/*
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
% %
% %
% %
% V V IIIII FFFFF FFFFF %
% V V I F F %
% V V I FFF FFF %
% V V I F F %
% V IIIII F F %
% %
% %
% Read/Write Khoros Visualization Image Format. %
% %
% Software Design %
% John Cristy %
% July 1992 %
% %
% %
% Copyright 1999-2007 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 "magick/studio.h"
#include "magick/blob.h"
#include "magick/blob-private.h"
#include "magick/color.h"
#include "magick/color-private.h"
#include "magick/colorspace.h"
#include "magick/exception.h"
#include "magick/exception-private.h"
#include "magick/image.h"
#include "magick/image-private.h"
#include "magick/list.h"
#include "magick/magick.h"
#include "magick/memory_.h"
#include "magick/monitor.h"
#include "magick/property.h"
#include "magick/quantum-private.h"
#include "magick/static.h"
#include "magick/string_.h"
#include "magick/module.h"
�
/*
Forward declarations.
*/
static MagickBooleanType
WriteVIFFImage(const ImageInfo *,Image *);
�
/*
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
% %
% %
% %
% I s V I F F %
% %
% %
% %
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%
% IsVIFF() returns MagickTrue if the image format type, identified by the
% magick string, is VIFF.
%
% The format of the IsVIFF method is:
%
% MagickBooleanType IsVIFF(const unsigned char *magick,const size_t length)
%
% A description of each parameter follows:
%
% o magick: This string is generally the first few bytes of an image file
% or blob.
%
% o length: Specifies the length of the magick string.
%
%
*/
static MagickBooleanType IsVIFF(const unsigned char *magick,const size_t length)
{
if (length < 2)
return(MagickFalse);
if (memcmp(magick,"\253\001",2) == 0)
return(MagickTrue);
return(MagickFalse);
}
�
/*
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
% %
% %
% %
% R e a d V I F F I m a g e %
% %
% %
% %
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%
% ReadVIFFImage() reads a Khoros Visualization 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 ReadVIFFImage method is:
%
% Image *ReadVIFFImage(const ImageInfo *image_info,
% ExceptionInfo *exception)
%
% A description of each parameter follows:
%
% o image: Method ReadVIFFImage returns a pointer to the image after
% reading. A null image is returned if there is a memory shortage or if
% the image cannot be read.
%
% o image_info: The image info.
%
% o exception: return any errors or warnings in this structure.
%
%
*/
static Image *ReadVIFFImage(const ImageInfo *image_info,
ExceptionInfo *exception)
{
#define VFF_CM_genericRGB 15
#define VFF_CM_ntscRGB 1
#define VFF_CM_NONE 0
#define VFF_DEP_DECORDER 0x4
#define VFF_DEP_NSORDER 0x8
#define VFF_DES_RAW 0
#define VFF_LOC_IMPLICIT 1
#define VFF_MAPTYP_NONE 0
#define VFF_MAPTYP_1_BYTE 1
#define VFF_MAPTYP_2_BYTE 2
#define VFF_MAPTYP_4_BYTE 4
#define VFF_MAPTYP_FLOAT 5
#define VFF_MAPTYP_DOUBLE 7
#define VFF_MS_NONE 0
#define VFF_MS_ONEPERBAND 1
#define VFF_MS_SHARED 3
#define VFF_TYP_BIT 0
#define VFF_TYP_1_BYTE 1
#define VFF_TYP_2_BYTE 2
#define VFF_TYP_4_BYTE 4
#define VFF_TYP_FLOAT 5
#define VFF_TYP_DOUBLE 9
typedef struct _ViffInfo
{
unsigned char
identifier,
file_type,
release,
version,
machine_dependency,
reserve[3];
char
comment[512];
unsigned long
rows,
columns,
subrows;
long
x_offset,
y_offset;
float
x_bits_per_pixel,
y_bits_per_pixel;
unsigned long
location_type,
location_dimension,
number_of_images,
number_data_bands,
data_storage_type,
data_encode_scheme,
map_scheme,
map_storage_type,
map_rows,
map_columns,
map_subrows,
map_enable,
maps_per_cycle,
color_space_model;
} ViffInfo;
double
min_value,
scale_factor,
value;
Image
*image;
int
bit;
long
y;
MagickBooleanType
status;
MagickSizeType
number_pixels;
register IndexPacket
*indexes;
register long
x;
register PixelPacket
*q;
register long
i;
register unsigned char
*p;
ssize_t
count;
unsigned char
buffer[7],
*viff_pixels;
unsigned long
bytes_per_pixel,
lsb_first,
max_packets,
quantum;
ViffInfo
viff_info;
/*
Open image file.
*/
assert(image_info != (const ImageInfo *) NULL);
assert(image_info->signature == MagickSignature);
if (image_info->debug != MagickFalse)
(void) LogMagickEvent(TraceEvent,GetMagickModule(),"%s",
image_info->filename);
assert(exception != (ExceptionInfo *) NULL);
assert(exception->signature == MagickSignature);
image=AllocateImage(image_info);
status=OpenBlob(image_info,image,ReadBinaryBlobMode,exception);
if (status == MagickFalse)
{
image=DestroyImageList(image);
return((Image *) NULL);
}
/*
Read VIFF header (1024 bytes).
