/*
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
% %
% %
% %
% M M IIIII FFFFF FFFFF %
% MM MM I F F %
% M M M I FFF FFF %
% M M I F F %
% M M IIIII F F %
% %
% %
% Read/Write MIFF Image Format %
% %
% Software Design %
% Cristy %
% July 1992 %
% %
% %
% Copyright 1999-2016 ImageMagick Studio LLC, a non-profit organization %
% dedicated to making software imaging solutions freely available. %
% %
% You may not use this file except in compliance with the License. You may %
% obtain a copy of the License at %
% %
% http://www.imagemagick.org/script/license.php %
% %
% Unless required by applicable law or agreed to in writing, software %
% distributed under the License is distributed on an "AS IS" BASIS, %
% WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. %
% See the License for the specific language governing permissions and %
% limitations under the License. %
% %
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%
%
*/
/*
Include declarations.
*/
#include "MagickCore/studio.h"
#include "MagickCore/attribute.h"
#include "MagickCore/blob.h"
#include "MagickCore/blob-private.h"
#include "MagickCore/cache.h"
#include "MagickCore/color.h"
#include "MagickCore/color-private.h"
#include "MagickCore/colormap.h"
#include "MagickCore/colormap-private.h"
#include "MagickCore/colorspace.h"
#include "MagickCore/colorspace-private.h"
#include "MagickCore/constitute.h"
#include "MagickCore/exception.h"
#include "MagickCore/exception-private.h"
#include "MagickCore/geometry.h"
#include "MagickCore/image.h"
#include "MagickCore/image-private.h"
#include "MagickCore/linked-list.h"
#include "MagickCore/list.h"
#include "MagickCore/magick.h"
#include "MagickCore/memory_.h"
#include "MagickCore/module.h"
#include "MagickCore/monitor.h"
#include "MagickCore/monitor-private.h"
#include "MagickCore/option.h"
#include "MagickCore/pixel.h"
#include "MagickCore/pixel-accessor.h"
#include "MagickCore/profile.h"
#include "MagickCore/property.h"
#include "MagickCore/quantum-private.h"
#include "MagickCore/static.h"
#include "MagickCore/statistic.h"
#include "MagickCore/string_.h"
#include "MagickCore/string-private.h"
#if defined(MAGICKCORE_BZLIB_DELEGATE)
#include "bzlib.h"
#endif
#if defined(MAGICKCORE_LZMA_DELEGATE)
#include "lzma.h"
#endif
#if defined(MAGICKCORE_ZLIB_DELEGATE)
#include "zlib.h"
#endif
/*
Define declarations.
*/
#if !defined(LZMA_OK)
#define LZMA_OK 0
#endif
/*
Forward declarations.
*/
static MagickBooleanType
WriteMIFFImage(const ImageInfo *,Image *,ExceptionInfo *);
/*
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
% %
% %
% %
% I s M I F F %
% %
% %
% %
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%
% IsMIFF() returns MagickTrue if the image format type, identified by the
% magick string, is MIFF.
%
% The format of the IsMIFF method is:
%
% MagickBooleanType IsMIFF(const unsigned char *magick,const size_t length)
%
% A description of each parameter follows:
%
% o magick: compare image format pattern against these bytes.
%
% o length: Specifies the length of the magick string.
%
*/
static MagickBooleanType IsMIFF(const unsigned char *magick,const size_t length)
{
if (length < 14)
return(MagickFalse);
if (LocaleNCompare((const char *) magick,"id=ImageMagick",14) == 0)
return(MagickTrue);
return(MagickFalse);
}
/*
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
% %
% %
% %
% R e a d M I F F I m a g e %
% %
% %
% %
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%
% ReadMIFFImage() reads a MIFF image file and returns it. It allocates the
% memory necessary for the new Image structure and returns a pointer to the
% new image.
%
% The format of the ReadMIFFImage method is:
%
% Image *ReadMIFFImage(const ImageInfo *image_info,
% ExceptionInfo *exception)
%
% Decompression code contributed by Kyle Shorter.
%
% A description of each parameter follows:
%
% o image_info: the image info.
%
% o exception: return any errors or warnings in this structure.
%
*/
#if defined(MAGICKCORE_BZLIB_DELEGATE)
static void *AcquireBZIPMemory(void *context,int items,int size)
{
(void) context;
return((void *) AcquireQuantumMemory((size_t) items,(size_t) size));
}
#endif
#if defined(MAGICKCORE_LZMA_DELEGATE)
static void *AcquireLZMAMemory(void *context,size_t items,size_t size)
{
(void) context;
return((void *) AcquireQuantumMemory((size_t) items,(size_t) size));
}
#endif
#if defined(MAGICKCORE_ZLIB_DELEGATE)
static voidpf AcquireZIPMemory(voidpf context,unsigned int items,
unsigned int size)
{
(void) context;
return((voidpf) AcquireQuantumMemory(items,size));
}
#endif
static void PushRunlengthPacket(Image *image,const unsigned char *pixels,
size_t *length,PixelInfo *pixel,ExceptionInfo *exception)
{
const unsigned char
*p;
p=pixels;
if (image->storage_class == PseudoClass)
{
pixel->index=0;
switch (image->depth)
{
case 32:
{
pixel->index=ConstrainColormapIndex(image,((size_t) *p << 24) |
((size_t) *(p+1) << 16) | ((size_t) *(p+2) << 8) | (size_t) *(p+3),
exception);
p+=4;
break;
}
case 16:
{
pixel->index=ConstrainColormapIndex(image,(*p << 8) | *(p+1),
exception);
p+=2;
break;
}
case 8:
{
pixel->index=ConstrainColormapIndex(image,*p,exception);
p++;
break;
}
default:
(void) ThrowMagickException(exception,GetMagickModule(),
CorruptImageError,"ImageDepthNotSupported","`%s'",image->filename);
}
switch (image->depth)
{
case 8:
{
unsigned char
quantum;
if (image->alpha_trait != UndefinedPixelTrait)
{
p=PushCharPixel(p,&quantum);
pixel->alpha=ScaleCharToQuantum(quantum);
}
break;
}
case 16:
{
unsigned short
quantum;
if (image->alpha_trait != UndefinedPixelTrait)
{
p=PushShortPixel(MSBEndian,p,&quantum);
pixel->alpha=(Quantum) (quantum >> (image->depth-
MAGICKCORE_QUANTUM_DEPTH));
}
break;
}
case 32:
{
unsigned int
quantum;
if (image->alpha_trait != UndefinedPixelTrait)
{
p=PushLongPixel(MSBEndian,p,&quantum);
pixel->alpha=(Quantum) (quantum >> (image->depth-
MAGICKCORE_QUANTUM_DEPTH));
}
break;
}
default:
(void) ThrowMagickException(exception,GetMagickModule(),
CorruptImageError,"ImageDepthNotSupported","`%s'",image->filename);
}
*length=(size_t) (*p++)+1;
return;
}
switch (image->depth)
{
case 8:
{
unsigned char
quantum;
p=PushCharPixel(p,&quantum);
pixel->red=ScaleCharToQuantum(quantum);
pixel->green=pixel->red;
pixel->blue=pixel->red;
if (IsGrayColorspace(image->colorspace) == MagickFalse)
{
p=PushCharPixel(p,&quantum);
pixel->green=ScaleCharToQuantum(quantum);
p=PushCharPixel(p,&quantum);
pixel->blue=ScaleCharToQuantum(quantum);
}
if (image->colorspace == CMYKColorspace)
{
p=PushCharPixel(p,&quantum);
pixel->black=ScaleCharToQuantum(quantum);
}
if (image->alpha_trait != UndefinedPixelTrait)
{
p=PushCharPixel(p,&quantum);
pixel->alpha=ScaleCharToQuantum(quantum);
}
break;
}
case 16:
{
unsigned short
quantum;
p=PushShortPixel(MSBEndian,p,&quantum);
pixel->red=quantum >> (image->depth-MAGICKCORE_QUANTUM_DEPTH);
pixel->green=pixel->red;
pixel->blue=pixel->red;
if (IsGrayColorspace(image->colorspace) == MagickFalse)
{
p=PushShortPixel(MSBEndian,p,&quantum);
pixel->green=quantum >> (image->depth-MAGICKCORE_QUANTUM_DEPTH);
p=PushShortPixel(MSBEndian,p,&quantum);
pixel->blue=quantum >> (image->depth-MAGICKCORE_QUANTUM_DEPTH);
}
if (image->colorspace == CMYKColorspace)
{
p=PushShortPixel(MSBEndian,p,&quantum);
pixel->black=quantum >> (image->depth-MAGICKCORE_QUANTUM_DEPTH);
}
if (image->alpha_trait != UndefinedPixelTrait)
{
p=PushShortPixel(MSBEndian,p,&quantum);
pixel->alpha=quantum >> (image->depth-MAGICKCORE_QUANTUM_DEPTH);
}
break;
}
case 32:
{
unsigned int
quantum;
p=PushLongPixel(MSBEndian,p,&quantum);
pixel->red=quantum >> (image->depth-MAGICKCORE_QUANTUM_DEPTH);
pixel->green=pixel->red;
pixel->blue=pixel->red;
if (IsGrayColorspace(image->colorspace) == MagickFalse)
{
p=PushLongPixel(MSBEndian,p,&quantum);
pixel->green=quantum >> (image->depth-MAGICKCORE_QUANTUM_DEPTH);
p=PushLongPixel(MSBEndian,p,&quantum);
pixel->blue=quantum >> (image->depth-MAGICKCORE_QUANTUM_DEPTH);
}
if (image->colorspace == CMYKColorspace)
{
p=PushLongPixel(MSBEndian,p,&quantum);
pixel->black=quantum >> (image->depth-MAGICKCORE_QUANTUM_DEPTH);
}
if (image->alpha_trait != UndefinedPixelTrait)
{
p=PushLongPixel(MSBEndian,p,&quantum);
pixel->alpha=quantum >> (image->depth-MAGICKCORE_QUANTUM_DEPTH);
}
break;
}
default:
(void) ThrowMagickException(exception,GetMagickModule(),CorruptImageError,
"ImageDepthNotSupported","`%s'",image->filename);
}
*length=(size_t) (*p++)+1;
}
#if defined(MAGICKCORE_BZLIB_DELEGATE)
static void RelinquishBZIPMemory(void *context,void *memory)
{
(void) context;
memory=RelinquishMagickMemory(memory);
}
#endif
#if defined(MAGICKCORE_LZMA_DELEGATE)
static void RelinquishLZMAMemory(void *context,void *memory)
{
(void) context;
memory=RelinquishMagickMemory(memory);
}
#endif
#if defined(MAGICKCORE_ZLIB_DELEGATE)
static void RelinquishZIPMemory(voidpf context,voidpf memory)
{
(void) context;
memory=RelinquishMagickMemory(memory);
}
#endif
static Image *ReadMIFFImage(const ImageInfo *image_info,
ExceptionInfo *exception)
{
#define BZipMaxExtent(x) ((x)+((x)/100)+600)
#define LZMAMaxExtent(x) ((x)+((x)/3)+128)
#define ZipMaxExtent(x) ((x)+(((x)+7) >> 3)+(((x)+63) >> 6)+11)
#if defined(MAGICKCORE_BZLIB_DELEGATE)
bz_stream
bzip_info;
#endif
char
id[MagickPathExtent],
keyword[MagickPathExtent],
*options;
const unsigned char
*p;
double
version;
GeometryInfo
geometry_info;
Image
*image;
int
c;
LinkedListInfo
*profiles;
#if defined(MAGICKCORE_LZMA_DELEGATE)
lzma_stream
initialize_lzma = LZMA_STREAM_INIT,
lzma_info;
lzma_allocator
allocator;
#endif
MagickBooleanType
status;
PixelInfo
pixel;
MagickStatusType
flags;
QuantumFormatType
quantum_format;
QuantumInfo
*quantum_info;
QuantumType
quantum_type;
register ssize_t
i;
size_t
compress_extent,
length,
packet_size;
ssize_t
count;
unsigned char
*compress_pixels,
*pixels;
size_t
colors;
ssize_t
y;
#if defined(MAGICKCORE_ZLIB_DELEGATE)
z_stream
zip_info;
#endif
/*
Open image file.
