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v064 ... master

2809 changed files with 466787 additions and 183030 deletions
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.cirrus.yml Normal file
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freebsd-x86_64-binaries_task:
freebsd_instance:
image_family: freebsd-12-2
setup_script:
- pkg install --yes gmake gdb gcc8 pkgconf sdl2 openal-soft gtk3 gtksourceview3 libXv zip
compile_script:
- gmake -C bsnes local=false
package_script:
- mkdir bsnes-nightly
- mkdir bsnes-nightly/Database
- mkdir bsnes-nightly/Firmware
- cp -a bsnes/out/bsnes bsnes-nightly/bsnes
- cp -a bsnes/Database/* bsnes-nightly/Database
- cp -a shaders bsnes-nightly/Shaders
- cp -a GPLv3.txt bsnes-nightly
- cp -a extras/* bsnes-nightly
- zip -r bsnes-nightly.zip bsnes-nightly
bsnes-nightly_artifacts:
path: "bsnes-nightly.zip"

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*.fs linguist-detectable=false
*.vs linguist-detectable=false

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name: Build
on:
push:
branches: [ master ]
tags: [ 'v*' ]
pull_request:
branches: [ master ]
permissions:
contents: write
jobs:
build:
strategy:
matrix:
os:
- name: ubuntu
version: latest
- name: windows
version: latest
- name: macos
version: latest
runs-on: ${{ matrix.os.name }}-${{ matrix.os.version }}
steps:
- uses: actions/checkout@v4
- name: Install Dependencies
if: matrix.os.name == 'ubuntu'
run: |
sudo apt-get update -y -qq
sudo apt-get install libsdl2-dev libgtk-3-dev gtksourceview-3.0 libao-dev libopenal-dev
- name: Make
run: make -j4 -C bsnes local=false
- name: Upload
uses: actions/upload-artifact@v4
with:
name: bsnes-${{ matrix.os.name }}
path: bsnes/out/bsnes*
release:
if: github.ref == 'refs/heads/master' || startsWith(github.ref, 'refs/tags/')
# Prevent multiple conflicting release jobs from running at once.
concurrency: release-${{ github.ref == 'refs/heads/master' && 'nightly' || github.ref }}
runs-on: ubuntu-latest
needs:
- build
steps:
- uses: actions/checkout@v4
with:
path: 'src'
- name: Download Artifacts
uses: actions/download-artifact@v4.1.7
with:
path: 'bin'
- name: Package Artifacts
run: |
set -eu
case ${GITHUB_REF} in
refs/tags/*) suffix="-${GITHUB_REF#refs/tags/}" ;;
refs/heads/master) suffix="-nightly" ;;
*) suffix="" ;;
esac
srcdir="${GITHUB_WORKSPACE}/src"
bindir="${GITHUB_WORKSPACE}/bin"
# Hack: Workaround for GitHub artifacts losing attributes.
for program in bsnes
do
chmod +x ${bindir}/${program}-ubuntu/${program}
chmod +x ${bindir}/${program}-macos/${program}.app/Contents/MacOS/${program}
done
for os in ubuntu windows macos
do
mkdir "${os}"
cd "${os}"
# Package bsnes.
outdir=bsnes${suffix}
mkdir ${outdir}
mkdir ${outdir}/Database
mkdir ${outdir}/Firmware
cp -ar ${bindir}/bsnes-${os}/* ${outdir}
cp -a ${srcdir}/bsnes/Database/* ${outdir}/Database
cp -a ${srcdir}/shaders ${outdir}/Shaders
cp -a ${srcdir}/GPLv3.txt ${outdir}
cp -a ${srcdir}/extras/* ${outdir}
zip -r ../bsnes-${os}.zip ${outdir}
cd -
done
- name: Calculate release info
id: relinfo
run: |
echo "datetime=$(date -u +"%Y-%m-%d %T %Z")" >> $GITHUB_OUTPUT
echo "date=$(date +"%Y-%m-%d")" >> $GITHUB_OUTPUT
- name: Delete old nightly release
uses: actions/github-script@v7
id: release
if: ${{!startsWith(github.ref, 'refs/tags/')}}
with:
retries: 3
script: |
const {owner, repo} = context.repo;
try {
const release = await github.rest.repos.getReleaseByTag({owner, repo, tag: "nightly"});
if (release && release.status === 200) {
await github.rest.repos.deleteRelease({owner, repo, release_id: release.data.id});
}
} catch (e) {
console.log(`error deleting old release: ${e}`);
}
try {
await github.rest.git.deleteRef({owner, repo, ref: "tags/nightly"});
} catch (e) {
console.log(`error trying to delete ref: ${e}`);
}
await github.rest.git.createTag({
owner,
repo,
tag: "nightly",
message: "nightly release",
object: context.sha,
type: "commit",
})
- name: Create nightly release
uses: softprops/action-gh-release@v1
if: ${{!startsWith(github.ref, 'refs/tags/')}}
with:
tag_name: nightly
name: bsnes nightly ${{steps.relinfo.outputs.date}}
body: Auto-generated nightly release on ${{steps.relinfo.outputs.datetime}}
files: bsnes*.zip
prerelease: true
- name: Create version release
uses: softprops/action-gh-release@v1
if: ${{startsWith(github.ref, 'refs/tags/')}}
with:
name: bsnes ${{github.ref_name}}
body: This is bsnes ${{github.ref_name}}, released on ${{steps.relinfo.outputs.date}}.
files: bsnes*.zip

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hiro/qt/qt.moc

59
CREDITS.md Normal file
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bsnes was originally developed by byuu, and is now a group project.
This software would not be where it is today without the help and support of the following individuals:
- Andreas Naive
- Ange Albertini
- anomie
- AWJ
- BearOso
- Bisqwit
- blargg
- byuu
- Łukasz Krawczyk
- Danish
- DerKoun
- DMV27
- Dr. Decapitator
- endrift
- Fatbag
- FitzRoy
- gekkio
- GIGO
- Hendricks266
- hex_usr
- ikari_01
- jchadwick
- Jonas Quinn
- kode54
- krom
- Lioncash
- Lord Nightmare
- lowkey
- Matthew Callis
- Max833
- MerryMage
- mightymo
- Nach
- ncbncb
- neviksti
- OV2
- Overload
- p4plus2
- quequotion
- qwertymodo
- RedDwarf
- Richard Bannister
- Ryphecha
- segher
- Sintendo
- SuperMikeMan
- Talarubi
- tetsuo55
- TmEE
- TRAC
- wareya
- zones
If you feel you are missing from this list, please submit a pull request and we will be happy to add your name here!

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GNU GENERAL PUBLIC LICENSE
Version 3, 29 June 2007
Copyright (C) 2007 Free Software Foundation, Inc. <https://fsf.org/>
Everyone is permitted to copy and distribute verbatim copies
of this license document, but changing it is not allowed.
Preamble
The GNU General Public License is a free, copyleft license for
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The licenses for most software and other practical works are designed
to take away your freedom to share and change the works. By contrast,
the GNU General Public License is intended to guarantee your freedom to
share and change all versions of a program--to make sure it remains free
software for all its users. We, the Free Software Foundation, use the
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any other work released this way by its authors. You can apply it to
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When we speak of free software, we are referring to freedom, not
price. Our General Public Licenses are designed to make sure that you
have the freedom to distribute copies of free software (and charge for
them if you wish), that you receive source code or can get it if you
want it, that you can change the software or use pieces of it in new
free programs, and that you know you can do these things.
To protect your rights, we need to prevent others from denying you
these rights or asking you to surrender the rights. Therefore, you have
certain responsibilities if you distribute copies of the software, or if
you modify it: responsibilities to respect the freedom of others.
For example, if you distribute copies of such a program, whether
gratis or for a fee, you must pass on to the recipients the same
freedoms that you received. You must make sure that they, too, receive
or can get the source code. And you must show them these terms so they
know their rights.
Developers that use the GNU GPL protect your rights with two steps:
(1) assert copyright on the software, and (2) offer you this License
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For the developers' and authors' protection, the GPL clearly explains
that there is no warranty for this free software. For both users' and
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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Also add information on how to contact you by electronic and paper mail.
If the program does terminal interaction, make it output a short
notice like this when it starts in an interactive mode:
<program> Copyright (C) <year> <name of author>
This program comes with ABSOLUTELY NO WARRANTY; for details type `show w'.
This is free software, and you are welcome to redistribute it
under certain conditions; type `show c' for details.
The hypothetical commands `show w' and `show c' should show the appropriate
parts of the General Public License. Of course, your program's commands
might be different; for a GUI interface, you would use an "about box".
You should also get your employer (if you work as a programmer) or school,
if any, to sign a "copyright disclaimer" for the program, if necessary.
For more information on this, and how to apply and follow the GNU GPL, see
<https://www.gnu.org/licenses/>.
The GNU General Public License does not permit incorporating your program
into proprietary programs. If your program is a subroutine library, you
may consider it more useful to permit linking proprietary applications with
the library. If this is what you want to do, use the GNU Lesser General
Public License instead of this License. But first, please read
<https://www.gnu.org/licenses/why-not-lgpl.html>.

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----------------------------------------------------------------------
bsnes - Super Nintendo emulator
Copyright © 2004-2020 byuu et al
https://byuu.org/bsnes/
This program is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program. If not, see <https://www.gnu.org/licenses/>.
----------------------------------------------------------------------
----------------------------------------------------------------------
libco - C cooperative threading library
nall - C++ template library
ruby - Hardware abstraction library
hiro - User interface library
Copyright © 2006-2020 byuu et al
Permission to use, copy, modify, and/or distribute this software for
any purpose with or without fee is hereby granted, provided that the
above copyright notice and this permission notice appear in all
copies.
THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL
WARRANTIES WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED
WARRANTIES OF MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE
AUTHOR BE LIABLE FOR ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL
DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR
PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER
TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR
PERFORMANCE OF THIS SOFTWARE.
----------------------------------------------------------------------

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bsnes
=====
![bsnes logo](bsnes/target-bsnes/resource/logo.png)
bsnes is a multi-platform Super Nintendo (Super Famicom) emulator, originally
developed by Near, which focuses on performance,
features, and ease of use.
Unique Features
---------------
- True Super Game Boy emulation (using the SameBoy core by Lior Halphon)
- HD mode 7 graphics with optional supersampling (by DerKoun)
- Low-level emulation of all SNES coprocessors (DSP-n, ST-01n, Cx4)
- Multi-threaded PPU graphics renderer
- Speed mode settings which retain smooth audio output (50%, 75%, 100%, 150%, 200%)
- Built-in games database with thousands of game entries
- Built-in cheat code database for hundreds of popular games (by mightymo)
- Built-in save state manager with screenshot previews and naming capabilities
- Customizable per-byte game mappings to support any cartridges, including prototype games
- 7-zip decompression support
- Extensive Satellaview emulation, including BS Memory flash write and wear-leveling emulation
- Optional higan game folder support (standard game ROM files are also fully supported!)
- Advanced mapping system allowing multiple bindings to every emulated input
Standard Features
-----------------
- MSU1 support
- BPS and IPS soft-patching support
- Save states with undo and redo support (for reverting accidental saves and loads)
- OpenGL multi-pass pixel shaders
- Several built-in software filters, including HQ2x (by MaxSt) and snes_ntsc (by blargg)
- Adaptive sync and dynamic rate control for perfect audio/video synchronization
- Just-in-time input polling for minimal input latency
- Run-ahead support for removing internal game engine input latency
- Support for Direct3D exclusive mode video
- Support for WASAPI exclusive mode audio
- Periodic auto-saving of game saves
- Auto-saving of states when unloading games, and auto-resuming of states when reloading games
- Sprite limit disable support
- Cubic audio interpolation support
- Optional high-level emulation of most SNES coprocessors
- Optional emulation of flaws in older emulators for compatibility with older unofficial software
- CPU, SA1, and SuperFX overclocking support
- Frame advance support
- Screenshot support
- Cheat code search support
- Movie recording and playback support
- Rewind support
- HiDPI support
- Multi-monitor support
- Turbo support for controller inputs
Links
-----
- [Official git repository](https://github.com/bsnes-emu/bsnes)
- [Official Discord](https://discord.gg/B27hf27ZVf)
Nightly Builds
--------------
- [Windows](https://github.com/bsnes-emu/bsnes/releases/download/nightly/bsnes-windows.zip)
- [macOS](https://github.com/bsnes-emu/bsnes/releases/download/nightly/bsnes-macos.zip)
- [Linux](https://github.com/bsnes-emu/bsnes/releases/download/nightly/bsnes-ubuntu.zip)
- [FreeBSD](https://api.cirrus-ci.com/v1/artifact/github/bsnes-emu/bsnes/freebsd-x86_64-binaries/bsnes-nightly/bsnes-nightly.zip)
Preview
-------
![bsnes user interface](.assets/user-interface.png)
![bsnes running Bahamut Lagoon](.assets/bahamut-lagoon.png)
![bsnes running Tengai Makyou Zero](.assets/tengai-makyou-zero.png)

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database
revision: 2020-01-01
//BS Memory (JPN)
database
revision: 2018-04-14
game
sha256: 80c34b50817d58820bc8c88d2d9fa462550b4a76372e19c6467cbfbc8cf5d9ef
label: 鮫亀 キャラカセット
name: Same Game - Chara Cassette
region: BSMC-ZS5J-JPN
revision: BSMC-ZS5J-0
board: BSMC-CR-01
memory
type: ROM
size: 0x80000
content: Program
game
sha256: 859c7f7b4771d920a5bdb11f1d247ab6b43fb026594d1062f6f72d32cd340a0a
label: 鮫亀 キャラデータ集
name: Same Game - Chara Data Shuu
region: BSMC-YS5J-JPN
revision: BSMC-YS5J-0
board: BSMC-CR-01
memory
type: ROM
size: 0x80000
content: Program
game
sha256: c92a15fdd9b0133f9ea69105d0230a3acd1cdeef98567462eca86ea02a959e4e
label: SDガンダム ジーネクスト ユニット&マップコレクション
name: SD Gundam G Next - Unit & Map Collection
region: BSMC-ZX3J-JPN
revision: BSMC-ZX3J-0
board: BSMC-BR-01
memory
type: ROM
size: 0x80000
content: Program