*/
count=ReadBlob(image,1,&viff_info.identifier);
do
{
/*
Verify VIFF identifier.
*/
if ((count == 0) || ((unsigned char) viff_info.identifier != 0xab))
ThrowReaderException(CorruptImageError,"NotAVIFFImage");
/*
Initialize VIFF image.
*/
count=ReadBlob(image,7,buffer);
viff_info.file_type=buffer[0];
viff_info.release=buffer[1];
viff_info.version=buffer[2];
viff_info.machine_dependency=buffer[3];
count=ReadBlob(image,512,(unsigned char *) viff_info.comment);
viff_info.comment[511]='\0';
if (strlen(viff_info.comment) > 4)
(void) SetImageProperty(image,"comment",viff_info.comment);
if ((viff_info.machine_dependency == VFF_DEP_DECORDER) ||
(viff_info.machine_dependency == VFF_DEP_NSORDER))
{
viff_info.rows=ReadBlobLSBLong(image);
viff_info.columns=ReadBlobLSBLong(image);
viff_info.subrows=ReadBlobLSBLong(image);
viff_info.x_offset=(long) ReadBlobLSBLong(image);
viff_info.y_offset=(long) ReadBlobLSBLong(image);
viff_info.x_bits_per_pixel=(float) ReadBlobLSBLong(image);
viff_info.y_bits_per_pixel=(float) ReadBlobLSBLong(image);
viff_info.location_type=ReadBlobLSBLong(image);
viff_info.location_dimension=ReadBlobLSBLong(image);
viff_info.number_of_images=ReadBlobLSBLong(image);
viff_info.number_data_bands=ReadBlobLSBLong(image);
viff_info.data_storage_type=ReadBlobLSBLong(image);
viff_info.data_encode_scheme=ReadBlobLSBLong(image);
viff_info.map_scheme=ReadBlobLSBLong(image);
viff_info.map_storage_type=ReadBlobLSBLong(image);
viff_info.map_rows=ReadBlobLSBLong(image);
viff_info.map_columns=ReadBlobLSBLong(image);
viff_info.map_subrows=ReadBlobLSBLong(image);
viff_info.map_enable=ReadBlobLSBLong(image);
viff_info.maps_per_cycle=ReadBlobLSBLong(image);
viff_info.color_space_model=ReadBlobLSBLong(image);
}
else
{
viff_info.rows=ReadBlobMSBLong(image);
viff_info.columns=ReadBlobMSBLong(image);
viff_info.subrows=ReadBlobMSBLong(image);
viff_info.x_offset=(long) ReadBlobMSBLong(image);
viff_info.y_offset=(long) ReadBlobMSBLong(image);
viff_info.x_bits_per_pixel=(float) ReadBlobMSBLong(image);
viff_info.y_bits_per_pixel=(float) ReadBlobMSBLong(image);
viff_info.location_type=ReadBlobMSBLong(image);
viff_info.location_dimension=ReadBlobMSBLong(image);
viff_info.number_of_images=ReadBlobMSBLong(image);
viff_info.number_data_bands=ReadBlobMSBLong(image);
viff_info.data_storage_type=ReadBlobMSBLong(image);
viff_info.data_encode_scheme=ReadBlobMSBLong(image);
viff_info.map_scheme=ReadBlobMSBLong(image);
viff_info.map_storage_type=ReadBlobMSBLong(image);
viff_info.map_rows=ReadBlobMSBLong(image);
viff_info.map_columns=ReadBlobMSBLong(image);
viff_info.map_subrows=ReadBlobMSBLong(image);
viff_info.map_enable=ReadBlobMSBLong(image);
viff_info.maps_per_cycle=ReadBlobMSBLong(image);
viff_info.color_space_model=ReadBlobMSBLong(image);
}
for (i=0; i < 420; i++)
(void) ReadBlobByte(image);
image->columns=viff_info.rows;
image->rows=viff_info.columns;
image->depth=viff_info.x_bits_per_pixel <= 8 ? 8UL : QuantumDepth;
/*
Verify that we can read this VIFF image.