*/
assert(image_info != (const ImageInfo *) NULL);
assert(image_info->signature == MagickCoreSignature);
if (image_info->debug != MagickFalse)
(void) LogMagickEvent(TraceEvent,GetMagickModule(),"%s",
image_info->filename);
assert(exception != (ExceptionInfo *) NULL);
assert(exception->signature == MagickCoreSignature);
image=AcquireImage(image_info,exception);
status=OpenBlob(image_info,image,ReadBinaryBlobMode,exception);
if (status == MagickFalse)
{
image=DestroyImageList(image);
return((Image *) NULL);
}
/*
Decode image header; header terminates one character beyond a ':'.
*/
c=ReadBlobByte(image);
if (c == EOF)
ThrowReaderException(CorruptImageError,"ImproperImageHeader");
*id='\0';
(void) ResetMagickMemory(keyword,0,sizeof(keyword));
version=0.0;
(void) version;
do
{
/*
Decode image header; header terminates one character beyond a ':'.
*/
length=MagickPathExtent;
options=AcquireString((char *) NULL);
quantum_format=UndefinedQuantumFormat;
profiles=(LinkedListInfo *) NULL;
colors=0;
image->depth=8UL;
image->compression=NoCompression;
while ((isgraph(c) != MagickFalse) && (c != (int) ':'))
{
register char
*p;
if (c == (int) '{')
{
char
*comment;
/*
Read comment-- any text between { }.
*/
length=MagickPathExtent;
comment=AcquireString((char *) NULL);
for (p=comment; comment != (char *) NULL; p++)
{
c=ReadBlobByte(image);
if (c == (int) '\\')
c=ReadBlobByte(image);
else
if ((c == EOF) || (c == (int) '}'))
break;
if ((size_t) (p-comment+1) >= length)
{
*p='\0';
length<<=1;
comment=(char *) ResizeQuantumMemory(comment,length+
MagickPathExtent,sizeof(*comment));
if (comment == (char *) NULL)
break;
p=comment+strlen(comment);
}
*p=(char) c;
}
if (comment == (char *) NULL)
ThrowReaderException(ResourceLimitError,"MemoryAllocationFailed");
*p='\0';
(void) SetImageProperty(image,"comment",comment,exception);
comment=DestroyString(comment);
c=ReadBlobByte(image);
}
else
if (isalnum(c) != MagickFalse)
{
/*
Get the keyword.
*/
length=MagickPathExtent;
p=keyword;
do
{
if (c == (int) '=')
break;
if ((size_t) (p-keyword) < (MagickPathExtent-1))
*p++=(char) c;
c=ReadBlobByte(image);
} while (c != EOF);
*p='\0';
p=options;
while ((isspace((int) ((unsigned char) c)) != 0) && (c != EOF))
c=ReadBlobByte(image);
if (c == (int) '=')
{
/*
Get the keyword value.
*/
c=ReadBlobByte(image);
while ((c != (int) '}') && (c != EOF))
{
if ((size_t) (p-options+1) >= length)
{
*p='\0';
length<<=1;
options=(char *) ResizeQuantumMemory(options,length+
MagickPathExtent,sizeof(*options));
if (options == (char *) NULL)
break;
p=options+strlen(options);
}
*p++=(char) c;
c=ReadBlobByte(image);
if (c == '\\')
{
c=ReadBlobByte(image);
if (c == (int) '}')
{
*p++=(char) c;
c=ReadBlobByte(image);
}
}
if (*options != '{')
if (isspace((int) ((unsigned char) c)) != 0)
break;
}
if (options == (char *) NULL)
ThrowReaderException(ResourceLimitError,
"MemoryAllocationFailed");
}
*p='\0';
if (*options == '{')
(void) CopyMagickString(options,options+1,strlen(options));
/*
Assign a value to the specified keyword.
*/
switch (*keyword)
{
case 'a':
case 'A':
{
if (LocaleCompare(keyword,"alpha-color") == 0)
{
(void) QueryColorCompliance(options,AllCompliance,
&image->alpha_color,exception);
break;
}
if (LocaleCompare(keyword,"alpha-trait") == 0)
{
ssize_t
alpha_trait;
alpha_trait=ParseCommandOption(MagickPixelTraitOptions,
MagickFalse,options);
if (alpha_trait < 0)
break;
image->alpha_trait=(PixelTrait) alpha_trait;
break;
}
(void) SetImageProperty(image,keyword,options,exception);
break;
}
case 'b':
case 'B':
{
if (LocaleCompare(keyword,"background-color") == 0)
{
(void) QueryColorCompliance(options,AllCompliance,
&image->background_color,exception);
break;
}
if (LocaleCompare(keyword,"blue-primary") == 0)
{
flags=ParseGeometry(options,&geometry_info);
image->chromaticity.blue_primary.x=geometry_info.rho;
image->chromaticity.blue_primary.y=geometry_info.sigma;
if ((flags & SigmaValue) == 0)
image->chromaticity.blue_primary.y=
image->chromaticity.blue_primary.x;
break;
}
if (LocaleCompare(keyword,"border-color") == 0)
{
(void) QueryColorCompliance(options,AllCompliance,
&image->border_color,exception);
break;
}
(void) SetImageProperty(image,keyword,options,exception);
break;
}
case 'c':
case 'C':
{
if (LocaleCompare(keyword,"class") == 0)
{
ssize_t
storage_class;
storage_class=ParseCommandOption(MagickClassOptions,
MagickFalse,options);
if (storage_class < 0)
break;
image->storage_class=(ClassType) storage_class;
break;
}
if (LocaleCompare(keyword,"colors") == 0)
{
colors=StringToUnsignedLong(options);
break;
}
if (LocaleCompare(keyword,"colorspace") == 0)
{
ssize_t
colorspace;
colorspace=ParseCommandOption(MagickColorspaceOptions,
MagickFalse,options);
if (colorspace < 0)
break;
image->colorspace=(ColorspaceType) colorspace;
break;
}
if (LocaleCompare(keyword,"compression") == 0)
{
ssize_t
compression;
compression=ParseCommandOption(MagickCompressOptions,
MagickFalse,options);
if (compression < 0)
break;
image->compression=(CompressionType) compression;
break;
}
if (LocaleCompare(keyword,"columns") == 0)
{
image->columns=StringToUnsignedLong(options);
break;
}
(void) SetImageProperty(image,keyword,options,exception);
break;
}
case 'd':
case 'D':
{
if (LocaleCompare(keyword,"delay") == 0)
{
image->delay=StringToUnsignedLong(options);
break;
}
if (LocaleCompare(keyword,"depth") == 0)
{
image->depth=StringToUnsignedLong(options);
break;
}
if (LocaleCompare(keyword,"dispose") == 0)
{
ssize_t
dispose;
dispose=ParseCommandOption(MagickDisposeOptions,MagickFalse,
options);
if (dispose < 0)
break;
image->dispose=(DisposeType) dispose;
break;
}
(void) SetImageProperty(image,keyword,options,exception);
break;
}
case 'e':
case 'E':
{
if (LocaleCompare(keyword,"endian") == 0)
{
ssize_t
endian;
endian=ParseCommandOption(MagickEndianOptions,MagickFalse,
options);
if (endian < 0)
break;
image->endian=(EndianType) endian;
break;
}
(void) SetImageProperty(image,keyword,options,exception);
break;
}
case 'g':
case 'G':
{
if (LocaleCompare(keyword,"gamma") == 0)
{
image->gamma=StringToDouble(options,(char **) NULL);
break;
}
if (LocaleCompare(keyword,"gravity") == 0)
{
ssize_t
gravity;
gravity=ParseCommandOption(MagickGravityOptions,MagickFalse,
options);
if (gravity < 0)
break;
image->gravity=(GravityType) gravity;
break;
}
if (LocaleCompare(keyword,"green-primary") == 0)
{
flags=ParseGeometry(options,&geometry_info);
image->chromaticity.green_primary.x=geometry_info.rho;
image->chromaticity.green_primary.y=geometry_info.sigma;
if ((flags & SigmaValue) == 0)
image->chromaticity.green_primary.y=
image->chromaticity.green_primary.x;
break;
}
(void) SetImageProperty(image,keyword,options,exception);
break;
}
case 'i':
case 'I':
{
if (LocaleCompare(keyword,"id") == 0)
