVERVIEW",
109 8011 : CSLFetchNameValueDef(papszOptions, "MAX_Z_ERROR", "0.0")));
110 : }
111 :
112 : #if HAVE_JXL
113 17952 : static bool GTiffGetJXLLossless(CSLConstList papszOptions,
114 : bool *pbIsSpecified = nullptr)
115 : {
116 17952 : const char *pszVal = CSLFetchNameValue(papszOptions, "JXL_LOSSLESS");
117 17952 : if (pbIsSpecified)
118 9937 : *pbIsSpecified = pszVal != nullptr;
119 17952 : return pszVal == nullptr || CPLTestBool(pszVal);
120 : }
121 :
122 17952 : static uint32_t GTiffGetJXLEffort(CSLConstList papszOptions)
123 : {
124 17952 : return atoi(CSLFetchNameValueDef(papszOptions, "JXL_EFFORT", "5"));
125 : }
126 :
127 17870 : static float GTiffGetJXLDistance(CSLConstList papszOptions,
128 : bool *pbIsSpecified = nullptr)
129 : {
130 17870 : const char *pszVal = CSLFetchNameValue(papszOptions, "JXL_DISTANCE");
131 17870 : if (pbIsSpecified)
132 9937 : *pbIsSpecified = pszVal != nullptr;
133 17870 : return pszVal == nullptr ? 1.0f : static_cast<float>(CPLAtof(pszVal));
134 : }
135 :
136 17952 : static float GTiffGetJXLAlphaDistance(CSLConstList papszOptions,
137 : bool *pbIsSpecified = nullptr)
138 : {
139 17952 : const char *pszVal = CSLFetchNameValue(papszOptions, "JXL_ALPHA_DISTANCE");
140 17952 : if (pbIsSpecified)
141 9937 : *pbIsSpecified = pszVal != nullptr;
142 17952 : return pszVal == nullptr ? -1.0f : static_cast<float>(CPLAtof(pszVal));
143 : }
144 :
145 : #endif
146 :
147 : /************************************************************************/
148 : /* FillEmptyTiles() */
149 : /************************************************************************/
150 :
151 8201 : CPLErr GTiffDataset::FillEmptyTiles()
152 :
153 : {
154 : /* -------------------------------------------------------------------- */
155 : /* How many blocks are there in this file? */
156 : /* -------------------------------------------------------------------- */
157 16402 : const int nBlockCount = m_nPlanarConfig == PLANARCONFIG_SEPARATE
158 8201 : ? m_nBlocksPerBand * nBands
159 : : m_nBlocksPerBand;
160 :
161 : /* -------------------------------------------------------------------- */
162 : /* Fetch block maps. */
163 : /* -------------------------------------------------------------------- */
164 8201 : toff_t *panByteCounts = nullptr;
165 :
166 8201 : if (TIFFIsTiled(m_hTIFF))
167 1149 : TIFFGetField(m_hTIFF, TIFFTAG_TILEBYTECOUNTS, &panByteCounts);
168 : else
169 7052 : TIFFGetField(m_hTIFF, TIFFTAG_STRIPBYTECOUNTS, &panByteCounts);
170 :
171 8201 : if (panByteCounts == nullptr)
172 : {
173 : // Got here with libtiff 3.9.3 and tiff_write_8 test.
174 0 : ReportError(CE_Failure, CPLE_AppDefined,
175 : "FillEmptyTiles() failed because panByteCounts == NULL");
176 0 : return CE_Failure;
177 : }
178 :
179 : /* -------------------------------------------------------------------- */
180 : /* Prepare a blank data buffer to write for uninitialized blocks. */
181 : /* -------------------------------------------------------------------- */
182 : const GPtrDiff_t nBlockBytes =
183 8201 : TIFFIsTiled(m_hTIFF) ? static_cast<GPtrDiff_t>(TIFFTileSize(m_hTIFF))
184 7052 : : static_cast<GPtrDiff_t>(TIFFStripSize(m_hTIFF));
185 :
186 8201 : GByte *pabyData = static_cast<GByte *>(VSI_CALLOC_VERBOSE(nBlockBytes, 1));
187 8201 : if (pabyData == nullptr)
188 : {
189 0 : return CE_Failure;
190 : }
191 :
192 : // Force tiles completely filled with the nodata value to be written.
193 8201 : m_bWriteEmptyTiles = true;
194 :
195 : /* -------------------------------------------------------------------- */
196 : /* If set, fill data buffer with no data value. */
197 : /* -------------------------------------------------------------------- */
198 8201 : if ((m_bNoDataSet && m_dfNoDataValue != 0.0) ||
199 7933 : (m_bNoDataSetAsInt64 && m_nNoDataValueInt64 != 0) ||
200 7928 : (m_bNoDataSetAsUInt64 && m_nNoDataValueUInt64 != 0))
201 : {
202 278 : const GDALDataType eDataType = GetRasterBand(1)->GetRasterDataType();
203 278 : const int nDataTypeSize = GDALGetDataTypeSizeBytes(eDataType);
204 278 : if (nDataTypeSize &&
205 278 : nDataTypeSize * 8 == static_cast<int>(m_nBitsPerSample))
206 : {
207 267 : if (m_bNoDataSetAsInt64)
208 : {
209 6 : GDALCopyWords64(&m_nNoDataValueInt64, GDT_Int64, 0, pabyData,
210 : eDataType, nDataTypeSize,
211 6 : nBlockBytes / nDataTypeSize);
212 : }
213 261 : else if (m_bNoDataSetAsUInt64)
214 : {
215 5 : GDALCopyWords64(&m_nNoDataValueUInt64, GDT_UInt64, 0, pabyData,
216 : eDataType, nDataTypeSize,
217 5 : nBlockBytes / nDataTypeSize);
218 : }
219 : else
220 : {
221 256 : double dfNoData = m_dfNoDataValue;
222 256 : GDALCopyWords64(&dfNoData, GDT_Float64, 0, pabyData, eDataType,
223 256 : nDataTypeSize, nBlockBytes / nDataTypeSize);
224 267 : }
225 : }
226 11 : else if (nDataTypeSize)
227 : {
228 : // Handle non power-of-two depths.
229 : // Ideally make a packed buffer, but that is a bit tedious,
230 : // so use the normal I/O interfaces.
231 :
232 11 : CPLFree(pabyData);
233 :
234 11 : pabyData = static_cast<GByte *>(VSI_MALLOC3_VERBOSE(
235 : m_nBlockXSize, m_nBlockYSize, nDataTypeSize));
236 11 : if (pabyData == nullptr)
237 0 : return CE_Failure;
238 11 : if (m_bNoDataSetAsInt64)
239 : {
240 0 : GDALCopyWords64(&m_nNoDataValueInt64, GDT_Int64, 0, pabyData,
241 : eDataType, nDataTypeSize,
242 0 : static_cast<GPtrDiff_t>(m_nBlockXSize) *
243 0 : m_nBlockYSize);
244 : }
245 11 : else if (m_bNoDataSetAsUInt64)
246 : {
247 0 : GDALCopyWords64(&m_nNoDataValueUInt64, GDT_UInt64, 0, pabyData,
248 : eDataType, nDataTypeSize,
249 0 : static_cast<GPtrDiff_t>(m_nBlockXSize) *
250 0 : m_nBlockYSize);
251 : }
252 : else
253 : {
254 11 : GDALCopyWords64(&m_dfNoDataValue, GDT_Float64, 0, pabyData,
255 : eDataType, nDataTypeSize,
256 11 : static_cast<GPtrDiff_t>(m_nBlockXSize) *
257 11 : m_nBlockYSize);
258 : }
259 11 : CPLErr eErr = CE_None;
260 46 : for (int iBlock = 0; iBlock < nBlockCount; ++iBlock)
261 : {
262 35 : if (panByteCounts[iBlock] == 0)
263 : {
264 18 : if (m_nPlanarConfig == PLANARCONFIG_SEPARATE || nBands == 1)
265 : {
266 24 : if (GetRasterBand(1 + iBlock / m_nBlocksPerBand)
267 12 : ->WriteBlock((iBlock % m_nBlocksPerBand) %
268 12 : m_nBlocksPerRow,
269 12 : (iBlock % m_nBlocksPerBand) /
270 12 : m_nBlocksPerRow,
271 12 : pabyData) != CE_None)
272 : {
273 0 : eErr = CE_Failure;
274 : }
275 : }
276 : else
277 : {
278 : // In contig case, don't directly call WriteBlock(), as
279 : // it could cause useless decompression-recompression.
280 6 : const int nXOff =
281 6 : (iBlock % m_nBlocksPerRow) * m_nBlockXSize;
282 6 : const int nYOff =
283 6 : (iBlock / m_nBlocksPerRow) * m_nBlockYSize;
284 6 : const int nXSize =
285 6 : (nXOff + m_nBlockXSize <= nRasterXSize)
286 6 : ? m_nBlockXSize
287 2 : : nRasterXSize - nXOff;
288 6 : const int nYSize =
289 6 : (nYOff + m_nBlockYSize <= nRasterYSize)
290 6 : ? m_nBlockYSize
291 3 : : nRasterYSize - nYOff;
292 18 : for (int iBand = 1; iBand <= nBands; ++iBand)
293 : {
294 12 : if (GetRasterBand(iBand)->RasterIO(
295 : GF_Write, nXOff, nYOff, nXSize, nYSize,
296 : pabyData, nXSize, nYSize, eDataType, 0, 0,
297 12 : nullptr) != CE_None)
298 : {
299 0 : eErr = CE_Failure;
300 : }
301 : }
302 : }
303 : }
304 : }
305 11 : CPLFree(pabyData);
306 11 : return eErr;
307 267 : }
308 : }
309 :
310 : /* -------------------------------------------------------------------- */
311 : /* When we must fill with zeroes, try to create non-sparse file */
312 : /* w.r.t TIFF spec ... as a sparse file w.r.t filesystem, ie by */
313 : /* seeking to end of file instead of writing zero blocks. */
314 : /* -------------------------------------------------------------------- */
315 7923 : else if (m_nCompression == COMPRESSION_NONE && (m_nBitsPerSample % 8) == 0)
316 : {
317 6350 : CPLErr eErr = CE_None;
318 : // Only use libtiff to write the first sparse block to ensure that it
319 : // will serialize offset and count arrays back to disk.
320 6350 : int nCountBlocksToZero = 0;
321 2330100 : for (int iBlock = 0; iBlock < nBlockCount; ++iBlock)
322 : {
323 2323750 : if (panByteCounts[iBlock] == 0)
324 : {
325 2228340 : if (nCountBlocksToZero == 0)
326 : {
327 1137 : const bool bWriteEmptyTilesBak = m_bWriteEmptyTiles;
328 1137 : m_bWriteEmptyTiles = true;
329 1137 : const bool bOK = WriteEncodedTileOrStrip(iBlock, pabyData,
330 1137 : FALSE) == CE_None;
331 1137 : m_bWriteEmptyTiles = bWriteEmptyTilesBak;
332 1137 : if (!bOK)
333 : {
334 2 : eErr = CE_Failure;
335 2 : break;
336 : }
337 : }
338 2228340 : nCountBlocksToZero++;
339 : }
340 : }
341 6350 : CPLFree(pabyData);
342 :
343 6350 : --nCountBlocksToZero;
344 :
345 : // And then seek to end of file for other ones.
346 6350 : if (nCountBlocksToZero > 0)
347 : {
348 348 : toff_t *panByteOffsets = nullptr;
349 :
350 348 : if (TIFFIsTiled(m_hTIFF))
351 101 : TIFFGetField(m_hTIFF, TIFFTAG_TILEOFFSETS, &panByteOffsets);
352 : else
353 247 : TIFFGetField(m_hTIFF, TIFFTAG_STRIPOFFSETS, &panByteOffsets);
354 :
355 348 : if (panByteOffsets == nullptr)
356 : {
357 0 : ReportError(
358 : CE_Failure, CPLE_AppDefined,
359 : "FillEmptyTiles() failed because panByteOffsets == NULL");
360 0 : return CE_Failure;
361 : }
362 :
363 348 : VSILFILE *fpTIF = VSI_TIFFGetVSILFile(TIFFClientdata(m_hTIFF));
364 348 : VSIFSeekL(fpTIF, 0, SEEK_END);
365 348 : const vsi_l_offset nOffset = VSIFTellL(fpTIF);
366 :
367 348 : vsi_l_offset iBlockToZero = 0;
368 2236440 : for (int iBlock = 0; iBlock < nBlockCount; ++iBlock)
369 : {
370 2236090 : if (panByteCounts[iBlock] == 0)
371 : {
372 2227200 : panByteOffsets[iBlock] = static_cast<toff_t>(
373 2227200 : nOffset + iBlockToZero * nBlockBytes);
374 2227200 : panByteCounts[iBlock] = nBlockBytes;
375 2227200 : iBlockToZero++;
376 : }
377 : }
378 348 : CPLAssert(iBlockToZero ==
379 : static_cast<vsi_l_offset>(nCountBlocksToZero));
380 :
381 348 : if (VSIFTruncateL(fpTIF, nOffset + iBlockToZero * nBlockBytes) != 0)
382 : {
383 0 : eErr = CE_Failure;
384 0 : ReportError(CE_Failure, CPLE_FileIO,
385 : "Cannot initialize empty blocks");
386 : }
387 : }
388 :
389 6350 : return eErr;
390 : }
391 :
392 : /* -------------------------------------------------------------------- */
393 : /* Check all blocks, writing out data for uninitialized blocks. */
394 : /* -------------------------------------------------------------------- */
395 :
396 1840 : GByte *pabyRaw = nullptr;
397 1840 : vsi_l_offset nRawSize = 0;
398 1840 : CPLErr eErr = CE_None;
399 56544 : for (int iBlock = 0; iBlock < nBlockCount; ++iBlock)
400 : {
401 54711 : if (panByteCounts[iBlock] == 0)
402 : {
403 17570 : if (pabyRaw == nullptr)
404 : {
405 10167 : if (WriteEncodedTileOrStrip(iBlock, pabyData, FALSE) != CE_None)
406 : {
407 7 : eErr = CE_Failure;
408 7 : break;
409 : }
410 :
411 10160 : vsi_l_offset nOffset = 0;
412 10160 : if (!IsBlockAvailable(iBlock, &nOffset, &nRawSize, nullptr))
413 0 : break;
414 :
415 : // When using compression, get back the compressed block
416 : // so we can use the raw API to write it faster.
417 10160 : if (m_nCompression != COMPRESSION_NONE)
418 : {
419 : pabyRaw = static_cast<GByte *>(
420 486 : VSI_MALLOC_VERBOSE(static_cast<size_t>(nRawSize)));
421 486 : if (pabyRaw)
422 : {
423 : VSILFILE *fp =
424 486 : VSI_TIFFGetVSILFile(TIFFClientdata(m_hTIFF));
425 486 : const vsi_l_offset nCurOffset = VSIFTellL(fp);
426 486 : VSIFSeekL(fp, nOffset, SEEK_SET);
427 486 : VSIFReadL(pabyRaw, 1, static_cast<size_t>(nRawSize),
428 : fp);
429 486 : VSIFSeekL(fp, nCurOffset, SEEK_SET);
430 : }
431 : }
432 : }
433 : else
434 : {
435 7403 : WriteRawStripOrTile(iBlock, pabyRaw,
436 : static_cast<GPtrDiff_t>(nRawSize));
437 : }
438 : }
439 : }
440 :
441 1840 : CPLFree(pabyData);
442 1840 : VSIFree(pabyRaw);
443 1840 : return eErr;
444 : }
445 :
446 : /************************************************************************/
447 : /* HasOnlyNoData() */
448 : /************************************************************************/
449 :
450 42814 : bool GTiffDataset::HasOnlyNoData(const void *pBuffer, int nWidth, int nHeight,
451 : int nLineStride, int nComponents)
452 : {
453 42814 : if (m_nSampleFormat == SAMPLEFORMAT_COMPLEXINT ||
454 42814 : m_nSampleFormat == SAMPLEFORMAT_COMPLEXIEEEFP)
455 0 : return false;
456 42814 : if (m_bNoDataSetAsInt64 || m_bNoDataSetAsUInt64)
457 6 : return false; // FIXME: over pessimistic
458 85616 : return GDALBufferHasOnlyNoData(
459 42808 : pBuffer, m_bNoDataSet ? m_dfNoDataValue : 0.0, nWidth, nHeight,
460 42808 : nLineStride, nComponents, m_nBitsPerSample,
461 42808 : m_nSampleFormat == SAMPLEFORMAT_UINT ? GSF_UNSIGNED_INT
462 4826 : : m_nSampleFormat == SAMPLEFORMAT_INT ? GSF_SIGNED_INT
463 42808 : : GSF_FLOATING_POINT);
464 : }
465 :
466 : /************************************************************************/
467 : /* IsFirstPixelEqualToNoData() */
468 : /************************************************************************/
469 :
470 169255 : inline bool GTiffDataset::IsFirstPixelEqualToNoData(const void *pBuffer)
471 : {
472 169255 : const GDALDataType eDT = GetRasterBand(1)->GetRasterDataType();
473 169255 : const double dfEffectiveNoData = (m_bNoDataSet) ? m_dfNoDataValue : 0.0;
474 169255 : if (m_bNoDataSetAsInt64 || m_bNoDataSetAsUInt64)
475 10 : return true; // FIXME: over pessimistic
476 169245 : if (m_nBitsPerSample == 8 ||
477 58919 : (m_nBitsPerSample < 8 && dfEffectiveNoData == 0))
478 : {
479 113772 : if (eDT == GDT_Int8)
480 : {
481 278 : return GDALIsValueInRange<signed char>(dfEffectiveNoData) &&
482 139 : *(static_cast<const signed char *>(pBuffer)) ==
483 278 : static_cast<signed char>(dfEffectiveNoData);
484 : }
485 227235 : return GDALIsValueInRange<GByte>(dfEffectiveNoData) &&
486 113602 : *(static_cast<const GByte *>(pBuffer)) ==
487 227235 : static_cast<GByte>(dfEffectiveNoData);
488 : }
489 55473 : if (m_nBitsPerSample == 16 && eDT == GDT_UInt16)
490 : {
491 4686 : return GDALIsValueInRange<GUInt16>(dfEffectiveNoData) &&
492 2343 : *(static_cast<const GUInt16 *>(pBuffer)) ==
493 4686 : static_cast<GUInt16>(dfEffectiveNoData);
494 : }
495 53130 : if (m_nBitsPerSample == 16 && eDT == GDT_Int16)
496 : {
497 8476 : return GDALIsValueInRange<GInt16>(dfEffectiveNoData) &&
498 4238 : *(static_cast<const GInt16 *>(pBuffer)) ==
499 8476 : static_cast<GInt16>(dfEffectiveNoData);
500 : }
501 48892 : if (m_nBitsPerSample == 32 && eDT == GDT_UInt32)
502 : {
503 378 : return GDALIsValueInRange<GUInt32>(dfEffectiveNoData) &&
504 189 : *(static_cast<const GUInt32 *>(pBuffer)) ==
505 378 : static_cast<GUInt32>(dfEffectiveNoData);
506 : }
507 48703 : if (m_nBitsPerSample == 32 && eDT == GDT_Int32)
508 : {
509 506 : return GDALIsValueInRange<GInt32>(dfEffectiveNoData) &&
510 253 : *(static_cast<const GInt32 *>(pBuffer)) ==
511 506 : static_cast<GInt32>(dfEffectiveNoData);
512 : }
513 48450 : if (m_nBitsPerSample == 64 && eDT == GDT_UInt64)
514 : {
515 234 : return GDALIsValueInRange<std::uint64_t>(dfEffectiveNoData) &&
516 117 : *(static_cast<const std::uint64_t *>(pBuffer)) ==
517 234 : static_cast<std::uint64_t>(dfEffectiveNoData);
518 : }
519 48333 : if (m_nBitsPerSample == 64 && eDT == GDT_Int64)
520 : {
521 236 : return GDALIsValueInRange<std::int64_t>(dfEffectiveNoData) &&
522 118 : *(static_cast<const std::int64_t *>(pBuffer)) ==
523 236 : static_cast<std::int64_t>(dfEffectiveNoData);
524 : }
525 48215 : if (m_nBitsPerSample == 32 && eDT == GDT_Float32)
526 : {
527 41191 : if (std::isnan(m_dfNoDataValue))
528 3 : return std::isnan(*(static_cast<const float *>(pBuffer)));
529 82376 : return GDALIsValueInRange<float>(dfEffectiveNoData) &&
530 41188 : *(static_cast<const float *>(pBuffer)) ==
531 82376 : static_cast<float>(dfEffectiveNoData);
532 : }
533 7024 : if (m_nBitsPerSample == 64 && eDT == GDT_Float64)
534 : {
535 4351 : if (std::isnan(dfEffectiveNoData))
536 3 : return std::isnan(*(static_cast<const double *>(pBuffer)));
537 4348 : return *(static_cast<const double *>(pBuffer)) == dfEffectiveNoData;
538 : }
539 2673 : return false;
540 : }
541 :
542 : /************************************************************************/
543 : /* WriteDealWithLercAndNan() */
544 : /************************************************************************/
545 :
546 : template <typename T>
547 0 : void GTiffDataset::WriteDealWithLercAndNan(T *pBuffer, int nActualBlockWidth,
548 : int nActualBlockHeight,
549 : int nStrileHeight)
550 : {
551 : // This method does 2 things:
552 : // - warn the user if he tries to write NaN values with libtiff < 4.6.1
553 : // and multi-band PlanarConfig=Contig configuration
554 : // - and in right-most and bottom-most tiles, replace non accessible
555 : // pixel values by a safe one.
556 :
557 0 : const auto fPaddingValue =
558 : #if !defined(LIBTIFF_MULTIBAND_LERC_NAN_OK)
559 : m_nPlanarConfig == PLANARCONFIG_CONTIG && nBands > 1
560 : ? 0
561 : :
562 : #endif
563 : std::numeric_limits<T>::quiet_NaN();
564 :
565 0 : const int nBandsPerStrile =
566 0 : m_nPlanarConfig == PLANARCONFIG_CONTIG ? nBands : 1;
567 0 : for (int j = 0; j < nActualBlockHeight; ++j)
568 : {
569 : #if !defined(LIBTIFF_MULTIBAND_LERC_NAN_OK)
570 : static bool bHasWarned = false;
571 : if (m_nPlanarConfig == PLANARCONFIG_CONTIG && nBands > 1 && !bHasWarned)
572 : {
573 : for (int i = 0; i < nActualBlockWidth * nBandsPerStrile; ++i)
574 : {
575 : if (std::isnan(
576 : pBuffer[j * m_nBlockXSize * nBandsPerStrile + i]))
577 : {
578 : bHasWarned = true;
579 : CPLError(CE_Warning, CPLE_AppDefined,
580 : "libtiff < 4.6.1 does not handle properly NaN "
581 : "values for multi-band PlanarConfig=Contig "
582 : "configuration. As a workaround, you can set the "
583 : "INTERLEAVE=BAND creation option.");
584 : break;
585 : }
586 : }
587 : }
588 : #endif
589 0 : for (int i = nActualBlockWidth * nBandsPerStrile;
590 0 : i < m_nBlockXSize * nBandsPerStrile; ++i)
591 : {
592 0 : pBuffer[j * m_nBlockXSize * nBandsPerStrile + i] = fPaddingValue;
593 : }
594 : }
595 0 : for (int j = nActualBlockHeight; j < nStrileHeight; ++j)
596 : {
597 0 : for (int i = 0; i < m_nBlockXSize * nBandsPerStrile; ++i)
598 : {
599 0 : pBuffer[j * m_nBlockXSize * nBandsPerStrile + i] = fPaddingValue;
600 : }
601 : }
602 0 : }
603 :
604 : /************************************************************************/
605 : /* WriteEncodedTile() */
606 : /************************************************************************/
607 :
608 50505 : bool GTiffDataset::WriteEncodedTile(uint32_t tile, GByte *pabyData,
609 : int bPreserveDataBuffer)
610 : {
611 50505 : const int iColumn = (tile % m_nBlocksPerBand) % m_nBlocksPerRow;
612 50505 : const int iRow = (tile % m_nBlocksPerBand) / m_nBlocksPerRow;
613 :
614 101010 : const int nActualBlockWidth = (iColumn == m_nBlocksPerRow - 1)
615 50505 : ? nRasterXSize - iColumn * m_nBlockXSize
616 : : m_nBlockXSize;
617 101010 : const int nActualBlockHeight = (iRow == m_nBlocksPerColumn - 1)
618 50505 : ? nRasterYSize - iRow * m_nBlockYSize
619 : : m_nBlockYSize;
620 :
621 : /* -------------------------------------------------------------------- */
622 : /* Don't write empty blocks in some cases. */
623 : /* -------------------------------------------------------------------- */
624 50505 : if (!m_bWriteEmptyTiles && IsFirstPixelEqualToNoData(pabyData))
625 : {
626 1975 : if (!IsBlockAvailable(tile, nullptr, nullptr, nullptr))
627 : {
628 1975 : const int nComponents =
629 1975 : m_nPlanarConfig == PLANARCONFIG_CONTIG ? nBands : 1;
630 :
631 1975 : if (HasOnlyNoData(pabyData, nActualBlockWidth, nActualBlockHeight,
632 : m_nBlockXSize, nComponents))
633 : {
634 1200 : return true;
635 : }
636 : }
637 : }
638 :
639 : // Is this a partial right edge or bottom edge tile?
640 95599 : const bool bPartialTile = (nActualBlockWidth < m_nBlockXSize) ||
641 46294 : (nActualBlockHeight < m_nBlockYSize);
642 :
643 : const bool bIsLercFloatingPoint =
644 49371 : m_nCompression == COMPRESSION_LERC &&
645 66 : (GetRasterBand(1)->GetRasterDataType() == GDT_Float32 ||
646 64 : GetRasterBand(1)->GetRasterDataType() == GDT_Float64);
647 :
648 : // Do we need to spread edge values right or down for a partial
649 : // JPEG encoded tile? We do this to avoid edge artifacts.
650 : // We also need to be careful with LERC and NaN values
651 49305 : const bool bNeedTempBuffer =
652 54011 : bPartialTile &&
653 4706 : (m_nCompression == COMPRESSION_JPEG || bIsLercFloatingPoint);
654 :
655 : // If we need to fill out the tile, or if we want to prevent
656 : // TIFFWriteEncodedTile from altering the buffer as part of
657 : // byte swapping the data on write then we will need a temporary
658 : // working buffer. If not, we can just do a direct write.
659 49305 : const GPtrDiff_t cc = static_cast<GPtrDiff_t>(TIFFTileSize(m_hTIFF));
660 :
661 63614 : if (bPreserveDataBuffer &&
662 14309 : (TIFFIsByteSwapped(m_hTIFF) || bNeedTempBuffer || m_panMaskOffsetLsb))
663 : {
664 158 : if (m_pabyTempWriteBuffer == nullptr)
665 : {
666 35 : m_pabyTempWriteBuffer = CPLMalloc(cc);
667 : }
668 158 : memcpy(m_pabyTempWriteBuffer, pabyData, cc);
669 :
670 158 : pabyData = static_cast<GByte *>(m_pabyTempWriteBuffer);
671 : }
672 :
673 : // Perform tile fill if needed.
674 : // TODO: we should also handle the case of nBitsPerSample == 12
675 : // but this is more involved.
676 49305 : if (bPartialTile && m_nCompression == COMPRESSION_JPEG &&
677 134 : m_nBitsPerSample == 8)
678 : {
679 132 : const int nComponents =
680 132 : m_nPlanarConfig == PLANARCONFIG_CONTIG ? nBands : 1;
681 :
682 132 : CPLDebug("GTiff", "Filling out jpeg edge tile on write.");
683 :
684 132 : const int nRightPixelsToFill =
685 132 : iColumn == m_nBlocksPerRow - 1
686 132 : ? m_nBlockXSize * (iColumn + 1) - nRasterXSize
687 : : 0;
688 132 : const int nBottomPixelsToFill =
689 132 : iRow == m_nBlocksPerColumn - 1
690 132 : ? m_nBlockYSize * (iRow + 1) - nRasterYSize
691 : : 0;
692 :
693 : // Fill out to the right.
694 132 : const int iSrcX = m_nBlockXSize - nRightPixelsToFill - 1;
695 :
696 12461 : for (int iX = iSrcX + 1; iX < m_nBlockXSize; ++iX)
697 : {
698 3955880 : for (int iY = 0; iY < m_nBlockYSize; ++iY)
699 : {
700 3943550 : memcpy(pabyData +
701 3943550 : (static_cast<GPtrDiff_t>(m_nBlockXSize) * iY + iX) *
702 3943550 : nComponents,
703 3943550 : pabyData + (static_cast<GPtrDiff_t>(m_nBlockXSize) * iY +
704 3943550 : iSrcX) *
705 3943550 : nComponents,
706 : nComponents);
707 : }
708 : }
709 :
710 : // Now fill out the bottom.
711 132 : const int iSrcY = m_nBlockYSize - nBottomPixelsToFill - 1;
712 17682 : for (int iY = iSrcY + 1; iY < m_nBlockYSize; ++iY)
713 : {
714 17550 : memcpy(pabyData + static_cast<GPtrDiff_t>(m_nBlockXSize) *
715 17550 : nComponents * iY,
716 17550 : pabyData + static_cast<GPtrDiff_t>(m_nBlockXSize) *
717 17550 : nComponents * iSrcY,
718 17550 : static_cast<GPtrDiff_t>(m_nBlockXSize) * nComponents);
719 : }
720 : }
721 :
722 49305 : if (bIsLercFloatingPoint &&
723 : (bPartialTile
724 : #if !defined(LIBTIFF_MULTIBAND_LERC_NAN_OK)
725 : /* libtiff < 4.6.1 doesn't generate a LERC mask for multi-band contig configuration */
726 : || (m_nPlanarConfig == PLANARCONFIG_CONTIG && nBands > 1)
727 : #endif
728 : ))
729 : {
730 0 : if (GetRasterBand(1)->GetRasterDataType() == GDT_Float32)
731 0 : WriteDealWithLercAndNan(reinterpret_cast<float *>(pabyData),
732 : nActualBlockWidth, nActualBlockHeight,
733 : m_nBlockYSize);
734 : else
735 0 : WriteDealWithLercAndNan(reinterpret_cast<double *>(pabyData),
736 : nActualBlockWidth, nActualBlockHeight,
737 : m_nBlockYSize);
738 : }
739 :
740 49305 : if (m_panMaskOffsetLsb)
741 : {
742 0 : const int iBand = m_nPlanarConfig == PLANARCONFIG_SEPARATE
743 0 : ? static_cast<int>(tile) / m_nBlocksPerBand
744 : : -1;
745 0 : DiscardLsb(pabyData, cc, iBand);
746 : }
747 :
748 49305 : if (m_bStreamingOut)
749 : {
750 17 : if (tile != static_cast<uint32_t>(m_nLastWrittenBlockId + 1))
751 : {
752 1 : ReportError(CE_Failure, CPLE_NotSupported,
753 : "Attempt to write block %d whereas %d was expected",
754 1 : tile, m_nLastWrittenBlockId + 1);
755 1 : return false;
756 : }
757 16 : if (static_cast<GPtrDiff_t>(VSIFWriteL(pabyData, 1, cc, m_fpToWrite)) !=
758 : cc)
759 : {
760 0 : ReportError(CE_Failure, CPLE_FileIO,
761 : "Could not write " CPL_FRMT_GUIB " bytes",
762 : static_cast<GUIntBig>(cc));
763 0 : return false;
764 : }
765 16 : m_nLastWrittenBlockId = tile;
766 16 : return true;
767 : }
768 :
769 : /* -------------------------------------------------------------------- */
770 : /* Should we do compression in a worker thread ? */
771 : /* -------------------------------------------------------------------- */
772 49288 : if (SubmitCompressionJob(tile, pabyData, cc, m_nBlockYSize))
773 19943 : return true;
774 :
775 29345 : return TIFFWriteEncodedTile(m_hTIFF, tile, pabyData, cc) == cc;
776 : }
777 :
778 : /************************************************************************/
779 : /* WriteEncodedStrip() */
780 : /************************************************************************/
781 :
782 178271 : bool GTiffDataset::WriteEncodedStrip(uint32_t strip, GByte *pabyData,
783 : int bPreserveDataBuffer)
784 : {
785 178271 : GPtrDiff_t cc = static_cast<GPtrDiff_t>(TIFFStripSize(m_hTIFF));
786 178271 : const auto ccFull = cc;
787 :
788 : /* -------------------------------------------------------------------- */
789 : /* If this is the last strip in the image, and is partial, then */
790 : /* we need to trim the number of scanlines written to the */
791 : /* amount of valid data we have. (#2748) */
792 : /* -------------------------------------------------------------------- */
793 178271 : const int nStripWithinBand = strip % m_nBlocksPerBand;
794 178271 : int nStripHeight = m_nRowsPerStrip;
795 :
796 178271 : if (nStripWithinBand * nStripHeight > GetRasterYSize() - nStripHeight)
797 : {
798 387 : nStripHeight = GetRasterYSize() - nStripWithinBand * m_nRowsPerStrip;
799 387 : cc = (cc / m_nRowsPerStrip) * nStripHeight;
800 774 : CPLDebug("GTiff",
801 : "Adjusted bytes to write from " CPL_FRMT_GUIB
802 : " to " CPL_FRMT_GUIB ".",
803 387 : static_cast<GUIntBig>(TIFFStripSize(m_hTIFF)),
804 : static_cast<GUIntBig>(cc));
805 : }
806 :
807 : /* -------------------------------------------------------------------- */
808 : /* Don't write empty blocks in some cases. */
809 : /* -------------------------------------------------------------------- */
810 178271 : if (!m_bWriteEmptyTiles && IsFirstPixelEqualToNoData(pabyData))
811 : {
812 41013 : if (!IsBlockAvailable(strip, nullptr, nullptr, nullptr))
813 : {
814 40839 : const int nComponents =
815 40839 : m_nPlanarConfig == PLANARCONFIG_CONTIG ? nBands : 1;
816 :
817 40839 : if (HasOnlyNoData(pabyData, m_nBlockXSize, nStripHeight,
818 : m_nBlockXSize, nComponents))
819 : {
820 28307 : return true;
821 : }
822 : }
823 : }
824 :
825 : /* -------------------------------------------------------------------- */
826 : /* TIFFWriteEncodedStrip can alter the passed buffer if */
827 : /* byte-swapping is necessary so we use a temporary buffer */
828 : /* before calling it. */
829 : /* -------------------------------------------------------------------- */
830 239486 : if (bPreserveDataBuffer &&
831 89522 : (TIFFIsByteSwapped(m_hTIFF) || m_panMaskOffsetLsb))
832 : {
833 294 : if (m_pabyTempWriteBuffer == nullptr)
834 : {
835 126 : m_pabyTempWriteBuffer = CPLMalloc(ccFull);
836 : }
837 294 : memcpy(m_pabyTempWriteBuffer, pabyData, cc);
838 294 : pabyData = static_cast<GByte *>(m_pabyTempWriteBuffer);
839 : }
840 :
841 : #if !defined(LIBTIFF_MULTIBAND_LERC_NAN_OK)
842 : const bool bIsLercFloatingPoint =
843 : m_nCompression == COMPRESSION_LERC &&
844 : (GetRasterBand(1)->GetRasterDataType() == GDT_Float32 ||
845 : GetRasterBand(1)->GetRasterDataType() == GDT_Float64);
846 : if (bIsLercFloatingPoint &&
847 : /* libtiff < 4.6.1 doesn't generate a LERC mask for multi-band contig configuration */
848 : m_nPlanarConfig == PLANARCONFIG_CONTIG && nBands > 1)
849 : {
850 : if (GetRasterBand(1)->GetRasterDataType() == GDT_Float32)
851 : WriteDealWithLercAndNan(reinterpret_cast<float *>(pabyData),
852 : m_nBlockXSize, nStripHeight, nStripHeight);
853 : else
854 : WriteDealWithLercAndNan(reinterpret_cast<double *>(pabyData),
855 : m_nBlockXSize, nStripHeight, nStripHeight);
856 : }
857 : #endif
858 :
859 149964 : if (m_panMaskOffsetLsb)
860 : {
861 366 : int iBand = m_nPlanarConfig == PLANARCONFIG_SEPARATE
862 183 : ? static_cast<int>(strip) / m_nBlocksPerBand
863 : : -1;
864 183 : DiscardLsb(pabyData, cc, iBand);
865 : }
866 :
867 149964 : if (m_bStreamingOut)
868 : {
869 1408 : if (strip != static_cast<uint32_t>(m_nLastWrittenBlockId + 1))
870 : {
871 1 : ReportError(CE_Failure, CPLE_NotSupported,
872 : "Attempt to write block %d whereas %d was expected",
873 1 : strip, m_nLastWrittenBlockId + 1);
874 1 : return false;
875 : }
876 1407 : if (static_cast<GPtrDiff_t>(VSIFWriteL(pabyData, 1, cc, m_fpToWrite)) !=
877 : cc)
878 : {
879 0 : ReportError(CE_Failure, CPLE_FileIO,
880 : "Could not write " CPL_FRMT_GUIB " bytes",
881 : static_cast<GUIntBig>(cc));
882 0 : return false;
883 : }
884 1407 : m_nLastWrittenBlockId = strip;
885 1407 : return true;
886 : }
887 :
888 : /* -------------------------------------------------------------------- */
889 : /* Should we do compression in a worker thread ? */
890 : /* -------------------------------------------------------------------- */
891 148556 : if (SubmitCompressionJob(strip, pabyData, cc, nStripHeight))
892 6727 : return true;
893 :
894 141829 : return TIFFWriteEncodedStrip(m_hTIFF, strip, pabyData, cc) == cc;
895 : }
896 :
897 : /************************************************************************/
898 : /* InitCompressionThreads() */
899 : /************************************************************************/
900 :
901 32111 : void GTiffDataset::InitCompressionThreads(bool bUpdateMode,
902 : CSLConstList papszOptions)
903 : {
904 : // Raster == tile, then no need for threads
905 32111 : if (m_nBlockXSize == nRasterXSize && m_nBlockYSize == nRasterYSize)
906 23483 : return;
907 :
908 8628 : const char *pszNumThreads = "";
909 8628 : bool bOK = false;
910 8628 : const int nThreads = GDALGetNumThreads(
911 : papszOptions, "NUM_THREADS", GDAL_DEFAULT_MAX_THREAD_COUNT,
912 : /* bDefaultToAllCPUs=*/false, &pszNumThreads, &bOK);
913 8628 : if (nThreads > 1)
914 : {
915 106 : if ((bUpdateMode && m_nCompression != COMPRESSION_NONE) ||
916 24 : (nBands >= 1 && IsMultiThreadedReadCompatible()))
917 : {
918 77 : CPLDebug("GTiff",
919 : "Using up to %d threads for compression/decompression",
920 : nThreads);
921 :
922 77 : m_poThreadPool = GDALGetGlobalThreadPool(nThreads);
923 77 : if (bUpdateMode && m_poThreadPool)
924 58 : m_poCompressQueue = m_poThreadPool->CreateJobQueue();
925 :
926 77 : if (m_poCompressQueue != nullptr)
927 : {
928 : // Add a margin of an extra job w.r.t thread number
929 : // so as to optimize compression time (enables the main
930 : // thread to do boring I/O while all CPUs are working).
931 58 : m_asCompressionJobs.resize(nThreads + 1);
932 58 : memset(&m_asCompressionJobs[0], 0,
933 58 : m_asCompressionJobs.size() *
934 : sizeof(GTiffCompressionJob));
935 58 : for (int i = 0;
936 280 : i < static_cast<int>(m_asCompressionJobs.size()); ++i)
937 : {
938 444 : m_asCompressionJobs[i].pszTmpFilename =
939 222 : CPLStrdup(VSIMemGenerateHiddenFilename(
940 : CPLSPrintf("thread_job_%d.tif", i)));
941 222 : m_asCompressionJobs[i].nStripOrTile = -1;
942 : }
943 :
944 : // This is kind of a hack, but basically using
945 : // TIFFWriteRawStrip/Tile and then TIFFReadEncodedStrip/Tile
946 : // does not work on a newly created file, because
947 : // TIFF_MYBUFFER is not set in tif_flags
948 : // (if using TIFFWriteEncodedStrip/Tile first,
949 : // TIFFWriteBufferSetup() is automatically called).
950 : // This should likely rather fixed in libtiff itself.
951 58 : CPL_IGNORE_RET_VAL(TIFFWriteBufferSetup(m_hTIFF, nullptr, -1));
952 : }
953 : }
954 : }
955 8546 : else if (!bOK)
956 : {
957 3 : ReportError(CE_Warning, CPLE_AppDefined,
958 : "Invalid value for NUM_THREADS: %s", pszNumThreads);
959 : }
960 : }
961 :
962 : /************************************************************************/
963 : /* ThreadCompressionFunc() */
964 : /************************************************************************/
965 :
966 26682 : void GTiffDataset::ThreadCompressionFunc(void *pData)
967 : {
968 26682 : GTiffCompressionJob *psJob = static_cast<GTiffCompressionJob *>(pData);
969 26682 : GTiffDataset *poDS = psJob->poDS;
970 :
971 26682 : VSILFILE *fpTmp = VSIFOpenL(psJob->pszTmpFilename, "wb+");
972 26682 : TIFF *hTIFFTmp = VSI_TIFFOpen(
973 53364 : psJob->pszTmpFilename, psJob->bTIFFIsBigEndian ? "wb+" : "wl+", fpTmp);
974 26682 : CPLAssert(hTIFFTmp != nullptr);
975 26682 : TIFFSetField(hTIFFTmp, TIFFTAG_IMAGEWIDTH, poDS->m_nBlockXSize);
976 26682 : TIFFSetField(hTIFFTmp, TIFFTAG_IMAGELENGTH, psJob->nHeight);
977 26682 : TIFFSetField(hTIFFTmp, TIFFTAG_BITSPERSAMPLE, poDS->m_nBitsPerSample);
978 26682 : TIFFSetField(hTIFFTmp, TIFFTAG_COMPRESSION, poDS->m_nCompression);
979 26682 : TIFFSetField(hTIFFTmp, TIFFTAG_PHOTOMETRIC, poDS->m_nPhotometric);
980 26682 : TIFFSetField(hTIFFTmp, TIFFTAG_SAMPLEFORMAT, poDS->m_nSampleFormat);
981 26682 : TIFFSetField(hTIFFTmp, TIFFTAG_SAMPLESPERPIXEL, poDS->m_nSamplesPerPixel);
982 26682 : TIFFSetField(hTIFFTmp, TIFFTAG_ROWSPERSTRIP, poDS->m_nBlockYSize);
983 26682 : TIFFSetField(hTIFFTmp, TIFFTAG_PLANARCONFIG, poDS->m_nPlanarConfig);
984 26682 : if (psJob->nPredictor != PREDICTOR_NONE)
985 263 : TIFFSetField(hTIFFTmp, TIFFTAG_PREDICTOR, psJob->nPredictor);
986 26682 : if (poDS->m_nCompression == COMPRESSION_LERC)
987 : {
988 24 : TIFFSetField(hTIFFTmp, TIFFTAG_LERC_PARAMETERS, 2,
989 24 : poDS->m_anLercAddCompressionAndVersion);
990 : }
991 26682 : if (psJob->nExtraSampleCount)
992 : {
993 352 : TIFFSetField(hTIFFTmp, TIFFTAG_EXTRASAMPLES, psJob->nExtraSampleCount,
994 : psJob->pExtraSamples);
995 : }
996 :
997 26682 : poDS->RestoreVolatileParameters(hTIFFTmp);
998 :
999 53364 : bool bOK = TIFFWriteEncodedStrip(hTIFFTmp, 0, psJob->pabyBuffer,
1000 26682 : psJob->nBufferSize) == psJob->nBufferSize;
1001 :
1002 26682 : toff_t nOffset = 0;
1003 26682 : if (bOK)
1004 : {
1005 26682 : toff_t *panOffsets = nullptr;
1006 26682 : toff_t *panByteCounts = nullptr;
1007 26682 : TIFFGetField(hTIFFTmp, TIFFTAG_STRIPOFFSETS, &panOffsets);
1008 26682 : TIFFGetField(hTIFFTmp, TIFFTAG_STRIPBYTECOUNTS, &panByteCounts);
1009 :
1010 26682 : nOffset = panOffsets[0];
1011 26682 : psJob->nCompressedBufferSize =
1012 26682 : static_cast<GPtrDiff_t>(panByteCounts[0]);
1013 : }
1014 : else
1015 : {
1016 0 : CPLError(CE_Failure, CPLE_AppDefined,
1017 : "Error when compressing strip/tile %d", psJob->nStripOrTile);
1018 : }
1019 :
1020 26682 : XTIFFClose(hTIFFTmp);
1021 26682 : if (VSIFCloseL(fpTmp) != 0)
1022 : {
1023 0 : if (bOK)
1024 : {
1025 0 : bOK = false;
1026 0 : CPLError(CE_Failure, CPLE_AppDefined,
1027 : "Error when compressing strip/tile %d",
1028 : psJob->nStripOrTile);
1029 : }
1030 : }
1031 :
1032 26682 : if (bOK)
1033 : {
1034 26682 : vsi_l_offset nFileSize = 0;
1035 : GByte *pabyCompressedBuffer =
1036 26682 : VSIGetMemFileBuffer(psJob->pszTmpFilename, &nFileSize, FALSE);
1037 26682 : CPLAssert(static_cast<vsi_l_offset>(
1038 : nOffset + psJob->nCompressedBufferSize) <= nFileSize);
1039 26682 : psJob->pabyCompressedBuffer = pabyCompressedBuffer + nOffset;
1040 : }
1041 : else
1042 : {
1043 0 : psJob->pabyCompressedBuffer = nullptr;
1044 0 : psJob->nCompressedBufferSize = 0;
1045 : }
1046 :
1047 26682 : auto poMainDS = poDS->m_poBaseDS ? poDS->m_poBaseDS : poDS;
1048 26682 : if (poMainDS->m_poCompressQueue)
1049 : {
1050 1576 : std::lock_guard oLock(poMainDS->m_oCompressThreadPoolMutex);
1051 1576 : psJob->bReady = true;
1052 : }
1053 26682 : }
1054 :
1055 : /************************************************************************/
1056 : /* WriteRawStripOrTile() */
1057 : /************************************************************************/
1058 :
1059 34085 : void GTiffDataset::WriteRawStripOrTile(int nStripOrTile,
1060 : GByte *pabyCompressedBuffer,
1061 : GPtrDiff_t nCompressedBufferSize)
1062 : {
1063 : #ifdef DEBUG_VERBOSE
1064 : CPLDebug("GTIFF", "Writing raw strip/tile %d, size " CPL_FRMT_GUIB,
1065 : nStripOrTile, static_cast<GUIntBig>(nCompressedBufferSize));
1066 : #endif
1067 34085 : toff_t *panOffsets = nullptr;
1068 34085 : toff_t *panByteCounts = nullptr;
1069 34085 : bool bWriteAtEnd = true;
1070 34085 : bool bWriteLeader = m_bLeaderSizeAsUInt4;
1071 34085 : bool bWriteTrailer = m_bTrailerRepeatedLast4BytesRepeated;
1072 34085 : if (TIFFGetField(m_hTIFF,
1073 34085 : TIFFIsTiled(m_hTIFF) ? TIFFTAG_TILEOFFSETS
1074 : : TIFFTAG_STRIPOFFSETS,
1075 34085 : &panOffsets) &&
1076 34085 : panOffsets != nullptr && panOffsets[nStripOrTile] != 0)
1077 : {
1078 : // Forces TIFFAppendStrip() to consider if the location of the
1079 : // tile/strip can be reused or if the strile should be written at end of
1080 : // file.
1081 360 : TIFFSetWriteOffset(m_hTIFF, 0);
1082 :
1083 360 : if (m_bBlockOrderRowMajor)
1084 : {
1085 264 : if (TIFFGetField(m_hTIFF,
1086 264 : TIFFIsTiled(m_hTIFF) ? TIFFTAG_TILEBYTECOUNTS
1087 : : TIFFTAG_STRIPBYTECOUNTS,
1088 528 : &panByteCounts) &&
1089 264 : panByteCounts != nullptr)
1090 : {
1091 264 : if (static_cast<GUIntBig>(nCompressedBufferSize) >
1092 264 : panByteCounts[nStripOrTile])
1093 : {
1094 8 : GTiffDataset *poRootDS = m_poBaseDS ? m_poBaseDS : this;
1095 8 : if (!poRootDS->m_bKnownIncompatibleEdition &&
1096 8 : !poRootDS->m_bWriteKnownIncompatibleEdition)
1097 : {
1098 8 : ReportError(
1099 : CE_Warning, CPLE_AppDefined,
1100 : "A strile cannot be rewritten in place, which "
1101 : "invalidates the BLOCK_ORDER optimization.");
1102 8 : poRootDS->m_bKnownIncompatibleEdition = true;
1103 8 : poRootDS->m_bWriteKnownIncompatibleEdition = true;
1104 : }
1105 : }
1106 : // For mask interleaving, if the size is not exactly the same,
1107 : // completely give up (we could potentially move the mask in
1108 : // case the imagery is smaller)
1109 256 : else if (m_poMaskDS && m_bMaskInterleavedWithImagery &&
1110 0 : static_cast<GUIntBig>(nCompressedBufferSize) !=
1111 0 : panByteCounts[nStripOrTile])
1112 : {
1113 0 : GTiffDataset *poRootDS = m_poBaseDS ? m_poBaseDS : this;
1114 0 : if (!poRootDS->m_bKnownIncompatibleEdition &&
1115 0 : !poRootDS->m_bWriteKnownIncompatibleEdition)
1116 : {
1117 0 : ReportError(
1118 : CE_Warning, CPLE_AppDefined,
1119 : "A strile cannot be rewritten in place, which "
1120 : "invalidates the MASK_INTERLEAVED_WITH_IMAGERY "
1121 : "optimization.");
1122 0 : poRootDS->m_bKnownIncompatibleEdition = true;
1123 0 : poRootDS->m_bWriteKnownIncompatibleEdition = true;
1124 : }
1125 0 : bWriteLeader = false;
1126 0 : bWriteTrailer = false;
1127 0 : if (m_bLeaderSizeAsUInt4)
1128 : {
1129 : // If there was a valid leader, invalidat it
1130 0 : VSI_TIFFSeek(m_hTIFF, panOffsets[nStripOrTile] - 4,
1131 : SEEK_SET);
1132 : uint32_t nOldSize;
1133 0 : VSIFReadL(&nOldSize, 1, 4,
1134 : VSI_TIFFGetVSILFile(TIFFClientdata(m_hTIFF)));
1135 0 : CPL_LSBPTR32(&nOldSize);
1136 0 : if (nOldSize == panByteCounts[nStripOrTile])
1137 : {
1138 0 : uint32_t nInvalidatedSize = 0;
1139 0 : VSI_TIFFSeek(m_hTIFF, panOffsets[nStripOrTile] - 4,
1140 : SEEK_SET);
1141 0 : VSI_TIFFWrite(m_hTIFF, &nInvalidatedSize,
1142 : sizeof(nInvalidatedSize));
1143 : }
1144 : }
1145 : }
1146 : else
1147 : {
1148 256 : bWriteAtEnd = false;
1149 : }
1150 : }
1151 : }
1152 : }
1153 34085 : if (bWriteLeader &&
1154 25111 : static_cast<GUIntBig>(nCompressedBufferSize) <= 0xFFFFFFFFU)
1155 : {
1156 : // cppcheck-suppress knownConditionTrueFalse
1157 25111 : if (bWriteAtEnd)
1158 : {
1159 24855 : VSI_TIFFSeek(m_hTIFF, 0, SEEK_END);
1160 : }
1161 : else
1162 : {
1163 : // If we rewrite an existing strile in place with an existing
1164 : // leader, check that the leader is valid, before rewriting it. And
1165 : // if it is not valid, then do not write the trailer, as we could
1166 : // corrupt other data.
1167 256 : VSI_TIFFSeek(m_hTIFF, panOffsets[nStripOrTile] - 4, SEEK_SET);
1168 : uint32_t nOldSize;
1169 256 : VSIFReadL(&nOldSize, 1, 4,
1170 : VSI_TIFFGetVSILFile(TIFFClientdata(m_hTIFF)));
1171 256 : CPL_LSBPTR32(&nOldSize);
1172 256 : bWriteLeader =
1173 256 : panByteCounts && nOldSize == panByteCounts[nStripOrTile];
1174 256 : bWriteTrailer = bWriteLeader;
1175 256 : VSI_TIFFSeek(m_hTIFF, panOffsets[nStripOrTile] - 4, SEEK_SET);
1176 : }
1177 : // cppcheck-suppress knownConditionTrueFalse
1178 25111 : if (bWriteLeader)
1179 : {
1180 25111 : uint32_t nSize = static_cast<uint32_t>(nCompressedBufferSize);
1181 25111 : CPL_LSBPTR32(&nSize);
1182 25111 : if (!VSI_TIFFWrite(m_hTIFF, &nSize, sizeof(nSize)))
1183 0 : m_bWriteError = true;
1184 : }
1185 : }
1186 : tmsize_t written;
1187 34085 : if (TIFFIsTiled(m_hTIFF))
1188 26410 : written = TIFFWriteRawTile(m_hTIFF, nStripOrTile, pabyCompressedBuffer,
1189 : nCompressedBufferSize);
1190 : else
1191 7675 : written = TIFFWriteRawStrip(m_hTIFF, nStripOrTile, pabyCompressedBuffer,
1192 : nCompressedBufferSize);
1193 34085 : if (written != nCompressedBufferSize)
1194 12 : m_bWriteError = true;
1195 34085 : if (bWriteTrailer &&
1196 25111 : static_cast<GUIntBig>(nCompressedBufferSize) <= 0xFFFFFFFFU)
1197 : {
1198 25111 : GByte abyLastBytes[4] = {};
1199 25111 : if (nCompressedBufferSize >= 4)
1200 25111 : memcpy(abyLastBytes,
1201 25111 : pabyCompressedBuffer + nCompressedBufferSize - 4, 4);
1202 : else
1203 0 : memcpy(abyLastBytes, pabyCompressedBuffer, nCompressedBufferSize);
1204 25111 : if (!VSI_TIFFWrite(m_hTIFF, abyLastBytes, 4))
1205 0 : m_bWriteError = true;
1206 : }
1207 34085 : }
1208 :
1209 : /************************************************************************/
1210 : /* WaitCompletionForJobIdx() */
1211 : /************************************************************************/
1212 :
1213 1576 : void GTiffDataset::WaitCompletionForJobIdx(int i)
1214 : {
1215 1576 : auto poMainDS = m_poBaseDS ? m_poBaseDS : this;
1216 1576 : auto poQueue = poMainDS->m_poCompressQueue.get();
1217 1576 : auto &oQueue = poMainDS->m_asQueueJobIdx;
1218 1576 : auto &asJobs = poMainDS->m_asCompressionJobs;
1219 1576 : auto &mutex = poMainDS->m_oCompressThreadPoolMutex;
1220 :
1221 1576 : CPLAssert(i >= 0 && static_cast<size_t>(i) < asJobs.size());
1222 1576 : CPLAssert(asJobs[i].nStripOrTile >= 0);
1223 1576 : CPLAssert(!oQueue.empty());
1224 :
1225 1576 : bool bHasWarned = false;
1226 : while (true)
1227 : {
1228 : bool bReady;
1229 : {
1230 2282 : std::lock_guard oLock(mutex);
1231 2282 : bReady = asJobs[i].bReady;
1232 : }
1233 2282 : if (!bReady)
1234 : {
1235 706 : if (!bHasWarned)
1236 : {
1237 449 : CPLDebug("GTIFF",
1238 : "Waiting for worker job to finish handling block %d",
1239 449 : asJobs[i].nStripOrTile);
1240 449 : bHasWarned = true;
1241 : }
1242 706 : poQueue->GetPool()->WaitEvent();
1243 : }
1244 : else
1245 : {
1246 1576 : break;
1247 : }
1248 706 : }
1249 :
1250 1576 : if (asJobs[i].nCompressedBufferSize)
1251 : {
1252 3152 : asJobs[i].poDS->WriteRawStripOrTile(asJobs[i].nStripOrTile,
1253 1576 : asJobs[i].pabyCompressedBuffer,
1254 1576 : asJobs[i].nCompressedBufferSize);
1255 : }
1256 1576 : asJobs[i].pabyCompressedBuffer = nullptr;
1257 1576 : asJobs[i].nBufferSize = 0;
1258 : {
1259 : // Likely useless, but makes Coverity happy
1260 1576 : std::lock_guard oLock(mutex);
1261 1576 : asJobs[i].bReady = false;
1262 : }
1263 1576 : asJobs[i].nStripOrTile = -1;
1264 1576 : oQueue.pop();
1265 1576 : }
1266 :
1267 : /************************************************************************/
1268 : /* WaitCompletionForBlock() */
1269 : /************************************************************************/
1270 :
1271 2320440 : void GTiffDataset::WaitCompletionForBlock(int nBlockId)
1272 : {
1273 2320440 : auto poQueue = m_poBaseDS ? m_poBaseDS->m_poCompressQueue.get()
1274 2301200 : : m_poCompressQueue.get();
1275 : // cppcheck-suppress constVariableReference
1276 2320440 : auto &oQueue = m_poBaseDS ? m_poBaseDS->m_asQueueJobIdx : m_asQueueJobIdx;
1277 : // cppcheck-suppress constVariableReference
1278 2301200 : auto &asJobs =
1279 2320440 : m_poBaseDS ? m_poBaseDS->m_asCompressionJobs : m_asCompressionJobs;
1280 :
1281 2320440 : if (poQueue != nullptr && !oQueue.empty())
1282 : {
1283 1066 : for (int i = 0; i < static_cast<int>(asJobs.size()); ++i)
1284 : {
1285 888 : if (asJobs[i].poDS == this && asJobs[i].nStripOrTile == nBlockId)
1286 : {
1287 128 : while (!oQueue.empty() &&
1288 64 : !(asJobs[oQueue.front()].poDS == this &&
1289 64 : asJobs[oQueue.front()].nStripOrTile == nBlockId))
1290 : {
1291 0 : WaitCompletionForJobIdx(oQueue.front());
1292 : }
1293 64 : CPLAssert(!oQueue.empty() &&
1294 : asJobs[oQueue.front()].poDS == this &&
1295 : asJobs[oQueue.front()].nStripOrTile == nBlockId);
1296 64 : WaitCompletionForJobIdx(oQueue.front());
1297 : }
1298 : }
1299 : }
1300 2320440 : }
1301 :
1302 : /************************************************************************/
1303 : /* SubmitCompressionJob() */
1304 : /************************************************************************/
1305 :
1306 197844 : bool GTiffDataset::SubmitCompressionJob(int nStripOrTile, GByte *pabyData,
1307 : GPtrDiff_t cc, int nHeight)
1308 : {
1309 : /* -------------------------------------------------------------------- */
1310 : /* Should we do compression in a worker thread ? */
1311 : /* -------------------------------------------------------------------- */
1312 197844 : auto poQueue = m_poBaseDS ? m_poBaseDS->m_poCompressQueue.get()
1313 183791 : : m_poCompressQueue.get();
1314 :
1315 197844 : if (poQueue && m_nCompression == COMPRESSION_NONE)
1316 : {
1317 : // We don't do multi-threaded compression for uncompressed...
