BMP Suite Image List

For BMP Suite version 2.3

This document describes the images in BMP Suite, and shows what I allege to be the correct way to interpret them. PNG and JPEG images are used for reference.

It also shows how your web browser displays the BMP images, but that’s not its main purpose. BMP is poor image format to use on web pages, so a web browser’s level of support for it is arguably not important.

File Ver. Correct display In your browser Notes
g/pal1.bmp 3 1 bit/pixel paletted image, in which black is the first color in the palette.
g/pal1wb.bmp 3 1 bit/pixel paletted image, in which white is the first color in the palette.
g/pal1bg.bmp 3 1 bit/pixel paletted image, with colors other than black and white.
q/pal1p1.bmp 3 1 bit/pixel paletted image, with only one color in the palette. The documentation says that 1-bpp images have a palette size of 2 (not “up to 2”), but it would be silly for a viewer not to support a size of 1.
q/pal2.bmp 3 A paletted image with 2 bits/pixel. Usually only 1, 4, and 8 are allowed, but 2 is legal on Windows CE.
g/pal4.bmp 3 Paletted image with 12 palette colors, and 4 bits/pixel.
g/pal4rle.bmp 3 4-bit image that uses RLE compression.
q/pal4rletrns.bmp 3
or

or
An RLE-compressed image that used “delta” codes to skip over some pixels, leaving them undefined. Some viewers make undefined pixels transparent, others make them black, and others assign them palette color 0 (purple, in this case).
g/pal8.bmp 3 Our standard paletted image, with 252 palette colors, and 8 bits/pixel.
g/pal8-0.bmp 3 Every field that can be set to 0 is set to 0: pixels/meter=0; colors used=0 (meaning the default 256); size-of-image=0.
g/pal8rle.bmp 3 8-bit image that uses RLE compression.
q/pal8rletrns.bmp 3
or