*/
number_pixels=(MagickSizeType) viff_info.columns*viff_info.rows;
if (number_pixels != (size_t) number_pixels)
ThrowReaderException(ResourceLimitError,"MemoryAllocationFailed");
if (number_pixels == 0)
ThrowReaderException(CoderError,"ImageColumnOrRowSizeIsNotSupported");
if ((viff_info.number_data_bands < 1) || (viff_info.number_data_bands > 4))
ThrowReaderException(CorruptImageError,"ImproperImageHeader");
if ((viff_info.data_storage_type != VFF_TYP_BIT) &&
(viff_info.data_storage_type != VFF_TYP_1_BYTE) &&
(viff_info.data_storage_type != VFF_TYP_2_BYTE) &&
(viff_info.data_storage_type != VFF_TYP_4_BYTE) &&
(viff_info.data_storage_type != VFF_TYP_FLOAT) &&
(viff_info.data_storage_type != VFF_TYP_DOUBLE))
ThrowReaderException(CoderError,"DataStorageTypeIsNotSupported");
if (viff_info.data_encode_scheme != VFF_DES_RAW)
ThrowReaderException(CoderError,"DataEncodingSchemeIsNotSupported");
if ((viff_info.map_storage_type != VFF_MAPTYP_NONE) &&
(viff_info.map_storage_type != VFF_MAPTYP_1_BYTE) &&
(viff_info.map_storage_type != VFF_MAPTYP_2_BYTE) &&
(viff_info.map_storage_type != VFF_MAPTYP_4_BYTE) &&
(viff_info.map_storage_type != VFF_MAPTYP_FLOAT) &&
(viff_info.map_storage_type != VFF_MAPTYP_DOUBLE))
ThrowReaderException(CoderError,"MapStorageTypeIsNotSupported");
if ((viff_info.color_space_model != VFF_CM_NONE) &&
(viff_info.color_space_model != VFF_CM_ntscRGB) &&
(viff_info.color_space_model != VFF_CM_genericRGB))
ThrowReaderException(CoderError,"ColorspaceModelIsNotSupported");
if (viff_info.location_type != VFF_LOC_IMPLICIT)
ThrowReaderException(CoderError,"LocationTypeIsNotSupported");
if (viff_info.number_of_images != 1)
ThrowReaderException(CoderError,"NumberOfImagesIsNotSupported");
if (viff_info.map_rows == 0)
viff_info.map_scheme=VFF_MS_NONE;
switch ((int) viff_info.map_scheme)
{
case VFF_MS_NONE:
{
if (viff_info.number_data_bands < 3)
{
/*
Create linear color ramp.
*/
image->colors=image->depth <= 8 ? 256UL : 65536UL;
if (viff_info.data_storage_type == VFF_TYP_BIT)
image->colors=2;
if (AllocateImageColormap(image,image->colors) == MagickFalse)
ThrowReaderException(ResourceLimitError,"MemoryAllocationFailed");
}
break;
}
case VFF_MS_ONEPERBAND:
case VFF_MS_SHARED:
{
unsigned char
*viff_colormap;
/*
Allocate VIFF colormap.
*/
switch ((int) viff_info.map_storage_type)
{
case VFF_MAPTYP_1_BYTE: bytes_per_pixel=1; break;
case VFF_MAPTYP_2_BYTE: bytes_per_pixel=2; break;
case VFF_MAPTYP_4_BYTE: bytes_per_pixel=4; break;
case VFF_MAPTYP_FLOAT: bytes_per_pixel=4; break;
case VFF_MAPTYP_DOUBLE: bytes_per_pixel=8; break;
default: bytes_per_pixel=1; break;
}
image->colors=viff_info.map_columns;
if (AllocateImageColormap(image,image->colors) == MagickFalse)
ThrowReaderException(ResourceLimitError,"MemoryAllocationFailed");
viff_colormap=(unsigned char *) AcquireQuantumMemory(image->colors,
viff_info.map_rows*bytes_per_pixel*sizeof(*viff_colormap));
if (viff_colormap == (unsigned char *) NULL)
ThrowReaderException(ResourceLimitError,"MemoryAllocationFailed");
/*
Read VIFF raster colormap.
*/
count=ReadBlob(image,bytes_per_pixel*image->colors*viff_info.map_rows,
viff_colormap);
lsb_first=1;
if (*(char *) &lsb_first &&
((viff_info.machine_dependency != VFF_DEP_DECORDER) &&
(viff_info.machine_dependency != VFF_DEP_NSORDER)))
switch ((int) viff_info.map_storage_type)
{
case VFF_MAPTYP_2_BYTE:
{
MSBOrderShort(viff_colormap,(bytes_per_pixel*image->colors*
viff_info.map_rows));
break;
}
case VFF_MAPTYP_4_BYTE:
case VFF_MAPTYP_FLOAT:
{
MSBOrderLong(viff_colormap,(bytes_per_pixel*image->colors*
viff_info.map_rows));
break;
}
default: break;
}
for (i=0; i < (long) (viff_info.map_rows*image->colors); i++)
{
switch ((int) viff_info.map_storage_type)
{
case VFF_MAPTYP_2_BYTE: value=1.0*((short *) viff_colormap)[i]; break;
case VFF_MAPTYP_4_BYTE: value=1.0*((int *) viff_colormap)[i]; break;
case VFF_MAPTYP_FLOAT: value=((float *) viff_colormap)[i]; break;
case VFF_MAPTYP_DOUBLE: value=((double *) viff_colormap)[i]; break;
default: value=1.0*viff_colormap[i]; break;
}
if (i < (long) image->colors)
{
image->colormap[i].red=ScaleCharToQuantum((unsigned char) value);
image->colormap[i].green=
ScaleCharToQuantum((unsigned char) value);
image->colormap[i].blue=ScaleCharToQuantum((unsigned char) value);
}
else
if (i < (long) (2*image->colors))
image->colormap[i % image->colors].green=
ScaleCharToQuantum((unsigned char) value);
else
if (i < (long) (3*image->colors))
image->colormap[i % image->colors].blue=
ScaleCharToQuantum((unsigned char) value);
}
viff_colormap=(unsigned char *) RelinquishMagickMemory(viff_colormap);
break;
}
default:
ThrowReaderException(CoderError,"ColormapTypeNotSupported");
}
/*
Initialize image structure.