1318 : // but we must wait for other related compression tasks (e.g mask)
1319 : // to be completed
1320 0 : poQueue->WaitCompletion();
1321 :
1322 : // Flush remaining data
1323 : // cppcheck-suppress constVariableReference
1324 0 : auto &oQueue =
1325 0 : m_poBaseDS ? m_poBaseDS->m_asQueueJobIdx : m_asQueueJobIdx;
1326 0 : while (!oQueue.empty())
1327 : {
1328 0 : WaitCompletionForJobIdx(oQueue.front());
1329 : }
1330 : }
1331 :
1332 : const auto SetupJob =
1333 123563 : [this, pabyData, cc, nHeight, nStripOrTile](GTiffCompressionJob &sJob)
1334 : {
1335 26682 : sJob.poDS = this;
1336 26682 : sJob.bTIFFIsBigEndian = CPL_TO_BOOL(TIFFIsBigEndian(m_hTIFF));
1337 : GByte *pabyBuffer =
1338 26682 : static_cast<GByte *>(VSI_REALLOC_VERBOSE(sJob.pabyBuffer, cc));
1339 26682 : if (!pabyBuffer)
1340 0 : return false;
1341 26682 : sJob.pabyBuffer = pabyBuffer;
1342 26682 : memcpy(sJob.pabyBuffer, pabyData, cc);
1343 26682 : sJob.nBufferSize = cc;
1344 26682 : sJob.nHeight = nHeight;
1345 26682 : sJob.nStripOrTile = nStripOrTile;
1346 26682 : sJob.nPredictor = PREDICTOR_NONE;
1347 26682 : if (GTIFFSupportsPredictor(m_nCompression))
1348 : {
1349 16835 : TIFFGetField(m_hTIFF, TIFFTAG_PREDICTOR, &sJob.nPredictor);
1350 : }
1351 :
1352 26682 : sJob.pExtraSamples = nullptr;
1353 26682 : sJob.nExtraSampleCount = 0;
1354 26682 : TIFFGetField(m_hTIFF, TIFFTAG_EXTRASAMPLES, &sJob.nExtraSampleCount,
1355 : &sJob.pExtraSamples);
1356 26682 : return true;
1357 197844 : };
1358 :
1359 197844 : if (poQueue == nullptr || !(m_nCompression == COMPRESSION_ADOBE_DEFLATE ||
1360 806 : m_nCompression == COMPRESSION_LZW ||
1361 78 : m_nCompression == COMPRESSION_PACKBITS ||
1362 72 : m_nCompression == COMPRESSION_LZMA ||
1363 62 : m_nCompression == COMPRESSION_ZSTD ||
1364 52 : m_nCompression == COMPRESSION_LERC ||
1365 46 : m_nCompression == COMPRESSION_JXL ||
1366 46 : m_nCompression == COMPRESSION_JXL_DNG_1_7 ||
1367 28 : m_nCompression == COMPRESSION_WEBP ||
1368 18 : m_nCompression == COMPRESSION_JPEG))
1369 : {
1370 196268 : if (m_bBlockOrderRowMajor || m_bLeaderSizeAsUInt4 ||
1371 171162 : m_bTrailerRepeatedLast4BytesRepeated)
1372 : {
1373 : GTiffCompressionJob sJob;
1374 25106 : memset(&sJob, 0, sizeof(sJob));
1375 25106 : if (SetupJob(sJob))
1376 : {
1377 25106 : sJob.pszTmpFilename =
1378 25106 : CPLStrdup(VSIMemGenerateHiddenFilename("temp.tif"));
1379 :
1380 25106 : ThreadCompressionFunc(&sJob);
1381 :
1382 25106 : if (sJob.nCompressedBufferSize)
1383 : {
1384 25106 : sJob.poDS->WriteRawStripOrTile(sJob.nStripOrTile,
1385 : sJob.pabyCompressedBuffer,
1386 : sJob.nCompressedBufferSize);
1387 : }
1388 :
1389 25106 : CPLFree(sJob.pabyBuffer);
1390 25106 : VSIUnlink(sJob.pszTmpFilename);
1391 25106 : CPLFree(sJob.pszTmpFilename);
1392 25106 : return sJob.nCompressedBufferSize > 0 && !m_bWriteError;
1393 : }
1394 : }
1395 :
1396 171162 : return false;
1397 : }
1398 :
1399 1576 : auto poMainDS = m_poBaseDS ? m_poBaseDS : this;
1400 1576 : auto &oQueue = poMainDS->m_asQueueJobIdx;
1401 1576 : auto &asJobs = poMainDS->m_asCompressionJobs;
1402 :
1403 1576 : int nNextCompressionJobAvail = -1;
1404 :
1405 1576 : if (oQueue.size() == asJobs.size())
1406 : {
1407 1443 : CPLAssert(!oQueue.empty());
1408 1443 : nNextCompressionJobAvail = oQueue.front();
1409 1443 : WaitCompletionForJobIdx(nNextCompressionJobAvail);
1410 : }
1411 : else
1412 : {
1413 133 : const int nJobs = static_cast<int>(asJobs.size());
1414 324 : for (int i = 0; i < nJobs; ++i)
1415 : {
1416 324 : if (asJobs[i].nBufferSize == 0)
1417 : {
1418 133 : nNextCompressionJobAvail = i;
1419 133 : break;
1420 : }
1421 : }
1422 : }
1423 1576 : CPLAssert(nNextCompressionJobAvail >= 0);
1424 :
1425 1576 : GTiffCompressionJob *psJob = &asJobs[nNextCompressionJobAvail];
1426 1576 : bool bOK = SetupJob(*psJob);
1427 1576 : if (bOK)
1428 : {
1429 1576 : poQueue->SubmitJob(ThreadCompressionFunc, psJob);
1430 1576 : oQueue.push(nNextCompressionJobAvail);
1431 : }
1432 :
1433 1576 : return bOK;
1434 : }
1435 :
1436 : /************************************************************************/
1437 : /* DiscardLsb() */
1438 : /************************************************************************/
1439 :
1440 272 : template <class T> bool MustNotDiscardLsb(T value, bool bHasNoData, T nodata)
1441 : {
1442 272 : return bHasNoData && value == nodata;
1443 : }
1444 :
1445 : template <>
1446 44 : bool MustNotDiscardLsb<float>(float value, bool bHasNoData, float nodata)
1447 : {
1448 44 : return (bHasNoData && value == nodata) || !std::isfinite(value);
1449 : }
1450 :
1451 : template <>
1452 44 : bool MustNotDiscardLsb<double>(double value, bool bHasNoData, double nodata)
1453 : {
1454 44 : return (bHasNoData && value == nodata) || !std::isfinite(value);
1455 : }
1456 :
1457 : template <class T> T AdjustValue(T value, uint64_t nRoundUpBitTest);
1458 :
1459 10 : template <class T> T AdjustValueInt(T value, uint64_t nRoundUpBitTest)
1460 : {
1461 10 : if (value >=
1462 10 : static_cast<T>(std::numeric_limits<T>::max() - (nRoundUpBitTest << 1)))
1463 0 : return static_cast<T>(value - (nRoundUpBitTest << 1));
1464 10 : return static_cast<T>(value + (nRoundUpBitTest << 1));
1465 : }
1466 :
1467 0 : template <> int8_t AdjustValue<int8_t>(int8_t value, uint64_t nRoundUpBitTest)
1468 : {
1469 0 : return AdjustValueInt(value, nRoundUpBitTest);
1470 : }
1471 :
1472 : template <>
1473 2 : uint8_t AdjustValue<uint8_t>(uint8_t value, uint64_t nRoundUpBitTest)
1474 : {
1475 2 : return AdjustValueInt(value, nRoundUpBitTest);
1476 : }
1477 :
1478 : template <>
1479 2 : int16_t AdjustValue<int16_t>(int16_t value, uint64_t nRoundUpBitTest)
1480 : {
1481 2 : return AdjustValueInt(value, nRoundUpBitTest);
1482 : }
1483 :
1484 : template <>
1485 2 : uint16_t AdjustValue<uint16_t>(uint16_t value, uint64_t nRoundUpBitTest)
1486 : {
1487 2 : return AdjustValueInt(value, nRoundUpBitTest);
1488 : }
1489 :
1490 : template <>
1491 2 : int32_t AdjustValue<int32_t>(int32_t value, uint64_t nRoundUpBitTest)
1492 : {
1493 2 : return AdjustValueInt(value, nRoundUpBitTest);
1494 : }
1495 :
1496 : template <>
1497 2 : uint32_t AdjustValue<uint32_t>(uint32_t value, uint64_t nRoundUpBitTest)
1498 : {
1499 2 : return AdjustValueInt(value, nRoundUpBitTest);
1500 : }
1501 :
1502 : template <>
1503 0 : int64_t AdjustValue<int64_t>(int64_t value, uint64_t nRoundUpBitTest)
1504 : {
1505 0 : return AdjustValueInt(value, nRoundUpBitTest);
1506 : }
1507 :
1508 : template <>
1509 0 : uint64_t AdjustValue<uint64_t>(uint64_t value, uint64_t nRoundUpBitTest)
1510 : {
1511 0 : return AdjustValueInt(value, nRoundUpBitTest);
1512 : }
1513 :
1514 0 : template <> GFloat16 AdjustValue<GFloat16>(GFloat16 value, uint64_t)
1515 : {
1516 : using std::nextafter;
1517 0 : return nextafter(value, cpl::NumericLimits<GFloat16>::max());
1518 : }
1519 :
1520 0 : template <> float AdjustValue<float>(float value, uint64_t)
1521 : {
1522 0 : return std::nextafter(value, std::numeric_limits<float>::max());
1523 : }
1524 :
1525 0 : template <> double AdjustValue<double>(double value, uint64_t)
1526 : {
1527 0 : return std::nextafter(value, std::numeric_limits<double>::max());
1528 : }
1529 :
1530 : template <class Teffective, class T>
1531 : T RoundValueDiscardLsb(const void *ptr, uint64_t nMask,
1532 : uint64_t nRoundUpBitTest);
1533 :
1534 : template <class T>
1535 16 : T RoundValueDiscardLsbUnsigned(const void *ptr, uint64_t nMask,
1536 : uint64_t nRoundUpBitTest)
1537 : {
1538 32 : if ((*reinterpret_cast<const T *>(ptr) & nMask) >
1539 16 : static_cast<uint64_t>(std::numeric_limits<T>::max()) -
1540 16 : (nRoundUpBitTest << 1U))
1541 : {
1542 4 : return static_cast<T>(std::numeric_limits<T>::max() & nMask);
1543 : }
1544 12 : const uint64_t newval =
1545 12 : (*reinterpret_cast<const T *>(ptr) & nMask) + (nRoundUpBitTest << 1U);
1546 12 : return static_cast<T>(newval);
1547 : }
1548 :
1549 : template <class T>
1550 18 : T RoundValueDiscardLsbSigned(const void *ptr, uint64_t nMask,
1551 : uint64_t nRoundUpBitTest)
1552 : {
1553 18 : T oldval = *reinterpret_cast<const T *>(ptr);
1554 18 : if (oldval < 0)
1555 : {
1556 4 : return static_cast<T>(oldval & nMask);
1557 : }
1558 14 : const uint64_t newval =
1559 14 : (*reinterpret_cast<const T *>(ptr) & nMask) + (nRoundUpBitTest << 1U);
1560 14 : if (newval > static_cast<uint64_t>(std::numeric_limits<T>::max()))
1561 4 : return static_cast<T>(std::numeric_limits<T>::max() & nMask);
1562 10 : return static_cast<T>(newval);
1563 : }
1564 :
1565 : template <>
1566 11 : uint16_t RoundValueDiscardLsb<uint16_t, uint16_t>(const void *ptr,
1567 : uint64_t nMask,
1568 : uint64_t nRoundUpBitTest)
1569 : {
1570 11 : return RoundValueDiscardLsbUnsigned<uint16_t>(ptr, nMask, nRoundUpBitTest);
1571 : }
1572 :
1573 : template <>
1574 5 : uint32_t RoundValueDiscardLsb<uint32_t, uint32_t>(const void *ptr,
1575 : uint64_t nMask,
1576 : uint64_t nRoundUpBitTest)
1577 : {
1578 5 : return RoundValueDiscardLsbUnsigned<uint32_t>(ptr, nMask, nRoundUpBitTest);
1579 : }
1580 :
1581 : template <>
1582 0 : uint64_t RoundValueDiscardLsb<uint64_t, uint64_t>(const void *ptr,
1583 : uint64_t nMask,
1584 : uint64_t nRoundUpBitTest)
1585 : {
1586 0 : return RoundValueDiscardLsbUnsigned<uint64_t>(ptr, nMask, nRoundUpBitTest);
1587 : }
1588 :
1589 : template <>
1590 0 : int8_t RoundValueDiscardLsb<int8_t, int8_t>(const void *ptr, uint64_t nMask,
1591 : uint64_t nRoundUpBitTest)
1592 : {
1593 0 : return RoundValueDiscardLsbSigned<int8_t>(ptr, nMask, nRoundUpBitTest);
1594 : }
1595 :
1596 : template <>
1597 13 : int16_t RoundValueDiscardLsb<int16_t, int16_t>(const void *ptr, uint64_t nMask,
1598 : uint64_t nRoundUpBitTest)
1599 : {
1600 13 : return RoundValueDiscardLsbSigned<int16_t>(ptr, nMask, nRoundUpBitTest);
1601 : }
1602 :
1603 : template <>
1604 5 : int32_t RoundValueDiscardLsb<int32_t, int32_t>(const void *ptr, uint64_t nMask,
1605 : uint64_t nRoundUpBitTest)
1606 : {
1607 5 : return RoundValueDiscardLsbSigned<int32_t>(ptr, nMask, nRoundUpBitTest);
1608 : }
1609 :
1610 : template <>
1611 0 : int64_t RoundValueDiscardLsb<int64_t, int64_t>(const void *ptr, uint64_t nMask,
1612 : uint64_t nRoundUpBitTest)
1613 : {
1614 0 : return RoundValueDiscardLsbSigned<int64_t>(ptr, nMask, nRoundUpBitTest);
1615 : }
1616 :
1617 : template <>
1618 0 : uint16_t RoundValueDiscardLsb<GFloat16, uint16_t>(const void *ptr,
1619 : uint64_t nMask,
1620 : uint64_t nRoundUpBitTest)
1621 : {
1622 0 : return RoundValueDiscardLsbUnsigned<uint16_t>(ptr, nMask, nRoundUpBitTest);
1623 : }
1624 :
1625 : template <>
1626 0 : uint32_t RoundValueDiscardLsb<float, uint32_t>(const void *ptr, uint64_t nMask,
1627 : uint64_t nRoundUpBitTest)
1628 : {
1629 0 : return RoundValueDiscardLsbUnsigned<uint32_t>(ptr, nMask, nRoundUpBitTest);
1630 : }
1631 :
1632 : template <>
1633 0 : uint64_t RoundValueDiscardLsb<double, uint64_t>(const void *ptr, uint64_t nMask,
1634 : uint64_t nRoundUpBitTest)
1635 : {
1636 0 : return RoundValueDiscardLsbUnsigned<uint64_t>(ptr, nMask, nRoundUpBitTest);
1637 : }
1638 :
1639 : template <class Teffective, class T>
1640 145 : static void DiscardLsbT(GByte *pabyBuffer, size_t nBytes, int iBand, int nBands,
1641 : uint16_t nPlanarConfig,
1642 : const GTiffDataset::MaskOffset *panMaskOffsetLsb,
1643 : bool bHasNoData, Teffective nNoDataValue)
1644 : {
1645 : static_assert(sizeof(Teffective) == sizeof(T),
1646 : "sizeof(Teffective) == sizeof(T)");
1647 145 : if (nPlanarConfig == PLANARCONFIG_SEPARATE)
1648 : {
1649 98 : const auto nMask = panMaskOffsetLsb[iBand].nMask;
1650 98 : const auto nRoundUpBitTest = panMaskOffsetLsb[iBand].nRoundUpBitTest;
1651 196 : for (size_t i = 0; i < nBytes / sizeof(T); ++i)
1652 : {
1653 98 : if (MustNotDiscardLsb(reinterpret_cast<Teffective *>(pabyBuffer)[i],
1654 : bHasNoData, nNoDataValue))
1655 : {
1656 22 : continue;
1657 : }
1658 :
1659 76 : if (reinterpret_cast<T *>(pabyBuffer)[i] & nRoundUpBitTest)
1660 : {
1661 30 : reinterpret_cast<T *>(pabyBuffer)[i] =
1662 15 : RoundValueDiscardLsb<Teffective, T>(
1663 15 : &(reinterpret_cast<T *>(pabyBuffer)[i]), nMask,
1664 : nRoundUpBitTest);
1665 : }
1666 : else
1667 : {
1668 61 : reinterpret_cast<T *>(pabyBuffer)[i] = static_cast<T>(
1669 61 : reinterpret_cast<T *>(pabyBuffer)[i] & nMask);
1670 : }
1671 :
1672 : // Make sure that by discarding LSB we don't end up to a value
1673 : // that is no the nodata value
1674 76 : if (MustNotDiscardLsb(reinterpret_cast<Teffective *>(pabyBuffer)[i],
1675 : bHasNoData, nNoDataValue))
1676 : {
1677 8 : reinterpret_cast<Teffective *>(pabyBuffer)[i] =
1678 4 : AdjustValue(nNoDataValue, nRoundUpBitTest);
1679 : }
1680 : }
1681 : }
1682 : else
1683 : {
1684 94 : for (size_t i = 0; i < nBytes / sizeof(T); i += nBands)
1685 : {
1686 147 : for (int j = 0; j < nBands; ++j)
1687 : {
1688 100 : if (MustNotDiscardLsb(
1689 100 : reinterpret_cast<Teffective *>(pabyBuffer)[i + j],
1690 : bHasNoData, nNoDataValue))
1691 : {
1692 14 : continue;
1693 : }
1694 :
1695 86 : if (reinterpret_cast<T *>(pabyBuffer)[i + j] &
1696 86 : panMaskOffsetLsb[j].nRoundUpBitTest)
1697 : {
1698 38 : reinterpret_cast<T *>(pabyBuffer)[i + j] =
1699 19 : RoundValueDiscardLsb<Teffective, T>(
1700 19 : &(reinterpret_cast<T *>(pabyBuffer)[i + j]),
1701 19 : panMaskOffsetLsb[j].nMask,
1702 19 : panMaskOffsetLsb[j].nRoundUpBitTest);
1703 : }
1704 : else
1705 : {
1706 67 : reinterpret_cast<T *>(pabyBuffer)[i + j] = static_cast<T>(
1707 67 : (reinterpret_cast<T *>(pabyBuffer)[i + j] &
1708 67 : panMaskOffsetLsb[j].nMask));
1709 : }
1710 :
1711 : // Make sure that by discarding LSB we don't end up to a value
1712 : // that is no the nodata value
1713 86 : if (MustNotDiscardLsb(
1714 86 : reinterpret_cast<Teffective *>(pabyBuffer)[i + j],
1715 : bHasNoData, nNoDataValue))
1716 : {
1717 8 : reinterpret_cast<Teffective *>(pabyBuffer)[i + j] =
1718 4 : AdjustValue(nNoDataValue,
1719 4 : panMaskOffsetLsb[j].nRoundUpBitTest);
1720 : }
1721 : }
1722 : }
1723 : }
1724 145 : }
1725 :
1726 183 : static void DiscardLsb(GByte *pabyBuffer, GPtrDiff_t nBytes, int iBand,
1727 : int nBands, uint16_t nSampleFormat,
1728 : uint16_t nBitsPerSample, uint16_t nPlanarConfig,
1729 : const GTiffDataset::MaskOffset *panMaskOffsetLsb,
1730 : bool bHasNoData, double dfNoDataValue)
1731 : {
1732 183 : if (nBitsPerSample == 8 && nSampleFormat == SAMPLEFORMAT_UINT)
1733 : {
1734 38 : uint8_t nNoDataValue = 0;
1735 38 : if (bHasNoData && GDALIsValueExactAs<uint8_t>(dfNoDataValue))
1736 : {
1737 6 : nNoDataValue = static_cast<uint8_t>(dfNoDataValue);
1738 : }
1739 : else
1740 : {
1741 32 : bHasNoData = false;
1742 : }
1743 38 : if (nPlanarConfig == PLANARCONFIG_SEPARATE)
1744 : {
1745 25 : const auto nMask =
1746 25 : static_cast<unsigned>(panMaskOffsetLsb[iBand].nMask);
1747 25 : const auto nRoundUpBitTest =
1748 25 : static_cast<unsigned>(panMaskOffsetLsb[iBand].nRoundUpBitTest);
1749 50 : for (decltype(nBytes) i = 0; i < nBytes; ++i)
1750 : {
1751 25 : if (bHasNoData && pabyBuffer[i] == nNoDataValue)
1752 3 : continue;
1753 :
1754 : // Keep 255 in case it is alpha.
1755 22 : if (pabyBuffer[i] != 255)
1756 : {
1757 21 : if (pabyBuffer[i] & nRoundUpBitTest)
1758 5 : pabyBuffer[i] = static_cast<GByte>(
1759 5 : std::min(255U, (pabyBuffer[i] & nMask) +
1760 5 : (nRoundUpBitTest << 1U)));
1761 : else
1762 16 : pabyBuffer[i] =
1763 16 : static_cast<GByte>(pabyBuffer[i] & nMask);
1764 :
1765 : // Make sure that by discarding LSB we don't end up to a
1766 : // value that is no the nodata value
1767 21 : if (bHasNoData && pabyBuffer[i] == nNoDataValue)
1768 2 : pabyBuffer[i] =
1769 1 : AdjustValue(nNoDataValue, nRoundUpBitTest);
1770 : }
1771 : }
1772 : }
1773 : else
1774 : {
1775 26 : for (decltype(nBytes) i = 0; i < nBytes; i += nBands)
1776 : {
1777 42 : for (int j = 0; j < nBands; ++j)
1778 : {
1779 29 : if (bHasNoData && pabyBuffer[i + j] == nNoDataValue)
1780 2 : continue;
1781 :
1782 : // Keep 255 in case it is alpha.
1783 27 : if (pabyBuffer[i + j] != 255)
1784 : {
1785 25 : if (pabyBuffer[i + j] &
1786 25 : panMaskOffsetLsb[j].nRoundUpBitTest)
1787 : {
1788 6 : pabyBuffer[i + j] = static_cast<GByte>(std::min(
1789 12 : 255U,
1790 6 : (pabyBuffer[i + j] &
1791 : static_cast<unsigned>(
1792 6 : panMaskOffsetLsb[j].nMask)) +
1793 : (static_cast<unsigned>(
1794 6 : panMaskOffsetLsb[j].nRoundUpBitTest)
1795 6 : << 1U)));
1796 : }
1797 : else
1798 : {
1799 19 : pabyBuffer[i + j] = static_cast<GByte>(
1800 19 : pabyBuffer[i + j] & panMaskOffsetLsb[j].nMask);
1801 : }
1802 :
1803 : // Make sure that by discarding LSB we don't end up to a
1804 : // value that is no the nodata value
1805 25 : if (bHasNoData && pabyBuffer[i + j] == nNoDataValue)
1806 1 : pabyBuffer[i + j] = AdjustValue(
1807 : nNoDataValue,
1808 1 : panMaskOffsetLsb[j].nRoundUpBitTest);
1809 : }
1810 : }
1811 : }
1812 38 : }
1813 : }
1814 145 : else if (nBitsPerSample == 8 && nSampleFormat == SAMPLEFORMAT_INT)
1815 : {
1816 0 : int8_t nNoDataValue = 0;
1817 0 : if (bHasNoData && GDALIsValueExactAs<int8_t>(dfNoDataValue))
1818 : {
1819 0 : nNoDataValue = static_cast<int8_t>(dfNoDataValue);
1820 : }
1821 : else
1822 : {
1823 0 : bHasNoData = false;
1824 : }
1825 0 : DiscardLsbT<int8_t, int8_t>(pabyBuffer, nBytes, iBand, nBands,
1826 : nPlanarConfig, panMaskOffsetLsb, bHasNoData,
1827 0 : nNoDataValue);
1828 : }
1829 145 : else if (nBitsPerSample == 16 && nSampleFormat == SAMPLEFORMAT_INT)
1830 : {
1831 48 : int16_t nNoDataValue = 0;
1832 48 : if (bHasNoData && GDALIsValueExactAs<int16_t>(dfNoDataValue))
1833 : {
1834 6 : nNoDataValue = static_cast<int16_t>(dfNoDataValue);
1835 : }
1836 : else
1837 : {
1838 42 : bHasNoData = false;
1839 : }
1840 48 : DiscardLsbT<int16_t, int16_t>(pabyBuffer, nBytes, iBand, nBands,
1841 : nPlanarConfig, panMaskOffsetLsb,
1842 48 : bHasNoData, nNoDataValue);
1843 : }
1844 97 : else if (nBitsPerSample == 16 && nSampleFormat == SAMPLEFORMAT_UINT)
1845 : {
1846 33 : uint16_t nNoDataValue = 0;
1847 33 : if (bHasNoData && GDALIsValueExactAs<uint16_t>(dfNoDataValue))
1848 : {
1849 6 : nNoDataValue = static_cast<uint16_t>(dfNoDataValue);
1850 : }
1851 : else
1852 : {
1853 27 : bHasNoData = false;
1854 : }
1855 33 : DiscardLsbT<uint16_t, uint16_t>(pabyBuffer, nBytes, iBand, nBands,
1856 : nPlanarConfig, panMaskOffsetLsb,
1857 33 : bHasNoData, nNoDataValue);
1858 : }
1859 64 : else if (nBitsPerSample == 32 && nSampleFormat == SAMPLEFORMAT_INT)
1860 : {
1861 13 : int32_t nNoDataValue = 0;
1862 13 : if (bHasNoData && GDALIsValueExactAs<int32_t>(dfNoDataValue))
1863 : {
1864 6 : nNoDataValue = static_cast<int32_t>(dfNoDataValue);
1865 : }
1866 : else
1867 : {
1868 7 : bHasNoData = false;
1869 : }
1870 13 : DiscardLsbT<int32_t, int32_t>(pabyBuffer, nBytes, iBand, nBands,
1871 : nPlanarConfig, panMaskOffsetLsb,
1872 13 : bHasNoData, nNoDataValue);
1873 : }
1874 51 : else if (nBitsPerSample == 32 && nSampleFormat == SAMPLEFORMAT_UINT)
1875 : {
1876 13 : uint32_t nNoDataValue = 0;
1877 13 : if (bHasNoData && GDALIsValueExactAs<uint32_t>(dfNoDataValue))
1878 : {
1879 6 : nNoDataValue = static_cast<uint32_t>(dfNoDataValue);
1880 : }
1881 : else
1882 : {
1883 7 : bHasNoData = false;
1884 : }
1885 13 : DiscardLsbT<uint32_t, uint32_t>(pabyBuffer, nBytes, iBand, nBands,
1886 : nPlanarConfig, panMaskOffsetLsb,
1887 13 : bHasNoData, nNoDataValue);
1888 : }
1889 38 : else if (nBitsPerSample == 64 && nSampleFormat == SAMPLEFORMAT_INT)
1890 : {
1891 : // FIXME: we should not rely on dfNoDataValue when we support native
1892 : // data type for nodata
1893 0 : int64_t nNoDataValue = 0;
1894 0 : if (bHasNoData && GDALIsValueExactAs<int64_t>(dfNoDataValue))
1895 : {
1896 0 : nNoDataValue = static_cast<int64_t>(dfNoDataValue);
1897 : }
1898 : else
1899 : {
1900 0 : bHasNoData = false;
1901 : }
1902 0 : DiscardLsbT<int64_t, int64_t>(pabyBuffer, nBytes, iBand, nBands,
1903 : nPlanarConfig, panMaskOffsetLsb,
1904 0 : bHasNoData, nNoDataValue);
1905 : }
1906 38 : else if (nBitsPerSample == 64 && nSampleFormat == SAMPLEFORMAT_UINT)
1907 : {
1908 : // FIXME: we should not rely on dfNoDataValue when we support native
1909 : // data type for nodata
1910 0 : uint64_t nNoDataValue = 0;
1911 0 : if (bHasNoData && GDALIsValueExactAs<uint64_t>(dfNoDataValue))
1912 : {
1913 0 : nNoDataValue = static_cast<uint64_t>(dfNoDataValue);
1914 : }
1915 : else
1916 : {
1917 0 : bHasNoData = false;
1918 : }
1919 0 : DiscardLsbT<uint64_t, uint64_t>(pabyBuffer, nBytes, iBand, nBands,
1920 : nPlanarConfig, panMaskOffsetLsb,
1921 0 : bHasNoData, nNoDataValue);
1922 : }
1923 38 : else if (nBitsPerSample == 16 && nSampleFormat == SAMPLEFORMAT_IEEEFP)
1924 : {
1925 0 : const GFloat16 fNoDataValue = static_cast<GFloat16>(dfNoDataValue);
1926 0 : DiscardLsbT<GFloat16, uint16_t>(pabyBuffer, nBytes, iBand, nBands,
1927 : nPlanarConfig, panMaskOffsetLsb,
1928 0 : bHasNoData, fNoDataValue);
1929 : }
1930 38 : else if (nBitsPerSample == 32 && nSampleFormat == SAMPLEFORMAT_IEEEFP)
1931 : {
1932 19 : const float fNoDataValue = static_cast<float>(dfNoDataValue);
1933 19 : DiscardLsbT<float, uint32_t>(pabyBuffer, nBytes, iBand, nBands,
1934 : nPlanarConfig, panMaskOffsetLsb,
1935 19 : bHasNoData, fNoDataValue);
1936 : }
1937 19 : else if (nBitsPerSample == 64 && nSampleFormat == SAMPLEFORMAT_IEEEFP)
1938 : {
1939 19 : DiscardLsbT<double, uint64_t>(pabyBuffer, nBytes, iBand, nBands,
1940 : nPlanarConfig, panMaskOffsetLsb,
1941 : bHasNoData, dfNoDataValue);
1942 : }
1943 183 : }
1944 :
1945 183 : void GTiffDataset::DiscardLsb(GByte *pabyBuffer, GPtrDiff_t nBytes,
1946 : int iBand) const
1947 : {
1948 183 : ::DiscardLsb(pabyBuffer, nBytes, iBand, nBands, m_nSampleFormat,
1949 183 : m_nBitsPerSample, m_nPlanarConfig, m_panMaskOffsetLsb,
1950 183 : m_bNoDataSet, m_dfNoDataValue);
1951 183 : }
1952 :
1953 : /************************************************************************/
1954 : /* WriteEncodedTileOrStrip() */
1955 : /************************************************************************/
1956 :
1957 228776 : CPLErr GTiffDataset::WriteEncodedTileOrStrip(uint32_t tile_or_strip, void *data,
1958 : int bPreserveDataBuffer)
1959 : {
1960 228776 : CPLErr eErr = CE_None;
1961 :
1962 228776 : if (TIFFIsTiled(m_hTIFF))
1963 : {
1964 50505 : if (!(WriteEncodedTile(tile_or_strip, static_cast<GByte *>(data),
1965 : bPreserveDataBuffer)))
1966 : {
1967 14 : eErr = CE_Failure;
1968 : }
1969 : }
1970 : else
1971 : {
1972 178271 : if (!(WriteEncodedStrip(tile_or_strip, static_cast<GByte *>(data),
1973 : bPreserveDataBuffer)))
1974 : {
1975 8 : eErr = CE_Failure;
1976 : }
1977 : }
1978 :
1979 228776 : return eErr;
1980 : }
1981 :
1982 : /************************************************************************/
1983 : /* FlushBlockBuf() */
1984 : /************************************************************************/
1985 :
1986 9616 : CPLErr GTiffDataset::FlushBlockBuf()
1987 :
1988 : {
1989 9616 : if (m_nLoadedBlock < 0 || !m_bLoadedBlockDirty)
1990 0 : return CE_None;
1991 :
1992 9616 : m_bLoadedBlockDirty = false;
1993 :
1994 : const CPLErr eErr =
1995 9616 : WriteEncodedTileOrStrip(m_nLoadedBlock, m_pabyBlockBuf, true);
1996 9616 : if (eErr != CE_None)
1997 : {
1998 0 : ReportError(CE_Failure, CPLE_AppDefined,
1999 : "WriteEncodedTile/Strip() failed.");
2000 0 : m_bWriteError = true;
2001 : }
2002 :
2003 9616 : return eErr;
2004 : }
2005 :
2006 : /************************************************************************/
2007 : /* GTiffFillStreamableOffsetAndCount() */
2008 : /************************************************************************/
2009 :
2010 8 : static void GTiffFillStreamableOffsetAndCount(TIFF *hTIFF, int nSize)
2011 : {
2012 8 : uint32_t nXSize = 0;
2013 8 : uint32_t nYSize = 0;
2014 8 : TIFFGetField(hTIFF, TIFFTAG_IMAGEWIDTH, &nXSize);
2015 8 : TIFFGetField(hTIFF, TIFFTAG_IMAGELENGTH, &nYSize);
2016 8 : const bool bIsTiled = CPL_TO_BOOL(TIFFIsTiled(hTIFF));
2017 : const int nBlockCount =
2018 8 : bIsTiled ? TIFFNumberOfTiles(hTIFF) : TIFFNumberOfStrips(hTIFF);
2019 :
2020 8 : toff_t *panOffset = nullptr;
2021 8 : TIFFGetField(hTIFF, bIsTiled ? TIFFTAG_TILEOFFSETS : TIFFTAG_STRIPOFFSETS,
2022 : &panOffset);
2023 8 : toff_t *panSize = nullptr;
2024 8 : TIFFGetField(hTIFF,
2025 : bIsTiled ? TIFFTAG_TILEBYTECOUNTS : TIFFTAG_STRIPBYTECOUNTS,
2026 : &panSize);
2027 8 : toff_t nOffset = nSize;
2028 : // Trick to avoid clang static analyzer raising false positive about
2029 : // divide by zero later.
2030 8 : int nBlocksPerBand = 1;
2031 8 : uint32_t nRowsPerStrip = 0;
2032 8 : if (!bIsTiled)
2033 : {
2034 6 : TIFFGetField(hTIFF, TIFFTAG_ROWSPERSTRIP, &nRowsPerStrip);
2035 6 : if (nRowsPerStrip > static_cast<uint32_t>(nYSize))
2036 0 : nRowsPerStrip = nYSize;
2037 6 : nBlocksPerBand = DIV_ROUND_UP(nYSize, nRowsPerStrip);
2038 : }
2039 2947 : for (int i = 0; i < nBlockCount; ++i)
2040 : {
2041 : GPtrDiff_t cc = bIsTiled
2042 2939 : ? static_cast<GPtrDiff_t>(TIFFTileSize(hTIFF))
2043 2907 : : static_cast<GPtrDiff_t>(TIFFStripSize(hTIFF));
2044 2939 : if (!bIsTiled)
2045 : {
2046 : /* --------------------------------------------------------------------
2047 : */
2048 : /* If this is the last strip in the image, and is partial, then
2049 : */
2050 : /* we need to trim the number of scanlines written to the */
2051 : /* amount of valid data we have. (#2748) */
2052 : /* --------------------------------------------------------------------
2053 : */
2054 2907 : int nStripWithinBand = i % nBlocksPerBand;
2055 2907 : if (nStripWithinBand * nRowsPerStrip > nYSize - nRowsPerStrip)
2056 : {
2057 1 : cc = (cc / nRowsPerStrip) *
2058 1 : (nYSize - nStripWithinBand * nRowsPerStrip);
2059 : }
2060 : }
2061 2939 : panOffset[i] = nOffset;
2062 2939 : panSize[i] = cc;
2063 2939 : nOffset += cc;
2064 : }
2065 8 : }
2066 :
2067 : /************************************************************************/
2068 : /* Crystalize() */
2069 : /* */
2070 : /* Make sure that the directory information is written out for */
2071 : /* a new file, require before writing any imagery data. */
2072 : /************************************************************************/
2073 :
2074 2655610 : void GTiffDataset::Crystalize()
2075 :
2076 : {
2077 2655610 : if (m_bCrystalized)
2078 2649820 : return;
2079 :
2080 : // TODO: libtiff writes extended tags in the order they are specified
2081 : // and not in increasing order.
2082 5783 : WriteMetadata(this, m_hTIFF, true, m_eProfile, m_osFilename.c_str(),
2083 5783 : m_papszCreationOptions);
2084 5783 : WriteGeoTIFFInfo();
2085 5783 : if (m_bNoDataSet)
2086 340 : WriteNoDataValue(m_hTIFF, m_dfNoDataValue);
2087 5443 : else if (m_bNoDataSetAsInt64)
2088 4 : WriteNoDataValue(m_hTIFF, m_nNoDataValueInt64);
2089 5439 : else if (m_bNoDataSetAsUInt64)
2090 4 : WriteNoDataValue(m_hTIFF, m_nNoDataValueUInt64);
2091 :
2092 5783 : m_bMetadataChanged = false;
2093 5783 : m_bGeoTIFFInfoChanged = false;
2094 5783 : m_bNoDataChanged = false;
2095 5783 : m_bNeedsRewrite = false;
2096 :
2097 5783 : m_bCrystalized = true;
2098 :
2099 5783 : TIFFWriteCheck(m_hTIFF, TIFFIsTiled(m_hTIFF), "GTiffDataset::Crystalize");
2100 :
2101 5783 : TIFFWriteDirectory(m_hTIFF);
2102 5783 : if (m_bStreamingOut)
2103 : {
2104 : // We need to write twice the directory to be sure that custom
2105 : // TIFF tags are correctly sorted and that padding bytes have been
2106 : // added.
2107 3 : TIFFSetDirectory(m_hTIFF, 0);
2108 3 : TIFFWriteDirectory(m_hTIFF);
2109 :
2110 3 : if (VSIFSeekL(m_fpL, 0, SEEK_END) != 0)
2111 : {
2112 0 : ReportError(CE_Failure, CPLE_FileIO, "Could not seek");
2113 : }
2114 3 : const int nSize = static_cast<int>(VSIFTellL(m_fpL));
2115 :
2116 3 : TIFFSetDirectory(m_hTIFF, 0);
2117 3 : GTiffFillStreamableOffsetAndCount(m_hTIFF, nSize);
2118 3 : TIFFWriteDirectory(m_hTIFF);
2119 :
2120 3 : vsi_l_offset nDataLength = 0;
2121 : void *pabyBuffer =
2122 3 : VSIGetMemFileBuffer(m_pszTmpFilename, &nDataLength, FALSE);
2123 3 : if (static_cast<int>(VSIFWriteL(
2124 3 : pabyBuffer, 1, static_cast<int>(nDataLength), m_fpToWrite)) !=
2125 : static_cast<int>(nDataLength))
2126 : {
2127 0 : ReportError(CE_Failure, CPLE_FileIO, "Could not write %d bytes",
2128 : static_cast<int>(nDataLength));
2129 : }
2130 : // In case of single strip file, there's a libtiff check that would
2131 : // issue a warning since the file hasn't the required size.
2132 3 : CPLPushErrorHandler(CPLQuietErrorHandler);
2133 3 : TIFFSetDirectory(m_hTIFF, 0);
2134 3 : CPLPopErrorHandler();
2135 : }
2136 : else
2137 : {
2138 5780 : const tdir_t nNumberOfDirs = TIFFNumberOfDirectories(m_hTIFF);
2139 5780 : if (nNumberOfDirs > 0)
2140 : {
2141 5780 : TIFFSetDirectory(m_hTIFF, static_cast<tdir_t>(nNumberOfDirs - 1));
2142 : }
2143 : }
2144 :
2145 5783 : RestoreVolatileParameters(m_hTIFF);
2146 :
2147 5783 : m_nDirOffset = TIFFCurrentDirOffset(m_hTIFF);
2148 : }
2149 :
2150 : /************************************************************************/
2151 : /* FlushCache() */
2152 : /* */
2153 : /* We override this so we can also flush out local tiff strip */
2154 : /* cache if need be. */
2155 : /************************************************************************/
2156 :
2157 4570 : CPLErr GTiffDataset::FlushCache(bool bAtClosing)
2158 :
2159 : {
2160 4570 : return FlushCacheInternal(bAtClosing, true);
2161 : }
2162 :
2163 46717 : CPLErr GTiffDataset::FlushCacheInternal(bool bAtClosing, bool bFlushDirectory)
2164 : {
2165 46717 : if (m_bIsFinalized)
2166 2 : return CE_None;
2167 :
2168 46715 : CPLErr eErr = GDALPamDataset::FlushCache(bAtClosing);
2169 :
2170 46715 : if (m_bLoadedBlockDirty && m_nLoadedBlock != -1)
2171 : {
2172 275 : if (FlushBlockBuf() != CE_None)
2173 0 : eErr = CE_Failure;
2174 : }
2175 :
2176 46715 : CPLFree(m_pabyBlockBuf);
2177 46715 : m_pabyBlockBuf = nullptr;
2178 46715 : m_nLoadedBlock = -1;
2179 46715 : m_bLoadedBlockDirty = false;
2180 :
2181 : // Finish compression
2182 46715 : auto poQueue = m_poBaseDS ? m_poBaseDS->m_poCompressQueue.get()
2183 44365 : : m_poCompressQueue.get();
2184 46715 : if (poQueue)
2185 : {
2186 161 : poQueue->WaitCompletion();
2187 :
2188 : // Flush remaining data
2189 : // cppcheck-suppress constVariableReference
2190 :
2191 161 : auto &oQueue =
2192 161 : m_poBaseDS ? m_poBaseDS->m_asQueueJobIdx : m_asQueueJobIdx;
2193 230 : while (!oQueue.empty())
2194 : {
2195 69 : WaitCompletionForJobIdx(oQueue.front());
2196 : }
2197 : }
2198 :
2199 46715 : if (bFlushDirectory && GetAccess() == GA_Update)
2200 : {
2201 13977 : if (FlushDirectory() != CE_None)
2202 12 : eErr = CE_Failure;
2203 : }
2204 46715 : return eErr;
2205 : }
2206 :
2207 : /************************************************************************/
2208 : /* FlushDirectory() */
2209 : /************************************************************************/
2210 :
2211 21972 : CPLErr GTiffDataset::FlushDirectory()
2212 :
2213 : {
2214 21972 : CPLErr eErr = CE_None;
2215 :
2216 686 : const auto ReloadAllOtherDirectories = [this]()
2217 : {
2218 338 : const auto poBaseDS = m_poBaseDS ? m_poBaseDS : this;
2219 341 : for (auto &poOvrDS : poBaseDS->m_apoOverviewDS)
2220 : {
2221 3 : if (poOvrDS->m_bCrystalized && poOvrDS.get() != this)
2222 : {
2223 3 : poOvrDS->ReloadDirectory(true);
2224 : }
2225 :
2226 3 : if (poOvrDS->m_poMaskDS && poOvrDS->m_poMaskDS.get() != this &&
2227 0 : poOvrDS->m_poMaskDS->m_bCrystalized)
2228 : {
2229 0 : poOvrDS->m_poMaskDS->ReloadDirectory(true);
2230 : }
2231 : }
2232 338 : if (poBaseDS->m_poMaskDS && poBaseDS->m_poMaskDS.get() != this &&
2233 0 : poBaseDS->m_poMaskDS->m_bCrystalized)
2234 : {
2235 0 : poBaseDS->m_poMaskDS->ReloadDirectory(true);
2236 : }
2237 338 : if (poBaseDS->m_bCrystalized && poBaseDS != this)
2238 : {
2239 7 : poBaseDS->ReloadDirectory(true);
2240 : }
2241 338 : };
2242 :
2243 21972 : if (eAccess == GA_Update)
2244 : {
2245 15670 : if (m_bMetadataChanged)
2246 : {
2247 201 : m_bNeedsRewrite =
2248 201 : WriteMetadata(this, m_hTIFF, true, m_eProfile,
2249 201 : m_osFilename.c_str(), m_papszCreationOptions);
2250 201 : m_bMetadataChanged = false;
2251 :
2252 201 : if (m_bForceUnsetRPC)
2253 : {
2254 5 : double *padfRPCTag = nullptr;
2255 : uint16_t nCount;
2256 5 : if (TIFFGetField(m_hTIFF, TIFFTAG_RPCCOEFFICIENT, &nCount,
2257 5 : &padfRPCTag))
2258 : {
2259 3 : std::vector<double> zeroes(92);
2260 3 : TIFFSetField(m_hTIFF, TIFFTAG_RPCCOEFFICIENT, 92,
2261 : zeroes.data());
2262 3 : TIFFUnsetField(m_hTIFF, TIFFTAG_RPCCOEFFICIENT);
2263 3 : m_bNeedsRewrite = true;
2264 : }
2265 :
2266 5 : if (m_poBaseDS == nullptr)
2267 : {
2268 5 : GDALWriteRPCTXTFile(m_osFilename.c_str(), nullptr);
2269 5 : GDALWriteRPBFile(m_osFilename.c_str(), nullptr);
2270 : }
2271 : }
2272 : }
2273 :
2274 15670 : if (m_bGeoTIFFInfoChanged)
2275 : {
2276 145 : WriteGeoTIFFInfo();
2277 145 : m_bGeoTIFFInfoChanged = false;
2278 : }
2279 :
2280 15670 : if (m_bNoDataChanged)
2281 : {
2282 53 : if (m_bNoDataSet)
2283 : {
2284 37 : WriteNoDataValue(m_hTIFF, m_dfNoDataValue);
2285 : }
2286 16 : else if (m_bNoDataSetAsInt64)
2287 : {
2288 0 : WriteNoDataValue(m_hTIFF, m_nNoDataValueInt64);
2289 : }
2290 16 : else if (m_bNoDataSetAsUInt64)
2291 : {
2292 0 : WriteNoDataValue(m_hTIFF, m_nNoDataValueUInt64);
2293 : }
2294 : else
2295 : {
2296 16 : UnsetNoDataValue(m_hTIFF);
2297 : }
2298 53 : m_bNeedsRewrite = true;
2299 53 : m_bNoDataChanged = false;
2300 : }
2301 :
2302 15670 : if (m_bNeedsRewrite)
2303 : {
2304 363 : if (!m_bCrystalized)
2305 : {
2306 28 : Crystalize();
2307 : }
2308 : else
2309 : {
2310 335 : const TIFFSizeProc pfnSizeProc = TIFFGetSizeProc(m_hTIFF);
2311 :
2312 335 : m_nDirOffset = pfnSizeProc(TIFFClientdata(m_hTIFF));
2313 335 : if ((m_nDirOffset % 2) == 1)
2314 71 : ++m_nDirOffset;
2315 :
2316 335 : if (TIFFRewriteDirectory(m_hTIFF) == 0)
2317 0 : eErr = CE_Failure;
2318 :
2319 335 : TIFFSetSubDirectory(m_hTIFF, m_nDirOffset);
2320 :
2321 335 : ReloadAllOtherDirectories();
2322 :
2323 335 : if (m_bLayoutIFDSBeforeData && m_bBlockOrderRowMajor &&
2324 2 : m_bLeaderSizeAsUInt4 &&
2325 2 : m_bTrailerRepeatedLast4BytesRepeated &&
2326 2 : !m_bKnownIncompatibleEdition &&
2327 2 : !m_bWriteKnownIncompatibleEdition)
2328 : {
2329 2 : ReportError(CE_Warning, CPLE_AppDefined,
2330 : "The IFD has been rewritten at the end of "
2331 : "the file, which breaks COG layout.");
2332 2 : m_bKnownIncompatibleEdition = true;
2333 2 : m_bWriteKnownIncompatibleEdition = true;
2334 : }
2335 : }
2336 :
2337 363 : m_bNeedsRewrite = false;
2338 : }
2339 : }
2340 :
2341 : // There are some circumstances in which we can reach this point
2342 : // without having made this our directory (SetDirectory()) in which
2343 : // case we should not risk a flush.
