Difference between revisions of "Resource file format"

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  <span class="hlP">uint16</span> width
 
  <span class="hlP">uint16</span> width
 
  <span class="hlP">uint16</span> height
 
  <span class="hlP">uint16</span> height
  <span class="hlP">uint16</span> unknown1<span class="hlB">[</span><span class="hlN">4</span><span class="hlB">]</span>
+
  <span class="hlP">uint16</span> centreX
  <span class="hlP">uint8</span>  unknown2<span class="hlB">[</span><span class="hlN">4</span><span class="hlB">]</span>
+
<span class="hlP">uint16</span> centreY
 +
<span class="hlP">uint16</span> positionX
 +
<span class="hlP">uint16</span> positionY
 +
  <span class="hlP">uint8</span>  unknown<span class="hlB">[</span><span class="hlN">4</span><span class="hlB">]</span>
 
   
 
   
 
  <span class="hlP">uint8</span>  image<span class="hlB">[</span>width <span class="hlB">*</span> height<span class="hlB">]</span>
 
  <span class="hlP">uint8</span>  image<span class="hlB">[</span>width <span class="hlB">*</span> height<span class="hlB">]</span>
  
Parts of this structure are not fully understood. <tt>unknown1</tt> appears to be related to Stunts' internal memory management. <tt>unknown2</tt> seems to affect how image pixels are organized in compressed resource files, likely to gain more effective [http://en.wikipedia.org/wiki/Run-length_encoding run-length compression]. Images with pixel data stored as continuous horizontal lines has <tt>unknown2</tt> set to <code>{ 0x1, 0x2, 0x4, 0x8 }</code>.
+
Width and height correspond, of course, to the image dimensions. CentreX and centreY refer to the coordinates of the axial centre for moving images, as is the case of the gear knob and the steering dot. These coordinates set the point in the image that will move along the path established for it to go along.
 +
 
 +
Parts of this structure are not fully understood. <tt>unknown</tt> seems to affect how image pixels are organized in compressed resource files, likely to gain more effective [http://en.wikipedia.org/wiki/Run-length_encoding run-length compression]. Images with pixel data stored as continuous horizontal lines has <tt>unknown</tt> set to <code>{ 0x1, 0x2, 0x4, 0x8 }</code> which is probabily [http://en.wikipedia.org/wiki/Planar_(computer_graphics) Planar] data for 16 color modes. Modifying these values randomly for all images in a car does not appear to have any effect, which suggest this might have importance only in non-car PVS/VSH files.
 +
 
 +
Due to the internal resolution of Stunts (which uses [http://en.wikipedia.org/wiki/Mode_13h VGA Mode 13h]), non-square pixels are used for screen display. [[Aspect ratio]] corrections should be accounted for to avoid unwanted results. 
 +
 
 +
The VGA palette itself is encoded as the <tt>!pal</tt> bitmap resource of <tt>SDMAIN.PVS</tt>. The pixel data of that resource is interpreted as 256 triplets of [https://moddingwiki.shikadi.net/wiki/VGA_Palette 6-bit RGB].
 +
 
 +
See [[Car files]] for specific information on the different image resources.
  
 
{{sectstub}}
 
{{sectstub}}
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===3d shapes===
 
===3d shapes===
Shapes are composed of a vertex list and a list of primitives. Primitives are basic shapes that can have different types, such as polygons or wheels. Depending on the type it contains a number of indices into the vertex list needed to draw the shape, color variations and some rendering hints. Stunts' coordinate system use 16-bit signed integers, making the resolution relative to the scale of the model. Shapes presented in the car selection screen are more detailed than in-game shapes, thus requiring larger scaling. By comparing the car shapes to their real-life originals 1 meter in-game corresponds to 20 units, making each track tile roughly 50 meters wide.
+
Shapes are composed of a vertex list and a list of primitives. Primitives are basic shapes that can have different types, such as polygons or wheels. Depending on the type it contains a number of indices into the vertex list needed to draw the shape, color variations and some rendering hints. Stunts' coordinate system use 16-bit signed integers, making the resolution relative to the scale of the model. Shapes presented in the car selection screen are more detailed than in-game shapes, thus requiring larger scaling. Experiment has shown that 1 foot in-game corresponds to 5 units, making each track tile roughly 205 feet (or 62.5 meters) wide.
  
