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Xara X. Chapter 16 — Bitmap Formats

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Xara can import and export a in a variety of bitmap formats, including some your editor has never heard of (.301 Brook Trout? What—does it have scales instead of pixels?) as you can see in the table below.

TIP: If you receive a file with no extension (probably from a Mac person) and don't know what kind of file it is, Import it using the generic "Bitmaps" Files of Type: option. Xara is about the only application I know of in which you can do this. Xara will try to determine the type of file format and in most cases will open the file with no questions asked and a minimum of fuss.

He is a list of the bitmap Import and Export formats supported by Xara.

BITMAP IMPORT FILE FORMATS

 

BITMAP EXPORT FILE FORMATS

  • .301 Brook Trout

     

  • .BMP Windows Bitmap
  • BMP Windows Bitmap
  • .CAL CALS (2 color)

 

  • .CUT Halo CUT (256 color)

 

  • .DCX DCX
  • .DCX DCX
  • .GIF CompuServe
    Graphics Interchange Format
  • .GIF CompuServe GIF
  • .GIF Animated GIF files
  • .GX2 Storyboard

 

  • .ICA IOCA (2 color)

 

  • .ICO Microsoft Windows Icon
    (16 color)

 

  • .IFF Amiga IFF

 

  • .IMG IMG (16 color)

 

  • .JPG JPEG
  • .JPG JPEG
  • .KFX KOFAX

 

  • .LV LaserView (2 color)

 

  • .MAC MacPaint (2 color)

 

  • .MSP Microsoft Paint (2 color)

 

  • .PCD kODAK PhotoCD

 

  • .PCT Macintosh PICT
  • .PCT Macintosh PICT
  • .PCX PCX PC Paintbrush
  • .PCX PCX
  • .PBM UNIX monochrome

 

  • .PGM UNIX grayscale

 

  • .PNG PNG
  • .PNG PNG
  • .PPM UNIX color (up to 24 bit)

 

  • .PSD Photoshop

 

  • .RAS Sun Raster
  • .RAS Sun Raster
  • .TGA TrueVision TARGA
  • .TGA TrueVision TARGA
  • .TIF TIFF (RGB, RGBA with alpha-channel transparency & CMYK)
  • .TIF TIFF (RGB)
  • .WPG Word Perfect Group (256 color)
  • .WPG Word Perfect Group (256 color)
  • .XBM X Windows (2 color)

 

  • .XPM X Windows (256 color)

 

I'm really curious about this file format .301 Brook Trout. Does anybody know what application creates this? I will award a free copy of the MOOK 2 , a Japanese publication featuring 11 of your editor's stereogram images that just hit the news stands in Japan, to the first person to enlighten your editor. Use the form on Page 7 to send me the deets (details).

As we learned last month, bitmaps are comprised of tiny squares called pixels (an abbreviation for picture elements). Each pixel can be only one color and that color will be chosen from a palette of colors determined by the color depth of the image. (1 color, 2 colors, 16 colors, 256 colors, 16.7 million colors).

So, if bitmaps are this simple, then why are there so many different file formats? I thought you'd never ask.

Well, different file formats are required for different tasks. Some applications such as Photoshop, have their own proprietary file formats designed to take full advantage of the features offered by the host application. There are three common file formats we use for Web images, GIF, PNG, and JPEG. These formats were developed specifically for freely exchanging RGB images between platforms and software applications. These formats are not really designed to be edited, and each time they are, some data may be lost. This is especially true of GIF and compressed JPEG images. PNG images are a newer file format that allow for a variety of uses.

Two common file formats designed for bitmap editing, and formats that retain most of the image information, are TIFF and PSD (Photoshop's native file format). Each bitmap creation and editing application has it's own native file format as well, such as Corel Photo-Paint's CPT file format.

TIFF and PSD file formats are designed to maintain more image information even even though the images may have been resized. So an image that is 600 x 400 pixels can be reduced to 150 x 100 pixels, and then enlarged back to 300 x 200 pixels and, in theory, should retain more of the image information than a compressed file such as JPEG and GIF.

GIF, and JPEG files (when compression is used), toss out the non-visible pixels when an image is reduced, and enlarging the image after reduction will generally result in a noticeable degradation of the image.

NOTE: When you resize an image in Xara, Xara retains the original image information, and thus if you scale an image down to 50% and then scale it back 200% to its original size, the image should look identical to what it looked like before it was scaled.

The images on the left have been exported to the file formats shown and then imported into Xara and saved as one JPEG image. Even though the images look pretty similar, when we examine Jack's right eye at 400% magnification we can see some differences.

The JPEG image looks particularly bad and there is some characteristic color bleeding. The other three images look pretty OK. But notice the file sizes. Because the GIF and JPEG are only concerned with the visible pixels, they are able to offer higher image compression and a much smaller file size.

The four images have been exported as a JPEG image at 80% compression and so do not completely represent the way the actual image would look. The GIF , for example only contain 256 colors maximum and is a little less smooth.