{
(void) CopyMagickString(id,options,MagickPathExtent);
break;
}
if (LocaleCompare(keyword,"iterations") == 0)
{
image->iterations=StringToUnsignedLong(options);
break;
}
(void) SetImageProperty(image,keyword,options,exception);
break;
}
case 'm':
case 'M':
{
if (LocaleCompare(keyword,"matte") == 0)
{
ssize_t
matte;
matte=ParseCommandOption(MagickBooleanOptions,MagickFalse,
options);
if (matte < 0)
break;
image->alpha_trait=matte == 0 ? UndefinedPixelTrait :
BlendPixelTrait;
break;
}
if (LocaleCompare(keyword,"montage") == 0)
{
(void) CloneString(&image->montage,options);
break;
}
(void) SetImageProperty(image,keyword,options,exception);
break;
}
case 'o':
case 'O':
{
if (LocaleCompare(keyword,"orientation") == 0)
{
ssize_t
orientation;
orientation=ParseCommandOption(MagickOrientationOptions,
MagickFalse,options);
if (orientation < 0)
break;
image->orientation=(OrientationType) orientation;
break;
}
(void) SetImageProperty(image,keyword,options,exception);
break;
}
case 'p':
case 'P':
{
if (LocaleCompare(keyword,"page") == 0)
{
char
*geometry;
geometry=GetPageGeometry(options);
(void) ParseAbsoluteGeometry(geometry,&image->page);
geometry=DestroyString(geometry);
break;
}
if (LocaleCompare(keyword,"pixel-intensity") == 0)
{
ssize_t
intensity;
intensity=ParseCommandOption(MagickPixelIntensityOptions,
MagickFalse,options);
if (intensity < 0)
break;
image->intensity=(PixelIntensityMethod) intensity;
break;
}
if ((LocaleNCompare(keyword,"profile:",8) == 0) ||
(LocaleNCompare(keyword,"profile-",8) == 0))
{
StringInfo
*profile;
if (profiles == (LinkedListInfo *) NULL)
profiles=NewLinkedList(0);
(void) AppendValueToLinkedList(profiles,
AcquireString(keyword+8));
profile=BlobToStringInfo((const void *) NULL,(size_t)
StringToLong(options));
if (profile == (StringInfo *) NULL)
ThrowReaderException(ResourceLimitError,
"MemoryAllocationFailed");
(void) SetImageProfile(image,keyword+8,profile,exception);
profile=DestroyStringInfo(profile);
break;
}
(void) SetImageProperty(image,keyword,options,exception);
break;
}
case 'q':
case 'Q':
{
if (LocaleCompare(keyword,"quality") == 0)
{
image->quality=StringToUnsignedLong(options);
break;
}
if ((LocaleCompare(keyword,"quantum-format") == 0) ||
(LocaleCompare(keyword,"quantum:format") == 0))
{
ssize_t
format;
format=ParseCommandOption(MagickQuantumFormatOptions,
MagickFalse,options);
if (format < 0)
break;
quantum_format=(QuantumFormatType) format;
break;
}
(void) SetImageProperty(image,keyword,options,exception);
break;
}
case 'r':
case 'R':
{
if (LocaleCompare(keyword,"red-primary") == 0)
{
flags=ParseGeometry(options,&geometry_info);
image->chromaticity.red_primary.x=geometry_info.rho;
image->chromaticity.red_primary.y=geometry_info.sigma;
if ((flags & SigmaValue) == 0)
image->chromaticity.red_primary.y=
image->chromaticity.red_primary.x;
break;
}
if (LocaleCompare(keyword,"rendering-intent") == 0)
{
ssize_t
rendering_intent;
rendering_intent=ParseCommandOption(MagickIntentOptions,
MagickFalse,options);
if (rendering_intent < 0)
break;
image->rendering_intent=(RenderingIntent) rendering_intent;
break;
}
if (LocaleCompare(keyword,"resolution") == 0)
{
flags=ParseGeometry(options,&geometry_info);
image->resolution.x=geometry_info.rho;
image->resolution.y=geometry_info.sigma;
if ((flags & SigmaValue) == 0)
image->resolution.y=image->resolution.x;
break;
}
if (LocaleCompare(keyword,"rows") == 0)
{
image->rows=StringToUnsignedLong(options);
break;
}
(void) SetImageProperty(image,keyword,options,exception);
break;
}
case 's':
case 'S':
{
if (LocaleCompare(keyword,"scene") == 0)
{
image->scene=StringToUnsignedLong(options);
break;
}
(void) SetImageProperty(image,keyword,options,exception);
break;
}
case 't':
case 'T':
{
if (LocaleCompare(keyword,"ticks-per-second") == 0)
{
image->ticks_per_second=(ssize_t) StringToLong(options);
break;
}
if (LocaleCompare(keyword,"tile-offset") == 0)
{
char
*geometry;
geometry=GetPageGeometry(options);
(void) ParseAbsoluteGeometry(geometry,&image->tile_offset);
geometry=DestroyString(geometry);
break;
}
if (LocaleCompare(keyword,"type") == 0)
{
ssize_t
type;
type=ParseCommandOption(MagickTypeOptions,MagickFalse,
options);
if (type < 0)
break;
image->type=(ImageType) type;
break;
}
(void) SetImageProperty(image,keyword,options,exception);
break;
}
case 'u':
case 'U':
{
if (LocaleCompare(keyword,"units") == 0)
{
ssize_t
units;
units=ParseCommandOption(MagickResolutionOptions,
MagickFalse,options);
if (units < 0)
break;
image->units=(ResolutionType) units;
break;
}
(void) SetImageProperty(image,keyword,options,exception);
break;
}
case 'v':
case 'V':
{
if (LocaleCompare(keyword,"version") == 0)
{
version=StringToDouble(options,(char **) NULL);
break;
}
(void) SetImageProperty(image,keyword,options,exception);
break;
}
case 'w':
case 'W':
{
if (LocaleCompare(keyword,"white-point") == 0)
{
flags=ParseGeometry(options,&geometry_info);
image->chromaticity.white_point.x=geometry_info.rho;
image->chromaticity.white_point.y=geometry_info.sigma;
if ((flags & SigmaValue) == 0)
image->chromaticity.white_point.y=
image->chromaticity.white_point.x;
break;
}
(void) SetImageProperty(image,keyword,options,exception);
break;
}
default:
{
(void) SetImageProperty(image,keyword,options,exception);
break;
}
}
}
else
c=ReadBlobByte(image);
while (isspace((int) ((unsigned char) c)) != 0)
c=ReadBlobByte(image);
}
options=DestroyString(options);
(void) ReadBlobByte(image);
/*
Verify that required image information is defined.
*/
if ((LocaleCompare(id,"ImageMagick") != 0) ||
(image->storage_class == UndefinedClass) ||
(image->compression == UndefinedCompression) ||
(image->colorspace == UndefinedColorspace) ||
(image->columns == 0) || (image->rows == 0))
{
if (image->previous == (Image *) NULL)
ThrowReaderException(CorruptImageError,"ImproperImageHeader");
(void) ThrowMagickException(exception,GetMagickModule(),
CorruptImageError,"ImproperImageHeader","`%s'",image->filename);
break;
}
if (image->montage != (char *) NULL)
{
register char
*p;
/*
Image directory.
*/
length=MagickPathExtent;
image->directory=AcquireString((char *) NULL);
p=image->directory;
do
{
*p='\0';
if ((strlen(image->directory)+MagickPathExtent) >= length)
{
/*
Allocate more memory for the image directory.
*/
length<<=1;
image->directory=(char *) ResizeQuantumMemory(image->directory,
length+MagickPathExtent,sizeof(*image->directory));
if (image->directory == (char *) NULL)
ThrowReaderException(CorruptImageError,"UnableToReadImageData");
p=image->directory+strlen(image->directory);
}
c=ReadBlobByte(image);
*p++=(char) c;
} while (c != (int) '\0');
}
if (profiles != (LinkedListInfo *) NULL)
{
const char
*name;
const StringInfo
*profile;
/*
Read image profiles.
