PPM Format Specification(5) File Formats Manual PPM Format Specification(5)
PPM - Netpbm color image format
This program is part of Netpbm(1)
The PPM format is a lowest common denominator color image file format.
It should be noted that this format is egregiously inefficient. It is highly redundant, while containing a lot of information that the
human eye can't even discern. Furthermore, the format allows very little information about the image besides basic color, which means you
may have to couple a file in this format with other independent information to get any decent use out of it. However, it is very easy to
write and analyze programs to process this format, and that is the point.
It should also be noted that files often conform to this format in every respect except the precise semantics of the sample values. These
files are useful because of the way PPM is used as an intermediary format. They are informally called PPM files, but to be absolutely pre-
cise, you should indicate the variation from true PPM. For example, 'PPM using the red, green, and blue colors that the scanner in ques-
The name "PPM" is an acronym derived from "Portable Pixel Map." Images in this format (or a precursor of it) were once also called "porta-
The format definition is as follows. You can use the libnetpbm(1)
C subroutine library to read and interpret the format conveniently and accurately.
A PPM file consists of a sequence of one or more PPM images. There are no data, delimiters, or padding before, after, or between images.
Each PPM image consists of the following:
o A 'magic number' for identifying the file type. A ppm image's magic number is the two characters 'P6'.
Whitespace (blanks, TABs, CRs, LFs).
A width, formatted as ASCII characters in decimal.
A height, again in ASCII decimal.
The maximum color value (Maxval), again in ASCII decimal. Must be less than 65536 and more than zero.
o A single whitespace character (usually a newline).
o A raster of Height rows, in order from top to bottom. Each row consists of Width pixels, in order from left to right. Each pixel
is a triplet of red, green, and blue samples, in that order. Each sample is represented in pure binary by either 1 or 2 bytes. If
the Maxval is less than 256, it is 1 byte. Otherwise, it is 2 bytes. The most significant byte is first.
A row of an image is horizontal. A column is vertical. The pixels in the image are square and contiguous.
In the raster, the sample values are 'nonlinear.' They are proportional to the intensity of the ITU-R Recommendation BT.709 red,
green, and blue in the pixel, adjusted by the BT.709 gamma transfer function. (That transfer function specifies a gamma number of
2.2 and has a linear section for small intensities). A value of Maxval for all three samples represents CIE D65 white and the most
intense color in the color universe of which the image is part (the color universe is all the colors in all images to which this
image might be compared).
ITU-R Recommendation BT.709 is a renaming of the former CCIR Recommendation 709. When CCIR was absorbed into its parent organiza-
tion, the ITU, ca. 2000, the standard was renamed. This document once referred to the standard as CIE Rec. 709, but it isn't clear
now that CIE ever sponsored such a standard.
Note that another popular color space is the newer sRGB. A common variation on PPM is to substitute this color space for the one
Note that a common variation on the PPM format is to have the sample values be 'linear,' i.e. as specified above except without the
gamma adjustment. pnmgamma takes such a PPM variant as input and produces a true PPM as output.
Strings starting with '#' may be comments, the same as with PBM(1)
Note that you can use pamdepth to convert between a the format with 1 byte per sample and the one with 2 bytes per sample.
There is actually another version of the PPM format that is fairly rare: 'plain' PPM format. The format above, which generally considered
the normal one, is known as the 'raw' PPM format. See pbm(1)
for some commentary on how plain and raw formats relate to one another and how to use them.
The difference in the plain format is:
- There is exactly one image in a file.
- The magic number is P3 instead of P6.
- Each sample in the raster is represented as an ASCII decimal number (of arbitrary size).
- Each sample in the raster has white space before and after it. There must be at least one character of white space between any two
samples, but there is no maximum. There is no particular separation of one pixel from another -- just the required separation
between the blue sample of one pixel from the red sample of the next pixel.
- No line should be longer than 70 characters.
Here is an example of a small image in this format.
0 0 0 0 0 0 0 0 0 15 0 15
0 0 0 0 15 7 0 0 0 0 0 0
0 0 0 0 0 0 0 15 7 0 0 0
15 0 15 0 0 0 0 0 0 0 0 0
There is a newline character at the end of each of these lines.
Programs that read this format should be as lenient as possible, accepting anything that looks remotely like a PPM image.
All characters referred to herein are encoded in ASCII. 'newline' refers the character known in ASCII as Line Feed or LF. A 'white space'
character is space, CR, LF, TAB, VT, or FF (I.e. what the ANSI standard C isspace() function calls white space).
Before April 2000, a raw format PPM file could not have a maxval greater than 255. Hence, it could not have more than one byte per sample.
Old programs may depend on this.
Before July 2000, there could be at most one image in a PPM file. As a result, most tools to process PPM files ignore (and don't read) any
data after the first image.
pnm(1) , pgm(1) , pbm(1) , pam(1) , programsthatprocessPPM(1)
netpbm documentation 03 October 2003 PPM Format Specification(5)