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+\
+.\" This man page was generated by the Netpbm tool 'makeman' from HTML source.
+.\" Do not hand-hack it! If you have bug fixes or improvements, please find
+.\" the corresponding HTML page on the Netpbm website, generate a patch
+.\" against that, and send it to the Netpbm maintainer.
+.TH "PAM format specification" 5 "27 November 2013" "netpbm documentation"
+
+.SH NAME
+pam - Netpbm common 2-dimensional bitmap format
+
+.UN general
+.SH GENERAL
+.PP
+The PAM image format is a lowest common denominator 2 dimensional map
+format.
+.PP
+It is designed to be used for any of myriad kinds of graphics, but can
+theoretically be used for any kind of data that is arranged as a two
+dimensional rectangular array. Actually, from another perspective it
+can be seen as a format for data arranged as a three dimensional
+array.
+.PP
+The name "PAM" is an acronym derived from "Portable
+Arbitrary Map." This derivation makes more sense if you consider
+it in the context of the other Netpbm format names: PBM, PGM, and PPM.
+.PP
+This format does not define the meaning of the data at any particular
+point in the array. It could be red, green, and blue light
+intensities such that the array represents a visual image, or it could
+be the same red, green, and blue components plus a transparency
+component, or it could contain annual rainfalls for places on the
+surface of the Earth. Any process that uses the PAM format must
+further define the format to specify the meanings of the data.
+.PP
+A PAM image describes a two dimensional grid of tuples. The tuples are
+arranged in rows and columns. The width of the image is the number of
+columns. The height of the image is the number of rows. All rows are the
+same width and all columns are the same height. The tuples may have any
+degree, but all tuples have the same degree. The degree of the tuples is
+called the depth of the image. Each member of a tuple is called a sample. A
+sample is an unsigned integer which represents a locus along a scale which
+starts at zero and ends at a certain maximum value called the maxval. The
+maxval is the same for every sample in the image. The two dimensional array
+of all the Nth samples of each tuple is called the Nth plane or Nth channel of
+the image.
+.PP
+Though the basic format does not assign any meaning to the tuple values, it
+does include an optional string that describes that meaning. The
+contents of this string, called the tuple type, are arbitrary from the
+point of view of the basic PAM format, but users of the format may assign
+meaning to it by convention so they can identify their particular
+implementations of the PAM format. Some tuple types are defined as
+official subformats of PAM. See
+.UR #tupletype
+Defined Tuple Types
+.UE
+\&.
+
+.UN format_universe
+.SH The Confusing Universe of Netpbm Formats
+.PP
+It is easy to get confused about the relationship between the PAM
+format and PBM, PGM, PPM, and PNM. Here is a little enlightenment:
+.PP
+"PNM" is not really a format. It is a shorthand for the PBM, PGM,
+and PPM formats collectively. It is also the name of a group of
+library functions that can each handle all three of those formats.
+.PP
+"PAM" is in fact a fourth format. But it is so general
+that you can represent the same information in a PAM image as you can
+in a PBM, PGM, or PPM image. And in fact a program that is designed
+to read PBM, PGM, or PPM and does so with a recent version of the
+Netpbm library, will read an equivalent PAM image just fine and the
+program will never know the difference.
+.PP
+To confuse things more, there is a collection of library routines
+called the "pam" functions that read and write the PAM
+format, but also read and write the PBM, PGM, and PPM formats. They
+do this because the latter formats are much older and more popular, so
+even a new program must work with them. Having the library handle all
+the formats makes it convenient to write programs that use the newer
+PAM format as well.
+
+.UN layout
+.SH THE LAYOUT
+.PP
+A convenient way to read and write the PAM format accurately is via the
+.BR "libnetpbm" (3)\c
+\& C subroutine library.
+.PP
+A PAM file consists of a sequence of one or more PAM images. There are
+no data, delimiters, or padding before, after, or between images.
+.PP
+Each PAM image consists of a header followed immediately by a raster.
+.PP
+Here is an example header:
+
+.nf
+\f(CW
+P7
+WIDTH 227
+HEIGHT 149
+DEPTH 3
+MAXVAL 255
+TUPLTYPE RGB
+ENDHDR
+\fP
+.fi
+.PP
+The header begins with the ASCII characters "P7" followed
+by newline. This is the magic number.
+.PP
+Note: \fBxv\fP thumbnail images also start with the "P7" magic number.
+(This and PAM were independent extensions to the Netpbm formats). The rest
+of the format makes it easy to distinguish PAM from that format, though).
+.PP
+The header continues with an arbitrary number of lines of ASCII
+text. Each line ends with and is delimited by a newline character.
+.PP
+Each header line consists of zero or more whitespace-delimited
+tokens or begins with "#". If it begins with "#"
+it is a comment and the rest of this specification does not apply to
+it.
+.PP
+A header line which has zero tokens is valid but has no meaning.
+.PP
+The type of header line is identified by its first token, which is
+8 characters or less:
+
+
+.TP
+\fBENDHDR \fP
+This is the last line in the header. The header must contain
+exactly one of these header lines.
+
+.TP
+\fBHEIGHT \fP
+The second token is a decimal number representing the height
+of the image (number of rows). The header must contain exactly one
+of these header lines.
+
+.TP
+\fBWIDTH\fP
+The second token is a decimal number representing the width of the
+image (number of columns). The header must contain exactly one of
+these header lines.
+
+.TP
+\fBDEPTH\fP
+The second token is a decimal number representing the depth of the
+image (number of planes or channels). The header must contain exactly
+one of these header lines.
+
+.TP
+\fBMAXVAL\fP
+The second token is a decimal number representing the maxval of the image.
+The header must contain exactly one of these header lines.