*/
ResetLinkedListIterator(profiles);
name=(const char *) GetNextValueInLinkedList(profiles);
while (name != (const char *) NULL)
{
profile=GetImageProfile(image,name);
if (profile != (StringInfo *) NULL)
{
register unsigned char
*p;
p=GetStringInfoDatum(profile);
count=ReadBlob(image,GetStringInfoLength(profile),p);
(void) count;
}
name=(const char *) GetNextValueInLinkedList(profiles);
}
profiles=DestroyLinkedList(profiles,RelinquishMagickMemory);
}
image->depth=GetImageQuantumDepth(image,MagickFalse);
if (image->storage_class == PseudoClass)
{
/*
Create image colormap.
*/
status=AcquireImageColormap(image,colors != 0 ? colors : 256,exception);
if (status == MagickFalse)
ThrowReaderException(ResourceLimitError,"MemoryAllocationFailed");
if (colors != 0)
{
size_t
packet_size;
unsigned char
*colormap;
/*
Read image colormap from file.
*/
packet_size=(size_t) (3UL*image->depth/8UL);
colormap=(unsigned char *) AcquireQuantumMemory(image->colors,
packet_size*sizeof(*colormap));
if (colormap == (unsigned char *) NULL)
ThrowReaderException(ResourceLimitError,"MemoryAllocationFailed");
count=ReadBlob(image,packet_size*image->colors,colormap);
p=colormap;
switch (image->depth)
{
default:
ThrowReaderException(CorruptImageError,
"ImageDepthNotSupported");
case 8:
{
unsigned char
pixel;
for (i=0; i < (ssize_t) image->colors; i++)
{
p=PushCharPixel(p,&pixel);
image->colormap[i].red=ScaleCharToQuantum(pixel);
p=PushCharPixel(p,&pixel);
image->colormap[i].green=ScaleCharToQuantum(pixel);
p=PushCharPixel(p,&pixel);
image->colormap[i].blue=ScaleCharToQuantum(pixel);
}
break;
}
case 16:
{
unsigned short
pixel;
for (i=0; i < (ssize_t) image->colors; i++)
{
p=PushShortPixel(MSBEndian,p,&pixel);
image->colormap[i].red=ScaleShortToQuantum(pixel);
p=PushShortPixel(MSBEndian,p,&pixel);
image->colormap[i].green=ScaleShortToQuantum(pixel);
p=PushShortPixel(MSBEndian,p,&pixel);
image->colormap[i].blue=ScaleShortToQuantum(pixel);
}
break;
}
case 32:
{
unsigned int
pixel;
for (i=0; i < (ssize_t) image->colors; i++)
{
p=PushLongPixel(MSBEndian,p,&pixel);
image->colormap[i].red=ScaleLongToQuantum(pixel);
p=PushLongPixel(MSBEndian,p,&pixel);
image->colormap[i].green=ScaleLongToQuantum(pixel);
p=PushLongPixel(MSBEndian,p,&pixel);
image->colormap[i].blue=ScaleLongToQuantum(pixel);
}
break;
}
}
colormap=(unsigned char *) RelinquishMagickMemory(colormap);
}
}
if ((image_info->ping != MagickFalse) && (image_info->number_scenes != 0))
if (image->scene >= (image_info->scene+image_info->number_scenes-1))
break;
status=SetImageExtent(image,image->columns,image->rows,exception);
if (status == MagickFalse)
return(DestroyImageList(image));
/*
Allocate image pixels.
*/
quantum_info=AcquireQuantumInfo(image_info,image);
if (quantum_info == (QuantumInfo *) NULL)
ThrowReaderException(ResourceLimitError,"MemoryAllocationFailed");
if (quantum_format != UndefinedQuantumFormat)
{
status=SetQuantumFormat(image,quantum_info,quantum_format);
if (status == MagickFalse)
ThrowReaderException(ResourceLimitError,"MemoryAllocationFailed");
}
packet_size=(size_t) (quantum_info->depth/8);
if (image->storage_class == DirectClass)
packet_size=(size_t) (3*quantum_info->depth/8);
if (IsGrayColorspace(image->colorspace) != MagickFalse)
packet_size=quantum_info->depth/8;
if (image->alpha_trait != UndefinedPixelTrait)
packet_size+=quantum_info->depth/8;
if (image->colorspace == CMYKColorspace)
packet_size+=quantum_info->depth/8;
if (image->compression == RLECompression)
packet_size++;
compress_extent=MagickMax(MagickMax(BZipMaxExtent(packet_size*
image->columns),LZMAMaxExtent(packet_size*image->columns)),
ZipMaxExtent(packet_size*image->columns));
compress_pixels=(unsigned char *) AcquireQuantumMemory(compress_extent,
sizeof(*compress_pixels));
if (compress_pixels == (unsigned char *) NULL)
ThrowReaderException(ResourceLimitError,"MemoryAllocationFailed");
/*
Read image pixels.
*/
quantum_type=RGBQuantum;
if (image->alpha_trait != UndefinedPixelTrait)
quantum_type=RGBAQuantum;
if (image->colorspace == CMYKColorspace)
{
quantum_type=CMYKQuantum;
if (image->alpha_trait != UndefinedPixelTrait)
quantum_type=CMYKAQuantum;
}
if (IsGrayColorspace(image->colorspace) != MagickFalse)
{
quantum_type=GrayQuantum;
if (image->alpha_trait != UndefinedPixelTrait)
quantum_type=GrayAlphaQuantum;
}
if (image->storage_class == PseudoClass)
{
quantum_type=IndexQuantum;
if (image->alpha_trait != UndefinedPixelTrait)
quantum_type=IndexAlphaQuantum;
}
status=MagickTrue;
GetPixelInfo(image,&pixel);
#if defined(MAGICKCORE_BZLIB_DELEGATE)
(void) ResetMagickMemory(&bzip_info,0,sizeof(bzip_info));
#endif
#if defined(MAGICKCORE_LZMA_DELEGATE)
(void) ResetMagickMemory(&allocator,0,sizeof(allocator));
#endif
#if defined(MAGICKCORE_ZLIB_DELEGATE)
(void) ResetMagickMemory(&zip_info,0,sizeof(zip_info));
#endif
switch (image->compression)
{
#if defined(MAGICKCORE_BZLIB_DELEGATE)
case BZipCompression:
{
int
code;
bzip_info.bzalloc=AcquireBZIPMemory;
bzip_info.bzfree=RelinquishBZIPMemory;
bzip_info.opaque=(void *) NULL;
code=BZ2_bzDecompressInit(&bzip_info,(int) image_info->verbose,
MagickFalse);
if (code != BZ_OK)
status=MagickFalse;
break;
}
#endif
#if defined(MAGICKCORE_LZMA_DELEGATE)
case LZMACompression:
{
int
code;
allocator.alloc=AcquireLZMAMemory;
allocator.free=RelinquishLZMAMemory;
lzma_info=initialize_lzma;
lzma_info.allocator=(&allocator);
code=lzma_auto_decoder(&lzma_info,-1,0);
if (code != LZMA_OK)
status=MagickFalse;
break;
}
#endif
#if defined(MAGICKCORE_ZLIB_DELEGATE)
case LZWCompression:
case ZipCompression:
{
int
code;
zip_info.zalloc=AcquireZIPMemory;
zip_info.zfree=RelinquishZIPMemory;
zip_info.opaque=(voidpf) NULL;
code=inflateInit(&zip_info);
if (code != Z_OK)
status=MagickFalse;
break;
}
#endif
case RLECompression:
break;
default:
break;
}
pixels=(unsigned char *) GetQuantumPixels(quantum_info);
length=0;
for (y=0; y < (ssize_t) image->rows; y++)
{
register ssize_t
x;
register Quantum
*magick_restrict q;
if (status == MagickFalse)
break;
q=QueueAuthenticPixels(image,0,y,image->columns,1,exception);
if (q == (Quantum *) NULL)
break;
switch (image->compression)
{
#if defined(MAGICKCORE_BZLIB_DELEGATE)
case BZipCompression:
{
bzip_info.next_out=(char *) pixels;
bzip_info.avail_out=(unsigned int) (packet_size*image->columns);
do
{
int
code;
if (bzip_info.avail_in == 0)
{
bzip_info.next_in=(char *) compress_pixels;
length=(size_t) BZipMaxExtent(packet_size*image->columns);
if (version != 0.0)
length=(size_t) ReadBlobMSBLong(image);
if (length > compress_extent)
{
(void) BZ2_bzDecompressEnd(&bzip_info);
ThrowReaderException(CorruptImageError,
"UnableToReadImageData");
}
bzip_info.avail_in=(unsigned int) ReadBlob(image,length,
(unsigned char *) bzip_info.next_in);
}
code=BZ2_bzDecompress(&bzip_info);
if (code < 0)
{
status=MagickFalse;
break;
}
if (code == BZ_STREAM_END)
break;
} while (bzip_info.avail_out != 0);
(void) ImportQuantumPixels(image,(CacheView *) NULL,quantum_info,
quantum_type,pixels,exception);
break;
}
#endif
#if defined(MAGICKCORE_LZMA_DELEGATE)
case LZMACompression:
{
lzma_info.next_out=pixels;
lzma_info.avail_out=packet_size*image->columns;