*/
image->matte=viff_info.number_data_bands == 4 ? MagickTrue : MagickFalse;
image->storage_class=
(viff_info.number_data_bands < 3 ? PseudoClass : DirectClass);
image->columns=viff_info.rows;
image->rows=viff_info.columns;
if ((image_info->ping != MagickFalse) && (image_info->number_scenes != 0))
if (image->scene >= (image_info->scene+image_info->number_scenes-1))
break;
if (SetImageExtent(image,0,0) == MagickFalse)
{
InheritException(exception,&image->exception);
return(DestroyImageList(image));
}
/*
Allocate VIFF pixels.
*/
switch ((int) viff_info.data_storage_type)
{
case VFF_TYP_2_BYTE: bytes_per_pixel=2; break;
case VFF_TYP_4_BYTE: bytes_per_pixel=4; break;
case VFF_TYP_FLOAT: bytes_per_pixel=4; break;
case VFF_TYP_DOUBLE: bytes_per_pixel=8; break;
default: bytes_per_pixel=1; break;
}
if (viff_info.data_storage_type == VFF_TYP_BIT)
max_packets=((image->columns+7UL) >> 3UL)*image->rows;
else
max_packets=(unsigned long) (number_pixels*viff_info.number_data_bands);
viff_pixels=(unsigned char *) AcquireQuantumMemory(max_packets,
bytes_per_pixel*sizeof(*viff_pixels));
if (viff_pixels == (unsigned char *) NULL)
ThrowReaderException(ResourceLimitError,"MemoryAllocationFailed");
count=ReadBlob(image,bytes_per_pixel*max_packets,viff_pixels);
lsb_first=1;
if (*(char *) &lsb_first &&
((viff_info.machine_dependency != VFF_DEP_DECORDER) &&
(viff_info.machine_dependency != VFF_DEP_NSORDER)))
switch ((int) viff_info.data_storage_type)
{
case VFF_TYP_2_BYTE:
{
MSBOrderShort(viff_pixels,bytes_per_pixel*max_packets);
break;
}
case VFF_TYP_4_BYTE:
case VFF_TYP_FLOAT:
{
MSBOrderLong(viff_pixels,bytes_per_pixel*max_packets);
break;
}
default: break;
}
min_value=0.0;
scale_factor=1.0;
if ((viff_info.data_storage_type != VFF_TYP_1_BYTE) &&
(viff_info.map_scheme == VFF_MS_NONE))
{
double
max_value;
/*
Determine scale factor.
*/
switch ((int) viff_info.data_storage_type)
{
case VFF_TYP_2_BYTE: value=1.0*((short *) viff_pixels)[0]; break;
case VFF_TYP_4_BYTE: value=1.0*((int *) viff_pixels)[0]; break;
case VFF_TYP_FLOAT: value=((float *) viff_pixels)[0]; break;
case VFF_TYP_DOUBLE: value=((double *) viff_pixels)[0]; break;
default: value=1.0*viff_pixels[0]; break;
}
max_value=value;
min_value=value;
for (i=0; i < (long) max_packets; i++)
{
switch ((int) viff_info.data_storage_type)
{
case VFF_TYP_2_BYTE: value=1.0*((short *) viff_pixels)[i]; break;
case VFF_TYP_4_BYTE: value=1.0*((int *) viff_pixels)[i]; break;
case VFF_TYP_FLOAT: value=((float *) viff_pixels)[i]; break;
case VFF_TYP_DOUBLE: value=((double *) viff_pixels)[i]; break;
default: value=1.0*viff_pixels[i]; break;
}
if (value > max_value)
max_value=value;
else
if (value < min_value)
min_value=value;
}
if ((min_value == 0) && (max_value == 0))
scale_factor=0;
else
if (min_value == max_value)
{
scale_factor=(MagickRealType) QuantumRange/min_value;
min_value=0;
}
else
scale_factor=(MagickRealType) QuantumRange/(max_value-min_value);
}
/*
Convert pixels to Quantum size.
*/
p=(unsigned char *) viff_pixels;
for (i=0; i < (long) max_packets; i++)
{
switch ((int) viff_info.data_storage_type)
{
case VFF_TYP_2_BYTE: value=1.0*((short *) viff_pixels)[i]; break;
case VFF_TYP_4_BYTE: value=1.0*((int *) viff_pixels)[i]; break;
case VFF_TYP_FLOAT: value=((float *) viff_pixels)[i]; break;
case VFF_TYP_DOUBLE: value=((double *) viff_pixels)[i]; break;
default: value=1.0*viff_pixels[i]; break;
}
if (viff_info.map_scheme == VFF_MS_NONE)
{
value=(value-min_value)*scale_factor;
if (value > QuantumRange)
value=QuantumRange;
else
if (value < 0)
value=0;
}
*p=(unsigned char) value;
p++;
}
/*
Convert VIFF raster image to pixel packets.
