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|
/** \file
* \brief TIFF - Tagged Image File Format
*
* See Copyright Notice in im_lib.h
* See libTIFF Copyright Notice in tiff.h
* $Id: im_format_tiff.cpp,v 1.4 2009/08/22 04:31:04 scuri Exp $
*/
#include "im_format.h"
#include "im_util.h"
#include "im_format_all.h"
#include "im_counter.h"
#include "tiffiop.h"
#include <stdlib.h>
#include <stdio.h>
#include <string.h>
#include <memory.h>
#define TIFFTAG_GEOPIXELSCALE 33550
#define TIFFTAG_INTERGRAPH_MATRIX 33920
#define TIFFTAG_GEOTIEPOINTS 33922
#define TIFFTAG_GEOTRANSMATRIX 34264
#define TIFFTAG_GEOKEYDIRECTORY 34735
#define TIFFTAG_GEODOUBLEPARAMS 34736
#define TIFFTAG_GEOASCIIPARAMS 34737
#define TIFFTAG_CFAREPEATPATTERNDIM 33421 /* dimensions of CFA pattern */
#define TIFFTAG_CFAPATTERN 33422 /* color filter array pattern */
#define PHOTOMETRIC_CFA 32803 /* color filter array */
#define PHOTOMETRIC_LINEARRAW 34892
static const TIFFFieldInfo iTiffFieldInfo[] =
{
/* Patch from Dave Coffin (Used for DNG) */
{ TIFFTAG_WHITELEVEL, -2, -1, TIFF_LONG, FIELD_CUSTOM, 0, 1, "WhiteLevel" },
{ TIFFTAG_WHITELEVEL, -2, -1, TIFF_SHORT, FIELD_CUSTOM, 0, 1, "WhiteLevel" },
{ TIFFTAG_CFAREPEATPATTERNDIM, 2, 2, TIFF_SHORT, FIELD_CUSTOM, 0, 0, "CFARepeatPatternDim" },
{ TIFFTAG_CFAPATTERN, -1, -1, TIFF_BYTE, FIELD_CUSTOM, 0, 1, "CFAPattern" },
/* GeoTIFF Tags */
{ TIFFTAG_GEOPIXELSCALE, -1,-1, TIFF_DOUBLE, FIELD_CUSTOM, TRUE, TRUE, "GeoPixelScale" },
{ TIFFTAG_INTERGRAPH_MATRIX,-1,-1, TIFF_DOUBLE, FIELD_CUSTOM, TRUE, TRUE, "Intergraph TransformationMatrix" },
{ TIFFTAG_GEOTIEPOINTS, -1,-1, TIFF_DOUBLE, FIELD_CUSTOM, TRUE, TRUE, "GeoTiePoints" },
{ TIFFTAG_GEOTRANSMATRIX, -1,-1, TIFF_DOUBLE, FIELD_CUSTOM, TRUE, TRUE, "GeoTransformationMatrix" },
{ TIFFTAG_GEOKEYDIRECTORY,-1,-1, TIFF_SHORT, FIELD_CUSTOM, TRUE, TRUE, "GeoKeyDirectory" },
{ TIFFTAG_GEODOUBLEPARAMS, -1,-1, TIFF_DOUBLE, FIELD_CUSTOM, TRUE, TRUE, "GeoDoubleParams" },
{ TIFFTAG_GEOASCIIPARAMS, -1,-1, TIFF_ASCII, FIELD_CUSTOM, TRUE, FALSE, "GeoASCIIParams" }
};
#define IMTIFF_NUMCOMP 15
/* this list must be sorted because of bsearch */
static uint16 iTIFFCompIdTable [IMTIFF_NUMCOMP] =
{
COMPRESSION_NONE,
COMPRESSION_CCITTRLE,
COMPRESSION_CCITTFAX3,
COMPRESSION_CCITTFAX4,
COMPRESSION_LZW,
COMPRESSION_JPEG,
COMPRESSION_ADOBE_DEFLATE,
COMPRESSION_NEXT,
COMPRESSION_CCITTRLEW,
COMPRESSION_PACKBITS,
COMPRESSION_THUNDERSCAN,
COMPRESSION_PIXARLOG,
COMPRESSION_DEFLATE,
COMPRESSION_SGILOG,
COMPRESSION_SGILOG24
};
static int iTIFFCompareCompID(const void *elem1, const void *elem2)
{
const uint16 *tiff_comp_elem1 = (const uint16 *)elem1;
const uint16 *tiff_comp_elem2 = (const uint16 *)elem2;
if (*tiff_comp_elem1 > *tiff_comp_elem2)
return 1;
if (*tiff_comp_elem1 < *tiff_comp_elem2)
return -1;
return 0;
}
static int iTIFFGetCompIndex(uint16 Compression)
{
if (Compression == COMPRESSION_OJPEG)
Compression = COMPRESSION_JPEG;
uint16* comp_result = (uint16 *)bsearch(&Compression, iTIFFCompIdTable, sizeof(iTIFFCompIdTable)/sizeof(uint16), sizeof(uint16), iTIFFCompareCompID);
if (comp_result == NULL)
{
return -1;
}
return (comp_result - iTIFFCompIdTable);
}
/* this list must follow iTIFFCompIdTable order */
static const char* iTIFFCompTable[IMTIFF_NUMCOMP] =
{
"NONE",
"CCITTRLE",
"CCITTFAX3",
"CCITTFAX4",
"LZW",
"JPEG",
"ADOBEDEFLATE",
"NEXT",
"CCITTRLEW",
"RLE",
"THUNDERSCAN",
"PIXARLOG",
"DEFLATE",
"SGILOG",
"SGILOG24"
};
static uint16 iTIFFCompFind(const char* compression)
{
for(int i = 0; i < IMTIFF_NUMCOMP; i++)
{
if (imStrEqual(compression, iTIFFCompTable[i]))
return iTIFFCompIdTable[i];
}
return (uint16)-1;
}
static uint16 iTIFFCompDefault(int color_space, int data_type)
{
if (color_space == IM_BINARY)
return COMPRESSION_CCITTRLE;
if (color_space == IM_MAP)
return COMPRESSION_PACKBITS;
if (color_space == IM_YCBCR && data_type == IM_BYTE)
return COMPRESSION_JPEG;
if (color_space == IM_XYZ)
return COMPRESSION_SGILOG;
if (data_type >= IM_FLOAT)
return COMPRESSION_NONE;
return COMPRESSION_LZW;
}
static uint16 iTIFFCompCalc(const char* compression, int color_mode, int data_type)
{
uint16 Compression;
if (compression[0] == 0)
Compression = iTIFFCompDefault(imColorModeSpace(color_mode), data_type);
else
Compression = iTIFFCompFind(compression);
return Compression;
}
static int iTIFFWriteTag(TIFF* tiff, int index, const char* name, int data_type, int count, const void* data)
{
const TIFFFieldInfo *fld = TIFFFieldWithName(tiff, name);
(void)data_type;
(void)index;
if (fld)
{
if (fld->field_tag == TIFFTAG_EXIFIFD || /* offset */
fld->field_tag == TIFFTAG_GPSIFD ||
fld->field_tag == TIFFTAG_INTEROPERABILITYIFD ||
fld->field_tag == TIFFTAG_SUBIFD ||
fld->field_tag == TIFFTAG_COLORMAP || /* handled elsewhere */
fld->field_tag == TIFFTAG_EXTRASAMPLES ||
fld->field_tag == TIFFTAG_TRANSFERFUNCTION ||