do
{
int
code;
if (lzma_info.avail_in == 0)
{
lzma_info.next_in=compress_pixels;
length=(size_t) ReadBlobMSBLong(image);
if (length > compress_extent)
{
lzma_end(&lzma_info);
ThrowReaderException(CorruptImageError,
"UnableToReadImageData");
}
lzma_info.avail_in=(unsigned int) ReadBlob(image,length,
(unsigned char *) lzma_info.next_in);
}
code=lzma_code(&lzma_info,LZMA_RUN);
if (code < 0)
{
status=MagickFalse;
break;
}
if (code == LZMA_STREAM_END)
break;
} while (lzma_info.avail_out != 0);
(void) ImportQuantumPixels(image,(CacheView *) NULL,quantum_info,
quantum_type,pixels,exception);
break;
}
#endif
#if defined(MAGICKCORE_ZLIB_DELEGATE)
case LZWCompression:
case ZipCompression:
{
zip_info.next_out=pixels;
zip_info.avail_out=(uInt) (packet_size*image->columns);
do
{
int
code;
if (zip_info.avail_in == 0)
{
zip_info.next_in=compress_pixels;
length=(size_t) ZipMaxExtent(packet_size*image->columns);
if (version != 0.0)
length=(size_t) ReadBlobMSBLong(image);
if (length > compress_extent)
{
(void) inflateEnd(&zip_info);
ThrowReaderException(CorruptImageError,
"UnableToReadImageData");
}
zip_info.avail_in=(unsigned int) ReadBlob(image,length,
zip_info.next_in);
}
code=inflate(&zip_info,Z_SYNC_FLUSH);
if (code < 0)
{
status=MagickFalse;
break;
}
if (code == Z_STREAM_END)
break;
} while (zip_info.avail_out != 0);
(void) ImportQuantumPixels(image,(CacheView *) NULL,quantum_info,
quantum_type,pixels,exception);
break;
}
#endif
case RLECompression:
{
for (x=0; x < (ssize_t) image->columns; x++)
{
if (length == 0)
{
count=ReadBlob(image,packet_size,pixels);
PushRunlengthPacket(image,pixels,&length,&pixel,exception);
}
length--;
if (image->storage_class == PseudoClass)
SetPixelIndex(image,ClampToQuantum(pixel.index),q);
else
{
SetPixelRed(image,ClampToQuantum(pixel.red),q);
SetPixelGreen(image,ClampToQuantum(pixel.green),q);
SetPixelBlue(image,ClampToQuantum(pixel.blue),q);
if (image->colorspace == CMYKColorspace)
SetPixelBlack(image,ClampToQuantum(pixel.black),q);
}
if (image->alpha_trait != UndefinedPixelTrait)
SetPixelAlpha(image,ClampToQuantum(pixel.alpha),q);
q+=GetPixelChannels(image);
}
break;
}
default:
{
count=ReadBlob(image,packet_size*image->columns,pixels);
(void) ImportQuantumPixels(image,(CacheView *) NULL,quantum_info,
quantum_type,pixels,exception);
break;
}
}
if (SyncAuthenticPixels(image,exception) == MagickFalse)
break;
}
SetQuantumImageType(image,quantum_type);
switch (image->compression)
{
#if defined(MAGICKCORE_BZLIB_DELEGATE)
case BZipCompression:
{
int
code;
if (version == 0.0)
{
MagickOffsetType
offset;
offset=SeekBlob(image,-((MagickOffsetType)
bzip_info.avail_in),SEEK_CUR);
if (offset < 0)
ThrowReaderException(CorruptImageError,"ImproperImageHeader");
}
code=BZ2_bzDecompressEnd(&bzip_info);
if (code != BZ_OK)
status=MagickFalse;
break;
}
#endif
#if defined(MAGICKCORE_LZMA_DELEGATE)
case LZMACompression:
{
int
code;
code=lzma_code(&lzma_info,LZMA_FINISH);
if ((code != LZMA_STREAM_END) && (code != LZMA_OK))
status=MagickFalse;
lzma_end(&lzma_info);
break;
}
#endif
#if defined(MAGICKCORE_ZLIB_DELEGATE)
case LZWCompression:
case ZipCompression:
{
int
code;
if (version == 0.0)
{
MagickOffsetType
offset;
offset=SeekBlob(image,-((MagickOffsetType) zip_info.avail_in),
SEEK_CUR);
if (offset < 0)
ThrowReaderException(CorruptImageError,"ImproperImageHeader");
}
code=inflateEnd(&zip_info);
if (code != LZMA_OK)
status=MagickFalse;
break;
}
#endif
default:
break;
}
quantum_info=DestroyQuantumInfo(quantum_info);
compress_pixels=(unsigned char *) RelinquishMagickMemory(compress_pixels);
if (((y != (ssize_t) image->rows)) || (status == MagickFalse))
{
image=DestroyImageList(image);
return((Image *) NULL);
}
if (EOFBlob(image) != MagickFalse)
{
ThrowFileException(exception,CorruptImageError,"UnexpectedEndOfFile",
image->filename);
break;
}
/*
Proceed to next image.
*/
if (image_info->number_scenes != 0)
if (image->scene >= (image_info->scene+image_info->number_scenes-1))
break;
do
{
c=ReadBlobByte(image);
} while ((isgraph(c) == MagickFalse) && (c != EOF));
if (c != EOF)
{
/*
Allocate next image structure.
*/
AcquireNextImage(image_info,image,exception);
if (GetNextImageInList(image) == (Image *) NULL)
{
image=DestroyImageList(image);
return((Image *) NULL);
}
image=SyncNextImageInList(image);
status=SetImageProgress(image,LoadImagesTag,TellBlob(image),
GetBlobSize(image));
if (status == MagickFalse)
break;
}
} while (c != EOF);
(void) CloseBlob(image);
return(GetFirstImageInList(image));
}
/*
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
% %
% %
% %
% R e g i s t e r M I F F I m a g e %
% %
% %
% %
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%
% RegisterMIFFImage() adds properties for the MIFF image format to the list of
% supported formats. The properties include the image format tag, a method to
% read and/or write the format, whether the format supports the saving of more
% than one frame to the same file or blob, whether the format supports native
% in-memory I/O, and a brief description of the format.
%
% The format of the RegisterMIFFImage method is:
%
% size_t RegisterMIFFImage(void)
%
*/
ModuleExport size_t RegisterMIFFImage(void)
{
char
version[MagickPathExtent];
MagickInfo
*entry;
*version='\0';
#if defined(MagickImageCoderSignatureText)
(void) CopyMagickString(version,MagickLibVersionText,MagickPathExtent);
#if defined(ZLIB_VERSION)
(void) ConcatenateMagickString(version," with Zlib ",MagickPathExtent);
(void) ConcatenateMagickString(version,ZLIB_VERSION,MagickPathExtent);
#endif
#if defined(MAGICKCORE_BZLIB_DELEGATE)
(void) ConcatenateMagickString(version," and BZlib",MagickPathExtent);
#endif
#endif
entry=AcquireMagickInfo("MIFF","MIFF","Magick Image File Format");
entry->decoder=(DecodeImageHandler *) ReadMIFFImage;
entry->encoder=(EncodeImageHandler *) WriteMIFFImage;
entry->magick=(IsImageFormatHandler *) IsMIFF;
entry->flags|=CoderSeekableStreamFlag;
if (*version != '\0')
entry->version=ConstantString(version);
(void) RegisterMagickInfo(entry);
return(MagickImageCoderSignature);
}
/*
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
% %
% %
% %
% U n r e g i s t e r M I F F I m a g e %
% %
% %
% %
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%
% UnregisterMIFFImage() removes format registrations made by the MIFF module
% from the list of supported formats.
%
% The format of the UnregisterMIFFImage method is:
%
% UnregisterMIFFImage(void)
%
*/
ModuleExport void UnregisterMIFFImage(void)
{
(void) UnregisterMagickInfo("MIFF");
}
/*
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
% %
% %
% %
% W r i t e M I F F I m a g e %
% %
% %
% %
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%
% WriteMIFFImage() writes a MIFF image to a file.
%
% The format of the WriteMIFFImage method is:
%
% MagickBooleanType WriteMIFFImage(const ImageInfo *image_info,
% Image *image,ExceptionInfo *exception)
%
% Compression code contributed by Kyle Shorter.
%
% A description of each parameter follows:
%
% o image_info: the image info.
%
% o image: the image.
%
% o exception: return any errors or warnings in this structure.
