MREA (Metroid Prime 2): Difference between revisions

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The actual data contained in these blocks is padded to 32 bytes, but their padding is located at the beginning of the block rather than the end, so it's required to account for the padding before you start decompressing. Thee data is compressed using segmented LZO1X-999; the "segmented" part means there's multiple segments of data that are compressed/decompressed separately. Each segment starts with a 16-bit size value. The size value is signed; a negative value indicates the segment is not compressed (this is done when compressing a segment doesn't reduce its size). Each segment is 0x4000 bytes large when decompressed (except the last one).
The actual data contained in these blocks is padded to 32 bytes, but their padding is located at the beginning of the block rather than the end, so it's required to account for the padding before you start decompressing. Thee data is compressed using segmented LZO1X-999; the "segmented" part means there's multiple segments of data that are compressed/decompressed separately. Each segment starts with a 16-bit size value. The size value is signed; a negative value indicates the segment is not compressed (this is done when compressing a segment doesn't reduce its size). Each segment is 0x4000 bytes large when decompressed (except the last one).
=== Data Sections ===
==== World Geometry ====
''See [[MREA (Metroid Prime)#World Geometry]], [[Materials (Metroid Prime)]] and [[Geometry (Metroid Prime)]]''
Largely [[MREA (Metroid Prime)#World Geometry|the same as Prime 1]]. There are two new sections to watch out for on each world model (described on the [[Geometry (Metroid Prime)]] page). There's two sections that are now grouped under the same section number as world geometry.
The first is the [[MREA (Metroid Prime)#Area Octree|area octree]] section, which is back from Prime 1 but no longer has its own section number.
The second section is an array of a structure that provides the bounding box for every surface group. The first entry in the array has the combined bounding box for all of the world geometry in the entire area, then each surface group is listed in order.
{| class="wikitable"
! Type
! Count
! Name
! Notes
|-
| u32
| 1
| '''Group Bounds Entry Count'''
| Count of elements in the following array.
|-
| [[#Group Bounds|Group Bounds Entry]]
| ''Group Bounds Entry Count''
| '''Group Bounds Entry Array'''
| Array of a struct that provides the bounding box for each surface group in the area.
|}
===== Group Bounds Entry =====
{| class="wikitable"
! Offset
! Type
! Count
! Name
! Notes
|-
| 0x0
| float
| 6
| '''Group Bounding Box'''
| Axis-aligned bounding box of all surfaces contained in the group.
|-
| 0x18
| u16
| 1
| '''World Model Index'''
| Index of the world model that contains this group.
|-
| 0x1A
| u16
| 1
| '''Surface Group Index'''
| Model-relative index of the surface group.
|-
| 0x1C
| u16
| 1
| {{unknown|Unknown}}
| On the first entry, always 1. On other entries, always -1.
|-
| 0x1E
| u16
| 1
| {{unknown|Unknown}}
| On the first entry, always -1. On other entries, always the entry's index position + 1.
|-
| 0x20
| colspan=4 {{unknown|End of bounds entry}}
|}


[[Category:File Formats]]
[[Category:File Formats]]
[[Category:Metroid Prime 2: Echoes]]
[[Category:Metroid Prime 2: Echoes]]

Revision as of 07:06, 23 May 2016

See MREA (File Format) for the other revisions of this format.

The MREA format defines areas (rooms) in Metroid Prime 2. It serves the same purpose as the MREA files from Prime 1, but in Echoes it was updated with new features, including some new data sections and the ability to compress most of the data in the file.


To do:
Rest of the article needs to be written. There's a lot known about this format that should be documented.

Format

Like CMDL, MREA files are split up into a number of 32-byte aligned sections. Every section both starts and ends on a 32-byte boundary. These are used to separate different parts of the file; different types of sections typically indicate different sets of data. The header declares the section count and the size of each one; using these is the only way to navigate the file.