fld->field_tag == TIFFTAG_RESOLUTIONUNIT ||
fld->field_tag == TIFFTAG_XRESOLUTION ||
fld->field_tag == TIFFTAG_YRESOLUTION ||
fld->field_tag == TIFFTAG_INKNAMES)
return 1;
if (fld->field_passcount)
{
double* double_data = NULL;
if (fld->field_type==TIFF_DOUBLE)
{
float* float_data = (float*)data;
double_data = new double [count];
for (int p = 0; p < count; p++)
double_data[p] = float_data[p];
data = double_data;
}
if (fld->field_writecount == TIFF_VARIABLE2)
{
uint32 value_count = (uint32)count;
if (TIFFSetField(tiff, fld->field_tag, value_count, data) != 1)
return 1;
}
else
{
uint16 value_count = (uint16)count;
if (TIFFSetField(tiff, fld->field_tag, value_count, data) != 1)
return 1;
}
if (fld->field_type==TIFF_DOUBLE)
delete [] double_data;
}
else
{
if (fld->field_tag == TIFFTAG_PAGENUMBER ||
fld->field_tag == TIFFTAG_HALFTONEHINTS ||
fld->field_tag == TIFFTAG_YCBCRSUBSAMPLING ||
fld->field_tag == TIFFTAG_DOTRANGE)
{
// there are 2 separated ushort values
uint16* ushort_value = (uint16*)data;
TIFFSetField(tiff, fld->field_tag, ushort_value[0], ushort_value[1]);
return 1;
}
if (count > 1 || fld->field_type == TIFF_ASCII)
TIFFSetField(tiff, fld->field_tag, data);
else
{
switch(fld->field_type)
{
case TIFF_UNDEFINED:
case TIFF_ASCII:
case TIFF_BYTE:
case TIFF_SBYTE:
{
imbyte* byte_data = (imbyte*)data;
TIFFSetField(tiff, fld->field_tag, *byte_data);
}
break;
case TIFF_SHORT:
case TIFF_SSHORT:
{
imushort* short_data = (imushort*)data;
TIFFSetField(tiff, fld->field_tag, *short_data);
}
break;
case TIFF_LONG:
case TIFF_SLONG:
{
int* long_data = (int*)data;
TIFFSetField(tiff, fld->field_tag, *long_data);
}
break;
case TIFF_RATIONAL:
case TIFF_SRATIONAL:
case TIFF_FLOAT:
{
float* float_data = (float*)data;
TIFFSetField(tiff, fld->field_tag, *float_data);
}
break;
case TIFF_DOUBLE:
{
float* float_data = (float*)data;
TIFFSetField(tiff, fld->field_tag, (double)*float_data);
}
break;
default:
break;
}
}
}
}
return 1;
}
static void iTIFFWriteCustomTags(TIFF* tiff, imAttribTable* attrib_table)
{
attrib_table->ForEach(tiff, (imAttribTableCallback)iTIFFWriteTag);
}
static void iTIFFReadCustomTags(TIFF* tiff, imAttribTable* attrib_table)
{
int i;
short tag_count;
tag_count = (short) TIFFGetTagListCount(tiff);
for( i = 0; i < tag_count; i++ )
{
ttag_t tag = TIFFGetTagListEntry(tiff, i);
const TIFFFieldInfo *fld;
fld = TIFFFieldWithTag(tiff, tag);
if (fld == NULL)
continue;
/* offsets */
if (fld->field_tag == TIFFTAG_EXIFIFD ||
fld->field_tag == TIFFTAG_GPSIFD ||
fld->field_tag == TIFFTAG_INTEROPERABILITYIFD ||
fld->field_tag == TIFFTAG_SUBIFD ||
fld->field_tag == TIFFTAG_COLORMAP)
continue;
/* handled elsewhere */
if (fld->field_tag == TIFFTAG_EXTRASAMPLES ||
fld->field_tag == TIFFTAG_TRANSFERFUNCTION ||
fld->field_tag == TIFFTAG_RESOLUTIONUNIT ||
fld->field_tag == TIFFTAG_XRESOLUTION ||
fld->field_tag == TIFFTAG_YRESOLUTION ||
fld->field_tag == TIFFTAG_INKNAMES)
continue;
if (fld->field_tag == TIFFTAG_BLACKLEVEL ||
fld->field_tag == TIFFTAG_DEFAULTCROPSIZE ||
fld->field_tag == TIFFTAG_DEFAULTCROPORIGIN)
{
/* libTIFF bug. When reading custom tags there is an incorrect interpretation of the tag
that leads to return always type=RATIONAL for these tags. */
continue;
}
int data_type = -1, data_count = -1;
void* data = NULL;
if (fld->field_passcount)
{
if (fld->field_readcount == TIFF_VARIABLE2)
{
uint32 value_count;
if (TIFFGetField(tiff, tag, &value_count, &data) != 1)
continue;
data_count = value_count;
}
else
{
uint16 value_count;
if (TIFFGetField(tiff, tag, &value_count, &data) != 1)
continue;
data_count = value_count;
}
switch(fld->field_type)
{
case TIFF_UNDEFINED:
case TIFF_ASCII:
case TIFF_BYTE:
case TIFF_SBYTE:
data_type = IM_BYTE;
break;
case TIFF_SHORT:
case TIFF_SSHORT:
data_type = IM_USHORT;
break;
case TIFF_LONG:
case TIFF_SLONG:
data_type = IM_INT;
break;
case TIFF_RATIONAL:
case TIFF_SRATIONAL:
case TIFF_FLOAT:
data_type = IM_FLOAT;
break;
case TIFF_DOUBLE:
{
double* double_data = (double*)data;
float* float_data = new float [data_count];
for (int p = 0; p < data_count; p++)
float_data[p] = (float)double_data[p];
attrib_table->Set(fld->field_name, IM_FLOAT, data_count, float_data);
delete [] float_data;
}
continue;
default:
continue;
}
if (data && data_count > 0)
attrib_table->Set(fld->field_name, data_type, data_count, data);
}
else
{
data_count = fld->field_readcount;
if (fld->field_tag == TIFFTAG_PAGENUMBER ||
fld->field_tag == TIFFTAG_HALFTONEHINTS ||
fld->field_tag == TIFFTAG_YCBCRSUBSAMPLING ||
fld->field_tag == TIFFTAG_DOTRANGE)
{
// there are 2 separated ushort values
uint16 ushort_value[2];
if (TIFFGetField(tiff, fld->field_tag, &ushort_value[0], &ushort_value[1]))
attrib_table->Set(fld->field_name, IM_USHORT, 2, ushort_value);
continue;
}
switch(fld->field_type)
{
case TIFF_UNDEFINED:
case TIFF_BYTE:
case TIFF_SBYTE:
case TIFF_ASCII:
data_type = IM_BYTE;
break;
case TIFF_SHORT:
case TIFF_SSHORT:
data_type = IM_USHORT;
break;
case TIFF_LONG:
case TIFF_SLONG:
data_type = IM_INT;
break;
case TIFF_RATIONAL:
case TIFF_SRATIONAL:
case TIFF_FLOAT:
case TIFF_DOUBLE:
data_type = IM_FLOAT;
break;
default:
continue;
}
if (fld->field_type == TIFF_ASCII ||
fld->field_readcount == TIFF_VARIABLE ||
fld->field_readcount == TIFF_VARIABLE2 ||
fld->field_readcount == TIFF_SPP ||
data_count > 1)
{
if (TIFFGetField(tiff, tag, &data) != 1)
continue;
if (data)
{
if (fld->field_type == TIFF_ASCII && data_count == -1)
data_count = strlen((char*)data)+1;
if (data_count > 0)
{
if (fld->field_type == TIFF_DOUBLE)
{
double* double_data = (double*)data;
float* float_data = new float [data_count];
for (int p = 0; p < data_count; p++)
float_data[p] = (float)double_data[p];
attrib_table->Set(fld->field_name, IM_FLOAT, data_count, float_data);
delete [] float_data;
}
else
{
char* newstr = NULL;
if (fld->field_type == TIFF_ASCII && ((char*)data)[data_count-1] != 0)
{
int i = data_count-1;
char* p = (char*)data;
while (i > 0 && p[i] != 0)
i--;
if (i == 0)
{
if (fld->field_tag == TIFFTAG_DATETIME ||
fld->field_tag == EXIFTAG_DATETIMEORIGINAL ||
fld->field_tag == EXIFTAG_DATETIMEDIGITIZED)
{
/* sometimes theses tags get non standard strings,
libTIIF does not returns the actual number os bytes read,
it returns the standard value of 20.
so we will try to find the actual string size, but we risk in a memory invalid access. */
i = data_count;
while (i < data_count+6 && p[i] != 0)
i++;
if (i < data_count+6)
data_count = i+1;
}
else
{
newstr = (char*)malloc(data_count+1);
memcpy(newstr, data, data_count);
newstr[data_count] = 0;
data_count++;
}
}
else
data_count = i;
}
attrib_table->Set(fld->field_name, data_type, data_count, data);
if (newstr) free(newstr);
}
}
}
}
else if (data_count == 1)
{
data = malloc(imDataTypeSize(data_type));
if (TIFFGetField(tiff, tag, data) == 1)
attrib_table->Set(fld->field_name, data_type, data_count, data);
free(data);
data = NULL;
}
}
}
}
static void iTIFFReadAttributes(TIFF* tiff, imAttribTable* attrib_table)
{
uint16 ResolutionUnit = RESUNIT_NONE;
TIFFGetField(tiff, TIFFTAG_RESOLUTIONUNIT, &ResolutionUnit);
if (ResolutionUnit != RESUNIT_NONE)
{
float xres = 0, yres = 0;
TIFFGetField(tiff, TIFFTAG_XRESOLUTION, &xres);
TIFFGetField(tiff, TIFFTAG_YRESOLUTION, &yres);
if (xres != 0 && yres != 0)
{
if (ResolutionUnit == RESUNIT_INCH)
attrib_table->Set("ResolutionUnit", IM_BYTE, -1, "DPI");
else
attrib_table->Set("ResolutionUnit", IM_BYTE, -1, "DPC");
attrib_table->Set("XResolution", IM_FLOAT, 1, (void*)&xres);
attrib_table->Set("YResolution", IM_FLOAT, 1, (void*)&yres);
}
}
uint16 *transferfunction[3];
if (TIFFGetField(tiff, TIFFTAG_TRANSFERFUNCTION, &transferfunction[0], &transferfunction[1], &transferfunction[2]))
{
uint16 SamplesPerPixel = 1, BitsPerSample = 1, ExtraSamples = 0, *SampleInfo;
TIFFGetFieldDefaulted(tiff, TIFFTAG_BITSPERSAMPLE, &BitsPerSample);
TIFFGetFieldDefaulted(tiff, TIFFTAG_EXTRASAMPLES, &ExtraSamples, &SampleInfo);
TIFFGetFieldDefaulted(tiff, TIFFTAG_SAMPLESPERPIXEL, &SamplesPerPixel);
int num = (SamplesPerPixel - ExtraSamples) > 1 ? 3 : 1;
int count = 1L<<BitsPerSample;
if (num == 1)
attrib_table->Set("TransferFunction0", IM_USHORT, count, transferfunction[0]);
else
{
attrib_table->Set("TransferFunction0", IM_USHORT, count, transferfunction[0]);
attrib_table->Set("TransferFunction1", IM_USHORT, count, transferfunction[1]);
attrib_table->Set("TransferFunction2", IM_USHORT, count, transferfunction[2]);
}
}
char *inknames;
if (TIFFGetField(tiff, TIFFTAG_INKNAMES, &inknames))
{
// Ink names are separated by '0', so strlen will measure only the first string
uint16 numinks;
TIFFGetField(tiff, TIFFTAG_NUMBEROFINKS, &numinks);
int inknameslen = 0;
for (int k = 0; k < (int)numinks; k++)
inknameslen += strlen(inknames+inknameslen)+1;
attrib_table->Set("InkNames", IM_BYTE, inknameslen, inknames);
}
iTIFFReadCustomTags(tiff, attrib_table);
uint32 offset;
if (TIFFGetField(tiff, TIFFTAG_EXIFIFD, &offset))
{
tdir_t cur_dir = TIFFCurrentDirectory(tiff);
if (!TIFFReadEXIFDirectory(tiff, offset))
{
TIFFSetDirectory(tiff, cur_dir);
return;
}
iTIFFReadCustomTags(tiff, attrib_table);
TIFFSetDirectory(tiff, cur_dir);
}
}
static void iTIFFWriteAttributes(TIFF* tiff, imAttribTable* attrib_table)
{
char* res_unit = (char*)attrib_table->Get("ResolutionUnit");
if (res_unit)
{
float* xres = (float*)attrib_table->Get("XResolution");
float* yres = (float*)attrib_table->Get("YResolution");
if (xres && yres)
{
uint16 tiff_res_unit = RESUNIT_CENTIMETER;
if (imStrEqual(res_unit, "DPI"))
tiff_res_unit = RESUNIT_INCH;
TIFFSetField(tiff, TIFFTAG_RESOLUTIONUNIT, tiff_res_unit);
TIFFSetField(tiff, TIFFTAG_XRESOLUTION, *xres);