 
Due to the counter header fields being stored in single bytes, the total amount of vertices and primitives are limited to 255 per shape.
 
Due to the counter header fields being stored in single bytes, the total amount of vertices and primitives are limited to 255 per shape.
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  VERTEX    vertices<span class="hlB">[</span>numVertices<span class="hlB">]</span>
 
  VERTEX    vertices<span class="hlB">[</span>numVertices<span class="hlB">]</span>
  UNKNOWN  unknowns<span class="hlB">[</span>numPrimitives<span class="hlB">]</span>
+
  <span class="hlP">uint32</span>    cullFront<span class="hlB">[</span>numPrimitives<span class="hlB">]</span>
 +
<span class="hlP">uint32</span>    cullBack<span class="hlB">[</span>numPrimitives<span class="hlB">]</span>
 
  PRIMITIVE primitives<span class="hlB">[</span>numPrimitives<span class="hlB">]</span>
 
  PRIMITIVE primitives<span class="hlB">[</span>numPrimitives<span class="hlB">]</span>
 
   
 
   
  <span class="hlP">uint8</span>    terminate<span class="hlB">[</span><span class="hlC">...</span><span class="hlB">]</span> <span class="hlC">// One or two NULL-bytes to make resource size divisible by 2.</span>
+
  <span class="hlP">uint8</span>    terminate<span class="hlB">[</span><span class="hlC">...</span><span class="hlB">]</span> <span class="hlC">// 1-3 NULL-bytes for data alignment</span>
  
 
'''Additional structures'''
 
'''Additional structures'''
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   <span class="hlP">int16</span> y
 
   <span class="hlP">int16</span> y
 
   <span class="hlP">int16</span> z
 
   <span class="hlP">int16</span> z
<span class="hlB">}</span>
 
 
<span class="hlP">struct</span> UNKNOWN <span class="hlB">{</span>
 
  <span class="hlP">int8</span> data<span class="hlB">[</span><span class="hlN">8</span><span class="hlB">]</span>
 
 
  <span class="hlB">}</span>
 
  <span class="hlB">}</span>
 
   
 
   
 
  <span class="hlP">struct</span> PRIMITIVE <span class="hlB">{</span>
 
  <span class="hlP">struct</span> PRIMITIVE <span class="hlB">{</span>
 
   <span class="hlP">uint8</span> type
 
   <span class="hlP">uint8</span> type
   <span class="hlP">uint8</span> depthIndex
+
   <span class="hlP">uint8</span> flags
 
   <span class="hlP">uint8</span> materials<span class="hlB">[</span>numPaintJobs<span class="hlB">]</span>
 
   <span class="hlP">uint8</span> materials<span class="hlB">[</span>numPaintJobs<span class="hlB">]</span>
 
   <span class="hlP">uint8</span> indices<span class="hlB">[</span><span class="hlC">...</span><span class="hlB">]</span> <span class="hlC">// Size depends on type.</span>
 
   <span class="hlP">uint8</span> indices<span class="hlB">[</span><span class="hlC">...</span><span class="hlB">]</span> <span class="hlC">// Size depends on type.</span>
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|-
 