87497
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database
revision: 2020-01-01
//Sufami Turbo (JPN)
database
revision: 2018-04-14
game
sha256: f73bda08743565e0bd101632ebbac2d363d703a3ab39d23f49d95217cab29269
label: 美少女戦士セーラームーン セーラースターズ ふわふわパニック2
name: Bishoujo Senshi Sailor Moon Sailor Stars - Fuwafuwa Panic 2
region: SFT-0112-JPN
revision: SAILOR MOON
board: PT-911
memory
type: ROM
size: 0x100000
content: Program
note: Unlinkable
game
sha256: afb3f2a83b5bfcb1b8829b6995f108cc4d64ca322d1ba4a50b83af6e1f2e89bd
label: クレヨンしんちゃん 長ぐつドボン!!
name: Crayon Shin-chan - Nagagutsu Dobon!!
region: SFT-0113-JPN
revision: SHINCYAN
board: PT-911
memory
type: ROM
size: 0x80000
content: Program
note: Unlinkable
game
sha256: d93b3a570e7cf343f680ab0768a50b77e3577f9c555007e2de3decd6bc4765c8
label: ゲゲゲの鬼太郎 妖怪ドンジャラ
name: Gegege no Kitarou - Youkai Donjara
region: SFT-0106-JPN
revision: KITARO DONJYAR
board: PT-911
memory
type: ROM
size: 0x80000
content: Program
note: Unlinkable
game
sha256: 89aecd4e23d8219c8de3e71bb75db3dfe667d51c1eba4ea7239d2f772743d0cc
label: 激走戦隊カーレンジャ 全開!レーサー戦士
name: Gekisou Sentai Carranger - Zenkai! Racer Senshi
region: SFT-0109-JPN
revision: CAR RANGER
board: PT-911
memory
type: ROM
size: 0x80000
content: Program
note: Unlinkable
game
sha256: 602b20b788640f5743487108a10f3f77bca5ce2d24208b25b1ca498a96eb0d69
label: ぽいぽい忍者ワールド
name: Poi Poi Ninja World
region: SFT-0103-JPN
revision: POI POI NINJYA
board: PT-911
memory
type: ROM
size: 0x80000
content: Program
memory
type: RAM
size: 0x800
content: Save
note: Linkable: SFT-0103-JPN
game
sha256: 2a9d7c9a61318861028a73ca03e32a48cff162d76cba36fbaab8690b212efe9b
label: SDガンダムジェネレーション アクシズ戦記
name: SD Gundam Generation - Axis Senki
region: SFT-0107-JPN
revision: GUNDAM C
board: PT-912
memory
type: ROM
size: 0x80000
content: Program
memory
type: RAM
size: 0x2000
content: Save
note: Linkable: SFT-0104-JPN, SFT-0105-JPN, SFT-0107-JPN, SFT-0108-JPN, SFT-0110-JPN, SFT-0111-JPN
game
sha256: 60ac017c18f534e8cf24ca7f38e22ce92db95ea6c30b2d59d76f13c4f1c8a6e4
label: SDガンダムジェネレーション バビロニア建国戦記
name: SD Gundam Generation - Babylonia Kenkoku Senki
region: SFT-0108-JPN
revision: GUNDAM D
board: PT-912
memory
type: ROM
size: 0x80000
content: Program
memory
type: RAM
size: 0x2000
content: Save
note: Linkable: SFT-0104-JPN, SFT-0105-JPN, SFT-0107-JPN, SFT-0108-JPN, SFT-0110-JPN, SFT-0111-JPN
game
sha256: e639b5d5d722432b6809ccc6801dc584e1a3016379f34b335ed2dfa73b1ebf69
label: SDガンダムジェネレーション コロニー格闘記
name: SD Gundam Generation - Colony Kakutouki
region: SFT-0111-JPN
revision: GUNDAM F
board: PT-912
memory
type: ROM
size: 0x80000
content: Program
memory
type: RAM
size: 0x2000
content: Save
note: Linkable: SFT-0104-JPN, SFT-0105-JPN, SFT-0107-JPN, SFT-0108-JPN, SFT-0110-JPN, SFT-0111-JPN
game
sha256: 8547a08ed11fe408eac282a90ac46654bd2e5f49bda3aec8e5edf166a0a4b9af
label: SDガンダムジェネレーション グリプス戦記
name: SD Gundam Generation - Gryps Senki
region: SFT-0105-JPN
revision: GUNDAM B
board: PT-912
memory
type: ROM
size: 0x80000
content: Program
memory
type: RAM
size: 0x2000
content: Save
note: Linkable: SFT-0104-JPN, SFT-0105-JPN, SFT-0107-JPN, SFT-0108-JPN, SFT-0110-JPN, SFT-0111-JPN
game
sha256: 3e82215bed08274874b30d461fc4a965c6bca932229da5d46d56e36f484d65eb
label: SDガンダムジェネレーション 一年戦争記
name: SD Gundam Generation - Ichinen Sensouki
region: SFT-0104-JPN
revision: GUNDAM A
board: PT-912
memory
type: ROM
size: 0x80000
content: Program
memory
type: RAM
size: 0x2000
content: Save
note: Linkable: SFT-0104-JPN, SFT-0105-JPN, SFT-0107-JPN, SFT-0108-JPN, SFT-0110-JPN, SFT-0111-JPN
game
sha256: 5951a58a91d8e397d0a237ccc2b1248e17c7312cb9cc11cbc350200a97b4e021
label: SDガンダムジェネレーション ザンスカール戦記
name: SD Gundam Generation - Zanscare Senki
region: SFT-0110-JPN
revision: GUNDAM E
board: PT-912
memory
type: ROM
size: 0x80000
content: Program
memory
type: RAM
size: 0x2000
content: Save
note: Linkable: SFT-0104-JPN, SFT-0105-JPN, SFT-0107-JPN, SFT-0108-JPN, SFT-0110-JPN, SFT-0111-JPN
game
sha256: 2fec5f2bc7dee010af10569a3d2bc18715a79a126940800c3eade5abbd625e3f
label: SDウルトラバトル セブン伝説
name: SD Ultra Battle - Seven Densetsu
region: SFT-0102-JPN
revision: ULTRA SEVEN 1
board: PT-911
memory
type: ROM
size: 0x80000
content: Program
memory
type: RAM
size: 0x800
content: Save
note: Linkable: SFT-0101-JPN, SFT-0102-JPN
game
sha256: 2bb55214fb668ca603d7b944b14f105dfb10b987a8902d420fe4ae1cb69c1d4a
label: SDウルトラバトル ウルトラマン伝説
name: SD Ultra Battle - Ultraman Densetsu
region: SFT-0101-JPN
revision: ULTRA MAN 1
board: PT-911
memory
type: ROM
size: 0x80000
content: Program
memory
type: RAM
size: 0x800
content: Save
note: Linkable: SFT-0101-JPN, SFT-0102-JPN

16101
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target := bsnes
binary := application
build := performance
openmp := true
local := true
flags += -I. -I..
# in order for this to work, obj/lzma.o must be omitted or bsnes will hang on startup.
# further, only the X-Video driver works reliably. OpenGL 3.2, OpenGL 2.0, and XShm crash bsnes.
ifeq ($(profile),true)
flags += -pg
options += -pg
endif
# binaries built with this flag are faster, but are not portable to multiple machines.
ifeq ($(local),true)
flags += -march=native
endif
nall.path := ../nall
include $(nall.path)/GNUmakefile
ifeq ($(platform),windows)
ifeq ($(binary),application)
options += -luuid -lkernel32 -luser32 -lgdi32 -lcomctl32 -lcomdlg32 -lshell32
options += -Wl,-enable-auto-import
options += -Wl,-enable-runtime-pseudo-reloc
else ifeq ($(binary),library)
options += -shared
endif
else ifeq ($(platform),macos)
ifeq ($(binary),application)
else ifeq ($(binary),library)
flags += -fPIC
options += -dynamiclib
endif
else ifneq ($(filter $(platform),linux bsd),)
ifeq ($(binary),application)
options += -Wl,-export-dynamic
options += -lX11 -lXext
else ifeq ($(binary),library)
flags += -fPIC
options += -shared
endif
endif
objects := libco emulator filter lzma
obj/libco.o: ../libco/libco.c
obj/emulator.o: emulator/emulator.cpp
obj/filter.o: filter/filter.cpp
obj/lzma.o: lzma/lzma.cpp
include sfc/GNUmakefile
include gb/GNUmakefile
include processor/GNUmakefile
ui := target-$(target)
include $(ui)/GNUmakefile
-include obj/*.d
clean:
$(call delete,obj/*)
$(call delete,out/*)

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locale
language: 日本語
namespace: MessageDialog
map
input: Yes
value: はい
map
input: No
value: いいえ
map
input: Cancel
value: キャンセル
namespace: BrowserDialog
map
input: Open
value: 開く
map
input: Save
value: 保存
map
input: Select
value: 選択
map
input: Cancel
value: キャンセル
namespace: Program
map
input: Unloaded
value: アンロードされる
map
input: Paused
value: ポーズ
namespace: Presentation
map
input: System
value: システム
map
input: Load Game
value: ゲームを読み込み
map
input: Load Recent Game
value: 最新ゲームを読み込み
map
input: empty
value: なし
map
input: Clear List
value: 全部を消す
map
input: Reset System
value: システムをリセット
map
input: Unload Game
value: ゲームをアンロード
map
input: Controller Port 1
value: コントローラポート1
map
input: Controller Port 2
value: コントローラポート2
map
input: Expansion Port
value: 拡張ポート
map
input: Gamepad
value: ゲームパッド
map
input: Mouse
value: マウス
map
input: Super Multitap
value: スーパーマルチタップ
map
input: Super Scope
value: スーパースコップ
map
input: Justifier
value: 1挺のジャスティファイアー
map
input: Justifiers
value: 2挺のジャスティファイアー
map
input: None
value: なし
map
input: Satellaview
value: サテラビュー
map
input: Quit
value: 終了
map
input: Settings
value: 設定
map
input: Tools
value: ツール
map
input: Help
value: ヘルプ
map
input: Documentation
value: オンラインマニュアル
map
input: About
value: 情報
namespace: AboutWindow
map
input: About {0}
value: {0}について
map
input: Version
value: バージョン
map
input: Author
value: 作者
map
input: License
value: ライセンス
map
input: Website
value: 公式サイト

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bsnes source code
=================
A guide to what all these directories are for:
- [Database](./Database/)
contains the databases bsnes uses
to figure out what circuit board a game expects,
and also the database of pre-made game cheats
- [emulator](./emulator/)
contains the interface
that the emulation core in [sfc](./sfc/) implements
- It comes from higan v106,
which has many emulation cores
that all implement the same interface —
bsnes only has one,
but the interface is still a good abstraction,
so it's still here.
- [filter](./filter/)
contains classic CPU-based image upscaling filters,
like HQ2x and Super Eagle
- [gb](./gb/)
contains the SameBoy emulator code
used for Super Game Boy emulation
- [heuristics](./heuristics/)
contains the logic that guesses
which memory map a particular game expects
and what extra hardware it assumes is present,
when a game cannot be found in the database
- [Locale](./Locale/)
contains translation databases
that bsnes can use to display its user interface
in a different language
- [lzma](./lzma/)
contains the 7-Zip SDK
allowing bsnes to understad `.7z` archives
- [processor](./processor/)
contains all the CPU emulation cores
used by the hardware bsnes emulates
- Another holdover from higan v106,
where different supported systems
happen to use the same model CPU,
so the CPU emulation cores
are not specific to a system
- [sfc](./sfc/)
contains Super Famicom (SNES) emulation code
- [target-bsnes](./target-bsnes/)
contains the normal bsnes user interface
- [target-libretro](./target-libretro/)
implements the "libretro" API
on top of bsnes' native
[emulator](./emulator/) API,
so bsnes can be used with libretro-based frontends

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namespace Emulator {
#include "stream.cpp"
Audio audio;
Audio::~Audio() {
reset(nullptr);
}
auto Audio::reset(Interface* interface) -> void {
_interface = interface;
_streams.reset();
_channels = 0;
}
auto Audio::setFrequency(double frequency) -> void {
_frequency = frequency;
for(auto& stream : _streams) {
stream->setFrequency(stream->inputFrequency, frequency);
}
}
auto Audio::setVolume(double volume) -> void {
_volume = volume;
}
auto Audio::setBalance(double balance) -> void {
_balance = balance;
}
auto Audio::createStream(uint channels, double frequency) -> shared_pointer<Stream> {
_channels = max(_channels, channels);
shared_pointer<Stream> stream = new Stream;
stream->reset(channels, frequency, _frequency);
_streams.append(stream);
return stream;
}
auto Audio::process() -> void {
while(_streams) {
for(auto& stream : _streams) {
if(!stream->pending()) return;
}
double samples[_channels];
for(auto& sample : samples) sample = 0.0;
for(auto& stream : _streams) {
double buffer[_channels];
uint length = stream->read(buffer), offset = 0;
for(auto& sample : samples) {
sample += buffer[offset];
if(++offset >= length) offset = 0;
}
}
for(auto c : range(_channels)) {
samples[c] = max(-1.0, min(+1.0, samples[c] * _volume));
}
if(_channels == 2) {
if(_balance < 0.0) samples[1] *= 1.0 + _balance;
if(_balance > 0.0) samples[0] *= 1.0 - _balance;
}
platform->audioFrame(samples, _channels);
}
}
}
#undef double

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#pragma once
#include <nall/dsp/iir/dc-removal.hpp>
#include <nall/dsp/iir/one-pole.hpp>
#include <nall/dsp/iir/biquad.hpp>
#include <nall/dsp/resampler/cubic.hpp>
namespace Emulator {
struct Interface;
struct Audio;
struct Filter;
struct Stream;
struct Audio {
~Audio();
auto reset(Interface* interface) -> void;
inline auto channels() const -> uint { return _channels; }
inline auto frequency() const -> double { return _frequency; }
inline auto volume() const -> double { return _volume; }
inline auto balance() const -> double { return _balance; }
auto setFrequency(double frequency) -> void;
auto setVolume(double volume) -> void;
auto setBalance(double balance) -> void;
auto createStream(uint channels, double frequency) -> shared_pointer<Stream>;
private:
auto process() -> void;
Interface* _interface = nullptr;
vector<shared_pointer<Stream>> _streams;
uint _channels = 0;
double _frequency = 48000.0;
double _volume = 1.0;
double _balance = 0.0;
friend class Stream;
};
struct Filter {
enum class Mode : uint { DCRemoval, OnePole, Biquad } mode;
enum class Type : uint { None, LowPass, HighPass } type;
enum class Order : uint { None, First, Second } order;
DSP::IIR::DCRemoval dcRemoval;
DSP::IIR::OnePole onePole;
DSP::IIR::Biquad biquad;
};
struct Stream {
auto reset(uint channels, double inputFrequency, double outputFrequency) -> void;
auto reset() -> void;
auto frequency() const -> double;
auto setFrequency(double inputFrequency, maybe<double> outputFrequency = nothing) -> void;
auto addDCRemovalFilter() -> void;
auto addLowPassFilter(double cutoffFrequency, Filter::Order order, uint passes = 1) -> void;
auto addHighPassFilter(double cutoffFrequency, Filter::Order order, uint passes = 1) -> void;
auto pending() const -> uint;
auto read(double samples[]) -> uint;
auto write(const double samples[]) -> void;
template<typename... P> auto sample(P&&... p) -> void {
double samples[sizeof...(P)] = {forward<P>(p)...};
write(samples);
}
auto serialize(serializer&) -> void;
private:
struct Channel {
vector<Filter> filters;
vector<DSP::IIR::Biquad> nyquist;
DSP::Resampler::Cubic resampler;
};
vector<Channel> channels;
double inputFrequency;
double outputFrequency;
friend class Audio;
};
extern Audio audio;
}
#undef double