TIFFSetField(tiff, TIFFTAG_YRESOLUTION, *yres);
}
}
uint16 *transferfunction0 = (uint16*)attrib_table->Get("TransferFunction0");
if (transferfunction0)
{
uint16 SamplesPerPixel = 1, ExtraSamples = 0, *SampleInfo;
TIFFGetFieldDefaulted(tiff, TIFFTAG_EXTRASAMPLES, &ExtraSamples, &SampleInfo);
TIFFGetFieldDefaulted(tiff, TIFFTAG_SAMPLESPERPIXEL, &SamplesPerPixel);
int num = (SamplesPerPixel - ExtraSamples) > 1 ? 3 : 1;
if (num == 1)
TIFFSetField(tiff, TIFFTAG_TRANSFERFUNCTION, transferfunction0);
else
{
uint16 *transferfunction1 = (uint16*)attrib_table->Get("TransferFunction1");
uint16 *transferfunction2 = (uint16*)attrib_table->Get("TransferFunction2");
if (transferfunction1 && transferfunction2)
TIFFSetField(tiff, TIFFTAG_TRANSFERFUNCTION, transferfunction0, transferfunction1, transferfunction2);
}
}
char* inknames = (char*)attrib_table->Get("InkNames");
if (inknames)
TIFFSetField(tiff, TIFFTAG_INKNAMES, inknames);
int proflength;
const void* profdata = attrib_table->Get("ICCProfile", (int*)NULL, &proflength);
if (profdata)
TIFFSetField(tiff, TIFFTAG_ICCPROFILE, proflength, profdata);
iTIFFWriteCustomTags(tiff, attrib_table);
}
class imFileFormatTIFF: public imFileFormatBase
{
TIFF* tiff;
int invert, // must invert black and white reference
cpx_int, // original data is a complex integer
lab_fix, // convert CIE Lab to unsigned
extra_sample_size, // eliminate extra samples if more than one
sample_size,
start_plane; // first band to read in a multiband image
void** tile_buf;
int tile_buf_count, tile_width, tile_height, start_row, tile_line_size, tile_line_raw_size;
int ReadTileline(void* line_buffer, int row, int plane);
public:
imFileFormatTIFF(const imFormat* _iformat): imFileFormatBase(_iformat) {}
~imFileFormatTIFF() {}
int Open(const char* file_name);
int New(const char* file_name);
void Close();
void* Handle(int index);
int ReadImageInfo(int index);
int ReadImageData(void* data);
int WriteImageInfo();
int WriteImageData(void* data);
};
class imFormatTIFF: public imFormat
{
public:
imFormatTIFF()
:imFormat("TIFF",
"Tagged Image File Format",
"*.tif;*.tiff;",
iTIFFCompTable,
IMTIFF_NUMCOMP,
1)
{}
~imFormatTIFF() {}
imFileFormatBase* Create(void) const { return new imFileFormatTIFF(this); }
int CanWrite(const char* compression, int color_mode, int data_type) const;
};
static void iTIFFDefaultDirectory(TIFF *tiff)
{
/* Install the IM Tag field info */
TIFFMergeFieldInfo(tiff, iTiffFieldInfo, TIFFArrayCount(iTiffFieldInfo));
}
void imFormatRegisterTIFF(void)
{
TIFFSetTagExtender(iTIFFDefaultDirectory);
imFormatRegister(new imFormatTIFF());
}
int imFileFormatTIFF::Open(const char* file_name)
{
this->tiff = TIFFOpen(file_name, "r");
if (this->tiff == NULL)
return IM_ERR_FORMAT;
// Return the compression of the first image in the file.
uint16 Compression = COMPRESSION_NONE;
TIFFGetField(this->tiff, TIFFTAG_COMPRESSION, &Compression);
int comp_index = iTIFFGetCompIndex(Compression);
if (comp_index == -1) return IM_ERR_COMPRESS;
strcpy(this->compression, iTIFFCompTable[comp_index]);
this->image_count = TIFFNumberOfDirectories(this->tiff);
this->tile_buf = 0;
this->start_plane = 0;
return IM_ERR_NONE;
}
int imFileFormatTIFF::New(const char* file_name)
{
this->tiff = TIFFOpen(file_name, "w");
if (this->tiff == NULL)
return IM_ERR_OPEN;
this->tile_buf = 0;
return IM_ERR_NONE;
}
void imFileFormatTIFF::Close()
{
if (this->tile_buf)
{
for (int i = 0; i < this->tile_buf_count; i++)
free(this->tile_buf[i]);
free(this->tile_buf);
}
TIFFClose(this->tiff);
}
void* imFileFormatTIFF::Handle(int index)
{
if (index == 0)
return (void*)this->tiff->tif_fd;
else if (index == 1)
return (void*)this->tiff;
else
return NULL;
}
int imFileFormatTIFF::ReadImageInfo(int index)
{
this->cpx_int = 0;
this->invert = 0;
this->lab_fix = 0;
this->extra_sample_size = 0;
if (!TIFFSetDirectory(this->tiff, (tdir_t)index))
return IM_ERR_ACCESS;
imAttribTable* attrib_table = AttribTable();
uint16* attrib_start_plane = (uint16*)attrib_table->Get("MultiBandSelect");
if (attrib_start_plane)
this->start_plane = *attrib_start_plane;
else
this->start_plane = 0;
uint16* sub_ifd = (uint16*)attrib_table->Get("SubIFDSelect");
/* must clear the attribute list, because TIFF can have many different images */
attrib_table->RemoveAll();
void* data = NULL;
if (TIFFGetField(this->tiff, TIFFTAG_DNGVERSION, &data) == 1 && data)
{
uint32 SubFileType = 0;
TIFFGetField(this->tiff, TIFFTAG_SUBFILETYPE, &SubFileType);
uint16 SubIFDsCount = 0;
uint32* SubIFDs = NULL;
TIFFGetField(this->tiff, TIFFTAG_SUBIFD, &SubIFDsCount, &SubIFDs);
attrib_table->Set("SubIFDCount", IM_USHORT, 1, (void*)&SubIFDsCount);
/* If is a DNG file, and has SubIFDs,
then ignore the thumbnail and position at the desired SubIFD. */
if (SubFileType == FILETYPE_REDUCEDIMAGE && SubIFDsCount != 0)
{
int index = sub_ifd? *sub_ifd: 0;