2344 37642 : if (GetAccess() == GA_Update &&
2345 15670 : TIFFCurrentDirOffset(m_hTIFF) == m_nDirOffset)
2346 : {
2347 15670 : const TIFFSizeProc pfnSizeProc = TIFFGetSizeProc(m_hTIFF);
2348 :
2349 15670 : toff_t nNewDirOffset = pfnSizeProc(TIFFClientdata(m_hTIFF));
2350 15670 : if ((nNewDirOffset % 2) == 1)
2351 3448 : ++nNewDirOffset;
2352 :
2353 15670 : if (TIFFFlush(m_hTIFF) == 0)
2354 12 : eErr = CE_Failure;
2355 :
2356 15670 : if (m_nDirOffset != TIFFCurrentDirOffset(m_hTIFF))
2357 : {
2358 3 : m_nDirOffset = nNewDirOffset;
2359 3 : ReloadAllOtherDirectories();
2360 3 : CPLDebug("GTiff",
2361 : "directory moved during flush in FlushDirectory()");
2362 : }
2363 : }
2364 :
2365 21972 : SetDirectory();
2366 21972 : return eErr;
2367 : }
2368 :
2369 : /************************************************************************/
2370 : /* CleanOverviews() */
2371 : /************************************************************************/
2372 :
2373 5 : CPLErr GTiffDataset::CleanOverviews()
2374 :
2375 : {
2376 5 : CPLAssert(!m_poBaseDS);
2377 :
2378 5 : ScanDirectories();
2379 :
2380 5 : FlushDirectory();
2381 :
2382 : /* -------------------------------------------------------------------- */
2383 : /* Cleanup overviews objects, and get offsets to all overview */
2384 : /* directories. */
2385 : /* -------------------------------------------------------------------- */
2386 10 : std::vector<toff_t> anOvDirOffsets;
2387 :
2388 10 : for (auto &poOvrDS : m_apoOverviewDS)
2389 : {
2390 5 : anOvDirOffsets.push_back(poOvrDS->m_nDirOffset);
2391 5 : if (poOvrDS->m_poMaskDS)
2392 1 : anOvDirOffsets.push_back(poOvrDS->m_poMaskDS->m_nDirOffset);
2393 : }
2394 5 : m_apoOverviewDS.clear();
2395 :
2396 : /* -------------------------------------------------------------------- */
2397 : /* Loop through all the directories, translating the offsets */
2398 : /* into indexes we can use with TIFFUnlinkDirectory(). */
2399 : /* -------------------------------------------------------------------- */
2400 10 : std::vector<uint16_t> anOvDirIndexes;
2401 5 : int iThisOffset = 1;
2402 :
2403 5 : TIFFSetDirectory(m_hTIFF, 0);
2404 :
2405 : while (true)
2406 : {
2407 28 : for (toff_t nOffset : anOvDirOffsets)
2408 : {
2409 16 : if (nOffset == TIFFCurrentDirOffset(m_hTIFF))
2410 : {
2411 6 : anOvDirIndexes.push_back(static_cast<uint16_t>(iThisOffset));
2412 : }
2413 : }
2414 :
2415 12 : if (TIFFLastDirectory(m_hTIFF))
2416 5 : break;
2417 :
2418 7 : TIFFReadDirectory(m_hTIFF);
2419 7 : ++iThisOffset;
2420 7 : }
2421 :
2422 : /* -------------------------------------------------------------------- */
2423 : /* Actually unlink the target directories. Note that we do */
2424 : /* this from last to first so as to avoid renumbering any of */
2425 : /* the earlier directories we need to remove. */
2426 : /* -------------------------------------------------------------------- */
2427 11 : while (!anOvDirIndexes.empty())
2428 : {
2429 6 : TIFFUnlinkDirectory(m_hTIFF, anOvDirIndexes.back());
2430 6 : anOvDirIndexes.pop_back();
2431 : }
2432 :
2433 5 : if (m_poMaskDS)
2434 : {
2435 1 : m_poMaskDS->m_apoOverviewDS.clear();
2436 : }
2437 :
2438 5 : if (!SetDirectory())
2439 0 : return CE_Failure;
2440 :
2441 5 : return CE_None;
2442 : }
2443 :
2444 : /************************************************************************/
2445 : /* RegisterNewOverviewDataset() */
2446 : /************************************************************************/
2447 :
2448 515 : CPLErr GTiffDataset::RegisterNewOverviewDataset(toff_t nOverviewOffset,
2449 : int l_nJpegQuality,
2450 : CSLConstList papszOptions)
2451 : {
2452 : const auto GetOptionValue =
2453 5665 : [papszOptions](const char *pszOptionKey, const char *pszConfigOptionKey,
2454 11329 : const char **ppszKeyUsed = nullptr)
2455 : {
2456 5665 : const char *pszVal = CSLFetchNameValue(papszOptions, pszOptionKey);
2457 5665 : if (pszVal)
2458 : {
2459 1 : if (ppszKeyUsed)
2460 1 : *ppszKeyUsed = pszOptionKey;
2461 1 : return pszVal;
2462 : }
2463 5664 : pszVal = CSLFetchNameValue(papszOptions, pszConfigOptionKey);
2464 5664 : if (pszVal)
2465 : {
2466 0 : if (ppszKeyUsed)
2467 0 : *ppszKeyUsed = pszConfigOptionKey;
2468 0 : return pszVal;
2469 : }
2470 5664 : if (pszConfigOptionKey)
2471 : {
2472 5664 : pszVal = CPLGetConfigOption(pszConfigOptionKey, nullptr);
2473 5664 : if (pszVal && ppszKeyUsed)
2474 13 : *ppszKeyUsed = pszConfigOptionKey;
2475 : }
2476 5664 : return pszVal;
2477 515 : };
2478 :
2479 515 : int nZLevel = m_nZLevel;
2480 515 : if (const char *opt = GetOptionValue("ZLEVEL", "ZLEVEL_OVERVIEW"))
2481 : {
2482 4 : nZLevel = atoi(opt);
2483 : }
2484 :
2485 515 : int nZSTDLevel = m_nZSTDLevel;
2486 515 : if (const char *opt = GetOptionValue("ZSTD_LEVEL", "ZSTD_LEVEL_OVERVIEW"))
2487 : {
2488 4 : nZSTDLevel = atoi(opt);
2489 : }
2490 :
2491 515 : bool bWebpLossless = m_bWebPLossless;
2492 : const char *pszWebPLosslessOverview =
2493 515 : GetOptionValue("WEBP_LOSSLESS", "WEBP_LOSSLESS_OVERVIEW");
2494 515 : if (pszWebPLosslessOverview)
2495 : {
2496 2 : bWebpLossless = CPLTestBool(pszWebPLosslessOverview);
2497 : }
2498 :
2499 515 : int nWebpLevel = m_nWebPLevel;
2500 515 : const char *pszKeyWebpLevel = "";
2501 515 : if (const char *opt = GetOptionValue("WEBP_LEVEL", "WEBP_LEVEL_OVERVIEW",
2502 : &pszKeyWebpLevel))
2503 : {
2504 14 : if (pszWebPLosslessOverview == nullptr && m_bWebPLossless)
2505 : {
2506 1 : CPLDebug("GTiff",
2507 : "%s specified, but not WEBP_LOSSLESS_OVERVIEW. "
2508 : "Assuming WEBP_LOSSLESS_OVERVIEW=NO",
2509 : pszKeyWebpLevel);
2510 1 : bWebpLossless = false;
2511 : }
2512 13 : else if (bWebpLossless)
2513 : {
2514 0 : CPLError(CE_Warning, CPLE_AppDefined,
2515 : "%s is specified, but WEBP_LOSSLESS_OVERVIEW=YES. "
2516 : "%s will be ignored.",
2517 : pszKeyWebpLevel, pszKeyWebpLevel);
2518 : }
2519 14 : nWebpLevel = atoi(opt);
2520 : }
2521 :
2522 515 : double dfMaxZError = m_dfMaxZErrorOverview;
2523 515 : if (const char *opt = GetOptionValue("MAX_Z_ERROR", "MAX_Z_ERROR_OVERVIEW"))
2524 : {
2525 20 : dfMaxZError = CPLAtof(opt);
2526 : }
2527 :
2528 515 : signed char nJpegTablesMode = m_nJpegTablesMode;
2529 515 : if (const char *opt =
2530 515 : GetOptionValue("JPEG_TABLESMODE", "JPEG_TABLESMODE_OVERVIEW"))
2531 : {
2532 0 : nJpegTablesMode = static_cast<signed char>(atoi(opt));
2533 : }
2534 :
2535 : #ifdef HAVE_JXL
2536 515 : bool bJXLLossless = m_bJXLLossless;
2537 515 : if (const char *opt =
2538 515 : GetOptionValue("JXL_LOSSLESS", "JXL_LOSSLESS_OVERVIEW"))
2539 : {
2540 0 : bJXLLossless = CPLTestBool(opt);
2541 : }
2542 :
2543 515 : float fJXLDistance = m_fJXLDistance;
2544 515 : if (const char *opt =
2545 515 : GetOptionValue("JXL_DISTANCE", "JXL_DISTANCE_OVERVIEW"))
2546 : {
2547 0 : fJXLDistance = static_cast<float>(CPLAtof(opt));
2548 : }
2549 :
2550 515 : float fJXLAlphaDistance = m_fJXLAlphaDistance;
2551 515 : if (const char *opt =
2552 515 : GetOptionValue("JXL_ALPHA_DISTANCE", "JXL_ALPHA_DISTANCE_OVERVIEW"))
2553 : {
2554 0 : fJXLAlphaDistance = static_cast<float>(CPLAtof(opt));
2555 : }
2556 :
2557 515 : int nJXLEffort = m_nJXLEffort;
2558 515 : if (const char *opt = GetOptionValue("JXL_EFFORT", "JXL_EFFORT_OVERVIEW"))
2559 : {
2560 0 : nJXLEffort = atoi(opt);
2561 : }
2562 : #endif
2563 :
2564 1030 : auto poODS = std::make_shared<GTiffDataset>();
2565 515 : poODS->ShareLockWithParentDataset(this);
2566 515 : poODS->eAccess = GA_Update;
2567 515 : poODS->m_osFilename = m_osFilename;
2568 515 : const char *pszSparseOK = GetOptionValue("SPARSE_OK", "SPARSE_OK_OVERVIEW");
2569 515 : if (pszSparseOK && CPLTestBool(pszSparseOK))
2570 : {
2571 1 : poODS->m_bWriteEmptyTiles = false;
2572 1 : poODS->m_bFillEmptyTilesAtClosing = false;
2573 : }
2574 : else
2575 : {
2576 514 : poODS->m_bWriteEmptyTiles = m_bWriteEmptyTiles;
2577 514 : poODS->m_bFillEmptyTilesAtClosing = m_bFillEmptyTilesAtClosing;
2578 : }
2579 515 : poODS->m_nJpegQuality = static_cast<signed char>(l_nJpegQuality);
2580 515 : poODS->m_nWebPLevel = static_cast<signed char>(nWebpLevel);
2581 515 : poODS->m_nZLevel = static_cast<signed char>(nZLevel);
2582 515 : poODS->m_nLZMAPreset = m_nLZMAPreset;
2583 515 : poODS->m_nZSTDLevel = static_cast<signed char>(nZSTDLevel);
2584 515 : poODS->m_bWebPLossless = bWebpLossless;
2585 515 : poODS->m_nJpegTablesMode = nJpegTablesMode;
2586 515 : poODS->m_dfMaxZError = dfMaxZError;
2587 515 : poODS->m_dfMaxZErrorOverview = dfMaxZError;
2588 1030 : memcpy(poODS->m_anLercAddCompressionAndVersion,
2589 515 : m_anLercAddCompressionAndVersion,
2590 : sizeof(m_anLercAddCompressionAndVersion));
2591 : #ifdef HAVE_JXL
2592 515 : poODS->m_bJXLLossless = bJXLLossless;
2593 515 : poODS->m_fJXLDistance = fJXLDistance;
2594 515 : poODS->m_fJXLAlphaDistance = fJXLAlphaDistance;
2595 515 : poODS->m_nJXLEffort = nJXLEffort;
2596 : #endif
2597 :
2598 515 : if (poODS->OpenOffset(VSI_TIFFOpenChild(m_hTIFF), nOverviewOffset,
2599 515 : GA_Update) != CE_None)
2600 : {
2601 0 : return CE_Failure;
2602 : }
2603 :
2604 : // Assign color interpretation from main dataset
2605 515 : const int l_nBands = GetRasterCount();
2606 1534 : for (int i = 1; i <= l_nBands; i++)
2607 : {
2608 1019 : auto poBand = dynamic_cast<GTiffRasterBand *>(poODS->GetRasterBand(i));
2609 1019 : if (poBand)
2610 1019 : poBand->m_eBandInterp = GetRasterBand(i)->GetColorInterpretation();
2611 : }
2612 :
2613 : // Do that now that m_nCompression is set
2614 515 : poODS->RestoreVolatileParameters(poODS->m_hTIFF);
2615 :
2616 515 : poODS->m_poBaseDS = this;
2617 515 : poODS->m_bIsOverview = true;
2618 :
2619 515 : m_apoOverviewDS.push_back(std::move(poODS));
2620 515 : return CE_None;
2621 : }
2622 :
2623 : /************************************************************************/
2624 : /* CreateTIFFColorTable() */
2625 : /************************************************************************/
2626 :
2627 12 : static void CreateTIFFColorTable(
2628 : GDALColorTable *poColorTable, int nBits, int nColorTableMultiplier,
2629 : std::vector<unsigned short> &anTRed, std::vector<unsigned short> &anTGreen,
2630 : std::vector<unsigned short> &anTBlue, unsigned short *&panRed,
2631 : unsigned short *&panGreen, unsigned short *&panBlue)
2632 : {
2633 : int nColors;
2634 :
2635 12 : if (nBits == 8)
2636 12 : nColors = 256;
2637 0 : else if (nBits < 8)
2638 0 : nColors = 1 << nBits;
2639 : else
2640 0 : nColors = 65536;
2641 :
2642 12 : anTRed.resize(nColors, 0);
2643 12 : anTGreen.resize(nColors, 0);
2644 12 : anTBlue.resize(nColors, 0);
2645 :
2646 3084 : for (int iColor = 0; iColor < nColors; ++iColor)
2647 : {
2648 3072 : if (iColor < poColorTable->GetColorEntryCount())
2649 : {
2650 : GDALColorEntry sRGB;
2651 :
2652 3072 : poColorTable->GetColorEntryAsRGB(iColor, &sRGB);
2653 :
2654 3072 : anTRed[iColor] = GTiffDataset::ClampCTEntry(iColor, 1, sRGB.c1,
2655 : nColorTableMultiplier);
2656 3072 : anTGreen[iColor] = GTiffDataset::ClampCTEntry(
2657 3072 : iColor, 2, sRGB.c2, nColorTableMultiplier);
2658 3072 : anTBlue[iColor] = GTiffDataset::ClampCTEntry(iColor, 3, sRGB.c3,
2659 : nColorTableMultiplier);
2660 : }
2661 : else
2662 : {
2663 0 : anTRed[iColor] = 0;
2664 0 : anTGreen[iColor] = 0;
2665 0 : anTBlue[iColor] = 0;
2666 : }
2667 : }
2668 :
2669 12 : panRed = &(anTRed[0]);
2670 12 : panGreen = &(anTGreen[0]);
2671 12 : panBlue = &(anTBlue[0]);
2672 12 : }
2673 :
2674 : /************************************************************************/
2675 : /* GetOverviewParameters() */
2676 : /************************************************************************/
2677 :
2678 330 : bool GTiffDataset::GetOverviewParameters(
2679 : int &nCompression, uint16_t &nPlanarConfig, uint16_t &nPredictor,
2680 : uint16_t &nPhotometric, int &nOvrJpegQuality, std::string &osNoData,
2681 : uint16_t *&panExtraSampleValues, uint16_t &nExtraSamples,
2682 : CSLConstList papszOptions) const
2683 : {
2684 : const auto GetOptionValue =
2685 1094 : [papszOptions](const char *pszOptionKey, const char *pszConfigOptionKey,
2686 2180 : const char **ppszKeyUsed = nullptr)
2687 : {
2688 1094 : const char *pszVal = CSLFetchNameValue(papszOptions, pszOptionKey);
2689 1094 : if (pszVal)
2690 : {
2691 8 : if (ppszKeyUsed)
2692 8 : *ppszKeyUsed = pszOptionKey;
2693 8 : return pszVal;
2694 : }
2695 1086 : pszVal = CSLFetchNameValue(papszOptions, pszConfigOptionKey);
2696 1086 : if (pszVal)
2697 : {
2698 0 : if (ppszKeyUsed)
2699 0 : *ppszKeyUsed = pszConfigOptionKey;
2700 0 : return pszVal;
2701 : }
2702 1086 : pszVal = CPLGetConfigOption(pszConfigOptionKey, nullptr);
2703 1086 : if (pszVal && ppszKeyUsed)
2704 60 : *ppszKeyUsed = pszConfigOptionKey;
2705 1086 : return pszVal;
2706 330 : };
2707 :
2708 : /* -------------------------------------------------------------------- */
2709 : /* Determine compression method. */
2710 : /* -------------------------------------------------------------------- */
2711 330 : nCompression = m_nCompression;
2712 330 : const char *pszOptionKey = "";
2713 : const char *pszCompressValue =
2714 330 : GetOptionValue("COMPRESS", "COMPRESS_OVERVIEW", &pszOptionKey);
2715 330 : if (pszCompressValue != nullptr)
2716 : {
2717 58 : nCompression =
2718 58 : GTIFFGetCompressionMethod(pszCompressValue, pszOptionKey);
2719 58 : if (nCompression < 0)
2720 : {
2721 0 : nCompression = m_nCompression;
2722 : }
2723 : }
2724 :
2725 : /* -------------------------------------------------------------------- */
2726 : /* Determine planar configuration. */
2727 : /* -------------------------------------------------------------------- */
2728 330 : nPlanarConfig = m_nPlanarConfig;
2729 330 : if (nCompression == COMPRESSION_WEBP)
2730 : {
2731 11 : nPlanarConfig = PLANARCONFIG_CONTIG;
2732 : }
2733 : const char *pszInterleave =
2734 330 : GetOptionValue("INTERLEAVE", "INTERLEAVE_OVERVIEW", &pszOptionKey);
2735 330 : if (pszInterleave != nullptr && pszInterleave[0] != '\0')
2736 : {
2737 2 : if (EQUAL(pszInterleave, "PIXEL"))
2738 1 : nPlanarConfig = PLANARCONFIG_CONTIG;
2739 1 : else if (EQUAL(pszInterleave, "BAND"))
2740 1 : nPlanarConfig = PLANARCONFIG_SEPARATE;
2741 : else
2742 : {
2743 0 : CPLError(CE_Warning, CPLE_AppDefined,
2744 : "%s=%s unsupported, "
2745 : "value must be PIXEL or BAND. ignoring",
2746 : pszOptionKey, pszInterleave);
2747 : }
2748 : }
2749 :
2750 : /* -------------------------------------------------------------------- */
2751 : /* Determine predictor tag */
2752 : /* -------------------------------------------------------------------- */
2753 330 : nPredictor = PREDICTOR_NONE;
2754 330 : if (GTIFFSupportsPredictor(nCompression))
2755 : {
2756 : const char *pszPredictor =
2757 77 : GetOptionValue("PREDICTOR", "PREDICTOR_OVERVIEW");
2758 77 : if (pszPredictor != nullptr)
2759 : {
2760 1 : nPredictor = static_cast<uint16_t>(atoi(pszPredictor));
2761 : }
2762 76 : else if (GTIFFSupportsPredictor(m_nCompression))
2763 75 : TIFFGetField(m_hTIFF, TIFFTAG_PREDICTOR, &nPredictor);
2764 : }
2765 :
2766 : /* -------------------------------------------------------------------- */
2767 : /* Determine photometric tag */
2768 : /* -------------------------------------------------------------------- */
2769 330 : if (m_nPhotometric == PHOTOMETRIC_YCBCR && nCompression != COMPRESSION_JPEG)
2770 1 : nPhotometric = PHOTOMETRIC_RGB;
2771 : else
2772 329 : nPhotometric = m_nPhotometric;
2773 : const char *pszPhotometric =
2774 330 : GetOptionValue("PHOTOMETRIC", "PHOTOMETRIC_OVERVIEW", &pszOptionKey);
2775 330 : if (!GTIFFUpdatePhotometric(pszPhotometric, pszOptionKey, nCompression,
2776 330 : pszInterleave, nBands, nPhotometric,
2777 : nPlanarConfig))
2778 : {
2779 0 : return false;
2780 : }
2781 :
2782 : /* -------------------------------------------------------------------- */
2783 : /* Determine JPEG quality */
2784 : /* -------------------------------------------------------------------- */
2785 330 : nOvrJpegQuality = m_nJpegQuality;
2786 330 : if (nCompression == COMPRESSION_JPEG)
2787 : {
2788 : const char *pszJPEGQuality =
2789 27 : GetOptionValue("JPEG_QUALITY", "JPEG_QUALITY_OVERVIEW");
2790 27 : if (pszJPEGQuality != nullptr)
2791 : {
2792 9 : nOvrJpegQuality = atoi(pszJPEGQuality);
2793 : }
2794 : }
2795 :
2796 : /* -------------------------------------------------------------------- */
2797 : /* Set nodata. */
2798 : /* -------------------------------------------------------------------- */
2799 330 : if (m_bNoDataSet)
2800 : {
2801 17 : osNoData = GTiffFormatGDALNoDataTagValue(m_dfNoDataValue);
2802 : }
2803 :
2804 : /* -------------------------------------------------------------------- */
2805 : /* Fetch extra sample tag */
2806 : /* -------------------------------------------------------------------- */
2807 330 : panExtraSampleValues = nullptr;
2808 330 : nExtraSamples = 0;
2809 330 : if (TIFFGetField(m_hTIFF, TIFFTAG_EXTRASAMPLES, &nExtraSamples,
2810 330 : &panExtraSampleValues))
2811 : {
2812 : uint16_t *panExtraSampleValuesNew = static_cast<uint16_t *>(
2813 40 : CPLMalloc(nExtraSamples * sizeof(uint16_t)));
2814 40 : memcpy(panExtraSampleValuesNew, panExtraSampleValues,
2815 40 : nExtraSamples * sizeof(uint16_t));
2816 40 : panExtraSampleValues = panExtraSampleValuesNew;
2817 : }
2818 : else
2819 : {
2820 290 : panExtraSampleValues = nullptr;
2821 290 : nExtraSamples = 0;
2822 : }
2823 :
2824 330 : return true;
2825 : }
2826 :
2827 : /************************************************************************/
2828 : /* CreateOverviewsFromSrcOverviews() */
2829 : /************************************************************************/
2830 :
2831 : // If poOvrDS is not null, it is used and poSrcDS is ignored.
2832 :
2833 71 : CPLErr GTiffDataset::CreateOverviewsFromSrcOverviews(GDALDataset *poSrcDS,
2834 : GDALDataset *poOvrDS,
2835 : int nOverviews)
2836 : {
2837 71 : CPLAssert(poSrcDS->GetRasterCount() != 0);
2838 71 : CPLAssert(m_apoOverviewDS.empty());
2839 :
2840 71 : ScanDirectories();
2841 :
2842 71 : FlushDirectory();
2843 :
2844 71 : int nOvBitsPerSample = m_nBitsPerSample;
2845 :
2846 : /* -------------------------------------------------------------------- */
2847 : /* Do we need some metadata for the overviews? */
2848 : /* -------------------------------------------------------------------- */
2849 142 : CPLString osMetadata;
2850 :
2851 71 : GTIFFBuildOverviewMetadata("NONE", this, false, osMetadata);
2852 :
2853 : int nCompression;
2854 : uint16_t nPlanarConfig;
2855 : uint16_t nPredictor;
2856 : uint16_t nPhotometric;
2857 : int nOvrJpegQuality;
2858 142 : std::string osNoData;
2859 71 : uint16_t *panExtraSampleValues = nullptr;
2860 71 : uint16_t nExtraSamples = 0;
2861 71 : if (!GetOverviewParameters(nCompression, nPlanarConfig, nPredictor,
2862 : nPhotometric, nOvrJpegQuality, osNoData,
2863 : panExtraSampleValues, nExtraSamples,
2864 : /*papszOptions=*/nullptr))
2865 : {
2866 0 : return CE_Failure;
2867 : }
2868 :
2869 : /* -------------------------------------------------------------------- */
2870 : /* Do we have a palette? If so, create a TIFF compatible version. */
2871 : /* -------------------------------------------------------------------- */
2872 142 : std::vector<unsigned short> anTRed;
2873 142 : std::vector<unsigned short> anTGreen;
2874 71 : std::vector<unsigned short> anTBlue;
2875 71 : unsigned short *panRed = nullptr;
2876 71 : unsigned short *panGreen = nullptr;
2877 71 : unsigned short *panBlue = nullptr;
2878 :
2879 71 : if (nPhotometric == PHOTOMETRIC_PALETTE && m_poColorTable != nullptr)
2880 : {
2881 0 : if (m_nColorTableMultiplier == 0)
2882 0 : m_nColorTableMultiplier = DEFAULT_COLOR_TABLE_MULTIPLIER_257;
2883 :
2884 0 : CreateTIFFColorTable(m_poColorTable.get(), nOvBitsPerSample,
2885 : m_nColorTableMultiplier, anTRed, anTGreen, anTBlue,
2886 : panRed, panGreen, panBlue);
2887 : }
2888 :
2889 71 : int nOvrBlockXSize = 0;
2890 71 : int nOvrBlockYSize = 0;
2891 71 : GTIFFGetOverviewBlockSize(GDALRasterBand::ToHandle(GetRasterBand(1)),
2892 : &nOvrBlockXSize, &nOvrBlockYSize, nullptr,
2893 : nullptr);
2894 :
2895 71 : CPLErr eErr = CE_None;
2896 :
2897 202 : for (int i = 0; i < nOverviews && eErr == CE_None; ++i)
2898 : {
2899 : GDALRasterBand *poOvrBand =
2900 171 : poOvrDS ? ((i == 0) ? poOvrDS->GetRasterBand(1)
2901 40 : : poOvrDS->GetRasterBand(1)->GetOverview(i - 1))
2902 55 : : poSrcDS->GetRasterBand(1)->GetOverview(i);
2903 :
2904 131 : int nOXSize = poOvrBand->GetXSize();
2905 131 : int nOYSize = poOvrBand->GetYSize();
2906 :
2907 262 : toff_t nOverviewOffset = GTIFFWriteDirectory(
2908 : m_hTIFF, FILETYPE_REDUCEDIMAGE, nOXSize, nOYSize, nOvBitsPerSample,
2909 131 : nPlanarConfig, m_nSamplesPerPixel, nOvrBlockXSize, nOvrBlockYSize,
2910 131 : TRUE, nCompression, nPhotometric, m_nSampleFormat, nPredictor,
2911 : panRed, panGreen, panBlue, nExtraSamples, panExtraSampleValues,
2912 : osMetadata,
2913 131 : nOvrJpegQuality >= 0 ? CPLSPrintf("%d", nOvrJpegQuality) : nullptr,
2914 131 : CPLSPrintf("%d", m_nJpegTablesMode),
2915 2 : osNoData.empty() ? nullptr : osNoData.c_str(),
2916 131 : m_anLercAddCompressionAndVersion, m_bWriteCOGLayout);
2917 :
2918 131 : if (nOverviewOffset == 0)
2919 0 : eErr = CE_Failure;
2920 : else
2921 131 : eErr = RegisterNewOverviewDataset(nOverviewOffset, nOvrJpegQuality,
2922 : nullptr);
2923 : }
2924 :
2925 : // For directory reloading, so that the chaining to the next directory is
2926 : // reloaded, as well as compression parameters.
2927 71 : ReloadDirectory();
2928 :
2929 71 : CPLFree(panExtraSampleValues);
2930 71 : panExtraSampleValues = nullptr;
2931 :
2932 71 : return eErr;
2933 : }
2934 :
2935 : /************************************************************************/
2936 : /* CreateInternalMaskOverviews() */
2937 : /************************************************************************/
2938 :
2939 274 : CPLErr GTiffDataset::CreateInternalMaskOverviews(int nOvrBlockXSize,
2940 : int nOvrBlockYSize)
2941 : {
2942 274 : ScanDirectories();
2943 :
2944 : /* -------------------------------------------------------------------- */
2945 : /* Create overviews for the mask. */
2946 : /* -------------------------------------------------------------------- */
2947 274 : CPLErr eErr = CE_None;
2948 :
2949 274 : if (m_poMaskDS != nullptr && m_poMaskDS->GetRasterCount() == 1)
2950 : {
2951 : int nMaskOvrCompression;
2952 43 : if (strstr(GDALGetMetadataItem(GDALGetDriverByName("GTiff"),
2953 : GDAL_DMD_CREATIONOPTIONLIST, nullptr),
2954 43 : "<Value>DEFLATE</Value>") != nullptr)
2955 43 : nMaskOvrCompression = COMPRESSION_ADOBE_DEFLATE;
2956 : else
2957 0 : nMaskOvrCompression = COMPRESSION_PACKBITS;
2958 :
2959 115 : for (auto &poOvrDS : m_apoOverviewDS)
2960 : {
2961 72 : if (poOvrDS->m_poMaskDS == nullptr)
2962 : {
2963 60 : const toff_t nOverviewOffset = GTIFFWriteDirectory(
2964 : m_hTIFF, FILETYPE_REDUCEDIMAGE | FILETYPE_MASK,
2965 60 : poOvrDS->nRasterXSize, poOvrDS->nRasterYSize, 1,
2966 : PLANARCONFIG_CONTIG, 1, nOvrBlockXSize, nOvrBlockYSize,
2967 : TRUE, nMaskOvrCompression, PHOTOMETRIC_MASK,
2968 : SAMPLEFORMAT_UINT, PREDICTOR_NONE, nullptr, nullptr,
2969 : nullptr, 0, nullptr, "", nullptr, nullptr, nullptr, nullptr,
2970 60 : m_bWriteCOGLayout);
2971 :
2972 60 : if (nOverviewOffset == 0)
2973 : {
2974 0 : eErr = CE_Failure;
2975 0 : continue;
2976 : }
2977 :
2978 120 : auto poMaskODS = std::make_shared<GTiffDataset>();
2979 60 : poMaskODS->eAccess = GA_Update;
2980 60 : poMaskODS->ShareLockWithParentDataset(this);
2981 60 : poMaskODS->m_osFilename = m_osFilename;
2982 60 : if (poMaskODS->OpenOffset(VSI_TIFFOpenChild(m_hTIFF),
2983 : nOverviewOffset,
2984 60 : GA_Update) != CE_None)
2985 : {
2986 0 : eErr = CE_Failure;
2987 : }
2988 : else
2989 : {
2990 120 : poMaskODS->m_bPromoteTo8Bits =
2991 60 : CPLTestBool(CPLGetConfigOption(
2992 : "GDAL_TIFF_INTERNAL_MASK_TO_8BIT", "YES"));
2993 60 : poMaskODS->m_poBaseDS = this;
2994 60 : poMaskODS->m_poImageryDS = poOvrDS.get();
2995 60 : poOvrDS->m_poMaskDS = poMaskODS;
2996 60 : m_poMaskDS->m_apoOverviewDS.push_back(std::move(poMaskODS));
2997 : }
2998 : }
2999 : }
3000 : }
3001 :
3002 274 : ReloadDirectory();
3003 :
3004 274 : return eErr;
3005 : }
3006 :
3007 : /************************************************************************/
3008 : /* AddOverviews() */
3009 : /************************************************************************/
3010 :
3011 : CPLErr
3012 13 : GTiffDataset::AddOverviews(const std::vector<GDALDataset *> &apoSrcOvrDSIn,
3013 : GDALProgressFunc pfnProgress, void *pProgressData,
3014 : CSLConstList papszOptions)
3015 : {
3016 : /* -------------------------------------------------------------------- */
3017 : /* If we don't have read access, then create the overviews */
3018 : /* externally. */
3019 : /* -------------------------------------------------------------------- */
3020 13 : if (GetAccess() != GA_Update)
3021 : {
3022 4 : CPLDebug("GTiff", "File open for read-only accessing, "
3023 : "creating overviews externally.");
3024 :
3025 4 : CPLErr eErr = GDALDataset::AddOverviews(apoSrcOvrDSIn, pfnProgress,
3026 : pProgressData, papszOptions);
3027 4 : if (eErr == CE_None && m_poMaskDS)
3028 : {
3029 0 : ReportError(
3030 : CE_Warning, CPLE_NotSupported,
3031 : "Building external overviews whereas there is an internal "
3032 : "mask is not fully supported. "
3033 : "The overviews of the non-mask bands will be created, "
3034 : "but not the overviews of the mask band.");
3035 : }
3036 4 : return eErr;
3037 : }
3038 :
3039 18 : std::vector<GDALDataset *> apoSrcOvrDS = apoSrcOvrDSIn;
3040 : // Sort overviews by descending size
3041 9 : std::sort(apoSrcOvrDS.begin(), apoSrcOvrDS.end(),
3042 0 : [](const GDALDataset *poDS1, const GDALDataset *poDS2)
3043 0 : { return poDS1->GetRasterXSize() > poDS2->GetRasterXSize(); });
3044 :
3045 9 : if (!GDALDefaultOverviews::CheckSrcOverviewsConsistencyWithBase(
3046 : this, apoSrcOvrDS))
3047 5 : return CE_Failure;
3048 :
3049 4 : ScanDirectories();
3050 :
3051 : // Make implicit JPEG overviews invisible, but do not destroy
3052 : // them in case they are already used (not sure that the client
3053 : // has the right to do that). Behavior maybe undefined in GDAL API.
3054 4 : std::swap(m_apoJPEGOverviewDSOld, m_apoJPEGOverviewDS);
3055 4 : m_apoJPEGOverviewDS.clear();
3056 :
3057 4 : FlushDirectory();
3058 :
3059 : /* -------------------------------------------------------------------- */
3060 : /* If we are averaging bit data to grayscale we need to create */
3061 : /* 8bit overviews. */
3062 : /* -------------------------------------------------------------------- */
3063 4 : int nOvBitsPerSample = m_nBitsPerSample;
3064 :
3065 : /* -------------------------------------------------------------------- */
3066 : /* Do we need some metadata for the overviews? */
3067 : /* -------------------------------------------------------------------- */
3068 8 : CPLString osMetadata;
3069 :
3070 4 : const bool bIsForMaskBand = nBands == 1 && GetRasterBand(1)->IsMaskBand();
3071 4 : GTIFFBuildOverviewMetadata(/* resampling = */ "", this, bIsForMaskBand,
3072 : osMetadata);
3073 :
3074 : int nCompression;
3075 : uint16_t nPlanarConfig;
3076 : uint16_t nPredictor;
3077 : uint16_t nPhotometric;
3078 : int nOvrJpegQuality;
3079 8 : std::string osNoData;
3080 4 : uint16_t *panExtraSampleValues = nullptr;
3081 4 : uint16_t nExtraSamples = 0;
3082 4 : if (!GetOverviewParameters(nCompression, nPlanarConfig, nPredictor,
3083 : nPhotometric, nOvrJpegQuality, osNoData,
3084 : panExtraSampleValues, nExtraSamples,
3085 : papszOptions))
3086 : {
3087 0 : return CE_Failure;
3088 : }
3089 :
3090 : /* -------------------------------------------------------------------- */
3091 : /* Do we have a palette? If so, create a TIFF compatible version. */
3092 : /* -------------------------------------------------------------------- */
3093 8 : std::vector<unsigned short> anTRed;
3094 8 : std::vector<unsigned short> anTGreen;
3095 4 : std::vector<unsigned short> anTBlue;
3096 4 : unsigned short *panRed = nullptr;
3097 4 : unsigned short *panGreen = nullptr;
3098 4 : unsigned short *panBlue = nullptr;
3099 :
3100 4 : if (nPhotometric == PHOTOMETRIC_PALETTE && m_poColorTable != nullptr)
3101 : {
3102 0 : if (m_nColorTableMultiplier == 0)
3103 0 : m_nColorTableMultiplier = DEFAULT_COLOR_TABLE_MULTIPLIER_257;
3104 :
3105 0 : CreateTIFFColorTable(m_poColorTable.get(), nOvBitsPerSample,
3106 : m_nColorTableMultiplier, anTRed, anTGreen, anTBlue,
3107 : panRed, panGreen, panBlue);
3108 : }
3109 :
3110 : /* -------------------------------------------------------------------- */
3111 : /* Establish which of the overview levels we already have, and */
3112 : /* which are new. We assume that band 1 of the file is */
3113 : /* representative. */
3114 : /* -------------------------------------------------------------------- */
3115 4 : int nOvrBlockXSize = 0;
3116 4 : int nOvrBlockYSize = 0;
3117 4 : GTIFFGetOverviewBlockSize(GDALRasterBand::ToHandle(GetRasterBand(1)),
3118 : &nOvrBlockXSize, &nOvrBlockYSize, papszOptions,
3119 : "BLOCKSIZE");
3120 :
3121 4 : CPLErr eErr = CE_None;
3122 8 : for (const auto *poSrcOvrDS : apoSrcOvrDS)
3123 : {
3124 4 : bool bFound = false;
3125 4 : for (auto &poOvrDS : m_apoOverviewDS)
3126 : {
3127 4 : if (poOvrDS->GetRasterXSize() == poSrcOvrDS->GetRasterXSize() &&
3128 2 : poOvrDS->GetRasterYSize() == poSrcOvrDS->GetRasterYSize())
3129 : {
3130 2 : bFound = true;
3131 2 : break;
3132 : }
3133 : }
3134 4 : if (!bFound && eErr == CE_None)
3135 : {
3136 2 : if (m_bLayoutIFDSBeforeData && !m_bKnownIncompatibleEdition &&
3137 0 : !m_bWriteKnownIncompatibleEdition)
3138 : {
3139 0 : ReportError(CE_Warning, CPLE_AppDefined,
3140 : "Adding new overviews invalidates the "
3141 : "LAYOUT=IFDS_BEFORE_DATA property");
3142 0 : m_bKnownIncompatibleEdition = true;
3143 0 : m_bWriteKnownIncompatibleEdition = true;
3144 : }
3145 :
3146 6 : const toff_t nOverviewOffset = GTIFFWriteDirectory(
3147 : m_hTIFF, FILETYPE_REDUCEDIMAGE, poSrcOvrDS->GetRasterXSize(),
3148 : poSrcOvrDS->GetRasterYSize(), nOvBitsPerSample, nPlanarConfig,
3149 2 : m_nSamplesPerPixel, nOvrBlockXSize, nOvrBlockYSize, TRUE,
3150 2 : nCompression, nPhotometric, m_nSampleFormat, nPredictor, panRed,
3151 : panGreen, panBlue, nExtraSamples, panExtraSampleValues,
3152 : osMetadata,
3153 2 : nOvrJpegQuality >= 0 ? CPLSPrintf("%d", nOvrJpegQuality)
3154 : : nullptr,
3155 2 : CPLSPrintf("%d", m_nJpegTablesMode),
3156 0 : osNoData.empty() ? nullptr : osNoData.c_str(),
3157 2 : m_anLercAddCompressionAndVersion, false);
3158 :
3159 2 : if (nOverviewOffset == 0)
3160 0 : eErr = CE_Failure;
3161 : else
3162 2 : eErr = RegisterNewOverviewDataset(
3163 : nOverviewOffset, nOvrJpegQuality, papszOptions);
3164 : }
3165 : }
3166 :
3167 4 : CPLFree(panExtraSampleValues);
3168 4 : panExtraSampleValues = nullptr;
3169 :
3170 4 : ReloadDirectory();
3171 :
3172 4 : if (!pfnProgress)
3173 2 : pfnProgress = GDALDummyProgress;
3174 :
3175 : // almost 0, but not 0 to please Coverity Scan
3176 4 : double dfTotalPixels = std::numeric_limits<double>::min();
3177 8 : for (const auto *poSrcOvrDS : apoSrcOvrDS)
3178 : {
3179 4 : dfTotalPixels += static_cast<double>(poSrcOvrDS->GetRasterXSize()) *
3180 4 : poSrcOvrDS->GetRasterYSize();
3181 : }
3182 :
3183 : // Copy source datasets into target overview datasets
3184 4 : double dfCurPixels = 0;
3185 8 : for (auto *poSrcOvrDS : apoSrcOvrDS)
3186 : {
3187 4 : GDALDataset *poDstOvrDS = nullptr;
3188 4 : for (auto &poOvrDS : m_apoOverviewDS)
3189 : {
3190 8 : if (poOvrDS->GetRasterXSize() == poSrcOvrDS->GetRasterXSize() &&
3191 4 : poOvrDS->GetRasterYSize() == poSrcOvrDS->GetRasterYSize())
3192 : {
3193 4 : poDstOvrDS = poOvrDS.get();
3194 4 : break;
3195 : }
3196 : }
3197 4 : if (eErr == CE_None && poDstOvrDS)
3198 : {
3199 : const double dfThisPixels =
3200 4 : static_cast<double>(poSrcOvrDS->GetRasterXSize()) *
3201 4 : poSrcOvrDS->GetRasterYSize();
3202 8 : void *pScaledProgressData = GDALCreateScaledProgress(
3203 : dfCurPixels / dfTotalPixels,
3204 4 : (dfCurPixels + dfThisPixels) / dfTotalPixels, pfnProgress,
3205 : pProgressData);
3206 4 : dfCurPixels += dfThisPixels;
3207 4 : eErr = GDALDatasetCopyWholeRaster(GDALDataset::ToHandle(poSrcOvrDS),
3208 : GDALDataset::ToHandle(poDstOvrDS),
3209 : nullptr, GDALScaledProgress,
3210 : pScaledProgressData);
3211 4 : GDALDestroyScaledProgress(pScaledProgressData);
3212 : }
3213 : }
3214 :
3215 4 : return eErr;
3216 : }
3217 :
3218 : /************************************************************************/
3219 : /* IBuildOverviews() */
3220 : /************************************************************************/
3221 :
3222 409 : CPLErr GTiffDataset::IBuildOverviews(const char *pszResampling, int nOverviews,
3223 : const int *panOverviewList, int nBandsIn,
3224 : const int *panBandList,
3225 : GDALProgressFunc pfnProgress,
3226 : void *pProgressData,
3227 : CSLConstList papszOptions)
3228 :
3229 : {
3230 409 : ScanDirectories();
3231 :
3232 : // Make implicit JPEG overviews invisible, but do not destroy
3233 : // them in case they are already used (not sure that the client
3234 : // has the right to do that. Behavior maybe undefined in GDAL API.
3235 409 : std::swap(m_apoJPEGOverviewDSOld, m_apoJPEGOverviewDS);
3236 409 : m_apoJPEGOverviewDS.clear();
3237 :
3238 : /* -------------------------------------------------------------------- */
3239 : /* If RRD or external OVR overviews requested, then invoke */
3240 : /* generic handling. */
3241 : /* -------------------------------------------------------------------- */
3242 409 : bool bUseGenericHandling = false;
3243 409 : bool bUseRRD = false;
3244 818 : CPLStringList aosOptions(papszOptions);
3245 :
3246 409 : const char *pszLocation = CSLFetchNameValue(papszOptions, "LOCATION");
3247 409 : if (pszLocation && EQUAL(pszLocation, "EXTERNAL"))
3248 : {
3249 1 : bUseGenericHandling = true;
3250 : }
3251 408 : else if (pszLocation && EQUAL(pszLocation, "INTERNAL"))
3252 : {
3253 0 : if (GetAccess() != GA_Update)
3254 : {
3255 0 : CPLError(CE_Failure, CPLE_AppDefined,
3256 : "Cannot create internal overviews on file opened in "
3257 : "read-only mode");
3258 0 : return CE_Failure;
3259 : }
3260 : }
3261 408 : else if (pszLocation && EQUAL(pszLocation, "RRD"))
3262 : {
3263 3 : bUseGenericHandling = true;
3264 3 : bUseRRD = true;
3265 3 : aosOptions.SetNameValue("USE_RRD", "YES");
3266 : }
3267 : // Legacy
3268 405 : else if ((bUseRRD = CPLTestBool(
3269 : CSLFetchNameValueDef(papszOptions, "USE_RRD",
3270 810 : CPLGetConfigOption("USE_RRD", "NO")))) ||
3271 405 : CPLTestBool(CSLFetchNameValueDef(
3272 : papszOptions, "TIFF_USE_OVR",
3273 : CPLGetConfigOption("TIFF_USE_OVR", "NO"))))
3274 : {
3275 0 : bUseGenericHandling = true;
3276 : }
3277 :
3278 : /* -------------------------------------------------------------------- */
3279 : /* If we don't have read access, then create the overviews */
3280 : /* externally. */
3281 : /* -------------------------------------------------------------------- */
3282 409 : if (GetAccess() != GA_Update)
3283 : {
3284 143 : CPLDebug("GTiff", "File open for read-only accessing, "
3285 : "creating overviews externally.");
3286 :
3287 143 : bUseGenericHandling = true;
3288 : }
3289 :
3290 409 : if (bUseGenericHandling)
3291 : {
3292 146 : if (!m_apoOverviewDS.empty())
3293 : {
3294 0 : ReportError(CE_Failure, CPLE_NotSupported,
3295 : "Cannot add external overviews when there are already "
3296 : "internal overviews");
3297 0 : return CE_Failure;
3298 : }
3299 :
3300 146 : if (!m_bWriteEmptyTiles && !bUseRRD)
3301 : {
3302 1 : aosOptions.SetNameValue("SPARSE_OK", "YES");
3303 : }
3304 :
3305 146 : CPLErr eErr = GDALDataset::IBuildOverviews(
3306 : pszResampling, nOverviews, panOverviewList, nBandsIn, panBandList,
3307 146 : pfnProgress, pProgressData, aosOptions);
3308 146 : if (eErr == CE_None && m_poMaskDS)
3309 : {
3310 1 : ReportError(
3311 : CE_Warning, CPLE_NotSupported,
3312 : "Building external overviews whereas there is an internal "
3313 : "mask is not fully supported. "
3314 : "The overviews of the non-mask bands will be created, "
3315 : "but not the overviews of the mask band.");
3316 : }
3317 146 : return eErr;
3318 : }
3319 :
3320 : /* -------------------------------------------------------------------- */
3321 : /* Our TIFF overview support currently only works safely if all */
3322 : /* bands are handled at the same time. */
3323 : /* -------------------------------------------------------------------- */
3324 263 : if (nBandsIn != GetRasterCount())
3325 : {
3326 0 : ReportError(CE_Failure, CPLE_NotSupported,
3327 : "Generation of overviews in TIFF currently only "
3328 : "supported when operating on all bands. "
3329 : "Operation failed.");
3330 0 : return CE_Failure;
3331 : }
3332 :
3333 : /* -------------------------------------------------------------------- */
3334 : /* If zero overviews were requested, we need to clear all */
3335 : /* existing overviews. */
3336 : /* -------------------------------------------------------------------- */
3337 263 : if (nOverviews == 0)
3338 : {
3339 8 : if (m_apoOverviewDS.empty())
3340 3 : return GDALDataset::IBuildOverviews(
3341 : pszResampling, nOverviews, panOverviewList, nBandsIn,
3342 3 : panBandList, pfnProgress, pProgressData, papszOptions);
3343 :
3344 5 : return CleanOverviews();
3345 : }
3346 :
3347 255 : CPLErr eErr = CE_None;
3348 :
3349 : /* -------------------------------------------------------------------- */
3350 : /* Initialize progress counter. */
3351 : /* -------------------------------------------------------------------- */
3352 255 : if (!pfnProgress(0.0, nullptr, pProgressData))
3353 : {
3354 0 : ReportError(CE_Failure, CPLE_UserInterrupt, "User terminated");
3355 0 : return CE_Failure;
3356 : }
3357 :
3358 255 : FlushDirectory();
3359 :
3360 : /* -------------------------------------------------------------------- */
3361 : /* If we are averaging bit data to grayscale we need to create */
3362 : /* 8bit overviews. */
3363 : /* -------------------------------------------------------------------- */
3364 255 : int nOvBitsPerSample = m_nBitsPerSample;
3365 :
3366 255 : if (STARTS_WITH_CI(pszResampling, "AVERAGE_BIT2"))
3367 2 : nOvBitsPerSample = 8;
3368 :
3369 : /* -------------------------------------------------------------------- */
3370 : /* Do we need some metadata for the overviews? */
3371 : /* -------------------------------------------------------------------- */
3372 510 : CPLString osMetadata;
3373 :
3374 255 : const bool bIsForMaskBand = nBands == 1 && GetRasterBand(1)->IsMaskBand();
3375 255 : GTIFFBuildOverviewMetadata(pszResampling, this, bIsForMaskBand, osMetadata);
3376 :
3377 : int nCompression;
3378 : uint16_t nPlanarConfig;
3379 : uint16_t nPredictor;
3380 : uint16_t nPhotometric;
3381 : int nOvrJpegQuality;
3382 510 : std::string osNoData;
3383 255 : uint16_t *panExtraSampleValues = nullptr;
3384 255 : uint16_t nExtraSamples = 0;
3385 255 : if (!GetOverviewParameters(nCompression, nPlanarConfig, nPredictor,
3386 : nPhotometric, nOvrJpegQuality, osNoData,
3387 : panExtraSampleValues, nExtraSamples,
3388 : papszOptions))
3389 : {
3390 0 : return CE_Failure;
3391 : }
3392 :
3393 : /* -------------------------------------------------------------------- */
3394 : /* Do we have a palette? If so, create a TIFF compatible version. */
3395 : /* -------------------------------------------------------------------- */
3396 510 : std::vector<unsigned short> anTRed;
3397 510 : std::vector<unsigned short> anTGreen;
3398 510 : std::vector<unsigned short> anTBlue;
3399 255 : unsigned short *panRed = nullptr;
3400 255 : unsigned short *panGreen = nullptr;
3401 255 : unsigned short *panBlue = nullptr;
3402 :
3403 255 : if (nPhotometric == PHOTOMETRIC_PALETTE && m_poColorTable != nullptr)
3404 : {
3405 12 : if (m_nColorTableMultiplier == 0)
3406 0 : m_nColorTableMultiplier = DEFAULT_COLOR_TABLE_MULTIPLIER_257;
3407 :
3408 12 : CreateTIFFColorTable(m_poColorTable.get(), nOvBitsPerSample,
3409 : m_nColorTableMultiplier, anTRed, anTGreen, anTBlue,
3410 : panRed, panGreen, panBlue);
3411 : }
3412 :
3413 : /* -------------------------------------------------------------------- */
3414 : /* Establish which of the overview levels we already have, and */
3415 : /* which are new. We assume that band 1 of the file is */
3416 : /* representative. */
3417 : /* -------------------------------------------------------------------- */
3418 255 : int nOvrBlockXSize = 0;
3419 255 : int nOvrBlockYSize = 0;
3420 255 : GTIFFGetOverviewBlockSize(GDALRasterBand::ToHandle(GetRasterBand(1)),
3421 : &nOvrBlockXSize, &nOvrBlockYSize, papszOptions,
3422 : "BLOCKSIZE");
3423 510 : std::vector<bool> abRequireNewOverview(nOverviews, true);
3424 693 : for (int i = 0; i < nOverviews && eErr == CE_None; ++i)
3425 : {
3426 770 : for (auto &poODS : m_apoOverviewDS)
3427 : {
3428 : const int nOvFactor =
3429 776 : GDALComputeOvFactor(poODS->GetRasterXSize(), GetRasterXSize(),
3430 388 : poODS->GetRasterYSize(), GetRasterYSize());
3431 :
3432 : // If we already have a 1x1 overview and this new one would result
3433 : // in it too, then don't create it.
3434 448 : if (poODS->GetRasterXSize() == 1 && poODS->GetRasterYSize() == 1 &&
3435 448 : DIV_ROUND_UP(GetRasterXSize(), panOverviewList[i]) == 1 &&
3436 21 : DIV_ROUND_UP(GetRasterYSize(), panOverviewList[i]) == 1)
3437 : {
3438 21 : abRequireNewOverview[i] = false;
3439 21 : break;
3440 : }
3441 :
3442 699 : if (nOvFactor == panOverviewList[i] ||
3443 332 : nOvFactor == GDALOvLevelAdjust2(panOverviewList[i],
3444 : GetRasterXSize(),
3445 : GetRasterYSize()))
3446 : {
3447 35 : abRequireNewOverview[i] = false;
3448 35 : break;
3449 : }
3450 : }
3451 :
3452 438 : if (abRequireNewOverview[i])
3453 : {
3454 382 : if (m_bLayoutIFDSBeforeData && !m_bKnownIncompatibleEdition &&
3455 2 : !m_bWriteKnownIncompatibleEdition)
3456 : {
3457 2 : ReportError(CE_Warning, CPLE_AppDefined,
3458 : "Adding new overviews invalidates the "
3459 : "LAYOUT=IFDS_BEFORE_DATA property");
3460 2 : m_bKnownIncompatibleEdition = true;
3461 2 : m_bWriteKnownIncompatibleEdition = true;
3462 : }
3463 :
3464 : const int nOXSize =
3465 382 : DIV_ROUND_UP(GetRasterXSize(), panOverviewList[i]);
3466 : const int nOYSize =
3467 382 : DIV_ROUND_UP(GetRasterYSize(), panOverviewList[i]);
3468 :
3469 764 : const toff_t nOverviewOffset = GTIFFWriteDirectory(
3470 : m_hTIFF, FILETYPE_REDUCEDIMAGE, nOXSize, nOYSize,
3471 382 : nOvBitsPerSample, nPlanarConfig, m_nSamplesPerPixel,
3472 : nOvrBlockXSize, nOvrBlockYSize, TRUE, nCompression,
3473 382 : nPhotometric, m_nSampleFormat, nPredictor, panRed, panGreen,
3474 : panBlue, nExtraSamples, panExtraSampleValues, osMetadata,
3475 382 : nOvrJpegQuality >= 0 ? CPLSPrintf("%d", nOvrJpegQuality)
3476 : : nullptr,
3477 382 : CPLSPrintf("%d", m_nJpegTablesMode),
3478 25 : osNoData.empty() ? nullptr : osNoData.c_str(),
3479 382 : m_anLercAddCompressionAndVersion, false);
3480 :
3481 382 : if (nOverviewOffset == 0)
3482 0 : eErr = CE_Failure;
3483 : else
3484 382 : eErr = RegisterNewOverviewDataset(
3485 : nOverviewOffset, nOvrJpegQuality, papszOptions);
3486 : }
3487 : }
3488 :
3489 255 : CPLFree(panExtraSampleValues);
3490 255 : panExtraSampleValues = nullptr;
3491 :
3492 255 : ReloadDirectory();
3493 :
3494 : /* -------------------------------------------------------------------- */
3495 : /* Create overviews for the mask. */
3496 : /* -------------------------------------------------------------------- */
3497 255 : if (eErr != CE_None)
3498 0 : return eErr;
3499 :
3500 255 : eErr = CreateInternalMaskOverviews(nOvrBlockXSize, nOvrBlockYSize);
3501 :
3502 : /* -------------------------------------------------------------------- */
3503 : /* Refresh overviews for the mask */
3504 : /* -------------------------------------------------------------------- */
3505 : const bool bHasInternalMask =
3506 255 : m_poMaskDS != nullptr && m_poMaskDS->GetRasterCount() == 1;
3507 : const bool bHasExternalMask =
3508 255 : !bHasInternalMask && oOvManager.HaveMaskFile();
3509 255 : const bool bHasMask = bHasInternalMask || bHasExternalMask;
3510 :
3511 255 : if (bHasInternalMask)
3512 : {
3513 48 : std::vector<GDALRasterBandH> ahOverviewBands;
3514 64 : for (auto &poOvrDS : m_apoOverviewDS)
3515 : {
3516 40 : if (poOvrDS->m_poMaskDS != nullptr)
3517 : {
3518 40 : ahOverviewBands.push_back(GDALRasterBand::ToHandle(
3519 40 : poOvrDS->m_poMaskDS->GetRasterBand(1)));
3520 : }
3521 : }
3522 :
3523 48 : void *pScaledProgressData = GDALCreateScaledProgress(
3524 24 : 0, 1.0 / (nBands + 1), pfnProgress, pProgressData);
3525 24 : eErr = GDALRegenerateOverviewsEx(
3526 24 : m_poMaskDS->GetRasterBand(1),
3527 24 : static_cast<int>(ahOverviewBands.size()), ahOverviewBands.data(),
3528 : pszResampling, GDALScaledProgress, pScaledProgressData,
3529 : papszOptions);
3530 24 : GDALDestroyScaledProgress(pScaledProgressData);
3531 : }
3532 231 : else if (bHasExternalMask)
3533 : {
3534 4 : void *pScaledProgressData = GDALCreateScaledProgress(
3535 2 : 0, 1.0 / (nBands + 1), pfnProgress, pProgressData);
3536 2 : eErr = oOvManager.BuildOverviewsMask(
3537 : pszResampling, nOverviews, panOverviewList, GDALScaledProgress,
3538 : pScaledProgressData, papszOptions);
3539 2 : GDALDestroyScaledProgress(pScaledProgressData);
3540 : }
3541 :
3542 : // If we have an alpha band, we want it to be generated before downsampling
3543 : // other bands
3544 255 : bool bHasAlphaBand = false;
3545 66257 : for (int iBand = 0; iBand < nBands; iBand++)
3546 : {
3547 66002 : if (papoBands[iBand]->GetColorInterpretation() == GCI_AlphaBand)
3548 18 : bHasAlphaBand = true;
3549 : }
3550 :
3551 : /* -------------------------------------------------------------------- */
3552 : /* Refresh old overviews that were listed. */
3553 : /* -------------------------------------------------------------------- */
3554 255 : const auto poColorTable = GetRasterBand(panBandList[0])->GetColorTable();
3555 21 : if ((m_nPlanarConfig == PLANARCONFIG_CONTIG || bHasAlphaBand) &&
3556 236 : GDALDataTypeIsComplex(
3557 236 : GetRasterBand(panBandList[0])->GetRasterDataType()) == FALSE &&
3558 12 : (poColorTable == nullptr || STARTS_WITH_CI(pszResampling, "NEAR") ||
3559 511 : poColorTable->IsIdentity()) &&
3560 228 : (STARTS_WITH_CI(pszResampling, "NEAR") ||
3561 118 : EQUAL(pszResampling, "AVERAGE") || EQUAL(pszResampling, "RMS") ||
3562 48 : EQUAL(pszResampling, "GAUSS") || EQUAL(pszResampling, "CUBIC") ||
3563 30 : EQUAL(pszResampling, "CUBICSPLINE") ||
3564 29 : EQUAL(pszResampling, "LANCZOS") || EQUAL(pszResampling, "BILINEAR") ||
3565 25 : EQUAL(pszResampling, "MODE")))
3566 : {
3567 : // In the case of pixel interleaved compressed overviews, we want to
3568 : // generate the overviews for all the bands block by block, and not
3569 : // band after band, in order to write the block once and not loose
3570 : // space in the TIFF file. We also use that logic for uncompressed
3571 : // overviews, since GDALRegenerateOverviewsMultiBand() will be able to
3572 : // trigger cascading overview regeneration even in the presence
3573 : // of an alpha band.