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auto Stream::reset(uint channelCount, double inputFrequency, double outputFrequency) -> void {
channels.reset();
channels.resize(channelCount);
for(auto& channel : channels) {
channel.filters.reset();
}
setFrequency(inputFrequency, outputFrequency);
}
auto Stream::reset() -> void {
for(auto& channel : channels) {
channel.resampler.reset(this->inputFrequency, this->outputFrequency);
}
}
auto Stream::frequency() const -> double {
return inputFrequency;
}
auto Stream::setFrequency(double inputFrequency, maybe<double> outputFrequency) -> void {
this->inputFrequency = inputFrequency;
if(outputFrequency) this->outputFrequency = outputFrequency();
for(auto& channel : channels) {
channel.nyquist.reset();
channel.resampler.reset(this->inputFrequency, this->outputFrequency);
}
if(this->inputFrequency >= this->outputFrequency * 2) {
//add a low-pass filter to prevent aliasing during resampling
double cutoffFrequency = min(25000.0, this->outputFrequency / 2.0 - 2000.0);
for(auto& channel : channels) {
uint passes = 3;
for(uint pass : range(passes)) {
DSP::IIR::Biquad filter;
double q = DSP::IIR::Biquad::butterworth(passes * 2, pass);
filter.reset(DSP::IIR::Biquad::Type::LowPass, cutoffFrequency, this->inputFrequency, q);
channel.nyquist.append(filter);
}
}
}
}
auto Stream::addDCRemovalFilter() -> void {
return; //todo: test to ensure this is desirable before enabling
for(auto& channel : channels) {
Filter filter{Filter::Mode::DCRemoval, Filter::Type::None, Filter::Order::None};
channel.filters.append(filter);
}
}
auto Stream::addLowPassFilter(double cutoffFrequency, Filter::Order order, uint passes) -> void {
for(auto& channel : channels) {
for(uint pass : range(passes)) {
if(order == Filter::Order::First) {
Filter filter{Filter::Mode::OnePole, Filter::Type::LowPass, Filter::Order::First};
filter.onePole.reset(DSP::IIR::OnePole::Type::LowPass, cutoffFrequency, inputFrequency);
channel.filters.append(filter);
}
if(order == Filter::Order::Second) {
Filter filter{Filter::Mode::Biquad, Filter::Type::LowPass, Filter::Order::Second};
double q = DSP::IIR::Biquad::butterworth(passes * 2, pass);
filter.biquad.reset(DSP::IIR::Biquad::Type::LowPass, cutoffFrequency, inputFrequency, q);
channel.filters.append(filter);
}
}
}
}
auto Stream::addHighPassFilter(double cutoffFrequency, Filter::Order order, uint passes) -> void {
for(auto& channel : channels) {
for(uint pass : range(passes)) {
if(order == Filter::Order::First) {
Filter filter{Filter::Mode::OnePole, Filter::Type::HighPass, Filter::Order::First};
filter.onePole.reset(DSP::IIR::OnePole::Type::HighPass, cutoffFrequency, inputFrequency);
channel.filters.append(filter);
}
if(order == Filter::Order::Second) {
Filter filter{Filter::Mode::Biquad, Filter::Type::HighPass, Filter::Order::Second};
double q = DSP::IIR::Biquad::butterworth(passes * 2, pass);
filter.biquad.reset(DSP::IIR::Biquad::Type::HighPass, cutoffFrequency, inputFrequency, q);
channel.filters.append(filter);
}
}
}
}
auto Stream::pending() const -> uint {
if(!channels) return 0;
return channels[0].resampler.pending();
}
auto Stream::read(double samples[]) -> uint {
for(uint c : range(channels.size())) samples[c] = channels[c].resampler.read();
return channels.size();
}
auto Stream::write(const double samples[]) -> void {
for(auto c : range(channels.size())) {
double sample = samples[c] + 1e-25; //constant offset used to suppress denormals
for(auto& filter : channels[c].filters) {
switch(filter.mode) {
case Filter::Mode::DCRemoval: sample = filter.dcRemoval.process(sample); break;
case Filter::Mode::OnePole: sample = filter.onePole.process(sample); break;
case Filter::Mode::Biquad: sample = filter.biquad.process(sample); break;
}
}
for(auto& filter : channels[c].nyquist) {
sample = filter.process(sample);
}
channels[c].resampler.write(sample);
}
audio.process();
}
auto Stream::serialize(serializer& s) -> void {
for(auto& channel : channels) {
channel.resampler.serialize(s);
}
s.real(inputFrequency);
s.real(outputFrequency);
}

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#pragma once
namespace Emulator {
struct Cheat {
struct Code {
auto operator==(const Code& code) const -> bool {
if(address != code.address) return false;
if(data != code.data) return false;
if((bool)compare != (bool)code.compare) return false;
if(compare && code.compare && compare() != code.compare()) return false;
return true;
}
uint address;
uint data;
maybe<uint> compare;
bool enable;
uint restore;
};
explicit operator bool() const {
return codes.size() > 0;
}
auto reset() -> void {
codes.reset();
}
auto append(uint address, uint data, maybe<uint> compare = {}) -> void {
codes.append({address, data, compare});
}
auto assign(const vector<string>& list) -> void {
reset();
for(auto& entry : list) {
for(auto code : entry.split("+")) {
auto part = code.transform("=?", "//").split("/");
if(part.size() == 2) append(part[0].hex(), part[1].hex());
if(part.size() == 3) append(part[0].hex(), part[2].hex(), part[1].hex());
}
}
}
auto find(uint address, uint compare) -> maybe<uint> {
for(auto& code : codes) {
if(code.address == address && (!code.compare || code.compare() == compare)) {
return code.data;
}
}
return nothing;
}
vector<Code> codes;
};
}

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#include <emulator/emulator.hpp>
#include <emulator/audio/audio.cpp>
namespace Emulator {
Platform* platform = nullptr;
}

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#pragma once
#include <libco/libco.h>
#include <nall/platform.hpp>
#include <nall/adaptive-array.hpp>
#include <nall/any.hpp>
#include <nall/chrono.hpp>
#include <nall/dl.hpp>
#include <nall/endian.hpp>
#include <nall/image.hpp>
#include <nall/literals.hpp>
#include <nall/random.hpp>
#include <nall/serializer.hpp>
#include <nall/shared-pointer.hpp>
#include <nall/string.hpp>
#include <nall/traits.hpp>
#include <nall/unique-pointer.hpp>
#include <nall/vector.hpp>
#include <nall/vfs.hpp>
#include <nall/hash/crc32.hpp>
#include <nall/hash/sha256.hpp>
using namespace nall;
#include <emulator/types.hpp>
#include <emulator/memory/readable.hpp>
#include <emulator/memory/writable.hpp>
#include <emulator/audio/audio.hpp>
namespace Emulator {
static const string Name = "bsnes";
static const string Version = "115";
static const string Copyright = "bsnes team";
static const string License = "GPLv3 or later";
static const string Website = "https://bsnes.dev";
//incremented only when serialization format changes
static const string SerializerVersion = "115";
namespace Constants {
namespace Colorburst {
static constexpr double NTSC = 315.0 / 88.0 * 1'000'000.0;
static constexpr double PAL = 283.75 * 15'625.0 + 25.0;
}
}
//nall/vfs shorthand constants for open(), load()
namespace File {
static const auto Read = vfs::file::mode::read;
static const auto Write = vfs::file::mode::write;
static const auto Optional = false;
static const auto Required = true;
};
}
#include "platform.hpp"
#include "interface.hpp"
#include "game.hpp"

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#pragma once
namespace Emulator {
struct Game {
struct Memory;
struct Oscillator;
inline auto load(string_view) -> void;
inline auto memory(Markup::Node) -> maybe<Memory>;
inline auto oscillator(natural = 0) -> maybe<Oscillator>;
struct Memory {
Memory() = default;
inline Memory(Markup::Node);
explicit operator bool() const { return (bool)type; }
inline auto name() const -> string;
string type;
natural size;
string content;
string manufacturer;
string architecture;
string identifier;
boolean nonVolatile;
};
struct Oscillator {
Oscillator() = default;
inline Oscillator(Markup::Node);
explicit operator bool() const { return frequency; }
natural frequency;
};
Markup::Node document;
string sha256;
string label;
string name;
string title;
string region;
string revision;
string board;
vector<Memory> memoryList;
vector<Oscillator> oscillatorList;
};
auto Game::load(string_view text) -> void {
document = BML::unserialize(text);
sha256 = document["game/sha256"].text();
label = document["game/label"].text();
name = document["game/name"].text();
title = document["game/title"].text();
region = document["game/region"].text();
revision = document["game/revision"].text();
board = document["game/board"].text();
for(auto node : document.find("game/board/memory")) {
memoryList.append(Memory{node});
}
for(auto node : document.find("game/board/oscillator")) {
oscillatorList.append(Oscillator{node});
}
}
auto Game::memory(Markup::Node node) -> maybe<Memory> {
if(!node) return nothing;
for(auto& memory : memoryList) {
auto type = node["type"].text();
auto size = node["size"].natural();
auto content = node["content"].text();
auto manufacturer = node["manufacturer"].text();
auto architecture = node["architecture"].text();
auto identifier = node["identifier"].text();
if(type && type != memory.type) continue;
if(size && size != memory.size) continue;
if(content && content != memory.content) continue;
if(manufacturer && manufacturer != memory.manufacturer) continue;
if(architecture && architecture != memory.architecture) continue;
if(identifier && identifier != memory.identifier) continue;
return memory;
}
return nothing;
}
auto Game::oscillator(natural index) -> maybe<Oscillator> {
if(index < oscillatorList.size()) return oscillatorList[index];
return nothing;
}
Game::Memory::Memory(Markup::Node node) {
type = node["type"].text();
size = node["size"].natural();
content = node["content"].text();
manufacturer = node["manufacturer"].text();
architecture = node["architecture"].text();
identifier = node["identifier"].text();
nonVolatile = !(bool)node["volatile"];
}
auto Game::Memory::name() const -> string {
if(architecture) return string{architecture, ".", content, ".", type}.downcase();
return string{content, ".", type}.downcase();
}
Game::Oscillator::Oscillator(Markup::Node node) {
frequency = node["frequency"].natural();
}
}

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#pragma once
namespace Emulator {
struct Interface {
struct Information {
string manufacturer;
string name;
string extension;
bool resettable = false;
};
struct Display {
struct Type { enum : uint {
CRT,
LCD,
};};
uint id = 0;
string name;
uint type = 0;
uint colors = 0;
uint width = 0;
uint height = 0;
uint internalWidth = 0;
uint internalHeight = 0;
double aspectCorrection = 0;
};
struct Port {
uint id;
string name;
};
struct Device {
uint id;
string name;
};
struct Input {
struct Type { enum : uint {
Hat,
Button,
Trigger,
Control,
Axis,
Rumble,
};};
uint type;
string name;
};
//information
virtual auto information() -> Information { return {}; }
virtual auto display() -> Display { return {}; }
virtual auto color(uint32 color) -> uint64 { return 0; }
//game interface
virtual auto loaded() -> bool { return false; }
virtual auto hashes() -> vector<string> { return {}; }
virtual auto manifests() -> vector<string> { return {}; }
virtual auto titles() -> vector<string> { return {}; }
virtual auto title() -> string { return {}; }
virtual auto load() -> bool { return false; }
virtual auto save() -> void {}
virtual auto unload() -> void {}
//system interface
virtual auto ports() -> vector<Port> { return {}; }
virtual auto devices(uint port) -> vector<Device> { return {}; }
virtual auto inputs(uint device) -> vector<Input> { return {}; }
virtual auto connected(uint port) -> uint { return 0; }
virtual auto connect(uint port, uint device) -> void {}
virtual auto power() -> void {}
virtual auto reset() -> void {}
virtual auto run() -> void {}
//time functions
virtual auto rtc() -> bool { return false; }
virtual auto synchronize(uint64 timestamp = 0) -> void {}
//state functions
virtual auto serialize(bool synchronize = true) -> serializer { return {}; }
virtual auto unserialize(serializer&) -> bool { return false; }
//cheat functions
virtual auto read(uint24 address) -> uint8 { return 0; }
virtual auto cheats(const vector<string>& = {}) -> void {}
//configuration
virtual auto configuration() -> string { return {}; }
virtual auto configuration(string name) -> string { return {}; }
virtual auto configure(string configuration = "") -> bool { return false; }
virtual auto configure(string name, string value) -> bool { return false; }
//settings
virtual auto cap(const string& name) -> bool { return false; }
virtual auto get(const string& name) -> any { return {}; }
virtual auto set(const string& name, const any& value) -> bool { return false; }
virtual auto frameSkip() -> uint { return 0; }
virtual auto setFrameSkip(uint frameSkip) -> void {}
virtual auto runAhead() -> bool { return false; }
virtual auto setRunAhead(bool runAhead) -> void {}
};
}

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#pragma once
namespace Emulator::Memory {
inline auto mirror(uint address, uint size) -> uint {
if(size == 0) return 0;
uint base = 0;
uint mask = 1 << 31;
while(address >= size) {
while(!(address & mask)) mask >>= 1;
address -= mask;
if(size > mask) {
size -= mask;
base += mask;
}
mask >>= 1;
}
return base + address;
}
inline auto reduce(uint address, uint mask) -> uint {
while(mask) {
uint bits = (mask & -mask) - 1;
address = address >> 1 & ~bits | address & bits;
mask = (mask & mask - 1) >> 1;
}
return address;
}
}

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#pragma once
#include <emulator/memory/memory.hpp>
namespace Emulator::Memory {
template<typename T>
struct Readable {
~Readable() { reset(); }
inline auto reset() -> void {
delete[] self.data;
self.data = nullptr;
self.size = 0;
self.mask = 0;
}
inline auto allocate(uint size, T fill = ~0ull) -> void {
if(!size) return reset();
delete[] self.data;
self.size = size;
self.mask = bit::round(self.size) - 1;
self.data = new T[self.mask + 1];
memory::fill<T>(self.data, self.mask + 1, fill);
}
inline auto load(shared_pointer<vfs::file> fp) -> void {
fp->read(self.data, min(fp->size(), self.size * sizeof(T)));
for(uint address = self.size; address <= self.mask; address++) {
self.data[address] = self.data[mirror(address, self.size)];
}
}
inline auto save(shared_pointer<vfs::file> fp) -> void {
fp->write(self.data, self.size * sizeof(T));
}
explicit operator bool() const { return (bool)self.data; }
inline auto data() const -> const T* { return self.data; }
inline auto size() const -> uint { return self.size; }
inline auto mask() const -> uint { return self.mask; }
inline auto operator[](uint address) const -> T { return self.data[address & self.mask]; }
inline auto read(uint address) const -> T { return self.data[address & self.mask]; }
inline auto write(uint address, T data) const -> void {}
auto serialize(serializer& s) -> void {
const uint size = self.size;
s.integer(self.size);
s.integer(self.mask);
if(self.size != size) allocate(self.size);
s.array(self.data, self.size);
}
private:
struct {
T* data = nullptr;
uint size = 0;
uint mask = 0;
} self;
};
}

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#pragma once
#include <emulator/memory/memory.hpp>
namespace Emulator::Memory {
template<typename T>
struct Writable {
~Writable() { reset(); }
inline auto reset() -> void {
delete[] self.data;
self.data = nullptr;
self.size = 0;
self.mask = 0;
}
inline auto allocate(uint size, T fill = ~0ull) -> void {
if(!size) return reset();
delete[] self.data;
self.size = size;
self.mask = bit::round(self.size) - 1;
self.data = new T[self.mask + 1];
memory::fill<T>(self.data, self.mask + 1, fill);
}
inline auto load(shared_pointer<vfs::file> fp) -> void {
fp->read(self.data, min(fp->size(), self.size * sizeof(T)));
for(uint address = self.size; address <= self.mask; address++) {
self.data[address] = self.data[mirror(address, self.size)];
}
}
inline auto save(shared_pointer<vfs::file> fp) -> void {
fp->write(self.data, self.size * sizeof(T));
}
explicit operator bool() const { return (bool)self.data; }
inline auto data() -> T* { return self.data; }
inline auto data() const -> const T* { return self.data; }
inline auto size() const -> uint { return self.size; }
inline auto mask() const -> uint { return self.mask; }
inline auto operator[](uint address) -> T& { return self.data[address & self.mask]; }
inline auto operator[](uint address) const -> T { return self.data[address & self.mask]; }
inline auto read(uint address) const -> T { return self.data[address & self.mask]; }
inline auto write(uint address, T data) -> void { self.data[address & self.mask] = data; }
auto serialize(serializer& s) -> void {
const uint size = self.size;
s.integer(self.size);
s.integer(self.mask);
if(self.size != size) allocate(self.size);
s.array(self.data, self.size);
}
private:
struct {
T* data = nullptr;
uint size = 0;
uint mask = 0;
} self;
};
}