|-
 
| *              || 0              || Ignored
 
| *              || 0              || Ignored
 +
|}
 +
 +
'''Primitive flags'''
 +
{| class="wikitable"
 +
! Flag          !! Name
 +
|-
 +
| <tt>0x01</tt> || Two-sided
 +
|-
 +
| <tt>0x02</tt> || Z-Bias
 +
|-
 +
| *    || Ignored
 +
|}
 +
 +
'''Culling data masks'''
 +
{| class="wikitable"
 +
! Flag                !! Description
 +
|-
 +
| <tt>0xFFFE0000</tt> || Horizontal angle ranges, positive direction
 +
|-
 +
| <tt>0x0001FFFC</tt> || Horizontal angle ranges, negative direction
 +
|-
 +
| <tt>0x00000001</tt> || High vertical angle flag, positive direction
 +
|-
 +
| <tt>0x00000002</tt> || High vertical angle flag, negative direction
 
|}
 
|}
  
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[[Image:Wheel_Primitive_Anatomy.png|200px|right|thumb|Anatomy of a wheel shape primitive.]]
 
[[Image:Wheel_Primitive_Anatomy.png|200px|right|thumb|Anatomy of a wheel shape primitive.]]
The first three vertices in a wheel primitive marks the center, tire radius and rim radius for the inner wheel-half facing the vehicle. The last three vertices does the same, in the same order, for the outer half of the wheel. Directions does not matter, the vertex locations are only used to measure distances. This rule applies to the sphere primitive as well.
+
The first three vertices in a wheel primitive marks the center, tire radius and rim radius for the inner wheel-half facing the vehicle. The last three vertices does the same, in the same order, for the outer half of the wheel. Directions may not matter, the vertex locations are used to measure distances. This rule applies to the sphere primitive as well.
  
 
Wheel transformations are performed on fixed vertex positions. Since the first eight vertices of <tt>car[0-2]</tt> shapes are occupied by the bound box, vertices 9-14 and 15-20 are front wheels. Misplaced wheel vertices will lead to corrupted shape rendering.
 
Wheel transformations are performed on fixed vertex positions. Since the first eight vertices of <tt>car[0-2]</tt> shapes are occupied by the bound box, vertices 9-14 and 15-20 are front wheels. Misplaced wheel vertices will lead to corrupted shape rendering.
  
The value <tt>depthIndex</tt> in the <tt>PRIMITIVE</tt> structure is used to override the game's depth clipping in order to avoid flickering when several primitives are being drawn at the exact same depth. Higher value gives the primitive higher precedence.
+
The <tt>flags</tt> in the <tt>PRIMITIVE</tt> structure are used for two-sided polygons (disable [http://en.wikipedia.org/wiki/Back-face_culling back-face culling]) and to enable Z-bias in order to resolve [http://en.wikipedia.org/wiki/Z-fighting Z-fighting].
  
 
[[Shape materials|Materials]] are indices into a permanent, internal game structure and are assigned per-primitive. Cars can have multiple paint jobs, every primitive in the shape must set a material for each color scheme.
 
[[Shape materials|Materials]] are indices into a permanent, internal game structure and are assigned per-primitive. Cars can have multiple paint jobs, every primitive in the shape must set a material for each color scheme.
  
Experimentation has revealed that <tt>UNKNOWN</tt> data at least partially controls occlusion culling on primitive level. How, and exactly which parts of this structure does what has yet to be understood.
+
Each primitive has two 32-bit culling data fields to determine visibility. A culling data field holds angular visibility in positive and negative direction using 15 bits each. One bit corresponds to 1/15th of a full circle and the bits can be set in any combination. The two least significant bits are used as flags for visibility at near-vertical viewing angles.
 +
 
 +
A shape resource must be terminated with NULL-bytes. The number of bytes needed is not known, but padding three NULL-bytes has proven to work regardless of resource size or byte alignment. Failing to meet this requirement will lead to obscure rendering artifacts.
  
A shape resource must be terminated with a NULL-byte and the size must be divisible by two, hence two NULL-bytes are needed to terminate and pad resources with an even number of bytes. Failing to meet this requirement will lead to obscure rendering artifacts.
+
As for bitmaps, [[aspect ratio]] issues in Stunts should be considering when setting Y coordinates of 3D models.
  