3574 :
3575 206 : int nNewOverviews = 0;
3576 :
3577 : GDALRasterBand ***papapoOverviewBands = static_cast<GDALRasterBand ***>(
3578 206 : CPLCalloc(sizeof(void *), nBandsIn));
3579 : GDALRasterBand **papoBandList =
3580 206 : static_cast<GDALRasterBand **>(CPLCalloc(sizeof(void *), nBandsIn));
3581 66111 : for (int iBand = 0; iBand < nBandsIn; ++iBand)
3582 : {
3583 65905 : GDALRasterBand *poBand = GetRasterBand(panBandList[iBand]);
3584 :
3585 65905 : papoBandList[iBand] = poBand;
3586 131810 : papapoOverviewBands[iBand] = static_cast<GDALRasterBand **>(
3587 65905 : CPLCalloc(sizeof(void *), poBand->GetOverviewCount()));
3588 :
3589 65905 : int iCurOverview = 0;
3590 : std::vector<bool> abAlreadyUsedOverviewBand(
3591 65905 : poBand->GetOverviewCount(), false);
3592 :
3593 132095 : for (int i = 0; i < nOverviews; ++i)
3594 : {
3595 66649 : for (int j = 0; j < poBand->GetOverviewCount(); ++j)
3596 : {
3597 66634 : if (abAlreadyUsedOverviewBand[j])
3598 458 : continue;
3599 :
3600 : int nOvFactor;
3601 66176 : GDALRasterBand *poOverview = poBand->GetOverview(j);
3602 :
3603 66176 : nOvFactor = GDALComputeOvFactor(
3604 : poOverview->GetXSize(), poBand->GetXSize(),
3605 : poOverview->GetYSize(), poBand->GetYSize());
3606 :
3607 66176 : GDALCopyNoDataValue(poOverview, poBand);
3608 :
3609 66177 : if (nOvFactor == panOverviewList[i] ||
3610 1 : nOvFactor == GDALOvLevelAdjust2(panOverviewList[i],
3611 : poBand->GetXSize(),
3612 : poBand->GetYSize()))
3613 : {
3614 66175 : if (iBand == 0)
3615 : {
3616 : const auto osNewResampling =
3617 664 : GDALGetNormalizedOvrResampling(pszResampling);
3618 : const char *pszExistingResampling =
3619 332 : poOverview->GetMetadataItem("RESAMPLING");
3620 664 : if (pszExistingResampling &&
3621 332 : pszExistingResampling != osNewResampling)
3622 : {
3623 2 : poOverview->SetMetadataItem(
3624 2 : "RESAMPLING", osNewResampling.c_str());
3625 : }
3626 : }
3627 :
3628 66175 : abAlreadyUsedOverviewBand[j] = true;
3629 66175 : CPLAssert(iCurOverview < poBand->GetOverviewCount());
3630 66175 : papapoOverviewBands[iBand][iCurOverview] = poOverview;
3631 66175 : ++iCurOverview;
3632 66175 : break;
3633 : }
3634 : }
3635 : }
3636 :
3637 65905 : if (nNewOverviews == 0)
3638 : {
3639 206 : nNewOverviews = iCurOverview;
3640 : }
3641 65699 : else if (nNewOverviews != iCurOverview)
3642 : {
3643 0 : CPLAssert(false);
3644 : return CE_Failure;
3645 : }
3646 : }
3647 :
3648 : void *pScaledProgressData =
3649 206 : bHasMask ? GDALCreateScaledProgress(1.0 / (nBands + 1), 1.0,
3650 : pfnProgress, pProgressData)
3651 180 : : GDALCreateScaledProgress(0.0, 1.0, pfnProgress,
3652 206 : pProgressData);
3653 206 : GDALRegenerateOverviewsMultiBand(nBandsIn, papoBandList, nNewOverviews,
3654 : papapoOverviewBands, pszResampling,
3655 : GDALScaledProgress,
3656 : pScaledProgressData, papszOptions);
3657 206 : GDALDestroyScaledProgress(pScaledProgressData);
3658 :
3659 66111 : for (int iBand = 0; iBand < nBandsIn; ++iBand)
3660 : {
3661 65905 : CPLFree(papapoOverviewBands[iBand]);
3662 : }
3663 206 : CPLFree(papapoOverviewBands);
3664 206 : CPLFree(papoBandList);
3665 : }
3666 : else
3667 : {
3668 : GDALRasterBand **papoOverviewBands = static_cast<GDALRasterBand **>(
3669 49 : CPLCalloc(sizeof(void *), nOverviews));
3670 :
3671 49 : const int iBandOffset = bHasMask ? 1 : 0;
3672 :
3673 146 : for (int iBand = 0; iBand < nBandsIn && eErr == CE_None; ++iBand)
3674 : {
3675 97 : GDALRasterBand *poBand = GetRasterBand(panBandList[iBand]);
3676 97 : if (poBand == nullptr)
3677 : {
3678 0 : eErr = CE_Failure;
3679 0 : break;
3680 : }
3681 :
3682 : std::vector<bool> abAlreadyUsedOverviewBand(
3683 194 : poBand->GetOverviewCount(), false);
3684 :
3685 97 : int nNewOverviews = 0;
3686 290 : for (int i = 0; i < nOverviews; ++i)
3687 : {
3688 451 : for (int j = 0; j < poBand->GetOverviewCount(); ++j)
3689 : {
3690 433 : if (abAlreadyUsedOverviewBand[j])
3691 257 : continue;
3692 :
3693 176 : GDALRasterBand *poOverview = poBand->GetOverview(j);
3694 :
3695 176 : GDALCopyNoDataValue(poOverview, poBand);
3696 :
3697 176 : const int nOvFactor = GDALComputeOvFactor(
3698 : poOverview->GetXSize(), poBand->GetXSize(),
3699 : poOverview->GetYSize(), poBand->GetYSize());
3700 :
3701 177 : if (nOvFactor == panOverviewList[i] ||
3702 1 : nOvFactor == GDALOvLevelAdjust2(panOverviewList[i],
3703 : poBand->GetXSize(),
3704 : poBand->GetYSize()))
3705 : {
3706 175 : if (iBand == 0)
3707 : {
3708 : const auto osNewResampling =
3709 170 : GDALGetNormalizedOvrResampling(pszResampling);
3710 : const char *pszExistingResampling =
3711 85 : poOverview->GetMetadataItem("RESAMPLING");
3712 137 : if (pszExistingResampling &&
3713 52 : pszExistingResampling != osNewResampling)
3714 : {
3715 1 : poOverview->SetMetadataItem(
3716 1 : "RESAMPLING", osNewResampling.c_str());
3717 : }
3718 : }
3719 :
3720 175 : abAlreadyUsedOverviewBand[j] = true;
3721 175 : CPLAssert(nNewOverviews < poBand->GetOverviewCount());
3722 175 : papoOverviewBands[nNewOverviews++] = poOverview;
3723 175 : break;
3724 : }
3725 : }
3726 : }
3727 :
3728 194 : void *pScaledProgressData = GDALCreateScaledProgress(
3729 97 : (iBand + iBandOffset) /
3730 97 : static_cast<double>(nBandsIn + iBandOffset),
3731 97 : (iBand + iBandOffset + 1) /
3732 97 : static_cast<double>(nBandsIn + iBandOffset),
3733 : pfnProgress, pProgressData);
3734 :
3735 97 : eErr = GDALRegenerateOverviewsEx(
3736 : poBand, nNewOverviews,
3737 : reinterpret_cast<GDALRasterBandH *>(papoOverviewBands),
3738 : pszResampling, GDALScaledProgress, pScaledProgressData,
3739 : papszOptions);
3740 :
3741 97 : GDALDestroyScaledProgress(pScaledProgressData);
3742 : }
3743 :
3744 : /* --------------------------------------------------------------------
3745 : */
3746 : /* Cleanup */
3747 : /* --------------------------------------------------------------------
3748 : */
3749 49 : CPLFree(papoOverviewBands);
3750 : }
3751 :
3752 255 : pfnProgress(1.0, nullptr, pProgressData);
3753 :
3754 255 : return eErr;
3755 : }
3756 :
3757 : /************************************************************************/
3758 : /* GTiffWriteDummyGeokeyDirectory() */
3759 : /************************************************************************/
3760 :
3761 1521 : static void GTiffWriteDummyGeokeyDirectory(TIFF *hTIFF)
3762 : {
3763 : // If we have existing geokeys, try to wipe them
3764 : // by writing a dummy geokey directory. (#2546)
3765 1521 : uint16_t *panVI = nullptr;
3766 1521 : uint16_t nKeyCount = 0;
3767 :
3768 1521 : if (TIFFGetField(hTIFF, TIFFTAG_GEOKEYDIRECTORY, &nKeyCount, &panVI))
3769 : {
3770 25 : GUInt16 anGKVersionInfo[4] = {1, 1, 0, 0};
3771 25 : double adfDummyDoubleParams[1] = {0.0};
3772 25 : TIFFSetField(hTIFF, TIFFTAG_GEOKEYDIRECTORY, 4, anGKVersionInfo);
3773 25 : TIFFSetField(hTIFF, TIFFTAG_GEODOUBLEPARAMS, 1, adfDummyDoubleParams);
3774 25 : TIFFSetField(hTIFF, TIFFTAG_GEOASCIIPARAMS, "");
3775 : }
3776 1521 : }
3777 :
3778 : /************************************************************************/
3779 : /* IsSRSCompatibleOfGeoTIFF() */
3780 : /************************************************************************/
3781 :
3782 3197 : static bool IsSRSCompatibleOfGeoTIFF(const OGRSpatialReference *poSRS,
3783 : GTIFFKeysFlavorEnum eGeoTIFFKeysFlavor)
3784 : {
3785 3197 : char *pszWKT = nullptr;
3786 3197 : if ((poSRS->IsGeographic() || poSRS->IsProjected()) && !poSRS->IsCompound())
3787 : {
3788 3179 : const char *pszAuthName = poSRS->GetAuthorityName();
3789 3179 : const char *pszAuthCode = poSRS->GetAuthorityCode();
3790 3179 : if (pszAuthName && pszAuthCode && EQUAL(pszAuthName, "EPSG"))
3791 2608 : return true;
3792 : }
3793 : OGRErr eErr;
3794 : {
3795 1178 : CPLErrorStateBackuper oErrorStateBackuper(CPLQuietErrorHandler);
3796 1178 : if (poSRS->IsDerivedGeographic() ||
3797 589 : (poSRS->IsProjected() && !poSRS->IsCompound() &&
3798 70 : poSRS->GetAxesCount() == 3))
3799 : {
3800 0 : eErr = OGRERR_FAILURE;
3801 : }
3802 : else
3803 : {
3804 : // Geographic3D CRS can't be exported to WKT1, but are
3805 : // valid GeoTIFF 1.1
3806 589 : const char *const apszOptions[] = {
3807 589 : poSRS->IsGeographic() ? nullptr : "FORMAT=WKT1", nullptr};
3808 589 : eErr = poSRS->exportToWkt(&pszWKT, apszOptions);
3809 589 : if (eErr == OGRERR_FAILURE && poSRS->IsProjected() &&
3810 : eGeoTIFFKeysFlavor == GEOTIFF_KEYS_ESRI_PE)
3811 : {
3812 0 : CPLFree(pszWKT);
3813 0 : const char *const apszOptionsESRIWKT[] = {"FORMAT=WKT1_ESRI",
3814 : nullptr};
3815 0 : eErr = poSRS->exportToWkt(&pszWKT, apszOptionsESRIWKT);
3816 : }
3817 : }
3818 : }
3819 589 : const bool bCompatibleOfGeoTIFF =
3820 1177 : (eErr == OGRERR_NONE && pszWKT != nullptr &&
3821 588 : strstr(pszWKT, "custom_proj4") == nullptr);
3822 589 : CPLFree(pszWKT);
3823 589 : return bCompatibleOfGeoTIFF;
3824 : }
3825 :
3826 : /************************************************************************/
3827 : /* WriteGeoTIFFInfo() */
3828 : /************************************************************************/
3829 :
3830 5928 : void GTiffDataset::WriteGeoTIFFInfo()
3831 :
3832 : {
3833 5928 : bool bPixelIsPoint = false;
3834 5928 : bool bPointGeoIgnore = false;
3835 :
3836 : const char *pszAreaOrPoint =
3837 5928 : GTiffDataset::GetMetadataItem(GDALMD_AREA_OR_POINT);
3838 5928 : if (pszAreaOrPoint && EQUAL(pszAreaOrPoint, GDALMD_AOP_POINT))
3839 : {
3840 19 : bPixelIsPoint = true;
3841 : bPointGeoIgnore =
3842 19 : CPLTestBool(CPLGetConfigOption("GTIFF_POINT_GEO_IGNORE", "FALSE"));
3843 : }
3844 :
3845 5928 : if (m_bForceUnsetGTOrGCPs)
3846 : {
3847 11 : m_bNeedsRewrite = true;
3848 11 : m_bForceUnsetGTOrGCPs = false;
3849 :
3850 11 : TIFFUnsetField(m_hTIFF, TIFFTAG_GEOPIXELSCALE);
3851 11 : TIFFUnsetField(m_hTIFF, TIFFTAG_GEOTIEPOINTS);
3852 11 : TIFFUnsetField(m_hTIFF, TIFFTAG_GEOTRANSMATRIX);
3853 : }
3854 :
3855 5928 : if (m_bForceUnsetProjection)
3856 : {
3857 8 : m_bNeedsRewrite = true;
3858 8 : m_bForceUnsetProjection = false;
3859 :
3860 8 : TIFFUnsetField(m_hTIFF, TIFFTAG_GEOKEYDIRECTORY);
3861 8 : TIFFUnsetField(m_hTIFF, TIFFTAG_GEODOUBLEPARAMS);
3862 8 : TIFFUnsetField(m_hTIFF, TIFFTAG_GEOASCIIPARAMS);
3863 : }
3864 :
3865 : /* -------------------------------------------------------------------- */
3866 : /* Write geotransform if valid. */
3867 : /* -------------------------------------------------------------------- */
3868 5928 : if (m_bGeoTransformValid)
3869 : {
3870 1849 : m_bNeedsRewrite = true;
3871 :
3872 : /* --------------------------------------------------------------------
3873 : */
3874 : /* Clear old tags to ensure we don't end up with conflicting */
3875 : /* information. (#2625) */
3876 : /* --------------------------------------------------------------------
3877 : */
3878 1849 : TIFFUnsetField(m_hTIFF, TIFFTAG_GEOPIXELSCALE);
3879 1849 : TIFFUnsetField(m_hTIFF, TIFFTAG_GEOTIEPOINTS);
3880 1849 : TIFFUnsetField(m_hTIFF, TIFFTAG_GEOTRANSMATRIX);
3881 :
3882 : /* --------------------------------------------------------------------
3883 : */
3884 : /* Write the transform. If we have a normal north-up image we */
3885 : /* use the tiepoint plus pixelscale otherwise we use a matrix. */
3886 : /* --------------------------------------------------------------------
3887 : */
3888 1849 : if (m_gt.xrot == 0.0 && m_gt.yrot == 0.0 && m_gt.yscale < 0.0)
3889 : {
3890 1756 : double dfOffset = 0.0;
3891 1756 : if (m_eProfile != GTiffProfile::BASELINE)
3892 : {
3893 : // In the case the SRS has a vertical component and we have
3894 : // a single band, encode its scale/offset in the GeoTIFF tags
3895 1750 : int bHasScale = FALSE;
3896 1750 : double dfScale = GetRasterBand(1)->GetScale(&bHasScale);
3897 1750 : int bHasOffset = FALSE;
3898 1750 : dfOffset = GetRasterBand(1)->GetOffset(&bHasOffset);
3899 : const bool bApplyScaleOffset =
3900 1750 : m_oSRS.IsVertical() && GetRasterCount() == 1;
3901 1750 : if (bApplyScaleOffset && !bHasScale)
3902 0 : dfScale = 1.0;
3903 1750 : if (!bApplyScaleOffset || !bHasOffset)
3904 1747 : dfOffset = 0.0;
3905 1750 : const double adfPixelScale[3] = {m_gt.xscale, fabs(m_gt.yscale),
3906 1750 : bApplyScaleOffset ? dfScale
3907 1750 : : 0.0};
3908 1750 : TIFFSetField(m_hTIFF, TIFFTAG_GEOPIXELSCALE, 3, adfPixelScale);
3909 : }
3910 :
3911 1756 : double adfTiePoints[6] = {0.0, 0.0, 0.0,
3912 1756 : m_gt.xorig, m_gt.yorig, dfOffset};
3913 :
3914 1756 : if (bPixelIsPoint && !bPointGeoIgnore)
3915 : {
3916 15 : adfTiePoints[3] += m_gt.xscale * 0.5 + m_gt.xrot * 0.5;
3917 15 : adfTiePoints[4] += m_gt.yrot * 0.5 + m_gt.yscale * 0.5;
3918 : }
3919 :
3920 1756 : if (m_eProfile != GTiffProfile::BASELINE)
3921 1756 : TIFFSetField(m_hTIFF, TIFFTAG_GEOTIEPOINTS, 6, adfTiePoints);
3922 : }
3923 : else
3924 : {
3925 93 : double adfMatrix[16] = {};
3926 :
3927 93 : adfMatrix[0] = m_gt.xscale;
3928 93 : adfMatrix[1] = m_gt.xrot;
3929 93 : adfMatrix[3] = m_gt.xorig;
3930 93 : adfMatrix[4] = m_gt.yrot;
3931 93 : adfMatrix[5] = m_gt.yscale;
3932 93 : adfMatrix[7] = m_gt.yorig;
3933 93 : adfMatrix[15] = 1.0;
3934 :
3935 93 : if (bPixelIsPoint && !bPointGeoIgnore)
3936 : {
3937 0 : adfMatrix[3] += m_gt.xscale * 0.5 + m_gt.xrot * 0.5;
3938 0 : adfMatrix[7] += m_gt.yrot * 0.5 + m_gt.yscale * 0.5;
3939 : }
3940 :
3941 93 : if (m_eProfile != GTiffProfile::BASELINE)
3942 93 : TIFFSetField(m_hTIFF, TIFFTAG_GEOTRANSMATRIX, 16, adfMatrix);
3943 : }
3944 :
3945 1849 : if (m_poBaseDS == nullptr)
3946 : {
3947 : // Do we need a world file?
3948 1849 : if (CPLFetchBool(m_papszCreationOptions, "TFW", false))
3949 7 : GDALWriteWorldFile(m_osFilename.c_str(), "tfw", m_gt.data());
3950 1842 : else if (CPLFetchBool(m_papszCreationOptions, "WORLDFILE", false))
3951 2 : GDALWriteWorldFile(m_osFilename.c_str(), "wld", m_gt.data());
3952 : }
3953 : }
3954 4092 : else if (GetGCPCount() > 0 && GetGCPCount() <= knMAX_GCP_COUNT &&
3955 13 : m_eProfile != GTiffProfile::BASELINE)
3956 : {
3957 13 : m_bNeedsRewrite = true;
3958 :
3959 : double *padfTiePoints = static_cast<double *>(
3960 13 : CPLMalloc(6 * sizeof(double) * GetGCPCount()));
3961 :
3962 69 : for (size_t iGCP = 0; iGCP < m_aoGCPs.size(); ++iGCP)
3963 : {
3964 :
3965 56 : padfTiePoints[iGCP * 6 + 0] = m_aoGCPs[iGCP].Pixel();
3966 56 : padfTiePoints[iGCP * 6 + 1] = m_aoGCPs[iGCP].Line();
3967 56 : padfTiePoints[iGCP * 6 + 2] = 0;
3968 56 : padfTiePoints[iGCP * 6 + 3] = m_aoGCPs[iGCP].X();
3969 56 : padfTiePoints[iGCP * 6 + 4] = m_aoGCPs[iGCP].Y();
3970 56 : padfTiePoints[iGCP * 6 + 5] = m_aoGCPs[iGCP].Z();
3971 :
3972 56 : if (bPixelIsPoint && !bPointGeoIgnore)
3973 : {
3974 0 : padfTiePoints[iGCP * 6 + 0] += 0.5;
3975 0 : padfTiePoints[iGCP * 6 + 1] += 0.5;
3976 : }
3977 : }
3978 :
3979 13 : TIFFSetField(m_hTIFF, TIFFTAG_GEOTIEPOINTS, 6 * GetGCPCount(),
3980 : padfTiePoints);
3981 13 : CPLFree(padfTiePoints);
3982 : }
3983 :
3984 : /* -------------------------------------------------------------------- */
3985 : /* Write out projection definition. */
3986 : /* -------------------------------------------------------------------- */
3987 5928 : const bool bHasProjection = !m_oSRS.IsEmpty();
3988 5928 : if ((bHasProjection || bPixelIsPoint) &&
3989 1525 : m_eProfile != GTiffProfile::BASELINE)
3990 : {
3991 1521 : m_bNeedsRewrite = true;
3992 :
3993 : // If we have existing geokeys, try to wipe them
3994 : // by writing a dummy geokey directory. (#2546)
3995 1521 : GTiffWriteDummyGeokeyDirectory(m_hTIFF);
3996 :
3997 1521 : GTIF *psGTIF = GTiffDataset::GTIFNew(m_hTIFF);
3998 :
3999 : // Set according to coordinate system.
4000 1521 : if (bHasProjection)
4001 : {
4002 1520 : if (IsSRSCompatibleOfGeoTIFF(&m_oSRS, m_eGeoTIFFKeysFlavor))
4003 : {
4004 1518 : GTIFSetFromOGISDefnEx(psGTIF,
4005 : OGRSpatialReference::ToHandle(&m_oSRS),
4006 : m_eGeoTIFFKeysFlavor, m_eGeoTIFFVersion);
4007 : }
4008 : else
4009 : {
4010 2 : GDALPamDataset::SetSpatialRef(&m_oSRS);
4011 : }
4012 : }
4013 :
4014 1521 : if (bPixelIsPoint)
4015 : {
4016 19 : GTIFKeySet(psGTIF, GTRasterTypeGeoKey, TYPE_SHORT, 1,
4017 : RasterPixelIsPoint);
4018 : }
4019 :
4020 1521 : GTIFWriteKeys(psGTIF);
4021 1521 : GTIFFree(psGTIF);
4022 : }
4023 5928 : }
4024 :
4025 : /************************************************************************/
4026 : /* AppendMetadataItem() */
4027 : /************************************************************************/
4028 :
4029 3893 : static void AppendMetadataItem(CPLXMLNode **ppsRoot, CPLXMLNode **ppsTail,
4030 : const char *pszKey, const char *pszValue,
4031 : CPLXMLNode *psValueNode, int nBand,
4032 : const char *pszRole, const char *pszDomain)
4033 :
4034 : {
4035 3893 : CPLAssert(pszValue || psValueNode);
4036 3893 : CPLAssert(!(pszValue && psValueNode));
4037 :
4038 : /* -------------------------------------------------------------------- */
4039 : /* Create the Item element, and subcomponents. */
4040 : /* -------------------------------------------------------------------- */
4041 3893 : CPLXMLNode *psItem = CPLCreateXMLNode(nullptr, CXT_Element, "Item");
4042 3893 : CPLAddXMLAttributeAndValue(psItem, "name", pszKey);
4043 :
4044 3893 : if (nBand > 0)
4045 : {
4046 1165 : char szBandId[32] = {};
4047 1165 : snprintf(szBandId, sizeof(szBandId), "%d", nBand - 1);
4048 1165 : CPLAddXMLAttributeAndValue(psItem, "sample", szBandId);
4049 : }
4050 :
4051 3893 : if (pszRole != nullptr)
4052 383 : CPLAddXMLAttributeAndValue(psItem, "role", pszRole);
4053 :
4054 3893 : if (pszDomain != nullptr && strlen(pszDomain) > 0)
4055 1012 : CPLAddXMLAttributeAndValue(psItem, "domain", pszDomain);
4056 :
4057 3893 : if (pszValue)
4058 : {
4059 : // Note: this escaping should not normally be done, as the serialization
4060 : // of the tree to XML also does it, so we end up width double XML escaping,
4061 : // but keep it for backward compatibility.
4062 3872 : char *pszEscapedItemValue = CPLEscapeString(pszValue, -1, CPLES_XML);
4063 3872 : CPLCreateXMLNode(psItem, CXT_Text, pszEscapedItemValue);
4064 3872 : CPLFree(pszEscapedItemValue);
4065 : }
4066 : else
4067 : {
4068 21 : CPLAddXMLChild(psItem, psValueNode);
4069 : }
4070 :
4071 : /* -------------------------------------------------------------------- */
4072 : /* Create root, if missing. */
4073 : /* -------------------------------------------------------------------- */
4074 3893 : if (*ppsRoot == nullptr)
4075 764 : *ppsRoot = CPLCreateXMLNode(nullptr, CXT_Element, "GDALMetadata");
4076 :
4077 : /* -------------------------------------------------------------------- */
4078 : /* Append item to tail. We keep track of the tail to avoid */
4079 : /* O(nsquared) time as the list gets longer. */
4080 : /* -------------------------------------------------------------------- */
4081 3893 : if (*ppsTail == nullptr)
4082 764 : CPLAddXMLChild(*ppsRoot, psItem);
4083 : else
4084 3129 : CPLAddXMLSibling(*ppsTail, psItem);
4085 :
4086 3893 : *ppsTail = psItem;
4087 3893 : }
4088 :
4089 : /************************************************************************/
4090 : /* AppendMetadataItem() */
4091 : /************************************************************************/
4092 :
4093 3872 : static void AppendMetadataItem(CPLXMLNode **ppsRoot, CPLXMLNode **ppsTail,
4094 : const char *pszKey, const char *pszValue,
4095 : int nBand, const char *pszRole,
4096 : const char *pszDomain)
4097 :
4098 : {
4099 3872 : AppendMetadataItem(ppsRoot, ppsTail, pszKey, pszValue, nullptr, nBand,
4100 : pszRole, pszDomain);
4101 3872 : }
4102 :
4103 : /************************************************************************/
4104 : /* WriteMDMetadata() */
4105 : /************************************************************************/
4106 :
4107 311213 : static void WriteMDMetadata(GDALMultiDomainMetadata *poMDMD, TIFF *hTIFF,
4108 : CPLXMLNode **ppsRoot, CPLXMLNode **ppsTail,
4109 : int nBand, GTiffProfile eProfile)
4110 :
4111 : {
4112 :
4113 : /* ==================================================================== */
4114 : /* Process each domain. */
4115 : /* ==================================================================== */
4116 311213 : CSLConstList papszDomainList = poMDMD->GetDomainList();
4117 319778 : for (int iDomain = 0; papszDomainList && papszDomainList[iDomain];
4118 : ++iDomain)
4119 : {
4120 8565 : CSLConstList papszMD = poMDMD->GetMetadata(papszDomainList[iDomain]);
4121 8565 : bool bIsXMLOrJSON = false;
4122 :
4123 8565 : if (EQUAL(papszDomainList[iDomain], "IMAGE_STRUCTURE") ||
4124 2490 : EQUAL(papszDomainList[iDomain], "DERIVED_SUBDATASETS"))
4125 6078 : continue; // Ignored.
4126 2487 : if (EQUAL(papszDomainList[iDomain], "COLOR_PROFILE"))
4127 3 : continue; // Handled elsewhere.
4128 2484 : if (EQUAL(papszDomainList[iDomain], MD_DOMAIN_RPC))
4129 7 : continue; // Handled elsewhere.
4130 2478 : if (EQUAL(papszDomainList[iDomain], "xml:ESRI") &&
4131 1 : CPLTestBool(CPLGetConfigOption("ESRI_XML_PAM", "NO")))
4132 1 : continue; // Handled elsewhere.
4133 2476 : if (EQUAL(papszDomainList[iDomain], "xml:XMP"))
4134 2 : continue; // Handled in SetMetadata.
4135 :
4136 2474 : if (STARTS_WITH_CI(papszDomainList[iDomain], "xml:") ||
4137 2472 : STARTS_WITH_CI(papszDomainList[iDomain], "json:"))
4138 : {
4139 12 : bIsXMLOrJSON = true;
4140 : }
4141 :
4142 : /* --------------------------------------------------------------------
4143 : */
4144 : /* Process each item in this domain. */
4145 : /* --------------------------------------------------------------------
4146 : */
4147 7575 : for (int iItem = 0; papszMD && papszMD[iItem]; ++iItem)
4148 : {
4149 5101 : const char *pszItemValue = nullptr;
4150 5101 : char *pszItemName = nullptr;
4151 :
4152 5101 : if (bIsXMLOrJSON)
4153 : {
4154 11 : pszItemName = CPLStrdup("doc");
4155 11 : pszItemValue = papszMD[iItem];
4156 : }
4157 : else
4158 : {
4159 5090 : pszItemValue = CPLParseNameValue(papszMD[iItem], &pszItemName);
4160 5090 : if (pszItemName == nullptr)
4161 : {
4162 49 : CPLDebug("GTiff", "Invalid metadata item : %s",
4163 49 : papszMD[iItem]);
4164 49 : continue;
4165 : }
4166 : }
4167 :
4168 : /* --------------------------------------------------------------------
4169 : */
4170 : /* Convert into XML item or handle as a special TIFF tag. */
4171 : /* --------------------------------------------------------------------
4172 : */
4173 5052 : if (strlen(papszDomainList[iDomain]) == 0 && nBand == 0 &&
4174 3697 : (STARTS_WITH_CI(pszItemName, "TIFFTAG_") ||
4175 3636 : (EQUAL(pszItemName, "GEO_METADATA") &&
4176 3635 : eProfile == GTiffProfile::GDALGEOTIFF) ||
4177 3635 : (EQUAL(pszItemName, "TIFF_RSID") &&
4178 : eProfile == GTiffProfile::GDALGEOTIFF)))
4179 : {
4180 63 : if (EQUAL(pszItemName, "TIFFTAG_RESOLUTIONUNIT"))
4181 : {
4182 : // ResolutionUnit can't be 0, which is the default if
4183 : // atoi() fails. Set to 1=Unknown.
4184 9 : int v = atoi(pszItemValue);
4185 9 : if (!v)
4186 1 : v = RESUNIT_NONE;
4187 9 : TIFFSetField(hTIFF, TIFFTAG_RESOLUTIONUNIT, v);
4188 : }
4189 : else
4190 : {
4191 54 : bool bFoundTag = false;
4192 54 : size_t iTag = 0; // Used after for.
4193 54 : const auto *pasTIFFTags = GTiffDataset::GetTIFFTags();
4194 286 : for (; pasTIFFTags[iTag].pszTagName; ++iTag)
4195 : {
4196 286 : if (EQUAL(pszItemName, pasTIFFTags[iTag].pszTagName))
4197 : {
4198 54 : bFoundTag = true;
4199 54 : break;
4200 : }
4201 : }
4202 :
4203 54 : if (bFoundTag &&
4204 54 : pasTIFFTags[iTag].eType == GTIFFTAGTYPE_STRING)
4205 33 : TIFFSetField(hTIFF, pasTIFFTags[iTag].nTagVal,
4206 : pszItemValue);
4207 21 : else if (bFoundTag &&
4208 21 : pasTIFFTags[iTag].eType == GTIFFTAGTYPE_FLOAT)
4209 16 : TIFFSetField(hTIFF, pasTIFFTags[iTag].nTagVal,
4210 : CPLAtof(pszItemValue));
4211 5 : else if (bFoundTag &&
4212 5 : pasTIFFTags[iTag].eType == GTIFFTAGTYPE_SHORT)
4213 4 : TIFFSetField(hTIFF, pasTIFFTags[iTag].nTagVal,
4214 : atoi(pszItemValue));
4215 1 : else if (bFoundTag && pasTIFFTags[iTag].eType ==
4216 : GTIFFTAGTYPE_BYTE_STRING)
4217 : {
4218 1 : uint32_t nLen =
4219 1 : static_cast<uint32_t>(strlen(pszItemValue));
4220 1 : if (nLen)
4221 : {
4222 1 : TIFFSetField(hTIFF, pasTIFFTags[iTag].nTagVal, nLen,
4223 : pszItemValue);
4224 1 : }
4225 : }
4226 : else
4227 0 : CPLError(CE_Warning, CPLE_NotSupported,
4228 : "%s metadata item is unhandled and "
4229 : "will not be written",
4230 : pszItemName);
4231 63 : }
4232 : }
4233 4989 : else if (nBand == 0 && EQUAL(pszItemName, GDALMD_AREA_OR_POINT))
4234 : {
4235 : /* Do nothing, handled elsewhere. */;
4236 : }
4237 : else
4238 : {
4239 3077 : AppendMetadataItem(ppsRoot, ppsTail, pszItemName, pszItemValue,
4240 3077 : nBand, nullptr, papszDomainList[iDomain]);
4241 : }
4242 :
4243 5052 : CPLFree(pszItemName);
4244 : }
4245 :
4246 : /* --------------------------------------------------------------------
4247 : */
4248 : /* Remove TIFFTAG_xxxxxx that are already set but no longer in */
4249 : /* the metadata list (#5619) */
4250 : /* --------------------------------------------------------------------
4251 : */
4252 2474 : if (strlen(papszDomainList[iDomain]) == 0 && nBand == 0)
4253 : {
4254 2188 : const auto *pasTIFFTags = GTiffDataset::GetTIFFTags();
4255 32820 : for (size_t iTag = 0; pasTIFFTags[iTag].pszTagName; ++iTag)
4256 : {
4257 30632 : uint32_t nCount = 0;
4258 30632 : char *pszText = nullptr;
4259 30632 : int16_t nVal = 0;
4260 30632 : float fVal = 0.0f;
4261 : const char *pszVal =
4262 30632 : CSLFetchNameValue(papszMD, pasTIFFTags[iTag].pszTagName);
4263 61201 : if (pszVal == nullptr &&
4264 30569 : ((pasTIFFTags[iTag].eType == GTIFFTAGTYPE_STRING &&
4265 17471 : TIFFGetField(hTIFF, pasTIFFTags[iTag].nTagVal,
4266 30561 : &pszText)) ||
4267 30561 : (pasTIFFTags[iTag].eType == GTIFFTAGTYPE_SHORT &&
4268 6551 : TIFFGetField(hTIFF, pasTIFFTags[iTag].nTagVal, &nVal)) ||
4269 30558 : (pasTIFFTags[iTag].eType == GTIFFTAGTYPE_FLOAT &&
4270 4360 : TIFFGetField(hTIFF, pasTIFFTags[iTag].nTagVal, &fVal)) ||
4271 30557 : (pasTIFFTags[iTag].eType == GTIFFTAGTYPE_BYTE_STRING &&
4272 2187 : TIFFGetField(hTIFF, pasTIFFTags[iTag].nTagVal, &nCount,
4273 : &pszText))))
4274 : {
4275 13 : TIFFUnsetField(hTIFF, pasTIFFTags[iTag].nTagVal);
4276 : }
4277 : }
4278 : }
4279 : }
4280 311213 : }
4281 :
4282 : /************************************************************************/
4283 : /* WriteRPC() */
4284 : /************************************************************************/
4285 :
4286 10249 : void GTiffDataset::WriteRPC(GDALDataset *poSrcDS, TIFF *l_hTIFF,
4287 : int bSrcIsGeoTIFF, GTiffProfile eProfile,
4288 : const char *pszTIFFFilename,
4289 : CSLConstList papszCreationOptions,
4290 : bool bWriteOnlyInPAMIfNeeded)
4291 : {
4292 : /* -------------------------------------------------------------------- */
4293 : /* Handle RPC data written to TIFF RPCCoefficient tag, RPB file, */
4294 : /* RPCTEXT file or PAM. */
4295 : /* -------------------------------------------------------------------- */
4296 10249 : CSLConstList papszRPCMD = poSrcDS->GetMetadata(MD_DOMAIN_RPC);
4297 10249 : if (papszRPCMD != nullptr)
4298 : {
4299 32 : bool bRPCSerializedOtherWay = false;
4300 :
4301 32 : if (eProfile == GTiffProfile::GDALGEOTIFF)
4302 : {
4303 20 : if (!bWriteOnlyInPAMIfNeeded)
4304 11 : GTiffDatasetWriteRPCTag(l_hTIFF, papszRPCMD);
4305 20 : bRPCSerializedOtherWay = true;
4306 : }
4307 :
4308 : // Write RPB file if explicitly asked, or if a non GDAL specific
4309 : // profile is selected and RPCTXT is not asked.
4310 : bool bRPBExplicitlyAsked =
4311 32 : CPLFetchBool(papszCreationOptions, "RPB", false);
4312 : bool bRPBExplicitlyDenied =
4313 32 : !CPLFetchBool(papszCreationOptions, "RPB", true);
4314 44 : if ((eProfile != GTiffProfile::GDALGEOTIFF &&
4315 12 : !CPLFetchBool(papszCreationOptions, "RPCTXT", false) &&
4316 44 : !bRPBExplicitlyDenied) ||
4317 : bRPBExplicitlyAsked)
4318 : {
4319 8 : if (!bWriteOnlyInPAMIfNeeded)
4320 4 : GDALWriteRPBFile(pszTIFFFilename, papszRPCMD);
4321 8 : bRPCSerializedOtherWay = true;
4322 : }
4323 :
4324 32 : if (CPLFetchBool(papszCreationOptions, "RPCTXT", false))
4325 : {
4326 2 : if (!bWriteOnlyInPAMIfNeeded)
4327 1 : GDALWriteRPCTXTFile(pszTIFFFilename, papszRPCMD);
4328 2 : bRPCSerializedOtherWay = true;
4329 : }
4330 :
4331 32 : if (!bRPCSerializedOtherWay && bWriteOnlyInPAMIfNeeded && bSrcIsGeoTIFF)
4332 1 : cpl::down_cast<GTiffDataset *>(poSrcDS)
4333 1 : ->GDALPamDataset::SetMetadata(papszRPCMD, MD_DOMAIN_RPC);
4334 : }
4335 10249 : }
4336 :
4337 : /************************************************************************/
4338 : /* WriteMetadata() */
4339 : /************************************************************************/
4340 :
4341 8133 : bool GTiffDataset::WriteMetadata(GDALDataset *poSrcDS, TIFF *l_hTIFF,
4342 : bool bSrcIsGeoTIFF, GTiffProfile eProfile,
4343 : const char *pszTIFFFilename,
4344 : CSLConstList papszCreationOptions,
4345 : bool bExcludeRPBandIMGFileWriting)
4346 :
4347 : {
4348 : /* -------------------------------------------------------------------- */
4349 : /* Convert all the remaining metadata into a simple XML */
4350 : /* format. */
4351 : /* -------------------------------------------------------------------- */
4352 8133 : CPLXMLNode *psRoot = nullptr;
4353 8133 : CPLXMLNode *psTail = nullptr;
4354 :
4355 : const char *pszCopySrcMDD =
4356 8133 : CSLFetchNameValueDef(papszCreationOptions, "COPY_SRC_MDD", "AUTO");
4357 : char **papszSrcMDD =
4358 8133 : CSLFetchNameValueMultiple(papszCreationOptions, "SRC_MDD");
4359 :
4360 : GTiffDataset *poSrcDSGTiff =
4361 8133 : bSrcIsGeoTIFF ? cpl::down_cast<GTiffDataset *>(poSrcDS) : nullptr;
4362 :
4363 8133 : if (poSrcDSGTiff)
4364 : {
4365 5990 : WriteMDMetadata(&poSrcDSGTiff->m_oGTiffMDMD, l_hTIFF, &psRoot, &psTail,
4366 : 0, eProfile);
4367 : }
4368 : else
4369 : {
4370 2143 : if (EQUAL(pszCopySrcMDD, "AUTO") || CPLTestBool(pszCopySrcMDD) ||
4371 : papszSrcMDD)
4372 : {
4373 4280 : GDALMultiDomainMetadata l_oMDMD;
4374 : {
4375 2140 : CSLConstList papszMD = poSrcDS->GetMetadata();
4376 2144 : if (CSLCount(papszMD) > 0 &&
4377 4 : (!papszSrcMDD || CSLFindString(papszSrcMDD, "") >= 0 ||
4378 2 : CSLFindString(papszSrcMDD, "_DEFAULT_") >= 0))
4379 : {
4380 1622 : l_oMDMD.SetMetadata(papszMD);
4381 : }
4382 : }
4383 :
4384 2140 : if (EQUAL(pszCopySrcMDD, "AUTO") && !papszSrcMDD)
4385 : {
4386 : // Propagate ISIS3 or VICAR metadata
4387 6393 : for (const char *pszMDD : {"json:ISIS3", "json:VICAR"})
4388 : {
4389 4262 : CSLConstList papszMD = poSrcDS->GetMetadata(pszMDD);
4390 4262 : if (papszMD)
4391 : {
4392 5 : l_oMDMD.SetMetadata(papszMD, pszMDD);
4393 : }
4394 : }
4395 : }
4396 :
4397 2140 : if ((!EQUAL(pszCopySrcMDD, "AUTO") && CPLTestBool(pszCopySrcMDD)) ||
4398 : papszSrcMDD)
4399 : {
4400 9 : char **papszDomainList = poSrcDS->GetMetadataDomainList();
4401 39 : for (CSLConstList papszIter = papszDomainList;
4402 39 : papszIter && *papszIter; ++papszIter)
4403 : {
4404 30 : const char *pszDomain = *papszIter;
4405 46 : if (pszDomain[0] != 0 &&
4406 16 : (!papszSrcMDD ||
4407 16 : CSLFindString(papszSrcMDD, pszDomain) >= 0))
4408 : {
4409 12 : l_oMDMD.SetMetadata(poSrcDS->GetMetadata(pszDomain),
4410 : pszDomain);
4411 : }
4412 : }
4413 9 : CSLDestroy(papszDomainList);
4414 : }
4415 :
4416 2140 : WriteMDMetadata(&l_oMDMD, l_hTIFF, &psRoot, &psTail, 0, eProfile);
4417 : }
4418 : }
4419 :
4420 8133 : if (!bExcludeRPBandIMGFileWriting &&
4421 5984 : (!poSrcDSGTiff || poSrcDSGTiff->m_poBaseDS == nullptr))
4422 : {
4423 8122 : WriteRPC(poSrcDS, l_hTIFF, bSrcIsGeoTIFF, eProfile, pszTIFFFilename,
4424 : papszCreationOptions);
4425 :
4426 : /* ------------------------------------------------------------------ */
4427 : /* Handle metadata data written to an IMD file. */
4428 : /* ------------------------------------------------------------------ */
4429 8122 : CSLConstList papszIMDMD = poSrcDS->GetMetadata(MD_DOMAIN_IMD);
4430 8122 : if (papszIMDMD != nullptr)
4431 : {
4432 20 : GDALWriteIMDFile(pszTIFFFilename, papszIMDMD);
4433 : }
4434 : }
4435 :
4436 8133 : uint16_t nPhotometric = 0;
4437 8133 : if (!TIFFGetField(l_hTIFF, TIFFTAG_PHOTOMETRIC, &(nPhotometric)))
4438 1 : nPhotometric = PHOTOMETRIC_MINISBLACK;
4439 :
4440 8133 : const bool bStandardColorInterp = GTIFFIsStandardColorInterpretation(
4441 : GDALDataset::ToHandle(poSrcDS), nPhotometric, papszCreationOptions);
4442 :
4443 : /* -------------------------------------------------------------------- */
4444 : /* We also need to address band specific metadata, and special */
4445 : /* "role" metadata. */
4446 : /* -------------------------------------------------------------------- */
4447 316197 : for (int nBand = 1; nBand <= poSrcDS->GetRasterCount(); ++nBand)
4448 : {
4449 308064 : GDALRasterBand *poBand = poSrcDS->GetRasterBand(nBand);
4450 :
4451 308064 : if (bSrcIsGeoTIFF)
4452 : {
4453 : GTiffRasterBand *poSrcBandGTiff =
4454 302992 : cpl::down_cast<GTiffRasterBand *>(poBand);
4455 302992 : assert(poSrcBandGTiff);
4456 302992 : WriteMDMetadata(&poSrcBandGTiff->m_oGTiffMDMD, l_hTIFF, &psRoot,
4457 : &psTail, nBand, eProfile);
4458 : }
4459 : else
4460 : {
4461 10144 : GDALMultiDomainMetadata l_oMDMD;
4462 5072 : bool bOMDMDSet = false;
4463 :
4464 5072 : if (EQUAL(pszCopySrcMDD, "AUTO") && !papszSrcMDD)
4465 : {
4466 15180 : for (const char *pszDomain : {"", "IMAGERY"})
4467 : {
4468 10120 : if (CSLConstList papszMD = poBand->GetMetadata(pszDomain))
4469 : {
4470 89 : if (papszMD[0])
4471 : {
4472 89 : bOMDMDSet = true;
4473 89 : l_oMDMD.SetMetadata(papszMD, pszDomain);
4474 : }
4475 : }
4476 5060 : }
4477 : }
4478 12 : else if (CPLTestBool(pszCopySrcMDD) || papszSrcMDD)
4479 : {
4480 9 : char **papszDomainList = poBand->GetMetadataDomainList();
4481 3 : for (const char *pszDomain :
4482 15 : cpl::Iterate(CSLConstList(papszDomainList)))
4483 : {
4484 9 : if (pszDomain[0] != 0 &&
4485 5 : !EQUAL(pszDomain, "IMAGE_STRUCTURE") &&
4486 2 : (!papszSrcMDD ||
4487 2 : CSLFindString(papszSrcMDD, pszDomain) >= 0))
4488 : {
4489 2 : bOMDMDSet = true;
4490 2 : l_oMDMD.SetMetadata(poBand->GetMetadata(pszDomain),
4491 : pszDomain);
4492 : }
4493 : }
4494 9 : CSLDestroy(papszDomainList);
4495 : }
4496 :
4497 5072 : if (bOMDMDSet)
4498 : {
4499 91 : WriteMDMetadata(&l_oMDMD, l_hTIFF, &psRoot, &psTail, nBand,
4500 : eProfile);
4501 : }
4502 : }
4503 :
4504 308064 : const double dfOffset = poBand->GetOffset();
4505 308064 : const double dfScale = poBand->GetScale();
4506 308064 : bool bGeoTIFFScaleOffsetInZ = false;
4507 308064 : GDALGeoTransform gt;
4508 : // Check if we have already encoded scale/offset in the GeoTIFF tags
4509 314248 : if (poSrcDS->GetGeoTransform(gt) == CE_None && gt.xrot == 0.0 &&
4510 6168 : gt.yrot == 0.0 && gt.yscale < 0.0 && poSrcDS->GetSpatialRef() &&
4511 314255 : poSrcDS->GetSpatialRef()->IsVertical() &&
4512 7 : poSrcDS->GetRasterCount() == 1)
4513 : {
4514 7 : bGeoTIFFScaleOffsetInZ = true;
4515 : }
4516 :
4517 308064 : if ((dfOffset != 0.0 || dfScale != 1.0) && !bGeoTIFFScaleOffsetInZ)
4518 : {
4519 25 : char szValue[128] = {};
4520 :
4521 25 : CPLsnprintf(szValue, sizeof(szValue), "%.17g", dfOffset);
4522 25 : AppendMetadataItem(&psRoot, &psTail, "OFFSET", szValue, nBand,
4523 : "offset", "");
4524 25 : CPLsnprintf(szValue, sizeof(szValue), "%.17g", dfScale);
4525 25 : AppendMetadataItem(&psRoot, &psTail, "SCALE", szValue, nBand,
4526 : "scale", "");
4527 : }
4528 :
4529 308064 : const char *pszUnitType = poBand->GetUnitType();
4530 308064 : if (pszUnitType != nullptr && pszUnitType[0] != '\0')
4531 : {
4532 40 : bool bWriteUnit = true;
4533 40 : auto poSRS = poSrcDS->GetSpatialRef();
4534 40 : if (poSRS && poSRS->IsCompound())
4535 : {
4536 2 : const char *pszVertUnit = nullptr;
4537 2 : poSRS->GetTargetLinearUnits("COMPD_CS|VERT_CS", &pszVertUnit);
4538 2 : if (pszVertUnit && EQUAL(pszVertUnit, pszUnitType))
4539 : {
4540 2 : bWriteUnit = false;
4541 : }
4542 : }
4543 40 : if (bWriteUnit)
4544 : {
4545 38 : AppendMetadataItem(&psRoot, &psTail, "UNITTYPE", pszUnitType,
4546 : nBand, "unittype", "");
4547 : }
4548 : }
4549 :
4550 308064 : if (strlen(poBand->GetDescription()) > 0)
4551 : {
4552 24 : AppendMetadataItem(&psRoot, &psTail, "DESCRIPTION",
4553 24 : poBand->GetDescription(), nBand, "description",
4554 : "");
4555 : }
4556 :
4557 308281 : if (!bStandardColorInterp &&
4558 217 : !(nBand <= 3 && EQUAL(CSLFetchNameValueDef(papszCreationOptions,
4559 : "PHOTOMETRIC", ""),
4560 : "RGB")))
4561 : {
4562 250 : AppendMetadataItem(&psRoot, &psTail, "COLORINTERP",
4563 : GDALGetColorInterpretationName(
4564 250 : poBand->GetColorInterpretation()),
4565 : nBand, "colorinterp", "");
4566 : }
4567 : }
4568 :
4569 8133 : CSLDestroy(papszSrcMDD);
4570 :
4571 : const char *pszTilingSchemeName =
4572 8133 : CSLFetchNameValue(papszCreationOptions, "@TILING_SCHEME_NAME");
4573 8133 : if (pszTilingSchemeName)
4574 : {
4575 23 : AppendMetadataItem(&psRoot, &psTail, "NAME", pszTilingSchemeName, 0,
4576 : nullptr, "TILING_SCHEME");
4577 :
4578 23 : const char *pszZoomLevel = CSLFetchNameValue(
4579 : papszCreationOptions, "@TILING_SCHEME_ZOOM_LEVEL");
4580 23 : if (pszZoomLevel)
4581 : {
4582 23 : AppendMetadataItem(&psRoot, &psTail, "ZOOM_LEVEL", pszZoomLevel, 0,
4583 : nullptr, "TILING_SCHEME");
4584 : }
4585 :
4586 23 : const char *pszAlignedLevels = CSLFetchNameValue(
4587 : papszCreationOptions, "@TILING_SCHEME_ALIGNED_LEVELS");
4588 23 : if (pszAlignedLevels)
4589 : {
4590 4 : AppendMetadataItem(&psRoot, &psTail, "ALIGNED_LEVELS",
4591 : pszAlignedLevels, 0, nullptr, "TILING_SCHEME");
4592 : }
4593 : }
4594 :
4595 8133 : if (const char *pszOverviewResampling =
4596 8133 : CSLFetchNameValue(papszCreationOptions, "@OVERVIEW_RESAMPLING"))
4597 : {
4598 41 : AppendMetadataItem(&psRoot, &psTail, "OVERVIEW_RESAMPLING",
4599 : pszOverviewResampling, 0, nullptr,
4600 : "IMAGE_STRUCTURE");
4601 : }
4602 :
4603 : /* -------------------------------------------------------------------- */
4604 : /* Write information about some codecs. */
4605 : /* -------------------------------------------------------------------- */
4606 8133 : if (CPLTestBool(
4607 : CPLGetConfigOption("GTIFF_WRITE_IMAGE_STRUCTURE_METADATA", "YES")))
4608 : {
4609 : const char *pszTileInterleave =
4610 8128 : CSLFetchNameValue(papszCreationOptions, "@TILE_INTERLEAVE");
4611 8128 : if (pszTileInterleave && CPLTestBool(pszTileInterleave))
4612 : {
4613 7 : AppendMetadataItem(&psRoot, &psTail, "INTERLEAVE", "TILE", 0,
4614 : nullptr, "IMAGE_STRUCTURE");
4615 : }
4616 :
4617 : const char *pszCompress =
4618 8128 : CSLFetchNameValue(papszCreationOptions, "COMPRESS");
4619 8128 : if (pszCompress && EQUAL(pszCompress, "WEBP"))
4620 : {
4621 31 : if (GTiffGetWebPLossless(papszCreationOptions))
4622 : {
4623 6 : AppendMetadataItem(&psRoot, &psTail,
4624 : "COMPRESSION_REVERSIBILITY", "LOSSLESS", 0,
4625 : nullptr, "IMAGE_STRUCTURE");
4626 : }
4627 : else
4628 : {
4629 25 : AppendMetadataItem(
4630 : &psRoot, &psTail, "WEBP_LEVEL",
4631 25 : CPLSPrintf("%d", GTiffGetWebPLevel(papszCreationOptions)),
4632 : 0, nullptr, "IMAGE_STRUCTURE");
4633 : }
4634 : }
4635 8097 : else if (pszCompress && STARTS_WITH_CI(pszCompress, "LERC"))
4636 : {
4637 : const double dfMaxZError =
4638 97 : GTiffGetLERCMaxZError(papszCreationOptions);
4639 : const double dfMaxZErrorOverview =
4640 97 : GTiffGetLERCMaxZErrorOverview(papszCreationOptions);
4641 97 : if (dfMaxZError == 0.0 && dfMaxZErrorOverview == 0.0)
4642 : {
4643 83 : AppendMetadataItem(&psRoot, &psTail,
4644 : "COMPRESSION_REVERSIBILITY", "LOSSLESS", 0,
4645 : nullptr, "IMAGE_STRUCTURE");
4646 : }
4647 : else
4648 : {
4649 14 : AppendMetadataItem(&psRoot, &psTail, "MAX_Z_ERROR",
4650 : CSLFetchNameValueDef(papszCreationOptions,
4651 : "MAX_Z_ERROR", ""),
4652 : 0, nullptr, "IMAGE_STRUCTURE");
4653 14 : if (dfMaxZError != dfMaxZErrorOverview)
4654 : {
4655 3 : AppendMetadataItem(
4656 : &psRoot, &psTail, "MAX_Z_ERROR_OVERVIEW",
4657 : CSLFetchNameValueDef(papszCreationOptions,
4658 : "MAX_Z_ERROR_OVERVIEW", ""),
4659 : 0, nullptr, "IMAGE_STRUCTURE");
4660 : }
4661 97 : }
4662 : }
4663 : #if HAVE_JXL
4664 8000 : else if (pszCompress && EQUAL(pszCompress, "JXL"))
4665 : {
4666 101 : float fDistance = 0.0f;
4667 101 : if (GTiffGetJXLLossless(papszCreationOptions))
4668 : {
4669 82 : AppendMetadataItem(&psRoot, &psTail,
4670 : "COMPRESSION_REVERSIBILITY", "LOSSLESS", 0,
4671 : nullptr, "IMAGE_STRUCTURE");
4672 : }
4673 : else
4674 : {
4675 19 : fDistance = GTiffGetJXLDistance(papszCreationOptions);
4676 19 : AppendMetadataItem(
4677 : &psRoot, &psTail, "JXL_DISTANCE",
4678 : CPLSPrintf("%f", static_cast<double>(fDistance)), 0,
4679 : nullptr, "IMAGE_STRUCTURE");
4680 : }
4681 : const float fAlphaDistance =
4682 101 : GTiffGetJXLAlphaDistance(papszCreationOptions);
4683 101 : if (fAlphaDistance >= 0.0f && fAlphaDistance != fDistance)
4684 : {
4685 2 : AppendMetadataItem(
4686 : &psRoot, &psTail, "JXL_ALPHA_DISTANCE",
4687 : CPLSPrintf("%f", static_cast<double>(fAlphaDistance)), 0,
4688 : nullptr, "IMAGE_STRUCTURE");
4689 : }
4690 101 : AppendMetadataItem(
4691 : &psRoot, &psTail, "JXL_EFFORT",
4692 : CPLSPrintf("%d", GTiffGetJXLEffort(papszCreationOptions)), 0,
4693 : nullptr, "IMAGE_STRUCTURE");
4694 : }
4695 : #endif
4696 : }
4697 :
4698 8133 : if (!CPLTestBool(CPLGetConfigOption("GTIFF_WRITE_RAT_TO_PAM", "NO")))
4699 : {
4700 316191 : for (int nBand = 1; nBand <= poSrcDS->GetRasterCount(); ++nBand)
4701 : {
4702 308061 : GDALRasterAttributeTable *poRAT = nullptr;
4703 308061 : if (poSrcDSGTiff)
4704 : {
4705 302990 : auto poBand = cpl::down_cast<GTiffRasterBand *>(
4706 : poSrcDSGTiff->GetRasterBand(nBand));
4707 : // Scenario of https://github.com/OSGeo/gdal/issues/13930
4708 : // Do not try to fetch the RAT from auxiliary files if creating
4709 : // a new GeoTIFF file
4710 302990 : if (poBand->m_bRATSet)
4711 106 : poRAT = poBand->GetDefaultRAT();
4712 : }
4713 : else
4714 : {
4715 5071 : poRAT = poSrcDS->GetRasterBand(nBand)->GetDefaultRAT();
4716 : }
4717 308061 : if (poRAT)
4718 : {
4719 22 : auto psSerializedRAT = poRAT->Serialize();
4720 22 : if (psSerializedRAT)
4721 : {
4722 21 : AppendMetadataItem(
4723 : &psRoot, &psTail, DEFAULT_RASTER_ATTRIBUTE_TABLE,
4724 : nullptr, psSerializedRAT, nBand, RAT_ROLE, nullptr);
4725 : }
4726 : }
4727 : }
4728 : }
4729 :
4730 : /* -------------------------------------------------------------------- */
4731 : /* Write out the generic XML metadata if there is any. */
4732 : /* -------------------------------------------------------------------- */
4733 8133 : if (psRoot != nullptr)
4734 : {
4735 764 : bool bRet = true;
4736 :
4737 764 : if (eProfile == GTiffProfile::GDALGEOTIFF)
4738 : {
4739 747 : char *pszXML_MD = CPLSerializeXMLTree(psRoot);
4740 747 : TIFFSetField(l_hTIFF, TIFFTAG_GDAL_METADATA, pszXML_MD);
4741 747 : CPLFree(pszXML_MD);
4742 : }
4743 : else
4744 : {
4745 17 : if (bSrcIsGeoTIFF)
4746 11 : cpl::down_cast<GTiffDataset *>(poSrcDS)->PushMetadataToPam();
4747 : else
4748 6 : bRet = false;
4749 : }
4750 :
4751 764 : CPLDestroyXMLNode(psRoot);
4752 :
4753 764 : return bRet;
4754 : }
4755 :
4756 : // If we have no more metadata but it existed before,
4757 : // remove the GDAL_METADATA tag.
4758 7369 : if (eProfile == GTiffProfile::GDALGEOTIFF)
4759 : {
4760 7345 : char *pszText = nullptr;
4761 7345 : if (TIFFGetField(l_hTIFF, TIFFTAG_GDAL_METADATA, &pszText))
4762 : {
4763 7 : TIFFUnsetField(l_hTIFF, TIFFTAG_GDAL_METADATA);
4764 : }
4765 : }
4766 :
4767 7369 : return true;
4768 : }
4769 :
4770 : /************************************************************************/
4771 : /* PushMetadataToPam() */
4772 : /* */
4773 : /* When producing a strict profile TIFF or if our aggregate */
4774 : /* metadata is too big for a single tiff tag we may end up */
4775 : /* needing to write it via the PAM mechanisms. This method */
4776 : /* copies all the appropriate metadata into the PAM level */
4777 : /* metadata object but with special care to avoid copying */
4778 : /* metadata handled in other ways in TIFF format. */
4779 : /************************************************************************/
4780 :
4781 17 : void GTiffDataset::PushMetadataToPam()
4782 :
4783 : {
4784 17 : if (GetPamFlags() & GPF_DISABLED)
4785 0 : return;
4786 :
4787 17 : const bool bStandardColorInterp = GTIFFIsStandardColorInterpretation(
4788 17 : GDALDataset::ToHandle(this), m_nPhotometric, m_papszCreationOptions);
4789 :
4790 55 : for (int nBand = 0; nBand <= GetRasterCount(); ++nBand)
4791 : {
4792 38 : GDALMultiDomainMetadata *poSrcMDMD = nullptr;
4793 38 : GTiffRasterBand *poBand = nullptr;
4794 :
4795 38 : if (nBand == 0)
4796 : {
4797 17 : poSrcMDMD = &(this->m_oGTiffMDMD);
4798 : }
4799 : else
4800 : {
4801 21 : poBand = cpl::down_cast<GTiffRasterBand *>(GetRasterBand(nBand));
4802 21 : poSrcMDMD = &(poBand->m_oGTiffMDMD);
4803 : }
4804 :
4805 : /* --------------------------------------------------------------------
4806 : */
4807 : /* Loop over the available domains. */
4808 : /* --------------------------------------------------------------------
4809 : */
4810 38 : CSLConstList papszDomainList = poSrcMDMD->GetDomainList();
4811 74 : for (int iDomain = 0; papszDomainList && papszDomainList[iDomain];
4812 : ++iDomain)
4813 : {
4814 36 : char **papszMD = poSrcMDMD->GetMetadata(papszDomainList[iDomain]);
4815 :
4816 36 : if (EQUAL(papszDomainList[iDomain], MD_DOMAIN_RPC) ||
4817 36 : EQUAL(papszDomainList[iDomain], MD_DOMAIN_IMD) ||
4818 36 : EQUAL(papszDomainList[iDomain], "_temporary_") ||
4819 36 : EQUAL(papszDomainList[iDomain], "IMAGE_STRUCTURE") ||
4820 19 : EQUAL(papszDomainList[iDomain], "COLOR_PROFILE"))
4821 17 : continue;
4822 :
4823 19 : papszMD = CSLDuplicate(papszMD);
4824 :
4825 69 : for (int i = CSLCount(papszMD) - 1; i >= 0; --i)
4826 : {
4827 50 : if (STARTS_WITH_CI(papszMD[i], "TIFFTAG_") ||
4828 50 : EQUALN(papszMD[i], GDALMD_AREA_OR_POINT,
4829 : strlen(GDALMD_AREA_OR_POINT)))
4830 4 : papszMD = CSLRemoveStrings(papszMD, i, 1, nullptr);
4831 : }
4832 :
4833 19 : if (!poBand)
4834 10 : GDALPamDataset::SetMetadata(papszMD, papszDomainList[iDomain]);
4835 : else
4836 9 : poBand->GDALPamRasterBand::SetMetadata(
4837 9 : papszMD, papszDomainList[iDomain]);
4838 :
4839 19 : CSLDestroy(papszMD);
4840 : }
4841 :
4842 : /* --------------------------------------------------------------------
4843 : */
4844 : /* Handle some "special domain" stuff. */
4845 : /* --------------------------------------------------------------------
4846 : */
4847 38 : if (poBand != nullptr)
4848 : {
4849 21 : poBand->GDALPamRasterBand::SetOffset(poBand->GetOffset());
4850 21 : poBand->GDALPamRasterBand::SetScale(poBand->GetScale());
4851 21 : poBand->GDALPamRasterBand::SetUnitType(poBand->GetUnitType());
4852 21 : poBand->GDALPamRasterBand::SetDescription(poBand->GetDescription());
4853 21 : if (!bStandardColorInterp)
4854 : {
4855 3 : poBand->GDALPamRasterBand::SetColorInterpretation(
4856 3 : poBand->GetColorInterpretation());
4857 : }
4858 : }
4859 : }
4860 17 : MarkPamDirty();
4861 : }
4862 :
4863 : /************************************************************************/
4864 : /* WriteNoDataValue() */
4865 : /************************************************************************/
4866 :
4867 522 : void GTiffDataset::WriteNoDataValue(TIFF *hTIFF, double dfNoData)
4868 :
4869 : {
4870 1044 : CPLString osVal(GTiffFormatGDALNoDataTagValue(dfNoData));
4871 522 : TIFFSetField(hTIFF, TIFFTAG_GDAL_NODATA, osVal.c_str());
4872 522 : }
4873 :
4874 5 : void GTiffDataset::WriteNoDataValue(TIFF *hTIFF, int64_t nNoData)
4875 :
4876 : {
4877 5 : TIFFSetField(hTIFF, TIFFTAG_GDAL_NODATA,
4878 : CPLSPrintf(CPL_FRMT_GIB, static_cast<GIntBig>(nNoData)));
4879 5 : }
4880 :
4881 5 : void GTiffDataset::WriteNoDataValue(TIFF *hTIFF, uint64_t nNoData)
4882 :
4883 : {
4884 5 : TIFFSetField(hTIFF, TIFFTAG_GDAL_NODATA,
4885 : CPLSPrintf(CPL_FRMT_GUIB, static_cast<GUIntBig>(nNoData)));
4886 5 : }
4887 :
4888 : /************************************************************************/
4889 : /* UnsetNoDataValue() */
4890 : /************************************************************************/
4891 :
4892 16 : void GTiffDataset::UnsetNoDataValue(TIFF *l_hTIFF)
4893 :
4894 : {
4895 16 : TIFFUnsetField(l_hTIFF, TIFFTAG_GDAL_NODATA);
4896 16 : }
4897 :
4898 : /************************************************************************/
4899 : /* SaveICCProfile() */
4900 : /* */
4901 : /* Save ICC Profile or colorimetric data into file */
4902 : /* pDS: */
4903 : /* Dataset that contains the metadata with the ICC or colorimetric */
4904 : /* data. If this argument is specified, all other arguments are */
4905 : /* ignored. Set them to NULL or 0. */
4906 : /* hTIFF: */
4907 : /* Pointer to TIFF handle. Only needed if pDS is NULL or */
4908 : /* pDS->m_hTIFF is NULL. */
4909 : /* papszParamList: */
4910 : /* Options containing the ICC profile or colorimetric metadata. */
4911 : /* Ignored if pDS is not NULL. */
4912 : /* nBitsPerSample: */
4913 : /* Bits per sample. Ignored if pDS is not NULL. */
4914 : /************************************************************************/
4915 :
4916 9878 : void GTiffDataset::SaveICCProfile(GTiffDataset *pDS, TIFF *l_hTIFF,
4917 : CSLConstList papszParamList,
4918 : uint32_t l_nBitsPerSample)
4919 : {
4920 9878 : if ((pDS != nullptr) && (pDS->eAccess != GA_Update))
4921 0 : return;
4922 :
4923 9878 : if (l_hTIFF == nullptr)
4924 : {
4925 2 : if (pDS == nullptr)
4926 0 : return;
4927 :
4928 2 : l_hTIFF = pDS->m_hTIFF;
4929 2 : if (l_hTIFF == nullptr)
4930 0 : return;
4931 : }
4932 :
4933 9878 : if ((papszParamList == nullptr) && (pDS == nullptr))
4934 4905 : return;
4935 :
4936 : const char *pszICCProfile =
4937 : (pDS != nullptr)
4938 4973 : ? pDS->GetMetadataItem("SOURCE_ICC_PROFILE", "COLOR_PROFILE")
4939 4971 : : CSLFetchNameValue(papszParamList, "SOURCE_ICC_PROFILE");
4940 4973 : if (pszICCProfile != nullptr)
4941 : {
4942 8 : char *pEmbedBuffer = CPLStrdup(pszICCProfile);
4943 : int32_t nEmbedLen =
4944 8 : CPLBase64DecodeInPlace(reinterpret_cast<GByte *>(pEmbedBuffer));
4945 :
4946 8 : TIFFSetField(l_hTIFF, TIFFTAG_ICCPROFILE, nEmbedLen, pEmbedBuffer);
4947 :
4948 8 : CPLFree(pEmbedBuffer);
4949 : }
4950 : else
4951 : {
4952 : // Output colorimetric data.