*/
p=(unsigned char *) viff_pixels;
if (viff_info.data_storage_type == VFF_TYP_BIT)
{
/*
Convert bitmap scanline.
*/
(void) SetImageType(image,BilevelType);
(void) SetImageType(image,PaletteType);
for (y=0; y < (long) image->rows; y++)
{
q=SetImagePixels(image,0,y,image->columns,1);
if (q == (PixelPacket *) NULL)
break;
indexes=GetIndexes(image);
for (x=0; x < (long) (image->columns-7); x+=8)
{
for (bit=0; bit < 8; bit++)
if (PixelIntensity(q) < ((MagickRealType) QuantumRange/2.0))
{
quantum=(unsigned long) indexes[x+bit];
quantum|=0x01;
indexes[x+bit]=(IndexPacket) quantum;
}
p++;
}
if ((image->columns % 8) != 0)
{
for (bit=0; bit < (long) (image->columns % 8); bit++)
if (PixelIntensity(q) < ((MagickRealType) QuantumRange/2.0))
{
quantum=(unsigned long) indexes[x+bit];
quantum|=0x01;
indexes[x+bit]=(IndexPacket) quantum;
}
p++;
}
if (SyncImagePixels(image) == MagickFalse)
break;
if (image->previous == (Image *) NULL)
if ((image->progress_monitor != (MagickProgressMonitor) NULL) &&
(QuantumTick(y,image->rows) != MagickFalse))
{
status=image->progress_monitor(LoadImageTag,y,image->rows,
image->client_data);
if (status == MagickFalse)
break;
}
}
}
else
if (image->storage_class == PseudoClass)
for (y=0; y < (long) image->rows; y++)
{
q=SetImagePixels(image,0,y,image->columns,1);
if (q == (PixelPacket *) NULL)
break;
indexes=GetIndexes(image);
for (x=0; x < (long) image->columns; x++)
indexes[x]=(IndexPacket) (*p++);
if (SyncImagePixels(image) == MagickFalse)
break;
if (image->previous == (Image *) NULL)
if ((image->progress_monitor != (MagickProgressMonitor) NULL) &&
(QuantumTick(y,image->rows) != MagickFalse))
{
status=image->progress_monitor(LoadImageTag,y,image->rows,
image->client_data);
if (status == MagickFalse)
break;
}
}
else
{
/*
Convert DirectColor scanline.
*/
number_pixels=(MagickSizeType) image->columns*image->rows;
for (y=0; y < (long) image->rows; y++)
{
q=SetImagePixels(image,0,y,image->columns,1);
if (q == (PixelPacket *) NULL)
break;
for (x=0; x < (long) image->columns; x++)
{
q->red=ScaleCharToQuantum(*p);
q->green=ScaleCharToQuantum(*(p+number_pixels));
q->blue=ScaleCharToQuantum(*(p+2*number_pixels));
if (image->colors != 0)
{
q->red=image->colormap[(long) q->red].red;
q->green=image->colormap[(long) q->green].green;
q->blue=image->colormap[(long) q->blue].blue;
}
q->opacity=(Quantum) (image->matte ? QuantumRange-
ScaleCharToQuantum(*(p+number_pixels*3)) : OpaqueOpacity);
p++;
q++;
}
if (SyncImagePixels(image) == MagickFalse)
break;
if (image->previous == (Image *) NULL)
if ((image->progress_monitor != (MagickProgressMonitor) NULL) &&
(QuantumTick(y,image->rows) != MagickFalse))
{
status=image->progress_monitor(LoadImageTag,y,image->rows,
image->client_data);
if (status == MagickFalse)
break;
}
}
}
viff_pixels=(unsigned char *) RelinquishMagickMemory(viff_pixels);
if (image->storage_class == PseudoClass)
(void) SyncImage(image);
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;
count=ReadBlob(image,1,&viff_info.identifier);
if ((count != 0) && (viff_info.identifier == 0xab))
{
/*
Allocate next image structure.