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#pragma once
namespace Emulator {
struct Platform {
struct Load {
Load() = default;
Load(uint pathID, string option = "") : valid(true), pathID(pathID), option(option) {}
explicit operator bool() const { return valid; }
bool valid = false;
uint pathID = 0;
string option;
};
virtual auto path(uint id) -> string { return ""; }
virtual auto open(uint id, string name, vfs::file::mode mode, bool required = false) -> shared_pointer<vfs::file> { return {}; }
virtual auto load(uint id, string name, string type, vector<string> options = {}) -> Load { return {}; }
virtual auto videoFrame(const uint16* data, uint pitch, uint width, uint height, uint scale) -> void {}
virtual auto audioFrame(const double* samples, uint channels) -> void {}
virtual auto inputPoll(uint port, uint device, uint input) -> int16 { return 0; }
virtual auto inputRumble(uint port, uint device, uint input, bool enable) -> void {}
virtual auto dipSettings(Markup::Node node) -> uint { return 0; }
virtual auto notify(string text) -> void {}
};
extern Platform* platform;
}

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#pragma once
namespace Emulator {
struct Random {
enum class Entropy : uint { None, Low, High };
auto operator()() -> uint64 {
return random();
}
auto entropy(Entropy entropy) -> void {
_entropy = entropy;
seed();
}
auto seed(maybe<uint32> seed = nothing, maybe<uint32> sequence = nothing) -> void {
if(!seed) seed = (uint32)clock();
if(!sequence) sequence = 0;
_state = 0;
_increment = sequence() << 1 | 1;
step();
_state += seed();
step();
}
auto random() -> uint64 {
if(_entropy == Entropy::None) return 0;
return (uint64)step() << 32 | (uint64)step() << 0;
}
auto bias(uint64 bias) -> uint64 {
if(_entropy == Entropy::None) return bias;
return random();
}
auto bound(uint64 bound) -> uint64 {
uint64 threshold = -bound % bound;
while(true) {
uint64 result = random();
if(result >= threshold) return result % bound;
}
}
auto array(uint8* data, uint32 size) -> void {
if(_entropy == Entropy::None) {
memory::fill(data, size);
return;
}
if(_entropy == Entropy::High) {
for(uint32 address : range(size)) {
data[address] = random();
}
return;
}
//Entropy::Low
uint lobit = random() & 3;
uint hibit = (lobit + 8 + (random() & 3)) & 15;
uint lovalue = random() & 255;
uint hivalue = random() & 255;
if((random() & 3) == 0) lovalue = 0;
if((random() & 1) == 0) hivalue = ~lovalue;
for(uint32 address : range(size)) {
uint8 value = (address & 1ull << lobit) ? lovalue : hivalue;
if((address & 1ull << hibit)) value = ~value;
if((random() & 511) == 0) value ^= 1 << (random() & 7);
if((random() & 2047) == 0) value ^= 1 << (random() & 7);
data[address] = value;
}
}
auto serialize(serializer& s) -> void {
s.integer((uint&)_entropy);
s.integer(_state);
s.integer(_increment);
}
private:
auto step() -> uint32 {
uint64 state = _state;
_state = state * 6364136223846793005ull + _increment;
uint32 xorshift = (state >> 18 ^ state) >> 27;
uint32 rotate = state >> 59;
return xorshift >> rotate | xorshift << (-rotate & 31);
}
Entropy _entropy = Entropy::High;
uint64 _state;
uint64 _increment;
};
}

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#pragma once
using int1 = nall::Integer< 1>;
using int2 = nall::Integer< 2>;
using int3 = nall::Integer< 3>;
using int4 = nall::Integer< 4>;
using int5 = nall::Integer< 5>;
using int6 = nall::Integer< 6>;
using int7 = nall::Integer< 7>;
using int8 = int8_t;
using int9 = nall::Integer< 9>;
using int10 = nall::Integer<10>;
using int11 = nall::Integer<11>;
using int12 = nall::Integer<12>;
using int13 = nall::Integer<13>;
using int14 = nall::Integer<14>;
using int15 = nall::Integer<15>;
using int16 = int16_t;
using int17 = nall::Integer<17>;
using int18 = nall::Integer<18>;
using int19 = nall::Integer<19>;
using int20 = nall::Integer<20>;
using int21 = nall::Integer<21>;
using int22 = nall::Integer<22>;
using int23 = nall::Integer<23>;
using int24 = nall::Integer<24>;
using int25 = nall::Integer<25>;
using int26 = nall::Integer<26>;
using int27 = nall::Integer<27>;
using int28 = nall::Integer<28>;
using int29 = nall::Integer<29>;
using int30 = nall::Integer<30>;
using int31 = nall::Integer<31>;
using int32 = int32_t;
using int48 = nall::Integer<48>; //Cx4
using int64 = int64_t;
using uint1 = nall::Natural< 1>;
using uint2 = nall::Natural< 2>;
using uint3 = nall::Natural< 3>;
using uint4 = nall::Natural< 4>;
using uint5 = nall::Natural< 5>;
using uint6 = nall::Natural< 6>;
using uint7 = nall::Natural< 7>;
using uint8 = uint8_t;
using uint9 = nall::Natural< 9>;
using uint10 = nall::Natural<10>;
using uint11 = nall::Natural<11>;
using uint12 = nall::Natural<12>;
using uint13 = nall::Natural<13>;
using uint14 = nall::Natural<14>;
using uint15 = nall::Natural<15>;
using uint16 = uint16_t;
using uint17 = nall::Natural<17>;
using uint18 = nall::Natural<18>;
using uint19 = nall::Natural<19>;
using uint20 = nall::Natural<20>;
using uint21 = nall::Natural<21>;
using uint22 = nall::Natural<22>;
using uint23 = nall::Natural<23>;
using uint24 = nall::Natural<24>;
using uint25 = nall::Natural<25>;
using uint26 = nall::Natural<26>;
using uint27 = nall::Natural<27>;
using uint28 = nall::Natural<28>;
using uint29 = nall::Natural<29>;
using uint30 = nall::Natural<30>;
using uint31 = nall::Natural<31>;
using uint32 = uint32_t;
using uint40 = nall::Natural<40>; //SA1
using uint48 = nall::Natural<48>; //Cx4
using uint64 = uint64_t;

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namespace Filter::_2xSaI {
auto size(uint& width, uint& height) -> void {
width *= 2;
height *= 2;
}
uint32_t temp[512 * 480];
auto render(
uint32_t* colortable, uint32_t* output, uint outpitch,
const uint16_t* input, uint pitch, uint width, uint height
) -> void {
for(unsigned y = 0; y < height; y++) {
const uint16_t *line_in = (const uint16_t*)(((const uint8_t*)input) + pitch * y);
uint32_t *line_out = temp + y * width;
for(unsigned x = 0; x < width; x++) {
line_out[x] = colortable[line_in[x]];
}
}
_2xSaI32((unsigned char*)temp, width * sizeof(uint32_t), 0, (unsigned char*)output, outpitch, width, height);
}
}

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#include <emulator/emulator.hpp>
#undef register
#define register
#include "sai/sai.cpp"
uint32_t* colortable;
#include "snes_ntsc/snes_ntsc.h"
#include "snes_ntsc/snes_ntsc.c"
#include "none.cpp"
#include "scanlines-light.cpp"
#include "scanlines-dark.cpp"
#include "scanlines-black.cpp"
#include "pixellate2x.cpp"
#include "scale2x.cpp"
#include "2xsai.cpp"
#include "super-2xsai.cpp"
#include "super-eagle.cpp"
#include "lq2x.cpp"
#include "hq2x.cpp"
#include "ntsc-rf.cpp"
#include "ntsc-composite.cpp"
#include "ntsc-svideo.cpp"
#include "ntsc-rgb.cpp"

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#pragma once
#include <emulator/emulator.hpp>
namespace Filter {
using Size = auto (*)(uint& width, uint& height) -> void;
using Render = auto (*)(uint32_t* palette, uint32_t* output, uint outpitch,
const uint16_t* input, uint pitch, uint width, uint height) -> void;
}
namespace Filter::None {
auto size(uint& width, uint& height) -> void;
auto render(
uint32_t* colortable, uint32_t* output, uint outpitch,
const uint16_t* input, uint pitch, uint width, uint height
) -> void;
}
namespace Filter::ScanlinesLight {
auto size(uint& width, uint& height) -> void;
auto render(
uint32_t* colortable, uint32_t* output, uint outpitch,
const uint16_t* input, uint pitch, uint width, uint height
) -> void;
}
namespace Filter::ScanlinesDark {
auto size(uint& width, uint& height) -> void;
auto render(
uint32_t* colortable, uint32_t* output, uint outpitch,
const uint16_t* input, uint pitch, uint width, uint height
) -> void;
}
namespace Filter::ScanlinesBlack {
auto size(uint& width, uint& height) -> void;
auto render(
uint32_t* colortable, uint32_t* output, uint outpitch,
const uint16_t* input, uint pitch, uint width, uint height
) -> void;
}
namespace Filter::Pixellate2x {
auto size(uint& width, uint& height) -> void;
auto render(
uint32_t* colortable, uint32_t* output, uint outpitch,
const uint16_t* input, uint pitch, uint width, uint height
) -> void;
}
namespace Filter::Scale2x {
auto size(uint& width, uint& height) -> void;
auto render(
uint32_t* colortable, uint32_t* output, uint outpitch,
const uint16_t* input, uint pitch, uint width, uint height
) -> void;
}
namespace Filter::_2xSaI {
auto size(uint& width, uint& height) -> void;
auto render(
uint32_t* colortable, uint32_t* output, uint outpitch,
const uint16_t* input, uint pitch, uint width, uint height
) -> void;
}
namespace Filter::Super2xSaI {
auto size(uint& width, uint& height) -> void;
auto render(
uint32_t* colortable, uint32_t* output, uint outpitch,
const uint16_t* input, uint pitch, uint width, uint height
) -> void;
}
namespace Filter::SuperEagle {
auto size(uint& width, uint& height) -> void;
auto render(
uint32_t* colortable, uint32_t* output, uint outpitch,
const uint16_t* input, uint pitch, uint width, uint height
) -> void;
}
namespace Filter::LQ2x {
auto size(uint& width, uint& height) -> void;
auto render(
uint32_t* colortable, uint32_t* output, uint outpitch,
const uint16_t* input, uint pitch, uint width, uint height
) -> void;
}
namespace Filter::HQ2x {
auto size(uint& width, uint& height) -> void;
auto render(
uint32_t* colortable, uint32_t* output, uint outpitch,
const uint16_t* input, uint pitch, uint width, uint height
) -> void;
}
namespace Filter::NTSC_RF {
auto size(uint& width, uint& height) -> void;
auto render(
uint32_t* colortable, uint32_t* output, uint outpitch,
const uint16_t* input, uint pitch, uint width, uint height
) -> void;
}
namespace Filter::NTSC_Composite {
auto size(uint& width, uint& height) -> void;
auto render(
uint32_t* colortable, uint32_t* output, uint outpitch,
const uint16_t* input, uint pitch, uint width, uint height
) -> void;
}
namespace Filter::NTSC_SVideo {
auto size(uint& width, uint& height) -> void;
auto render(
uint32_t* colortable, uint32_t* output, uint outpitch,
const uint16_t* input, uint pitch, uint width, uint height
) -> void;
}
namespace Filter::NTSC_RGB {
auto size(uint& width, uint& height) -> void;
auto render(
uint32_t* colortable, uint32_t* output, uint outpitch,
const uint16_t* input, uint pitch, uint width, uint height
) -> void;
}

