A MIFF image file consist of two sections. The first section is a
header composed of keys describing the image in text form. The
next section is the binary image data. The header is separated from
the image data by a : character immediately followed by a
newline.
The MIFF header is composed entirely of LATIN-1 characters. The fields
in the header are key and value combination in the
key=value format, with each key and value separated by an
equal sign (=). Each key=value combination is delimited by
at least one control or whitespace character. Comments may appear in
the header section and are always delimited by braces. The MIFF header
always ends with a colon (:) character, followed by a ctrl-Z
character. It is also common to proceed the colon with a formfeed
and a newline character. The formfeed prevents the listing
of binary data when using more(1) under Unix where the ctrl-Z
has the same effect with the type command on the Win32 command line.
The following is a list of key=value combinations that may be
found in a MIFF file:
background-color=color
border-color=colormatte-color=color
these optional keys reflects the image background, border, and matte
colors respectively. A color can be a name (e.g. white) or a
hex value (e.g. #ccc).
class=DirectClass
class=PseudoClass
the type of binary image data stored in the MIFF file. If
this key is not present, DirectClass image data is assumed.
colors=value
the number of colors in a DirectClass image. For a
PseudoClass image, this key specifies the size of the
colormap. If this key is not present in the header, and the image
is PseudoClass, a linear 256 color grayscale colormap is used
with the image data. The maximum number of colormap entries is 65535.
colorspace=CMYK
the colorspace of the pixel data. The default is RGB.
columns=value
the width of the image in pixels. This is a required key and
has no default.
compression=BZip
compression=Faxcompression=JPEGcompression=LZWcompression=RLEcompression=Zip
the type of algorithm used to compress the image data. If this
key is not present, the image data is assumed to be uncompressed.
delay <1/100ths of a second>
the interframe delay in an image sequence. The maximum delay is 65535.
depth=8
depth=16
the depth of a single color value representing values from 0 to 255
(depth 8) or 65535 (depth 16). If this key is absent, a depth of 8 is
assumed.
dispose value
GIF disposal method.
Here are the valid methods:
0 No disposal specified.
1 Do not dispose between frames.
2 Overwrite frame with background color from header.
3 Overwrite with previous frame.
gamma=value
the gamma of the image. If it is not specified, a gamma of 1.0
(linear brightness response) is assumed,
id=ImageMagick
identifies the file as a MIFF-format image file. This key
is required and has no default. Although this key can appear anywhere
in the header, it should start as the first key of the header in column
1. This will allow programs like file(1) to easily identify the file
as MIFF.
iterations value
the number of times an image sequence loops before stopping.
label={value}
defines a short title or caption for the image. If
any whitespace appears in the label, it must be enclosed within braces.
matte=True
matte=False
specifies whether a DirectClass image has matte data. Matte data
is generally useful for image compositing. This key has no meaning
for pseudo-color images.
size and location of the individual tiles of a composite image. See
X(1) for details about the geometry specification.
Use this key when the image is a composite of a number of different
tiles. A tile consists of an image and optionally a border and a
label. <width> is the size in pixels of each individual tile in
the horizontal direction and <height> is the size in the vertical
direction. Each tile must have an equal number of pixels in width and
equal in height. However, the width can differ from the height. <x
offset> is the offset in number of pixels from the vertical edge of
the composite image where the first tile of a row begins and <y
offset> is the offset from the horizontal edge where the first tile
of a column begins.
If this key is specified, a directory of tile names must follow the
image header. The format of the directory is explained below.
page=value
preferred size and location of an image canvas.
profile-icc=value
the number of bytes in the International Color Consortium color profile.
The profile is defined by the ICC profile specification located at
ftp://sgigate.sgi.com/pub/icc/icc34.ps.
colorspace=RGB
red-primary=x,y
green-primary=x,yblue-primary=x,ywhite-point=x,y
this optional key reflects the chromaticity primaries and white point.
rendering-intent=saturation
rendering-intent=perceptualrendering-intent=absoluterendering-intent=relative
Rendering intent is the CSS-1 property that has been defined by the
International Color Consortium (http://www.color.org).
resolution=<x-resolution>x<y-resolution>
vertical and horizontal resolution of the image. See units
for the specific resolution units (e.g. pixels per inch).
rows=value
the height of the image in pixels. This is a required key
and has no default.
scene=value
the sequence number for this MIFF image file. This optional
key is used when a MIFF image file is one in a sequence of files
used in an animation.
signature=value
this optional key contains a string that uniquely identifies
the image pixel contents. NIST's SHA-256 message digest algorithm is
recommended.
Note that key=value combinations may be separated by newlines or
spaces and may occur in any order within the header. Comments (within
braces) may appear anywhere before the colon.
If you specify the montage key in the header, follow
the header with a directory of image tiles. This directory consists of
a name for each tile of the composite image separated by a
newline character. The list is terminated with a NULL character.
If you specify the color-profile key in the header, follow
the header (or montage directory if the montage key is in the
header) with the binary color profile.
Next comes the binary image data itself. How the image
data is formatted depends upon the class of the image as specified (or
not specified) by the value of the class key in the header.
DirectClass images (class=DirectClass) are continuous-tone, images
stored as RGB (red, green, blue), RGBA (red, green, blue, alpha), or
CMYK (cyan, yellow, magenta, black) intensity values as defined by the
colorspace key. Each intensity value is one byte in length for
images of depth 8 (0..255), whereas, images of depth 16 (0..65535)
require two bytes in most significant byte first order.
PseudoClass images (class=PseudoClass) are colormapped RGB images. The
colormap is stored as a series of red, green, and blue pixel values,
each value being a byte in size. If the image depth is 16, each
colormap entry consumes two bytes with the most significant byte being
first. The number of colormap entries is defined by the colors key.
The colormap data occurs immediately following the header (or image
directory if the montage key is in the header). PseudoClass image
data is an array of index values into the color map. If there are 256
or fewer colors in the image, each byte of image data contains an index
value. If the image contains more than 256 colors or the image depth is
16, the index value is stored as two contiguous bytes with the most
significant byte being first. If matte is true, each
colormap index is followed by a 1 or 2-byte alpha value.
The image data in a MIFF file may be uncompressed, runlength encoded,
Zip compressed, or BZip compressed. The compression key in the
header defines how the image data is compressed. Uncompressed pixels
are just stored one scanline at a time in row order. Runlength encoded
compression counts runs of identical adjacent pixels and stores the
pixels followed by a length byte (the number of identical pixels minus
1). Zip and BZip compression compresses each row of an image and
preceeds the compressed row with the length of compressed pixel bytes
as a word in most significant byte first order.
MIFF files may contain more than one image. Simply concatenate each
individual image (composed of a header and image data) into one file.