 
{{sectstub}}
 
{{sectstub}}
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===Opponent parameters===
 
===Opponent parameters===
 +
{{main|Opponent files}}
 +
The opp?.res files contain numerical data resources which control opponent behaviour and victory/defeat animations. The contents and function of these resources are better understood within the context of the main article.
 
{{sectstub}}
 
{{sectstub}}
  
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==Tools==
 
==Tools==
* [[stressed]] - Stunts/4D [Sports] Driving resource editor [http://stuntstools.googlecode.com/].
+
* [[stressed]] - Stunts/4D [Sports] Driving resource editor [https://github.com/dstien/gameformats/].
  
[[Category:Game]]
+
[[Category:Modding]]
 +
[[Category:Internals]]

Latest revision as of 02:22, 9 March 2023

Stunts game data are stored in a common container format. Files of this format can hold multiple resources, blocks of data that may be of various types - text, bitmaps, sounds, etc. Resources are uniquely identified within each file solely by a 4-byte name. A resource container file can be encapsulated by compression.

This document focuses on BB Stunts 1.1, but details described here may still—partly or wholly—cover other versions, or even other games developed by DSI at the time.

File names

Different file name extensions are used to indicate the content of the files. Compressed files has "P" (packed) as the first letter of their extensions. Whether the game prefers raw or compressed files varies based on file type.

File contents Raw Compressed Preferred
Text and misc. settings RES PRE Raw
Bitmap images VSH PVS Compressed
Icons ESH PES Compressed
3d shapes 3SH P3S Compressed
Music tracks KMS PKM Raw
Instrument samples VCE PVC Raw
Sound effects SFX PSF Raw

Structure

The resource file header consists of two integer fields denoting the total length of the file and the number of resources contained. The following table of contents has a list of ids and a corresponding list of offsets into the remaining data section.

// Header
uint32 fileLength
uint16 numResources

// Table of contents
char   ids[numResources][4]
uint32 offsets[numResources]

// Resource data
char   data[]

Types

Resource type can be determined by looking at the resource's id string and/or the source file name.

Plain text

Text resources are null-terminated C strings found in RES/PRE files. Strings can contain non-alphanumeric codes used by the game to achieve certain effects. Most prominent is the "]" (right square bracket) used to represent newline in multi-line text.

Bitmap images

VGA palette used by bitmap images. Value 255 is transparency.

Bitmaps are images with 8-bit color depth using a fixed palette in VGA mode. Special bitmaps using the naming scheme !cg_ and !eg_ provides color mapping for graphics modes with fewer available colors.

uint16 width
uint16 height
uint16 centreX
uint16 centreY
uint16 positionX
uint16 positionY
uint8  unknown[4]

uint8  image[width * height]

Width and height correspond, of course, to the image dimensions. CentreX and centreY refer to the coordinates of the axial centre for moving images, as is the case of the gear knob and the steering dot. These coordinates set the point in the image that will move along the path established for it to go along.

Parts of this structure are not fully understood. unknown seems to affect how image pixels are organized in compressed resource files, likely to gain more effective run-length compression. Images with pixel data stored as continuous horizontal lines has unknown set to { 0x1, 0x2, 0x4, 0x8 } which is probabily Planar data for 16 color modes. Modifying these values randomly for all images in a car does not appear to have any effect, which suggest this might have importance only in non-car PVS/VSH files.

Due to the internal resolution of Stunts (which uses VGA Mode 13h), non-square pixels are used for screen display. Aspect ratio corrections should be accounted for to avoid unwanted results.

The VGA palette itself is encoded as the !pal bitmap resource of SDMAIN.PVS. The pixel data of that resource is interpreted as 256 triplets of 6-bit RGB.

See Car files for specific information on the different image resources.

Icons

3d shapes

Shapes are composed of a vertex list and a list of primitives. Primitives are basic shapes that can have different types, such as polygons or wheels. Depending on the type it contains a number of indices into the vertex list needed to draw the shape, color variations and some rendering hints. Stunts' coordinate system use 16-bit signed integers, making the resolution relative to the scale of the model. Shapes presented in the car selection screen are more detailed than in-game shapes, thus requiring larger scaling. Experiment has shown that 1 foot in-game corresponds to 5 units, making each track tile roughly 205 feet (or 62.5 meters) wide.