or
8-bit version of q/pal4rletrns.bmp.
g/pal8w126.bmp 3 Images with different widths and heights. In BMP format, rows are padded to a multiple of four bytes, so we test all four possibilities.
g/pal8w125.bmp 3
g/pal8w124.bmp 3
g/pal8topdown.bmp 3 BMP images are normally stored from the bottom up, but there is a way to store them from the top down.
q/pal8offs.bmp 3 A file with some unused bytes between the palette and the image. This is probably valid, but I’m not 100% sure.
q/pal8oversizepal.bmp 3 An 8-bit image with 300 palette colors. This may be invalid, because the documentation could be interpreted to imply that 8-bit images aren’t allowed to have more than 256 colors.
g/pal8nonsquare.bmp 3
or
An image with non-square pixels: the X pixels/meter is twice the Y pixels/meter. Image editors can be expected to leave the image “squashed”; image viewers should consider stretching it to its correct proportions.
g/pal8os2.bmp OS/2v1 An OS/2-style bitmap.
q/pal8os2sp.bmp OS/2v1 An OS/2v1 with a less-than-full-sized palette. Probably not valid, but such files have been seen in the wild.
q/pal8os2v2.bmp OS/2v2 My attempt to make an OS/2v2 bitmap.
q/pal8os2v2-16.bmp OS/2v2 An OS/2v2 bitmap whose header has only 16 bytes, instead of the full 64.
g/pal8v4.bmp 4 A v4 bitmap. I’m not sure that the gamma and chromaticity values in this file are sensible, because I can’t find any detailed documentation of them.
g/pal8v5.bmp 5 A v5 bitmap. Version 5 has additional colorspace options over v4, so it is easier to create, and ought to be more portable.
g/rgb16.bmp 3 A 16-bit image with the default color format: 5 bits each for red, green, and blue, and 1 unused bit. The whitest colors should (I assume) be displayed as pure white: (255,255,255), not (248,248,248).
g/rgb16-565.bmp 3 A 16-bit image with a BITFIELDS segment indicating 5 red, 6 green, and 5 blue bits. This is a standard 16-bit format, even supported by old versions of Windows that don’t support any other non-default 16-bit formats. The whitest colors should be displayed as pure white: (255,255,255), not (248,252,248).
g/rgb16-565pal.bmp 3 A 16-bit image with both a BITFIELDS segment and a palette.
q/rgb16-231.bmp 3 An unusual and silly 16-bit image, with 2 red bits, 3 green bits, and 1 blue bit. Most viewers do support this image, but the colors may be darkened with a yellow-green shadow. That’s because they’re doing simple bit-shifting (possibly including one round of bit replication), instead of proper scaling.
q/rgba16-4444.bmp 5 A 16-bit image with an alpha channel. There are 4 bits for each color channel, and 4 bits for the alpha channel. It’s not clear if this is valid, but I can’t find anything that suggests it isn’t.
g/rgb24.bmp 3 A perfectly ordinary 24-bit (truecolor) image.
g/rgb24pal.bmp 3 A 24-bit image, with a palette containing 256 colors. There is little if any reason for a truecolor image to contain a palette, but it is legal.
q/rgb24largepal.bmp 3 A 24-bit image, with a palette containing 300 colors. The fact that the palette has more than 256 colors may cause some viewers to complain, but the documentation does not mention a size limit.
q/rgb24prof.bmp 5 My attempt to make a BMP file with an embedded color profile.
q/rgb24lprof.bmp 5 My attempt to make a BMP file with a linked color profile.
q/rgb24jpeg.bmp 5 My attempt to make BMP files with embedded JPEG and PNG images. These are not likely to be supported by much of anything (they’re intended for printers).
q/rgb24png.bmp 5
g/rgb32.bmp 3 A 32-bit image using the default color format for 32-bit images (no BITFIELDS segment). There are 8 bits per color channel, and 8 unused bits. The unused bits are set to 0.
g/rgb32bf.bmp 3 A 32-bit image with a BITFIELDS segment. As usual, there are 8 bits per color channel, and 8 unused bits. But the color channels are in an unusual order, so the viewer must read the BITFIELDS, and not just guess.
q/rgb32fakealpha.bmp 3
or
Same as g/rgb32.bmp, except that the unused bits are set to something other than 0. If the image becomes transparent toward the bottom, it probably means the viewer uses heuristics to guess whether the undefined data represents transparency.
q/rgb32-111110.bmp 3 A 32 bits/pixel image, with all 32 bits used: 11 each for red and green, and 10 for blue. As far as I know, this is perfectly valid, but it is unusual.
q/rgba32.bmp 5 A BMP with an alpha channel. Transparency is barely documented, so it’s possible that this file is not correctly formed. The color channels are in an unusual order, to prevent viewers from passing this test by making a lucky guess.
q/rgba32abf.bmp 3 An image of type BI_ALHPABITFIELDS. Supposedly, this was used on Windows CE. I don’t know whether it is constructed correctly.
b/badbitcount.bmp 3 N/A Header indicates an absurdly large number of bits/pixel.
b/badbitssize.bmp 3 N/A Header incorrectly indicates that the bitmap is several GB in size.
b/baddens1.bmp 3 N/A Density (pixels per meter) suggests the image is much larger in one dimension than the other.
b/baddens2.bmp 3 N/A
b/badfilesize.bmp 3 N/A Header incorrectly indicates that the file is several GB in size.
b/badheadersize.bmp ? N/A Header size is 66 bytes, which is not a valid size for any known BMP version.
b/badpalettesize.bmp 3 N/A Header incorrectly indicates that the palette contains an absurdly large number of colors.
b/badplanes.bmp 3 N/A The “planes” setting, which is required to be 1, is not 1.
b/badrle.bmp 3 N/A An invalid RLE-compressed image that tries to cause buffer overruns.
b/badwidth.bmp 3 N/A The image claims to be a negative number of pixels in width.
b/pal8badindex.bmp 3 N/A Many of the palette indices used in the image are not present in the palette.
b/reallybig.bmp 3 N/A An image with a very large reported width and height.
b/rletopdown.bmp 3 N/A An RLE-compressed image that tries to use top-down orientation, which isn’t allowed.
b/shortfile.bmp 3 N/A A file that has been truncated in the middle of the bitmap.