8366b8731e
* Set up build system for ntsc-1.2 * Set up disassembly for ntsc-1.2 * Add all unnamed functions to functions.txt * Update docs/retail_versions.md for ntsc-1.2 * Format * Update docs/retail_versions.md Co-authored-by: Dragorn421 <Dragorn421@users.noreply.github.com> * Remove mention of US * OOT_N64 -> PLATFORM_N64, OOT_GC -> PLATFORM_GC * Move mtxutil to libultra/gu * Fix libultra/io bss splits * Fix merge --------- Co-authored-by: Dragorn421 <Dragorn421@users.noreply.github.com>
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Decompiling retail versions
The next decompilation target for OOT is NTSC version 1.2
(ntsc-1.2), because it is the N64 version that is most similar to the GC
versions. Unfortunately there are still a lot of differences,
but once this version is done, future
N64 versions should be much easier, as the changes between N64 versions are
small in comparison.
Instead of cping a matching build into expected/, the target ROM is disassembled as .s files then
reassembled as .o files directly into expected/build/ntsc-1.2 for diff tools.
This allows us to make progress matching code in parallel with solving other
problems (such as the build system, ROM organization, and BSS ordering). The
files in tools/disasm/ntsc-1.2 say how to split the source files and where the
functions and variables are in the target ROM, and these may need to be updated
if there are mistakes or if function names change due to documentation work.
Unfortunately, the disassembly is not perfect, so a "correct" decompilation might still show diffs with data symbols. We might improve this later, but these data diffs are fine to ignore for now.
For register and stack allocation differences, often the code can be tweaked so
that it matches both the retail ROM while continuing to match GC versions and the Debug ROM (for
example, by reordering assignments or moving a local variable declaration inside
an if block). Since retail MM versions currently target N64, checking MM decomp for similar code can help.
We can handle code that is different between versions by adding
#if PLATFORM_N64 ... #endif or #if PLATFORM_GC ... #endif around these parts of the
code. In order to keep the code readable, we should try to minimize the amount of
#if noise whenever possible.
Setup
-
Copy your target JP NTSC 1.2 ROM to
baseroms/ntsc-1.2/baserom.z64 -
Build the non-matching test ROM by running
make setup -jN VERSION=ntsc-1.2 make -jN VERSION=ntsc-1.2where
Nis the number of cores on your machine. This will build intobuild/ntsc-1.2and producebuild/ntsc-1.2/oot-ntsc-1.2.z64.If you later want to delete all output files, run
make clean VERSION=ntsc-1.2 -
Disassemble the target ROM by running
make disasm VERSION=ntsc-1.2The outputs will be written to
expected/build/ntsc-1.2.Note that if you need to copy a matching build for another version, you can use e.g.
mkdir -p expected/build cp -r build/gc-eu-mq-dbg expected/buildto avoid clobbering the disassembly.
Diff Tools
Note that many tools will require activating the Python virtual environment in your terminal session. To do this, run:
source .venv/bin/activate
retail_progress.py
Running ./retail_progress.py path/to/file.c will attempt to figure out which functions
in a file still need to match for ntsc-1.2. To get an overview of diffs for
all files, run ./retail_progress.py with no arguments.
asm-differ / diff.py
To diff assembly for a single function in ntsc-1.2, run e.g.
./diff.py -mwo3 -v ntsc-1.2 Math3D_CylTriVsIntersect
The -v flag tells diff.py to compare between build/ntsc-1.2 and
expected/build/ntsc-1.2, and to use make VERSION=ntsc-1.2 when rebuilding.
You may also want to diff versions gc-eu-mq and/or gc-eu-mq-dbg in another terminal
to ensure any changes still match there.
Permuter and decomp.me
Disassembly for individual functions is written to
expected/build/ntsc-1.2/functions, so to get a decomp.me scratch you can run
e.g.
decomp-permuter/import.py \
src/code/sys_math3d.c \
expected/build/ntsc-1.2/functions/src/code/sys_math3d/Math3D_CylTriVsIntersect.s \
VERSION=ntsc-1.2 --decompme