%
*/
static unsigned char *PopRunlengthPacket(Image *image,unsigned char *pixels,
size_t length,PixelInfo *pixel,ExceptionInfo *exception)
{
if (image->storage_class != DirectClass)
{
unsigned int
value;
value=(unsigned int) ClampToQuantum(pixel->index);
switch (image->depth)
{
case 32:
{
*pixels++=(unsigned char) (value >> 24);
*pixels++=(unsigned char) (value >> 16);
}
case 16:
*pixels++=(unsigned char) (value >> 8);
case 8:
{
*pixels++=(unsigned char) value;
break;
}
default:
(void) ThrowMagickException(exception,GetMagickModule(),
CorruptImageError,"ImageDepthNotSupported","`%s'",image->filename);
}
switch (image->depth)
{
case 32:
{
unsigned int
value;
if (image->alpha_trait != UndefinedPixelTrait)
{
value=ScaleQuantumToLong(ClampToQuantum(pixel->alpha));
pixels=PopLongPixel(MSBEndian,value,pixels);
}
break;
}
case 16:
{
unsigned short
value;
if (image->alpha_trait != UndefinedPixelTrait)
{
value=ScaleQuantumToShort(ClampToQuantum(pixel->alpha));
pixels=PopShortPixel(MSBEndian,value,pixels);
}
break;
}
case 8:
{
unsigned char
value;
if (image->alpha_trait != UndefinedPixelTrait)
{
value=(unsigned char) ScaleQuantumToChar(ClampToQuantum(
pixel->alpha));
pixels=PopCharPixel(value,pixels);
}
break;
}
default:
(void) ThrowMagickException(exception,GetMagickModule(),
CorruptImageError,"ImageDepthNotSupported","`%s'",image->filename);
}
*pixels++=(unsigned char) length;
return(pixels);
}
switch (image->depth)
{
case 32:
{
unsigned int
value;
value=ScaleQuantumToLong(ClampToQuantum(pixel->red));
pixels=PopLongPixel(MSBEndian,value,pixels);
if (IsGrayColorspace(image->colorspace) == MagickFalse)
{
value=ScaleQuantumToLong(ClampToQuantum(pixel->green));
pixels=PopLongPixel(MSBEndian,value,pixels);
value=ScaleQuantumToLong(ClampToQuantum(pixel->blue));
pixels=PopLongPixel(MSBEndian,value,pixels);
}
if (image->colorspace == CMYKColorspace)
{
value=ScaleQuantumToLong(ClampToQuantum(pixel->black));
pixels=PopLongPixel(MSBEndian,value,pixels);
}
if (image->alpha_trait != UndefinedPixelTrait)
{
value=ScaleQuantumToLong(ClampToQuantum(pixel->alpha));
pixels=PopLongPixel(MSBEndian,value,pixels);
}
break;
}
case 16:
{
unsigned short
value;
value=ScaleQuantumToShort(ClampToQuantum(pixel->red));
pixels=PopShortPixel(MSBEndian,value,pixels);
if (IsGrayColorspace(image->colorspace) == MagickFalse)
{
value=ScaleQuantumToShort(ClampToQuantum(pixel->green));
pixels=PopShortPixel(MSBEndian,value,pixels);
value=ScaleQuantumToShort(ClampToQuantum(pixel->blue));
pixels=PopShortPixel(MSBEndian,value,pixels);
}
if (image->colorspace == CMYKColorspace)
{
value=ScaleQuantumToShort(ClampToQuantum(pixel->black));
pixels=PopShortPixel(MSBEndian,value,pixels);
}
if (image->alpha_trait != UndefinedPixelTrait)
{
value=ScaleQuantumToShort(ClampToQuantum(pixel->alpha));
pixels=PopShortPixel(MSBEndian,value,pixels);
}
break;
}
case 8:
{
unsigned char
value;
value=(unsigned char) ScaleQuantumToChar(ClampToQuantum(pixel->red));
pixels=PopCharPixel(value,pixels);
if (IsGrayColorspace(image->colorspace) == MagickFalse)
{
value=(unsigned char) ScaleQuantumToChar(ClampToQuantum(
pixel->green));
pixels=PopCharPixel(value,pixels);
value=(unsigned char) ScaleQuantumToChar(ClampToQuantum(pixel->blue));
pixels=PopCharPixel(value,pixels);
}
if (image->colorspace == CMYKColorspace)
{
value=(unsigned char) ScaleQuantumToChar(ClampToQuantum(
pixel->black));
pixels=PopCharPixel(value,pixels);
}
if (image->alpha_trait != UndefinedPixelTrait)
{
value=(unsigned char) ScaleQuantumToChar(ClampToQuantum(
pixel->alpha));
pixels=PopCharPixel(value,pixels);
}
break;
}
default:
(void) ThrowMagickException(exception,GetMagickModule(),CorruptImageError,
"ImageDepthNotSupported","`%s'",image->filename);
}
*pixels++=(unsigned char) length;
return(pixels);
}
static MagickBooleanType WriteMIFFImage(const ImageInfo *image_info,
Image *image,ExceptionInfo *exception)
{
#if defined(MAGICKCORE_BZLIB_DELEGATE)
bz_stream
bzip_info;
#endif
char
buffer[MagickPathExtent];
CompressionType
compression;
const char
*property,
*value;
#if defined(MAGICKCORE_LZMA_DELEGATE)
lzma_allocator
allocator;
lzma_stream
initialize_lzma = LZMA_STREAM_INIT,
lzma_info;
#endif
MagickBooleanType
status;
MagickOffsetType
scene;
PixelInfo
pixel,
target;
QuantumInfo
*quantum_info;
QuantumType
quantum_type;
register ssize_t
i;
size_t
length,
packet_size;
ssize_t
y;
unsigned char
*compress_pixels,
*pixels,
*q;
#if defined(MAGICKCORE_ZLIB_DELEGATE)
z_stream
zip_info;
#endif
/*
Open output image file.
*/
assert(image_info != (const ImageInfo *) NULL);
assert(image_info->signature == MagickCoreSignature);
assert(image != (Image *) NULL);
assert(image->signature == MagickCoreSignature);
if (image->debug != MagickFalse)
(void) LogMagickEvent(TraceEvent,GetMagickModule(),"%s",image->filename);
assert(exception != (ExceptionInfo *) NULL);
assert(exception->signature == MagickCoreSignature);
status=OpenBlob(image_info,image,WriteBinaryBlobMode,exception);
if (status == MagickFalse)
return(status);
scene=0;
do
{
/*
Allocate image pixels.
*/
if ((image->storage_class == PseudoClass) &&
(image->colors > (size_t) (GetQuantumRange(image->depth)+1)))
(void) SetImageStorageClass(image,DirectClass,exception);
image->depth=image->depth <= 8 ? 8UL : image->depth <= 16 ? 16UL :
image->depth <= 32 ? 32UL : 64UL;
quantum_info=AcquireQuantumInfo(image_info,image);
if (quantum_info == (QuantumInfo *) NULL)
ThrowWriterException(ResourceLimitError,"MemoryAllocationFailed");
if ((image->storage_class != PseudoClass) && (image->depth >= 32) &&
(quantum_info->format == UndefinedQuantumFormat) &&
(IsHighDynamicRangeImage(image,exception) != MagickFalse))
{
status=SetQuantumFormat(image,quantum_info,FloatingPointQuantumFormat);
if (status == MagickFalse)
ThrowWriterException(ResourceLimitError,"MemoryAllocationFailed");
}
compression=UndefinedCompression;
if (image_info->compression != UndefinedCompression)
compression=image_info->compression;
switch (compression)
{
#if !defined(MAGICKCORE_LZMA_DELEGATE)
case LZMACompression: compression=NoCompression; break;
#endif
#if !defined(MAGICKCORE_ZLIB_DELEGATE)
case LZWCompression:
case ZipCompression: compression=NoCompression; break;
#endif
#if !defined(MAGICKCORE_BZLIB_DELEGATE)
case BZipCompression: compression=NoCompression; break;
#endif
case RLECompression:
{
if (quantum_info->format == FloatingPointQuantumFormat)
compression=NoCompression;
GetPixelInfo(image,&target);
break;
}
default:
break;
}
packet_size=(size_t) (quantum_info->depth/8);
if (image->storage_class == DirectClass)
packet_size=(size_t) (3*quantum_info->depth/8);
if (IsGrayColorspace(image->colorspace) != MagickFalse)
packet_size=(size_t) (quantum_info->depth/8);
if (image->alpha_trait != UndefinedPixelTrait)
packet_size+=quantum_info->depth/8;
if (image->colorspace == CMYKColorspace)
packet_size+=quantum_info->depth/8;
if (compression == RLECompression)
packet_size++;
length=MagickMax(BZipMaxExtent(packet_size*image->columns),ZipMaxExtent(
packet_size*image->columns));
if ((compression == BZipCompression) || (compression == ZipCompression))
if (length != (size_t) ((unsigned int) length))
compression=NoCompression;
compress_pixels=(unsigned char *) AcquireQuantumMemory(length,
sizeof(*compress_pixels));
if (compress_pixels == (unsigned char *) NULL)
ThrowWriterException(ResourceLimitError,"MemoryAllocationFailed");
/*
Write MIFF header.