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namespace Filter::HQ2x {
enum {
diff_offset = (0x440 << 21) + (0x207 << 11) + 0x407,
diff_mask = (0x380 << 21) + (0x1f0 << 11) + 0x3f0,
};
uint32_t *yuvTable;
uint8_t rotate[256];
const uint8_t hqTable[256] = {
4, 4, 6, 2, 4, 4, 6, 2, 5, 3, 15, 12, 5, 3, 17, 13,
4, 4, 6, 18, 4, 4, 6, 18, 5, 3, 12, 12, 5, 3, 1, 12,
4, 4, 6, 2, 4, 4, 6, 2, 5, 3, 17, 13, 5, 3, 16, 14,
4, 4, 6, 18, 4, 4, 6, 18, 5, 3, 16, 12, 5, 3, 1, 14,
4, 4, 6, 2, 4, 4, 6, 2, 5, 19, 12, 12, 5, 19, 16, 12,
4, 4, 6, 2, 4, 4, 6, 2, 5, 3, 16, 12, 5, 3, 16, 12,
4, 4, 6, 2, 4, 4, 6, 2, 5, 19, 1, 12, 5, 19, 1, 14,
4, 4, 6, 2, 4, 4, 6, 18, 5, 3, 16, 12, 5, 19, 1, 14,
4, 4, 6, 2, 4, 4, 6, 2, 5, 3, 15, 12, 5, 3, 17, 13,
4, 4, 6, 2, 4, 4, 6, 2, 5, 3, 16, 12, 5, 3, 16, 12,
4, 4, 6, 2, 4, 4, 6, 2, 5, 3, 17, 13, 5, 3, 16, 14,
4, 4, 6, 2, 4, 4, 6, 2, 5, 3, 16, 13, 5, 3, 1, 14,
4, 4, 6, 2, 4, 4, 6, 2, 5, 3, 16, 12, 5, 3, 16, 13,
4, 4, 6, 2, 4, 4, 6, 2, 5, 3, 16, 12, 5, 3, 1, 12,
4, 4, 6, 2, 4, 4, 6, 2, 5, 3, 16, 12, 5, 3, 1, 14,
4, 4, 6, 2, 4, 4, 6, 2, 5, 3, 1, 12, 5, 3, 1, 14,
};
static void initialize() {
static bool initialized = false;
if(initialized == true) return;
initialized = true;
yuvTable = new uint32_t[32768];
for(unsigned i = 0; i < 32768; i++) {
uint8_t R = (i >> 0) & 31;
uint8_t G = (i >> 5) & 31;
uint8_t B = (i >> 10) & 31;
//bgr555->bgr888
double r = (R << 3) | (R >> 2);
double g = (G << 3) | (G >> 2);
double b = (B << 3) | (B >> 2);
//bgr888->yuv
double y = (r + g + b) * (0.25f * (63.5f / 48.0f));
double u = ((r - b) * 0.25f + 128.0f) * (7.5f / 7.0f);
double v = ((g * 2.0f - r - b) * 0.125f + 128.0f) * (7.5f / 6.0f);
yuvTable[i] = ((unsigned)y << 21) + ((unsigned)u << 11) + ((unsigned)v);
}
//counter-clockwise rotation table; one revolution:
//123 369 12346789
//4.6 -> 2.8 =
//789 147 36928147
for(unsigned n = 0; n < 256; n++) {
rotate[n] = ((n >> 2) & 0x11) | ((n << 2) & 0x88)
| ((n & 0x01) << 5) | ((n & 0x08) << 3)
| ((n & 0x10) >> 3) | ((n & 0x80) >> 5);
}
}
static void terminate() {
delete[] yuvTable;
}
static bool same(uint16_t x, uint16_t y) {
return !((yuvTable[x] - yuvTable[y] + diff_offset) & diff_mask);
}
static bool diff(uint32_t x, uint16_t y) {
return ((x - yuvTable[y]) & diff_mask);
}
static void grow(uint32_t &n) { n |= n << 16; n &= 0x03e07c1f; }
static uint16_t pack(uint32_t n) { n &= 0x03e07c1f; return n | (n >> 16); }
static uint16_t blend1(uint32_t A, uint32_t B) {
grow(A); grow(B);
return pack((A * 3 + B) >> 2);
}
static uint16_t blend2(uint32_t A, uint32_t B, uint32_t C) {
grow(A); grow(B); grow(C);
return pack((A * 2 + B + C) >> 2);
}
static uint16_t blend3(uint32_t A, uint32_t B, uint32_t C) {
grow(A); grow(B); grow(C);
return pack((A * 5 + B * 2 + C) >> 3);
}
static uint16_t blend4(uint32_t A, uint32_t B, uint32_t C) {
grow(A); grow(B); grow(C);
return pack((A * 6 + B + C) >> 3);
}
static uint16_t blend5(uint32_t A, uint32_t B, uint32_t C) {
grow(A); grow(B); grow(C);
return pack((A * 2 + (B + C) * 3) >> 3);
}
static uint16_t blend6(uint32_t A, uint32_t B, uint32_t C) {
grow(A); grow(B); grow(C);
return pack((A * 14 + B + C) >> 4);
}
static uint16_t blend(unsigned rule, uint16_t E, uint16_t A, uint16_t B, uint16_t D, uint16_t F, uint16_t H) {
switch(rule) { default:
case 0: return E;
case 1: return blend1(E, A);
case 2: return blend1(E, D);
case 3: return blend1(E, B);
case 4: return blend2(E, D, B);
case 5: return blend2(E, A, B);
case 6: return blend2(E, A, D);
case 7: return blend3(E, B, D);
case 8: return blend3(E, D, B);
case 9: return blend4(E, D, B);
case 10: return blend5(E, D, B);
case 11: return blend6(E, D, B);
case 12: return same(B, D) ? blend2(E, D, B) : E;
case 13: return same(B, D) ? blend5(E, D, B) : E;
case 14: return same(B, D) ? blend6(E, D, B) : E;
case 15: return same(B, D) ? blend2(E, D, B) : blend1(E, A);
case 16: return same(B, D) ? blend4(E, D, B) : blend1(E, A);
case 17: return same(B, D) ? blend5(E, D, B) : blend1(E, A);
case 18: return same(B, F) ? blend3(E, B, D) : blend1(E, D);
case 19: return same(D, H) ? blend3(E, D, B) : blend1(E, B);
}
}
auto size(uint& width, uint& height) -> void {
width *= 2;
height *= 2;
}
auto render(
uint32_t* colortable, uint32_t* output, uint outpitch,
const uint16_t* input, uint pitch, uint width, uint height
) -> void {
initialize();
pitch >>= 1;
outpitch >>= 2;
for(uint y = 0; y < height; y++) {
const uint16_t* in = input + y * pitch;
uint32_t* out0 = output + y * outpitch * 2;
uint32_t* out1 = output + y * outpitch * 2 + outpitch;
int prevline = (y == 0 ? 0 : pitch);
int nextline = (y == height - 1 ? 0 : pitch);
in++;
*out0++ = 0; *out0++ = 0;
*out1++ = 0; *out1++ = 0;
for(unsigned x = 1; x < width - 1; x++) {
uint16_t A = *(in - prevline - 1);
uint16_t B = *(in - prevline + 0);
uint16_t C = *(in - prevline + 1);
uint16_t D = *(in - 1);
uint16_t E = *(in + 0);
uint16_t F = *(in + 1);
uint16_t G = *(in + nextline - 1);
uint16_t H = *(in + nextline + 0);
uint16_t I = *(in + nextline + 1);
uint32_t e = yuvTable[E] + diff_offset;
uint8_t pattern;
pattern = diff(e, A) << 0;
pattern |= diff(e, B) << 1;
pattern |= diff(e, C) << 2;
pattern |= diff(e, D) << 3;
pattern |= diff(e, F) << 4;
pattern |= diff(e, G) << 5;
pattern |= diff(e, H) << 6;
pattern |= diff(e, I) << 7;
*(out0 + 0) = colortable[blend(hqTable[pattern], E, A, B, D, F, H)]; pattern = rotate[pattern];
*(out0 + 1) = colortable[blend(hqTable[pattern], E, C, F, B, H, D)]; pattern = rotate[pattern];
*(out1 + 1) = colortable[blend(hqTable[pattern], E, I, H, F, D, B)]; pattern = rotate[pattern];
*(out1 + 0) = colortable[blend(hqTable[pattern], E, G, D, H, B, F)];
in++;
out0 += 2;
out1 += 2;
}
in++;
*out0++ = 0; *out0++ = 0;
*out1++ = 0; *out1++ = 0;
}
}
}

46
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namespace Filter::LQ2x {
auto size(uint& width, uint& height) -> void {
width *= 2;
height *= 2;
}
auto render(
uint32_t* colortable, uint32_t* output, uint outpitch,
const uint16_t* input, uint pitch, uint width, uint height
) -> void {
pitch >>= 1;
outpitch >>= 2;
for(uint y = 0; y < height; y++) {
const uint16_t* in = input + y * pitch;
uint32_t* out0 = output + y * outpitch * 2;
uint32_t* out1 = output + y * outpitch * 2 + outpitch;
int prevline = (y == 0 ? 0 : pitch);
int nextline = (y == height - 1 ? 0 : pitch);
for(uint x = 0; x < width; x++) {
uint16_t A = *(in - prevline);
uint16_t B = (x > 0) ? *(in - 1) : *in;
uint16_t C = *in;
uint16_t D = (x < width - 1) ? *(in + 1) : *in;
uint16_t E = *(in++ + nextline);
uint32_t c = colortable[C];
if(A != E && B != D) {
*out0++ = (A == B ? colortable[C + A - ((C ^ A) & 0x0421) >> 1] : c);
*out0++ = (A == D ? colortable[C + A - ((C ^ A) & 0x0421) >> 1] : c);
*out1++ = (E == B ? colortable[C + E - ((C ^ E) & 0x0421) >> 1] : c);
*out1++ = (E == D ? colortable[C + E - ((C ^ E) & 0x0421) >> 1] : c);
} else {
*out0++ = c;
*out0++ = c;
*out1++ = c;
*out1++ = c;
}
}
}
}
}

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namespace Filter::None {
auto size(uint& width, uint& height) -> void {
width = width;
height = height;
}
auto render(
uint32_t* colortable, uint32_t* output, uint outpitch,
const uint16_t* input, uint pitch, uint width, uint height
) -> void {
pitch >>= 1;
outpitch >>= 2;
for(uint y = 0; y < height; y++) {
const uint16_t* in = input + y * pitch;
uint32_t* out = output + y * outpitch;
for(uint x = 0; x < width; x++) {
*out++ = colortable[*in++];
}
}
}
}

50
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namespace Filter::NTSC_Composite {
struct snes_ntsc_t *ntsc;
snes_ntsc_setup_t setup;
int burst;
int burst_toggle;
void initialize() {
static bool initialized = false;
if(initialized == true) return;
initialized = true;
ntsc = (snes_ntsc_t*)malloc(sizeof *ntsc);
setup = snes_ntsc_composite;
setup.merge_fields = 1;
snes_ntsc_init(ntsc, &setup);
burst = 0;
burst_toggle = (setup.merge_fields ? 0 : 1);
}
void terminate() {
if(ntsc) free(ntsc);
}
auto size(uint& width, uint& height) -> void {
width = SNES_NTSC_OUT_WIDTH(256);
height = height;
}
auto render(
uint32_t* colortable_, uint32_t* output, uint outpitch,
const uint16_t* input, uint pitch, uint width, uint height
) -> void {
initialize();
colortable = colortable_;
pitch >>= 1;
outpitch >>= 2;
if(width <= 256) {
snes_ntsc_blit (ntsc, input, pitch, burst, width, height, output, outpitch << 2);
} else {
snes_ntsc_blit_hires(ntsc, input, pitch, burst, width, height, output, outpitch << 2);
}
burst ^= burst_toggle;
}
}

50
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namespace Filter::NTSC_RF {
struct snes_ntsc_t *ntsc;
snes_ntsc_setup_t setup;
int burst;
int burst_toggle;
void initialize() {
static bool initialized = false;
if(initialized == true) return;
initialized = true;
ntsc = (snes_ntsc_t*)malloc(sizeof *ntsc);
setup = snes_ntsc_composite;
setup.merge_fields = 0;
snes_ntsc_init(ntsc, &setup);
burst = 0;
burst_toggle = (setup.merge_fields ? 0 : 1);
}
void terminate() {
if(ntsc) free(ntsc);
}
auto size(uint& width, uint& height) -> void {
width = SNES_NTSC_OUT_WIDTH(256);
height = height;
}
auto render(
uint32_t* colortable_, uint32_t* output, uint outpitch,
const uint16_t* input, uint pitch, uint width, uint height
) -> void {
initialize();
colortable = colortable_;
pitch >>= 1;
outpitch >>= 2;
if(width <= 256) {
snes_ntsc_blit (ntsc, input, pitch, burst, width, height, output, outpitch << 2);
} else {
snes_ntsc_blit_hires(ntsc, input, pitch, burst, width, height, output, outpitch << 2);
}
burst ^= burst_toggle;
}
}

50
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namespace Filter::NTSC_RGB {
struct snes_ntsc_t *ntsc;
snes_ntsc_setup_t setup;
int burst;
int burst_toggle;
void initialize() {
static bool initialized = false;
if(initialized == true) return;
initialized = true;
ntsc = (snes_ntsc_t*)malloc(sizeof *ntsc);
setup = snes_ntsc_rgb;
setup.merge_fields = 1;
snes_ntsc_init(ntsc, &setup);
burst = 0;
burst_toggle = (setup.merge_fields ? 0 : 1);
}
void terminate() {
if(ntsc) free(ntsc);
}
auto size(uint& width, uint& height) -> void {
width = SNES_NTSC_OUT_WIDTH(256);
height = height;
}
auto render(
uint32_t* colortable_, uint32_t* output, uint outpitch,
const uint16_t* input, uint pitch, uint width, uint height
) -> void {
initialize();
colortable = colortable_;
pitch >>= 1;
outpitch >>= 2;
if(width <= 256) {
snes_ntsc_blit (ntsc, input, pitch, burst, width, height, output, outpitch << 2);
} else {
snes_ntsc_blit_hires(ntsc, input, pitch, burst, width, height, output, outpitch << 2);
}
burst ^= burst_toggle;
}
}

50
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namespace Filter::NTSC_SVideo {
struct snes_ntsc_t *ntsc;
snes_ntsc_setup_t setup;
int burst;
int burst_toggle;
void initialize() {
static bool initialized = false;
if(initialized == true) return;
initialized = true;
ntsc = (snes_ntsc_t*)malloc(sizeof *ntsc);
setup = snes_ntsc_svideo;
setup.merge_fields = 1;
snes_ntsc_init(ntsc, &setup);
burst = 0;
burst_toggle = (setup.merge_fields ? 0 : 1);
}
void terminate() {
if(ntsc) free(ntsc);
}
auto size(uint& width, uint& height) -> void {
width = SNES_NTSC_OUT_WIDTH(256);
height = height;
}
auto render(
uint32_t* colortable_, uint32_t* output, uint outpitch,
const uint16_t* input, uint pitch, uint width, uint height
) -> void {
initialize();
colortable = colortable_;
pitch >>= 1;
outpitch >>= 2;
if(width <= 256) {
snes_ntsc_blit (ntsc, input, pitch, burst, width, height, output, outpitch << 2);
} else {
snes_ntsc_blit_hires(ntsc, input, pitch, burst, width, height, output, outpitch << 2);
}
burst ^= burst_toggle;
}
}

40
bsnes/filter/pixellate2x.cpp Normal file
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namespace Filter::Pixellate2x {
auto size(uint& width, uint& height) -> void {
width = (width <= 256) ? width * 2 : width;
height = (height <= 240) ? height * 2 : height;
}
auto render(
uint32_t* colortable, uint32_t* output, uint outpitch,
const uint16_t* input, uint pitch, uint width, uint height
) -> void {
pitch >>= 1;
outpitch >>= 2;
uint32_t *out0 = output;
uint32_t *out1 = output + outpitch;
for(unsigned y = 0; y < height; y++) {
for(unsigned x = 0; x < width; x++) {
uint32_t p = colortable[*input++];
*out0++ = p;
if(height <= 240) *out1++ = p;
if(width > 256) continue;
*out0++ = p;
if(height <= 240) *out1++ = p;
}
input += pitch - width;
if(height <= 240) {
out0 += outpitch + outpitch - 512;
out1 += outpitch + outpitch - 512;
} else {
out0 += outpitch - 512;
}
}
}
}

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namespace Filter::Scale2x {
auto size(uint& width, uint& height) -> void {
width *= 2;
height *= 2;
}
auto render(
uint32_t* colortable, uint32_t* output, uint outpitch,
const uint16_t* input, uint pitch, uint width, uint height
) -> void {
pitch >>= 1;
outpitch >>= 2;
for(uint y = 0; y < height; y++) {
const uint16_t* in = input + y * pitch;
uint32_t* out0 = output + y * outpitch * 2;
uint32_t* out1 = output + y * outpitch * 2 + outpitch;
int prevline = (y == 0 ? 0 : pitch);
int nextline = (y == height - 1 ? 0 : pitch);
for(unsigned x = 0; x < width; x++) {
uint16_t A = *(in - prevline);
uint16_t B = (x > 0) ? *(in - 1) : *in;
uint16_t C = *in;
uint16_t D = (x < width - 1) ? *(in + 1) : *in;
uint16_t E = *(in++ + nextline);
uint32_t c = colortable[C];
if(A != E && B != D) {
*out0++ = (A == B ? colortable[A] : c);
*out0++ = (A == D ? colortable[A] : c);
*out1++ = (E == B ? colortable[E] : c);
*out1++ = (E == D ? colortable[E] : c);
} else {
*out0++ = c;
*out0++ = c;
*out1++ = c;
*out1++ = c;
}
}
}
}
}

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namespace Filter::ScanlinesBlack {
auto size(uint& width, uint& height) -> void {
width = width;
height = height * 2;
}
auto render(
uint32_t* palette, uint32_t* output, uint outpitch,
const uint16_t* input, uint pitch, uint width, uint height
) -> void {
pitch >>= 1;
outpitch >>= 2;
for(unsigned y = 0; y < height; y++) {
const uint16_t *in = input + y * pitch;
uint32_t *out0 = output + y * outpitch * 2;
uint32_t *out1 = output + y * outpitch * 2 + outpitch;
for(unsigned x = 0; x < width; x++) {
uint16_t color = *in++;
*out0++ = palette[color];
*out1++ = 0;
}
}
}
}