*/
AllocateNextImage(image_info,image);
if (GetNextImageInList(image) == (Image *) NULL)
{
image=DestroyImageList(image);
return((Image *) NULL);
}
image=SyncNextImageInList(image);
if (image->progress_monitor != (MagickProgressMonitor) NULL)
{
status=image->progress_monitor(LoadImagesTag,TellBlob(image),
GetBlobSize(image),image->client_data);
if (status == MagickFalse)
break;
}
}
} while ((count != 0) && (viff_info.identifier == 0xab));
CloseBlob(image);
return(GetFirstImageInList(image));
}
�
/*
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
% %
% %
% %
% R e g i s t e r V I F F I m a g e %
% %
% %
% %
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%
% RegisterVIFFImage() adds properties for the VIFF 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 RegisterVIFFImage method is:
%
% unsigned long RegisterVIFFImage(void)
%
*/
ModuleExport unsigned long RegisterVIFFImage(void)
{
MagickInfo
*entry;
entry=SetMagickInfo("VIFF");
entry->decoder=(DecodeImageHandler *) ReadVIFFImage;
entry->encoder=(EncodeImageHandler *) WriteVIFFImage;
entry->magick=(IsImageFormatHandler *) IsVIFF;
entry->description=ConstantString("Khoros Visualization image");
entry->module=ConstantString("VIFF");
(void) RegisterMagickInfo(entry);
entry=SetMagickInfo("XV");
entry->decoder=(DecodeImageHandler *) ReadVIFFImage;
entry->encoder=(EncodeImageHandler *) WriteVIFFImage;
entry->description=ConstantString("Khoros Visualization image");
entry->module=ConstantString("VIFF");
(void) RegisterMagickInfo(entry);
return(MagickImageCoderSignature);
}
�
/*
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
% %
% %
% %
% U n r e g i s t e r V I F F I m a g e %
% %
% %
% %
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%
% UnregisterVIFFImage() removes format registrations made by the
% VIFF module from the list of supported formats.
%
% The format of the UnregisterVIFFImage method is:
%
% UnregisterVIFFImage(void)
%
*/
ModuleExport void UnregisterVIFFImage(void)
{
(void) UnregisterMagickInfo("VIFF");
(void) UnregisterMagickInfo("XV");
}
�
/*
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
% %
% %
% %
% W r i t e V I F F I m a g e %
% %
% %
% %
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%
% WriteVIFFImage() writes an image to a file in the VIFF image format.
%
% The format of the WriteVIFFImage method is:
%
% MagickBooleanType WriteVIFFImage(const ImageInfo *image_info,
% Image *image)
%
% A description of each parameter follows.
%
% o image_info: The image info.
%
% o image: The image.
%
*/
static inline size_t MagickMin(const size_t x,const size_t y)
{
if (x < y)
return(x);
return(y);
}
static MagickBooleanType WriteVIFFImage(const ImageInfo *image_info,
Image *image)
{
#define VFF_CM_genericRGB 15
#define VFF_CM_NONE 0
#define VFF_DEP_IEEEORDER 0x2
#define VFF_DES_RAW 0
#define VFF_LOC_IMPLICIT 1
#define VFF_MAPTYP_NONE 0
#define VFF_MAPTYP_1_BYTE 1
#define VFF_MS_NONE 0
#define VFF_MS_ONEPERBAND 1
#define VFF_TYP_BIT 0
#define VFF_TYP_1_BYTE 1
typedef struct _ViffInfo
{
char
identifier,
file_type,
release,
version,
machine_dependency,
reserve[3],
comment[512];
unsigned long
rows,
columns,
subrows;
long
x_offset,
y_offset;
unsigned int
x_bits_per_pixel,
y_bits_per_pixel;
unsigned long
location_type,
location_dimension,
number_of_images,
number_data_bands,
data_storage_type,
data_encode_scheme,
map_scheme,
map_storage_type,
map_rows,
map_columns,
map_subrows,
map_enable,
maps_per_cycle,
color_space_model;
} ViffInfo;
const char
*value;
long
y;
MagickBooleanType
status;
MagickOffsetType
scene;
MagickSizeType
number_pixels,
packets;
register const PixelPacket
*p;
register IndexPacket
*indexes;
register long
x;
register long
i;
register unsigned char
*q;
unsigned char
buffer[8],
*viff_pixels;
ViffInfo
viff_info;
/*
Open output image file.
*/
assert(image_info != (const ImageInfo *) NULL);
assert(image_info->signature == MagickSignature);
assert(image != (Image *) NULL);
assert(image->signature == MagickSignature);
if (image->debug != MagickFalse)
(void) LogMagickEvent(TraceEvent,GetMagickModule(),"%s",image->filename);
status=OpenBlob(image_info,image,WriteBinaryBlobMode,&image->exception);
if (status == MagickFalse)
return(status);
(void) ResetMagickMemory(&viff_info,0,sizeof(ViffInfo));
scene=0;
do
{
/*
Initialize VIFF image structure.