*/
(void) WriteBlobString(image,"id=ImageMagick version=1.0\n");
(void) FormatLocaleString(buffer,MagickPathExtent,
"class=%s colors=%.20g alpha-trait=%s\n",CommandOptionToMnemonic(
MagickClassOptions,image->storage_class),(double) image->colors,
CommandOptionToMnemonic(MagickPixelTraitOptions,(ssize_t)
image->alpha_trait));
(void) WriteBlobString(image,buffer);
if (image->alpha_trait != UndefinedPixelTrait)
(void) WriteBlobString(image,"matte=True\n");
(void) FormatLocaleString(buffer,MagickPathExtent,
"columns=%.20g rows=%.20g depth=%.20g\n",(double) image->columns,
(double) image->rows,(double) image->depth);
(void) WriteBlobString(image,buffer);
if (image->type != UndefinedType)
{
(void) FormatLocaleString(buffer,MagickPathExtent,"type=%s\n",
CommandOptionToMnemonic(MagickTypeOptions,image->type));
(void) WriteBlobString(image,buffer);
}
if (image->colorspace != UndefinedColorspace)
{
(void) FormatLocaleString(buffer,MagickPathExtent,"colorspace=%s\n",
CommandOptionToMnemonic(MagickColorspaceOptions,image->colorspace));
(void) WriteBlobString(image,buffer);
}
if (image->intensity != UndefinedPixelIntensityMethod)
{
(void) FormatLocaleString(buffer,MagickPathExtent,
"pixel-intensity=%s\n",CommandOptionToMnemonic(
MagickPixelIntensityOptions,image->intensity));
(void) WriteBlobString(image,buffer);
}
if (image->endian != UndefinedEndian)
{
(void) FormatLocaleString(buffer,MagickPathExtent,"endian=%s\n",
CommandOptionToMnemonic(MagickEndianOptions,image->endian));
(void) WriteBlobString(image,buffer);
}
if (compression != UndefinedCompression)
{
(void) FormatLocaleString(buffer,MagickPathExtent,"compression=%s "
"quality=%.20g\n",CommandOptionToMnemonic(MagickCompressOptions,
compression),(double) image->quality);
(void) WriteBlobString(image,buffer);
}
if (image->units != UndefinedResolution)
{
(void) FormatLocaleString(buffer,MagickPathExtent,"units=%s\n",
CommandOptionToMnemonic(MagickResolutionOptions,image->units));
(void) WriteBlobString(image,buffer);
}
if ((image->resolution.x != 0) || (image->resolution.y != 0))
{
(void) FormatLocaleString(buffer,MagickPathExtent,
"resolution=%gx%g\n",image->resolution.x,image->resolution.y);
(void) WriteBlobString(image,buffer);
}
if ((image->page.width != 0) || (image->page.height != 0))
{
(void) FormatLocaleString(buffer,MagickPathExtent,
"page=%.20gx%.20g%+.20g%+.20g\n",(double) image->page.width,(double)
image->page.height,(double) image->page.x,(double) image->page.y);
(void) WriteBlobString(image,buffer);
}
else
if ((image->page.x != 0) || (image->page.y != 0))
{
(void) FormatLocaleString(buffer,MagickPathExtent,"page=%+ld%+ld\n",
(long) image->page.x,(long) image->page.y);
(void) WriteBlobString(image,buffer);
}
if ((image->tile_offset.x != 0) || (image->tile_offset.y != 0))
{
(void) FormatLocaleString(buffer,MagickPathExtent,
"tile-offset=%+ld%+ld\n",(long) image->tile_offset.x,(long)
image->tile_offset.y);
(void) WriteBlobString(image,buffer);
}
if ((GetNextImageInList(image) != (Image *) NULL) ||
(GetPreviousImageInList(image) != (Image *) NULL))
{
if (image->scene == 0)
(void) FormatLocaleString(buffer,MagickPathExtent,"iterations=%.20g "
"delay=%.20g ticks-per-second=%.20g\n",(double) image->iterations,
(double) image->delay,(double) image->ticks_per_second);
else
(void) FormatLocaleString(buffer,MagickPathExtent,"scene=%.20g "
"iterations=%.20g delay=%.20g ticks-per-second=%.20g\n",(double)
image->scene,(double) image->iterations,(double) image->delay,
(double) image->ticks_per_second);
(void) WriteBlobString(image,buffer);
}
else
{
if (image->scene != 0)
{
(void) FormatLocaleString(buffer,MagickPathExtent,"scene=%.20g\n",
(double) image->scene);
(void) WriteBlobString(image,buffer);
}
if (image->iterations != 0)
{
(void) FormatLocaleString(buffer,MagickPathExtent,
"iterations=%.20g\n",(double) image->iterations);
(void) WriteBlobString(image,buffer);
}
if (image->delay != 0)
{
(void) FormatLocaleString(buffer,MagickPathExtent,"delay=%.20g\n",
(double) image->delay);
(void) WriteBlobString(image,buffer);
}
if (image->ticks_per_second != UndefinedTicksPerSecond)
{
(void) FormatLocaleString(buffer,MagickPathExtent,
"ticks-per-second=%.20g\n",(double) image->ticks_per_second);
(void) WriteBlobString(image,buffer);
}
}
if (image->gravity != UndefinedGravity)
{
(void) FormatLocaleString(buffer,MagickPathExtent,"gravity=%s\n",
CommandOptionToMnemonic(MagickGravityOptions,image->gravity));
(void) WriteBlobString(image,buffer);
}
if (image->dispose != UndefinedDispose)
{
(void) FormatLocaleString(buffer,MagickPathExtent,"dispose=%s\n",
CommandOptionToMnemonic(MagickDisposeOptions,image->dispose));
(void) WriteBlobString(image,buffer);
}
if (image->rendering_intent != UndefinedIntent)
{
(void) FormatLocaleString(buffer,MagickPathExtent,
"rendering-intent=%s\n",CommandOptionToMnemonic(MagickIntentOptions,
image->rendering_intent));
(void) WriteBlobString(image,buffer);
}
if (image->gamma != 0.0)
{
(void) FormatLocaleString(buffer,MagickPathExtent,"gamma=%g\n",
image->gamma);
(void) WriteBlobString(image,buffer);
}
if (image->chromaticity.white_point.x != 0.0)
{
/*
Note chomaticity points.
*/
(void) FormatLocaleString(buffer,MagickPathExtent,"red-primary=%g,"
"%g green-primary=%g,%g blue-primary=%g,%g\n",
image->chromaticity.red_primary.x,image->chromaticity.red_primary.y,
image->chromaticity.green_primary.x,
image->chromaticity.green_primary.y,
image->chromaticity.blue_primary.x,
image->chromaticity.blue_primary.y);
(void) WriteBlobString(image,buffer);
(void) FormatLocaleString(buffer,MagickPathExtent,
"white-point=%g,%g\n",image->chromaticity.white_point.x,
image->chromaticity.white_point.y);
(void) WriteBlobString(image,buffer);
}
if (image->orientation != UndefinedOrientation)
{
(void) FormatLocaleString(buffer,MagickPathExtent,"orientation=%s\n",
CommandOptionToMnemonic(MagickOrientationOptions,image->orientation));
(void) WriteBlobString(image,buffer);
}
if (image->profiles != (void *) NULL)
{
const char
*name;
const StringInfo
*profile;
/*
Write image profiles.
*/
ResetImageProfileIterator(image);
name=GetNextImageProfile(image);
while (name != (const char *) NULL)
{
profile=GetImageProfile(image,name);
if (profile != (StringInfo *) NULL)
{
(void) FormatLocaleString(buffer,MagickPathExtent,
"profile:%s=%.20g\n",name,(double)
GetStringInfoLength(profile));
(void) WriteBlobString(image,buffer);
}
name=GetNextImageProfile(image);
}
}
if (image->montage != (char *) NULL)
{
(void) FormatLocaleString(buffer,MagickPathExtent,"montage=%s\n",
image->montage);
(void) WriteBlobString(image,buffer);
}
if (quantum_info->format == FloatingPointQuantumFormat)
(void) SetImageProperty(image,"quantum:format","floating-point",
exception);
ResetImagePropertyIterator(image);
property=GetNextImageProperty(image);
while (property != (const char *) NULL)
{
(void) FormatLocaleString(buffer,MagickPathExtent,"%s=",property);
(void) WriteBlobString(image,buffer);
value=GetImageProperty(image,property,exception);
if (value != (const char *) NULL)
{
size_t
length;
length=strlen(value);
for (i=0; i < (ssize_t) length; i++)
if (isspace((int) ((unsigned char) value[i])) != 0)
break;
if ((i == (ssize_t) length) && (i != 0))
(void) WriteBlob(image,length,(const unsigned char *) value);
else
{
(void) WriteBlobByte(image,'{');
if (strchr(value,'}') == (char *) NULL)
(void) WriteBlob(image,length,(const unsigned char *) value);
else
for (i=0; i < (ssize_t) length; i++)
{
if (value[i] == (int) '}')
(void) WriteBlobByte(image,'\\');
(void) WriteBlobByte(image,value[i]);
}
(void) WriteBlobByte(image,'}');
}
}
(void) WriteBlobByte(image,'\n');
property=GetNextImageProperty(image);
}
(void) WriteBlobString(image,"\f\n:\032");
if (image->montage != (char *) NULL)
{
/*
Write montage tile directory.
*/
if (image->directory != (char *) NULL)
(void) WriteBlob(image,strlen(image->directory),(unsigned char *)
image->directory);
(void) WriteBlobByte(image,'\0');
}
if (image->profiles != (void *) NULL)
{
const char
*name;
const StringInfo
*profile;
/*
Generic profile.
*/
ResetImageProfileIterator(image);
name=GetNextImageProfile(image);
while (name != (const char *) NULL)
{
profile=GetImageProfile(image,name);
(void) WriteBlob(image,GetStringInfoLength(profile),
GetStringInfoDatum(profile));
name=GetNextImageProfile(image);
}
}
if (image->storage_class == PseudoClass)
{
size_t
packet_size;
unsigned char
*colormap,
*q;
/*
Allocate colormap.
*/
packet_size=(size_t) (3*quantum_info->depth/8);
colormap=(unsigned char *) AcquireQuantumMemory(image->colors,
packet_size*sizeof(*colormap));
if (colormap == (unsigned char *) NULL)
ThrowWriterException(ResourceLimitError,"MemoryAllocationFailed");
/*
Write colormap to file.
*/
q=colormap;
for (i=0; i < (ssize_t) image->colors; i++)
{
switch (quantum_info->depth)
{
default:
ThrowWriterException(CorruptImageError,"ImageDepthNotSupported");
case 32:
{
register unsigned int
pixel;
pixel=ScaleQuantumToLong(image->colormap[i].red);
q=PopLongPixel(MSBEndian,pixel,q);
pixel=ScaleQuantumToLong(image->colormap[i].green);
q=PopLongPixel(MSBEndian,pixel,q);
pixel=ScaleQuantumToLong(image->colormap[i].blue);
q=PopLongPixel(MSBEndian,pixel,q);
break;
}
case 16:
{
register unsigned short
pixel;
pixel=ScaleQuantumToShort(image->colormap[i].red);
q=PopShortPixel(MSBEndian,pixel,q);
pixel=ScaleQuantumToShort(image->colormap[i].green);
q=PopShortPixel(MSBEndian,pixel,q);
pixel=ScaleQuantumToShort(image->colormap[i].blue);
q=PopShortPixel(MSBEndian,pixel,q);
break;
}
case 8:
{
register unsigned char
pixel;
pixel=(unsigned char) ScaleQuantumToChar(image->colormap[i].red);
q=PopCharPixel(pixel,q);
pixel=(unsigned char) ScaleQuantumToChar(
image->colormap[i].green);
q=PopCharPixel(pixel,q);
pixel=(unsigned char) ScaleQuantumToChar(image->colormap[i].blue);
q=PopCharPixel(pixel,q);
break;
}
}
}
(void) WriteBlob(image,packet_size*image->colors,colormap);
colormap=(unsigned char *) RelinquishMagickMemory(colormap);
}
/*
Write image pixels to file.
