Crates.io | brres-sys |
lib.rs | brres-sys |
version | 0.1.12 |
source | src |
created_at | 2024-06-13 21:35:51.611482 |
updated_at | 2024-08-03 07:11:06.023115 |
description | Low-level bindings for librii's .brres layer |
homepage | https://github.com/riidefi/RiiStudio/tree/master/source/brres |
repository | https://github.com/riidefi/RiiStudio |
max_upload_size | |
id | 1271406 |
size | 4,794,318 |
brres-sys
Implements a Rust layer on top of librii::g3d
's JSON export-import layer. Importantly, large buffers like texture data and vertex data are not actually encoded in JSON but passed directly as a binary blob. This allows JSON files to stay light.
Exposes the following Rust interface
pub struct CBrresWrapper<'a> {
pub json_metadata: &'a str,
pub buffer_data: &'a [u8],
// ...
}
impl<'a> CBrresWrapper<'a> {
// .bin -> .json
pub fn from_bytes(buf: &[u8]) -> anyhow::Result<Self>;
// .json -> .bin
pub fn write_bytes(json: &str, buffer: &[u8]) -> anyhow::Result<Self>;
}
This wraps the following C interface, which can still be used (say for other language bindings).
// include/brres_sys.h
struct CResult {
const char* json_metadata;
uint32_t len_json_metadata;
const void* buffer_data;
uint32_t len_buffer_data;
void (*freeResult)(struct CResult* self);
void* opaque;
};
uint32_t brres_read_from_bytes(CResult* result, const void* buf,
uint32_t len);
uint32_t brres_write_bytes(CResult* result, const char* json,
uint32_t json_len, const void* buffer,
uint32_t buffer_len);
void brres_free(CResult* result);
Every BRRES format is validated to produce 1:1 byte-identical output, even the Intermediate Representations (see below). Tests can be found in the tests
folder.
Filetype | Description | Source file | Binary rep | Intermediate rep |
---|---|---|---|---|
BRRES v0 | 3D Resource | ArchiveIO.cpp | BinaryArchive |
Archive |
MDL0 v11 | 3D Model | ModelIO.cpp | BinaryModel |
Model |
TEX0 v1/v3 | Texture | TextureIO.cpp | - | TextureData |
CLR0 v4 | Shader uniform animation | AnimClrIO.cpp | BinaryClr |
- |
SHP0 | Bone/character animation | - | - | - |
SRT0 v5 | Texture scale/rotate/translate animation | AnimIO.cpp | BinarySrt |
SrtAnim * |
PAT0 v4 | Texture image animation | AnimTexPatIO.cpp | BinaryTexPat |
- |
VIS0 v4 | Bone visibility animation | AnimVisIO.cpp | BinaryVis |
- |
* SrtAnim
is read-only for now; BinaryArchive
contains read-write BinarySrt
currently.
librii provides two structures for each filetype:
Parsing a BRRES file into the Binary representation (BinaryArchive
):
std::expected<librii::g3d::BinaryArchive, std::string> parsed_brres = librii::g3d::BinaryArchive::read(reader, transaction);
if (!parsed_brres) {
return std::unexpected(std::format("Failed to parse BRRES with error: {}", parsed_brres.error()));
}
Unpacking a BinaryArchive into the Intermediate representation (Archive
):
std::expected<librii::g3d::Archive, std::string> archive = librii::g3d::Archive::from(*parsed_brres);
if (!archive) {
return std::unexpected(std::format("Failed to unpack BRRES file with error: {}", archive.error()));
}
librii::g3d::Archive data(std::move(*archive));
for (const auto &model : data.models) {
printf("%s\n", std::format("Model: {} with {} materials", model.name, model.materials.size()).c_str());
}
Information on MDL0 (BinaryModel
, Model
) specifically is provided:
Filetype | Description | Source file | Binary rep | Intermediate rep |
---|---|---|---|---|
MDL0.ByteCode | Draw calls + Skeleton | ModelIO.cpp | ByteCodeMethod |
Merged into BoneData , DrawMatrix |
MDL0.Bone | Bone | BoneIO.cpp | BinaryBoneData |
BoneData |
MDL0.PositionBuf | Holds vertex positions | ModelIO.cpp | - | PositionBuffer |
MDL0.NormalBuf | Holds vertex normals | ModelIO.cpp | - | NormalBuffer |
MDL0.ColorBuf | Holds vertex colors | ModelIO.cpp | - | ColorBuffer |
MDL0.UVBuf | Holds UV maps | ModelIO.cpp | - | TextureCoordinateBuffer |
MDL0.FurVecBuf | Fur related | - | - | - |
MDL0.FurPosBuf | Fur related | - | - | - |
MDL0.Material | Material data | MatIO.cpp | BinaryMaterial |
G3dMaterialData |
MDL0.TEV | Shader data | TevIO.cpp | BinaryTev ** |
Merged into G3dMaterialData |
MDL0.Mesh | 3D mesh data | ModelIO.cpp | - | PolygonData |
MDL0.TextureLink | Internal | ModelIO.cpp | - | - *** |
MDL0.PaletteLink | Internal | - | - | - **** |
MDL0.UserData | Metadata | - | - | - |
*** BinaryTev
is often replaced by a partial gx::LowLevelGxMaterial
instance containing only the TEV fields BinaryTev
sets.
*** Texture links are always recomputed. If a model had invalid texture links, simply passing the data through BinaryModel
would correct it.
**** Palettes are not supported.
It's recommended you always use the intermediate representation when possible. G3dMaterialData
directly satisfies LowLevelGxMaterial
which makes it compatible with librii::gl
's shader compiler. Of course, a BinaryMaterial
+ BinaryTev
(in the form of a partial gx::LowLevelGxMaterial
) combo can be rendered via conversion with MatIO's function fromBinMat(...) -> gx::LowLevelGxMaterial
with TEV merging enabled.
e.g. the following idiomatic C code:
#include <stdio.h>
#include <stdlib.h>
#include <stdint.h>
#include "include/brres_sys.h"
int main() {
uint8_t my_brres_file[] = { /* ... */ }; // Initialize with actual .brres file data
CResult result = {};
uint32_t ok = brres_read_from_bytes(&result, my_brres_file, sizeof(my_brres_file));
if (!ok) {
printf("Failed to read .brres: %*.s\n", (size_t)result.len_json_metadata, result.json_metadata);
brres_free(&result); // Free the error message
return 1;
}
// Write JSON metadata to a file
FILE *json_file = fopen("output.json", "wb");
if (json_file == NULL) {
perror("Failed to open output.json for writing");
brres_free(&result);
return 1;
}
size_t written = fwrite(result.json_metadata, 1, result.len_json_metadata, json_file);
if (written != result.len_json_metadata) {
perror("Failed to write all JSON metadata to output.json");
fclose(json_file);
brres_free(&result);
return 1;
}
fclose(json_file);
// Write binary buffer data to a file
FILE *bin_file = fopen("output.bin", "wb");
if (bin_file == NULL) {
perror("Failed to open output.bin for writing");
brres_free(&result);
return 1;
}
written = fwrite(result.buffer_data, 1, result.len_buffer_data, bin_file);
if (written != result.len_buffer_data) {
perror("Failed to write all buffer data to output.bin");
fclose(bin_file);
brres_free(&result);
return 1;
}
fclose(bin_file);
brres_free(&result);
return 0;
}