48
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namespace Filter::ScanlinesDark {
uint16_t adjust[32768];
void initialize() {
static bool initialized = false;
if(initialized == true) return;
initialized = true;
for(unsigned i = 0; i < 32768; i++) {
uint8_t r = (i >> 10) & 31;
uint8_t g = (i >> 5) & 31;
uint8_t b = (i >> 0) & 31;
r *= 0.333;
g *= 0.333;
b *= 0.333;
adjust[i] = (r << 10) + (g << 5) + (b << 0);
}
}
auto size(uint& width, uint& height) -> void {
width = width;
height = height * 2;
}
auto render(
uint32_t* palette, uint32_t* output, uint outpitch,
const uint16_t* input, uint pitch, uint width, uint height
) -> void {
initialize();
pitch >>= 1;
outpitch >>= 2;
for(unsigned y = 0; y < height; y++) {
const uint16_t *in = input + y * pitch;
uint32_t *out0 = output + y * outpitch * 2;
uint32_t *out1 = output + y * outpitch * 2 + outpitch;
for(unsigned x = 0; x < width; x++) {
uint16_t color = *in++;
*out0++ = palette[color];
*out1++ = palette[adjust[color]];
}
}
}
}

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namespace Filter::ScanlinesLight {
uint16_t adjust[32768];
void initialize() {
static bool initialized = false;
if(initialized == true) return;
initialized = true;
for(unsigned i = 0; i < 32768; i++) {
uint8_t r = (i >> 10) & 31;
uint8_t g = (i >> 5) & 31;
uint8_t b = (i >> 0) & 31;
r *= 0.666;
g *= 0.666;
b *= 0.666;
adjust[i] = (r << 10) + (g << 5) + (b << 0);
}
}
auto size(uint& width, uint& height) -> void {
width = width;
height = height * 2;
}
auto render(
uint32_t* palette, uint32_t* output, uint outpitch,
const uint16_t* input, uint pitch, uint width, uint height
) -> void {
initialize();
pitch >>= 1;
outpitch >>= 2;
for(unsigned y = 0; y < height; y++) {
const uint16_t *in = input + y * pitch;
uint32_t *out0 = output + y * outpitch * 2;
uint32_t *out1 = output + y * outpitch * 2 + outpitch;
for(unsigned x = 0; x < width; x++) {
uint16_t color = *in++;
*out0++ = palette[color];
*out1++ = palette[adjust[color]];
}
}
}
}

0
snesfilter/ntsc/snes_ntsc/snes_ntsc.c → bsnes/filter/snes_ntsc/snes_ntsc.c Normal file → Executable file
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snesfilter/ntsc/snes_ntsc/snes_ntsc.h → bsnes/filter/snes_ntsc/snes_ntsc.h Normal file → Executable file
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0
snesfilter/ntsc/snes_ntsc/snes_ntsc_config.h → bsnes/filter/snes_ntsc/snes_ntsc_config.h Normal file → Executable file
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0
snesfilter/ntsc/snes_ntsc/snes_ntsc_impl.h → bsnes/filter/snes_ntsc/snes_ntsc_impl.h Normal file → Executable file
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namespace Filter::Super2xSaI {
auto size(uint& width, uint& height) -> void {
width *= 2;
height *= 2;
}
uint32_t temp[512 * 480];
auto render(
uint32_t* colortable, uint32_t* output, uint outpitch,
const uint16_t* input, uint pitch, uint width, uint height
) -> void {
for(unsigned y = 0; y < height; y++) {
const uint16_t *line_in = (const uint16_t*)(((const uint8_t*)input) + pitch * y);
uint32_t *line_out = temp + y * width;
for(unsigned x = 0; x < width; x++) {
line_out[x] = colortable[line_in[x]];
}
}
Super2xSaI32((unsigned char*)temp, width * sizeof(uint32_t), 0, (unsigned char*)output, outpitch, width, height);
}
}

25
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namespace Filter::SuperEagle {
auto size(uint& width, uint& height) -> void {
width *= 2;
height *= 2;
}
uint32_t temp[512 * 480];
auto render(
uint32_t* colortable, uint32_t* output, uint outpitch,
const uint16_t* input, uint pitch, uint width, uint height
) -> void {
for(unsigned y = 0; y < height; y++) {
const uint16_t *line_in = (const uint16_t*)(((const uint8_t*)input) + pitch * y);
uint32_t *line_out = temp + y * width;
for(unsigned x = 0; x < width; x++) {
line_out[x] = colortable[line_in[x]];
}
}
SuperEagle32((unsigned char*)temp, width * sizeof(uint32_t), 0, (unsigned char*)output, outpitch, width, height);
}
}

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# Always use LF line endings for shaders
*.fsh text eol=lf
*.metal text eol=lf
HexFiend/* linguist-vendored
*.inc linguist-language=C
Core/*.h linguist-language=C
SDL/*.h linguist-language=C
Windows/*.h linguist-language=C
Cocoa/*.h linguist-language=Objective-C

25
bsnes/gb/.github/actions/LICENSE vendored Normal file
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Blargg's Test ROMs by Shay Green <gblargg@gmail.com>
Acid2 tests by Matt Currie under MIT:
MIT License
Copyright (c) 2020 Matt Currie
Permission is hereby granted, free of charge, to any person obtaining a copy
of this software and associated documentation files (the "Software"), to deal
in the Software without restriction, including without limitation the rights
to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
copies of the Software, and to permit persons to whom the Software is
furnished to do so, subject to the following conditions:
The above copyright notice and this permission notice shall be included in all
copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
SOFTWARE.

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bsnes/gb/.github/actions/dmg-acid2.gb vendored Normal file
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bsnes/gb/.github/actions/install_deps.sh vendored Executable file
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case `echo $1 | cut -d '-' -f 1` in
ubuntu)
sudo apt-get -qq update
sudo apt-get install -yq bison libpng-dev pkg-config libsdl2-dev
(
cd `mktemp -d`
curl -L https://github.com/rednex/rgbds/archive/v0.4.0.zip > rgbds.zip
unzip rgbds.zip
cd rgbds-*
make -sj
sudo make install
cd ..
rm -rf *
)
;;
macos)
brew install rgbds sdl2
;;
*)
echo "Unsupported OS"
exit 1
;;
esac

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bsnes/gb/.github/actions/sanity_tests.sh vendored Executable file
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set -e
./build/bin/tester/sameboy_tester --jobs 5 \
--length 45 .github/actions/cgb_sound.gb \
--length 10 .github/actions/cgb-acid2.gbc \
--length 10 .github/actions/dmg-acid2.gb \
--dmg --length 45 .github/actions/dmg_sound-2.gb \
--dmg --length 20 .github/actions/oam_bug-2.gb
mv .github/actions/dmg{,-mode}-acid2.bmp
./build/bin/tester/sameboy_tester \
--dmg --length 10 .github/actions/dmg-acid2.gb
set +e
FAILED_TESTS=`
shasum .github/actions/*.bmp | grep -E -v \(\
5283564df0cf5bb78a7a90aff026c1a4692fd39e\ \ .github/actions/cgb-acid2.bmp\|\
dbcc438dcea13b5d1b80c5cd06bda2592cc5d9e0\ \ .github/actions/cgb_sound.bmp\|\
0caadf9634e40247ae9c15ff71992e8f77bbf89e\ \ .github/actions/dmg-acid2.bmp\|\
a732077f98f43d9231453b1764d9f797a836924d\ \ .github/actions/dmg-mode-acid2.bmp\|\
c9e944b7e01078bdeba1819bc2fa9372b111f52d\ \ .github/actions/dmg_sound-2.bmp\|\
f0172cc91867d3343fbd113a2bb98100074be0de\ \ .github/actions/oam_bug-2.bmp\
\)`
if [ -n "$FAILED_TESTS" ] ; then
echo "Failed the following tests:"
echo $FAILED_TESTS | tr " " "\n" | grep -o -E "[^/]+\.bmp" | sed s/.bmp// | sort
exit 1
fi
echo Passed all tests

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name: "Bulidability and Sanity"
on: push
jobs:
sanity:
strategy:
fail-fast: false
matrix:
os: [macos-latest, ubuntu-latest, ubuntu-18.04]
cc: [gcc, clang]
include:
- os: macos-latest
cc: clang
extra_target: cocoa
exclude:
- os: macos-latest
cc: gcc
runs-on: ${{ matrix.os }}
steps:
- uses: actions/checkout@v2
- name: Install deps
shell: bash
run: |
./.github/actions/install_deps.sh ${{ matrix.os }}
- name: Build
run: |
${{ matrix.cc }} -v; (make -j sdl tester libretro ${{ matrix.extra_target }} CONF=release CC=${{ matrix.cc }} || (echo "==== Build Failed ==="; make sdl tester libretro ${{ matrix.extra_target }} CONF=release CC=${{ matrix.cc }}))
- name: Sanity tests
shell: bash
run: |
./.github/actions/sanity_tests.sh
- name: Upload binaries
uses: actions/upload-artifact@v1
with:
name: sameboy-canary-${{ matrix.os }}-${{ matrix.cc }}
path: build/bin

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build

217
bsnes/gb/BESS.md Normal file
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# BESS Best Effort Save State 1.0
## Motivation
BESS is a save state format specification designed to allow different emulators, as well as majorly different versions of the same emulator, to import save states from other BESS-compliant save states. BESS works by appending additional, implementation-agnostic information about the emulation state. This allows a single save state file to be read as both a fully-featured, implementation specific save state which includes detailed timing information; and as a portable "best effort" save state that represents a state accurately enough to be restored in casual use-cases.
## Specification
Every integer used in the BESS specification is stored in Little Endian encoding.
### BESS footer
BESS works by appending a detectable footer at the end of an existing save state format. The footer uses the following format:
| Offset from end of file | Content |
|-------------------------|-------------------------------------------------------|
| -8 | Offset to the first BESS Block, from the file's start |
| -4 | The ASCII string 'BESS' |
### BESS blocks
BESS uses a block format where each block contains the following header:
| Offset | Content |
|--------|---------------------------------------|
| 0 | A four-letter ASCII identifier |
| 4 | Length of the block, excluding header |
Every block is followed by another block, until the END block is reached. If an implementation encounters an unsupported block, it should be completely ignored (Should not have any effect and should not trigger a failure).
#### NAME block
The NAME block uses the `'NAME'` identifier, and is an optional block that contains the name of the emulator that created this save state. While optional, it is highly recommended to be included in every implementation it allows the user to know which emulator and version is compatible with the native save state format contained in this file. When used, this block should come first.
The length of the NAME block is variable, and it only contains the name and version of the originating emulator in ASCII.
#### INFO block
The INFO block uses the `'INFO'` identifier, and is an optional block that contains information about the ROM this save state originates from. When used, this block should come before `CORE` but after `NAME`. This block is 0x12 bytes long, and it follows this structure:
| Offset | Content |
|--------|--------------------------------------------------|
| 0x00 | Bytes 0x134-0x143 from the ROM (Title) |
| 0x10 | Bytes 0x14E-0x14F from the ROM (Global checksum) |
#### CORE block
The CORE block uses the `'CORE'` identifier, and is a required block that contains both core state information, as well as basic information about the BESS version used. This block must be the first block, unless the `NAME` or `INFO` blocks exist then it must come directly after them. An implementation should not enforce block order on blocks unknown to it for future compatibility.
The length of the CORE block is 0xD0 bytes, but implementations are expected to ignore any excess bytes. Following the BESS block header, the structure is as follows:
| Offset | Content |
|--------|----------------------------------------|
| 0x00 | Major BESS version as a 16-bit integer |
| 0x02 | Minor BESS version as a 16-bit integer |
Both major and minor versions should be 1. Implementations are expected to reject incompatible majors, but still attempt to read newer minor versions.
| Offset | Content |
|--------|----------------------------------------|
| 0x04 | A four-character ASCII model identifier |
BESS uses a four-character string to identify Game Boy models:
* The first letter represents mutually-incompatible families of models and is required. The allowed values are `'G'` for the original Game Boy family, `'S'` for the Super Game Boy family, and `'C'` for the Game Boy Color and Advance family.
* The second letter represents a specific model within the family, and is optional (If an implementation does not distinguish between specific models in a family, a space character may be used). The allowed values for family G are `'D'` for DMG and `'M'` for MGB; the allowed values for family S are `'N'` for NTSC, `'P'` for PAL, and `'2'` for SGB2; and the allowed values for family C are `'C'` for CGB, and `'A'` for the various GBA line models.
* The third letter represents a specific CPU revision within a model, and is optional (If an implementation does not distinguish between revisions, a space character may be used). The allowed values for model GD (DMG) are `'0'` and `'A'`, through `'C'`; the allowed values for model CC (CGB) are `'0'` and `'A'`, through `'E'`; the allowed values for model CA (AGB, AGS, GBP) are `'0'`, `'A'` and `'B'`; and for every other model this value must be a space character.
* The last character is used for padding and must be a space character.
For example; `'GD '` represents a DMG of an unspecified revision, `'S '` represents some model of the SGB family, and `'CCE '` represent a CGB using CPU revision E.
| Offset | Content |
|--------|--------------------------------------------------------|
| 0x08 | The value of the PC register |
| 0x0A | The value of the AF register |
| 0x0C | The value of the BC register |
| 0x0E | The value of the DE register |
| 0x10 | The value of the HL register |
| 0x12 | The value of the SP register |
| 0x14 | The value of IME (0 or 1) |
| 0x15 | The value of the IE register |
| 0x16 | Execution state (0 = running; 1 = halted; 2 = stopped) |
| 0x17 | Reserved, must be 0 |
| 0x18 | The values of every memory-mapped register (128 bytes) |
The values of memory-mapped registers should be written 'as-is' to memory as if the actual ROM wrote them, with the following exceptions and note:
* Unused registers have Don't-Care values which should be ignored
* Unused register bits have Don't-Care values which should be ignored
* If the model is CGB or newer, the value of KEY0 (FF4C) must be valid as it determines DMG mode
* Bit 2 determines DMG mode. A value of 0x04 usually denotes DMG mode, while a value of `0x80` usually denotes CGB mode.
* Sprite priority is derived from KEY0 (FF4C) instead of OPRI (FF6C) because OPRI can be modified after booting, but only the value of OPRI during boot ROM execution takes effect
* If a register doesn't exist on the emulated model (For example, KEY0 (FF4C) on a DMG), its value should be ignored.
* BANK (FF50) should be 0 if the boot ROM is still mapped, and 1 otherwise, and must be valid.
* Implementations should not start a serial transfer when writing the value of SB
* Similarly, no value of NRx4 should trigger a sound pulse on save state load
* And similarly again, implementations should not trigger DMA transfers when writing the values of DMA or HDMA5
* The value store for DIV will be used to set the internal divisor to `DIV << 8`
* Implementation should apply care when ordering the write operations (For example, writes to NR52 must come before writes to the other APU registers)
| Offset | Content |
|--------|--------------------------------------------------------------------|
| 0x98 | The size of RAM (32-bit integer) |
| 0x9C | The offset of RAM from file start (32-bit integer) |
| 0xA0 | The size of VRAM (32-bit integer) |
| 0xA4 | The offset of VRAM from file start (32-bit integer) |
| 0xA8 | The size of MBC RAM (32-bit integer) |
| 0xAC | The offset of MBC RAM from file start (32-bit integer) |
| 0xB0 | The size of OAM (=0xA0, 32-bit integer) |
| 0xB4 | The offset of OAM from file start (32-bit integer) |
| 0xB8 | The size of HRAM (=0x7F, 32-bit integer) |
| 0xBC | The offset of HRAM from file start (32-bit integer) |
| 0xC0 | The size of background palettes (=0x40 or 0, 32-bit integer) |
| 0xC4 | The offset of background palettes from file start (32-bit integer) |
| 0xC8 | The size of object palettes (=0x40 or 0, 32-bit integer) |
| 0xCC | The offset of object palettes from file start (32-bit integer) |
The contents of large buffers are stored outside of BESS structure so data from an implementation's native save state format can be reused. The offsets are absolute offsets from the save state file's start. Background and object palette sizes must be 0 for models prior to Game Boy Color.
An implementation needs handle size mismatches gracefully. For example, if too large MBC RAM size is specified, the superfluous data should be ignored. On the other hand, if a too small VRAM size is specified (For example, if it's a save state from an emulator emulating a CGB in DMG mode, and it didn't save the second CGB VRAM bank), the implementation is expected to set that extra bank to all zeros.
#### XOAM block
The XOAM block uses the `'XOAM'` identifier, and is an optional block that contains the data of extra OAM (addresses `0xFEA0-0xFEFF`). This block length must be `0x60`. Implementations that do not emulate this extra range are free to ignore the excess bytes, and to not create this block.
#### MBC block
The MBC block uses the `'MBC '` identifier, and is an optional block that is only used when saving states of ROMs that use an MBC. The length of this block is variable and must be divisible by 3.
This block contains an MBC-specific number of 3-byte-long pairs that represent the values of each MBC register. For example, for MBC5 the contents would look like:
| Offset | Content |
|--------|---------------------------------------|
| 0x0 | The value 0x0000 as a 16-bit integer |
| 0x2 | 0x0A if RAM is enabled, 0 otherwise |
| 0x3 | The value 0x2000 as a 16-bit integer |
| 0x5 | The lower 8 bits of the ROM bank |
| 0x6 | The value 0x3000 as a 16-bit integer |
| 0x8 | The bit 9 of the ROM bank |
| 0x9 | The value 0x4000 as a 16-bit integer |
| 0xB | The current RAM bank |
An implementation should parse this block as a series of writes to be made. Values outside the `0x0000-0x7FFF` and `0xA000-0xBFFF` ranges are not allowed. Implementations must perform the writes in order (i.e. not reverse, sorted, or any other transformation on their order)
#### RTC block
The RTC block uses the `'RTC '` identifier, and is an optional block that is used while emulating an MBC3 with an RTC. The contents of this block are identical to 64-bit RTC saves from VBA, which are also used by SameBoy and different emulators such as BGB.
The length of this block is 0x30 bytes long and it follows the following structure:
| Offset | Content |
|--------|------------------------------------------------------------------------|
| 0x00 | Current seconds (1 byte), followed by 3 bytes of padding |
| 0x04 | Current minutes (1 byte), followed by 3 bytes of padding |
| 0x08 | Current hours (1 byte), followed by 3 bytes of padding |
| 0x0C | Current days (1 byte), followed by 3 bytes of padding |
| 0x10 | Current high/overflow/running (1 byte), followed by 3 bytes of padding |
| 0x14 | Latched seconds (1 byte), followed by 3 bytes of padding |
| 0x18 | Latched minutes (1 byte), followed by 3 bytes of padding |
| 0x1C | Latched hours (1 byte), followed by 3 bytes of padding |
| 0x20 | Latched days (1 byte), followed by 3 bytes of padding |
| 0x24 | Latched high/overflow/running (1 byte), followed by 3 bytes of padding |
| 0x28 | UNIX timestamp at the time of the save state (64-bit) |
#### HUC3 block
The HUC3 block uses the `'HUC3'` identifier, and is an optional block that is used while emulating an HuC3 cartridge to store RTC and alarm information. The contents of this block are identical to HuC3 RTC saves from SameBoy.
The length of this block is 0x11 bytes long and it follows the following structure:
| Offset | Content |
|--------|-------------------------------------------------------|
| 0x00 | UNIX timestamp at the time of the save state (64-bit) |
| 0x08 | RTC minutes (16-bit) |
| 0x0A | RTC days (16-bit) |
| 0x0C | Scheduled alarm time minutes (16-bit) |
| 0x0E | Scheduled alarm time days (16-bit) |
| 0x10 | Alarm enabled flag (8-bits, either 0 or 1) |
#### SGB block
The SGB block uses the `'SGB '` identifier, and is an optional block that is only used while emulating an SGB or SGB2 *and* SGB commands enabled. Implementations must not save this block on other models or when SGB commands are disabled, and should assume SGB commands are disabled if this block is missing.
The length of this block is 0x39 bytes, but implementations should allow and ignore excess data in this block for extensions. The block follows the following structure:
| Offset | Content |
|--------|--------------------------------------------------------------------------------------------------------------------------|
| 0x00 | The size of the border tile data (=0x2000, 32-bit integer) |
| 0x04 | The offset of the border tile data (SNES tile format, 32-bit integer) |
| 0x08 | The size of the border tilemap (=0x800, 32-bit integer) |
| 0x0C | The offset of the border tilemap (LE 16-bit sequences, 32-bit integer) |
| 0x10 | The size of the border palettes (=0x80, 32-bit integer) |
| 0x14 | The offset of the border palettes (LE 16-bit sequences, 32-bit integer) |
| 0x18 | The size of active colorization palettes (=0x20, 32-bit integer) |
| 0x1C | The offset of the active colorization palettes (LE 16-bit sequences, 32-bit integer) |
| 0x20 | The size of RAM colorization palettes (=0x1000, 32-bit integer) |
| 0x24 | The offset of the RAM colorization palettes (LE 16-bit sequences, 32-bit integer) |
| 0x28 | The size of the attribute map (=0x168, 32-bit integer) |
| 0x2C | The offset of the attribute map (32-bit integer) |
| 0x30 | The size of the attribute files (=0xfd2, 32-bit integer) |
| 0x34 | The offset of the attribute files (32-bit integer) |
| 0x38 | Multiplayer status (1 byte); high nibble is player count (1, 2 or 4), low nibble is current player (Where Player 1 is 0) |
If only some of the size-offset pairs are available (for example, partial HLE SGB implementation), missing fields are allowed to have 0 as their size, and implementations are expected to fall back to a sane default.
#### END block
The END block uses the `'END '` identifier, and is a required block that marks the end of BESS data. Naturally, it must be the last block. The length of the END block must be 0.
## Validation and Failures
Other than previously specified required fail conditions, an implementation is free to decide what format errors should abort the loading of a save file. Structural errors (e.g. a block with an invalid length, a file offset that is outside the file's range, or a missing END block) should be considered as irrecoverable errors. Other errors that are considered fatal by SameBoy's implementation:
* Duplicate CORE block
* A known block, other than NAME, appearing before CORE
* An invalid length for the XOAM, RTC, SGB or HUC3 blocks
* An invalid length of MBC (not a multiple of 3)
* A write outside the $0000-$7FFF and $A000-$BFFF ranges in the MBC block
* An SGB block on a save state targeting another model
* An END block with non-zero length