*/
status=MagickTrue;
switch (compression)
{
#if defined(MAGICKCORE_BZLIB_DELEGATE)
case BZipCompression:
{
int
code;
(void) ResetMagickMemory(&bzip_info,0,sizeof(bzip_info));
bzip_info.bzalloc=AcquireBZIPMemory;
bzip_info.bzfree=RelinquishBZIPMemory;
code=BZ2_bzCompressInit(&bzip_info,(int) (image->quality ==
UndefinedCompressionQuality ? 7 : MagickMin(image->quality/10,9)),
(int) image_info->verbose,0);
if (code != BZ_OK)
status=MagickFalse;
break;
}
#endif
#if defined(MAGICKCORE_LZMA_DELEGATE)
case LZMACompression:
{
int
code;
(void) ResetMagickMemory(&allocator,0,sizeof(allocator));
allocator.alloc=AcquireLZMAMemory;
allocator.free=RelinquishLZMAMemory;
lzma_info=initialize_lzma;
lzma_info.allocator=&allocator;
code=lzma_easy_encoder(&lzma_info,image->quality/10,LZMA_CHECK_SHA256);
if (code != LZMA_OK)
status=MagickTrue;
break;
}
#endif
#if defined(MAGICKCORE_ZLIB_DELEGATE)
case LZWCompression:
case ZipCompression:
{
int
code;
(void) ResetMagickMemory(&zip_info,0,sizeof(zip_info));
zip_info.zalloc=AcquireZIPMemory;
zip_info.zfree=RelinquishZIPMemory;
code=deflateInit(&zip_info,(int) (image->quality ==
UndefinedCompressionQuality ? 7 : MagickMin(image->quality/10,9)));
if (code != Z_OK)
status=MagickFalse;
break;
}
#endif
default:
break;
}
quantum_type=GetQuantumType(image,exception);
pixels=(unsigned char *) GetQuantumPixels(quantum_info);
for (y=0; y < (ssize_t) image->rows; y++)
{
register const Quantum
*magick_restrict p;
register ssize_t
x;
if (status == MagickFalse)
break;
p=GetVirtualPixels(image,0,y,image->columns,1,exception);
if (p == (const Quantum *) NULL)
break;
q=pixels;
switch (compression)
{
#if defined(MAGICKCORE_BZLIB_DELEGATE)
case BZipCompression:
{
bzip_info.next_in=(char *) pixels;
bzip_info.avail_in=(unsigned int) (packet_size*image->columns);
(void) ExportQuantumPixels(image,(CacheView *) NULL,quantum_info,
quantum_type,pixels,exception);
do
{
int
code;
bzip_info.next_out=(char *) compress_pixels;
bzip_info.avail_out=(unsigned int) BZipMaxExtent(packet_size*
image->columns);
code=BZ2_bzCompress(&bzip_info,BZ_FLUSH);
if (code != BZ_OK)
status=MagickFalse;
length=(size_t) (bzip_info.next_out-(char *) compress_pixels);
if (length != 0)
{
(void) WriteBlobMSBLong(image,(unsigned int) length);
(void) WriteBlob(image,length,compress_pixels);
}
} while (bzip_info.avail_in != 0);
break;
}
#endif
#if defined(MAGICKCORE_LZMA_DELEGATE)
case LZMACompression:
{
lzma_info.next_in=pixels;
lzma_info.avail_in=packet_size*image->columns;
(void) ExportQuantumPixels(image,(CacheView *) NULL,quantum_info,
quantum_type,pixels,exception);
do
{
int
code;
lzma_info.next_out=compress_pixels;
lzma_info.avail_out=packet_size*image->columns;
code=lzma_code(&lzma_info,LZMA_RUN);
if (code != LZMA_OK)
status=MagickFalse;
length=(size_t) (lzma_info.next_out-compress_pixels);
if (length != 0)
{
(void) WriteBlobMSBLong(image,(unsigned int) length);
(void) WriteBlob(image,length,compress_pixels);
}
} while (lzma_info.avail_in != 0);
break;
}
#endif
#if defined(MAGICKCORE_ZLIB_DELEGATE)
case LZWCompression:
case ZipCompression:
{
zip_info.next_in=pixels;
zip_info.avail_in=(uInt) (packet_size*image->columns);
(void) ExportQuantumPixels(image,(CacheView *) NULL,quantum_info,
quantum_type,pixels,exception);
do
{
int
code;
zip_info.next_out=compress_pixels;
zip_info.avail_out=(uInt) ZipMaxExtent(packet_size*image->columns);
code=deflate(&zip_info,Z_SYNC_FLUSH);
if (code != Z_OK)
status=MagickFalse;
length=(size_t) (zip_info.next_out-compress_pixels);
if (length != 0)
{
(void) WriteBlobMSBLong(image,(unsigned int) length);
(void) WriteBlob(image,length,compress_pixels);
}
} while (zip_info.avail_in != 0);
break;
}
#endif
case RLECompression:
{
length=0;
GetPixelInfoPixel(image,p,&pixel);
p+=GetPixelChannels(image);
for (x=1; x < (ssize_t) image->columns; x++)
{
GetPixelInfoPixel(image,p,&target);
if ((length < 255) &&
(IsPixelInfoEquivalent(&pixel,&target) != MagickFalse))
length++;
else
{
q=PopRunlengthPacket(image,q,length,&pixel,exception);
length=0;
}
GetPixelInfoPixel(image,p,&pixel);
p+=GetPixelChannels(image);
}
q=PopRunlengthPacket(image,q,length,&pixel,exception);
(void) WriteBlob(image,(size_t) (q-pixels),pixels);
break;
}
default:
{
(void) ExportQuantumPixels(image,(CacheView *) NULL,quantum_info,
quantum_type,pixels,exception);
(void) WriteBlob(image,packet_size*image->columns,pixels);
break;
}
}
if (image->previous == (Image *) NULL)
{
status=SetImageProgress(image,SaveImageTag,(MagickOffsetType) y,
image->rows);
if (status == MagickFalse)
break;
}
}
switch (compression)
{
#if defined(MAGICKCORE_BZLIB_DELEGATE)
case BZipCompression:
{
int
code;
for ( ; ; )
{
if (status == MagickFalse)
break;
bzip_info.next_out=(char *) compress_pixels;
bzip_info.avail_out=(unsigned int) BZipMaxExtent(packet_size*
image->columns);
code=BZ2_bzCompress(&bzip_info,BZ_FINISH);
length=(size_t) (bzip_info.next_out-(char *) compress_pixels);
if (length != 0)
{
(void) WriteBlobMSBLong(image,(unsigned int) length);
(void) WriteBlob(image,length,compress_pixels);
}
if (code == BZ_STREAM_END)
break;
}
code=BZ2_bzCompressEnd(&bzip_info);
if (code != BZ_OK)
status=MagickFalse;
break;
}
#endif
#if defined(MAGICKCORE_LZMA_DELEGATE)
case LZMACompression:
{
int
code;
for ( ; ; )
{
if (status == MagickFalse)
break;
lzma_info.next_out=compress_pixels;
lzma_info.avail_out=packet_size*image->columns;
code=lzma_code(&lzma_info,LZMA_FINISH);
length=(size_t) (lzma_info.next_out-compress_pixels);
if (length > 6)
{
(void) WriteBlobMSBLong(image,(unsigned int) length);
(void) WriteBlob(image,length,compress_pixels);
}
if (code == LZMA_STREAM_END)
break;
}
lzma_end(&lzma_info);
break;
}
#endif
#if defined(MAGICKCORE_ZLIB_DELEGATE)
case LZWCompression:
case ZipCompression:
{
int
code;
for ( ; ; )
{
if (status == MagickFalse)
break;
zip_info.next_out=compress_pixels;
zip_info.avail_out=(uInt) ZipMaxExtent(packet_size*image->columns);
code=deflate(&zip_info,Z_FINISH);
length=(size_t) (zip_info.next_out-compress_pixels);
if (length > 6)
{
(void) WriteBlobMSBLong(image,(unsigned int) length);
(void) WriteBlob(image,length,compress_pixels);
}
if (code == Z_STREAM_END)
break;
}
code=deflateEnd(&zip_info);
if (code != Z_OK)
status=MagickFalse;
break;
}
#endif
default:
break;
}
quantum_info=DestroyQuantumInfo(quantum_info);
compress_pixels=(unsigned char *) RelinquishMagickMemory(compress_pixels);
if (GetNextImageInList(image) == (Image *) NULL)
break;
image=SyncNextImageInList(image);
status=SetImageProgress(image,SaveImagesTag,scene++,GetImageListLength(
image));
if (status == MagickFalse)
break;
} while (image_info->adjoin != MagickFalse);
(void) CloseBlob(image);
return(status);
}