Truevision TGA, often referred to as TARGA, is a raster graphics file format created by Truevision (now part of Avid Technology). It was the native format of TARGA and VISTA boards, which were the first graphic cards for IBM PC compatibles to support high color or true color display. This family of graphic cards was intended for professional computer image synthesis; the usual resolutions of TGA image files match those of the NTSC and PAL video formats.

TARGA is an acronym for Truevision Advanced Raster Graphics Adapter; TGA is an initialism for Truevision Graphics Adapter.

TGA files commonly have the extension ".tga" on MS-DOS, Windows, and macOS (older Macintosh systems use the "TPIC" type code). The format itself permits any pixel bit depth up to 255, of which up to 15 bits can be dedicated to an alpha channel; however, the only bit depths supported in practice were 8, 15, 16, 24, and 32, where the 16- and 32-bit formats used 1 and 8 bits respectively for the alpha channel. Color data can be color-mapped, or in direct color or truecolor format. Image data may be stored raw, or optionally, a lossless RLE compression similar to PackBits can be employed. This type of compression performs poorly for typical photographic images, but works acceptably well for simpler images, such as icons, cartoons and line drawings.

History

The TGA file format was originally defined and specified by AT&T EPICenter with feedback from Island Graphics Inc in 1984. AT&T EPICenter was an internal spin-off of AT&T created to market new technologies AT&T had developed for color frame buffers. What later became Truevision was the result of a leveraged employee buyout from AT&T in 1987.

EPICenter's first two cards, the VDA (video display adapter) and ICB (image capture board), used the first incarnations of the TGA file format. The file extensions ".vda" and ".icb" implied information about the board specific data contained.

It was later determined by Alan Wlasuk (then head of EPICenter), Brad Pillow (EPICenter) and Steven Dompier (Island's president) that a more codified file format was needed. The file format was created and implemented by Brad Pillow (EPICenter) and Bryan Hunt (EPICenter) and was developed in response to this need for a less board specific file format. A very simple extension was made to what was already in use, and contained information on width, height, pixel depth, an associated color map and image origin. A label field (up to 255 characters) was also included in the initial spec, but was rarely used.

At the time, another technically superior file format called TIFF also appeared, but its use for true color images was very limited as the implementation and sharing of files between applications supporting the TIFF specification was rather difficult and involved. The TGA file format's simpler nature and portability between platforms is the main reason for its widespread adoption and its continued success in a wide variety of applications worldwide to this day.

Initially the TGA file format was used in the ICB-PAINT and TARGA-PAINT programs (what later became known as TIPS) and for several projects in online real estate browsing and still-frame video teleconferencing.

The current version (2.0) includes several enhancements such as "postage stamps" (better known as thumbnails), an alpha channel, gamma value, and textual metadata, and was authored by Truevision Inc.'s Shawn Steiner with direction from Kevin Friedly and David Spoelstra in 1989.

At the time of its launching, it represented the state of the art in digital image processing. Even today, though its maximum color depth is not well suited for high-end pre-press, intensive image processing systems, TGA is still used extensively throughout the animation and video industry because its primary intended outputs are standard TV screens, not color printed pages.

Uncompressed 24-bit TGA images are relatively simple compared to several other prominent 24-bit storage formats: A 24-bit TGA contains only an 18-byte header followed by the image data as packed RGB data. In contrast, BMP requires padding rows to 4-byte boundaries, while TIFF and PNG are metadata containers that do not place the image data or attributes at a fixed location within the file.

32-bit TGA images contain an alpha channel, or key signal, and are often used in character generator programs such as Avid Deko.

Technical details

All values are little-endian; field and subfield numbers are per Version 2.0 of the specification.

Version 2.0 added the extension area and footer. The developer area exists to store application-specific information.

{| class="wikitable"

|-

! Field no.

! Length

! Field name

! Description

|-

| 1

| 1 byte

| ID length

| Length of the image ID field

|-

| 2

| 1 byte

| Color map type

| Whether a color map is included

|-

| 3

| 1 byte

| Image type

| Compression and color types

|-

| 4

| 5 bytes

| Color map specification

| Describes the color map

|-

| 5

| 10 bytes

| Image specification

| Image dimensions and format

|}

Image ID length (field 1)

0–255

The number of bytes that the image ID field consists of.

The image ID field can contain any information, but it is common for it to contain the date and time the image was created or a serial number.

As of version 2.0 of the TGA spec, the date and time the image was created is catered for in the extension area.

Color map type (field 2)

has the value:

  • 0 if image file contains no color map
  • 1 if present
  • 2–127 reserved by Truevision
  • 128–255 available for developer use

Image type (field 3)

is enumerated in the lower three bits, with the fourth bit as a flag for RLE. Some possible values are:

  • 0 no image data is present
  • 1 uncompressed color-mapped image
  • 2 uncompressed true-color image
  • 3 uncompressed grayscale image
  • 9 run-length encoded color-mapped image
  • 10 run-length encoded true-color image
  • 11 run-length encoded grayscale image
  • 32 huffman-delta-run-length encoded color-mapped image
  • 33 huffman-delta-run-length-4-pass-quadtree-type process encoded color-mapped image

Image type 1 and 9: Depending on the Pixel Depth value, image data representation is an 8, 15, or 16 bit index into a color map that defines the color of the pixel.

Image type 2 and 10: The image data is a direct representation of the pixel color. For a Pixel Depth of 15 and 16 bit, each pixel is stored with 5 bits per color. If the pixel depth is 16 bits, the topmost bit is reserved for transparency. For a pixel depth of 24 bits, each pixel is stored with 8 bits per color. A 32-bit pixel depth defines an additional 8-bit alpha channel.

Image type 3 and 11: The image data is a direct representation of grayscale data. The pixel depth is 8 bits for images of this type.

Color map specification (field 4)

has three subfields:

  • First entry index (2 bytes): index of first color map entry that is included in the file
  • Color map length (2 bytes): number of entries of the color map that are included in the file
  • Color map entry size (1 byte): number of bits per color map entry

In case that not the entire color map is actually used by the image, a non-zero first entry index allows to store only a required part of the color map in the file.

Image specification (field 5)

has six subfields:

  • X-origin (2 bytes): absolute coordinate of lower-left corner for displays where origin is at the lower left
  • Y-origin (2 bytes): as for X-origin
  • Image width (2 bytes): width in pixels
  • Image height (2 bytes): height in pixels
  • Pixel depth (1 byte): bits per pixel
  • Image descriptor (1 byte): bits 3–0 give the alpha channel depth, bits 5–4 give pixel ordering, bits 7-6 data storage interleaving