BIN
bsnes/gb/BootROMs/SameBoyLogo.png Normal file
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2
bsnes/gb/BootROMs/agb_boot.asm Normal file
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AGB EQU 1
include "cgb_boot.asm"

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bsnes/gb/BootROMs/cgb_boot.asm Normal file
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bsnes/gb/BootROMs/cgb_boot_fast.asm Normal file
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FAST EQU 1
include "cgb_boot.asm"

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bsnes/gb/BootROMs/dmg_boot.asm Normal file
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; SameBoy DMG bootstrap ROM
; Todo: use friendly names for HW registers instead of magic numbers
SECTION "BootCode", ROM0[$0]
Start:
; Init stack pointer
ld sp, $fffe
; Clear memory VRAM
ld hl, $8000
.clearVRAMLoop
ldi [hl], a
bit 5, h
jr z, .clearVRAMLoop
; Init Audio
ld a, $80
ldh [$26], a
ldh [$11], a
ld a, $f3
ldh [$12], a
ldh [$25], a
ld a, $77
ldh [$24], a
; Init BG palette
ld a, $54
ldh [$47], a
; Load logo from ROM.
; A nibble represents a 4-pixels line, 2 bytes represent a 4x4 tile, scaled to 8x8.
; Tiles are ordered left to right, top to bottom.
ld de, $104 ; Logo start
ld hl, $8010 ; This is where we load the tiles in VRAM
.loadLogoLoop
ld a, [de] ; Read 2 rows
ld b, a
call DoubleBitsAndWriteRow
call DoubleBitsAndWriteRow
inc de
ld a, e
xor $34 ; End of logo
jr nz, .loadLogoLoop
; Load trademark symbol
ld de, TrademarkSymbol
ld c,$08
.loadTrademarkSymbolLoop:
ld a,[de]
inc de
ldi [hl],a
inc hl
dec c
jr nz, .loadTrademarkSymbolLoop
; Set up tilemap
ld a,$19 ; Trademark symbol
ld [$9910], a ; ... put in the superscript position
ld hl,$992f ; Bottom right corner of the logo
ld c,$c ; Tiles in a logo row
.tilemapLoop
dec a
jr z, .tilemapDone
ldd [hl], a
dec c
jr nz, .tilemapLoop
ld l,$0f ; Jump to top row
jr .tilemapLoop
.tilemapDone
ld a, 30
ldh [$ff42], a
; Turn on LCD
ld a, $91
ldh [$40], a
ld d, (-119) & $FF
ld c, 15
.animate
call WaitFrame
ld a, d
sra a
sra a
ldh [$ff42], a
ld a, d
add c
ld d, a
ld a, c
cp 8
jr nz, .noPaletteChange
ld a, $A8
ldh [$47], a
.noPaletteChange
dec c
jr nz, .animate
ld a, $fc
ldh [$47], a
; Play first sound
ld a, $83
call PlaySound
ld b, 5
call WaitBFrames
; Play second sound
ld a, $c1
call PlaySound
; Wait ~1 second
ld b, 60
call WaitBFrames
; Set registers to match the original DMG boot
ld hl, $01B0
push hl
pop af
ld hl, $014D
ld bc, $0013
ld de, $00D8
; Boot the game
jp BootGame
DoubleBitsAndWriteRow:
; Double the most significant 4 bits, b is shifted by 4
ld a, 4
ld c, 0
.doubleCurrentBit
sla b
push af
rl c
pop af
rl c
dec a
jr nz, .doubleCurrentBit
ld a, c
; Write as two rows
ldi [hl], a
inc hl
ldi [hl], a
inc hl
ret
WaitFrame:
push hl
ld hl, $FF0F
res 0, [hl]
.wait
bit 0, [hl]
jr z, .wait
pop hl
ret
WaitBFrames:
call WaitFrame
dec b
jr nz, WaitBFrames
ret
PlaySound:
ldh [$13], a
ld a, $87
ldh [$14], a
ret
TrademarkSymbol:
db $3c,$42,$b9,$a5,$b9,$a5,$42,$3c
SECTION "BootGame", ROM0[$fe]
BootGame:
ldh [$50], a

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bsnes/gb/BootROMs/pb12.c Normal file
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#include <stdio.h>
#include <stdint.h>
#include <stdbool.h>
#include <stdlib.h>
#include <unistd.h>
#include <assert.h>
void opts(uint8_t byte, uint8_t *options)
{
*(options++) = byte | ((byte << 1) & 0xff);
*(options++) = byte & (byte << 1);
*(options++) = byte | ((byte >> 1) & 0xff);
*(options++) = byte & (byte >> 1);
}
void write_all(int fd, const void *buf, size_t count) {
while (count) {
ssize_t written = write(fd, buf, count);
if (written < 0) {
fprintf(stderr, "write");
exit(1);
}
count -= written;
buf += written;
}
}
int main()
{
static uint8_t source[0x4000];
size_t size = read(STDIN_FILENO, &source, sizeof(source));
unsigned pos = 0;
assert(size <= 0x4000);
while (size && source[size - 1] == 0) {
size--;
}
uint8_t literals[8];
size_t literals_size = 0;
unsigned bits = 0;
unsigned control = 0;
unsigned prev[2] = {-1, -1}; // Unsigned to allow "not set" values
while (true) {
uint8_t byte = 0;
if (pos == size){
if (bits == 0) break;
}
else {
byte = source[pos++];
}
if (byte == prev[0] || byte == prev[1]) {
bits += 2;
control <<= 1;
control |= 1;
control <<= 1;
if (byte == prev[1]) {
control |= 1;
}
}
else {
bits += 2;
control <<= 2;
uint8_t options[4];
opts(prev[1], options);
bool found = false;
for (unsigned i = 0; i < 4; i++) {
if (options[i] == byte) {
// 01 = modify
control |= 1;
bits += 2;
control <<= 2;
control |= i;
found = true;
break;
}
}
if (!found) {
literals[literals_size++] = byte;
}
}
prev[0] = prev[1];
prev[1] = byte;
if (bits >= 8) {
uint8_t outctl = control >> (bits - 8);
assert(outctl != 1);
write_all(STDOUT_FILENO, &outctl, 1);
write_all(STDOUT_FILENO, literals, literals_size);
bits -= 8;
control &= (1 << bits) - 1;
literals_size = 0;
}
}
uint8_t end_byte = 1;
write_all(STDOUT_FILENO, &end_byte, 1);
return 0;
}

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bsnes/gb/BootROMs/sgb2_boot.asm Normal file
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SGB2 EQU 1
include "sgb_boot.asm"

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bsnes/gb/BootROMs/sgb_boot.asm Normal file
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; SameBoy SGB bootstrap ROM
; Todo: use friendly names for HW registers instead of magic numbers
SECTION "BootCode", ROM0[$0]
Start:
; Init stack pointer
ld sp, $fffe
; Clear memory VRAM
ld hl, $8000
.clearVRAMLoop
ldi [hl], a
bit 5, h
jr z, .clearVRAMLoop
; Init Audio
ld a, $80
ldh [$26], a
ldh [$11], a
ld a, $f3
ldh [$12], a
ldh [$25], a
ld a, $77
ldh [$24], a
; Init BG palette to white
ld a, $0
ldh [$47], a
; Load logo from ROM.
; A nibble represents a 4-pixels line, 2 bytes represent a 4x4 tile, scaled to 8x8.
; Tiles are ordered left to right, top to bottom.
ld de, $104 ; Logo start
ld hl, $8010 ; This is where we load the tiles in VRAM
.loadLogoLoop
ld a, [de] ; Read 2 rows
ld b, a
call DoubleBitsAndWriteRow
call DoubleBitsAndWriteRow
inc de
ld a, e
xor $34 ; End of logo
jr nz, .loadLogoLoop
; Load trademark symbol
ld de, TrademarkSymbol
ld c,$08
.loadTrademarkSymbolLoop:
ld a,[de]
inc de
ldi [hl],a
inc hl
dec c
jr nz, .loadTrademarkSymbolLoop
; Set up tilemap
ld a,$19 ; Trademark symbol
ld [$9910], a ; ... put in the superscript position
ld hl,$992f ; Bottom right corner of the logo
ld c,$c ; Tiles in a logo row
.tilemapLoop
dec a
jr z, .tilemapDone
ldd [hl], a
dec c
jr nz, .tilemapLoop
ld l,$0f ; Jump to top row
jr .tilemapLoop
.tilemapDone
; Turn on LCD
ld a, $91
ldh [$40], a
ld a, $f1 ; Packet magic, increases by 2 for every packet
ldh [$80], a
ld hl, $104 ; Header start
xor a
ld c, a ; JOYP
.sendCommand
xor a
ld [c], a
ld a, $30
ld [c], a
ldh a, [$80]
call SendByte
push hl
ld b, $e
ld d, 0
.checksumLoop
call ReadHeaderByte
add d
ld d, a
dec b
jr nz, .checksumLoop
; Send checksum
call SendByte
pop hl
ld b, $e
.sendLoop
call ReadHeaderByte
call SendByte
dec b
jr nz, .sendLoop
; Done bit
ld a, $20
ld [c], a
ld a, $30
ld [c], a
; Update command
ldh a, [$80]
add 2
ldh [$80], a
ld a, $58
cp l
jr nz, .sendCommand
; Write to sound registers for DMG compatibility
ld c, $13
ld a, $c1
ld [c], a
inc c
ld a, 7
ld [c], a
; Init BG palette
ld a, $fc
ldh [$47], a
; Set registers to match the original SGB boot
IF DEF(SGB2)
ld a, $FF
ELSE
ld a, 1
ENDC
ld hl, $c060
; Boot the game
jp BootGame
ReadHeaderByte:
ld a, $4F
cp l
jr c, .zero
ld a, [hli]
ret
.zero:
inc hl
xor a
ret
SendByte:
ld e, a
ld d, 8
.loop
ld a, $10
rr e
jr c, .zeroBit
add a ; 10 -> 20
.zeroBit
ld [c], a
ld a, $30
ld [c], a
dec d
ret z
jr .loop
DoubleBitsAndWriteRow:
; Double the most significant 4 bits, b is shifted by 4
ld a, 4
ld c, 0
.doubleCurrentBit
sla b
push af
rl c
pop af
rl c
dec a
jr nz, .doubleCurrentBit
ld a, c
; Write as two rows
ldi [hl], a
inc hl
ldi [hl], a
inc hl
ret
WaitFrame:
push hl
ld hl, $FF0F
res 0, [hl]
.wait
bit 0, [hl]
jr z, .wait
pop hl
ret
TrademarkSymbol:
db $3c,$42,$b9,$a5,$b9,$a5,$42,$3c
SECTION "BootGame", ROM0[$fe]
BootGame:
ldh [$50], a