*/
if (image_info->colorspace == UndefinedColorspace)
(void) SetImageColorspace(image,RGBColorspace);
if (IsGrayImage(image,&image->exception) != MagickFalse)
(void) SetImageStorageClass(image,DirectClass);
viff_info.identifier=(char) 0xab;
viff_info.file_type=1;
viff_info.release=1;
viff_info.version=3;
viff_info.machine_dependency=VFF_DEP_IEEEORDER; /* IEEE byte ordering */
*viff_info.comment='\0';
value=GetImageProperty(image,"comment");
if (value != (const char *) NULL)
(void) CopyMagickString(viff_info.comment,value,MagickMin(strlen(value),511)+1);
viff_info.rows=image->columns;
viff_info.columns=image->rows;
viff_info.subrows=0;
viff_info.x_offset=(~0);
viff_info.y_offset=(~0);
viff_info.x_bits_per_pixel=0;
viff_info.y_bits_per_pixel=0;
viff_info.location_type=VFF_LOC_IMPLICIT;
viff_info.location_dimension=0;
viff_info.number_of_images=1;
viff_info.data_encode_scheme=VFF_DES_RAW;
viff_info.map_scheme=VFF_MS_NONE;
viff_info.map_storage_type=VFF_MAPTYP_NONE;
viff_info.map_rows=0;
viff_info.map_columns=0;
viff_info.map_subrows=0;
viff_info.map_enable=1; /* no colormap */
viff_info.maps_per_cycle=0;
number_pixels=(MagickSizeType) image->columns*image->rows;
if (image->storage_class == DirectClass)
{
/*
Full color VIFF raster.
*/
viff_info.number_data_bands=image->matte ? 4UL : 3UL;
viff_info.color_space_model=VFF_CM_genericRGB;
viff_info.data_storage_type=VFF_TYP_1_BYTE;
packets=viff_info.number_data_bands*number_pixels;
}
else
{
viff_info.number_data_bands=1;
viff_info.color_space_model=VFF_CM_NONE;
viff_info.data_storage_type=VFF_TYP_1_BYTE;
packets=number_pixels;
if (IsGrayImage(image,&image->exception) == MagickFalse)
{
/*
Colormapped VIFF raster.
*/
viff_info.map_scheme=VFF_MS_ONEPERBAND;
viff_info.map_storage_type=VFF_MAPTYP_1_BYTE;
viff_info.map_rows=3;
viff_info.map_columns=image->colors;
}
else
if (image->colors <= 2)
{
/*
Monochrome VIFF raster.
*/
viff_info.data_storage_type=VFF_TYP_BIT;
packets=((image->columns+7) >> 3)*image->rows;
}
}
/*
Write VIFF image header (pad to 1024 bytes).
*/
buffer[0]=(unsigned char) viff_info.identifier;
buffer[1]=(unsigned char) viff_info.file_type;
buffer[2]=(unsigned char) viff_info.release;
buffer[3]=(unsigned char) viff_info.version;
buffer[4]=(unsigned char) viff_info.machine_dependency;
buffer[5]=(unsigned char) viff_info.reserve[0];
buffer[6]=(unsigned char) viff_info.reserve[1];
buffer[7]=(unsigned char) viff_info.reserve[2];
(void) WriteBlob(image,8,buffer);
(void) WriteBlob(image,512,(unsigned char *) viff_info.comment);
(void) WriteBlobMSBLong(image,viff_info.rows);
(void) WriteBlobMSBLong(image,viff_info.columns);
(void) WriteBlobMSBLong(image,viff_info.subrows);
(void) WriteBlobMSBLong(image,(unsigned long) viff_info.x_offset);
(void) WriteBlobMSBLong(image,(unsigned long) viff_info.y_offset);
viff_info.x_bits_per_pixel=1U*(63 << 24) | (128 << 16);
(void) WriteBlobMSBLong(image,(unsigned long) viff_info.x_bits_per_pixel);
viff_info.y_bits_per_pixel=1U*(63 << 24) | (128 << 16);
(void) WriteBlobMSBLong(image,(unsigned long) viff_info.y_bits_per_pixel);
(void) WriteBlobMSBLong(image,viff_info.location_type);
(void) WriteBlobMSBLong(image,viff_info.location_dimension);
(void) WriteBlobMSBLong(image,viff_info.number_of_images);
(void) WriteBlobMSBLong(image,viff_info.number_data_bands);
(void) WriteBlobMSBLong(image,viff_info.data_storage_type);
(void) WriteBlobMSBLong(image,viff_info.data_encode_scheme);
(void) WriteBlobMSBLong(image,viff_info.map_scheme);
(void) WriteBlobMSBLong(image,viff_info.map_storage_type);
(void) WriteBlobMSBLong(image,viff_info.map_rows);
(void) WriteBlobMSBLong(image,viff_info.map_columns);
(void) WriteBlobMSBLong(image,viff_info.map_subrows);
(void) WriteBlobMSBLong(image,viff_info.map_enable);
(void) WriteBlobMSBLong(image,viff_info.maps_per_cycle);
(void) WriteBlobMSBLong(image,viff_info.color_space_model);
for (i=0; i < 420; i++)
(void) WriteBlobByte(image,'\0');
/*
Convert MIFF to VIFF raster pixels.
*/
viff_pixels=(unsigned char *) AcquireQuantumMemory((size_t) packets,
sizeof(*viff_pixels));
if (viff_pixels == (unsigned char *) NULL)
ThrowWriterException(ResourceLimitError,"MemoryAllocationFailed");
q=viff_pixels;
if (image->storage_class == DirectClass)
{
/*
Convert DirectClass packet to VIFF RGB pixel.
