WAD

WAD (which, according to the Doom Bible, is an acronym for "Where's All the Data?" ) is the file format used by Doom and all Doom-engine-based games for storing data. A WAD file consists of a header, a directory, and the data lumps that make up the resources stored within the file. A WAD file can be of two types:


 * IWAD: An "Internal WAD" (or "Initial WAD"), or a core WAD that is loaded automatically (or from a game select menu on source ports) by the engine and generally provides all the data required to run the game.


 * PWAD: A "Patch WAD", or an optional file that replaces data from the IWAD loaded or provides additional data to the engine.

A WAD file can be read and/or edited by many tools, such as WAD editors.

Header
A WAD file always starts with a 12-byte header. It contains three values: All integers are 4 bytes long in x86-style little-endian order. Their values can never exceed 231-1, since Doom reads them as signed ints. For some ports based of the Atari Jaguar code (Playstation derivied ports being the notable exception), big-endian order is used instead.

Directory
The directory associates names of lumps with the data that belong to them. It consists of a number of entries, each with a length of 16 bytes. The length of the directory is determined by the number given in the WAD header. The structure of each entry is as follows:

Tools should not assume the lump-order in the WAD to be sorted by their byte offset into the WAD.

"Virtual" lumps (such as F_START) only exist in the directory, having a size of 0. Their offset value therefore is nonsensical (often 0).

It is possible for more than one lump to have the same offset value, aswell as having offsets that overlap other lump data.

Type of file is not stated in the lump's data.

Typical wad file:

Compression
The Atari Jaguar port introduced a form of LZSS compression for lumps. If the first character of the name has the 0x80 flag set then it is considered to be compressed. The compressed size of the lump is not stored as the compressed stream has a terminating sequence. It should not be assumed that the compressed data is smaller than the uncompressed size since compression is required for some lumps in the console ports. (Likewise some lumps are required to be uncompressed in order to be read directly from cartridge rom.)

The stream has a 12-bit sliding window. The format of the compressed stream is a flag byte followed by 8 chunks. The size of a chunk is determined by the flag byte in least significant bit first order. If the bit is not set then it is a uncompressed byte, otherwise it is a 16-bit offset length pair. The first byte of the pair is the upper 8-bits of the offset. The upper 4-bits of the second byte is the lower 4-bits of the offset. The remaining 4 bits are the length to copy. The offset is from the current output position (or from the end of the sliding window) and may overlap. Length is incremented by 1 so it becomes some value 1-16. If length is 1 then it is the end of the stream.

Lump order
The majority of lumps have no restrictions on where they must be located in WAD files, although there are typically some guidelines to make the file easily readable by other people. For certain lumps, however, the location is crucial.

Map data lumps
A map in Doom is made up of several lumps, each containing specific data required to construct and execute the map. The first lump gives the internal name of the map. In Doom, this had to be in the form ExMy or MAPxx, where x and y could not exceed 4 and 9 respectively (Ultimate Doom), and xx could not exceed 32 (Doom 2/Final Doom). Other than defining the name of the map, the lump is usually empty but can contain data. The DOOM64.WAD file for Doom 64 EX, converted out of the Nintendo 64 ROM content, contains embedded IWADs in MAPxx lumps. In Hexen, they contain version control information; which is not used by the game but was presumably used by Raven Software's editing tools. SMMU introduced using it to store map information and FraggleScript. The level name marks the start of this map. In order to work properly, the following lumps must follow immediately after the the level name:


 * THINGS: A lump listing all the Things present in this map: their X and Y coordinates, starting angles, type and flags. In the Hexen map format, this lump also contains information on Z-height and a thing's TID, special, and arguments. As with all of these lumps, this list will be generated by your level editor and should generally be left alone.


 * LINEDEFS: A list of linedefs, defined by their starting and ending vertices, flags, type, tag, args, and front and back sidedefs (if any). Note: The standard Doom format does not contain args.


 * SIDEDEFS: A list of the sidedefs that are linked to the linedefs. These contain the data for what textures appear where on the side of each line, their X and Y offsets, and what sector this side of the linedef belongs to.


 * VERTEXES: A list of each vertex in the map, using X and Y coordinates.


 * SEGS: A list of line segments called "segs" that connect to form subsectors. Created by a node builder.


 * SSECTORS: A list of subsectors, created by a node builder.


 * NODES: The node tree which Doom uses to speed up the rendering process. Similar to a vismap in modern 3D games (such as Quake 3). Created by a node builder.


 * SECTORS: Defines the floor and ceiling heights and textures, as well as light value, tag, and type of each sector in your map.


 * REJECT: Optionally compiled by the node builder, this lump contains data about which sectors are visible from which other sectors. Originally, Doom used this to optimize the game speed by skipping AI routines for enemies whose target was in a rejected sector. Some modern source ports do not require this lump any more; ZDoom for example has been designed to work even without this lump present. For compatibility purposes, an empty (0-filled) REJECT lump should be included if nothing else. The REJECT lump can also be used to create certain special effects (sectors into which enemies cannot see, for example) if modified carefully.


 * BLOCKMAP: Collision-detection information which determines whether objects in a map are touching.


 * BEHAVIOR: Not originally a part of Doom, the BEHAVIOR lump was first used in Hexen and contains the compiled scripts that this map will use. Vanilla Doom and other ports designed for Doom only will crash when this lump is present because Hexen format levels are not compatible with Doom format levels. This lump must be present for Hexen format levels since it is the only way to tell if a map is in Hexen or Doom format.

Flats, Sprites, and Patches
These three resources must be located between special marker lumps so that Doom knows what it is looking at. Other than defining the beginning and end of a graphics section, these lumps contain no data and are 0 bytes long.

The markers consist of names X_START and X_END, where X is the first 1 or 2 letters of the appropriate resource. For example, sprites should be located between S_START and S_END markers. SS_START and SS_END are usually used for user WAD files.

These markers are required by DOOM:

These markers are found in the official WAD files, but are unused by known DOOM engines:

Patches are not required to have any markers. Some lump management utilities require P_START and P_END.

Miscellaneous
Some lumps are known by their names and apply to the game as a whole. Some of these are:
 * Sound effects
 * Music
 * PLAYPAL: Color palettes for various situations.
 * COLORMAP: Map to adjust pixel values for reduced brightness.
 * ENDOOM: Text displayed when vanilla Doom exits.
 * TEXTURE1, TEXTURE2, PNAMES: Data defining the wall textures.
 * DEMOs: Recorded games, auto-played before any level is started.