4953 4965 : float pCHR[6] = {}; // Primaries.
4954 4965 : uint16_t pTXR[6] = {}; // Transfer range.
4955 4965 : const char *pszCHRNames[] = {"SOURCE_PRIMARIES_RED",
4956 : "SOURCE_PRIMARIES_GREEN",
4957 : "SOURCE_PRIMARIES_BLUE"};
4958 4965 : const char *pszTXRNames[] = {"TIFFTAG_TRANSFERRANGE_BLACK",
4959 : "TIFFTAG_TRANSFERRANGE_WHITE"};
4960 :
4961 : // Output chromacities.
4962 4965 : bool bOutputCHR = true;
4963 4980 : for (int i = 0; i < 3 && bOutputCHR; ++i)
4964 : {
4965 : const char *pszColorProfile =
4966 : (pDS != nullptr)
4967 4975 : ? pDS->GetMetadataItem(pszCHRNames[i], "COLOR_PROFILE")
4968 4972 : : CSLFetchNameValue(papszParamList, pszCHRNames[i]);
4969 4975 : if (pszColorProfile == nullptr)
4970 : {
4971 4960 : bOutputCHR = false;
4972 4960 : break;
4973 : }
4974 :
4975 : const CPLStringList aosTokens(CSLTokenizeString2(
4976 : pszColorProfile, ",",
4977 : CSLT_ALLOWEMPTYTOKENS | CSLT_STRIPLEADSPACES |
4978 15 : CSLT_STRIPENDSPACES));
4979 :
4980 15 : if (aosTokens.size() != 3)
4981 : {
4982 0 : bOutputCHR = false;
4983 0 : break;
4984 : }
4985 :
4986 60 : for (int j = 0; j < 3; ++j)
4987 : {
4988 45 : float v = static_cast<float>(CPLAtof(aosTokens[j]));
4989 :
4990 45 : if (j == 2)
4991 : {
4992 : // Last term of xyY color must be 1.0.
4993 15 : if (v != 1.0f)
4994 : {
4995 0 : bOutputCHR = false;
4996 0 : break;
4997 : }
4998 : }
4999 : else
5000 : {
5001 30 : pCHR[i * 2 + j] = v;
5002 : }
5003 : }
5004 : }
5005 :
5006 4965 : if (bOutputCHR)
5007 : {
5008 5 : TIFFSetField(l_hTIFF, TIFFTAG_PRIMARYCHROMATICITIES, pCHR);
5009 : }
5010 :
5011 : // Output whitepoint.
5012 : const char *pszSourceWhitePoint =
5013 : (pDS != nullptr)
5014 4965 : ? pDS->GetMetadataItem("SOURCE_WHITEPOINT", "COLOR_PROFILE")
5015 4964 : : CSLFetchNameValue(papszParamList, "SOURCE_WHITEPOINT");
5016 4965 : if (pszSourceWhitePoint != nullptr)
5017 : {
5018 : const CPLStringList aosTokens(CSLTokenizeString2(
5019 : pszSourceWhitePoint, ",",
5020 : CSLT_ALLOWEMPTYTOKENS | CSLT_STRIPLEADSPACES |
5021 10 : CSLT_STRIPENDSPACES));
5022 :
5023 5 : bool bOutputWhitepoint = true;
5024 5 : float pWP[2] = {0.0f, 0.0f}; // Whitepoint
5025 5 : if (aosTokens.size() != 3)
5026 : {
5027 0 : bOutputWhitepoint = false;
5028 : }
5029 : else
5030 : {
5031 20 : for (int j = 0; j < 3; ++j)
5032 : {
5033 15 : const float v = static_cast<float>(CPLAtof(aosTokens[j]));
5034 :
5035 15 : if (j == 2)
5036 : {
5037 : // Last term of xyY color must be 1.0.
5038 5 : if (v != 1.0f)
5039 : {
5040 0 : bOutputWhitepoint = false;
5041 0 : break;
5042 : }
5043 : }
5044 : else
5045 : {
5046 10 : pWP[j] = v;
5047 : }
5048 : }
5049 : }
5050 :
5051 5 : if (bOutputWhitepoint)
5052 : {
5053 5 : TIFFSetField(l_hTIFF, TIFFTAG_WHITEPOINT, pWP);
5054 : }
5055 : }
5056 :
5057 : // Set transfer function metadata.
5058 : char const *pszTFRed =
5059 : (pDS != nullptr)
5060 4965 : ? pDS->GetMetadataItem("TIFFTAG_TRANSFERFUNCTION_RED",
5061 : "COLOR_PROFILE")
5062 4964 : : CSLFetchNameValue(papszParamList,
5063 4965 : "TIFFTAG_TRANSFERFUNCTION_RED");
5064 :
5065 : char const *pszTFGreen =
5066 : (pDS != nullptr)
5067 4965 : ? pDS->GetMetadataItem("TIFFTAG_TRANSFERFUNCTION_GREEN",
5068 : "COLOR_PROFILE")
5069 4964 : : CSLFetchNameValue(papszParamList,
5070 4965 : "TIFFTAG_TRANSFERFUNCTION_GREEN");
5071 :
5072 : char const *pszTFBlue =
5073 : (pDS != nullptr)
5074 4965 : ? pDS->GetMetadataItem("TIFFTAG_TRANSFERFUNCTION_BLUE",
5075 : "COLOR_PROFILE")
5076 4964 : : CSLFetchNameValue(papszParamList,
5077 4965 : "TIFFTAG_TRANSFERFUNCTION_BLUE");
5078 :
5079 4965 : if ((pszTFRed != nullptr) && (pszTFGreen != nullptr) &&
5080 : (pszTFBlue != nullptr))
5081 : {
5082 : // Get length of table.
5083 4 : const int nTransferFunctionLength =
5084 4 : 1 << ((pDS != nullptr) ? pDS->m_nBitsPerSample
5085 : : l_nBitsPerSample);
5086 :
5087 : const CPLStringList aosTokensRed(CSLTokenizeString2(
5088 : pszTFRed, ",",
5089 : CSLT_ALLOWEMPTYTOKENS | CSLT_STRIPLEADSPACES |
5090 8 : CSLT_STRIPENDSPACES));
5091 : const CPLStringList aosTokensGreen(CSLTokenizeString2(
5092 : pszTFGreen, ",",
5093 : CSLT_ALLOWEMPTYTOKENS | CSLT_STRIPLEADSPACES |
5094 8 : CSLT_STRIPENDSPACES));
5095 : const CPLStringList aosTokensBlue(CSLTokenizeString2(
5096 : pszTFBlue, ",",
5097 : CSLT_ALLOWEMPTYTOKENS | CSLT_STRIPLEADSPACES |
5098 8 : CSLT_STRIPENDSPACES));
5099 :
5100 4 : if ((aosTokensRed.size() == nTransferFunctionLength) &&
5101 8 : (aosTokensGreen.size() == nTransferFunctionLength) &&
5102 4 : (aosTokensBlue.size() == nTransferFunctionLength))
5103 : {
5104 : std::vector<uint16_t> anTransferFuncRed(
5105 8 : nTransferFunctionLength);
5106 : std::vector<uint16_t> anTransferFuncGreen(
5107 8 : nTransferFunctionLength);
5108 : std::vector<uint16_t> anTransferFuncBlue(
5109 8 : nTransferFunctionLength);
5110 :
5111 : // Convert our table in string format into int16_t format.
5112 1028 : for (int i = 0; i < nTransferFunctionLength; ++i)
5113 : {
5114 2048 : anTransferFuncRed[i] =
5115 1024 : static_cast<uint16_t>(atoi(aosTokensRed[i]));
5116 2048 : anTransferFuncGreen[i] =
5117 1024 : static_cast<uint16_t>(atoi(aosTokensGreen[i]));
5118 1024 : anTransferFuncBlue[i] =
5119 1024 : static_cast<uint16_t>(atoi(aosTokensBlue[i]));
5120 : }
5121 :
5122 4 : TIFFSetField(
5123 : l_hTIFF, TIFFTAG_TRANSFERFUNCTION, anTransferFuncRed.data(),
5124 : anTransferFuncGreen.data(), anTransferFuncBlue.data());
5125 : }
5126 : }
5127 :
5128 : // Output transfer range.
5129 4965 : bool bOutputTransferRange = true;
5130 4965 : for (int i = 0; (i < 2) && bOutputTransferRange; ++i)
5131 : {
5132 : const char *pszTXRVal =
5133 : (pDS != nullptr)
5134 4965 : ? pDS->GetMetadataItem(pszTXRNames[i], "COLOR_PROFILE")
5135 4964 : : CSLFetchNameValue(papszParamList, pszTXRNames[i]);
5136 4965 : if (pszTXRVal == nullptr)
5137 : {
5138 4965 : bOutputTransferRange = false;
5139 4965 : break;
5140 : }
5141 :
5142 : const CPLStringList aosTokens(CSLTokenizeString2(
5143 : pszTXRVal, ",",
5144 : CSLT_ALLOWEMPTYTOKENS | CSLT_STRIPLEADSPACES |
5145 0 : CSLT_STRIPENDSPACES));
5146 :
5147 0 : if (aosTokens.size() != 3)
5148 : {
5149 0 : bOutputTransferRange = false;
5150 0 : break;
5151 : }
5152 :
5153 0 : for (int j = 0; j < 3; ++j)
5154 : {
5155 0 : pTXR[i + j * 2] = static_cast<uint16_t>(atoi(aosTokens[j]));
5156 : }
5157 : }
5158 :
5159 4965 : if (bOutputTransferRange)
5160 : {
5161 0 : const int TIFFTAG_TRANSFERRANGE = 0x0156;
5162 0 : TIFFSetField(l_hTIFF, TIFFTAG_TRANSFERRANGE, pTXR);
5163 : }
5164 : }
5165 : }
5166 :
5167 17851 : static signed char GTiffGetLZMAPreset(CSLConstList papszOptions)
5168 : {
5169 17851 : int nLZMAPreset = -1;
5170 17851 : const char *pszValue = CSLFetchNameValue(papszOptions, "LZMA_PRESET");
5171 17851 : if (pszValue != nullptr)
5172 : {
5173 20 : nLZMAPreset = atoi(pszValue);
5174 20 : if (!(nLZMAPreset >= 0 && nLZMAPreset <= 9))
5175 : {
5176 0 : CPLError(CE_Warning, CPLE_IllegalArg,
5177 : "LZMA_PRESET=%s value not recognised, ignoring.",
5178 : pszValue);
5179 0 : nLZMAPreset = -1;
5180 : }
5181 : }
5182 17851 : return static_cast<signed char>(nLZMAPreset);
5183 : }
5184 :
5185 17851 : static signed char GTiffGetZSTDPreset(CSLConstList papszOptions)
5186 : {
5187 17851 : int nZSTDLevel = -1;
5188 17851 : const char *pszValue = CSLFetchNameValue(papszOptions, "ZSTD_LEVEL");
5189 17851 : if (pszValue != nullptr)
5190 : {
5191 24 : nZSTDLevel = atoi(pszValue);
5192 24 : if (!(nZSTDLevel >= 1 && nZSTDLevel <= 22))
5193 : {
5194 0 : CPLError(CE_Warning, CPLE_IllegalArg,
5195 : "ZSTD_LEVEL=%s value not recognised, ignoring.", pszValue);
5196 0 : nZSTDLevel = -1;
5197 : }
5198 : }
5199 17851 : return static_cast<signed char>(nZSTDLevel);
5200 : }
5201 :
5202 17851 : static signed char GTiffGetZLevel(CSLConstList papszOptions)
5203 : {
5204 17851 : int nZLevel = -1;
5205 17851 : const char *pszValue = CSLFetchNameValue(papszOptions, "ZLEVEL");
5206 17851 : if (pszValue != nullptr)
5207 : {
5208 44 : nZLevel = atoi(pszValue);
5209 : #ifdef TIFFTAG_DEFLATE_SUBCODEC
5210 44 : constexpr int nMaxLevel = 12;
5211 : #ifndef LIBDEFLATE_SUPPORT
5212 : if (nZLevel > 9 && nZLevel <= nMaxLevel)
5213 : {
5214 : CPLDebug("GTiff",
5215 : "ZLEVEL=%d not supported in a non-libdeflate enabled "
5216 : "libtiff build. Capping to 9",
5217 : nZLevel);
5218 : nZLevel = 9;
5219 : }
5220 : #endif
5221 : #else
5222 : constexpr int nMaxLevel = 9;
5223 : #endif
5224 44 : if (nZLevel < 1 || nZLevel > nMaxLevel)
5225 : {
5226 0 : CPLError(CE_Warning, CPLE_IllegalArg,
5227 : "ZLEVEL=%s value not recognised, ignoring.", pszValue);
5228 0 : nZLevel = -1;
5229 : }
5230 : }
5231 17851 : return static_cast<signed char>(nZLevel);
5232 : }
5233 :
5234 17851 : static signed char GTiffGetJpegQuality(CSLConstList papszOptions)
5235 : {
5236 17851 : int nJpegQuality = -1;
5237 17851 : const char *pszValue = CSLFetchNameValue(papszOptions, "JPEG_QUALITY");
5238 17851 : if (pszValue != nullptr)
5239 : {
5240 1939 : nJpegQuality = atoi(pszValue);
5241 1939 : if (nJpegQuality < 1 || nJpegQuality > 100)
5242 : {
5243 0 : CPLError(CE_Warning, CPLE_IllegalArg,
5244 : "JPEG_QUALITY=%s value not recognised, ignoring.",
5245 : pszValue);
5246 0 : nJpegQuality = -1;
5247 : }
5248 : }
5249 17851 : return static_cast<signed char>(nJpegQuality);
5250 : }
5251 :
5252 17851 : static signed char GTiffGetJpegTablesMode(CSLConstList papszOptions)
5253 : {
5254 17851 : return static_cast<signed char>(atoi(
5255 : CSLFetchNameValueDef(papszOptions, "JPEGTABLESMODE",
5256 17851 : CPLSPrintf("%d", knGTIFFJpegTablesModeDefault))));
5257 : }
5258 :
5259 : /************************************************************************/
5260 : /* GetDiscardLsbOption() */
5261 : /************************************************************************/
5262 :
5263 7914 : static GTiffDataset::MaskOffset *GetDiscardLsbOption(TIFF *hTIFF,
5264 : CSLConstList papszOptions)
5265 : {
5266 7914 : const char *pszBits = CSLFetchNameValue(papszOptions, "DISCARD_LSB");
5267 7914 : if (pszBits == nullptr)
5268 7792 : return nullptr;
5269 :
5270 122 : uint16_t nPhotometric = 0;
5271 122 : TIFFGetFieldDefaulted(hTIFF, TIFFTAG_PHOTOMETRIC, &nPhotometric);
5272 :
5273 122 : uint16_t nBitsPerSample = 0;
5274 122 : if (!TIFFGetField(hTIFF, TIFFTAG_BITSPERSAMPLE, &nBitsPerSample))
5275 0 : nBitsPerSample = 1;
5276 :
5277 122 : uint16_t nSamplesPerPixel = 0;
5278 122 : if (!TIFFGetField(hTIFF, TIFFTAG_SAMPLESPERPIXEL, &nSamplesPerPixel))
5279 0 : nSamplesPerPixel = 1;
5280 :
5281 122 : uint16_t nSampleFormat = 0;
5282 122 : if (!TIFFGetField(hTIFF, TIFFTAG_SAMPLEFORMAT, &nSampleFormat))
5283 0 : nSampleFormat = SAMPLEFORMAT_UINT;
5284 :
5285 122 : if (nPhotometric == PHOTOMETRIC_PALETTE)
5286 : {
5287 1 : CPLError(CE_Warning, CPLE_AppDefined,
5288 : "DISCARD_LSB ignored on a paletted image");
5289 1 : return nullptr;
5290 : }
5291 121 : if (!(nBitsPerSample == 8 || nBitsPerSample == 16 || nBitsPerSample == 32 ||
5292 13 : nBitsPerSample == 64))
5293 : {
5294 1 : CPLError(CE_Warning, CPLE_AppDefined,
5295 : "DISCARD_LSB ignored on non 8, 16, 32 or 64 bits images");
5296 1 : return nullptr;
5297 : }
5298 :
5299 240 : const CPLStringList aosTokens(CSLTokenizeString2(pszBits, ",", 0));
5300 120 : const int nTokens = aosTokens.size();
5301 120 : GTiffDataset::MaskOffset *panMaskOffsetLsb = nullptr;
5302 120 : if (nTokens == 1 || nTokens == nSamplesPerPixel)
5303 : {
5304 : panMaskOffsetLsb = static_cast<GTiffDataset::MaskOffset *>(
5305 119 : CPLCalloc(nSamplesPerPixel, sizeof(GTiffDataset::MaskOffset)));
5306 374 : for (int i = 0; i < nSamplesPerPixel; ++i)
5307 : {
5308 255 : const int nBits = atoi(aosTokens[nTokens == 1 ? 0 : i]);
5309 510 : const int nMaxBits = (nSampleFormat == SAMPLEFORMAT_IEEEFP)
5310 510 : ? ((nBitsPerSample == 16) ? 11 - 1
5311 78 : : (nBitsPerSample == 32) ? 23 - 1
5312 26 : : (nBitsPerSample == 64) ? 53 - 1
5313 : : 0)
5314 203 : : nSampleFormat == SAMPLEFORMAT_INT
5315 203 : ? nBitsPerSample - 2
5316 119 : : nBitsPerSample - 1;
5317 :
5318 255 : if (nBits < 0 || nBits > nMaxBits)
5319 : {
5320 0 : CPLError(
5321 : CE_Warning, CPLE_AppDefined,
5322 : "DISCARD_LSB ignored: values should be in [0,%d] range",
5323 : nMaxBits);
5324 0 : VSIFree(panMaskOffsetLsb);
5325 0 : return nullptr;
5326 : }
5327 255 : panMaskOffsetLsb[i].nMask =
5328 255 : ~((static_cast<uint64_t>(1) << nBits) - 1);
5329 255 : if (nBits > 1)
5330 : {
5331 249 : panMaskOffsetLsb[i].nRoundUpBitTest = static_cast<uint64_t>(1)
5332 249 : << (nBits - 1);
5333 : }
5334 119 : }
5335 : }
5336 : else
5337 : {
5338 1 : CPLError(CE_Warning, CPLE_AppDefined,
5339 : "DISCARD_LSB ignored: wrong number of components");
5340 : }
5341 120 : return panMaskOffsetLsb;
5342 : }
5343 :
5344 7914 : void GTiffDataset::GetDiscardLsbOption(CSLConstList papszOptions)
5345 : {
5346 7914 : m_panMaskOffsetLsb = ::GetDiscardLsbOption(m_hTIFF, papszOptions);
5347 7914 : }
5348 :
5349 : /************************************************************************/
5350 : /* GetProfile() */
5351 : /************************************************************************/
5352 :
5353 17902 : static GTiffProfile GetProfile(const char *pszProfile)
5354 : {
5355 17902 : GTiffProfile eProfile = GTiffProfile::GDALGEOTIFF;
5356 17902 : if (pszProfile != nullptr)
5357 : {
5358 70 : if (EQUAL(pszProfile, szPROFILE_BASELINE))
5359 50 : eProfile = GTiffProfile::BASELINE;
5360 20 : else if (EQUAL(pszProfile, szPROFILE_GeoTIFF))
5361 18 : eProfile = GTiffProfile::GEOTIFF;
5362 2 : else if (!EQUAL(pszProfile, szPROFILE_GDALGeoTIFF))
5363 : {
5364 0 : CPLError(CE_Warning, CPLE_NotSupported,
5365 : "Unsupported value for PROFILE: %s", pszProfile);
5366 : }
5367 : }
5368 17902 : return eProfile;
5369 : }
5370 :
5371 : /************************************************************************/
5372 : /* GTiffCreate() */
5373 : /* */
5374 : /* Shared functionality between GTiffDataset::Create() and */
5375 : /* GTiffCreateCopy() for creating TIFF file based on a set of */
5376 : /* options and a configuration. */
5377 : /************************************************************************/
5378 :
5379 9957 : TIFF *GTiffDataset::CreateLL(const char *pszFilename, int nXSize, int nYSize,
5380 : int l_nBands, GDALDataType eType,
5381 : double dfExtraSpaceForOverviews,
5382 : int nColorTableMultiplier,
5383 : CSLConstList papszParamList, VSILFILE **pfpL,
5384 : CPLString &l_osTmpFilename, bool bCreateCopy,
5385 : bool &bTileInterleavingOut)
5386 :
5387 : {
5388 9957 : bTileInterleavingOut = false;
5389 :
5390 9957 : GTiffOneTimeInit();
5391 :
5392 : /* -------------------------------------------------------------------- */
5393 : /* Blow on a few errors. */
5394 : /* -------------------------------------------------------------------- */
5395 9957 : if (nXSize < 1 || nYSize < 1 || l_nBands < 1)
5396 : {
5397 2 : ReportError(
5398 : pszFilename, CE_Failure, CPLE_AppDefined,
5399 : "Attempt to create %dx%dx%d TIFF file, but width, height and bands "
5400 : "must be positive.",
5401 : nXSize, nYSize, l_nBands);
5402 :
5403 2 : return nullptr;
5404 : }
5405 :
5406 9955 : if (l_nBands > 65535)
5407 : {
5408 1 : ReportError(pszFilename, CE_Failure, CPLE_AppDefined,
5409 : "Attempt to create %dx%dx%d TIFF file, but bands "
5410 : "must be lesser or equal to 65535.",
5411 : nXSize, nYSize, l_nBands);
5412 :
5413 1 : return nullptr;
5414 : }
5415 :
5416 : /* -------------------------------------------------------------------- */
5417 : /* Setup values based on options. */
5418 : /* -------------------------------------------------------------------- */
5419 : const GTiffProfile eProfile =
5420 9954 : GetProfile(CSLFetchNameValue(papszParamList, "PROFILE"));
5421 :
5422 9954 : const bool bTiled = CPLFetchBool(papszParamList, "TILED", false);
5423 :
5424 9954 : int l_nBlockXSize = 0;
5425 9954 : if (const char *pszValue = CSLFetchNameValue(papszParamList, "BLOCKXSIZE"))
5426 : {
5427 473 : l_nBlockXSize = atoi(pszValue);
5428 473 : if (l_nBlockXSize < 0)
5429 : {
5430 0 : ReportError(pszFilename, CE_Failure, CPLE_IllegalArg,
5431 : "Invalid value for BLOCKXSIZE");
5432 0 : return nullptr;
5433 : }
5434 473 : if (!bTiled)
5435 : {
5436 9 : ReportError(pszFilename, CE_Warning, CPLE_IllegalArg,
5437 : "BLOCKXSIZE can only be used with TILED=YES");
5438 : }
5439 464 : else if (l_nBlockXSize % 16 != 0)
5440 : {
5441 1 : ReportError(pszFilename, CE_Failure, CPLE_IllegalArg,
5442 : "BLOCKXSIZE must be a multiple of 16");
5443 1 : return nullptr;
5444 : }
5445 : }
5446 :
5447 9953 : int l_nBlockYSize = 0;
5448 9953 : if (const char *pszValue = CSLFetchNameValue(papszParamList, "BLOCKYSIZE"))
5449 : {
5450 2584 : l_nBlockYSize = atoi(pszValue);
5451 2584 : if (l_nBlockYSize < 0)
5452 : {
5453 0 : ReportError(pszFilename, CE_Failure, CPLE_IllegalArg,
5454 : "Invalid value for BLOCKYSIZE");
5455 0 : return nullptr;
5456 : }
5457 2584 : if (bTiled && (l_nBlockYSize % 16 != 0))
5458 : {
5459 2 : ReportError(pszFilename, CE_Failure, CPLE_IllegalArg,
5460 : "BLOCKYSIZE must be a multiple of 16");
5461 2 : return nullptr;
5462 : }
5463 : }
5464 :
5465 9951 : if (bTiled)
5466 : {
5467 815 : if (l_nBlockXSize == 0)
5468 353 : l_nBlockXSize = 256;
5469 :
5470 815 : if (l_nBlockYSize == 0)
5471 353 : l_nBlockYSize = 256;
5472 : }
5473 :
5474 9951 : int nPlanar = 0;
5475 :
5476 : // Hidden @TILE_INTERLEAVE=YES parameter used by the COG driver
5477 9951 : if (bCreateCopy && CPLTestBool(CSLFetchNameValueDef(
5478 : papszParamList, "@TILE_INTERLEAVE", "NO")))
5479 : {
5480 7 : bTileInterleavingOut = true;
5481 7 : nPlanar = PLANARCONFIG_SEPARATE;
5482 : }
5483 : else
5484 : {
5485 9944 : if (const char *pszValue =
5486 9944 : CSLFetchNameValue(papszParamList, "INTERLEAVE"))
5487 : {
5488 1581 : if (EQUAL(pszValue, "PIXEL"))
5489 : {
5490 409 : nPlanar = PLANARCONFIG_CONTIG;
5491 : }
5492 1172 : else if (EQUAL(pszValue, "BAND"))
5493 : {
5494 1171 : nPlanar = PLANARCONFIG_SEPARATE;
5495 : }
5496 : else
5497 : {
5498 1 : ReportError(
5499 : pszFilename, CE_Failure, CPLE_IllegalArg,
5500 : "INTERLEAVE=%s unsupported, value must be PIXEL or BAND.",
5501 : pszValue);
5502 1 : return nullptr;
5503 : }
5504 : }
5505 : else
5506 : {
5507 8363 : nPlanar = PLANARCONFIG_CONTIG;
5508 : }
5509 : }
5510 :
5511 9950 : int l_nCompression = COMPRESSION_NONE;
5512 9950 : if (const char *pszValue = CSLFetchNameValue(papszParamList, "COMPRESS"))
5513 : {
5514 3354 : l_nCompression = GTIFFGetCompressionMethod(pszValue, "COMPRESS");
5515 3354 : if (l_nCompression < 0)
5516 0 : return nullptr;
5517 : }
5518 :
5519 9950 : constexpr int JPEG_MAX_DIMENSION = 65500; // Defined in jpeglib.h
5520 9950 : constexpr int WEBP_MAX_DIMENSION = 16383;
5521 :
5522 : const struct
5523 : {
5524 : int nCodecID;
5525 : const char *pszCodecName;
5526 : int nMaxDim;
5527 9950 : } asLimitations[] = {
5528 : {COMPRESSION_JPEG, "JPEG", JPEG_MAX_DIMENSION},
5529 : {COMPRESSION_WEBP, "WEBP", WEBP_MAX_DIMENSION},
5530 : };
5531 :
5532 29838 : for (const auto &sLimitation : asLimitations)
5533 : {
5534 19896 : if (l_nCompression == sLimitation.nCodecID && !bTiled &&
5535 2074 : nXSize > sLimitation.nMaxDim)
5536 : {
5537 2 : ReportError(
5538 : pszFilename, CE_Failure, CPLE_IllegalArg,
5539 : "COMPRESS=%s is only compatible of un-tiled images whose "
5540 : "width is lesser or equal to %d pixels. "
5541 : "To overcome this limitation, set the TILED=YES creation "
5542 : "option.",
5543 2 : sLimitation.pszCodecName, sLimitation.nMaxDim);
5544 2 : return nullptr;
5545 : }
5546 19894 : else if (l_nCompression == sLimitation.nCodecID && bTiled &&
5547 52 : l_nBlockXSize > sLimitation.nMaxDim)
5548 : {
5549 2 : ReportError(pszFilename, CE_Failure, CPLE_IllegalArg,
5550 : "COMPRESS=%s is only compatible of tiled images whose "
5551 : "BLOCKXSIZE is lesser or equal to %d pixels.",
5552 2 : sLimitation.pszCodecName, sLimitation.nMaxDim);
5553 2 : return nullptr;
5554 : }
5555 19892 : else if (l_nCompression == sLimitation.nCodecID &&
5556 2122 : l_nBlockYSize > sLimitation.nMaxDim)
5557 : {
5558 4 : ReportError(pszFilename, CE_Failure, CPLE_IllegalArg,
5559 : "COMPRESS=%s is only compatible of images whose "
5560 : "BLOCKYSIZE is lesser or equal to %d pixels. "
5561 : "To overcome this limitation, set the TILED=YES "
5562 : "creation option",
5563 4 : sLimitation.pszCodecName, sLimitation.nMaxDim);
5564 4 : return nullptr;
5565 : }
5566 : }
5567 :
5568 : /* -------------------------------------------------------------------- */
5569 : /* How many bits per sample? We have a special case if NBITS */
5570 : /* specified for GDT_UInt8, GDT_UInt16, GDT_UInt32. */
5571 : /* -------------------------------------------------------------------- */
5572 9942 : int l_nBitsPerSample = GDALGetDataTypeSizeBits(eType);
5573 9942 : if (CSLFetchNameValue(papszParamList, "NBITS") != nullptr)
5574 : {
5575 1758 : int nMinBits = 0;
5576 1758 : int nMaxBits = 0;
5577 1758 : l_nBitsPerSample = atoi(CSLFetchNameValue(papszParamList, "NBITS"));
5578 1758 : if (eType == GDT_UInt8)
5579 : {
5580 527 : nMinBits = 1;
5581 527 : nMaxBits = 8;
5582 : }
5583 1231 : else if (eType == GDT_UInt16)
5584 : {
5585 1213 : nMinBits = 9;
5586 1213 : nMaxBits = 16;
5587 : }
5588 18 : else if (eType == GDT_UInt32)
5589 : {
5590 14 : nMinBits = 17;
5591 14 : nMaxBits = 32;
5592 : }
5593 4 : else if (eType == GDT_Float32)
5594 : {
5595 4 : if (l_nBitsPerSample != 16 && l_nBitsPerSample != 32)
5596 : {
5597 1 : ReportError(pszFilename, CE_Warning, CPLE_NotSupported,
5598 : "Only NBITS=16 is supported for data type Float32");
5599 1 : l_nBitsPerSample = GDALGetDataTypeSizeBits(eType);
5600 : }
5601 : }
5602 : else
5603 : {
5604 0 : ReportError(pszFilename, CE_Warning, CPLE_NotSupported,
5605 : "NBITS is not supported for data type %s",
5606 : GDALGetDataTypeName(eType));
5607 0 : l_nBitsPerSample = GDALGetDataTypeSizeBits(eType);
5608 : }
5609 :
5610 1758 : if (nMinBits != 0)
5611 : {
5612 1754 : if (l_nBitsPerSample < nMinBits)
5613 : {
5614 2 : ReportError(
5615 : pszFilename, CE_Warning, CPLE_AppDefined,
5616 : "NBITS=%d is invalid for data type %s. Using NBITS=%d",
5617 : l_nBitsPerSample, GDALGetDataTypeName(eType), nMinBits);
5618 2 : l_nBitsPerSample = nMinBits;
5619 : }
5620 1752 : else if (l_nBitsPerSample > nMaxBits)
5621 : {
5622 3 : ReportError(
5623 : pszFilename, CE_Warning, CPLE_AppDefined,
5624 : "NBITS=%d is invalid for data type %s. Using NBITS=%d",
5625 : l_nBitsPerSample, GDALGetDataTypeName(eType), nMaxBits);
5626 3 : l_nBitsPerSample = nMaxBits;
5627 : }
5628 : }
5629 : }
5630 :
5631 : #ifdef HAVE_JXL
5632 9942 : if ((l_nCompression == COMPRESSION_JXL ||
5633 106 : l_nCompression == COMPRESSION_JXL_DNG_1_7) &&
5634 105 : eType != GDT_Float16 && eType != GDT_Float32)
5635 : {
5636 : // Reflects tif_jxl's GetJXLDataType()
5637 85 : if (eType != GDT_UInt8 && eType != GDT_UInt16)
5638 : {
5639 1 : ReportError(pszFilename, CE_Failure, CPLE_NotSupported,
5640 : "Data type %s not supported for JXL compression. Only "
5641 : "Byte, UInt16, Float16, Float32 are supported",
5642 : GDALGetDataTypeName(eType));
5643 2 : return nullptr;
5644 : }
5645 :
5646 : const struct
5647 : {
5648 : GDALDataType eDT;
5649 : int nBitsPerSample;
5650 84 : } asSupportedDTBitsPerSample[] = {
5651 : {GDT_UInt8, 8},
5652 : {GDT_UInt16, 16},
5653 : };
5654 :
5655 250 : for (const auto &sSupportedDTBitsPerSample : asSupportedDTBitsPerSample)
5656 : {
5657 167 : if (eType == sSupportedDTBitsPerSample.eDT &&
5658 84 : l_nBitsPerSample != sSupportedDTBitsPerSample.nBitsPerSample)
5659 : {
5660 1 : ReportError(
5661 : pszFilename, CE_Failure, CPLE_NotSupported,
5662 : "Bits per sample=%d not supported for JXL compression. "
5663 : "Only %d is supported for %s data type.",
5664 1 : l_nBitsPerSample, sSupportedDTBitsPerSample.nBitsPerSample,
5665 : GDALGetDataTypeName(eType));
5666 1 : return nullptr;
5667 : }
5668 : }
5669 : }
5670 : #endif
5671 :
5672 9940 : int nPredictor = PREDICTOR_NONE;
5673 9940 : const char *pszPredictor = CSLFetchNameValue(papszParamList, "PREDICTOR");
5674 9940 : if (pszPredictor)
5675 : {
5676 31 : nPredictor = atoi(pszPredictor);
5677 : }
5678 :
5679 9940 : if (nPredictor != PREDICTOR_NONE &&
5680 18 : l_nCompression != COMPRESSION_ADOBE_DEFLATE &&
5681 2 : l_nCompression != COMPRESSION_LZW &&
5682 2 : l_nCompression != COMPRESSION_LZMA &&
5683 : l_nCompression != COMPRESSION_ZSTD)
5684 : {
5685 1 : ReportError(pszFilename, CE_Warning, CPLE_NotSupported,
5686 : "PREDICTOR option is ignored for COMPRESS=%s. "
5687 : "Only valid for DEFLATE, LZW, LZMA or ZSTD",
5688 : CSLFetchNameValueDef(papszParamList, "COMPRESS", "NONE"));
5689 : }
5690 :
5691 : // Do early checks as libtiff will only error out when starting to write.
5692 9969 : else if (nPredictor != PREDICTOR_NONE &&
5693 30 : CPLTestBool(
5694 : CPLGetConfigOption("GDAL_GTIFF_PREDICTOR_CHECKS", "YES")))
5695 : {
5696 : #if (TIFFLIB_VERSION > 20210416) || defined(INTERNAL_LIBTIFF)
5697 : #define HAVE_PREDICTOR_2_FOR_64BIT
5698 : #endif
5699 30 : if (nPredictor == 2)
5700 : {
5701 24 : if (l_nBitsPerSample != 8 && l_nBitsPerSample != 16 &&
5702 : l_nBitsPerSample != 32
5703 : #ifdef HAVE_PREDICTOR_2_FOR_64BIT
5704 2 : && l_nBitsPerSample != 64
5705 : #endif
5706 : )
5707 : {
5708 : #if !defined(HAVE_PREDICTOR_2_FOR_64BIT)
5709 : if (l_nBitsPerSample == 64)
5710 : {
5711 : ReportError(pszFilename, CE_Failure, CPLE_AppDefined,
5712 : "PREDICTOR=2 is supported on 64 bit samples "
5713 : "starting with libtiff > 4.3.0.");
5714 : }
5715 : else
5716 : #endif
5717 : {
5718 2 : const int nBITSHint = (l_nBitsPerSample < 8) ? 8
5719 1 : : (l_nBitsPerSample < 16) ? 16
5720 0 : : (l_nBitsPerSample < 32) ? 32
5721 : : 64;
5722 1 : ReportError(pszFilename, CE_Failure, CPLE_AppDefined,
5723 : #ifdef HAVE_PREDICTOR_2_FOR_64BIT
5724 : "PREDICTOR=2 is only supported with 8/16/32/64 "
5725 : "bit samples. You can specify the NBITS=%d "
5726 : "creation option to promote to the closest "
5727 : "supported bits per sample value.",
5728 : #else
5729 : "PREDICTOR=2 is only supported with 8/16/32 "
5730 : "bit samples. You can specify the NBITS=%d "
5731 : "creation option to promote to the closest "
5732 : "supported bits per sample value.",
5733 : #endif
5734 : nBITSHint);
5735 : }
5736 1 : return nullptr;
5737 : }
5738 : }
5739 6 : else if (nPredictor == 3)
5740 : {
5741 5 : if (eType != GDT_Float16 && eType != GDT_Float32 &&
5742 : eType != GDT_Float64)
5743 : {
5744 1 : ReportError(pszFilename, CE_Failure, CPLE_AppDefined,
5745 : "PREDICTOR=3 is only supported with Float16, "
5746 : "Float32 or Float64.");
5747 1 : return nullptr;
5748 : }
5749 : }
5750 : else
5751 : {
5752 1 : ReportError(pszFilename, CE_Failure, CPLE_AppDefined,
5753 : "PREDICTOR=%s is not supported.", pszPredictor);
5754 1 : return nullptr;
5755 : }
5756 : }
5757 :
5758 9937 : const int l_nZLevel = GTiffGetZLevel(papszParamList);
5759 9937 : const int l_nLZMAPreset = GTiffGetLZMAPreset(papszParamList);
5760 9937 : const int l_nZSTDLevel = GTiffGetZSTDPreset(papszParamList);
5761 9937 : const int l_nWebPLevel = GTiffGetWebPLevel(papszParamList);
5762 9937 : const bool l_bWebPLossless = GTiffGetWebPLossless(papszParamList);
5763 9937 : const int l_nJpegQuality = GTiffGetJpegQuality(papszParamList);
5764 9937 : const int l_nJpegTablesMode = GTiffGetJpegTablesMode(papszParamList);
5765 9937 : const double l_dfMaxZError = GTiffGetLERCMaxZError(papszParamList);
5766 : #if HAVE_JXL
5767 9937 : bool bJXLLosslessSpecified = false;
5768 : const bool l_bJXLLossless =
5769 9937 : GTiffGetJXLLossless(papszParamList, &bJXLLosslessSpecified);
5770 9937 : const uint32_t l_nJXLEffort = GTiffGetJXLEffort(papszParamList);
5771 9937 : bool bJXLDistanceSpecified = false;
5772 : const float l_fJXLDistance =
5773 9937 : GTiffGetJXLDistance(papszParamList, &bJXLDistanceSpecified);
5774 9937 : if (bJXLDistanceSpecified && l_bJXLLossless)
5775 : {
5776 1 : ReportError(pszFilename, CE_Warning, CPLE_AppDefined,
5777 : "JXL_DISTANCE creation option is ignored, given %s "
5778 : "JXL_LOSSLESS=YES",
5779 : bJXLLosslessSpecified ? "(explicit)" : "(implicit)");
5780 : }
5781 9937 : bool bJXLAlphaDistanceSpecified = false;
5782 : const float l_fJXLAlphaDistance =
5783 9937 : GTiffGetJXLAlphaDistance(papszParamList, &bJXLAlphaDistanceSpecified);
5784 9937 : if (bJXLAlphaDistanceSpecified && l_bJXLLossless)
5785 : {
5786 1 : ReportError(pszFilename, CE_Warning, CPLE_AppDefined,
5787 : "JXL_ALPHA_DISTANCE creation option is ignored, given %s "
5788 : "JXL_LOSSLESS=YES",
5789 : bJXLLosslessSpecified ? "(explicit)" : "(implicit)");
5790 : }
5791 : #endif
5792 : /* -------------------------------------------------------------------- */
5793 : /* Streaming related code */
5794 : /* -------------------------------------------------------------------- */
5795 19874 : const CPLString osOriFilename(pszFilename);
5796 19874 : bool bStreaming = strcmp(pszFilename, "/vsistdout/") == 0 ||
5797 9937 : CPLFetchBool(papszParamList, "STREAMABLE_OUTPUT", false);
5798 : #ifdef S_ISFIFO
5799 9937 : if (!bStreaming)
5800 : {
5801 : VSIStatBufL sStat;
5802 9925 : if (VSIStatExL(pszFilename, &sStat,
5803 10804 : VSI_STAT_EXISTS_FLAG | VSI_STAT_NATURE_FLAG) == 0 &&
5804 879 : S_ISFIFO(sStat.st_mode))
5805 : {
5806 0 : bStreaming = true;
5807 : }
5808 : }
5809 : #endif
5810 9937 : if (bStreaming && !EQUAL("NONE", CSLFetchNameValueDef(papszParamList,
5811 : "COMPRESS", "NONE")))
5812 : {
5813 1 : ReportError(pszFilename, CE_Failure, CPLE_NotSupported,
5814 : "Streaming only supported to uncompressed TIFF");
5815 1 : return nullptr;
5816 : }
5817 9936 : if (bStreaming && CPLFetchBool(papszParamList, "SPARSE_OK", false))
5818 : {
5819 1 : ReportError(pszFilename, CE_Failure, CPLE_NotSupported,
5820 : "Streaming not supported with SPARSE_OK");
5821 1 : return nullptr;
5822 : }
5823 : const bool bCopySrcOverviews =
5824 9935 : CPLFetchBool(papszParamList, "COPY_SRC_OVERVIEWS", false);
5825 9935 : if (bStreaming && bCopySrcOverviews)
5826 : {
5827 1 : ReportError(pszFilename, CE_Failure, CPLE_NotSupported,
5828 : "Streaming not supported with COPY_SRC_OVERVIEWS");
5829 1 : return nullptr;
5830 : }
5831 9934 : if (bStreaming)
5832 : {
5833 9 : l_osTmpFilename = VSIMemGenerateHiddenFilename("vsistdout.tif");
5834 9 : pszFilename = l_osTmpFilename.c_str();
5835 : }
5836 :
5837 : /* -------------------------------------------------------------------- */
5838 : /* Compute the uncompressed size. */
5839 : /* -------------------------------------------------------------------- */
5840 9934 : const unsigned nTileXCount =
5841 9934 : bTiled ? DIV_ROUND_UP(nXSize, l_nBlockXSize) : 0;
5842 9934 : const unsigned nTileYCount =
5843 9934 : bTiled ? DIV_ROUND_UP(nYSize, l_nBlockYSize) : 0;
5844 : const double dfUncompressedImageSize =
5845 9934 : (bTiled ? (static_cast<double>(nTileXCount) * nTileYCount *
5846 811 : l_nBlockXSize * l_nBlockYSize)
5847 9123 : : (nXSize * static_cast<double>(nYSize))) *
5848 9934 : l_nBands * GDALGetDataTypeSizeBytes(eType) +
5849 9934 : dfExtraSpaceForOverviews;
5850 :
5851 : /* -------------------------------------------------------------------- */
5852 : /* Should the file be created as a bigtiff file? */
5853 : /* -------------------------------------------------------------------- */
5854 9934 : const char *pszBIGTIFF = CSLFetchNameValue(papszParamList, "BIGTIFF");
5855 :
5856 9934 : if (pszBIGTIFF == nullptr)
5857 9487 : pszBIGTIFF = "IF_NEEDED";
5858 :
5859 9934 : bool bCreateBigTIFF = false;
5860 9934 : if (EQUAL(pszBIGTIFF, "IF_NEEDED"))
5861 : {
5862 9488 : if (l_nCompression == COMPRESSION_NONE &&
5863 : dfUncompressedImageSize > 4200000000.0)
5864 17 : bCreateBigTIFF = true;
5865 : }
5866 446 : else if (EQUAL(pszBIGTIFF, "IF_SAFER"))
5867 : {
5868 425 : if (dfUncompressedImageSize > 2000000000.0)
5869 1 : bCreateBigTIFF = true;
5870 : }
5871 : else
5872 : {
5873 21 : bCreateBigTIFF = CPLTestBool(pszBIGTIFF);
5874 21 : if (!bCreateBigTIFF && l_nCompression == COMPRESSION_NONE &&
5875 : dfUncompressedImageSize > 4200000000.0)
5876 : {
5877 2 : ReportError(pszFilename, CE_Failure, CPLE_NotSupported,
5878 : "The TIFF file will be larger than 4GB, so BigTIFF is "
5879 : "necessary. Creation failed.");
5880 2 : return nullptr;
5881 : }
5882 : }
5883 :
5884 9932 : if (bCreateBigTIFF)
5885 35 : CPLDebug("GTiff", "File being created as a BigTIFF.");
5886 :
5887 : /* -------------------------------------------------------------------- */
5888 : /* Sanity check. */
5889 : /* -------------------------------------------------------------------- */
5890 9932 : if (bTiled)
5891 : {
5892 : // libtiff implementation limitation
5893 811 : if (nTileXCount > 0x80000000U / (bCreateBigTIFF ? 8 : 4) / nTileYCount)
5894 : {
5895 3 : ReportError(pszFilename, CE_Failure, CPLE_NotSupported,
5896 : "File too large regarding tile size. This would result "
5897 : "in a file with tile arrays larger than 2GB");
5898 3 : return nullptr;
5899 : }
5900 : }
5901 :
5902 : /* -------------------------------------------------------------------- */
5903 : /* Check free space (only for big, non sparse) */
5904 : /* -------------------------------------------------------------------- */
5905 9929 : const double dfLikelyFloorOfFinalSize =
5906 : l_nCompression == COMPRESSION_NONE
5907 9929 : ? dfUncompressedImageSize
5908 : :
5909 : /* For compressed, we target 1% as the most optimistic reduction factor! */
5910 : 0.01 * dfUncompressedImageSize;
5911 9951 : if (dfLikelyFloorOfFinalSize >= 1e9 &&
5912 22 : !CPLFetchBool(papszParamList, "SPARSE_OK", false) &&
5913 5 : osOriFilename != "/vsistdout/" &&
5914 9956 : osOriFilename != "/vsistdout_redirect/" &&
5915 5 : CPLTestBool(CPLGetConfigOption("CHECK_DISK_FREE_SPACE", "TRUE")))
5916 : {
5917 : const GIntBig nFreeDiskSpace =
5918 4 : VSIGetDiskFreeSpace(CPLGetDirnameSafe(pszFilename).c_str());
5919 4 : if (nFreeDiskSpace >= 0 && nFreeDiskSpace < dfLikelyFloorOfFinalSize)
5920 : {
5921 6 : ReportError(
5922 : pszFilename, CE_Failure, CPLE_FileIO,
5923 : "Free disk space available is %s, "
5924 : "whereas %s are %s necessary. "
5925 : "You can disable this check by defining the "
5926 : "CHECK_DISK_FREE_SPACE configuration option to FALSE.",
5927 4 : CPLFormatReadableFileSize(static_cast<uint64_t>(nFreeDiskSpace))
5928 : .c_str(),
5929 4 : CPLFormatReadableFileSize(dfLikelyFloorOfFinalSize).c_str(),
5930 : l_nCompression == COMPRESSION_NONE
5931 : ? "at least"
5932 : : "likely at least (probably more)");
5933 2 : return nullptr;
5934 : }
5935 : }
5936 :
5937 : /* -------------------------------------------------------------------- */
5938 : /* Check if the user wishes a particular endianness */
5939 : /* -------------------------------------------------------------------- */
5940 :
5941 9927 : int eEndianness = ENDIANNESS_NATIVE;
5942 9927 : const char *pszEndianness = CSLFetchNameValue(papszParamList, "ENDIANNESS");
5943 9927 : if (pszEndianness == nullptr)
5944 9864 : pszEndianness = CPLGetConfigOption("GDAL_TIFF_ENDIANNESS", nullptr);
5945 9927 : if (pszEndianness != nullptr)
5946 : {
5947 123 : if (EQUAL(pszEndianness, "LITTLE"))
5948 : {
5949 36 : eEndianness = ENDIANNESS_LITTLE;
5950 : }
5951 87 : else if (EQUAL(pszEndianness, "BIG"))
5952 : {
5953 1 : eEndianness = ENDIANNESS_BIG;
5954 : }
5955 86 : else if (EQUAL(pszEndianness, "INVERTED"))
5956 : {
5957 : #ifdef CPL_LSB
5958 82 : eEndianness = ENDIANNESS_BIG;
5959 : #else
5960 : eEndianness = ENDIANNESS_LITTLE;
5961 : #endif
5962 : }
5963 4 : else if (!EQUAL(pszEndianness, "NATIVE"))
5964 : {
5965 1 : ReportError(pszFilename, CE_Warning, CPLE_NotSupported,
5966 : "ENDIANNESS=%s not supported. Defaulting to NATIVE",
5967 : pszEndianness);
5968 : }
5969 : }
5970 :
5971 : /* -------------------------------------------------------------------- */
5972 : /* Try opening the dataset. */
5973 : /* -------------------------------------------------------------------- */
5974 :
5975 : const bool bAppend =
5976 9927 : CPLFetchBool(papszParamList, "APPEND_SUBDATASET", false);
5977 :
5978 9927 : char szOpeningFlag[5] = {};
5979 9927 : strcpy(szOpeningFlag, bAppend ? "r+" : "w+");
5980 9927 : if (bCreateBigTIFF)
5981 32 : strcat(szOpeningFlag, "8");
5982 9927 : if (eEndianness == ENDIANNESS_BIG)
5983 83 : strcat(szOpeningFlag, "b");
5984 9844 : else if (eEndianness == ENDIANNESS_LITTLE)
5985 36 : strcat(szOpeningFlag, "l");
5986 :
5987 9927 : VSIErrorReset();
5988 9927 : const bool bOnlyVisibleAtCloseTime = CPLTestBool(CSLFetchNameValueDef(
5989 : papszParamList, "@CREATE_ONLY_VISIBLE_AT_CLOSE_TIME", "NO"));
5990 9927 : const bool bSuppressASAP = CPLTestBool(
5991 : CSLFetchNameValueDef(papszParamList, "@SUPPRESS_ASAP", "NO"));
5992 : auto l_fpL =
5993 9927 : (bOnlyVisibleAtCloseTime || bSuppressASAP) && !bAppend
5994 9997 : ? VSIFileManager::GetHandler(pszFilename)
5995 140 : ->CreateOnlyVisibleAtCloseTime(pszFilename, true, nullptr)
5996 70 : .release()
5997 19784 : : VSIFilesystemHandler::OpenStatic(pszFilename,
5998 : bAppend ? "r+b" : "w+b", true)
5999 9927 : .release();
6000 9927 : if (l_fpL == nullptr)
6001 : {
6002 21 : VSIToCPLErrorWithMsg(CE_Failure, CPLE_OpenFailed,
6003 42 : std::string("Attempt to create new tiff file `")
6004 21 : .append(pszFilename)
6005 21 : .append("' failed")
6006 : .c_str());
6007 21 : return nullptr;
6008 : }
6009 :
6010 9906 : if (bSuppressASAP)
6011 : {
6012 40 : l_fpL->CancelCreation();
6013 : }
6014 :
6015 9906 : TIFF *l_hTIFF = VSI_TIFFOpen(pszFilename, szOpeningFlag, l_fpL);
6016 9906 : if (l_hTIFF == nullptr)
6017 : {
6018 2 : if (CPLGetLastErrorNo() == 0)
6019 0 : CPLError(CE_Failure, CPLE_OpenFailed,
6020 : "Attempt to create new tiff file `%s' "
6021 : "failed in XTIFFOpen().",
6022 : pszFilename);
6023 2 : l_fpL->CancelCreation();
6024 2 : CPL_IGNORE_RET_VAL(VSIFCloseL(l_fpL));
6025 2 : return nullptr;
6026 : }
6027 :
6028 9904 : if (bAppend)
6029 : {
6030 : #if !(defined(INTERNAL_LIBTIFF) || TIFFLIB_VERSION > 20240911)
6031 : // This is a bit of a hack to cause (*tif->tif_cleanup)(tif); to be
6032 : // called. See https://trac.osgeo.org/gdal/ticket/2055
6033 : // Fixed in libtiff > 4.7.0
6034 : TIFFSetField(l_hTIFF, TIFFTAG_COMPRESSION, COMPRESSION_NONE);
6035 : TIFFFreeDirectory(l_hTIFF);
6036 : #endif
6037 6 : TIFFCreateDirectory(l_hTIFF);
6038 : }
6039 :
6040 : /* -------------------------------------------------------------------- */
6041 : /* Do we have a custom pixel type (just used for signed byte now). */
6042 : /* -------------------------------------------------------------------- */
6043 9904 : const char *pszPixelType = CSLFetchNameValue(papszParamList, "PIXELTYPE");
6044 9904 : if (pszPixelType == nullptr)
6045 9896 : pszPixelType = "";
6046 9904 : if (eType == GDT_UInt8 && EQUAL(pszPixelType, "SIGNEDBYTE"))
6047 : {
6048 8 : CPLError(CE_Warning, CPLE_AppDefined,
6049 : "Using PIXELTYPE=SIGNEDBYTE with Byte data type is deprecated "
6050 : "(but still works). "
6051 : "Using Int8 data type instead is now recommended.");
6052 : }
6053 :
6054 : /* -------------------------------------------------------------------- */
6055 : /* Setup some standard flags. */
6056 : /* -------------------------------------------------------------------- */
6057 9904 : TIFFSetField(l_hTIFF, TIFFTAG_IMAGEWIDTH, nXSize);
6058 9904 : TIFFSetField(l_hTIFF, TIFFTAG_IMAGELENGTH, nYSize);
6059 9904 : TIFFSetField(l_hTIFF, TIFFTAG_BITSPERSAMPLE, l_nBitsPerSample);
6060 :
6061 9904 : uint16_t l_nSampleFormat = 0;
6062 9904 : if ((eType == GDT_UInt8 && EQUAL(pszPixelType, "SIGNEDBYTE")) ||
6063 9755 : eType == GDT_Int8 || eType == GDT_Int16 || eType == GDT_Int32 ||
6064 : eType == GDT_Int64)
6065 808 : l_nSampleFormat = SAMPLEFORMAT_INT;
6066 9096 : else if (eType == GDT_CInt16 || eType == GDT_CInt32)
6067 363 : l_nSampleFormat = SAMPLEFORMAT_COMPLEXINT;
6068 8733 : else if (eType == GDT_Float16 || eType == GDT_Float32 ||
6069 : eType == GDT_Float64)
6070 1160 : l_nSampleFormat = SAMPLEFORMAT_IEEEFP;
6071 7573 : else if (eType == GDT_CFloat16 || eType == GDT_CFloat32 ||
6072 : eType == GDT_CFloat64)
6073 471 : l_nSampleFormat = SAMPLEFORMAT_COMPLEXIEEEFP;
6074 : else
6075 7102 : l_nSampleFormat = SAMPLEFORMAT_UINT;
6076 :
6077 9904 : TIFFSetField(l_hTIFF, TIFFTAG_SAMPLEFORMAT, l_nSampleFormat);
6078 9904 : TIFFSetField(l_hTIFF, TIFFTAG_SAMPLESPERPIXEL, l_nBands);
6079 9904 : TIFFSetField(l_hTIFF, TIFFTAG_PLANARCONFIG, nPlanar);
6080 :
6081 : /* -------------------------------------------------------------------- */
6082 : /* Setup Photometric Interpretation. Take this value from the user */
6083 : /* passed option or guess correct value otherwise. */
6084 : /* -------------------------------------------------------------------- */
6085 9904 : int nSamplesAccountedFor = 1;
6086 9904 : bool bForceColorTable = false;
6087 :
6088 9904 : if (const char *pszValue = CSLFetchNameValue(papszParamList, "PHOTOMETRIC"))
6089 : {
6090 1913 : if (EQUAL(pszValue, "MINISBLACK"))
6091 14 : TIFFSetField(l_hTIFF, TIFFTAG_PHOTOMETRIC, PHOTOMETRIC_MINISBLACK);
6092 1899 : else if (EQUAL(pszValue, "MINISWHITE"))
6093 : {
6094 2 : TIFFSetField(l_hTIFF, TIFFTAG_PHOTOMETRIC, PHOTOMETRIC_MINISWHITE);
6095 : }
6096 1897 : else if (EQUAL(pszValue, "PALETTE"))
6097 : {
6098 5 : if (eType == GDT_UInt8 || eType == GDT_UInt16)
6099 : {
6100 4 : TIFFSetField(l_hTIFF, TIFFTAG_PHOTOMETRIC, PHOTOMETRIC_PALETTE);
6101 4 : nSamplesAccountedFor = 1;
6102 4 : bForceColorTable = true;
6103 : }
6104 : else
6105 : {
6106 1 : ReportError(
6107 : pszFilename, CE_Warning, CPLE_AppDefined,
6108 : "PHOTOMETRIC=PALETTE only compatible with Byte or UInt16");
6109 : }
6110 : }
6111 1892 : else if (EQUAL(pszValue, "RGB"))
6112 : {
6113 1152 : TIFFSetField(l_hTIFF, TIFFTAG_PHOTOMETRIC, PHOTOMETRIC_RGB);
6114 1152 : nSamplesAccountedFor = 3;
6115 : }
6116 740 : else if (EQUAL(pszValue, "CMYK"))
6117 : {
6118 10 : TIFFSetField(l_hTIFF, TIFFTAG_PHOTOMETRIC, PHOTOMETRIC_SEPARATED);
6119 10 : nSamplesAccountedFor = 4;
6120 : }
6121 730 : else if (EQUAL(pszValue, "YCBCR"))
6122 : {
6123 : // Because of subsampling, setting YCBCR without JPEG compression
6124 : // leads to a crash currently. Would need to make
6125 : // GTiffRasterBand::IWriteBlock() aware of subsampling so that it
6126 : // doesn't overrun buffer size returned by libtiff.