*/
number_pixels=(MagickSizeType) image->columns*image->rows;
for (y=0; y < (long) image->rows; y++)
{
p=AcquireImagePixels(image,0,y,image->columns,1,&image->exception);
if (p == (const PixelPacket *) NULL)
break;
for (x=0; x < (long) image->columns; x++)
{
*q=ScaleQuantumToChar(p->red);
*(q+number_pixels)=ScaleQuantumToChar(p->green);
*(q+number_pixels*2)=ScaleQuantumToChar(p->blue);
if (image->matte != MagickFalse)
*(q+number_pixels*3)=ScaleQuantumToChar((Quantum)
(QuantumRange-p->opacity));
p++;
q++;
}
if (image->previous == (Image *) NULL)
if ((image->progress_monitor != (MagickProgressMonitor) NULL) &&
(QuantumTick(y,image->rows) != MagickFalse))
{
status=image->progress_monitor(SaveImageTag,y,image->rows,
image->client_data);
if (status == MagickFalse)
break;
}
}
}
else
if (IsGrayImage(image,&image->exception) == MagickFalse)
{
unsigned char
*viff_colormap;
/*
Dump colormap to file.
*/
viff_colormap=(unsigned char *) AcquireQuantumMemory(image->colors,
3*sizeof(*viff_colormap));
if (viff_colormap == (unsigned char *) NULL)
ThrowWriterException(ResourceLimitError,"MemoryAllocationFailed");
q=viff_colormap;
for (i=0; i < (long) image->colors; i++)
*q++=ScaleQuantumToChar(image->colormap[i].red);
for (i=0; i < (long) image->colors; i++)
*q++=ScaleQuantumToChar(image->colormap[i].green);
for (i=0; i < (long) image->colors; i++)
*q++=ScaleQuantumToChar(image->colormap[i].blue);
(void) WriteBlob(image,3*image->colors,viff_colormap);
viff_colormap=(unsigned char *) RelinquishMagickMemory(viff_colormap);
/*
Convert PseudoClass packet to VIFF colormapped pixels.
*/
q=viff_pixels;
for (y=0; y < (long) image->rows; y++)
{
p=AcquireImagePixels(image,0,y,image->columns,1,&image->exception);
if (p == (const PixelPacket *) NULL)
break;
indexes=GetIndexes(image);
for (x=0; x < (long) image->columns; x++)
*q++=(unsigned char) indexes[x];
if (image->previous == (Image *) NULL)
if ((image->progress_monitor != (MagickProgressMonitor) NULL) &&
(QuantumTick(y,image->rows) != MagickFalse))
{
status=image->progress_monitor(SaveImageTag,y,image->rows,
image->client_data);
if (status == MagickFalse)
break;
}
}
}
else
if (image->colors <= 2)
{
long
x,
y;
register unsigned char
bit,
byte;
/*
Convert PseudoClass image to a VIFF monochrome image.
*/
(void) SetImageType(image,BilevelType);
for (y=0; y < (long) image->rows; y++)
{
p=AcquireImagePixels(image,0,y,image->columns,1,
&image->exception);
if (p == (const PixelPacket *) NULL)
break;
indexes=GetIndexes(image);
bit=0;
byte=0;
for (x=0; x < (long) image->columns; x++)
{
byte>>=1;
if (PixelIntensity(p) < ((MagickRealType) QuantumRange/2.0))
byte|=0x80;
bit++;
if (bit == 8)
{
*q++=byte;
bit=0;
byte=0;
}
}
if (bit != 0)
*q++=byte >> (8-bit);
if (image->previous == (Image *) NULL)
if ((image->progress_monitor != (MagickProgressMonitor) NULL) &&
(QuantumTick(y,image->rows) != MagickFalse))
{
status=image->progress_monitor(SaveImageTag,y,image->rows,
image->client_data);
if (status == MagickFalse)
break;
}
}
}
else
{
/*
Convert PseudoClass packet to VIFF grayscale pixel.
*/
for (y=0; y < (long) image->rows; y++)
{
p=AcquireImagePixels(image,0,y,image->columns,1,
&image->exception);
if (p == (const PixelPacket *) NULL)
break;
for (x=0; x < (long) image->columns; x++)
{
*q++=(unsigned char) PixelIntensityToQuantum(p);
p++;
}
if (image->previous == (Image *) NULL)
if ((image->progress_monitor != (MagickProgressMonitor) NULL) &&
(QuantumTick(y,image->rows) != MagickFalse))
{
status=image->progress_monitor(SaveImageTag,y,image->rows,
image->client_data);
if (status == MagickFalse)
break;
}
}
}
(void) WriteBlob(image,(size_t) packets,viff_pixels);
viff_pixels=(unsigned char *) RelinquishMagickMemory(viff_pixels);
if (GetNextImageInList(image) == (Image *) NULL)
break;
image=SyncNextImageInList(image);
if (image->progress_monitor != (MagickProgressMonitor) NULL)
{
status=image->progress_monitor(SaveImagesTag,scene,
GetImageListLength(image),image->client_data);
if (status == MagickFalse)
break;
}
scene++;
} while (image_info->adjoin != MagickFalse);
CloseBlob(image);
return(MagickTrue);
}
|