if (index >= SubIFDsCount) index = SubIFDsCount-1;
uint32 SubIFDOffset = SubIFDs[index];
/* Load the main image attributes, the SubIFD contains only a few attributes. */
iTIFFReadAttributes(this->tiff, attrib_table);
TIFFSetSubDirectory(this->tiff, SubIFDOffset);
}
}
uint16 Compression = COMPRESSION_NONE;
TIFFGetField(this->tiff, TIFFTAG_COMPRESSION, &Compression);
int comp_index = iTIFFGetCompIndex(Compression);
if (comp_index == -1) return IM_ERR_COMPRESS;
strcpy(this->compression, iTIFFCompTable[comp_index]);
if (Compression == COMPRESSION_JPEG || Compression == COMPRESSION_OJPEG)
TIFFSetField(this->tiff, TIFFTAG_JPEGCOLORMODE, JPEGCOLORMODE_RGB);
uint32 Width;
if (!TIFFGetField(this->tiff, TIFFTAG_IMAGEWIDTH, &Width))
return IM_ERR_FORMAT;
this->width = Width;
uint32 Height;
if (!TIFFGetField(this->tiff, TIFFTAG_IMAGELENGTH, &Height))
return IM_ERR_FORMAT;
this->height = Height;
uint16 Photometric;
if (!TIFFGetField(this->tiff, TIFFTAG_PHOTOMETRIC, &Photometric))
return IM_ERR_FORMAT;
attrib_table->Set("Photometric", IM_USHORT, 1, (void*)&Photometric);
switch(Photometric)
{
case PHOTOMETRIC_MINISWHITE:
this->invert = 1;
case PHOTOMETRIC_LINEARRAW:
case PHOTOMETRIC_CFA:
case PHOTOMETRIC_LOGL:
case PHOTOMETRIC_MASK:
case PHOTOMETRIC_MINISBLACK:
this->file_color_mode = IM_GRAY;
break;
case PHOTOMETRIC_PALETTE:
this->file_color_mode = IM_MAP;
break;
case PHOTOMETRIC_RGB:
this->file_color_mode = IM_RGB;
break;
case PHOTOMETRIC_SEPARATED:
this->file_color_mode = IM_CMYK;
break;
case PHOTOMETRIC_YCBCR:
if (Compression == COMPRESSION_JPEG || Compression == COMPRESSION_OJPEG)
this->file_color_mode = IM_RGB;
else
this->file_color_mode = IM_YCBCR;
break;
case PHOTOMETRIC_CIELAB:
this->lab_fix = 1;
case PHOTOMETRIC_ITULAB:
case PHOTOMETRIC_ICCLAB:
this->file_color_mode = IM_LAB;
break;
case PHOTOMETRIC_LOGLUV:
this->file_color_mode = IM_XYZ;
break;
default:
return IM_ERR_DATA;
}
if (Photometric == PHOTOMETRIC_LOGLUV || Photometric == PHOTOMETRIC_LOGL)
TIFFSetField(this->tiff, TIFFTAG_SGILOGDATAFMT, SGILOGDATAFMT_FLOAT);
uint16 SamplesPerPixel = 1, BitsPerSample = 1;
TIFFGetFieldDefaulted(this->tiff, TIFFTAG_BITSPERSAMPLE, &BitsPerSample);
TIFFGetFieldDefaulted(this->tiff, TIFFTAG_SAMPLESPERPIXEL, &SamplesPerPixel);
if (BitsPerSample == 1 && this->file_color_mode == IM_GRAY)
this->file_color_mode = IM_BINARY;
/* consistency checks */
if (Photometric == PHOTOMETRIC_PALETTE && (SamplesPerPixel != 1 || BitsPerSample > 8))
return IM_ERR_DATA;
if (Photometric == PHOTOMETRIC_MASK && (SamplesPerPixel != 1 || BitsPerSample != 1))
return IM_ERR_DATA;
if ((Photometric == PHOTOMETRIC_CFA || Photometric == PHOTOMETRIC_LINEARRAW) && SamplesPerPixel == 3) /* when there are 3 sensors */
this->file_color_mode = IM_RGB;
if ((Photometric == PHOTOMETRIC_CFA || Photometric == PHOTOMETRIC_LINEARRAW) && BitsPerSample == 12)
this->convert_bpp = 12;
uint16 PlanarConfig = PLANARCONFIG_CONTIG;
TIFFGetFieldDefaulted(this->tiff, TIFFTAG_PLANARCONFIG, &PlanarConfig);
if (PlanarConfig == PLANARCONFIG_CONTIG && SamplesPerPixel > 1)
this->file_color_mode |= IM_PACKED;
uint16 ExtraSamples = 0, *SampleInfo;
TIFFGetFieldDefaulted(this->tiff, TIFFTAG_EXTRASAMPLES, &ExtraSamples, &SampleInfo);
if (ExtraSamples == 1)
{
switch (SampleInfo[0])
{
case EXTRASAMPLE_UNSPECIFIED: /* !unspecified data */
case EXTRASAMPLE_ASSOCALPHA: /* data is pre-multiplied */
case EXTRASAMPLE_UNASSALPHA: /* data is not pre-multiplied */
this->file_color_mode |= IM_ALPHA;
break;
}
attrib_table->Set("ExtraSampleInfo", IM_USHORT, 1, (void*)&SampleInfo[0]);
}
else if ((ExtraSamples > 1) && (PlanarConfig == PLANARCONFIG_CONTIG))
{
/* usually a multi band image, we read only one band */
this->sample_size = (BitsPerSample*(SamplesPerPixel-ExtraSamples) + 7)/8;
this->extra_sample_size = (BitsPerSample*SamplesPerPixel + 7)/8;
/* add space for the line buffer (this is more than necessary) */
this->line_buffer_extra = TIFFScanlineSize(this->tiff);
}
uint16 SampleFormat = SAMPLEFORMAT_UINT;
TIFFGetField(this->tiff, TIFFTAG_SAMPLEFORMAT, &SampleFormat);
switch(SampleFormat)
{
case SAMPLEFORMAT_VOID:
case SAMPLEFORMAT_UINT:
if (BitsPerSample < 8)
{
if (BitsPerSample != 1 && BitsPerSample != 2 && BitsPerSample != 4)
return IM_ERR_DATA;
this->file_data_type = IM_BYTE;
this->convert_bpp = BitsPerSample;
}
else if (BitsPerSample == 8)
this->file_data_type = IM_BYTE;
else if (BitsPerSample <= 16)
this->file_data_type = IM_USHORT;
else if (BitsPerSample <= 32)
{
this->switch_type = 1;
this->file_data_type = IM_INT;
}
else
return IM_ERR_DATA;
break;
case SAMPLEFORMAT_INT:
if (BitsPerSample <= 8)
{
this->switch_type = 1;
this->file_data_type = IM_BYTE;
}
else if (BitsPerSample <= 16)
{
this->switch_type = 1;
this->file_data_type = IM_USHORT;
}
else if (BitsPerSample <= 32)
