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This program is part of Netpbm.
pngtopam reads a PNG image (Portable Network Graphics) as input and produces a Netpbm image as output. The type of the output file depends on the input file - if it's black & white, pngtopam creates a PBM file. If it's grayscale, pngtopam creates a PGM file. Otherwise, it creates a PPM file. Except that with the -alphapam option, it always creates a PAM file. That file has tuple type GRAYSCALE_ALPHA or RGB_ALPHA depending on whether the input has color or not.
To convert in the other direction, use pamtopng or pnmtopng. The former is the more modern of the two and can recognize transparency information in a PAM file, as you might generate with pngtopam -alphapam. It has existed only since June 2015. The latter has more features, but probably not ones that matter in the modern world.
If you want even more information about the PNG image, use pngcheck (not part of Netpbm).
You can specify only one of -alphapam, -alpha, and -mix. With none of them, pngtopam produces an image of the foreground of the input image and discards transparency information.
This option was new in Netpbm 10.44 (September 2008).
pngtopam discards the main image (the foreground).
You can specify only one of -alphapam, -alpha, and -mix. With none of them, pngtopam produces an image of the foreground of the input image and discards transparency information.
You can specify only one of -alphapam, -alpha, and -mix. With none of them, pngtopam produces an image of the foreground of the input image and discards transparency information.
color is as described for the argument of the ppm_parsecolor() library routine.
Examples:
If you don't specify -background, the background color is what is specified in the PNG image, and if the PNG doesn't specify anything, white.
You cannot specify -background unless you also specify -mix. Before Netpbm 10.27 (March 2005), you could specify -background without -mix and it was just ignored. (This caused a usability problem).
But when you do specify -gamma, you get a rather strange additional function, probably a historical mistake: pngtopam incorporates the specified screen gamma value into the output pixels, so that the samples in the Netpbm output deviate from the Netpbm format specifications and are appropriate raw intensity values to send to the display. This function essentially just exercises the ability of the PNG library to make gamma corrections to the pixels as it reads them from the PNG file to produce values appropriate for sending to a certain display in certain viewing conditions. It's a strange function because it has nothing to do with PNG and because in Netpbm, the normal way to make gamma corrections appropriate for sending to a ceratin display in certain viewing conditions is with the program pngtopam, applied to the normal output of pngtopam.
If you specify -gamma, but the PNG image does not specify what gamma transformation it uses (there is no gAMA chunk), pngtopam assumes a simple power transformation with an image gamma of 1.0. That is probably not not the actual image gamma; it is much more likely to be .45.
Because the gammas of uncompensated monitors are around 2.6, which results in an image-gamma of 0.45, some typical situations are: when the image-gamma is 0.45 (use -verbose to check) and the picture is too light, your system is gamma-corrected, so convert with "-gamma 1.0". When no gAMA chunk is present or the image-gamma is 1.0, use 2.2 to make the picture lighter and 0.45 to make the picture darker.
One oddity to be aware of when using -gamma on an image with transparency: The PNG image specifies that a certain color is transparent, i.e. every pixel in the image of that color is transparent. But pngtopam interprets this as applying to the gamma-corrected space, and there may be less precision in that space than in the original, which means multiple uncorrected colors map to the same corrected color. So imagine that the image contains 3 shades of white (gray) and specifies that one of them is transparent. After gamma correction, those three shades are indistinguishable, so pngtopam considers pixels of all three shades to be transparent.
pngtopam has two ways to do the conversion from PNG to PAM, using respectively two facilities of the PNG library:
Whole Image is generally preferable because the PNG library does more of the work, which means it understands more of the PNG format possibilities now and in the future. Also, if the PNG is interlaced, pngtopam does not know how to assemble the rows in the right order.
Row By Row uses far less memory, which means with large images, it can run in environments where Whole Image cannot and may also run faster. And because Netpbm code does more of the work, it's possible that it can be more flexible or at least give better diagnostic information if there's something wrong with the PNG.
The Netpbm native code may do something correctly that the PNG library does incorrectly, or vice versa.
In Netpbm, we stress function over performance, so by default pngtopam uses Whole Image. You can select Row By Row with -byrow if you want the speed or resource requirement improvement.
-byrow was new in Netpbm 10.54 (March 2011).
The common orientation is the same on the Netpbm formats use, so tifftopnm can do its jobs quite efficiently when the TIFF raster is oriented that way.
But if the TIFF raster is oriented any other way, it can take a considerable amount of processing for tifftopnm to convert it to Netpbm format.
For information on the PNG format, see http://schaik.com/png.
A PNG image contains a lot of information that can't be represented in Netpbm formats. Therefore, you lose information when you convert to another format with "pngtopam | pnmtoxxx". If there is a specialized converter that converts directly to the other format, e.g. ptot to convert from PNG to TIFF, you'll get better results using that.
There could be an option to include PNG comment chunks in the output image as PNM comments instead of putting them in a separate file.
The program could be much faster, with a bit of code optimizing. As with any Netpbm program, speed always takes a back seat to quick present and future development.
pngtopam was new in Netpbm 10.44, as a replacement for pngtopnm. The main improvement over pngtopnm was that it could generate a PAM image with a transparency channel, whereas with pngtopnm, you would have to extract the transparency channel as a separate file, in a separate run.
pngtopnm was new in Netpbm 8.1 (March 2000), the first big change to the package in Netpbm's renaissance. It and pnmtopng were simply copied from the pnmtopng package by Greg Roelofs. Those were based on simpler reference applications by Alexander Lehmann <alex@hal.rhein-main.de> and Willem van Schaik <willem@schaik.com> and distributed with their PNG library.
Nearly all of the code has changed since it was copied from the pnmtopng package, most of it just to improve maintainability.