6127 729 : if (l_nCompression != COMPRESSION_JPEG)
6128 : {
6129 1 : ReportError(
6130 : pszFilename, CE_Failure, CPLE_NotSupported,
6131 : "Currently, PHOTOMETRIC=YCBCR requires COMPRESS=JPEG");
6132 1 : XTIFFClose(l_hTIFF);
6133 1 : l_fpL->CancelCreation();
6134 1 : CPL_IGNORE_RET_VAL(VSIFCloseL(l_fpL));
6135 1 : return nullptr;
6136 : }
6137 :
6138 728 : if (nPlanar == PLANARCONFIG_SEPARATE)
6139 : {
6140 1 : ReportError(pszFilename, CE_Failure, CPLE_NotSupported,
6141 : "PHOTOMETRIC=YCBCR requires INTERLEAVE=PIXEL");
6142 1 : XTIFFClose(l_hTIFF);
6143 1 : l_fpL->CancelCreation();
6144 1 : CPL_IGNORE_RET_VAL(VSIFCloseL(l_fpL));
6145 1 : return nullptr;
6146 : }
6147 :
6148 : // YCBCR strictly requires 3 bands. Not less, not more Issue an
6149 : // explicit error message as libtiff one is a bit cryptic:
6150 : // TIFFVStripSize64:Invalid td_samplesperpixel value.
6151 727 : if (l_nBands != 3)
6152 : {
6153 1 : ReportError(
6154 : pszFilename, CE_Failure, CPLE_NotSupported,
6155 : "PHOTOMETRIC=YCBCR not supported on a %d-band raster: "
6156 : "only compatible of a 3-band (RGB) raster",
6157 : l_nBands);
6158 1 : XTIFFClose(l_hTIFF);
6159 1 : l_fpL->CancelCreation();
6160 1 : CPL_IGNORE_RET_VAL(VSIFCloseL(l_fpL));
6161 1 : return nullptr;
6162 : }
6163 :
6164 726 : TIFFSetField(l_hTIFF, TIFFTAG_PHOTOMETRIC, PHOTOMETRIC_YCBCR);
6165 726 : nSamplesAccountedFor = 3;
6166 :
6167 : // Explicitly register the subsampling so that JPEGFixupTags
6168 : // is a no-op (helps for cloud optimized geotiffs)
6169 726 : TIFFSetField(l_hTIFF, TIFFTAG_YCBCRSUBSAMPLING, 2, 2);
6170 : }
6171 1 : else if (EQUAL(pszValue, "CIELAB"))
6172 : {
6173 0 : TIFFSetField(l_hTIFF, TIFFTAG_PHOTOMETRIC, PHOTOMETRIC_CIELAB);
6174 0 : nSamplesAccountedFor = 3;
6175 : }
6176 1 : else if (EQUAL(pszValue, "ICCLAB"))
6177 : {
6178 0 : TIFFSetField(l_hTIFF, TIFFTAG_PHOTOMETRIC, PHOTOMETRIC_ICCLAB);
6179 0 : nSamplesAccountedFor = 3;
6180 : }
6181 1 : else if (EQUAL(pszValue, "ITULAB"))
6182 : {
6183 0 : TIFFSetField(l_hTIFF, TIFFTAG_PHOTOMETRIC, PHOTOMETRIC_ITULAB);
6184 0 : nSamplesAccountedFor = 3;
6185 : }
6186 : else
6187 : {
6188 1 : ReportError(pszFilename, CE_Warning, CPLE_IllegalArg,
6189 : "PHOTOMETRIC=%s value not recognised, ignoring. "
6190 : "Set the Photometric Interpretation as MINISBLACK.",
6191 : pszValue);
6192 1 : TIFFSetField(l_hTIFF, TIFFTAG_PHOTOMETRIC, PHOTOMETRIC_MINISBLACK);
6193 : }
6194 :
6195 1910 : if (l_nBands < nSamplesAccountedFor)
6196 : {
6197 1 : ReportError(pszFilename, CE_Warning, CPLE_IllegalArg,
6198 : "PHOTOMETRIC=%s value does not correspond to number "
6199 : "of bands (%d), ignoring. "
6200 : "Set the Photometric Interpretation as MINISBLACK.",
6201 : pszValue, l_nBands);
6202 1 : TIFFSetField(l_hTIFF, TIFFTAG_PHOTOMETRIC, PHOTOMETRIC_MINISBLACK);
6203 : }
6204 : }
6205 : else
6206 : {
6207 : // If image contains 3 or 4 bands and datatype is Byte then we will
6208 : // assume it is RGB. In all other cases assume it is MINISBLACK.
6209 7991 : if (l_nBands == 3 && eType == GDT_UInt8)
6210 : {
6211 323 : TIFFSetField(l_hTIFF, TIFFTAG_PHOTOMETRIC, PHOTOMETRIC_RGB);
6212 323 : nSamplesAccountedFor = 3;
6213 : }
6214 7668 : else if (l_nBands == 4 && eType == GDT_UInt8)
6215 : {
6216 : uint16_t v[1] = {
6217 723 : GTiffGetAlphaValue(CSLFetchNameValue(papszParamList, "ALPHA"),
6218 723 : DEFAULT_ALPHA_TYPE)};
6219 :
6220 723 : TIFFSetField(l_hTIFF, TIFFTAG_EXTRASAMPLES, 1, v);
6221 723 : TIFFSetField(l_hTIFF, TIFFTAG_PHOTOMETRIC, PHOTOMETRIC_RGB);
6222 723 : nSamplesAccountedFor = 4;
6223 : }
6224 : else
6225 : {
6226 6945 : TIFFSetField(l_hTIFF, TIFFTAG_PHOTOMETRIC, PHOTOMETRIC_MINISBLACK);
6227 6945 : nSamplesAccountedFor = 1;
6228 : }
6229 : }
6230 :
6231 : /* -------------------------------------------------------------------- */
6232 : /* If there are extra samples, we need to mark them with an */
6233 : /* appropriate extrasamples definition here. */
6234 : /* -------------------------------------------------------------------- */
6235 9901 : if (l_nBands > nSamplesAccountedFor)
6236 : {
6237 1389 : const int nExtraSamples = l_nBands - nSamplesAccountedFor;
6238 :
6239 : uint16_t *v = static_cast<uint16_t *>(
6240 1389 : CPLMalloc(sizeof(uint16_t) * nExtraSamples));
6241 :
6242 1389 : v[0] = GTiffGetAlphaValue(CSLFetchNameValue(papszParamList, "ALPHA"),
6243 : EXTRASAMPLE_UNSPECIFIED);
6244 :
6245 297700 : for (int i = 1; i < nExtraSamples; ++i)
6246 296311 : v[i] = EXTRASAMPLE_UNSPECIFIED;
6247 :
6248 1389 : TIFFSetField(l_hTIFF, TIFFTAG_EXTRASAMPLES, nExtraSamples, v);
6249 :
6250 1389 : CPLFree(v);
6251 : }
6252 :
6253 : // Set the ICC color profile.
6254 9901 : if (eProfile != GTiffProfile::BASELINE)
6255 : {
6256 9876 : SaveICCProfile(nullptr, l_hTIFF, papszParamList, l_nBitsPerSample);
6257 : }
6258 :
6259 : // Set the compression method before asking the default strip size
6260 : // This is useful when translating to a JPEG-In-TIFF file where
6261 : // the default strip size is 8 or 16 depending on the photometric value.
6262 9901 : TIFFSetField(l_hTIFF, TIFFTAG_COMPRESSION, l_nCompression);
6263 :
6264 9901 : if (l_nCompression == COMPRESSION_LERC)
6265 : {
6266 : const char *pszCompress =
6267 97 : CSLFetchNameValueDef(papszParamList, "COMPRESS", "");
6268 97 : if (EQUAL(pszCompress, "LERC_DEFLATE"))
6269 : {
6270 16 : TIFFSetField(l_hTIFF, TIFFTAG_LERC_ADD_COMPRESSION,
6271 : LERC_ADD_COMPRESSION_DEFLATE);
6272 : }
6273 81 : else if (EQUAL(pszCompress, "LERC_ZSTD"))
6274 : {
6275 14 : if (TIFFSetField(l_hTIFF, TIFFTAG_LERC_ADD_COMPRESSION,
6276 14 : LERC_ADD_COMPRESSION_ZSTD) != 1)
6277 : {
6278 0 : XTIFFClose(l_hTIFF);
6279 0 : l_fpL->CancelCreation();
6280 0 : CPL_IGNORE_RET_VAL(VSIFCloseL(l_fpL));
6281 0 : return nullptr;
6282 : }
6283 : }
6284 : }
6285 : // TODO later: take into account LERC version
6286 :
6287 : /* -------------------------------------------------------------------- */
6288 : /* Setup tiling/stripping flags. */
6289 : /* -------------------------------------------------------------------- */
6290 9901 : if (bTiled)
6291 : {
6292 1602 : if (!TIFFSetField(l_hTIFF, TIFFTAG_TILEWIDTH, l_nBlockXSize) ||
6293 801 : !TIFFSetField(l_hTIFF, TIFFTAG_TILELENGTH, l_nBlockYSize))
6294 : {
6295 0 : XTIFFClose(l_hTIFF);
6296 0 : l_fpL->CancelCreation();
6297 0 : CPL_IGNORE_RET_VAL(VSIFCloseL(l_fpL));
6298 0 : return nullptr;
6299 : }
6300 : }
6301 : else
6302 : {
6303 9100 : const uint32_t l_nRowsPerStrip = std::min(
6304 : nYSize, l_nBlockYSize == 0
6305 9100 : ? static_cast<int>(TIFFDefaultStripSize(l_hTIFF, 0))
6306 9100 : : l_nBlockYSize);
6307 :
6308 9100 : TIFFSetField(l_hTIFF, TIFFTAG_ROWSPERSTRIP, l_nRowsPerStrip);
6309 : }
6310 :
6311 : /* -------------------------------------------------------------------- */
6312 : /* Set compression related tags. */
6313 : /* -------------------------------------------------------------------- */
6314 9901 : if (GTIFFSupportsPredictor(l_nCompression))
6315 973 : TIFFSetField(l_hTIFF, TIFFTAG_PREDICTOR, nPredictor);
6316 9901 : if (l_nCompression == COMPRESSION_ADOBE_DEFLATE ||
6317 : l_nCompression == COMPRESSION_LERC)
6318 : {
6319 280 : GTiffSetDeflateSubCodec(l_hTIFF);
6320 :
6321 280 : if (l_nZLevel != -1)
6322 22 : TIFFSetField(l_hTIFF, TIFFTAG_ZIPQUALITY, l_nZLevel);
6323 : }
6324 9901 : if (l_nCompression == COMPRESSION_JPEG && l_nJpegQuality != -1)
6325 1905 : TIFFSetField(l_hTIFF, TIFFTAG_JPEGQUALITY, l_nJpegQuality);
6326 9901 : if (l_nCompression == COMPRESSION_LZMA && l_nLZMAPreset != -1)
6327 10 : TIFFSetField(l_hTIFF, TIFFTAG_LZMAPRESET, l_nLZMAPreset);
6328 9901 : if ((l_nCompression == COMPRESSION_ZSTD ||
6329 194 : l_nCompression == COMPRESSION_LERC) &&
6330 : l_nZSTDLevel != -1)
6331 12 : TIFFSetField(l_hTIFF, TIFFTAG_ZSTD_LEVEL, l_nZSTDLevel);
6332 9901 : if (l_nCompression == COMPRESSION_LERC)
6333 : {
6334 97 : TIFFSetField(l_hTIFF, TIFFTAG_LERC_MAXZERROR, l_dfMaxZError);
6335 : }
6336 : #if HAVE_JXL
6337 9901 : if (l_nCompression == COMPRESSION_JXL ||
6338 : l_nCompression == COMPRESSION_JXL_DNG_1_7)
6339 : {
6340 104 : TIFFSetField(l_hTIFF, TIFFTAG_JXL_LOSSYNESS,
6341 : l_bJXLLossless ? JXL_LOSSLESS : JXL_LOSSY);
6342 104 : TIFFSetField(l_hTIFF, TIFFTAG_JXL_EFFORT, l_nJXLEffort);
6343 104 : TIFFSetField(l_hTIFF, TIFFTAG_JXL_DISTANCE,
6344 : static_cast<double>(l_fJXLDistance));
6345 104 : TIFFSetField(l_hTIFF, TIFFTAG_JXL_ALPHA_DISTANCE,
6346 : static_cast<double>(l_fJXLAlphaDistance));
6347 : }
6348 : #endif
6349 9901 : if (l_nCompression == COMPRESSION_WEBP)
6350 33 : TIFFSetField(l_hTIFF, TIFFTAG_WEBP_LEVEL, l_nWebPLevel);
6351 9901 : if (l_nCompression == COMPRESSION_WEBP && l_bWebPLossless)
6352 7 : TIFFSetField(l_hTIFF, TIFFTAG_WEBP_LOSSLESS, 1);
6353 :
6354 9901 : if (l_nCompression == COMPRESSION_JPEG)
6355 2083 : TIFFSetField(l_hTIFF, TIFFTAG_JPEGTABLESMODE, l_nJpegTablesMode);
6356 :
6357 : /* -------------------------------------------------------------------- */
6358 : /* If we forced production of a file with photometric=palette, */
6359 : /* we need to push out a default color table. */
6360 : /* -------------------------------------------------------------------- */
6361 9901 : if (bForceColorTable)
6362 : {
6363 4 : const int nColors = eType == GDT_UInt8 ? 256 : 65536;
6364 :
6365 : unsigned short *panTRed = static_cast<unsigned short *>(
6366 4 : CPLMalloc(sizeof(unsigned short) * nColors));
6367 : unsigned short *panTGreen = static_cast<unsigned short *>(
6368 4 : CPLMalloc(sizeof(unsigned short) * nColors));
6369 : unsigned short *panTBlue = static_cast<unsigned short *>(
6370 4 : CPLMalloc(sizeof(unsigned short) * nColors));
6371 :
6372 1028 : for (int iColor = 0; iColor < nColors; ++iColor)
6373 : {
6374 1024 : if (eType == GDT_UInt8)
6375 : {
6376 1024 : panTRed[iColor] = GTiffDataset::ClampCTEntry(
6377 : iColor, 1, iColor, nColorTableMultiplier);
6378 1024 : panTGreen[iColor] = GTiffDataset::ClampCTEntry(
6379 : iColor, 2, iColor, nColorTableMultiplier);
6380 1024 : panTBlue[iColor] = GTiffDataset::ClampCTEntry(
6381 : iColor, 3, iColor, nColorTableMultiplier);
6382 : }
6383 : else
6384 : {
6385 0 : panTRed[iColor] = static_cast<unsigned short>(iColor);
6386 0 : panTGreen[iColor] = static_cast<unsigned short>(iColor);
6387 0 : panTBlue[iColor] = static_cast<unsigned short>(iColor);
6388 : }
6389 : }
6390 :
6391 4 : TIFFSetField(l_hTIFF, TIFFTAG_COLORMAP, panTRed, panTGreen, panTBlue);
6392 :
6393 4 : CPLFree(panTRed);
6394 4 : CPLFree(panTGreen);
6395 4 : CPLFree(panTBlue);
6396 : }
6397 :
6398 : // This trick
6399 : // creates a temporary in-memory file and fetches its JPEG tables so that
6400 : // we can directly set them, before tif_jpeg.c compute them at the first
6401 : // strip/tile writing, which is too late, since we have already crystalized
6402 : // the directory. This way we avoid a directory rewriting.
6403 11984 : if (l_nCompression == COMPRESSION_JPEG &&
6404 2083 : CPLTestBool(
6405 : CSLFetchNameValueDef(papszParamList, "WRITE_JPEGTABLE_TAG", "YES")))
6406 : {
6407 1014 : GTiffWriteJPEGTables(
6408 : l_hTIFF, CSLFetchNameValue(papszParamList, "PHOTOMETRIC"),
6409 : CSLFetchNameValue(papszParamList, "JPEG_QUALITY"),
6410 : CSLFetchNameValue(papszParamList, "JPEGTABLESMODE"));
6411 : }
6412 :
6413 9901 : *pfpL = l_fpL;
6414 :
6415 9901 : return l_hTIFF;
6416 : }
6417 :
6418 : /************************************************************************/
6419 : /* GuessJPEGQuality() */
6420 : /* */
6421 : /* Guess JPEG quality from JPEGTABLES tag. */
6422 : /************************************************************************/
6423 :
6424 3850 : static const GByte *GTIFFFindNextTable(const GByte *paby, GByte byMarker,
6425 : int nLen, int *pnLenTable)
6426 : {
6427 7967 : for (int i = 0; i + 1 < nLen;)
6428 : {
6429 7967 : if (paby[i] != 0xFF)
6430 0 : return nullptr;
6431 7967 : ++i;
6432 7967 : if (paby[i] == 0xD8)
6433 : {
6434 3117 : ++i;
6435 3117 : continue;
6436 : }
6437 4850 : if (i + 2 >= nLen)
6438 833 : return nullptr;
6439 4017 : int nMarkerLen = paby[i + 1] * 256 + paby[i + 2];
6440 4017 : if (i + 1 + nMarkerLen >= nLen)
6441 0 : return nullptr;
6442 4017 : if (paby[i] == byMarker)
6443 : {
6444 3017 : if (pnLenTable)
6445 2473 : *pnLenTable = nMarkerLen;
6446 3017 : return paby + i + 1;
6447 : }
6448 1000 : i += 1 + nMarkerLen;
6449 : }
6450 0 : return nullptr;
6451 : }
6452 :
6453 : constexpr GByte MARKER_HUFFMAN_TABLE = 0xC4;
6454 : constexpr GByte MARKER_QUANT_TABLE = 0xDB;
6455 :
6456 : // We assume that if there are several quantization tables, they are
6457 : // in the same order. Which is a reasonable assumption for updating
6458 : // a file generated by ourselves.
6459 904 : static bool GTIFFQuantizationTablesEqual(const GByte *paby1, int nLen1,
6460 : const GByte *paby2, int nLen2)
6461 : {
6462 904 : bool bFound = false;
6463 : while (true)
6464 : {
6465 945 : int nLenTable1 = 0;
6466 945 : int nLenTable2 = 0;
6467 : const GByte *paby1New =
6468 945 : GTIFFFindNextTable(paby1, MARKER_QUANT_TABLE, nLen1, &nLenTable1);
6469 : const GByte *paby2New =
6470 945 : GTIFFFindNextTable(paby2, MARKER_QUANT_TABLE, nLen2, &nLenTable2);
6471 945 : if (paby1New == nullptr && paby2New == nullptr)
6472 904 : return bFound;
6473 911 : if (paby1New == nullptr || paby2New == nullptr)
6474 0 : return false;
6475 911 : if (nLenTable1 != nLenTable2)
6476 207 : return false;
6477 704 : if (memcmp(paby1New, paby2New, nLenTable1) != 0)
6478 663 : return false;
6479 41 : paby1New += nLenTable1;
6480 41 : paby2New += nLenTable2;
6481 41 : nLen1 -= static_cast<int>(paby1New - paby1);
6482 41 : nLen2 -= static_cast<int>(paby2New - paby2);
6483 41 : paby1 = paby1New;
6484 41 : paby2 = paby2New;
6485 41 : bFound = true;
6486 41 : }
6487 : }
6488 :
6489 : // Guess the JPEG quality by comparing against the MD5Sum of precomputed
6490 : // quantization tables
6491 409 : static int GuessJPEGQualityFromMD5(const uint8_t md5JPEGQuantTable[][16],
6492 : const GByte *const pabyJPEGTable,
6493 : int nJPEGTableSize)
6494 : {
6495 409 : int nRemainingLen = nJPEGTableSize;
6496 409 : const GByte *pabyCur = pabyJPEGTable;
6497 :
6498 : struct CPLMD5Context context;
6499 409 : CPLMD5Init(&context);
6500 :
6501 : while (true)
6502 : {
6503 1060 : int nLenTable = 0;
6504 1060 : const GByte *pabyNew = GTIFFFindNextTable(pabyCur, MARKER_QUANT_TABLE,
6505 : nRemainingLen, &nLenTable);
6506 1060 : if (pabyNew == nullptr)
6507 409 : break;
6508 651 : CPLMD5Update(&context, pabyNew, nLenTable);
6509 651 : pabyNew += nLenTable;
6510 651 : nRemainingLen -= static_cast<int>(pabyNew - pabyCur);
6511 651 : pabyCur = pabyNew;
6512 651 : }
6513 :
6514 : GByte digest[16];
6515 409 : CPLMD5Final(digest, &context);
6516 :
6517 28846 : for (int i = 0; i < 100; i++)
6518 : {
6519 28843 : if (memcmp(md5JPEGQuantTable[i], digest, 16) == 0)
6520 : {
6521 406 : return i + 1;
6522 : }
6523 : }
6524 3 : return -1;
6525 : }
6526 :
6527 464 : int GTiffDataset::GuessJPEGQuality(bool &bOutHasQuantizationTable,
6528 : bool &bOutHasHuffmanTable)
6529 : {
6530 464 : CPLAssert(m_nCompression == COMPRESSION_JPEG);
6531 464 : uint32_t nJPEGTableSize = 0;
6532 464 : void *pJPEGTable = nullptr;
6533 464 : if (!TIFFGetField(m_hTIFF, TIFFTAG_JPEGTABLES, &nJPEGTableSize,
6534 : &pJPEGTable))
6535 : {
6536 14 : bOutHasQuantizationTable = false;
6537 14 : bOutHasHuffmanTable = false;
6538 14 : return -1;
6539 : }
6540 :
6541 450 : bOutHasQuantizationTable =
6542 450 : GTIFFFindNextTable(static_cast<const GByte *>(pJPEGTable),
6543 : MARKER_QUANT_TABLE, nJPEGTableSize,
6544 450 : nullptr) != nullptr;
6545 450 : bOutHasHuffmanTable =
6546 450 : GTIFFFindNextTable(static_cast<const GByte *>(pJPEGTable),
6547 : MARKER_HUFFMAN_TABLE, nJPEGTableSize,
6548 450 : nullptr) != nullptr;
6549 450 : if (!bOutHasQuantizationTable)
6550 7 : return -1;
6551 :
6552 443 : if ((nBands == 1 && m_nBitsPerSample == 8) ||
6553 382 : (nBands == 3 && m_nBitsPerSample == 8 &&
6554 336 : m_nPhotometric == PHOTOMETRIC_RGB) ||
6555 288 : (nBands == 4 && m_nBitsPerSample == 8 &&
6556 27 : m_nPhotometric == PHOTOMETRIC_SEPARATED))
6557 : {
6558 167 : return GuessJPEGQualityFromMD5(md5JPEGQuantTable_generic_8bit,
6559 : static_cast<const GByte *>(pJPEGTable),
6560 167 : static_cast<int>(nJPEGTableSize));
6561 : }
6562 :
6563 276 : if (nBands == 3 && m_nBitsPerSample == 8 &&
6564 242 : m_nPhotometric == PHOTOMETRIC_YCBCR)
6565 : {
6566 : int nRet =
6567 242 : GuessJPEGQualityFromMD5(md5JPEGQuantTable_3_YCBCR_8bit,
6568 : static_cast<const GByte *>(pJPEGTable),
6569 : static_cast<int>(nJPEGTableSize));
6570 242 : if (nRet < 0)
6571 : {
6572 : // libjpeg 9e has modified the YCbCr quantization tables.
6573 : nRet =
6574 0 : GuessJPEGQualityFromMD5(md5JPEGQuantTable_3_YCBCR_8bit_jpeg9e,
6575 : static_cast<const GByte *>(pJPEGTable),
6576 : static_cast<int>(nJPEGTableSize));
6577 : }
6578 242 : return nRet;
6579 : }
6580 :
6581 34 : char **papszLocalParameters = nullptr;
6582 : papszLocalParameters =
6583 34 : CSLSetNameValue(papszLocalParameters, "COMPRESS", "JPEG");
6584 34 : if (m_nPhotometric == PHOTOMETRIC_YCBCR)
6585 : papszLocalParameters =
6586 7 : CSLSetNameValue(papszLocalParameters, "PHOTOMETRIC", "YCBCR");
6587 27 : else if (m_nPhotometric == PHOTOMETRIC_SEPARATED)
6588 : papszLocalParameters =
6589 0 : CSLSetNameValue(papszLocalParameters, "PHOTOMETRIC", "CMYK");
6590 : papszLocalParameters =
6591 34 : CSLSetNameValue(papszLocalParameters, "BLOCKYSIZE", "16");
6592 34 : if (m_nBitsPerSample == 12)
6593 : papszLocalParameters =
6594 16 : CSLSetNameValue(papszLocalParameters, "NBITS", "12");
6595 :
6596 : const CPLString osTmpFilenameIn(
6597 34 : VSIMemGenerateHiddenFilename("gtiffdataset_guess_jpeg_quality_tmp"));
6598 :
6599 34 : int nRet = -1;
6600 938 : for (int nQuality = 0; nQuality <= 100 && nRet < 0; ++nQuality)
6601 : {
6602 904 : VSILFILE *fpTmp = nullptr;
6603 904 : if (nQuality == 0)
6604 : papszLocalParameters =
6605 34 : CSLSetNameValue(papszLocalParameters, "JPEG_QUALITY", "75");
6606 : else
6607 : papszLocalParameters =
6608 870 : CSLSetNameValue(papszLocalParameters, "JPEG_QUALITY",
6609 : CPLSPrintf("%d", nQuality));
6610 :
6611 904 : CPLPushErrorHandler(CPLQuietErrorHandler);
6612 904 : CPLString osTmp;
6613 : bool bTileInterleaving;
6614 1808 : TIFF *hTIFFTmp = CreateLL(
6615 904 : osTmpFilenameIn, 16, 16, (nBands <= 4) ? nBands : 1,
6616 : GetRasterBand(1)->GetRasterDataType(), 0.0, 0, papszLocalParameters,
6617 : &fpTmp, osTmp, /* bCreateCopy=*/false, bTileInterleaving);
6618 904 : CPLPopErrorHandler();
6619 904 : if (!hTIFFTmp)
6620 : {
6621 0 : break;
6622 : }
6623 :
6624 904 : TIFFWriteCheck(hTIFFTmp, FALSE, "CreateLL");
6625 904 : TIFFWriteDirectory(hTIFFTmp);
6626 904 : TIFFSetDirectory(hTIFFTmp, 0);
6627 : // Now reset jpegcolormode.
6628 1196 : if (m_nPhotometric == PHOTOMETRIC_YCBCR &&
6629 292 : CPLTestBool(CPLGetConfigOption("CONVERT_YCBCR_TO_RGB", "YES")))
6630 : {
6631 292 : TIFFSetField(hTIFFTmp, TIFFTAG_JPEGCOLORMODE, JPEGCOLORMODE_RGB);
6632 : }
6633 :
6634 904 : GByte abyZeroData[(16 * 16 * 4 * 3) / 2] = {};
6635 904 : const int nBlockSize =
6636 904 : (16 * 16 * ((nBands <= 4) ? nBands : 1) * m_nBitsPerSample) / 8;
6637 904 : TIFFWriteEncodedStrip(hTIFFTmp, 0, abyZeroData, nBlockSize);
6638 :
6639 904 : uint32_t nJPEGTableSizeTry = 0;
6640 904 : void *pJPEGTableTry = nullptr;
6641 904 : if (TIFFGetField(hTIFFTmp, TIFFTAG_JPEGTABLES, &nJPEGTableSizeTry,
6642 904 : &pJPEGTableTry))
6643 : {
6644 904 : if (GTIFFQuantizationTablesEqual(
6645 : static_cast<GByte *>(pJPEGTable), nJPEGTableSize,
6646 : static_cast<GByte *>(pJPEGTableTry), nJPEGTableSizeTry))
6647 : {
6648 34 : nRet = (nQuality == 0) ? 75 : nQuality;
6649 : }
6650 : }
6651 :
6652 904 : XTIFFClose(hTIFFTmp);
6653 904 : CPL_IGNORE_RET_VAL(VSIFCloseL(fpTmp));
6654 : }
6655 :
6656 34 : CSLDestroy(papszLocalParameters);
6657 34 : VSIUnlink(osTmpFilenameIn);
6658 :
6659 34 : return nRet;
6660 : }
6661 :
6662 : /************************************************************************/
6663 : /* SetJPEGQualityAndTablesModeFromFile() */
6664 : /************************************************************************/
6665 :
6666 161 : void GTiffDataset::SetJPEGQualityAndTablesModeFromFile(
6667 : int nQuality, bool bHasQuantizationTable, bool bHasHuffmanTable)
6668 : {
6669 161 : if (nQuality > 0)
6670 : {
6671 154 : CPLDebug("GTiff", "Guessed JPEG quality to be %d", nQuality);
6672 154 : m_nJpegQuality = static_cast<signed char>(nQuality);
6673 154 : TIFFSetField(m_hTIFF, TIFFTAG_JPEGQUALITY, nQuality);
6674 :
6675 : // This means we will use the quantization tables from the
6676 : // JpegTables tag.
6677 154 : m_nJpegTablesMode = JPEGTABLESMODE_QUANT;
6678 : }
6679 : else
6680 : {
6681 7 : uint32_t nJPEGTableSize = 0;
6682 7 : void *pJPEGTable = nullptr;
6683 7 : if (!TIFFGetField(m_hTIFF, TIFFTAG_JPEGTABLES, &nJPEGTableSize,
6684 : &pJPEGTable))
6685 : {
6686 4 : toff_t *panByteCounts = nullptr;
6687 8 : const int nBlockCount = m_nPlanarConfig == PLANARCONFIG_SEPARATE
6688 4 : ? m_nBlocksPerBand * nBands
6689 : : m_nBlocksPerBand;
6690 4 : if (TIFFIsTiled(m_hTIFF))
6691 1 : TIFFGetField(m_hTIFF, TIFFTAG_TILEBYTECOUNTS, &panByteCounts);
6692 : else
6693 3 : TIFFGetField(m_hTIFF, TIFFTAG_STRIPBYTECOUNTS, &panByteCounts);
6694 :
6695 4 : bool bFoundNonEmptyBlock = false;
6696 4 : if (panByteCounts != nullptr)
6697 : {
6698 56 : for (int iBlock = 0; iBlock < nBlockCount; ++iBlock)
6699 : {
6700 53 : if (panByteCounts[iBlock] != 0)
6701 : {
6702 1 : bFoundNonEmptyBlock = true;
6703 1 : break;
6704 : }
6705 : }
6706 : }
6707 4 : if (bFoundNonEmptyBlock)
6708 : {
6709 1 : CPLDebug("GTiff", "Could not guess JPEG quality. "
6710 : "JPEG tables are missing, so going in "
6711 : "TIFFTAG_JPEGTABLESMODE = 0/2 mode");
6712 : // Write quantization tables in each strile.
6713 1 : m_nJpegTablesMode = 0;
6714 : }
6715 : }
6716 : else
6717 : {
6718 3 : if (bHasQuantizationTable)
6719 : {
6720 : // FIXME in libtiff: this is likely going to cause issues
6721 : // since libtiff will reuse in each strile the number of
6722 : // the global quantization table, which is invalid.
6723 1 : CPLDebug("GTiff",
6724 : "Could not guess JPEG quality although JPEG "
6725 : "quantization tables are present, so going in "
6726 : "TIFFTAG_JPEGTABLESMODE = 0/2 mode");
6727 : }
6728 : else
6729 : {
6730 2 : CPLDebug("GTiff",
6731 : "Could not guess JPEG quality since JPEG "
6732 : "quantization tables are not present, so going in "
6733 : "TIFFTAG_JPEGTABLESMODE = 0/2 mode");
6734 : }
6735 :
6736 : // Write quantization tables in each strile.
6737 3 : m_nJpegTablesMode = 0;
6738 : }
6739 : }
6740 161 : if (bHasHuffmanTable)
6741 : {
6742 : // If there are Huffman tables in header use them, otherwise
6743 : // if we use optimized tables, libtiff will currently reuse
6744 : // the number of the Huffman tables of the header for the
6745 : // optimized version of each strile, which is illegal.
6746 23 : m_nJpegTablesMode |= JPEGTABLESMODE_HUFF;
6747 : }
6748 161 : if (m_nJpegTablesMode >= 0)
6749 159 : TIFFSetField(m_hTIFF, TIFFTAG_JPEGTABLESMODE, m_nJpegTablesMode);
6750 161 : }
6751 :
6752 : /************************************************************************/
6753 : /* Create() */
6754 : /* */
6755 : /* Create a new GeoTIFF or TIFF file. */
6756 : /************************************************************************/
6757 :
6758 5822 : GDALDataset *GTiffDataset::Create(const char *pszFilename, int nXSize,
6759 : int nYSize, int l_nBands, GDALDataType eType,
6760 : CSLConstList papszParamList)
6761 :
6762 : {
6763 5822 : VSILFILE *l_fpL = nullptr;
6764 11644 : CPLString l_osTmpFilename;
6765 :
6766 : const int nColorTableMultiplier = std::max(
6767 11644 : 1,
6768 11644 : std::min(257,
6769 5822 : atoi(CSLFetchNameValueDef(
6770 : papszParamList, "COLOR_TABLE_MULTIPLIER",
6771 5822 : CPLSPrintf("%d", DEFAULT_COLOR_TABLE_MULTIPLIER_257)))));
6772 :
6773 : /* -------------------------------------------------------------------- */
6774 : /* Create the underlying TIFF file. */
6775 : /* -------------------------------------------------------------------- */
6776 : bool bTileInterleaving;
6777 : TIFF *l_hTIFF =
6778 5822 : CreateLL(pszFilename, nXSize, nYSize, l_nBands, eType, 0,
6779 : nColorTableMultiplier, papszParamList, &l_fpL, l_osTmpFilename,
6780 : /* bCreateCopy=*/false, bTileInterleaving);
6781 5822 : const bool bStreaming = !l_osTmpFilename.empty();
6782 :
6783 5822 : if (l_hTIFF == nullptr)
6784 38 : return nullptr;
6785 :
6786 : /* -------------------------------------------------------------------- */
6787 : /* Create the new GTiffDataset object. */
6788 : /* -------------------------------------------------------------------- */
6789 11568 : auto poDS = std::make_unique<GTiffDataset>();
6790 5784 : poDS->m_hTIFF = l_hTIFF;
6791 5784 : poDS->m_fpL = l_fpL;
6792 5784 : const bool bSuppressASAP = CPLTestBool(
6793 : CSLFetchNameValueDef(papszParamList, "@SUPPRESS_ASAP", "NO"));
6794 5784 : if (bSuppressASAP)
6795 36 : poDS->MarkSuppressOnClose();
6796 5784 : if (bStreaming)
6797 : {
6798 4 : poDS->m_bStreamingOut = true;
6799 4 : poDS->m_pszTmpFilename = CPLStrdup(l_osTmpFilename);
6800 4 : poDS->m_fpToWrite = VSIFOpenL(pszFilename, "wb");
6801 4 : if (poDS->m_fpToWrite == nullptr)
6802 : {
6803 1 : VSIUnlink(l_osTmpFilename);
6804 1 : return nullptr;
6805 : }
6806 : }
6807 5783 : poDS->nRasterXSize = nXSize;
6808 5783 : poDS->nRasterYSize = nYSize;
6809 5783 : poDS->eAccess = GA_Update;
6810 :
6811 : // This will avoid GTiffDataset::GetSiblingFiles() to trigger a directory
6812 : // listing, which is potentially costly and only makes sense when opening
6813 : // new files, not creating new ones. Helps for scenario like
6814 : // https://github.com/OSGeo/gdal/issues/13930
6815 5783 : poDS->m_bHasGotSiblingFiles = true;
6816 :
6817 5783 : poDS->m_nColorTableMultiplier = nColorTableMultiplier;
6818 :
6819 5783 : poDS->m_bCrystalized = false;
6820 5783 : poDS->m_nSamplesPerPixel = static_cast<uint16_t>(l_nBands);
6821 5783 : poDS->m_osFilename = pszFilename;
6822 :
6823 : // Don't try to load external metadata files (#6597).
6824 5783 : poDS->m_bIMDRPCMetadataLoaded = true;
6825 :
6826 : // Avoid premature crystalization that will cause directory re-writing if
6827 : // GetProjectionRef() or GetGeoTransform() are called on the newly created
6828 : // GeoTIFF.
6829 5783 : poDS->m_bLookedForProjection = true;
6830 :
6831 5783 : TIFFGetField(l_hTIFF, TIFFTAG_SAMPLEFORMAT, &(poDS->m_nSampleFormat));
6832 5783 : TIFFGetField(l_hTIFF, TIFFTAG_PLANARCONFIG, &(poDS->m_nPlanarConfig));
6833 : // Weird that we need this, but otherwise we get a Valgrind warning on
6834 : // tiff_write_124.
6835 5783 : if (!TIFFGetField(l_hTIFF, TIFFTAG_PHOTOMETRIC, &(poDS->m_nPhotometric)))
6836 1 : poDS->m_nPhotometric = PHOTOMETRIC_MINISBLACK;
6837 5783 : TIFFGetField(l_hTIFF, TIFFTAG_BITSPERSAMPLE, &(poDS->m_nBitsPerSample));
6838 5783 : TIFFGetField(l_hTIFF, TIFFTAG_COMPRESSION, &(poDS->m_nCompression));
6839 :
6840 5783 : if (TIFFIsTiled(l_hTIFF))
6841 : {
6842 407 : TIFFGetField(l_hTIFF, TIFFTAG_TILEWIDTH, &(poDS->m_nBlockXSize));
6843 407 : TIFFGetField(l_hTIFF, TIFFTAG_TILELENGTH, &(poDS->m_nBlockYSize));
6844 : }
6845 : else
6846 : {
6847 5376 : if (!TIFFGetField(l_hTIFF, TIFFTAG_ROWSPERSTRIP,
6848 5376 : &(poDS->m_nRowsPerStrip)))
6849 0 : poDS->m_nRowsPerStrip = 1; // Dummy value.
6850 :
6851 5376 : poDS->m_nBlockXSize = nXSize;
6852 10752 : poDS->m_nBlockYSize =
6853 5376 : std::min(static_cast<int>(poDS->m_nRowsPerStrip), nYSize);
6854 : }
6855 :
6856 5783 : if (!poDS->ComputeBlocksPerColRowAndBand(l_nBands))
6857 : {
6858 0 : poDS->m_fpL->CancelCreation();
6859 0 : return nullptr;
6860 : }
6861 :
6862 5783 : poDS->m_eProfile = GetProfile(CSLFetchNameValue(papszParamList, "PROFILE"));
6863 :
6864 : /* -------------------------------------------------------------------- */
6865 : /* YCbCr JPEG compressed images should be translated on the fly */
6866 : /* to RGB by libtiff/libjpeg unless specifically requested */
6867 : /* otherwise. */
6868 : /* -------------------------------------------------------------------- */
6869 5783 : if (poDS->m_nCompression == COMPRESSION_JPEG &&
6870 5804 : poDS->m_nPhotometric == PHOTOMETRIC_YCBCR &&
6871 21 : CPLTestBool(CPLGetConfigOption("CONVERT_YCBCR_TO_RGB", "YES")))
6872 : {
6873 21 : int nColorMode = 0;
6874 :
6875 21 : poDS->SetMetadataItem("SOURCE_COLOR_SPACE", "YCbCr", "IMAGE_STRUCTURE");
6876 42 : if (!TIFFGetField(l_hTIFF, TIFFTAG_JPEGCOLORMODE, &nColorMode) ||
6877 21 : nColorMode != JPEGCOLORMODE_RGB)
6878 21 : TIFFSetField(l_hTIFF, TIFFTAG_JPEGCOLORMODE, JPEGCOLORMODE_RGB);
6879 : }
6880 :
6881 5783 : if (poDS->m_nCompression == COMPRESSION_LERC)
6882 : {
6883 26 : uint32_t nLercParamCount = 0;
6884 26 : uint32_t *panLercParams = nullptr;
6885 26 : if (TIFFGetField(l_hTIFF, TIFFTAG_LERC_PARAMETERS, &nLercParamCount,
6886 52 : &panLercParams) &&
6887 26 : nLercParamCount == 2)
6888 : {
6889 26 : memcpy(poDS->m_anLercAddCompressionAndVersion, panLercParams,
6890 : sizeof(poDS->m_anLercAddCompressionAndVersion));
6891 : }
6892 : }
6893 :
6894 : /* -------------------------------------------------------------------- */
6895 : /* Read palette back as a color table if it has one. */
6896 : /* -------------------------------------------------------------------- */
6897 5783 : unsigned short *panRed = nullptr;
6898 5783 : unsigned short *panGreen = nullptr;
6899 5783 : unsigned short *panBlue = nullptr;
6900 :
6901 5787 : if (poDS->m_nPhotometric == PHOTOMETRIC_PALETTE &&
6902 4 : TIFFGetField(l_hTIFF, TIFFTAG_COLORMAP, &panRed, &panGreen, &panBlue))
6903 : {
6904 :
6905 4 : poDS->m_poColorTable = std::make_unique<GDALColorTable>();
6906 :
6907 4 : const int nColorCount = 1 << poDS->m_nBitsPerSample;
6908 :
6909 1028 : for (int iColor = nColorCount - 1; iColor >= 0; iColor--)
6910 : {
6911 1024 : const GDALColorEntry oEntry = {
6912 1024 : static_cast<short>(panRed[iColor] / nColorTableMultiplier),
6913 1024 : static_cast<short>(panGreen[iColor] / nColorTableMultiplier),
6914 1024 : static_cast<short>(panBlue[iColor] / nColorTableMultiplier),
6915 1024 : static_cast<short>(255)};
6916 :
6917 1024 : poDS->m_poColorTable->SetColorEntry(iColor, &oEntry);
6918 : }
6919 : }
6920 :
6921 : /* -------------------------------------------------------------------- */
6922 : /* Do we want to ensure all blocks get written out on close to */
6923 : /* avoid sparse files? */
6924 : /* -------------------------------------------------------------------- */
6925 5783 : if (!CPLFetchBool(papszParamList, "SPARSE_OK", false))
6926 5673 : poDS->m_bFillEmptyTilesAtClosing = true;
6927 :
6928 5783 : poDS->m_bWriteEmptyTiles =
6929 6609 : bStreaming || (poDS->m_nCompression != COMPRESSION_NONE &&
6930 826 : poDS->m_bFillEmptyTilesAtClosing);
6931 : // Only required for people writing non-compressed striped files in the
6932 : // right order and wanting all tstrips to be written in the same order
6933 : // so that the end result can be memory mapped without knowledge of each
6934 : // strip offset.
6935 5783 : if (CPLTestBool(CSLFetchNameValueDef(
6936 11566 : papszParamList, "WRITE_EMPTY_TILES_SYNCHRONOUSLY", "FALSE")) ||
6937 5783 : CPLTestBool(CSLFetchNameValueDef(
6938 : papszParamList, "@WRITE_EMPTY_TILES_SYNCHRONOUSLY", "FALSE")))
6939 : {
6940 26 : poDS->m_bWriteEmptyTiles = true;
6941 : }
6942 :
6943 : /* -------------------------------------------------------------------- */
6944 : /* Preserve creation options for consulting later (for instance */
6945 : /* to decide if a TFW file should be written). */
6946 : /* -------------------------------------------------------------------- */
6947 5783 : poDS->m_papszCreationOptions = CSLDuplicate(papszParamList);
6948 :
6949 5783 : poDS->m_nZLevel = GTiffGetZLevel(papszParamList);
6950 5783 : poDS->m_nLZMAPreset = GTiffGetLZMAPreset(papszParamList);
6951 5783 : poDS->m_nZSTDLevel = GTiffGetZSTDPreset(papszParamList);
6952 5783 : poDS->m_nWebPLevel = GTiffGetWebPLevel(papszParamList);
6953 5783 : poDS->m_bWebPLossless = GTiffGetWebPLossless(papszParamList);
6954 5785 : if (poDS->m_nWebPLevel != 100 && poDS->m_bWebPLossless &&
6955 2 : CSLFetchNameValue(papszParamList, "WEBP_LEVEL"))
6956 : {
6957 0 : CPLError(CE_Warning, CPLE_AppDefined,
6958 : "WEBP_LEVEL is specified, but WEBP_LOSSLESS=YES. "
6959 : "WEBP_LEVEL will be ignored.");
6960 : }
6961 5783 : poDS->m_nJpegQuality = GTiffGetJpegQuality(papszParamList);
6962 5783 : poDS->m_nJpegTablesMode = GTiffGetJpegTablesMode(papszParamList);
6963 5783 : poDS->m_dfMaxZError = GTiffGetLERCMaxZError(papszParamList);
6964 5783 : poDS->m_dfMaxZErrorOverview = GTiffGetLERCMaxZErrorOverview(papszParamList);
6965 : #if HAVE_JXL
6966 5783 : poDS->m_bJXLLossless = GTiffGetJXLLossless(papszParamList);
6967 5783 : poDS->m_nJXLEffort = GTiffGetJXLEffort(papszParamList);
6968 5783 : poDS->m_fJXLDistance = GTiffGetJXLDistance(papszParamList);
6969 5783 : poDS->m_fJXLAlphaDistance = GTiffGetJXLAlphaDistance(papszParamList);
6970 : #endif
6971 5783 : poDS->InitCreationOrOpenOptions(true, papszParamList);
6972 :
6973 : /* -------------------------------------------------------------------- */
6974 : /* Create band information objects. */
6975 : /* -------------------------------------------------------------------- */
6976 308439 : for (int iBand = 0; iBand < l_nBands; ++iBand)
6977 : {
6978 371881 : if (poDS->m_nBitsPerSample == 8 || poDS->m_nBitsPerSample == 16 ||
6979 372133 : poDS->m_nBitsPerSample == 32 || poDS->m_nBitsPerSample == 64 ||
6980 252 : poDS->m_nBitsPerSample == 128)
6981 : {
6982 605160 : poDS->SetBand(iBand + 1, std::make_unique<GTiffRasterBand>(
6983 605160 : poDS.get(), iBand + 1));
6984 : }
6985 : else
6986 : {
6987 152 : poDS->SetBand(iBand + 1, std::make_unique<GTiffOddBitsBand>(
6988 76 : poDS.get(), iBand + 1));
6989 152 : poDS->GetRasterBand(iBand + 1)->SetMetadataItem(
6990 152 : "NBITS", CPLString().Printf("%d", poDS->m_nBitsPerSample),
6991 76 : "IMAGE_STRUCTURE");
6992 : }
6993 : }
6994 :
6995 5783 : poDS->GetDiscardLsbOption(papszParamList);
6996 :
6997 5783 : if (poDS->m_nPlanarConfig == PLANARCONFIG_CONTIG && l_nBands != 1)
6998 851 : poDS->SetMetadataItem("INTERLEAVE", "PIXEL", "IMAGE_STRUCTURE");
6999 : else
7000 4932 : poDS->SetMetadataItem("INTERLEAVE", "BAND", "IMAGE_STRUCTURE");
7001 :
7002 5783 : poDS->oOvManager.Initialize(poDS.get(), pszFilename);
7003 :
7004 5783 : return poDS.release();
7005 : }
7006 :
7007 : /************************************************************************/
7008 : /* CopyImageryAndMask() */
7009 : /************************************************************************/
7010 :
7011 354 : CPLErr GTiffDataset::CopyImageryAndMask(GTiffDataset *poDstDS,
7012 : GDALDataset *poSrcDS,
7013 : GDALRasterBand *poSrcMaskBand,
7014 : GDALProgressFunc pfnProgress,
7015 : void *pProgressData)
7016 : {
7017 354 : CPLErr eErr = CE_None;
7018 :
7019 354 : const auto eType = poDstDS->GetRasterBand(1)->GetRasterDataType();
7020 354 : const int nDataTypeSize = GDALGetDataTypeSizeBytes(eType);
7021 354 : const int l_nBands = poDstDS->GetRasterCount();
7022 : GByte *pBlockBuffer = static_cast<GByte *>(
7023 354 : VSI_MALLOC3_VERBOSE(poDstDS->m_nBlockXSize, poDstDS->m_nBlockYSize,
7024 : cpl::fits_on<int>(l_nBands * nDataTypeSize)));
7025 354 : if (pBlockBuffer == nullptr)
7026 : {
7027 0 : eErr = CE_Failure;
7028 : }
7029 354 : const int nYSize = poDstDS->nRasterYSize;
7030 354 : const int nXSize = poDstDS->nRasterXSize;
7031 : const bool bIsOddBand =
7032 354 : dynamic_cast<GTiffOddBitsBand *>(poDstDS->GetRasterBand(1)) != nullptr;
7033 :
7034 354 : if (poDstDS->m_poMaskDS)
7035 : {
7036 59 : CPLAssert(poDstDS->m_poMaskDS->m_nBlockXSize == poDstDS->m_nBlockXSize);
7037 59 : CPLAssert(poDstDS->m_poMaskDS->m_nBlockYSize == poDstDS->m_nBlockYSize);
7038 : }
7039 :
7040 354 : if (poDstDS->m_nPlanarConfig == PLANARCONFIG_SEPARATE &&
7041 58 : !poDstDS->m_bTileInterleave)
7042 : {
7043 45 : int iBlock = 0;
7044 45 : const int nBlocks = poDstDS->m_nBlocksPerBand *
7045 45 : (l_nBands + (poDstDS->m_poMaskDS ? 1 : 0));
7046 195 : for (int i = 0; eErr == CE_None && i < l_nBands; i++)
7047 : {
7048 345 : for (int iY = 0; iY < nYSize && eErr == CE_None;
7049 195 : iY = ((nYSize - iY < poDstDS->m_nBlockYSize)
7050 195 : ? nYSize
7051 59 : : iY + poDstDS->m_nBlockYSize))
7052 : {
7053 : const int nReqYSize =
7054 195 : std::min(nYSize - iY, poDstDS->m_nBlockYSize);
7055 495 : for (int iX = 0; iX < nXSize && eErr == CE_None;
7056 300 : iX = ((nXSize - iX < poDstDS->m_nBlockXSize)
7057 300 : ? nXSize
7058 155 : : iX + poDstDS->m_nBlockXSize))
7059 : {
7060 : const int nReqXSize =
7061 300 : std::min(nXSize - iX, poDstDS->m_nBlockXSize);
7062 300 : if (nReqXSize < poDstDS->m_nBlockXSize ||
7063 155 : nReqYSize < poDstDS->m_nBlockYSize)
7064 : {
7065 190 : memset(pBlockBuffer, 0,
7066 190 : static_cast<size_t>(poDstDS->m_nBlockXSize) *
7067 190 : poDstDS->m_nBlockYSize * nDataTypeSize);
7068 : }
7069 300 : eErr = poSrcDS->GetRasterBand(i + 1)->RasterIO(
7070 : GF_Read, iX, iY, nReqXSize, nReqYSize, pBlockBuffer,
7071 : nReqXSize, nReqYSize, eType, nDataTypeSize,
7072 300 : static_cast<GSpacing>(nDataTypeSize) *
7073 300 : poDstDS->m_nBlockXSize,
7074 : nullptr);
7075 300 : if (eErr == CE_None)
7076 : {
7077 300 : eErr = poDstDS->WriteEncodedTileOrStrip(
7078 : iBlock, pBlockBuffer, false);
7079 : }
7080 :
7081 300 : iBlock++;
7082 600 : if (pfnProgress &&
7083 300 : !pfnProgress(static_cast<double>(iBlock) / nBlocks,
7084 : nullptr, pProgressData))
7085 : {
7086 0 : eErr = CE_Failure;
7087 : }
7088 :
7089 300 : if (poDstDS->m_bWriteError)
7090 0 : eErr = CE_Failure;
7091 : }
7092 : }
7093 : }
7094 45 : if (poDstDS->m_poMaskDS && eErr == CE_None)
7095 : {
7096 6 : int iBlockMask = 0;
7097 17 : for (int iY = 0, nYBlock = 0; iY < nYSize && eErr == CE_None;
7098 11 : iY = ((nYSize - iY < poDstDS->m_nBlockYSize)
7099 11 : ? nYSize
7100 5 : : iY + poDstDS->m_nBlockYSize),
7101 : nYBlock++)
7102 : {
7103 : const int nReqYSize =
7104 11 : std::min(nYSize - iY, poDstDS->m_nBlockYSize);
7105 49 : for (int iX = 0, nXBlock = 0; iX < nXSize && eErr == CE_None;
7106 38 : iX = ((nXSize - iX < poDstDS->m_nBlockXSize)
7107 38 : ? nXSize
7108 30 : : iX + poDstDS->m_nBlockXSize),
7109 : nXBlock++)
7110 : {
7111 : const int nReqXSize =
7112 38 : std::min(nXSize - iX, poDstDS->m_nBlockXSize);
7113 38 : if (nReqXSize < poDstDS->m_nBlockXSize ||
7114 30 : nReqYSize < poDstDS->m_nBlockYSize)
7115 : {
7116 16 : memset(pBlockBuffer, 0,
7117 16 : static_cast<size_t>(poDstDS->m_nBlockXSize) *
7118 16 : poDstDS->m_nBlockYSize);
7119 : }
7120 76 : eErr = poSrcMaskBand->RasterIO(
7121 : GF_Read, iX, iY, nReqXSize, nReqYSize, pBlockBuffer,
7122 : nReqXSize, nReqYSize, GDT_UInt8, 1,
7123 38 : poDstDS->m_nBlockXSize, nullptr);
7124 38 : if (eErr == CE_None)
7125 : {
7126 : // Avoid any attempt to load from disk
7127 38 : poDstDS->m_poMaskDS->m_nLoadedBlock = iBlockMask;
7128 : eErr =
7129 38 : poDstDS->m_poMaskDS->GetRasterBand(1)->WriteBlock(
7130 : nXBlock, nYBlock, pBlockBuffer);
7131 38 : if (eErr == CE_None)
7132 38 : eErr = poDstDS->m_poMaskDS->FlushBlockBuf();
7133 : }
7134 :
7135 38 : iBlockMask++;
7136 76 : if (pfnProgress &&
7137 38 : !pfnProgress(static_cast<double>(iBlock + iBlockMask) /
7138 : nBlocks,
7139 : nullptr, pProgressData))
7140 : {
7141 0 : eErr = CE_Failure;
7142 : }
7143 :
7144 38 : if (poDstDS->m_poMaskDS->m_bWriteError)
7145 0 : eErr = CE_Failure;
7146 : }
7147 : }
7148 45 : }
7149 : }
7150 : else
7151 : {
7152 309 : int iBlock = 0;
7153 309 : const int nBlocks = poDstDS->m_nBlocksPerBand;
7154 7127 : for (int iY = 0, nYBlock = 0; iY < nYSize && eErr == CE_None;
7155 6818 : iY = ((nYSize - iY < poDstDS->m_nBlockYSize)
7156 6818 : ? nYSize
7157 6584 : : iY + poDstDS->m_nBlockYSize),
7158 : nYBlock++)
7159 : {
7160 6818 : const int nReqYSize = std::min(nYSize - iY, poDstDS->m_nBlockYSize);
7161 26645 : for (int iX = 0, nXBlock = 0; iX < nXSize && eErr == CE_None;
7162 19827 : iX = ((nXSize - iX < poDstDS->m_nBlockXSize)
7163 19827 : ? nXSize
7164 19506 : : iX + poDstDS->m_nBlockXSize),
7165 : nXBlock++)
7166 : {
7167 : const int nReqXSize =
7168 19827 : std::min(nXSize - iX, poDstDS->m_nBlockXSize);
7169 19827 : if (nReqXSize < poDstDS->m_nBlockXSize ||
7170 19506 : nReqYSize < poDstDS->m_nBlockYSize)
7171 : {
7172 507 : memset(pBlockBuffer, 0,
7173 507 : static_cast<size_t>(poDstDS->m_nBlockXSize) *
7174 507 : poDstDS->m_nBlockYSize * l_nBands *
7175 507 : nDataTypeSize);
7176 : }
7177 :
7178 19827 : if (poDstDS->m_bTileInterleave)
7179 : {
7180 114 : eErr = poSrcDS->RasterIO(
7181 : GF_Read, iX, iY, nReqXSize, nReqYSize, pBlockBuffer,
7182 : nReqXSize, nReqYSize, eType, l_nBands, nullptr,
7183 : nDataTypeSize,
7184 57 : static_cast<GSpacing>(nDataTypeSize) *
7185 57 : poDstDS->m_nBlockXSize,
7186 57 : static_cast<GSpacing>(nDataTypeSize) *
7187 57 : poDstDS->m_nBlockXSize * poDstDS->m_nBlockYSize,
7188 : nullptr);
7189 57 : if (eErr == CE_None)
7190 : {
7191 228 : for (int i = 0; eErr == CE_None && i < l_nBands; i++)
7192 : {
7193 171 : eErr = poDstDS->WriteEncodedTileOrStrip(
7194 171 : iBlock + i * poDstDS->m_nBlocksPerBand,
7195 171 : pBlockBuffer + static_cast<size_t>(i) *
7196 171 : poDstDS->m_nBlockXSize *
7197 171 : poDstDS->m_nBlockYSize *
7198 171 : nDataTypeSize,
7199 : false);
7200 : }
7201 : }
7202 : }
7203 19770 : else if (!bIsOddBand)
7204 : {
7205 39418 : eErr = poSrcDS->RasterIO(
7206 : GF_Read, iX, iY, nReqXSize, nReqYSize, pBlockBuffer,
7207 : nReqXSize, nReqYSize, eType, l_nBands, nullptr,
7208 19709 : static_cast<GSpacing>(nDataTypeSize) * l_nBands,
7209 19709 : static_cast<GSpacing>(nDataTypeSize) * l_nBands *
7210 19709 : poDstDS->m_nBlockXSize,
7211 : nDataTypeSize, nullptr);
7212 19709 : if (eErr == CE_None)
7213 : {
7214 19708 : eErr = poDstDS->WriteEncodedTileOrStrip(
7215 : iBlock, pBlockBuffer, false);
7216 : }
7217 : }
7218 : else
7219 : {
7220 : // In the odd bit case, this is a bit messy to ensure
7221 : // the strile gets written synchronously.