Header

Offset Type Count Name Description
0x0 u32 1 Magic Always 0xDEADBEEF.
0x4 u32 1 Version See hub article for a list of possible version numbers.
0x8 float 12 Area Transform Matrix that represents the area's transform from the origin. Most area data is pre-transformed, so this matrix is only used occasionally.
0x38 u32 1 World Model Count Number of world models in this area.
0x3C u32 1 Script Layer Count Number of script layers in this area.
0x40 u32 1 Data Section Count Number of data sections in the file.
0x44 u32 1 Geometry Section Section index for world geometry data. Always 0; starts on materials.
0x48 u32 1 Script Layers Section Section index for script layer data.
0x4C u32 1 Generated Script Objects Section Section index for generated script object data.
0x50 u32 1 Collision Section Section index for collision data.
0x54 u32 1 Unknown Section 1 Section index for first unknown section.
0x58 u32 1 Lights Section Section index for light data.
0x5C u32 1 Visibility Tree Section Section index for visibility tree data.
0x60 u32 1 Path Section Section index for path data.
0x64 u32 1 Unknown Section 2 Section index for second unknown section.
0x68 u32 1 Portal Area Section Section index for portal area data.
0x6C u32 1 Object-To-Static-Geometry Mapping Section Section index for object-to-static-geometry mapping data.
0x70 u32 1 Compressed Block Count Number of compressed data blocks in the file.
0x74 u32 3 Padding Padding bytes that align the file with the next multiple-of-32 offset.
0x80 u32 Data Section Count Data Section Sizes Array containing the size of each data section in the file. Every size is always a multiple of 32.
Pad to 32 bytes before compressed block definitions begins

Compressed Blocks

The MREA format contains compressed blocks that can each contain a number of regular file sections within them. The data defining these blocks is at the end of the MREA header; the beginning and end of the compressed block list is padded to 32 bytes. The decompressed size of a block is capped at 0x20000 bytes; each section contains as many MREA sections as it can fit under that size limit. There are two exceptions:

  • If a single section's uncompressed size is larger than 0x20000, then its corresponding compressed block can exceed the size limit.
  • Each SCLY and SCGN layer is always in its own block, regardless of how close to the limit it is.

This is the structure of each block definition:

Offset Type Count Name Notes
0x0 u32 1 Buffer Size This is always 0x120 bytes larger than the uncompressed size on compressed bytes, and the same value as the uncompressed size on uncompressed blocks
0x4 u32 1 Uncompressed Size
0x8 u32 1 Compressed Size This is 0 on uncompressed blocks.
0xC u32 1 Data Section Count The number of regular data sections contained in this block.
0x10 Block definition end

The actual data contained in these blocks is padded to 32 bytes, but their padding is located at the beginning of the block rather than the end, so it's required to account for the padding before you start decompressing. Thee data is compressed using segmented LZO1X-999; the "segmented" part means there's multiple segments of data that are compressed/decompressed separately. Each segment starts with a 16-bit size value. The size value is signed; a negative value indicates the segment is not compressed (this is done when compressing a segment doesn't reduce its size). Each segment is 0x4000 bytes large when decompressed (except the last one).

Data Sections

World Geometry

See MREA (Metroid Prime)#World Geometry, Materials (Metroid Prime) and Geometry (Metroid Prime)

Largely the same as Prime 1. There are two new sections to watch out for on each world model (described on the Geometry (Metroid Prime) page). There's two sections that are now grouped under the same section number as world geometry.

The first is the area octree section, which is back from Prime 1 but no longer has its own section number.

The second section is an array of a structure that provides the bounding box for every surface group. The first entry in the array has the combined bounding box for all of the world geometry in the entire area, then each surface group is listed in order.

Type Count Name Notes
u32 1 Group Bounds Entry Count Count of elements in the following array.
Group Bounds Entry Group Bounds Entry Count Group Bounds Entry Array Array of a struct that provides the bounding box for each surface group in the area.
Group Bounds Entry
Offset Type Count Name Notes
0x0 float 6 Group Bounding Box Axis-aligned bounding box of all surfaces contained in the group.
0x18 u16 1 World Model Index Index of the world model that contains this group.
0x1A u16 1 Surface Group Index Model-relative index of the surface group.
0x1C u16 1 Unknown On the first entry, always 1. On other entries, always -1.
0x1E u16 1 Unknown On the first entry, always -1. On other entries, always the entry's index position + 1.
0x20 End of bounds entry