this->file_data_type = IM_INT;
else
return IM_ERR_DATA;
break;
case SAMPLEFORMAT_IEEEFP:
if (BitsPerSample == 32)
this->file_data_type = IM_FLOAT;
else if (BitsPerSample == 64)
{
this->switch_type = 1;
this->file_data_type = IM_FLOAT;
}
else
return IM_ERR_DATA;
break;
case SAMPLEFORMAT_COMPLEXINT:
if (BitsPerSample == 32)
{
this->cpx_int = 1;
this->file_data_type = IM_CFLOAT; // convert short to float
}
else if (BitsPerSample == 64)
{
this->cpx_int = 2;
this->file_data_type = IM_CFLOAT; // convert int to float
}
else
return IM_ERR_DATA;
break;
case SAMPLEFORMAT_COMPLEXIEEEFP:
if (BitsPerSample == 64)
this->file_data_type = IM_CFLOAT;
else if (BitsPerSample == 128)
{
this->switch_type = 1;
this->file_data_type = IM_CFLOAT;
}
else
return IM_ERR_DATA;
break;
default:
return IM_ERR_DATA;
}
uint16 *rmap, *gmap, *bmap;
if (TIFFGetField(this->tiff, TIFFTAG_COLORMAP, &rmap, &gmap, &bmap))
{
long palette[256];
int palette_count = 1 << BitsPerSample;
for (int c = 0; c < palette_count; c++)
{
palette[c] = imColorEncode((unsigned char)(rmap[c] >> 8),
(unsigned char)(gmap[c] >> 8),
(unsigned char)(bmap[c] >> 8));
}
imFileSetPalette(this, palette, palette_count);
}
if (TIFFIsTiled(this->tiff))
{
if (this->tile_buf)
{
for (int i = 0; i < this->tile_buf_count; i++)
free(this->tile_buf[i]);
free(this->tile_buf);
}
uint32 tileWidth, tileLength;
TIFFGetField(this->tiff, TIFFTAG_TILEWIDTH, &tileWidth);
TIFFGetField(this->tiff, TIFFTAG_TILELENGTH, &tileLength);
this->tile_width = (int)tileWidth;
this->tile_height = (int)tileLength;
this->tile_buf_count = (Width + tileWidth-1) / tileWidth;
if (PlanarConfig == PLANARCONFIG_SEPARATE)
this->tile_buf_count *= SamplesPerPixel;
this->tile_line_size = TIFFTileRowSize(this->tiff);
this->tile_line_raw_size = TIFFScanlineSize(this->tiff);
this->start_row = 0;
this->tile_buf = (void**)malloc(sizeof(void*)*this->tile_buf_count);
int tile_size = TIFFTileSize(this->tiff);
for (int t = 0; t < this->tile_buf_count; t++)
this->tile_buf[t] = malloc(tile_size);
}
if (SamplesPerPixel < imColorModeDepth(this->file_color_mode))
return IM_ERR_DATA;
if (SamplesPerPixel > 1 && imColorModeSpace(this->file_color_mode) == IM_GRAY)
{
/* multiband data, we read only one band */
attrib_table->Set("MultiBandCount", IM_USHORT, 1, (void*)&SamplesPerPixel);
}
uint16 Orientation;
TIFFGetFieldDefaulted(this->tiff, TIFFTAG_ORIENTATION, &Orientation);
switch (Orientation)
{
case ORIENTATION_TOPRIGHT:
case ORIENTATION_RIGHTTOP:
case ORIENTATION_LEFTTOP:
case ORIENTATION_TOPLEFT:
this->file_color_mode |= IM_TOPDOWN;
break;
}
attrib_table->Set("Orientation", IM_USHORT, 1, (void*)&Orientation);
iTIFFReadAttributes(this->tiff, attrib_table);
return IM_ERR_NONE;
}
int imFileFormatTIFF::WriteImageInfo()
{
this->file_color_mode = this->user_color_mode;
this->file_data_type = this->user_data_type;
this->lab_fix = 0;
uint16 Compression = iTIFFCompCalc(this->compression, this->file_color_mode, this->file_data_type);
if (Compression == (uint16)-1)
return IM_ERR_COMPRESS;
int comp_index = iTIFFGetCompIndex(Compression);
strcpy(this->compression, iTIFFCompTable[comp_index]);
TIFFSetField(this->tiff, TIFFTAG_COMPRESSION, Compression);
uint32 Width = this->width;
TIFFSetField(this->tiff, TIFFTAG_IMAGEWIDTH, Width);
uint32 Height = this->height;
TIFFSetField(this->tiff, TIFFTAG_IMAGELENGTH, Height);
static uint16 colorspace2photometric [] =
{
PHOTOMETRIC_RGB,
PHOTOMETRIC_PALETTE,
PHOTOMETRIC_MINISBLACK,
PHOTOMETRIC_MINISBLACK,
PHOTOMETRIC_SEPARATED,
PHOTOMETRIC_YCBCR,
PHOTOMETRIC_CIELAB,
(uint16)-1, // Pure Luv not supported
PHOTOMETRIC_LOGLUV // LogLuv Saved as XYZ
};
uint16 Photometric = colorspace2photometric[imColorModeSpace(this->file_color_mode)];
// Correction for sgi LogL
if (Compression == COMPRESSION_SGILOG && Photometric == PHOTOMETRIC_MINISBLACK)
Photometric = PHOTOMETRIC_LOGL;
// Corrections for JPEG, automatic convert from RGB to YCbCr when writing
if (Compression == COMPRESSION_JPEG && Photometric == PHOTOMETRIC_RGB)
Photometric = PHOTOMETRIC_YCBCR;
imAttribTable* attrib_table = AttribTable();
uint16* photometric = (uint16*)attrib_table->Get("Photometric");
if (photometric)
{
if (*photometric == PHOTOMETRIC_MASK && Photometric == PHOTOMETRIC_MINISBLACK)
Photometric = PHOTOMETRIC_MASK;
else if (*photometric == PHOTOMETRIC_MINISWHITE && Photometric == PHOTOMETRIC_MINISBLACK)
Photometric = PHOTOMETRIC_MINISWHITE;
else if (*photometric == PHOTOMETRIC_ICCLAB && Photometric == PHOTOMETRIC_CIELAB)
Photometric = PHOTOMETRIC_ICCLAB;
else if (*photometric == PHOTOMETRIC_ITULAB && Photometric == PHOTOMETRIC_CIELAB)
Photometric = PHOTOMETRIC_ITULAB;
}
if (Photometric == PHOTOMETRIC_CIELAB)
this->lab_fix = 1;
TIFFSetField(this->tiff, TIFFTAG_PHOTOMETRIC, Photometric);
// This is the default, and many software assume/handle only this, so we force it.