7222 : // We load the content of the n-1 bands in the cache,
7223 : // and for the last band we invoke WriteBlock() directly
7224 : // We also force FlushBlockBuf()
7225 122 : std::vector<GDALRasterBlock *> apoLockedBlocks;
7226 91 : for (int i = 0; eErr == CE_None && i < l_nBands - 1; i++)
7227 : {
7228 : auto poBlock =
7229 30 : poDstDS->GetRasterBand(i + 1)->GetLockedBlockRef(
7230 30 : nXBlock, nYBlock, TRUE);
7231 30 : if (poBlock)
7232 : {
7233 60 : eErr = poSrcDS->GetRasterBand(i + 1)->RasterIO(
7234 : GF_Read, iX, iY, nReqXSize, nReqYSize,
7235 : poBlock->GetDataRef(), nReqXSize, nReqYSize,
7236 : eType, nDataTypeSize,
7237 30 : static_cast<GSpacing>(nDataTypeSize) *
7238 30 : poDstDS->m_nBlockXSize,
7239 : nullptr);
7240 30 : poBlock->MarkDirty();
7241 30 : apoLockedBlocks.emplace_back(poBlock);
7242 : }
7243 : else
7244 : {
7245 0 : eErr = CE_Failure;
7246 : }
7247 : }
7248 61 : if (eErr == CE_None)
7249 : {
7250 122 : eErr = poSrcDS->GetRasterBand(l_nBands)->RasterIO(
7251 : GF_Read, iX, iY, nReqXSize, nReqYSize, pBlockBuffer,
7252 : nReqXSize, nReqYSize, eType, nDataTypeSize,
7253 61 : static_cast<GSpacing>(nDataTypeSize) *
7254 61 : poDstDS->m_nBlockXSize,
7255 : nullptr);
7256 : }
7257 61 : if (eErr == CE_None)
7258 : {
7259 : // Avoid any attempt to load from disk
7260 61 : poDstDS->m_nLoadedBlock = iBlock;
7261 61 : eErr = poDstDS->GetRasterBand(l_nBands)->WriteBlock(
7262 : nXBlock, nYBlock, pBlockBuffer);
7263 61 : if (eErr == CE_None)
7264 61 : eErr = poDstDS->FlushBlockBuf();
7265 : }
7266 91 : for (auto poBlock : apoLockedBlocks)
7267 : {
7268 30 : poBlock->MarkClean();
7269 30 : poBlock->DropLock();
7270 : }
7271 : }
7272 :
7273 19827 : if (eErr == CE_None && poDstDS->m_poMaskDS)
7274 : {
7275 4664 : if (nReqXSize < poDstDS->m_nBlockXSize ||
7276 4621 : nReqYSize < poDstDS->m_nBlockYSize)
7277 : {
7278 81 : memset(pBlockBuffer, 0,
7279 81 : static_cast<size_t>(poDstDS->m_nBlockXSize) *
7280 81 : poDstDS->m_nBlockYSize);
7281 : }
7282 9328 : eErr = poSrcMaskBand->RasterIO(
7283 : GF_Read, iX, iY, nReqXSize, nReqYSize, pBlockBuffer,
7284 : nReqXSize, nReqYSize, GDT_UInt8, 1,
7285 4664 : poDstDS->m_nBlockXSize, nullptr);
7286 4664 : if (eErr == CE_None)
7287 : {
7288 : // Avoid any attempt to load from disk
7289 4664 : poDstDS->m_poMaskDS->m_nLoadedBlock = iBlock;
7290 : eErr =
7291 4664 : poDstDS->m_poMaskDS->GetRasterBand(1)->WriteBlock(
7292 : nXBlock, nYBlock, pBlockBuffer);
7293 4664 : if (eErr == CE_None)
7294 4664 : eErr = poDstDS->m_poMaskDS->FlushBlockBuf();
7295 : }
7296 : }
7297 19827 : if (poDstDS->m_bWriteError)
7298 6 : eErr = CE_Failure;
7299 :
7300 19827 : iBlock++;
7301 39654 : if (pfnProgress &&
7302 19827 : !pfnProgress(static_cast<double>(iBlock) / nBlocks, nullptr,
7303 : pProgressData))
7304 : {
7305 0 : eErr = CE_Failure;
7306 : }
7307 : }
7308 : }
7309 : }
7310 :
7311 354 : poDstDS->FlushCache(false); // mostly to wait for thread completion
7312 354 : VSIFree(pBlockBuffer);
7313 :
7314 354 : return eErr;
7315 : }
7316 :
7317 : /************************************************************************/
7318 : /* CreateCopy() */
7319 : /************************************************************************/
7320 :
7321 2167 : GDALDataset *GTiffDataset::CreateCopy(const char *pszFilename,
7322 : GDALDataset *poSrcDS, int bStrict,
7323 : CSLConstList papszOptions,
7324 : GDALProgressFunc pfnProgress,
7325 : void *pProgressData)
7326 :
7327 : {
7328 2167 : if (poSrcDS->GetRasterCount() == 0)
7329 : {
7330 2 : ReportError(pszFilename, CE_Failure, CPLE_AppDefined,
7331 : "Unable to export GeoTIFF files with zero bands.");
7332 2 : return nullptr;
7333 : }
7334 :
7335 2165 : GDALRasterBand *const poPBand = poSrcDS->GetRasterBand(1);
7336 2165 : GDALDataType eType = poPBand->GetRasterDataType();
7337 :
7338 : /* -------------------------------------------------------------------- */
7339 : /* Check, whether all bands in input dataset has the same type. */
7340 : /* -------------------------------------------------------------------- */
7341 2165 : const int l_nBands = poSrcDS->GetRasterCount();
7342 5098 : for (int iBand = 2; iBand <= l_nBands; ++iBand)
7343 : {
7344 2933 : if (eType != poSrcDS->GetRasterBand(iBand)->GetRasterDataType())
7345 : {
7346 0 : if (bStrict)
7347 : {
7348 0 : ReportError(
7349 : pszFilename, CE_Failure, CPLE_AppDefined,
7350 : "Unable to export GeoTIFF file with different datatypes "
7351 : "per different bands. All bands should have the same "
7352 : "types in TIFF.");
7353 0 : return nullptr;
7354 : }
7355 : else
7356 : {
7357 0 : ReportError(
7358 : pszFilename, CE_Warning, CPLE_AppDefined,
7359 : "Unable to export GeoTIFF file with different datatypes "
7360 : "per different bands. All bands should have the same "
7361 : "types in TIFF.");
7362 : }
7363 : }
7364 : }
7365 :
7366 : /* -------------------------------------------------------------------- */
7367 : /* Capture the profile. */
7368 : /* -------------------------------------------------------------------- */
7369 : const GTiffProfile eProfile =
7370 2165 : GetProfile(CSLFetchNameValue(papszOptions, "PROFILE"));
7371 :
7372 2165 : const bool bGeoTIFF = eProfile != GTiffProfile::BASELINE;
7373 :
7374 : /* -------------------------------------------------------------------- */
7375 : /* Special handling for NBITS. Copy from band metadata if found. */
7376 : /* -------------------------------------------------------------------- */
7377 2165 : char **papszCreateOptions = CSLDuplicate(papszOptions);
7378 :
7379 2165 : if (poPBand->GetMetadataItem("NBITS", "IMAGE_STRUCTURE") != nullptr &&
7380 2182 : atoi(poPBand->GetMetadataItem("NBITS", "IMAGE_STRUCTURE")) > 0 &&
7381 17 : CSLFetchNameValue(papszCreateOptions, "NBITS") == nullptr)
7382 : {
7383 3 : papszCreateOptions = CSLSetNameValue(
7384 : papszCreateOptions, "NBITS",
7385 3 : poPBand->GetMetadataItem("NBITS", "IMAGE_STRUCTURE"));
7386 : }
7387 :
7388 2165 : if (CSLFetchNameValue(papszOptions, "PIXELTYPE") == nullptr &&
7389 : eType == GDT_UInt8)
7390 : {
7391 1795 : poPBand->EnablePixelTypeSignedByteWarning(false);
7392 : const char *pszPixelType =
7393 1795 : poPBand->GetMetadataItem("PIXELTYPE", "IMAGE_STRUCTURE");
7394 1795 : poPBand->EnablePixelTypeSignedByteWarning(true);
7395 1795 : if (pszPixelType)
7396 : {
7397 1 : papszCreateOptions =
7398 1 : CSLSetNameValue(papszCreateOptions, "PIXELTYPE", pszPixelType);
7399 : }
7400 : }
7401 :
7402 : /* -------------------------------------------------------------------- */
7403 : /* Color profile. Copy from band metadata if found. */
7404 : /* -------------------------------------------------------------------- */
7405 2165 : if (bGeoTIFF)
7406 : {
7407 2148 : const char *pszOptionsMD[] = {"SOURCE_ICC_PROFILE",
7408 : "SOURCE_PRIMARIES_RED",
7409 : "SOURCE_PRIMARIES_GREEN",
7410 : "SOURCE_PRIMARIES_BLUE",
7411 : "SOURCE_WHITEPOINT",
7412 : "TIFFTAG_TRANSFERFUNCTION_RED",
7413 : "TIFFTAG_TRANSFERFUNCTION_GREEN",
7414 : "TIFFTAG_TRANSFERFUNCTION_BLUE",
7415 : "TIFFTAG_TRANSFERRANGE_BLACK",
7416 : "TIFFTAG_TRANSFERRANGE_WHITE",
7417 : nullptr};
7418 :
7419 : // Copy all the tags. Options will override tags in the source.
7420 2148 : int i = 0;
7421 23608 : while (pszOptionsMD[i] != nullptr)
7422 : {
7423 : char const *pszMD =
7424 21462 : CSLFetchNameValue(papszOptions, pszOptionsMD[i]);
7425 21462 : if (pszMD == nullptr)
7426 : pszMD =
7427 21454 : poSrcDS->GetMetadataItem(pszOptionsMD[i], "COLOR_PROFILE");
7428 :
7429 21462 : if ((pszMD != nullptr) && !EQUAL(pszMD, ""))
7430 : {
7431 16 : papszCreateOptions =
7432 16 : CSLSetNameValue(papszCreateOptions, pszOptionsMD[i], pszMD);
7433 :
7434 : // If an ICC profile exists, other tags are not needed.
7435 16 : if (EQUAL(pszOptionsMD[i], "SOURCE_ICC_PROFILE"))
7436 2 : break;
7437 : }
7438 :
7439 21460 : ++i;
7440 : }
7441 : }
7442 :
7443 2165 : double dfExtraSpaceForOverviews = 0;
7444 : const bool bCopySrcOverviews =
7445 2165 : CPLFetchBool(papszCreateOptions, "COPY_SRC_OVERVIEWS", false);
7446 2165 : std::unique_ptr<GDALDataset> poOvrDS;
7447 2165 : int nSrcOverviews = 0;
7448 2165 : if (bCopySrcOverviews)
7449 : {
7450 : const char *pszOvrDS =
7451 233 : CSLFetchNameValue(papszCreateOptions, "@OVERVIEW_DATASET");
7452 233 : if (pszOvrDS)
7453 : {
7454 : // Empty string is used by COG driver to indicate that we want
7455 : // to ignore source overviews.
7456 39 : if (!EQUAL(pszOvrDS, ""))
7457 : {
7458 37 : poOvrDS.reset(GDALDataset::Open(pszOvrDS));
7459 37 : if (!poOvrDS)
7460 : {
7461 0 : CSLDestroy(papszCreateOptions);
7462 0 : return nullptr;
7463 : }
7464 37 : if (poOvrDS->GetRasterCount() != l_nBands)
7465 : {
7466 0 : CSLDestroy(papszCreateOptions);
7467 0 : return nullptr;
7468 : }
7469 37 : nSrcOverviews =
7470 37 : poOvrDS->GetRasterBand(1)->GetOverviewCount() + 1;
7471 : }
7472 : }
7473 : else
7474 : {
7475 194 : nSrcOverviews = poSrcDS->GetRasterBand(1)->GetOverviewCount();
7476 : }
7477 :
7478 : // Limit number of overviews if specified
7479 : const char *pszOverviewCount =
7480 233 : CSLFetchNameValue(papszCreateOptions, "@OVERVIEW_COUNT");
7481 233 : if (pszOverviewCount)
7482 8 : nSrcOverviews =
7483 8 : std::max(0, std::min(nSrcOverviews, atoi(pszOverviewCount)));
7484 :
7485 233 : if (nSrcOverviews)
7486 : {
7487 208 : for (int j = 1; j <= l_nBands; ++j)
7488 : {
7489 : const int nOtherBandOverviewCount =
7490 136 : poOvrDS ? poOvrDS->GetRasterBand(j)->GetOverviewCount() + 1
7491 200 : : poSrcDS->GetRasterBand(j)->GetOverviewCount();
7492 136 : if (nOtherBandOverviewCount < nSrcOverviews)
7493 : {
7494 1 : ReportError(
7495 : pszFilename, CE_Failure, CPLE_NotSupported,
7496 : "COPY_SRC_OVERVIEWS cannot be used when the bands have "
7497 : "not the same number of overview levels.");
7498 1 : CSLDestroy(papszCreateOptions);
7499 1 : return nullptr;
7500 : }
7501 395 : for (int i = 0; i < nSrcOverviews; ++i)
7502 : {
7503 : GDALRasterBand *poOvrBand =
7504 : poOvrDS
7505 361 : ? (i == 0 ? poOvrDS->GetRasterBand(j)
7506 198 : : poOvrDS->GetRasterBand(j)->GetOverview(
7507 99 : i - 1))
7508 353 : : poSrcDS->GetRasterBand(j)->GetOverview(i);
7509 262 : if (poOvrBand == nullptr)
7510 : {
7511 1 : ReportError(
7512 : pszFilename, CE_Failure, CPLE_NotSupported,
7513 : "COPY_SRC_OVERVIEWS cannot be used when one "
7514 : "overview band is NULL.");
7515 1 : CSLDestroy(papszCreateOptions);
7516 1 : return nullptr;
7517 : }
7518 : GDALRasterBand *poOvrFirstBand =
7519 : poOvrDS
7520 360 : ? (i == 0 ? poOvrDS->GetRasterBand(1)
7521 198 : : poOvrDS->GetRasterBand(1)->GetOverview(
7522 99 : i - 1))
7523 351 : : poSrcDS->GetRasterBand(1)->GetOverview(i);
7524 521 : if (poOvrBand->GetXSize() != poOvrFirstBand->GetXSize() ||
7525 260 : poOvrBand->GetYSize() != poOvrFirstBand->GetYSize())
7526 : {
7527 1 : ReportError(
7528 : pszFilename, CE_Failure, CPLE_NotSupported,
7529 : "COPY_SRC_OVERVIEWS cannot be used when the "
7530 : "overview bands have not the same dimensions "
7531 : "among bands.");
7532 1 : CSLDestroy(papszCreateOptions);
7533 1 : return nullptr;
7534 : }
7535 : }
7536 : }
7537 :
7538 205 : for (int i = 0; i < nSrcOverviews; ++i)
7539 : {
7540 : GDALRasterBand *poOvrFirstBand =
7541 : poOvrDS
7542 211 : ? (i == 0
7543 78 : ? poOvrDS->GetRasterBand(1)
7544 41 : : poOvrDS->GetRasterBand(1)->GetOverview(i - 1))
7545 188 : : poSrcDS->GetRasterBand(1)->GetOverview(i);
7546 133 : dfExtraSpaceForOverviews +=
7547 133 : static_cast<double>(poOvrFirstBand->GetXSize()) *
7548 133 : poOvrFirstBand->GetYSize();
7549 : }
7550 72 : dfExtraSpaceForOverviews *=
7551 72 : l_nBands * GDALGetDataTypeSizeBytes(eType);
7552 : }
7553 : else
7554 : {
7555 158 : CPLDebug("GTiff", "No source overviews to copy");
7556 : }
7557 : }
7558 :
7559 : /* -------------------------------------------------------------------- */
7560 : /* Should we use optimized way of copying from an input JPEG */
7561 : /* dataset? */
7562 : /* -------------------------------------------------------------------- */
7563 :
7564 : // TODO(schwehr): Refactor bDirectCopyFromJPEG to be a const.
7565 : #if defined(HAVE_LIBJPEG) || defined(JPEG_DIRECT_COPY)
7566 2162 : bool bDirectCopyFromJPEG = false;
7567 : #endif
7568 :
7569 : // Note: JPEG_DIRECT_COPY is not defined by default, because it is mainly
7570 : // useful for debugging purposes.
7571 : #ifdef JPEG_DIRECT_COPY
7572 : if (CPLFetchBool(papszCreateOptions, "JPEG_DIRECT_COPY", false) &&
7573 : GTIFF_CanDirectCopyFromJPEG(poSrcDS, papszCreateOptions))
7574 : {
7575 : CPLDebug("GTiff", "Using special direct copy mode from a JPEG dataset");
7576 :
7577 : bDirectCopyFromJPEG = true;
7578 : }
7579 : #endif
7580 :
7581 : #ifdef HAVE_LIBJPEG
7582 2162 : bool bCopyFromJPEG = false;
7583 :
7584 : // When CreateCopy'ing() from a JPEG dataset, and asking for COMPRESS=JPEG,
7585 : // use DCT coefficients (unless other options are incompatible, like
7586 : // strip/tile dimensions, specifying JPEG_QUALITY option, incompatible
7587 : // PHOTOMETRIC with the source colorspace, etc.) to avoid the lossy steps
7588 : // involved by decompression/recompression.
7589 4324 : if (!bDirectCopyFromJPEG &&
7590 2162 : GTIFF_CanCopyFromJPEG(poSrcDS, papszCreateOptions))
7591 : {
7592 12 : CPLDebug("GTiff", "Using special copy mode from a JPEG dataset");
7593 :
7594 12 : bCopyFromJPEG = true;
7595 : }
7596 : #endif
7597 :
7598 : /* -------------------------------------------------------------------- */
7599 : /* If the source is RGB, then set the PHOTOMETRIC=RGB value */
7600 : /* -------------------------------------------------------------------- */
7601 :
7602 : const bool bForcePhotometric =
7603 2162 : CSLFetchNameValue(papszOptions, "PHOTOMETRIC") != nullptr;
7604 :
7605 1231 : if (l_nBands >= 3 && !bForcePhotometric &&
7606 : #ifdef HAVE_LIBJPEG
7607 1193 : !bCopyFromJPEG &&
7608 : #endif
7609 1187 : poSrcDS->GetRasterBand(1)->GetColorInterpretation() == GCI_RedBand &&
7610 4468 : poSrcDS->GetRasterBand(2)->GetColorInterpretation() == GCI_GreenBand &&
7611 1075 : poSrcDS->GetRasterBand(3)->GetColorInterpretation() == GCI_BlueBand)
7612 : {
7613 1069 : papszCreateOptions =
7614 1069 : CSLSetNameValue(papszCreateOptions, "PHOTOMETRIC", "RGB");
7615 : }
7616 :
7617 : /* -------------------------------------------------------------------- */
7618 : /* Create the file. */
7619 : /* -------------------------------------------------------------------- */
7620 2162 : VSILFILE *l_fpL = nullptr;
7621 4324 : CPLString l_osTmpFilename;
7622 :
7623 2162 : const int nXSize = poSrcDS->GetRasterXSize();
7624 2162 : const int nYSize = poSrcDS->GetRasterYSize();
7625 :
7626 : const int nColorTableMultiplier = std::max(
7627 4324 : 1,
7628 4324 : std::min(257,
7629 2162 : atoi(CSLFetchNameValueDef(
7630 : papszOptions, "COLOR_TABLE_MULTIPLIER",
7631 2162 : CPLSPrintf("%d", DEFAULT_COLOR_TABLE_MULTIPLIER_257)))));
7632 :
7633 2162 : bool bTileInterleaving = false;
7634 2162 : TIFF *l_hTIFF = CreateLL(pszFilename, nXSize, nYSize, l_nBands, eType,
7635 : dfExtraSpaceForOverviews, nColorTableMultiplier,
7636 : papszCreateOptions, &l_fpL, l_osTmpFilename,
7637 : /* bCreateCopy = */ true, bTileInterleaving);
7638 2162 : const bool bStreaming = !l_osTmpFilename.empty();
7639 :
7640 2162 : CSLDestroy(papszCreateOptions);
7641 2162 : papszCreateOptions = nullptr;
7642 :
7643 2162 : if (l_hTIFF == nullptr)
7644 : {
7645 18 : if (bStreaming)
7646 0 : VSIUnlink(l_osTmpFilename);
7647 18 : return nullptr;
7648 : }
7649 :
7650 2144 : uint16_t l_nPlanarConfig = 0;
7651 2144 : TIFFGetField(l_hTIFF, TIFFTAG_PLANARCONFIG, &l_nPlanarConfig);
7652 :
7653 2144 : uint16_t l_nCompression = 0;
7654 :
7655 2144 : if (!TIFFGetField(l_hTIFF, TIFFTAG_COMPRESSION, &(l_nCompression)))
7656 0 : l_nCompression = COMPRESSION_NONE;
7657 :
7658 : /* -------------------------------------------------------------------- */
7659 : /* Set the alpha channel if we find one. */
7660 : /* -------------------------------------------------------------------- */
7661 2144 : uint16_t *extraSamples = nullptr;
7662 2144 : uint16_t nExtraSamples = 0;
7663 2144 : if (TIFFGetField(l_hTIFF, TIFFTAG_EXTRASAMPLES, &nExtraSamples,
7664 2409 : &extraSamples) &&
7665 265 : nExtraSamples > 0)
7666 : {
7667 : // We need to allocate a new array as (current) libtiff
7668 : // versions will not like that we reuse the array we got from
7669 : // TIFFGetField().
7670 : uint16_t *pasNewExtraSamples = static_cast<uint16_t *>(
7671 265 : CPLMalloc(nExtraSamples * sizeof(uint16_t)));
7672 265 : memcpy(pasNewExtraSamples, extraSamples,
7673 265 : nExtraSamples * sizeof(uint16_t));
7674 265 : const char *pszAlpha = CPLGetConfigOption(
7675 : "GTIFF_ALPHA", CSLFetchNameValue(papszOptions, "ALPHA"));
7676 : const uint16_t nAlpha =
7677 265 : GTiffGetAlphaValue(pszAlpha, DEFAULT_ALPHA_TYPE);
7678 265 : const int nBaseSamples = l_nBands - nExtraSamples;
7679 895 : for (int iExtraBand = nBaseSamples + 1; iExtraBand <= l_nBands;
7680 : iExtraBand++)
7681 : {
7682 630 : if (poSrcDS->GetRasterBand(iExtraBand)->GetColorInterpretation() ==
7683 : GCI_AlphaBand)
7684 : {
7685 145 : pasNewExtraSamples[iExtraBand - nBaseSamples - 1] = nAlpha;
7686 145 : if (!pszAlpha)
7687 : {
7688 : // Use the ALPHA metadata item from the source band, when
7689 : // present, if no explicit ALPHA creation option
7690 286 : pasNewExtraSamples[iExtraBand - nBaseSamples - 1] =
7691 143 : GTiffGetAlphaValue(
7692 143 : poSrcDS->GetRasterBand(iExtraBand)
7693 143 : ->GetMetadataItem("ALPHA", "IMAGE_STRUCTURE"),
7694 : nAlpha);
7695 : }
7696 : }
7697 : }
7698 265 : TIFFSetField(l_hTIFF, TIFFTAG_EXTRASAMPLES, nExtraSamples,
7699 : pasNewExtraSamples);
7700 :
7701 265 : CPLFree(pasNewExtraSamples);
7702 : }
7703 :
7704 : /* -------------------------------------------------------------------- */
7705 : /* If the output is jpeg compressed, and the input is RGB make */
7706 : /* sure we note that. */
7707 : /* -------------------------------------------------------------------- */
7708 :
7709 2144 : if (l_nCompression == COMPRESSION_JPEG)
7710 : {
7711 134 : if (l_nBands >= 3 &&
7712 58 : (poSrcDS->GetRasterBand(1)->GetColorInterpretation() ==
7713 0 : GCI_YCbCr_YBand) &&
7714 0 : (poSrcDS->GetRasterBand(2)->GetColorInterpretation() ==
7715 134 : GCI_YCbCr_CbBand) &&
7716 0 : (poSrcDS->GetRasterBand(3)->GetColorInterpretation() ==
7717 : GCI_YCbCr_CrBand))
7718 : {
7719 : // Do nothing.
7720 : }
7721 : else
7722 : {
7723 : // Assume RGB if it is not explicitly YCbCr.
7724 76 : CPLDebug("GTiff", "Setting JPEGCOLORMODE_RGB");
7725 76 : TIFFSetField(l_hTIFF, TIFFTAG_JPEGCOLORMODE, JPEGCOLORMODE_RGB);
7726 : }
7727 : }
7728 :
7729 : /* -------------------------------------------------------------------- */
7730 : /* Does the source image consist of one band, with a palette? */
7731 : /* If so, copy over. */
7732 : /* -------------------------------------------------------------------- */
7733 1317 : if ((l_nBands == 1 || l_nBands == 2) &&
7734 3461 : poSrcDS->GetRasterBand(1)->GetColorTable() != nullptr &&
7735 : eType == GDT_UInt8)
7736 : {
7737 21 : unsigned short anTRed[256] = {0};
7738 21 : unsigned short anTGreen[256] = {0};
7739 21 : unsigned short anTBlue[256] = {0};
7740 21 : GDALColorTable *poCT = poSrcDS->GetRasterBand(1)->GetColorTable();
7741 :
7742 5397 : for (int iColor = 0; iColor < 256; ++iColor)
7743 : {
7744 5376 : if (iColor < poCT->GetColorEntryCount())
7745 : {
7746 4241 : GDALColorEntry sRGB = {0, 0, 0, 0};
7747 :
7748 4241 : poCT->GetColorEntryAsRGB(iColor, &sRGB);
7749 :
7750 8482 : anTRed[iColor] = GTiffDataset::ClampCTEntry(
7751 4241 : iColor, 1, sRGB.c1, nColorTableMultiplier);
7752 8482 : anTGreen[iColor] = GTiffDataset::ClampCTEntry(
7753 4241 : iColor, 2, sRGB.c2, nColorTableMultiplier);
7754 4241 : anTBlue[iColor] = GTiffDataset::ClampCTEntry(
7755 4241 : iColor, 3, sRGB.c3, nColorTableMultiplier);
7756 : }
7757 : else
7758 : {
7759 1135 : anTRed[iColor] = 0;
7760 1135 : anTGreen[iColor] = 0;
7761 1135 : anTBlue[iColor] = 0;
7762 : }
7763 : }
7764 :
7765 21 : if (!bForcePhotometric)
7766 21 : TIFFSetField(l_hTIFF, TIFFTAG_PHOTOMETRIC, PHOTOMETRIC_PALETTE);
7767 21 : TIFFSetField(l_hTIFF, TIFFTAG_COLORMAP, anTRed, anTGreen, anTBlue);
7768 : }
7769 1316 : else if ((l_nBands == 1 || l_nBands == 2) &&
7770 3439 : poSrcDS->GetRasterBand(1)->GetColorTable() != nullptr &&
7771 : eType == GDT_UInt16)
7772 : {
7773 : unsigned short *panTRed = static_cast<unsigned short *>(
7774 1 : CPLMalloc(65536 * sizeof(unsigned short)));
7775 : unsigned short *panTGreen = static_cast<unsigned short *>(
7776 1 : CPLMalloc(65536 * sizeof(unsigned short)));
7777 : unsigned short *panTBlue = static_cast<unsigned short *>(
7778 1 : CPLMalloc(65536 * sizeof(unsigned short)));
7779 :
7780 1 : GDALColorTable *poCT = poSrcDS->GetRasterBand(1)->GetColorTable();
7781 :
7782 65537 : for (int iColor = 0; iColor < 65536; ++iColor)
7783 : {
7784 65536 : if (iColor < poCT->GetColorEntryCount())
7785 : {
7786 65536 : GDALColorEntry sRGB = {0, 0, 0, 0};
7787 :
7788 65536 : poCT->GetColorEntryAsRGB(iColor, &sRGB);
7789 :
7790 131072 : panTRed[iColor] = GTiffDataset::ClampCTEntry(
7791 65536 : iColor, 1, sRGB.c1, nColorTableMultiplier);
7792 131072 : panTGreen[iColor] = GTiffDataset::ClampCTEntry(
7793 65536 : iColor, 2, sRGB.c2, nColorTableMultiplier);
7794 65536 : panTBlue[iColor] = GTiffDataset::ClampCTEntry(
7795 65536 : iColor, 3, sRGB.c3, nColorTableMultiplier);
7796 : }
7797 : else
7798 : {
7799 0 : panTRed[iColor] = 0;
7800 0 : panTGreen[iColor] = 0;
7801 0 : panTBlue[iColor] = 0;
7802 : }
7803 : }
7804 :
7805 1 : if (!bForcePhotometric)
7806 1 : TIFFSetField(l_hTIFF, TIFFTAG_PHOTOMETRIC, PHOTOMETRIC_PALETTE);
7807 1 : TIFFSetField(l_hTIFF, TIFFTAG_COLORMAP, panTRed, panTGreen, panTBlue);
7808 :
7809 1 : CPLFree(panTRed);
7810 1 : CPLFree(panTGreen);
7811 1 : CPLFree(panTBlue);
7812 : }
7813 2122 : else if (poSrcDS->GetRasterBand(1)->GetColorTable() != nullptr)
7814 1 : ReportError(
7815 : pszFilename, CE_Failure, CPLE_AppDefined,
7816 : "Unable to export color table to GeoTIFF file. Color tables "
7817 : "can only be written to 1 band or 2 bands Byte or "
7818 : "UInt16 GeoTIFF files.");
7819 :
7820 2144 : if (l_nCompression == COMPRESSION_JPEG)
7821 : {
7822 76 : uint16_t l_nPhotometric = 0;
7823 76 : TIFFGetField(l_hTIFF, TIFFTAG_PHOTOMETRIC, &l_nPhotometric);
7824 : // Check done in tif_jpeg.c later, but not with a very clear error
7825 : // message
7826 76 : if (l_nPhotometric == PHOTOMETRIC_PALETTE)
7827 : {
7828 1 : ReportError(pszFilename, CE_Failure, CPLE_NotSupported,
7829 : "JPEG compression not supported with paletted image");
7830 1 : XTIFFClose(l_hTIFF);
7831 1 : VSIUnlink(l_osTmpFilename);
7832 1 : CPL_IGNORE_RET_VAL(VSIFCloseL(l_fpL));
7833 1 : return nullptr;
7834 : }
7835 : }
7836 :
7837 2230 : if (l_nBands == 2 &&
7838 2143 : poSrcDS->GetRasterBand(1)->GetColorTable() != nullptr &&
7839 0 : (eType == GDT_UInt8 || eType == GDT_UInt16))
7840 : {
7841 1 : uint16_t v[1] = {EXTRASAMPLE_UNASSALPHA};
7842 :
7843 1 : TIFFSetField(l_hTIFF, TIFFTAG_EXTRASAMPLES, 1, v);
7844 : }
7845 :
7846 2143 : const int nMaskFlags = poSrcDS->GetRasterBand(1)->GetMaskFlags();
7847 2143 : bool bCreateMask = false;
7848 4286 : CPLString osHiddenStructuralMD;
7849 : const char *pszInterleave =
7850 2143 : CSLFetchNameValueDef(papszOptions, "INTERLEAVE", "PIXEL");
7851 2370 : if (bCopySrcOverviews &&
7852 227 : CPLTestBool(CSLFetchNameValueDef(papszOptions, "TILED", "NO")))
7853 : {
7854 215 : osHiddenStructuralMD += "LAYOUT=IFDS_BEFORE_DATA\n";
7855 215 : osHiddenStructuralMD += "BLOCK_ORDER=ROW_MAJOR\n";
7856 215 : osHiddenStructuralMD += "BLOCK_LEADER=SIZE_AS_UINT4\n";
7857 215 : osHiddenStructuralMD += "BLOCK_TRAILER=LAST_4_BYTES_REPEATED\n";
7858 215 : if (l_nBands > 1 && !EQUAL(pszInterleave, "PIXEL"))
7859 : {
7860 21 : osHiddenStructuralMD += "INTERLEAVE=";
7861 21 : osHiddenStructuralMD += CPLString(pszInterleave).toupper();
7862 21 : osHiddenStructuralMD += "\n";
7863 : }
7864 : osHiddenStructuralMD +=
7865 215 : "KNOWN_INCOMPATIBLE_EDITION=NO\n "; // Final space intended, so
7866 : // this can be replaced by YES
7867 : }
7868 2143 : if (!(nMaskFlags & (GMF_ALL_VALID | GMF_ALPHA | GMF_NODATA)) &&
7869 42 : (nMaskFlags & GMF_PER_DATASET) && !bStreaming)
7870 : {
7871 38 : bCreateMask = true;
7872 38 : if (GTiffDataset::MustCreateInternalMask() &&
7873 38 : !osHiddenStructuralMD.empty() && EQUAL(pszInterleave, "PIXEL"))
7874 : {
7875 21 : osHiddenStructuralMD += "MASK_INTERLEAVED_WITH_IMAGERY=YES\n";
7876 : }
7877 : }
7878 2358 : if (!osHiddenStructuralMD.empty() &&
7879 215 : CPLTestBool(CPLGetConfigOption("GTIFF_WRITE_COG_GHOST_AREA", "YES")))
7880 : {
7881 214 : const int nHiddenMDSize = static_cast<int>(osHiddenStructuralMD.size());
7882 : osHiddenStructuralMD =
7883 214 : CPLOPrintf("GDAL_STRUCTURAL_METADATA_SIZE=%06d bytes\n",
7884 428 : nHiddenMDSize) +
7885 214 : osHiddenStructuralMD;
7886 214 : VSI_TIFFWrite(l_hTIFF, osHiddenStructuralMD.c_str(),
7887 : osHiddenStructuralMD.size());
7888 : }
7889 :
7890 : // FIXME? libtiff writes extended tags in the order they are specified
7891 : // and not in increasing order.
7892 :
7893 : /* -------------------------------------------------------------------- */
7894 : /* Transfer some TIFF specific metadata, if available. */
7895 : /* The return value will tell us if we need to try again later with*/
7896 : /* PAM because the profile doesn't allow to write some metadata */
7897 : /* as TIFF tag */
7898 : /* -------------------------------------------------------------------- */
7899 2143 : const bool bHasWrittenMDInGeotiffTAG = GTiffDataset::WriteMetadata(
7900 : poSrcDS, l_hTIFF, false, eProfile, pszFilename, papszOptions);
7901 :
7902 : /* -------------------------------------------------------------------- */
7903 : /* Write NoData value, if exist. */
7904 : /* -------------------------------------------------------------------- */
7905 2143 : if (eProfile == GTiffProfile::GDALGEOTIFF)
7906 : {
7907 2122 : int bSuccess = FALSE;
7908 2122 : GDALRasterBand *poFirstBand = poSrcDS->GetRasterBand(1);
7909 2122 : if (poFirstBand->GetRasterDataType() == GDT_Int64)
7910 : {
7911 4 : const auto nNoData = poFirstBand->GetNoDataValueAsInt64(&bSuccess);
7912 4 : if (bSuccess)
7913 1 : GTiffDataset::WriteNoDataValue(l_hTIFF, nNoData);
7914 : }
7915 2118 : else if (poFirstBand->GetRasterDataType() == GDT_UInt64)
7916 : {
7917 4 : const auto nNoData = poFirstBand->GetNoDataValueAsUInt64(&bSuccess);
7918 4 : if (bSuccess)
7919 1 : GTiffDataset::WriteNoDataValue(l_hTIFF, nNoData);
7920 : }
7921 : else
7922 : {
7923 2114 : const auto dfNoData = poFirstBand->GetNoDataValue(&bSuccess);
7924 2114 : if (bSuccess)
7925 145 : GTiffDataset::WriteNoDataValue(l_hTIFF, dfNoData);
7926 : }
7927 : }
7928 :
7929 : /* -------------------------------------------------------------------- */
7930 : /* Are we addressing PixelIsPoint mode? */
7931 : /* -------------------------------------------------------------------- */
7932 2143 : bool bPixelIsPoint = false;
7933 2143 : bool bPointGeoIgnore = false;
7934 :
7935 3598 : if (poSrcDS->GetMetadataItem(GDALMD_AREA_OR_POINT) &&
7936 1455 : EQUAL(poSrcDS->GetMetadataItem(GDALMD_AREA_OR_POINT), GDALMD_AOP_POINT))
7937 : {
7938 10 : bPixelIsPoint = true;
7939 : bPointGeoIgnore =
7940 10 : CPLTestBool(CPLGetConfigOption("GTIFF_POINT_GEO_IGNORE", "FALSE"));
7941 : }
7942 :
7943 : /* -------------------------------------------------------------------- */
7944 : /* Write affine transform if it is meaningful. */
7945 : /* -------------------------------------------------------------------- */
7946 2143 : const OGRSpatialReference *l_poSRS = nullptr;
7947 2143 : GDALGeoTransform l_gt;
7948 2143 : if (poSrcDS->GetGeoTransform(l_gt) == CE_None)
7949 : {
7950 1704 : if (bGeoTIFF)
7951 : {
7952 1699 : l_poSRS = poSrcDS->GetSpatialRef();
7953 :
7954 1699 : if (l_gt.xrot == 0.0 && l_gt.yrot == 0.0 && l_gt.yscale < 0.0)
7955 : {
7956 1691 : double dfOffset = 0.0;
7957 : {
7958 : // In the case the SRS has a vertical component and we have
7959 : // a single band, encode its scale/offset in the GeoTIFF
7960 : // tags
7961 1691 : int bHasScale = FALSE;
7962 : double dfScale =
7963 1691 : poSrcDS->GetRasterBand(1)->GetScale(&bHasScale);
7964 1691 : int bHasOffset = FALSE;
7965 : dfOffset =
7966 1691 : poSrcDS->GetRasterBand(1)->GetOffset(&bHasOffset);
7967 : const bool bApplyScaleOffset =
7968 1695 : l_poSRS && l_poSRS->IsVertical() &&
7969 4 : poSrcDS->GetRasterCount() == 1;
7970 1691 : if (bApplyScaleOffset && !bHasScale)
7971 0 : dfScale = 1.0;
7972 1691 : if (!bApplyScaleOffset || !bHasOffset)
7973 1687 : dfOffset = 0.0;
7974 : const double adfPixelScale[3] = {
7975 1691 : l_gt.xscale, fabs(l_gt.yscale),
7976 1691 : bApplyScaleOffset ? dfScale : 0.0};
7977 :
7978 1691 : TIFFSetField(l_hTIFF, TIFFTAG_GEOPIXELSCALE, 3,
7979 : adfPixelScale);
7980 : }
7981 :
7982 1691 : double adfTiePoints[6] = {0.0, 0.0, 0.0,
7983 1691 : l_gt.xorig, l_gt.yorig, dfOffset};
7984 :
7985 1691 : if (bPixelIsPoint && !bPointGeoIgnore)
7986 : {
7987 6 : adfTiePoints[3] += l_gt.xscale * 0.5 + l_gt.xrot * 0.5;
7988 6 : adfTiePoints[4] += l_gt.yrot * 0.5 + l_gt.yscale * 0.5;
7989 : }
7990 :
7991 1691 : TIFFSetField(l_hTIFF, TIFFTAG_GEOTIEPOINTS, 6, adfTiePoints);
7992 : }
7993 : else
7994 : {
7995 8 : double adfMatrix[16] = {0.0};
7996 :
7997 8 : adfMatrix[0] = l_gt.xscale;
7998 8 : adfMatrix[1] = l_gt.xrot;
7999 8 : adfMatrix[3] = l_gt.xorig;
8000 8 : adfMatrix[4] = l_gt.yrot;
8001 8 : adfMatrix[5] = l_gt.yscale;
8002 8 : adfMatrix[7] = l_gt.yorig;
8003 8 : adfMatrix[15] = 1.0;
8004 :
8005 8 : if (bPixelIsPoint && !bPointGeoIgnore)
8006 : {
8007 0 : adfMatrix[3] += l_gt.xscale * 0.5 + l_gt.xrot * 0.5;
8008 0 : adfMatrix[7] += l_gt.yrot * 0.5 + l_gt.yscale * 0.5;
8009 : }
8010 :
8011 8 : TIFFSetField(l_hTIFF, TIFFTAG_GEOTRANSMATRIX, 16, adfMatrix);
8012 : }
8013 : }
8014 :
8015 : /* --------------------------------------------------------------------
8016 : */
8017 : /* Do we need a TFW file? */
8018 : /* --------------------------------------------------------------------
8019 : */
8020 1704 : if (CPLFetchBool(papszOptions, "TFW", false))
8021 2 : GDALWriteWorldFile(pszFilename, "tfw", l_gt.data());
8022 1702 : else if (CPLFetchBool(papszOptions, "WORLDFILE", false))
8023 1 : GDALWriteWorldFile(pszFilename, "wld", l_gt.data());
8024 : }
8025 :
8026 : /* -------------------------------------------------------------------- */
8027 : /* Otherwise write tiepoints if they are available. */
8028 : /* -------------------------------------------------------------------- */
8029 439 : else if (poSrcDS->GetGCPCount() > 0 && bGeoTIFF)
8030 : {
8031 11 : const GDAL_GCP *pasGCPs = poSrcDS->GetGCPs();
8032 : double *padfTiePoints = static_cast<double *>(
8033 11 : CPLMalloc(6 * sizeof(double) * poSrcDS->GetGCPCount()));
8034 :
8035 55 : for (int iGCP = 0; iGCP < poSrcDS->GetGCPCount(); ++iGCP)
8036 : {
8037 :
8038 44 : padfTiePoints[iGCP * 6 + 0] = pasGCPs[iGCP].dfGCPPixel;
8039 44 : padfTiePoints[iGCP * 6 + 1] = pasGCPs[iGCP].dfGCPLine;
8040 44 : padfTiePoints[iGCP * 6 + 2] = 0;
8041 44 : padfTiePoints[iGCP * 6 + 3] = pasGCPs[iGCP].dfGCPX;
8042 44 : padfTiePoints[iGCP * 6 + 4] = pasGCPs[iGCP].dfGCPY;
8043 44 : padfTiePoints[iGCP * 6 + 5] = pasGCPs[iGCP].dfGCPZ;
8044 :
8045 44 : if (bPixelIsPoint && !bPointGeoIgnore)
8046 : {
8047 4 : padfTiePoints[iGCP * 6 + 0] -= 0.5;
8048 4 : padfTiePoints[iGCP * 6 + 1] -= 0.5;
8049 : }
8050 : }
8051 :
8052 11 : TIFFSetField(l_hTIFF, TIFFTAG_GEOTIEPOINTS, 6 * poSrcDS->GetGCPCount(),
8053 : padfTiePoints);
8054 11 : CPLFree(padfTiePoints);
8055 :
8056 11 : l_poSRS = poSrcDS->GetGCPSpatialRef();
8057 :
8058 22 : if (CPLFetchBool(papszOptions, "TFW", false) ||
8059 11 : CPLFetchBool(papszOptions, "WORLDFILE", false))
8060 : {
8061 0 : ReportError(
8062 : pszFilename, CE_Warning, CPLE_AppDefined,
8063 : "TFW=ON or WORLDFILE=ON creation options are ignored when "
8064 : "GCPs are available");
8065 : }
8066 : }
8067 : else
8068 : {
8069 428 : l_poSRS = poSrcDS->GetSpatialRef();
8070 : }
8071 :
8072 : /* -------------------------------------------------------------------- */
8073 : /* Copy xml:XMP data */
8074 : /* -------------------------------------------------------------------- */
8075 2143 : CSLConstList papszXMP = poSrcDS->GetMetadata("xml:XMP");
8076 2143 : if (papszXMP != nullptr && *papszXMP != nullptr)
8077 : {
8078 9 : int nTagSize = static_cast<int>(strlen(*papszXMP));
8079 9 : TIFFSetField(l_hTIFF, TIFFTAG_XMLPACKET, nTagSize, *papszXMP);
8080 : }
8081 :
8082 : /* -------------------------------------------------------------------- */
8083 : /* Write the projection information, if possible. */
8084 : /* -------------------------------------------------------------------- */
8085 2143 : const bool bHasProjection = l_poSRS != nullptr;
8086 2143 : bool bExportSRSToPAM = false;
8087 2143 : if ((bHasProjection || bPixelIsPoint) && bGeoTIFF)
8088 : {
8089 1677 : GTIF *psGTIF = GTiffDataset::GTIFNew(l_hTIFF);
8090 :
8091 1677 : if (bHasProjection)
8092 : {
8093 1677 : const auto eGeoTIFFKeysFlavor = GetGTIFFKeysFlavor(papszOptions);
8094 1677 : if (IsSRSCompatibleOfGeoTIFF(l_poSRS, eGeoTIFFKeysFlavor))
8095 : {
8096 1677 : GTIFSetFromOGISDefnEx(
8097 : psGTIF,
8098 : OGRSpatialReference::ToHandle(
8099 : const_cast<OGRSpatialReference *>(l_poSRS)),
8100 : eGeoTIFFKeysFlavor, GetGeoTIFFVersion(papszOptions));
8101 : }
8102 : else
8103 : {
8104 0 : bExportSRSToPAM = true;
8105 : }
8106 : }
8107 :
8108 1677 : if (bPixelIsPoint)
8109 : {
8110 10 : GTIFKeySet(psGTIF, GTRasterTypeGeoKey, TYPE_SHORT, 1,
8111 : RasterPixelIsPoint);
8112 : }
8113 :
8114 1677 : GTIFWriteKeys(psGTIF);
8115 1677 : GTIFFree(psGTIF);
8116 : }
8117 :
8118 2143 : bool l_bDontReloadFirstBlock = false;
8119 :
8120 : #ifdef HAVE_LIBJPEG
8121 2143 : if (bCopyFromJPEG)
8122 : {
8123 12 : GTIFF_CopyFromJPEG_WriteAdditionalTags(l_hTIFF, poSrcDS);
8124 : }
8125 : #endif
8126 :
8127 : /* -------------------------------------------------------------------- */
8128 : /* Cleanup */
8129 : /* -------------------------------------------------------------------- */
8130 2143 : if (bCopySrcOverviews)
8131 : {
8132 227 : TIFFDeferStrileArrayWriting(l_hTIFF);
8133 : }
8134 2143 : TIFFWriteCheck(l_hTIFF, TIFFIsTiled(l_hTIFF), "GTiffCreateCopy()");
8135 2143 : TIFFWriteDirectory(l_hTIFF);
8136 2143 : if (bStreaming)
8137 : {
8138 : // We need to write twice the directory to be sure that custom
8139 : // TIFF tags are correctly sorted and that padding bytes have been
8140 : // added.
8141 5 : TIFFSetDirectory(l_hTIFF, 0);
8142 5 : TIFFWriteDirectory(l_hTIFF);
8143 :
8144 5 : if (VSIFSeekL(l_fpL, 0, SEEK_END) != 0)
8145 0 : ReportError(pszFilename, CE_Failure, CPLE_FileIO, "Cannot seek");
8146 5 : const int nSize = static_cast<int>(VSIFTellL(l_fpL));
8147 :
8148 5 : vsi_l_offset nDataLength = 0;
8149 5 : VSIGetMemFileBuffer(l_osTmpFilename, &nDataLength, FALSE);
8150 5 : TIFFSetDirectory(l_hTIFF, 0);
8151 5 : GTiffFillStreamableOffsetAndCount(l_hTIFF, nSize);
8152 5 : TIFFWriteDirectory(l_hTIFF);
8153 : }
8154 2143 : const auto nDirCount = TIFFNumberOfDirectories(l_hTIFF);
8155 2143 : if (nDirCount >= 1)
8156 : {
8157 2136 : TIFFSetDirectory(l_hTIFF, static_cast<tdir_t>(nDirCount - 1));
8158 : }
8159 2143 : const toff_t l_nDirOffset = TIFFCurrentDirOffset(l_hTIFF);
8160 2143 : TIFFFlush(l_hTIFF);
8161 2143 : XTIFFClose(l_hTIFF);
8162 :
8163 2143 : VSIFSeekL(l_fpL, 0, SEEK_SET);
8164 :
8165 : // fpStreaming will assigned to the instance and not closed here.
8166 2143 : VSILFILE *fpStreaming = nullptr;
8167 2143 : if (bStreaming)
8168 : {
8169 5 : vsi_l_offset nDataLength = 0;
8170 : void *pabyBuffer =
8171 5 : VSIGetMemFileBuffer(l_osTmpFilename, &nDataLength, FALSE);
8172 5 : fpStreaming = VSIFOpenL(pszFilename, "wb");
8173 5 : if (fpStreaming == nullptr)
8174 : {
8175 1 : VSIUnlink(l_osTmpFilename);
8176 1 : CPL_IGNORE_RET_VAL(VSIFCloseL(l_fpL));
8177 1 : return nullptr;
8178 : }
8179 4 : if (static_cast<vsi_l_offset>(VSIFWriteL(pabyBuffer, 1,
8180 : static_cast<int>(nDataLength),
8181 4 : fpStreaming)) != nDataLength)
8182 : {
8183 0 : ReportError(pszFilename, CE_Failure, CPLE_FileIO,
8184 : "Could not write %d bytes",
8185 : static_cast<int>(nDataLength));
8186 0 : CPL_IGNORE_RET_VAL(VSIFCloseL(fpStreaming));
8187 0 : VSIUnlink(l_osTmpFilename);
8188 0 : CPL_IGNORE_RET_VAL(VSIFCloseL(l_fpL));
8189 0 : return nullptr;
8190 : }
8191 : }
8192 :
8193 : /* -------------------------------------------------------------------- */
8194 : /* Re-open as a dataset and copy over missing metadata using */
8195 : /* PAM facilities. */
8196 : /* -------------------------------------------------------------------- */
8197 2142 : l_hTIFF = VSI_TIFFOpen(bStreaming ? l_osTmpFilename.c_str() : pszFilename,
8198 : "r+", l_fpL);
8199 2142 : if (l_hTIFF == nullptr)
8200 : {
8201 11 : if (bStreaming)
8202 0 : VSIUnlink(l_osTmpFilename);
8203 11 : l_fpL->CancelCreation();
8204 11 : CPL_IGNORE_RET_VAL(VSIFCloseL(l_fpL));
8205 11 : return nullptr;
8206 : }
8207 :
8208 : /* -------------------------------------------------------------------- */
8209 : /* Create a corresponding GDALDataset. */
8210 : /* -------------------------------------------------------------------- */
8211 4262 : auto poDS = std::make_unique<GTiffDataset>();
8212 : const bool bSuppressASAP =
8213 2131 : CPLTestBool(CSLFetchNameValueDef(papszOptions, "@SUPPRESS_ASAP", "NO"));
8214 2131 : if (bSuppressASAP)
8215 4 : poDS->MarkSuppressOnClose();
8216 2131 : poDS->SetDescription(pszFilename);
8217 2131 : poDS->eAccess = GA_Update;
8218 2131 : poDS->m_osFilename = pszFilename;
8219 2131 : poDS->m_fpL = l_fpL;
8220 2131 : poDS->m_bIMDRPCMetadataLoaded = true;
8221 2131 : poDS->m_nColorTableMultiplier = nColorTableMultiplier;
8222 2131 : poDS->m_bTileInterleave = bTileInterleaving;
8223 :
8224 2131 : if (bTileInterleaving)
8225 : {
8226 7 : poDS->m_oGTiffMDMD.SetMetadataItem("INTERLEAVE", "TILE",
8227 : "IMAGE_STRUCTURE");
8228 : }
8229 :
8230 2131 : const bool bAppend = CPLFetchBool(papszOptions, "APPEND_SUBDATASET", false);
8231 4261 : if (poDS->OpenOffset(l_hTIFF,
8232 2130 : bAppend ? l_nDirOffset : TIFFCurrentDirOffset(l_hTIFF),
8233 : GA_Update,
8234 : false, // bAllowRGBAInterface
8235 : true // bReadGeoTransform
8236 2131 : ) != CE_None)
8237 : {
8238 0 : l_fpL->CancelCreation();
8239 0 : poDS.reset();
8240 0 : if (bStreaming)
8241 0 : VSIUnlink(l_osTmpFilename);
8242 0 : return nullptr;
8243 : }
8244 :
8245 : // Legacy... Patch back GDT_Int8 type to GDT_UInt8 if the user used
8246 : // PIXELTYPE=SIGNEDBYTE
8247 2131 : const char *pszPixelType = CSLFetchNameValue(papszOptions, "PIXELTYPE");
8248 2131 : if (pszPixelType == nullptr)
8249 2126 : pszPixelType = "";
8250 2131 : if (eType == GDT_UInt8 && EQUAL(pszPixelType, "SIGNEDBYTE"))
8251 : {
8252 10 : for (int i = 0; i < poDS->nBands; ++i)
8253 : {
8254 5 : auto poBand = static_cast<GTiffRasterBand *>(poDS->papoBands[i]);
8255 5 : poBand->eDataType = GDT_UInt8;
8256 5 : poBand->EnablePixelTypeSignedByteWarning(false);
8257 5 : poBand->SetMetadataItem("PIXELTYPE", "SIGNEDBYTE",
8258 : "IMAGE_STRUCTURE");
8259 5 : poBand->EnablePixelTypeSignedByteWarning(true);
8260 : }
8261 : }
8262 :
8263 2131 : poDS->oOvManager.Initialize(poDS.get(), pszFilename);
8264 :
8265 2131 : if (bStreaming)
8266 : {
8267 4 : VSIUnlink(l_osTmpFilename);
8268 4 : poDS->m_fpToWrite = fpStreaming;
8269 : }
8270 2131 : poDS->m_eProfile = eProfile;
8271 :
8272 2131 : int nCloneInfoFlags = GCIF_PAM_DEFAULT & ~GCIF_MASK;
8273 :
8274 : // If we explicitly asked not to tag the alpha band as such, do not
8275 : // reintroduce this alpha color interpretation in PAM.
8276 2131 : if (poSrcDS->GetRasterBand(l_nBands)->GetColorInterpretation() ==
8277 2259 : GCI_AlphaBand &&
8278 128 : GTiffGetAlphaValue(
8279 : CPLGetConfigOption("GTIFF_ALPHA",
8280 : CSLFetchNameValue(papszOptions, "ALPHA")),
8281 : DEFAULT_ALPHA_TYPE) == EXTRASAMPLE_UNSPECIFIED)
8282 : {
8283 1 : nCloneInfoFlags &= ~GCIF_COLORINTERP;
8284 : }
8285 : // Ignore source band color interpretation if requesting PHOTOMETRIC=RGB
8286 3358 : else if (l_nBands >= 3 &&
8287 1228 : EQUAL(CSLFetchNameValueDef(papszOptions, "PHOTOMETRIC", ""),
8288 : "RGB"))
8289 : {
8290 28 : for (int i = 1; i <= 3; i++)
8291 : {
8292 21 : poDS->GetRasterBand(i)->SetColorInterpretation(
8293 21 : static_cast<GDALColorInterp>(GCI_RedBand + (i - 1)));
8294 : }
8295 7 : nCloneInfoFlags &= ~GCIF_COLORINTERP;
8296 9 : if (!(l_nBands == 4 &&
8297 2 : CSLFetchNameValue(papszOptions, "ALPHA") != nullptr))
8298 : {
8299 15 : for (int i = 4; i <= l_nBands; i++)
8300 : {
8301 18 : poDS->GetRasterBand(i)->SetColorInterpretation(
8302 9 : poSrcDS->GetRasterBand(i)->GetColorInterpretation());
8303 : }
8304 : }
8305 : }
8306 :
8307 : CPLString osOldGTIFF_REPORT_COMPD_CSVal(
8308 4262 : CPLGetConfigOption("GTIFF_REPORT_COMPD_CS", ""));
8309 2131 : CPLSetThreadLocalConfigOption("GTIFF_REPORT_COMPD_CS", "YES");
8310 2131 : poDS->CloneInfo(poSrcDS, nCloneInfoFlags);
8311 2131 : CPLSetThreadLocalConfigOption("GTIFF_REPORT_COMPD_CS",
8312 2131 : osOldGTIFF_REPORT_COMPD_CSVal.empty()
8313 : ? nullptr
8314 0 : : osOldGTIFF_REPORT_COMPD_CSVal.c_str());
8315 :
8316 2148 : if ((!bGeoTIFF || bExportSRSToPAM) &&
8317 17 : (poDS->GetPamFlags() & GPF_DISABLED) == 0)
8318 : {
8319 : // Copy georeferencing info to PAM if the profile is not GeoTIFF
8320 16 : poDS->GDALPamDataset::SetSpatialRef(poDS->GetSpatialRef());
8321 16 : GDALGeoTransform gt;
8322 16 : if (poDS->GetGeoTransform(gt) == CE_None)
8323 : {
8324 5 : poDS->GDALPamDataset::SetGeoTransform(gt);
8325 : }
8326 16 : poDS->GDALPamDataset::SetGCPs(poDS->GetGCPCount(), poDS->GetGCPs(),
8327 : poDS->GetGCPSpatialRef());
8328 : }
8329 :
8330 2131 : poDS->m_papszCreationOptions = CSLDuplicate(papszOptions);
8331 2131 : poDS->m_bDontReloadFirstBlock = l_bDontReloadFirstBlock;
8332 :
8333 : /* -------------------------------------------------------------------- */
8334 : /* CloneInfo() does not merge metadata, it just replaces it */
8335 : /* totally. So we have to merge it. */
8336 : /* -------------------------------------------------------------------- */
8337 :
8338 2131 : CSLConstList papszSRC_MD = poSrcDS->GetMetadata();
8339 2131 : char **papszDST_MD = CSLDuplicate(poDS->GetMetadata());
8340 :
8341 2131 : papszDST_MD = CSLMerge(papszDST_MD, papszSRC_MD);
8342 :
8343 2131 : poDS->SetMetadata(papszDST_MD);
8344 2131 : CSLDestroy(papszDST_MD);
8345 :
8346 : // Depending on the PHOTOMETRIC tag, the TIFF file may not have the same
8347 : // band count as the source. Will fail later in GDALDatasetCopyWholeRaster
8348 : // anyway.