+
+.TP
+\fBTUPLTYPE\fP
+The header may contain any number of these header lines, including
+zero. The rest of the line is part of the tuple type. The rest of
+the line is not tokenized, but the tuple type does not include any
+white space immediately following \fBTUPLTYPE \fP or at the very end
+of the line. It does not include a newline. There must be something
+other than white space after the \fBTUPLTYPE\fP token.
+.sp
+If there are multiple \fBTUPLTYPE\fP header lines, the tuple type
+is the concatenation of the values from each of them, separated by a
+single blank, in the order in which they appear in the header. If
+there are no \fBTUPLTYPE\fP header lines the tuple type is the null
+string.
+
+
+.PP
+The raster consists of each row of the image, in order from top to bottom,
+consecutive with no delimiter of any kind between, before, or after, rows.
+.PP
+Each row consists of every tuple in the row, in order from left to
+right, consecutive with no delimiter of any kind between, before, or
+after, tuples.
+.PP
+Each tuple consists of every sample in the tuple, in order,
+consecutive with no delimiter of any kind between, before, or after,
+samples.
+.PP
+Each sample consists of an unsigned integer in pure binary format,
+with the most significant byte first. The number of bytes is the
+minimum number of bytes required to represent the maxval of the image.
+.PP
+The character referred to as "newline" herein is the
+character known in ASCII as Line Feed or LF.
+
+.UN limitations
+.SH LIMITATIONS
+.PP
+Height, width, depth, and maxval are at least 1.
+.PP
+Height, width, and depth have no defined maximum, but processors and
+generators of images usually have their own limitations.
+.PP
+The maxval of an image is never greater than 65535. (The reason it is
+limited is to make it easier to build an image processor, in which
+intermediate arithmetic values often have to fit within 31 or 32 bits).
+There was no specified limitation before October, 2005, but essentially
+all implementations have always observed it.
+
+.UN tupletype
+.SH DEFINED TUPLE TYPES
+.PP
+Some tuple types are defined in this specification to specify
+official subformats of PAM for especially popular applications of the
+format. Users of the format may also define their own tuple types,
+and thus their own subformats.
+
+.UN visual
+.SS PAM Used For Visual Images
+.PP
+A common use of PAM images is to represent visual images such
+as are typically represented by images in the older and more concrete
+PBM, PGM, and PPM formats.
+
+.B Black And White
+.PP
+A black and white image, such as would alternatively be represented by a
+PBM image, has a tuple type of "BLACKANDWHITE". Such a PAM image has a depth
+of 1 and maxval 1 where the one sample in each tuple is 0 to represent a black
+pixel and 1 to represent a white one. The height, width, and raster bear the
+obvious relationship to those of the equivalent PBM image.
+.PP
+Note that in the PBM format, a zero value means white, but in PAM,
+zero means black.
+
+.B Grayscale
+.PP
+A grayscale image, such as would alternativelybe represented by a PGM
+image, has a tuple type of "GRAYSCALE". Such a PAM image has a depth of 1.
+The maxval, height, width, and raster bear the obvious relationship to those
+of the equivalent PGM image.
+
+.B Color
+.PP
+A color image, such as would alternatively be represented by a PPM image,
+has a typle type of "RGB". Such a PAM image has a depth of 3. The maxval,
+height, width, and raster bear the obvious relationship to those of the PPM
+image. The first plane represents red, the second green, and the third blue.
+
+.B Transparent
+.PP
+Each of the visual image formats mentioned above has a variation that
+contains transparency information. In that variation, the tuple type
+has "_ALPHA" added to it (e.g. "RGB_ALPHA") and one
+more plane. The highest numbered plane is the opacity plane (sometimes
+called an transparency plane or transparency plane).
+.PP
+In this kind of image, the color represented by a pixel is actually
+a combination of an explicitly specified foreground color and a background
+color to be identified later.
+.PP
+The planes other than the opacity plane describe the foreground
+color. A sample in the opacity plane tells how opaque the pixel is, by
+telling what fraction of the pixel's light comes from the foreground
+color. The rest of the pixel's light comes from the (unspecified)
+background color.
+.PP
+For example, in a GRAYSCALE_ALPHA image, assume Plane 0 indicates
+a gray tone 60% of white and Plane 1 indicates opacity 25%. The
+foreground color is the 60% gray, and 25% of that contributes to the
+ultimate color of the pixel. The other 75% comes from some background
+color. So let's assume further that the background color of the pixel
+is full white. Then the color of the pixel is 90% of white: 25% of
+the foreground 60%, plus 75% of the background 100%.
+.PP
+The sample value is the opacity fraction just described, as a fraction
+of the maxval. Note that it is \fInot\fP gamma-adjusted like the
+foreground color samples.
+
+
+.UN internetmediatype
+.SH INTERNET MEDIA TYPE
+.PP
+No Internet Media Type (aka MIME type, content type) for PBM has been
+registered with IANA, but the unofficial value
+\f(CWimage/x-portable-arbitrarymap\fP is assigned by this specification, to
+be consistent with conventional values for the older Netpbm formats.
+
+.UN filename
+.SH FILE NAME
+.PP
+The conventional suffix for the name of a PAM file is ".pam".
+But this is not required.
+
+
+.UN seealso
+.SH SEE ALSO
+.BR "Netpbm" (1)\c
+\&,
+.BR "pbm" (5)\c
+\&,
+.BR "pgm" (5)\c
+\&,
+.BR "ppm" (5)\c
+\&,
+.BR "pnm" (5)\c
+\&,
+.BR "libnetpbm" (3)\c
+\&
+.SH DOCUMENT SOURCE
+This manual page was generated by the Netpbm tool 'makeman' from HTML
+source. The master documentation is at
+.IP
+.B http://netpbm.sourceforge.net/doc/pam.html
+.PP \ No newline at end of file