uint16 PlanarConfig = PLANARCONFIG_CONTIG;
TIFFSetField(this->tiff, TIFFTAG_PLANARCONFIG, PlanarConfig);
if (imColorModeDepth(this->file_color_mode) > 1)
this->file_color_mode |= IM_PACKED;
// Corrections for JPEG, must be set after Photometric and PlanarConfig
if (Compression == COMPRESSION_JPEG && imColorModeSpace(this->file_color_mode) == IM_RGB)
TIFFSetField(this->tiff, TIFFTAG_JPEGCOLORMODE, JPEGCOLORMODE_RGB);
// Compression options
int* zip_quality = (int*)attrib_table->Get("ZIPQuality");
if (zip_quality && (Compression == COMPRESSION_DEFLATE || Compression == COMPRESSION_ADOBE_DEFLATE))
TIFFSetField(this->tiff, TIFFTAG_ZIPQUALITY, *zip_quality);
if (Compression == COMPRESSION_JPEG)
{
int* jpeg_quality = (int*)attrib_table->Get("JPEGQuality");
if (jpeg_quality)
TIFFSetField(this->tiff, TIFFTAG_JPEGQUALITY, *jpeg_quality);
}
// This is the default, and many software assume/handle only this, so we force it.
uint16 Orientation = ORIENTATION_TOPLEFT;
TIFFSetField(this->tiff, TIFFTAG_ORIENTATION, Orientation);
this->file_color_mode |= IM_TOPDOWN;
static uint16 datatype2format[] =
{
SAMPLEFORMAT_UINT,
SAMPLEFORMAT_UINT,
SAMPLEFORMAT_INT,
SAMPLEFORMAT_IEEEFP,
SAMPLEFORMAT_COMPLEXIEEEFP
};
uint16 SampleFormat = datatype2format[this->file_data_type];
TIFFSetField(this->tiff, TIFFTAG_SAMPLEFORMAT, SampleFormat);
uint16 BitsPerSample = (uint16)(imDataTypeSize(this->file_data_type)*8);
if (imColorModeSpace(this->file_color_mode) == IM_BINARY)
{
BitsPerSample = 1;
this->convert_bpp = 1;
}
TIFFSetField(this->tiff, TIFFTAG_BITSPERSAMPLE, BitsPerSample);
// Correction for Luv, this will change BitsperSample and SampleFormat
if (Photometric == PHOTOMETRIC_LOGLUV || Photometric == PHOTOMETRIC_LOGL)
TIFFSetField(this->tiff, TIFFTAG_SGILOGDATAFMT, SGILOGDATAFMT_FLOAT);
uint16 SamplesPerPixel = (uint16)imColorModeDepth(this->file_color_mode);
TIFFSetField(this->tiff, TIFFTAG_SAMPLESPERPIXEL, SamplesPerPixel);
if (imColorModeHasAlpha(this->file_color_mode))
{
uint16 ExtraSamples = 1, SampleInfo[1] = {EXTRASAMPLE_UNASSALPHA};
uint16* sample_info = (uint16*)attrib_table->Get("ExtraSampleInfo");
if (sample_info) SampleInfo[0] = *sample_info;
TIFFSetField(this->tiff, TIFFTAG_EXTRASAMPLES, ExtraSamples, SampleInfo);
}
if (imColorModeSpace(this->file_color_mode) == IM_MAP)
{
uint16 rmap[256], gmap[256], bmap[256];
memset(rmap, 0, 256 * 2);
memset(gmap, 0, 256 * 2);
memset(bmap, 0, 256 * 2);
unsigned char r, g, b;
for (int c = 0; c < this->palette_count; c++)
{
imColorDecode(&r, &g, &b, this->palette[c]);
rmap[c] = (uint16)(((uint16)r) << 8);
gmap[c] = (uint16)(((uint16)g) << 8);
bmap[c] = (uint16)(((uint16)b) << 8);
}
TIFFSetField(this->tiff, TIFFTAG_COLORMAP, rmap, gmap, bmap);
}
// Force libTIFF to calculate best RowsPerStrip
uint32 RowsPerStrip = (uint32)-1;
RowsPerStrip = TIFFDefaultStripSize(this->tiff, RowsPerStrip);
TIFFSetField(this->tiff, TIFFTAG_ROWSPERSTRIP, RowsPerStrip);
iTIFFWriteAttributes(this->tiff, attrib_table);
return IM_ERR_NONE;
}
static void iTIFFExpandComplexInt(void* line_buffer, int count, int cpx_int)
{
count *= 2;
// conversion will be done in place
if (cpx_int == 1)
{
// convert short to float, expanding from 16 to 32 bits
short* short_buffer = (short*)line_buffer;
float* float_buffer = (float*)line_buffer;
float_buffer += count-1; // from end to start
short_buffer += count-1;
for (int i = 0; i < count; i++)
*float_buffer-- = (float)(*short_buffer--);
}
else
{
// convert int to float, same size not expanding
int* int_buffer = (int*)line_buffer;
float* float_buffer = (float*)line_buffer;
for (int i = 0; i < count; i++)
*float_buffer++ = (float)(*int_buffer++);
}
}
static void iTIFFExtraSamplesFix(unsigned char* line_buffer, int width, int sample_size, int extra_sample_size, int plane)
{
/* ignore all the other extra samples, here the samples are packed */
for (int i = 1; i < width; i++)
{
memcpy(line_buffer + i*sample_size, line_buffer + i*extra_sample_size + plane, sample_size);
}
}
/*
For CIELab (PhotometricInterpretation = 8), the L* component is encoded in 8 bits as an unsigned integer
range [0,255], and encoded in 16 bits as an unsigned integer range [0,65535]. The a* and b* components
are encoded in 8 bits as signed integers range [-128,127], and encoded in 16 bits as signed integers range [-
32768,32767]. The 8 bit chrominance values are exactly equal to the 1976 CIE a* and b* values, while the
16 bit values are equal to 256 times the 1976 CIE a* and b* values.