8349 7189 : for (int nBand = 1;
8350 7189 : nBand <= std::min(poDS->GetRasterCount(), poSrcDS->GetRasterCount());
8351 : ++nBand)
8352 : {
8353 5058 : GDALRasterBand *poSrcBand = poSrcDS->GetRasterBand(nBand);
8354 5058 : GDALRasterBand *poDstBand = poDS->GetRasterBand(nBand);
8355 5058 : papszSRC_MD = poSrcBand->GetMetadata();
8356 5058 : papszDST_MD = CSLDuplicate(poDstBand->GetMetadata());
8357 :
8358 5058 : papszDST_MD = CSLMerge(papszDST_MD, papszSRC_MD);
8359 :
8360 5058 : poDstBand->SetMetadata(papszDST_MD);
8361 5058 : CSLDestroy(papszDST_MD);
8362 :
8363 5058 : char **papszCatNames = poSrcBand->GetCategoryNames();
8364 5058 : if (nullptr != papszCatNames)
8365 0 : poDstBand->SetCategoryNames(papszCatNames);
8366 : }
8367 :
8368 2131 : l_hTIFF = static_cast<TIFF *>(poDS->GetInternalHandle("TIFF_HANDLE"));
8369 :
8370 : /* -------------------------------------------------------------------- */
8371 : /* Handle forcing xml:ESRI data to be written to PAM. */
8372 : /* -------------------------------------------------------------------- */
8373 2131 : if (CPLTestBool(CPLGetConfigOption("ESRI_XML_PAM", "NO")))
8374 : {
8375 1 : CSLConstList papszESRIMD = poSrcDS->GetMetadata("xml:ESRI");
8376 1 : if (papszESRIMD)
8377 : {
8378 1 : poDS->SetMetadata(papszESRIMD, "xml:ESRI");
8379 : }
8380 : }
8381 :
8382 : /* -------------------------------------------------------------------- */
8383 : /* Second chance: now that we have a PAM dataset, it is possible */
8384 : /* to write metadata that we could not write as a TIFF tag. */
8385 : /* -------------------------------------------------------------------- */
8386 2131 : if (!bHasWrittenMDInGeotiffTAG && !bStreaming)
8387 : {
8388 6 : GTiffDataset::WriteMetadata(
8389 6 : poDS.get(), l_hTIFF, true, eProfile, pszFilename, papszOptions,
8390 : true /* don't write RPC and IMD file again */);
8391 : }
8392 :
8393 2131 : if (!bStreaming)
8394 2127 : GTiffDataset::WriteRPC(poDS.get(), l_hTIFF, true, eProfile, pszFilename,
8395 : papszOptions,
8396 : true /* write only in PAM AND if needed */);
8397 :
8398 2131 : poDS->m_bWriteCOGLayout = bCopySrcOverviews;
8399 :
8400 : // To avoid unnecessary directory rewriting.
8401 2131 : poDS->m_bMetadataChanged = false;
8402 2131 : poDS->m_bGeoTIFFInfoChanged = false;
8403 2131 : poDS->m_bNoDataChanged = false;
8404 2131 : poDS->m_bForceUnsetGTOrGCPs = false;
8405 2131 : poDS->m_bForceUnsetProjection = false;
8406 2131 : poDS->m_bStreamingOut = bStreaming;
8407 :
8408 : // Don't try to load external metadata files (#6597).
8409 2131 : poDS->m_bIMDRPCMetadataLoaded = true;
8410 :
8411 : // We must re-set the compression level at this point, since it has been
8412 : // lost a few lines above when closing the newly create TIFF file The
8413 : // TIFFTAG_ZIPQUALITY & TIFFTAG_JPEGQUALITY are not store in the TIFF file.
8414 : // They are just TIFF session parameters.
8415 :
8416 2131 : poDS->m_nZLevel = GTiffGetZLevel(papszOptions);
8417 2131 : poDS->m_nLZMAPreset = GTiffGetLZMAPreset(papszOptions);
8418 2131 : poDS->m_nZSTDLevel = GTiffGetZSTDPreset(papszOptions);
8419 2131 : poDS->m_nWebPLevel = GTiffGetWebPLevel(papszOptions);
8420 2131 : poDS->m_bWebPLossless = GTiffGetWebPLossless(papszOptions);
8421 2134 : if (poDS->m_nWebPLevel != 100 && poDS->m_bWebPLossless &&
8422 3 : CSLFetchNameValue(papszOptions, "WEBP_LEVEL"))
8423 : {
8424 0 : CPLError(CE_Warning, CPLE_AppDefined,
8425 : "WEBP_LEVEL is specified, but WEBP_LOSSLESS=YES. "
8426 : "WEBP_LEVEL will be ignored.");
8427 : }
8428 2131 : poDS->m_nJpegQuality = GTiffGetJpegQuality(papszOptions);
8429 2131 : poDS->m_nJpegTablesMode = GTiffGetJpegTablesMode(papszOptions);
8430 2131 : poDS->GetDiscardLsbOption(papszOptions);
8431 2131 : poDS->m_dfMaxZError = GTiffGetLERCMaxZError(papszOptions);
8432 2131 : poDS->m_dfMaxZErrorOverview = GTiffGetLERCMaxZErrorOverview(papszOptions);
8433 : #if HAVE_JXL
8434 2131 : poDS->m_bJXLLossless = GTiffGetJXLLossless(papszOptions);
8435 2131 : poDS->m_nJXLEffort = GTiffGetJXLEffort(papszOptions);
8436 2131 : poDS->m_fJXLDistance = GTiffGetJXLDistance(papszOptions);
8437 2131 : poDS->m_fJXLAlphaDistance = GTiffGetJXLAlphaDistance(papszOptions);
8438 : #endif
8439 2131 : poDS->InitCreationOrOpenOptions(true, papszOptions);
8440 :
8441 2131 : if (l_nCompression == COMPRESSION_ADOBE_DEFLATE ||
8442 2103 : l_nCompression == COMPRESSION_LERC)
8443 : {
8444 99 : GTiffSetDeflateSubCodec(l_hTIFF);
8445 :
8446 99 : if (poDS->m_nZLevel != -1)
8447 : {
8448 12 : TIFFSetField(l_hTIFF, TIFFTAG_ZIPQUALITY, poDS->m_nZLevel);
8449 : }
8450 : }
8451 2131 : if (l_nCompression == COMPRESSION_JPEG)
8452 : {
8453 75 : if (poDS->m_nJpegQuality != -1)
8454 : {
8455 9 : TIFFSetField(l_hTIFF, TIFFTAG_JPEGQUALITY, poDS->m_nJpegQuality);
8456 : }
8457 75 : TIFFSetField(l_hTIFF, TIFFTAG_JPEGTABLESMODE, poDS->m_nJpegTablesMode);
8458 : }
8459 2131 : if (l_nCompression == COMPRESSION_LZMA)
8460 : {
8461 7 : if (poDS->m_nLZMAPreset != -1)
8462 : {
8463 6 : TIFFSetField(l_hTIFF, TIFFTAG_LZMAPRESET, poDS->m_nLZMAPreset);
8464 : }
8465 : }
8466 2131 : if (l_nCompression == COMPRESSION_ZSTD ||
8467 2118 : l_nCompression == COMPRESSION_LERC)
8468 : {
8469 84 : if (poDS->m_nZSTDLevel != -1)
8470 : {
8471 8 : TIFFSetField(l_hTIFF, TIFFTAG_ZSTD_LEVEL, poDS->m_nZSTDLevel);
8472 : }
8473 : }
8474 2131 : if (l_nCompression == COMPRESSION_LERC)
8475 : {
8476 71 : TIFFSetField(l_hTIFF, TIFFTAG_LERC_MAXZERROR, poDS->m_dfMaxZError);
8477 : }
8478 : #if HAVE_JXL
8479 2131 : if (l_nCompression == COMPRESSION_JXL ||
8480 2131 : l_nCompression == COMPRESSION_JXL_DNG_1_7)
8481 : {
8482 91 : TIFFSetField(l_hTIFF, TIFFTAG_JXL_LOSSYNESS,
8483 91 : poDS->m_bJXLLossless ? JXL_LOSSLESS : JXL_LOSSY);
8484 91 : TIFFSetField(l_hTIFF, TIFFTAG_JXL_EFFORT, poDS->m_nJXLEffort);
8485 91 : TIFFSetField(l_hTIFF, TIFFTAG_JXL_DISTANCE,
8486 91 : static_cast<double>(poDS->m_fJXLDistance));
8487 91 : TIFFSetField(l_hTIFF, TIFFTAG_JXL_ALPHA_DISTANCE,
8488 91 : static_cast<double>(poDS->m_fJXLAlphaDistance));
8489 : }
8490 : #endif
8491 2131 : if (l_nCompression == COMPRESSION_WEBP)
8492 : {
8493 14 : if (poDS->m_nWebPLevel != -1)
8494 : {
8495 14 : TIFFSetField(l_hTIFF, TIFFTAG_WEBP_LEVEL, poDS->m_nWebPLevel);
8496 : }
8497 :
8498 14 : if (poDS->m_bWebPLossless)
8499 : {
8500 5 : TIFFSetField(l_hTIFF, TIFFTAG_WEBP_LOSSLESS, poDS->m_bWebPLossless);
8501 : }
8502 : }
8503 :
8504 : /* -------------------------------------------------------------------- */
8505 : /* Do we want to ensure all blocks get written out on close to */
8506 : /* avoid sparse files? */
8507 : /* -------------------------------------------------------------------- */
8508 2131 : if (!CPLFetchBool(papszOptions, "SPARSE_OK", false))
8509 2103 : poDS->m_bFillEmptyTilesAtClosing = true;
8510 :
8511 2131 : poDS->m_bWriteEmptyTiles =
8512 4039 : (bCopySrcOverviews && poDS->m_bFillEmptyTilesAtClosing) || bStreaming ||
8513 1908 : (poDS->m_nCompression != COMPRESSION_NONE &&
8514 310 : poDS->m_bFillEmptyTilesAtClosing);
8515 : // Only required for people writing non-compressed striped files in the
8516 : // rightorder and wanting all tstrips to be written in the same order
8517 : // so that the end result can be memory mapped without knowledge of each
8518 : // strip offset
8519 2131 : if (CPLTestBool(CSLFetchNameValueDef(
8520 4262 : papszOptions, "WRITE_EMPTY_TILES_SYNCHRONOUSLY", "FALSE")) ||
8521 2131 : CPLTestBool(CSLFetchNameValueDef(
8522 : papszOptions, "@WRITE_EMPTY_TILES_SYNCHRONOUSLY", "FALSE")))
8523 : {
8524 0 : poDS->m_bWriteEmptyTiles = true;
8525 : }
8526 :
8527 : // Precreate (internal) mask, so that the IBuildOverviews() below
8528 : // has a chance to create also the overviews of the mask.
8529 2131 : CPLErr eErr = CE_None;
8530 :
8531 2131 : if (bCreateMask)
8532 : {
8533 38 : eErr = poDS->CreateMaskBand(nMaskFlags);
8534 38 : if (poDS->m_poMaskDS)
8535 : {
8536 37 : poDS->m_poMaskDS->m_bFillEmptyTilesAtClosing =
8537 37 : poDS->m_bFillEmptyTilesAtClosing;
8538 37 : poDS->m_poMaskDS->m_bWriteEmptyTiles = poDS->m_bWriteEmptyTiles;
8539 : }
8540 : }
8541 :
8542 : /* -------------------------------------------------------------------- */
8543 : /* Create and then copy existing overviews if requested */
8544 : /* We do it such that all the IFDs are at the beginning of the file, */
8545 : /* and that the imagery data for the smallest overview is written */
8546 : /* first, that way the file is more usable when embedded in a */
8547 : /* compressed stream. */
8548 : /* -------------------------------------------------------------------- */
8549 :
8550 : // For scaled progress due to overview copying.
8551 2131 : const int nBandsWidthMask = l_nBands + (bCreateMask ? 1 : 0);
8552 2131 : double dfTotalPixels =
8553 2131 : static_cast<double>(nXSize) * nYSize * nBandsWidthMask;
8554 2131 : double dfCurPixels = 0;
8555 :
8556 2131 : if (eErr == CE_None && bCopySrcOverviews)
8557 : {
8558 0 : std::unique_ptr<GDALDataset> poMaskOvrDS;
8559 : const char *pszMaskOvrDS =
8560 224 : CSLFetchNameValue(papszOptions, "@MASK_OVERVIEW_DATASET");
8561 224 : if (pszMaskOvrDS)
8562 : {
8563 6 : poMaskOvrDS.reset(GDALDataset::Open(pszMaskOvrDS));
8564 6 : if (!poMaskOvrDS)
8565 : {
8566 0 : l_fpL->CancelCreation();
8567 0 : return nullptr;
8568 : }
8569 6 : if (poMaskOvrDS->GetRasterCount() != 1)
8570 : {
8571 0 : l_fpL->CancelCreation();
8572 0 : return nullptr;
8573 : }
8574 : }
8575 224 : if (nSrcOverviews)
8576 : {
8577 71 : eErr = poDS->CreateOverviewsFromSrcOverviews(poSrcDS, poOvrDS.get(),
8578 : nSrcOverviews);
8579 :
8580 207 : if (eErr == CE_None &&
8581 71 : (poMaskOvrDS != nullptr ||
8582 65 : (poSrcDS->GetRasterBand(1)->GetOverview(0) &&
8583 35 : poSrcDS->GetRasterBand(1)->GetOverview(0)->GetMaskFlags() ==
8584 : GMF_PER_DATASET)))
8585 : {
8586 19 : int nOvrBlockXSize = 0;
8587 19 : int nOvrBlockYSize = 0;
8588 19 : GTIFFGetOverviewBlockSize(
8589 19 : GDALRasterBand::ToHandle(poDS->GetRasterBand(1)),
8590 : &nOvrBlockXSize, &nOvrBlockYSize, nullptr, nullptr);
8591 19 : eErr = poDS->CreateInternalMaskOverviews(nOvrBlockXSize,
8592 : nOvrBlockYSize);
8593 : }
8594 : }
8595 :
8596 224 : TIFFForceStrileArrayWriting(poDS->m_hTIFF);
8597 :
8598 224 : if (poDS->m_poMaskDS)
8599 : {
8600 27 : TIFFForceStrileArrayWriting(poDS->m_poMaskDS->m_hTIFF);
8601 : }
8602 :
8603 355 : for (auto &poIterOvrDS : poDS->m_apoOverviewDS)
8604 : {
8605 131 : TIFFForceStrileArrayWriting(poIterOvrDS->m_hTIFF);
8606 :
8607 131 : if (poIterOvrDS->m_poMaskDS)
8608 : {
8609 32 : TIFFForceStrileArrayWriting(poIterOvrDS->m_poMaskDS->m_hTIFF);
8610 : }
8611 : }
8612 :
8613 224 : if (eErr == CE_None && nSrcOverviews)
8614 : {
8615 71 : if (poDS->m_apoOverviewDS.size() !=
8616 71 : static_cast<size_t>(nSrcOverviews))
8617 : {
8618 0 : ReportError(
8619 : pszFilename, CE_Failure, CPLE_AppDefined,
8620 : "Did only manage to instantiate %d overview levels, "
8621 : "whereas source contains %d",
8622 0 : static_cast<int>(poDS->m_apoOverviewDS.size()),
8623 : nSrcOverviews);
8624 0 : eErr = CE_Failure;
8625 : }
8626 :
8627 202 : for (int i = 0; eErr == CE_None && i < nSrcOverviews; ++i)
8628 : {
8629 : GDALRasterBand *poOvrBand =
8630 : poOvrDS
8631 207 : ? (i == 0
8632 76 : ? poOvrDS->GetRasterBand(1)
8633 40 : : poOvrDS->GetRasterBand(1)->GetOverview(i - 1))
8634 186 : : poSrcDS->GetRasterBand(1)->GetOverview(i);
8635 : const double dfOvrPixels =
8636 131 : static_cast<double>(poOvrBand->GetXSize()) *
8637 131 : poOvrBand->GetYSize();
8638 131 : dfTotalPixels += dfOvrPixels * l_nBands;
8639 244 : if (poOvrBand->GetMaskFlags() == GMF_PER_DATASET ||
8640 113 : poMaskOvrDS != nullptr)
8641 : {
8642 32 : dfTotalPixels += dfOvrPixels;
8643 : }
8644 99 : else if (i == 0 && poDS->GetRasterBand(1)->GetMaskFlags() ==
8645 : GMF_PER_DATASET)
8646 : {
8647 1 : ReportError(pszFilename, CE_Warning, CPLE_AppDefined,
8648 : "Source dataset has a mask band on full "
8649 : "resolution, overviews on the regular bands, "
8650 : "but lacks overviews on the mask band.");
8651 : }
8652 : }
8653 :
8654 : // Now copy the imagery.
8655 : // Begin with the smallest overview.
8656 71 : for (int iOvrLevel = nSrcOverviews - 1;
8657 201 : eErr == CE_None && iOvrLevel >= 0; --iOvrLevel)
8658 : {
8659 130 : auto poDstDS = poDS->m_apoOverviewDS[iOvrLevel].get();
8660 :
8661 : // Create a fake dataset with the source overview level so that
8662 : // GDALDatasetCopyWholeRaster can cope with it.
8663 : GDALDataset *poSrcOvrDS =
8664 : poOvrDS
8665 170 : ? (iOvrLevel == 0 ? poOvrDS.get()
8666 40 : : GDALCreateOverviewDataset(
8667 : poOvrDS.get(), iOvrLevel - 1,
8668 : /* bThisLevelOnly = */ true))
8669 54 : : GDALCreateOverviewDataset(
8670 : poSrcDS, iOvrLevel,
8671 130 : /* bThisLevelOnly = */ true);
8672 : GDALRasterBand *poSrcOvrBand =
8673 206 : poOvrDS ? (iOvrLevel == 0
8674 76 : ? poOvrDS->GetRasterBand(1)
8675 80 : : poOvrDS->GetRasterBand(1)->GetOverview(
8676 40 : iOvrLevel - 1))
8677 184 : : poSrcDS->GetRasterBand(1)->GetOverview(iOvrLevel);
8678 : double dfNextCurPixels =
8679 : dfCurPixels +
8680 130 : static_cast<double>(poSrcOvrBand->GetXSize()) *
8681 130 : poSrcOvrBand->GetYSize() * l_nBands;
8682 :
8683 130 : poDstDS->m_bBlockOrderRowMajor = true;
8684 130 : poDstDS->m_bLeaderSizeAsUInt4 = true;
8685 130 : poDstDS->m_bTrailerRepeatedLast4BytesRepeated = true;
8686 130 : poDstDS->m_bFillEmptyTilesAtClosing =
8687 130 : poDS->m_bFillEmptyTilesAtClosing;
8688 130 : poDstDS->m_bWriteEmptyTiles = poDS->m_bWriteEmptyTiles;
8689 130 : poDstDS->m_bTileInterleave = poDS->m_bTileInterleave;
8690 130 : GDALRasterBand *poSrcMaskBand = nullptr;
8691 130 : if (poDstDS->m_poMaskDS)
8692 : {
8693 32 : poDstDS->m_poMaskDS->m_bBlockOrderRowMajor = true;
8694 32 : poDstDS->m_poMaskDS->m_bLeaderSizeAsUInt4 = true;
8695 32 : poDstDS->m_poMaskDS->m_bTrailerRepeatedLast4BytesRepeated =
8696 : true;
8697 64 : poDstDS->m_poMaskDS->m_bFillEmptyTilesAtClosing =
8698 32 : poDS->m_bFillEmptyTilesAtClosing;
8699 64 : poDstDS->m_poMaskDS->m_bWriteEmptyTiles =
8700 32 : poDS->m_bWriteEmptyTiles;
8701 :
8702 32 : poSrcMaskBand =
8703 : poMaskOvrDS
8704 46 : ? (iOvrLevel == 0
8705 14 : ? poMaskOvrDS->GetRasterBand(1)
8706 16 : : poMaskOvrDS->GetRasterBand(1)->GetOverview(
8707 8 : iOvrLevel - 1))
8708 50 : : poSrcOvrBand->GetMaskBand();
8709 : }
8710 :
8711 130 : if (poDstDS->m_poMaskDS)
8712 : {
8713 32 : dfNextCurPixels +=
8714 32 : static_cast<double>(poSrcOvrBand->GetXSize()) *
8715 32 : poSrcOvrBand->GetYSize();
8716 : }
8717 : void *pScaledData =
8718 130 : GDALCreateScaledProgress(dfCurPixels / dfTotalPixels,
8719 : dfNextCurPixels / dfTotalPixels,
8720 : pfnProgress, pProgressData);
8721 :
8722 130 : eErr = CopyImageryAndMask(poDstDS, poSrcOvrDS, poSrcMaskBand,
8723 : GDALScaledProgress, pScaledData);
8724 :
8725 130 : dfCurPixels = dfNextCurPixels;
8726 130 : GDALDestroyScaledProgress(pScaledData);
8727 :
8728 130 : if (poSrcOvrDS != poOvrDS.get())
8729 94 : delete poSrcOvrDS;
8730 130 : poSrcOvrDS = nullptr;
8731 : }
8732 : }
8733 : }
8734 :
8735 : /* -------------------------------------------------------------------- */
8736 : /* Copy actual imagery. */
8737 : /* -------------------------------------------------------------------- */
8738 2131 : double dfNextCurPixels =
8739 2131 : dfCurPixels + static_cast<double>(nXSize) * nYSize * l_nBands;
8740 2131 : void *pScaledData = GDALCreateScaledProgress(
8741 : dfCurPixels / dfTotalPixels, dfNextCurPixels / dfTotalPixels,
8742 : pfnProgress, pProgressData);
8743 :
8744 : #if defined(HAVE_LIBJPEG) || defined(JPEG_DIRECT_COPY)
8745 2131 : bool bTryCopy = true;
8746 : #endif
8747 :
8748 : #ifdef HAVE_LIBJPEG
8749 2131 : if (bCopyFromJPEG)
8750 : {
8751 12 : eErr = GTIFF_CopyFromJPEG(poDS.get(), poSrcDS, pfnProgress,
8752 : pProgressData, bTryCopy);
8753 :
8754 : // In case of failure in the decompression step, try normal copy.
8755 12 : if (bTryCopy)
8756 0 : eErr = CE_None;
8757 : }
8758 : #endif
8759 :
8760 : #ifdef JPEG_DIRECT_COPY
8761 : if (bDirectCopyFromJPEG)
8762 : {
8763 : eErr = GTIFF_DirectCopyFromJPEG(poDS.get(), poSrcDS, pfnProgress,
8764 : pProgressData, bTryCopy);
8765 :
8766 : // In case of failure in the reading step, try normal copy.
8767 : if (bTryCopy)
8768 : eErr = CE_None;
8769 : }
8770 : #endif
8771 :
8772 2131 : bool bWriteMask = true;
8773 2131 : if (
8774 : #if defined(HAVE_LIBJPEG) || defined(JPEG_DIRECT_COPY)
8775 4250 : bTryCopy &&
8776 : #endif
8777 2119 : (poDS->m_bTreatAsSplit || poDS->m_bTreatAsSplitBitmap))
8778 : {
8779 : // For split bands, we use TIFFWriteScanline() interface.
8780 9 : CPLAssert(poDS->m_nBitsPerSample == 8 || poDS->m_nBitsPerSample == 1);
8781 :
8782 9 : if (poDS->m_nPlanarConfig == PLANARCONFIG_CONTIG && poDS->nBands > 1)
8783 : {
8784 : GByte *pabyScanline = static_cast<GByte *>(
8785 3 : VSI_MALLOC_VERBOSE(TIFFScanlineSize(l_hTIFF)));
8786 3 : if (pabyScanline == nullptr)
8787 0 : eErr = CE_Failure;
8788 9052 : for (int j = 0; j < nYSize && eErr == CE_None; ++j)
8789 : {
8790 18098 : eErr = poSrcDS->RasterIO(GF_Read, 0, j, nXSize, 1, pabyScanline,
8791 : nXSize, 1, GDT_UInt8, l_nBands,
8792 9049 : nullptr, poDS->nBands, 0, 1, nullptr);
8793 18098 : if (eErr == CE_None &&
8794 9049 : TIFFWriteScanline(l_hTIFF, pabyScanline, j, 0) == -1)
8795 : {
8796 0 : ReportError(pszFilename, CE_Failure, CPLE_AppDefined,
8797 : "TIFFWriteScanline() failed.");
8798 0 : eErr = CE_Failure;
8799 : }
8800 9049 : if (!GDALScaledProgress((j + 1) * 1.0 / nYSize, nullptr,
8801 : pScaledData))
8802 0 : eErr = CE_Failure;
8803 : }
8804 3 : CPLFree(pabyScanline);
8805 : }
8806 : else
8807 : {
8808 : GByte *pabyScanline =
8809 6 : static_cast<GByte *>(VSI_MALLOC_VERBOSE(nXSize));
8810 6 : if (pabyScanline == nullptr)
8811 0 : eErr = CE_Failure;
8812 : else
8813 6 : eErr = CE_None;
8814 14 : for (int iBand = 1; iBand <= l_nBands && eErr == CE_None; ++iBand)
8815 : {
8816 48211 : for (int j = 0; j < nYSize && eErr == CE_None; ++j)
8817 : {
8818 48203 : eErr = poSrcDS->GetRasterBand(iBand)->RasterIO(
8819 : GF_Read, 0, j, nXSize, 1, pabyScanline, nXSize, 1,
8820 : GDT_UInt8, 0, 0, nullptr);
8821 48203 : if (poDS->m_bTreatAsSplitBitmap)
8822 : {
8823 7225210 : for (int i = 0; i < nXSize; ++i)
8824 : {
8825 7216010 : const GByte byVal = pabyScanline[i];
8826 7216010 : if ((i & 0x7) == 0)
8827 902001 : pabyScanline[i >> 3] = 0;
8828 7216010 : if (byVal)
8829 7097220 : pabyScanline[i >> 3] |= 0x80 >> (i & 0x7);
8830 : }
8831 : }
8832 96406 : if (eErr == CE_None &&
8833 48203 : TIFFWriteScanline(l_hTIFF, pabyScanline, j,
8834 48203 : static_cast<uint16_t>(iBand - 1)) ==
8835 : -1)
8836 : {
8837 0 : ReportError(pszFilename, CE_Failure, CPLE_AppDefined,
8838 : "TIFFWriteScanline() failed.");
8839 0 : eErr = CE_Failure;
8840 : }
8841 48203 : if (!GDALScaledProgress((j + 1 + (iBand - 1) * nYSize) *
8842 48203 : 1.0 / (l_nBands * nYSize),
8843 : nullptr, pScaledData))
8844 0 : eErr = CE_Failure;
8845 : }
8846 : }
8847 6 : CPLFree(pabyScanline);
8848 : }
8849 :
8850 : // Necessary to be able to read the file without re-opening.
8851 9 : TIFFSizeProc pfnSizeProc = TIFFGetSizeProc(l_hTIFF);
8852 :
8853 9 : TIFFFlushData(l_hTIFF);
8854 :
8855 9 : toff_t nNewDirOffset = pfnSizeProc(TIFFClientdata(l_hTIFF));
8856 9 : if ((nNewDirOffset % 2) == 1)
8857 5 : ++nNewDirOffset;
8858 :
8859 9 : TIFFFlush(l_hTIFF);
8860 :
8861 9 : if (poDS->m_nDirOffset != TIFFCurrentDirOffset(l_hTIFF))
8862 : {
8863 0 : poDS->m_nDirOffset = nNewDirOffset;
8864 0 : CPLDebug("GTiff", "directory moved during flush.");
8865 : }
8866 : }
8867 2122 : else if (
8868 : #if defined(HAVE_LIBJPEG) || defined(JPEG_DIRECT_COPY)
8869 2110 : bTryCopy &&
8870 : #endif
8871 : eErr == CE_None)
8872 : {
8873 2109 : const char *papszCopyWholeRasterOptions[3] = {nullptr, nullptr,
8874 : nullptr};
8875 2109 : int iNextOption = 0;
8876 2109 : papszCopyWholeRasterOptions[iNextOption++] = "SKIP_HOLES=YES";
8877 2109 : if (l_nCompression != COMPRESSION_NONE)
8878 : {
8879 499 : papszCopyWholeRasterOptions[iNextOption++] = "COMPRESSED=YES";
8880 : }
8881 :
8882 : // For streaming with separate, we really want that bands are written
8883 : // after each other, even if the source is pixel interleaved.
8884 1610 : else if (bStreaming && poDS->m_nPlanarConfig == PLANARCONFIG_SEPARATE)
8885 : {
8886 1 : papszCopyWholeRasterOptions[iNextOption++] = "INTERLEAVE=BAND";
8887 : }
8888 :
8889 2109 : if (bCopySrcOverviews || bTileInterleaving)
8890 : {
8891 224 : poDS->m_bBlockOrderRowMajor = true;
8892 224 : poDS->m_bLeaderSizeAsUInt4 = bCopySrcOverviews;
8893 224 : poDS->m_bTrailerRepeatedLast4BytesRepeated = bCopySrcOverviews;
8894 224 : if (poDS->m_poMaskDS)
8895 : {
8896 27 : poDS->m_poMaskDS->m_bBlockOrderRowMajor = true;
8897 27 : poDS->m_poMaskDS->m_bLeaderSizeAsUInt4 = bCopySrcOverviews;
8898 27 : poDS->m_poMaskDS->m_bTrailerRepeatedLast4BytesRepeated =
8899 : bCopySrcOverviews;
8900 27 : GDALDestroyScaledProgress(pScaledData);
8901 : pScaledData =
8902 27 : GDALCreateScaledProgress(dfCurPixels / dfTotalPixels, 1.0,
8903 : pfnProgress, pProgressData);
8904 : }
8905 :
8906 224 : eErr = CopyImageryAndMask(poDS.get(), poSrcDS,
8907 224 : poSrcDS->GetRasterBand(1)->GetMaskBand(),
8908 : GDALScaledProgress, pScaledData);
8909 224 : if (poDS->m_poMaskDS)
8910 : {
8911 27 : bWriteMask = false;
8912 : }
8913 : }
8914 : else
8915 : {
8916 1885 : eErr = GDALDatasetCopyWholeRaster(GDALDataset::ToHandle(poSrcDS),
8917 1885 : GDALDataset::ToHandle(poDS.get()),
8918 : papszCopyWholeRasterOptions,
8919 : GDALScaledProgress, pScaledData);
8920 : }
8921 : }
8922 :
8923 2131 : GDALDestroyScaledProgress(pScaledData);
8924 :
8925 2131 : if (eErr == CE_None && !bStreaming && bWriteMask)
8926 : {
8927 2082 : pScaledData = GDALCreateScaledProgress(dfNextCurPixels / dfTotalPixels,
8928 : 1.0, pfnProgress, pProgressData);
8929 2082 : if (poDS->m_poMaskDS)
8930 : {
8931 10 : const char *l_papszOptions[2] = {"COMPRESSED=YES", nullptr};
8932 10 : eErr = GDALRasterBandCopyWholeRaster(
8933 10 : poSrcDS->GetRasterBand(1)->GetMaskBand(),
8934 10 : poDS->GetRasterBand(1)->GetMaskBand(),
8935 : const_cast<char **>(l_papszOptions), GDALScaledProgress,
8936 : pScaledData);
8937 : }
8938 : else
8939 : {
8940 2072 : eErr = GDALDriver::DefaultCopyMasks(poSrcDS, poDS.get(), bStrict,
8941 : nullptr, GDALScaledProgress,
8942 : pScaledData);
8943 : }
8944 2082 : GDALDestroyScaledProgress(pScaledData);
8945 : }
8946 :
8947 2131 : poDS->m_bWriteCOGLayout = false;
8948 :
8949 4244 : if (eErr == CE_None &&
8950 2113 : CPLTestBool(CSLFetchNameValueDef(poDS->m_papszCreationOptions,
8951 : "@FLUSHCACHE", "NO")))
8952 : {
8953 175 : if (poDS->FlushCache(false) != CE_None)
8954 : {
8955 0 : eErr = CE_Failure;
8956 : }
8957 : }
8958 :
8959 2131 : if (eErr == CE_Failure)
8960 : {
8961 18 : if (CPLTestBool(CPLGetConfigOption("GTIFF_DELETE_ON_ERROR", "YES")))
8962 : {
8963 17 : l_fpL->CancelCreation();
8964 17 : poDS.reset();
8965 :
8966 17 : if (!bStreaming)
8967 : {
8968 : // Should really delete more carefully.
8969 17 : VSIUnlink(pszFilename);
8970 : }
8971 : }
8972 : else
8973 : {
8974 1 : poDS.reset();
8975 : }
8976 : }
8977 :
8978 2131 : return poDS.release();
8979 : }
8980 :
8981 : /************************************************************************/
8982 : /* SetSpatialRef() */
8983 : /************************************************************************/
8984 :
8985 1524 : CPLErr GTiffDataset::SetSpatialRef(const OGRSpatialReference *poSRS)
8986 :
8987 : {
8988 1524 : if (m_bStreamingOut && m_bCrystalized)
8989 : {
8990 1 : ReportError(CE_Failure, CPLE_NotSupported,
8991 : "Cannot modify projection at that point in "
8992 : "a streamed output file");
8993 1 : return CE_Failure;
8994 : }
8995 :
8996 1523 : LoadGeoreferencingAndPamIfNeeded();
8997 1523 : LookForProjection();
8998 :
8999 1523 : CPLErr eErr = CE_None;
9000 1523 : if (eAccess == GA_Update)
9001 : {
9002 1525 : if ((m_eProfile == GTiffProfile::BASELINE) &&
9003 7 : (GetPamFlags() & GPF_DISABLED) == 0)
9004 : {
9005 7 : eErr = GDALPamDataset::SetSpatialRef(poSRS);
9006 : }
9007 : else
9008 : {
9009 1511 : if (GDALPamDataset::GetSpatialRef() != nullptr)
9010 : {
9011 : // Cancel any existing SRS from PAM file.
9012 1 : GDALPamDataset::SetSpatialRef(nullptr);
9013 : }
9014 1511 : m_bGeoTIFFInfoChanged = true;
9015 : }
9016 : }
9017 : else
9018 : {
9019 5 : CPLDebug("GTIFF", "SetSpatialRef() goes to PAM instead of TIFF tags");
9020 5 : eErr = GDALPamDataset::SetSpatialRef(poSRS);
9021 : }
9022 :
9023 1523 : if (eErr == CE_None)
9024 : {
9025 1523 : if (poSRS == nullptr || poSRS->IsEmpty())
9026 : {
9027 14 : if (!m_oSRS.IsEmpty())
9028 : {
9029 4 : m_bForceUnsetProjection = true;
9030 : }
9031 14 : m_oSRS.Clear();
9032 : }
9033 : else
9034 : {
9035 1509 : m_oSRS = *poSRS;
9036 1509 : m_oSRS.SetAxisMappingStrategy(OAMS_TRADITIONAL_GIS_ORDER);
9037 : }
9038 : }
9039 :
9040 1523 : return eErr;
9041 : }
9042 :
9043 : /************************************************************************/
9044 : /* SetGeoTransform() */
9045 : /************************************************************************/
9046 :
9047 1853 : CPLErr GTiffDataset::SetGeoTransform(const GDALGeoTransform >)
9048 :
9049 : {
9050 1853 : if (m_bStreamingOut && m_bCrystalized)
9051 : {
9052 1 : ReportError(CE_Failure, CPLE_NotSupported,
9053 : "Cannot modify geotransform at that point in a "
9054 : "streamed output file");
9055 1 : return CE_Failure;
9056 : }
9057 :
9058 1852 : LoadGeoreferencingAndPamIfNeeded();
9059 :
9060 1852 : CPLErr eErr = CE_None;
9061 1852 : if (eAccess == GA_Update)
9062 : {
9063 1846 : if (!m_aoGCPs.empty())
9064 : {
9065 1 : ReportError(CE_Warning, CPLE_AppDefined,
9066 : "GCPs previously set are going to be cleared "
9067 : "due to the setting of a geotransform.");
9068 1 : m_bForceUnsetGTOrGCPs = true;
9069 1 : m_aoGCPs.clear();
9070 : }
9071 1845 : else if (gt.xorig == 0.0 && gt.xscale == 0.0 && gt.xrot == 0.0 &&
9072 2 : gt.yorig == 0.0 && gt.yrot == 0.0 && gt.yscale == 0.0)
9073 : {
9074 2 : if (m_bGeoTransformValid)
9075 : {
9076 2 : m_bForceUnsetGTOrGCPs = true;
9077 2 : m_bGeoTIFFInfoChanged = true;
9078 : }
9079 2 : m_bGeoTransformValid = false;
9080 2 : m_gt = gt;
9081 2 : return CE_None;
9082 : }
9083 :
9084 3697 : if ((m_eProfile == GTiffProfile::BASELINE) &&
9085 9 : !CPLFetchBool(m_papszCreationOptions, "TFW", false) &&
9086 1858 : !CPLFetchBool(m_papszCreationOptions, "WORLDFILE", false) &&
9087 5 : (GetPamFlags() & GPF_DISABLED) == 0)
9088 : {
9089 5 : eErr = GDALPamDataset::SetGeoTransform(gt);
9090 : }
9091 : else
9092 : {
9093 : // Cancel any existing geotransform from PAM file.
9094 1839 : GDALPamDataset::DeleteGeoTransform();
9095 1839 : m_bGeoTIFFInfoChanged = true;
9096 : }
9097 : }
9098 : else
9099 : {
9100 6 : CPLDebug("GTIFF", "SetGeoTransform() goes to PAM instead of TIFF tags");
9101 6 : eErr = GDALPamDataset::SetGeoTransform(gt);
9102 : }
9103 :
9104 1850 : if (eErr == CE_None)
9105 : {
9106 1850 : m_gt = gt;
9107 1850 : m_bGeoTransformValid = true;
9108 : }
9109 :
9110 1850 : return eErr;
9111 : }
9112 :
9113 : /************************************************************************/
9114 : /* SetGCPs() */
9115 : /************************************************************************/
9116 :
9117 22 : CPLErr GTiffDataset::SetGCPs(int nGCPCountIn, const GDAL_GCP *pasGCPListIn,
9118 : const OGRSpatialReference *poGCPSRS)
9119 : {
9120 22 : CPLErr eErr = CE_None;
9121 22 : LoadGeoreferencingAndPamIfNeeded();
9122 22 : LookForProjection();
9123 :
9124 22 : if (eAccess == GA_Update)
9125 : {
9126 20 : if (!m_aoGCPs.empty() && nGCPCountIn == 0)
9127 : {
9128 3 : m_bForceUnsetGTOrGCPs = true;
9129 : }
9130 17 : else if (nGCPCountIn > 0 && m_bGeoTransformValid)
9131 : {
9132 5 : ReportError(CE_Warning, CPLE_AppDefined,
9133 : "A geotransform previously set is going to be cleared "
9134 : "due to the setting of GCPs.");
9135 5 : m_gt = GDALGeoTransform();
9136 5 : m_bGeoTransformValid = false;
9137 5 : m_bForceUnsetGTOrGCPs = true;
9138 : }
9139 20 : if ((m_eProfile == GTiffProfile::BASELINE) &&
9140 0 : (GetPamFlags() & GPF_DISABLED) == 0)
9141 : {
9142 0 : eErr = GDALPamDataset::SetGCPs(nGCPCountIn, pasGCPListIn, poGCPSRS);
9143 : }
9144 : else
9145 : {
9146 20 : if (nGCPCountIn > knMAX_GCP_COUNT)
9147 : {
9148 2 : if (GDALPamDataset::GetGCPCount() == 0 && !m_aoGCPs.empty())
9149 : {
9150 1 : m_bForceUnsetGTOrGCPs = true;
9151 : }
9152 2 : ReportError(CE_Warning, CPLE_AppDefined,
9153 : "Trying to write %d GCPs, whereas the maximum "
9154 : "supported in GeoTIFF tag is %d. "
9155 : "Falling back to writing them to PAM",
9156 : nGCPCountIn, knMAX_GCP_COUNT);
9157 2 : eErr = GDALPamDataset::SetGCPs(nGCPCountIn, pasGCPListIn,
9158 : poGCPSRS);
9159 : }
9160 18 : else if (GDALPamDataset::GetGCPCount() > 0)
9161 : {
9162 : // Cancel any existing GCPs from PAM file.
9163 1 : GDALPamDataset::SetGCPs(
9164 : 0, nullptr,
9165 : static_cast<const OGRSpatialReference *>(nullptr));
9166 : }
9167 20 : m_bGeoTIFFInfoChanged = true;
9168 : }
9169 : }
9170 : else
9171 : {
9172 2 : CPLDebug("GTIFF", "SetGCPs() goes to PAM instead of TIFF tags");
9173 2 : eErr = GDALPamDataset::SetGCPs(nGCPCountIn, pasGCPListIn, poGCPSRS);
9174 : }
9175 :
9176 22 : if (eErr == CE_None)
9177 : {
9178 22 : if (poGCPSRS == nullptr || poGCPSRS->IsEmpty())
9179 : {
9180 11 : if (!m_oSRS.IsEmpty())
9181 : {
9182 5 : m_bForceUnsetProjection = true;
9183 : }
9184 11 : m_oSRS.Clear();
9185 : }
9186 : else
9187 : {
9188 11 : m_oSRS = *poGCPSRS;
9189 11 : m_oSRS.SetAxisMappingStrategy(OAMS_TRADITIONAL_GIS_ORDER);
9190 : }
9191 :
9192 22 : m_aoGCPs = gdal::GCP::fromC(pasGCPListIn, nGCPCountIn);
9193 : }
9194 :
9195 22 : return eErr;
9196 : }
9197 :
9198 : /************************************************************************/
9199 : /* SetMetadata() */
9200 : /************************************************************************/
9201 2721 : CPLErr GTiffDataset::SetMetadata(CSLConstList papszMD, const char *pszDomain)
9202 :
9203 : {
9204 2721 : LoadGeoreferencingAndPamIfNeeded();
9205 :
9206 2721 : if (m_bStreamingOut && m_bCrystalized)
9207 : {
9208 1 : ReportError(
9209 : CE_Failure, CPLE_NotSupported,
9210 : "Cannot modify metadata at that point in a streamed output file");
9211 1 : return CE_Failure;
9212 : }
9213 :
9214 2720 : if (pszDomain && EQUAL(pszDomain, "json:ISIS3"))
9215 : {
9216 5 : m_oISIS3Metadata.Deinit();
9217 5 : m_oMapISIS3MetadataItems.clear();
9218 : }
9219 :
9220 2720 : CPLErr eErr = CE_None;
9221 2720 : if (eAccess == GA_Update)
9222 : {
9223 2717 : if (pszDomain != nullptr && EQUAL(pszDomain, MD_DOMAIN_RPC))
9224 : {
9225 : // So that a subsequent GetMetadata() wouldn't override our new
9226 : // values
9227 22 : LoadMetadata();
9228 22 : m_bForceUnsetRPC = (CSLCount(papszMD) == 0);
9229 : }
9230 :
9231 2717 : if ((papszMD != nullptr) && (pszDomain != nullptr) &&
9232 1881 : EQUAL(pszDomain, "COLOR_PROFILE"))
9233 : {
9234 0 : m_bColorProfileMetadataChanged = true;
9235 : }
9236 2717 : else if (pszDomain == nullptr || !EQUAL(pszDomain, "_temporary_"))
9237 : {
9238 2717 : m_bMetadataChanged = true;
9239 : // Cancel any existing metadata from PAM file.
9240 2717 : if (GDALPamDataset::GetMetadata(pszDomain) != nullptr)
9241 1 : GDALPamDataset::SetMetadata(nullptr, pszDomain);
9242 : }
9243 :
9244 5398 : if ((pszDomain == nullptr || EQUAL(pszDomain, "")) &&
9245 2681 : CSLFetchNameValue(papszMD, GDALMD_AREA_OR_POINT) != nullptr)
9246 : {
9247 2046 : const char *pszPrevValue = GetMetadataItem(GDALMD_AREA_OR_POINT);
9248 : const char *pszNewValue =
9249 2046 : CSLFetchNameValue(papszMD, GDALMD_AREA_OR_POINT);
9250 2046 : if (pszPrevValue == nullptr || pszNewValue == nullptr ||
9251 1623 : !EQUAL(pszPrevValue, pszNewValue))
9252 : {
9253 427 : LookForProjection();
9254 427 : m_bGeoTIFFInfoChanged = true;
9255 : }
9256 : }
9257 :
9258 2717 : if (pszDomain != nullptr && EQUAL(pszDomain, "xml:XMP"))
9259 : {
9260 2 : if (papszMD != nullptr && *papszMD != nullptr)
9261 : {
9262 1 : int nTagSize = static_cast<int>(strlen(*papszMD));
9263 1 : TIFFSetField(m_hTIFF, TIFFTAG_XMLPACKET, nTagSize, *papszMD);
9264 : }
9265 : else
9266 : {
9267 1 : TIFFUnsetField(m_hTIFF, TIFFTAG_XMLPACKET);
9268 : }
9269 : }
9270 : }
9271 : else
9272 : {
9273 3 : CPLDebug(
9274 : "GTIFF",
9275 : "GTiffDataset::SetMetadata() goes to PAM instead of TIFF tags");
9276 3 : eErr = GDALPamDataset::SetMetadata(papszMD, pszDomain);
9277 : }
9278 :
9279 2720 : if (eErr == CE_None)
9280 : {
9281 2720 : eErr = m_oGTiffMDMD.SetMetadata(papszMD, pszDomain);
9282 : }
9283 2720 : return eErr;
9284 : }
9285 :
9286 : /************************************************************************/
9287 : /* SetMetadataItem() */
9288 : /************************************************************************/
9289 :
9290 5913 : CPLErr GTiffDataset::SetMetadataItem(const char *pszName, const char *pszValue,
9291 : const char *pszDomain)
9292 :
9293 : {
9294 5913 : LoadGeoreferencingAndPamIfNeeded();
9295 :
9296 5913 : if (m_bStreamingOut && m_bCrystalized)
9297 : {
9298 1 : ReportError(
9299 : CE_Failure, CPLE_NotSupported,
9300 : "Cannot modify metadata at that point in a streamed output file");
9301 1 : return CE_Failure;
9302 : }
9303 :
9304 5912 : if (pszDomain && EQUAL(pszDomain, "json:ISIS3"))
9305 : {
9306 1 : ReportError(CE_Failure, CPLE_NotSupported,
9307 : "Updating part of json:ISIS3 is not supported. "
9308 : "Use SetMetadata() instead");
9309 1 : return CE_Failure;
9310 : }
9311 :
9312 5911 : CPLErr eErr = CE_None;
9313 5911 : if (eAccess == GA_Update)
9314 : {
9315 5904 : if ((pszDomain != nullptr) && EQUAL(pszDomain, "COLOR_PROFILE"))
9316 : {
9317 8 : m_bColorProfileMetadataChanged = true;
9318 : }
9319 5896 : else if (pszDomain == nullptr || !EQUAL(pszDomain, "_temporary_"))
9320 : {
9321 5896 : m_bMetadataChanged = true;
9322 : // Cancel any existing metadata from PAM file.
9323 5896 : if (GDALPamDataset::GetMetadataItem(pszName, pszDomain) != nullptr)
9324 1 : GDALPamDataset::SetMetadataItem(pszName, nullptr, pszDomain);
9325 : }
9326 :
9327 5904 : if ((pszDomain == nullptr || EQUAL(pszDomain, "")) &&
9328 84 : pszName != nullptr && EQUAL(pszName, GDALMD_AREA_OR_POINT))
9329 : {
9330 7 : LookForProjection();
9331 7 : m_bGeoTIFFInfoChanged = true;
9332 : }
9333 : }
9334 : else
9335 : {
9336 7 : CPLDebug(
9337 : "GTIFF",
9338 : "GTiffDataset::SetMetadataItem() goes to PAM instead of TIFF tags");
9339 7 : eErr = GDALPamDataset::SetMetadataItem(pszName, pszValue, pszDomain);
9340 : }
9341 :
9342 5911 : if (eErr == CE_None)
9343 : {
9344 5911 : eErr = m_oGTiffMDMD.SetMetadataItem(pszName, pszValue, pszDomain);
9345 : }
9346 :
9347 5911 : return eErr;
9348 : }
9349 :
9350 : /************************************************************************/
9351 : /* CreateMaskBand() */
9352 : /************************************************************************/
9353 :
9354 100 : CPLErr GTiffDataset::CreateMaskBand(int nFlagsIn)
9355 : {
9356 100 : ScanDirectories();
9357 :
9358 100 : if (m_poMaskDS != nullptr)
9359 : {
9360 1 : ReportError(CE_Failure, CPLE_AppDefined,
9361 : "This TIFF dataset has already an internal mask band");
9362 1 : return CE_Failure;
9363 : }
9364 99 : else if (MustCreateInternalMask())
9365 : {
9366 86 : if (nFlagsIn != GMF_PER_DATASET)
9367 : {
9368 1 : ReportError(CE_Failure, CPLE_AppDefined,
9369 : "The only flag value supported for internal mask is "
9370 : "GMF_PER_DATASET");
9371 1 : return CE_Failure;
9372 : }
9373 :
9374 85 : int l_nCompression = COMPRESSION_PACKBITS;
9375 85 : if (strstr(GDALGetMetadataItem(GDALGetDriverByName("GTiff"),
9376 : GDAL_DMD_CREATIONOPTIONLIST, nullptr),
9377 85 : "<Value>DEFLATE</Value>") != nullptr)
9378 85 : l_nCompression = COMPRESSION_ADOBE_DEFLATE;
9379 :
9380 : /* --------------------------------------------------------------------
9381 : */
9382 : /* If we don't have read access, then create the mask externally.
9383 : */
9384 : /* --------------------------------------------------------------------
9385 : */
9386 85 : if (GetAccess() != GA_Update)
9387 : {
9388 1 : ReportError(CE_Warning, CPLE_AppDefined,
9389 : "File open for read-only accessing, "
9390 : "creating mask externally.");
9391 :
9392 1 : return GDALPamDataset::CreateMaskBand(nFlagsIn);
9393 : }
9394 :
9395 84 : if (m_bLayoutIFDSBeforeData && !m_bKnownIncompatibleEdition &&
9396 0 : !m_bWriteKnownIncompatibleEdition)
9397 : {
9398 0 : ReportError(CE_Warning, CPLE_AppDefined,
9399 : "Adding a mask invalidates the "
9400 : "LAYOUT=IFDS_BEFORE_DATA property");
9401 0 : m_bKnownIncompatibleEdition = true;
9402 0 : m_bWriteKnownIncompatibleEdition = true;
9403 : }
9404 :
9405 84 : bool bIsOverview = false;
9406 84 : uint32_t nSubType = 0;
9407 84 : if (TIFFGetField(m_hTIFF, TIFFTAG_SUBFILETYPE, &nSubType))
9408 : {
9409 8 : bIsOverview = (nSubType & FILETYPE_REDUCEDIMAGE) != 0;
9410 :
9411 8 : if ((nSubType & FILETYPE_MASK) != 0)
9412 : {
9413 0 : ReportError(CE_Failure, CPLE_AppDefined,
9414 : "Cannot create a mask on a TIFF mask IFD !");
9415 0 : return CE_Failure;
9416 : }
9417 : }
9418 :
9419 84 : const int bIsTiled = TIFFIsTiled(m_hTIFF);
9420 :
9421 84 : FlushDirectory();
9422 :
9423 84 : const toff_t nOffset = GTIFFWriteDirectory(
9424 : m_hTIFF,
9425 : bIsOverview ? FILETYPE_REDUCEDIMAGE | FILETYPE_MASK : FILETYPE_MASK,
9426 : nRasterXSize, nRasterYSize, 1, PLANARCONFIG_CONTIG, 1,
9427 : m_nBlockXSize, m_nBlockYSize, bIsTiled, l_nCompression,
9428 : PHOTOMETRIC_MASK, PREDICTOR_NONE, SAMPLEFORMAT_UINT, nullptr,
9429 : nullptr, nullptr, 0, nullptr, "", nullptr, nullptr, nullptr,
9430 84 : nullptr, m_bWriteCOGLayout);
9431 :
9432 84 : ReloadDirectory();
9433 :
9434 84 : if (nOffset == 0)
9435 0 : return CE_Failure;
9436 :
9437 84 : m_poMaskDS = std::make_shared<GTiffDataset>();
9438 84 : m_poMaskDS->eAccess = GA_Update;
9439 84 : m_poMaskDS->m_poBaseDS = this;
9440 84 : m_poMaskDS->m_poImageryDS = this;
9441 84 : m_poMaskDS->ShareLockWithParentDataset(this);
9442 84 : m_poMaskDS->m_osFilename = m_osFilename;
9443 84 : m_poMaskDS->m_bPromoteTo8Bits = CPLTestBool(
9444 : CPLGetConfigOption("GDAL_TIFF_INTERNAL_MASK_TO_8BIT", "YES"));
9445 84 : return m_poMaskDS->OpenOffset(VSI_TIFFOpenChild(m_hTIFF), nOffset,
9446 84 : GA_Update);
9447 : }
9448 :
9449 13 : return GDALPamDataset::CreateMaskBand(nFlagsIn);
9450 : }
9451 :
9452 : /************************************************************************/
9453 : /* MustCreateInternalMask() */
9454 : /************************************************************************/
9455 :
9456 137 : bool GTiffDataset::MustCreateInternalMask()
9457 : {
9458 137 : return CPLTestBool(CPLGetConfigOption("GDAL_TIFF_INTERNAL_MASK", "YES"));
9459 : }
9460 :
9461 : /************************************************************************/
9462 : /* CreateMaskBand() */
9463 : /************************************************************************/
9464 :
9465 29 : CPLErr GTiffRasterBand::CreateMaskBand(int nFlagsIn)
9466 : {
9467 29 : m_poGDS->ScanDirectories();
9468 :
9469 29 : if (m_poGDS->m_poMaskDS != nullptr)
9470 : {
9471 5 : ReportError(CE_Failure, CPLE_AppDefined,
9472 : "This TIFF dataset has already an internal mask band");
9473 5 : return CE_Failure;
9474 : }
9475 :
9476 : const char *pszGDAL_TIFF_INTERNAL_MASK =
9477 24 : CPLGetConfigOption("GDAL_TIFF_INTERNAL_MASK", nullptr);
9478 27 : if ((pszGDAL_TIFF_INTERNAL_MASK &&
9479 24 : CPLTestBool(pszGDAL_TIFF_INTERNAL_MASK)) ||
9480 : nFlagsIn == GMF_PER_DATASET)
9481 : {
9482 16 : return m_poGDS->CreateMaskBand(nFlagsIn);
9483 : }
9484 :
9485 8 : return GDALPamRasterBand::CreateMaskBand(nFlagsIn);
9486 : }
9487 :
9488 : /************************************************************************/
9489 : /* ClampCTEntry() */
9490 : /************************************************************************/
9491 :
9492 236415 : /* static */ unsigned short GTiffDataset::ClampCTEntry(int iColor, int iComp,
9493 : int nCTEntryVal,
9494 : int nMultFactor)
9495 : {
9496 236415 : const int nVal = nCTEntryVal * nMultFactor;
9497 236415 : if (nVal < 0)
9498 : {
9499 0 : CPLError(CE_Warning, CPLE_AppDefined,
9500 : "Color table entry [%d][%d] = %d, clamped to 0", iColor, iComp,
9501 : nCTEntryVal);
9502 0 : return 0;
9503 : }
9504 236415 : if (nVal > 65535)
9505 : {
9506 2 : CPLError(CE_Warning, CPLE_AppDefined,
9507 : "Color table entry [%d][%d] = %d, clamped to 65535", iColor,
9508 : iComp, nCTEntryVal);
9509 2 : return 65535;
9510 : }
9511 236413 : return static_cast<unsigned short>(nVal);
9512 : }
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