Due to the counter header fields being stored in single bytes, the total amount of vertices and primitives are limited to 255 per shape.

Main strcture

uint8     numVertices
uint8     numPrimitives
uint8     numPaintJobs
uint8     reserved // Always == 0

VERTEX    vertices[numVertices]
uint32    cullFront[numPrimitives]
uint32    cullBack[numPrimitives]
PRIMITIVE primitives[numPrimitives]

uint8     terminate[...] // 1-3 NULL-bytes for data alignment

Additional structures

struct VERTEX {
  int16 x
  int16 y
  int16 z
}

struct PRIMITIVE {
  uint8 type
  uint8 flags
  uint8 materials[numPaintJobs]
  uint8 indices[...] // Size depends on type.
}

Primitive types

Primitive type Vertex indices needed Description
1 1 Particle, 1 pixel
2 2 Line segment, 1 pixel width
3–10 3–10 Polygon, n sides
11 2 Sphere (center + ~(radius / 2)
12 6 Wheel
* 0 Ignored

Primitive flags

Flag Name
0x01 Two-sided
0x02 Z-Bias
* Ignored

Culling data masks

Flag Description
0xFFFE0000 Horizontal angle ranges, positive direction
0x0001FFFC Horizontal angle ranges, negative direction
0x00000001 High vertical angle flag, positive direction
0x00000002 High vertical angle flag, negative direction

For car body and track element shapes the first eight vertices are reserved for the corner vertices of the shape's bound box, used to cull entire shapes located outside the view frustum.

Anatomy of a wheel shape primitive.

The first three vertices in a wheel primitive marks the center, tire radius and rim radius for the inner wheel-half facing the vehicle. The last three vertices does the same, in the same order, for the outer half of the wheel. Directions may not matter, the vertex locations are used to measure distances. This rule applies to the sphere primitive as well.

Wheel transformations are performed on fixed vertex positions. Since the first eight vertices of car[0-2] shapes are occupied by the bound box, vertices 9-14 and 15-20 are front wheels. Misplaced wheel vertices will lead to corrupted shape rendering.

The flags in the PRIMITIVE structure are used for two-sided polygons (disable back-face culling) and to enable Z-bias in order to resolve Z-fighting.

Materials are indices into a permanent, internal game structure and are assigned per-primitive. Cars can have multiple paint jobs, every primitive in the shape must set a material for each color scheme.

Each primitive has two 32-bit culling data fields to determine visibility. A culling data field holds angular visibility in positive and negative direction using 15 bits each. One bit corresponds to 1/15th of a full circle and the bits can be set in any combination. The two least significant bits are used as flags for visibility at near-vertical viewing angles.

A shape resource must be terminated with NULL-bytes. The number of bytes needed is not known, but padding three NULL-bytes has proven to work regardless of resource size or byte alignment. Failing to meet this requirement will lead to obscure rendering artifacts.

As for bitmaps, aspect ratio issues in Stunts should be considering when setting Y coordinates of 3D models.

Car parameters

Main article: Car parameters

Numerical car*.res parameters are stored in a 776 bytes sized resource identified as simd. Most data in simd is stored as signed 16-bit integers. Noteworthy exceptions include number of gears, gear ratios, torque curve data and bitmap coordinates for dashboard instruments - which are unsigned 8-bit integers. Organization and function of the parameters are outside the scope of this article; the reader should consult the main article on the topic for further information.

Opponent parameters

Main article: Opponent files

The opp?.res files contain numerical data resources which control opponent behaviour and victory/defeat animations. The contents and function of these resources are better understood within the context of the main article.

Music tracks

Instrument samples

Sound effects

Tools

  • stressed - Stunts/4D [Sports] Driving resource editor [1].