For ICCLab (PhotometricInterpretation = 9), the L* component is encoded in 8 bits as an unsigned integer
range [0,255], and encoded in 16 bits as an unsigned integer range [0,65280]. The a* and b* components
are encoded in 8 bits as unsigned integers range [0,255], and encoded in 16 bits as unsigned integers range
[0,65535]. The 8 bit chrominance values are exactly equal to the 1976 CIE a* and b* values plus 128,
while the 16 bit values are equal to 256 times the 1976 CIE a* and b* values plus 32768 (this is also 256
times the 8 bit encoding). PhotometricInterpretation 9 is designed to match the encoding used by the ICC
profile specification.
*/
static void iTIFFLabFix(void* line_buffer, int width, int data_type, int is_new)
{
if (data_type == IM_BYTE)
{
imbyte* byte_buffer = (imbyte*)line_buffer;
int offset = 128;
if (is_new) offset = -128;
for (int i = 0; i < width; i++)
{
*(byte_buffer+1) = (imbyte)(*((char*)byte_buffer+1) + offset);
*(byte_buffer+2) = (imbyte)(*((char*)byte_buffer+2) + offset);
byte_buffer += 3;
}
}
else if (data_type == IM_USHORT)
{
imushort* ushort_buffer = (imushort*)line_buffer;
int offset = 32768;
if (is_new) offset = -32768;
for (int i = 0; i < width; i++)
{
*(ushort_buffer+1) = (imushort)(*((short*)ushort_buffer+1) + offset);
*(ushort_buffer+2) = (imushort)(*((short*)ushort_buffer+2) + offset);
ushort_buffer += 3;
}
}
// Do NOT know how it is encoded for other data types.
}
int imFileFormatTIFF::ReadTileline(void* line_buffer, int row, int plane)
{
int t;
if (row == 0)
this->start_row = 0;
if (row == this->start_row + this->tile_width)
this->start_row = row;
// load a line of tiles
if (row == this->start_row)
{
int x = 0;
for (t = 0; t < this->tile_buf_count; t++)
{
if (TIFFReadTile(this->tiff, this->tile_buf[t], x, start_row, 0, (tsample_t)plane) <= 0)
return -1;
x += this->tile_width;
}
}
int line_size = this->tile_line_size;
int tile_line = row - this->start_row;
for (t = 0; t < this->tile_buf_count; t++)
{
if (t == this->tile_buf_count-1)
{
int extra = this->tile_line_size*this->tile_buf_count - this->tile_line_raw_size;
line_size -= extra;
}
memcpy(line_buffer, (imbyte*)(this->tile_buf[t]) + tile_line*tile_line_size, line_size);
line_buffer = (imbyte*)(line_buffer) + line_size;
}
return 1;
}
int imFileFormatTIFF::ReadImageData(void* data)
{
int count = imFileLineBufferCount(this);
imCounterTotal(this->counter, count, "Reading TIFF...");
int row = 0, plane = this->start_plane;
for (int i = 0; i < count; i++)
{
if (TIFFIsTiled(this->tiff))
{
if (ReadTileline(this->line_buffer, row, (tsample_t)plane) <= 0)
return IM_ERR_ACCESS;
}
else
{
if (TIFFReadScanline(this->tiff, this->line_buffer, row, (tsample_t)plane) <= 0)
return IM_ERR_ACCESS;
}
if (this->invert && this->file_data_type == IM_BYTE)
{
unsigned char* buf = (unsigned char*)this->line_buffer;
for (int b = 0; b < this->line_buffer_size; b++)
{
*buf = ~(*buf);
buf++;
}
}
if (this->cpx_int)
{
int line_count = imImageLineCount(this->width, this->user_color_mode);
iTIFFExpandComplexInt(this->line_buffer, line_count, this->cpx_int);
}
if (this->lab_fix)
iTIFFLabFix(this->line_buffer, this->width, this->file_data_type, 0);
if (this->extra_sample_size)
iTIFFExtraSamplesFix((imbyte*)this->line_buffer, this->width, this->sample_size, this->extra_sample_size, plane);
imFileLineBufferRead(this, data, row, plane);
if (!imCounterInc(this->counter))
return IM_ERR_COUNTER;
imFileLineBufferInc(this, &row, &plane);
}
return IM_ERR_NONE;
}
int imFileFormatTIFF::WriteImageData(void* data)
{
int count = imFileLineBufferCount(this);
imCounterTotal(this->counter, count, "Writing TIFF...");
int row = 0, plane = 0;
for (int i = 0; i < count; i++)
{
imFileLineBufferWrite(this, data, row, plane);
if (this->lab_fix)
iTIFFLabFix(this->line_buffer, this->width, this->file_data_type, 1);
if (TIFFWriteScanline(this->tiff, this->line_buffer, row, (tsample_t)plane) <= 0)
return IM_ERR_ACCESS;
if (!imCounterInc(this->counter))
return IM_ERR_COUNTER;
imFileLineBufferInc(this, &row, &plane);
}
this->image_count++;
if (!TIFFWriteDirectory(this->tiff))
return IM_ERR_ACCESS;
return IM_ERR_NONE;
}
int imFormatTIFF::CanWrite(const char* compression, int color_mode, int data_type) const
{
if (!compression)
return IM_ERR_NONE;
if (imColorModeSpace(color_mode) == IM_LUV)
return IM_ERR_DATA;
uint16 Compression = iTIFFCompCalc(compression, color_mode, data_type);
if (Compression == (uint16)-1)
return IM_ERR_COMPRESS;
/* no support for 2 bpp or 4 bpp */
if (Compression == COMPRESSION_THUNDERSCAN || Compression == COMPRESSION_NEXT)
return IM_ERR_COMPRESS;
/* Binary compression restrictions */
if ((Compression == COMPRESSION_CCITTRLE || Compression == COMPRESSION_CCITTRLEW ||
Compression == COMPRESSION_CCITTFAX3 || Compression == COMPRESSION_CCITTFAX4) &&
imColorModeSpace(color_mode) != IM_BINARY)
return IM_ERR_COMPRESS;
/* JPEG compression restrictions */
if (Compression == COMPRESSION_JPEG &&
(data_type != IM_BYTE ||
imColorModeSpace(color_mode) == IM_MAP || imColorModeSpace(color_mode) == IM_BINARY))
return IM_ERR_COMPRESS;
/* Pixar log accepts only 3 types */
if (Compression == COMPRESSION_PIXARLOG &&
data_type != IM_BYTE && data_type != IM_USHORT && data_type != IM_FLOAT)
return IM_ERR_COMPRESS;
/* SGI Luv compression restrictions */
if ((Compression == COMPRESSION_SGILOG || Compression == COMPRESSION_SGILOG24) &&
(imColorModeSpace(color_mode) != IM_XYZ || data_type != IM_FLOAT))
return IM_ERR_COMPRESS;
return IM_ERR_NONE;
}
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