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See https://sameboy.github.io/changelog/

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bsnes/gb/CONTRIBUTING.md Normal file
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# SameBoy Coding and Contribution Guidelines
## Issues
GitHub Issues are the most effective way to report a bug or request a feature in SameBoy. When reporting a bug, make sure you use the latest stable release, and make sure you mention the SameBoy frontend (Cocoa, SDL, Libretro) and operating system you're using. If you're using Linux/BSD/etc, or you build your own copy of SameBoy for another reason, give as much details as possible on your environment.
If your bug involves a crash, please attach a crash log or a core dump. If you're using Linux/BSD/etc, or if you're using the Libretro core, please attach the `sameboy` binary (or `libretro_sameboy` library) in that case.
If your bug is a regression, it'd be extremely helpful if you can report the the first affected version. You get extra credits if you use `git bisect` to point the exact breaking commit.
If your bug is an emulation bug (Such as a failing test ROM), and you have access to a Game Boy you can test on, please confirm SameBoy is indeed behaving differently from hardware, and report both the emulated model and revision in SameBoy, and the hardware revision you're testing on.
If your issue is a feature request, demonstrating use cases can help me better prioritize it.
## Pull Requests
To allow quicker integration into SameBoy's master branch, contributors are asked to follow SameBoy's style and coding guidelines. Keep in mind that despite the seemingly strict guidelines, all pull requests are welcome not following the guidelines does not mean your pull request will not be accepted, but it will require manual tweaks from my side for integrating.
### Languages and Compilers
SameBoy's core, SDL frontend, Libretro frontend, and automatic tester (Folders `Core`, `SDL` & `OpenDialog`, `libretro`, and `Tester`; respectively) are all written in C11. The Cocoa frontend, SameBoy's fork of Hex Fiend, JoyKit and the Quick Look previewer (Folders `Cocoa`, `HexFiend`, `JoyKit` and `QuickLook`; respectively) are all written in ARC-enabled Objective-C. The SameBoot ROMs (Under `BootROMs`) are written in rgbds-flavor SM83 assembly, with build tools in C11. The shaders (inside `Shaders`) are written in a polyglot GLSL and Metal style, with a few GLSL- and Metal-specific sources. The build system uses standalone Make, in the GNU flavor. Avoid adding new languages (C++, Swift, Python, CMake...) to any of the existing sub-projects.
SameBoy's main target compiler is Clang, but GCC is also supported when targeting Linux and Libretro. Other compilers (e.g. MSVC) are not supported, and unless there's a good reason, there's no need to go out of your way to add specific support for them. Extensions that are supported by both compilers (Such as `typeof`) may be used if it makes sense. It's OK if you can't test one of these compilers yourself; once you push a commit, the CI bot will let you know if you broke something.
### Third Party Libraries and Tools
Avoid adding new required dependencies; run-time and compile-time dependencies alike. Most importantly, avoid linking against GPL licensed libraries (LGPL libraries are fine), so SameBoy can retain its MIT license.
### Spacing, Indentation and Formatting
In all files and languages (Other than Makefiles when required), 4 spaces are used for indentation. Unix line endings (`\n`) are used exclusively, even in Windows-specific source files. (`\r` and `\t` shouldn't appear in any source file). Opening braces belong on the same line as their control flow directive, and on their own line when following a function prototype. The `else` keyword always starts on its own line. The `case` keyword is indented relative to its `switch` block, and the code inside a `case` is indented relative to its label. A control flow keyword should have a space between it and the following `(`, commas should follow a space, and operator (except `.` and `->`) should be surrounded by spaces.
Control flow statements must use `{}`, with the exception of `if` statements that only contain a single `break`, `continue`, or trivial `return` statements. If `{}`s are omitted, the statement must be on the same line as the `if` condition. Functions that do not have any argument must be specified as `(void)`, as mandated by the C standard. The `sizeof` and `typeof` operators should be used as if they're functions (With `()`). `*`, when used to declare pointer types (including functions that return pointers), and when used to dereference a pointer, is attached to the right side (The variable name) not to the left, and not with spaces on both sides.
No strict limitations on a line's maximum width, but use your best judgement if you think a statement would benefit from an additional line break.
Well formatted code example:
```
static void my_function(void)
{
GB_something_t *thing = GB_function(&gb, GB_FLAG_ONE | GB_FLAG_TWO, sizeof(thing));
if (GB_is_thing(thing)) return;
switch (*thing) {
case GB_QUACK:
// Something
case GB_DUCK:
// Something else
}
}
```
Badly formatted code example:
```
static void my_function(){
GB_something_t* thing=GB_function(&gb , GB_FLAG_ONE|GB_FLAG_TWO , sizeof thing);
if( GB_is_thing ( thing ) )
return;
switch(* thing)
{
case GB_QUACK:
// Something
case GB_DUCK:
// Something else
}
}
```
### Other Coding Conventions
The primitive types to be used in SameBoy are `unsigned` and `signed` (Without the `int` keyword), the `(u)int*_t` types, `char *` for UTF-8 strings, `double` for non-integer numbers, and `bool` for booleans (Including in Objective-C code, avoid `BOOL`). As long as it's not mandated by a 3rd-party API (e.g. `int` when using file descriptors), avoid using other primitive types. Use `const` whenever possible.
Most C names should be `lower_case_snake_case`. Constants and macros use `UPPER_CASE_SNAKE_CASE`. Type definitions use a `_t` suffix. Type definitions, as well as non-static (exported) core symbols, should be prefixed with `GB_` (SameBoy's core is intended to be used as a library, so it shouldn't contaminate the global namespace without prefixes). Exported symbols that are only meant to be used by other parts of the core should still get the `GB_` prefix, but their header definition should be inside `#ifdef GB_INTERNAL`.
For Objective-C naming conventions, use Apple's conventions (Some old Objective-C code mixes these with the C naming convention; new code should use Apple's convention exclusively). The name prefix for SameBoy classes and constants is `GB`. JoyKit's prefix is `JOY`, and Hex Fiend's prefix is `HF`.
In all languages, prefer long, unambiguous names over short ambiguous ones.

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#import <Cocoa/Cocoa.h>
#import <WebKit/WebKit.h>
@interface AppDelegate : NSObject <NSApplicationDelegate, NSUserNotificationCenterDelegate, NSMenuDelegate, WebUIDelegate, WebPolicyDelegate, WebFrameLoadDelegate>
@property (nonatomic, strong) IBOutlet NSWindow *preferencesWindow;
@property (nonatomic, strong) IBOutlet NSView *graphicsTab;
@property (nonatomic, strong) IBOutlet NSView *emulationTab;
@property (nonatomic, strong) IBOutlet NSView *audioTab;
@property (nonatomic, strong) IBOutlet NSView *controlsTab;
@property (nonatomic, strong) IBOutlet NSView *updatesTab;
- (IBAction)showPreferences: (id) sender;
- (IBAction)toggleDeveloperMode:(id)sender;
- (IBAction)switchPreferencesTab:(id)sender;
@property (nonatomic, weak) IBOutlet NSMenuItem *linkCableMenuItem;
@property (nonatomic, strong) IBOutlet NSWindow *updateWindow;
@property (nonatomic, strong) IBOutlet WebView *updateChanges;
@property (nonatomic, strong) IBOutlet NSProgressIndicator *updatesSpinner;
@property (strong) IBOutlet NSButton *updatesButton;
@property (strong) IBOutlet NSTextField *updateProgressLabel;
@property (strong) IBOutlet NSButton *updateProgressButton;
@property (strong) IBOutlet NSWindow *updateProgressWindow;
@property (strong) IBOutlet NSProgressIndicator *updateProgressSpinner;
@end

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#import "AppDelegate.h"
#include "GBButtons.h"
#include "GBView.h"
#include <Core/gb.h>
#import <Carbon/Carbon.h>
#import <JoyKit/JoyKit.h>
#import <WebKit/WebKit.h>
#define UPDATE_SERVER "https://sameboy.github.io"
static uint32_t color_to_int(NSColor *color)
{
color = [color colorUsingColorSpace:[NSColorSpace deviceRGBColorSpace]];
return (((unsigned)(color.redComponent * 0xFF)) << 16) |
(((unsigned)(color.greenComponent * 0xFF)) << 8) |
((unsigned)(color.blueComponent * 0xFF));
}
@implementation AppDelegate
{
NSWindow *preferences_window;
NSArray<NSView *> *preferences_tabs;
NSString *_lastVersion;
NSString *_updateURL;
NSURLSessionDownloadTask *_updateTask;
enum {
UPDATE_DOWNLOADING,
UPDATE_EXTRACTING,
UPDATE_WAIT_INSTALL,
UPDATE_INSTALLING,
UPDATE_FAILED,
} _updateState;
NSString *_downloadDirectory;
}
- (void) applicationDidFinishLaunching:(NSNotification *)notification
{
NSUserDefaults *defaults = [NSUserDefaults standardUserDefaults];
for (unsigned i = 0; i < GBButtonCount; i++) {
if ([[defaults objectForKey:button_to_preference_name(i, 0)] isKindOfClass:[NSString class]]) {
[defaults removeObjectForKey:button_to_preference_name(i, 0)];
}
}
[[NSUserDefaults standardUserDefaults] registerDefaults:@{
@"GBRight": @(kVK_RightArrow),
@"GBLeft": @(kVK_LeftArrow),
@"GBUp": @(kVK_UpArrow),
@"GBDown": @(kVK_DownArrow),
@"GBA": @(kVK_ANSI_X),
@"GBB": @(kVK_ANSI_Z),
@"GBSelect": @(kVK_Delete),
@"GBStart": @(kVK_Return),
@"GBTurbo": @(kVK_Space),
@"GBRewind": @(kVK_Tab),
@"GBSlow-Motion": @(kVK_Shift),
@"GBFilter": @"NearestNeighbor",
@"GBColorCorrection": @(GB_COLOR_CORRECTION_EMULATE_HARDWARE),
@"GBHighpassFilter": @(GB_HIGHPASS_REMOVE_DC_OFFSET),
@"GBRewindLength": @(10),
@"GBFrameBlendingMode": @([defaults boolForKey:@"DisableFrameBlending"]? GB_FRAME_BLENDING_MODE_DISABLED : GB_FRAME_BLENDING_MODE_ACCURATE),
@"GBDMGModel": @(GB_MODEL_DMG_B),
@"GBCGBModel": @(GB_MODEL_CGB_E),
@"GBSGBModel": @(GB_MODEL_SGB2),
@"GBRumbleMode": @(GB_RUMBLE_CARTRIDGE_ONLY),
@"GBVolume": @(1.0),
}];
[JOYController startOnRunLoop:[NSRunLoop currentRunLoop] withOptions:@{
JOYAxes2DEmulateButtonsKey: @YES,
JOYHatsEmulateButtonsKey: @YES,
}];
if ([[NSUserDefaults standardUserDefaults] boolForKey:@"GBNotificationsUsed"]) {
[NSUserNotificationCenter defaultUserNotificationCenter].delegate = self;
}
[self askAutoUpdates];
if ([[NSUserDefaults standardUserDefaults] boolForKey:@"GBAutoUpdatesEnabled"]) {
[self checkForUpdates];
}
if ([[NSProcessInfo processInfo].arguments containsObject:@"--update-launch"]) {
[NSApp activateIgnoringOtherApps:true];
}
}
- (IBAction)toggleDeveloperMode:(id)sender
{
NSUserDefaults *defaults = [NSUserDefaults standardUserDefaults];
[defaults setBool:![defaults boolForKey:@"DeveloperMode"] forKey:@"DeveloperMode"];
}
- (IBAction)switchPreferencesTab:(id)sender
{
for (NSView *view in preferences_tabs) {
[view removeFromSuperview];
}
NSView *tab = preferences_tabs[[sender tag]];
NSRect old = [_preferencesWindow frame];
NSRect new = [_preferencesWindow frameRectForContentRect:tab.frame];
new.origin.x = old.origin.x;
new.origin.y = old.origin.y + (old.size.height - new.size.height);
[_preferencesWindow setFrame:new display:true animate:_preferencesWindow.visible];
[_preferencesWindow.contentView addSubview:tab];
}
- (BOOL)validateMenuItem:(NSMenuItem *)anItem
{
if ([anItem action] == @selector(toggleDeveloperMode:)) {
[(NSMenuItem *)anItem setState:[[NSUserDefaults standardUserDefaults] boolForKey:@"DeveloperMode"]];
}
if (anItem == self.linkCableMenuItem) {
return [[NSDocumentController sharedDocumentController] documents].count > 1;
}
return true;
}
- (void)menuNeedsUpdate:(NSMenu *)menu
{
NSMutableArray *items = [NSMutableArray array];
NSDocument *currentDocument = [[NSDocumentController sharedDocumentController] currentDocument];
for (NSDocument *document in [[NSDocumentController sharedDocumentController] documents]) {
if (document == currentDocument) continue;
NSMenuItem *item = [[NSMenuItem alloc] initWithTitle:document.displayName action:@selector(connectLinkCable:) keyEquivalent:@""];
item.representedObject = document;
item.image = [[NSWorkspace sharedWorkspace] iconForFile:document.fileURL.path];
[item.image setSize:NSMakeSize(16, 16)];
[items addObject:item];
}
menu.itemArray = items;
}
- (IBAction) showPreferences: (id) sender
{
NSArray *objects;
if (!_preferencesWindow) {
[[NSBundle mainBundle] loadNibNamed:@"Preferences" owner:self topLevelObjects:&objects];
NSToolbarItem *first_toolbar_item = [_preferencesWindow.toolbar.items firstObject];
_preferencesWindow.toolbar.selectedItemIdentifier = [first_toolbar_item itemIdentifier];
preferences_tabs = @[self.emulationTab, self.graphicsTab, self.audioTab, self.controlsTab, self.updatesTab];
[self switchPreferencesTab:first_toolbar_item];
[_preferencesWindow center];
#ifndef UPDATE_SUPPORT
[_preferencesWindow.toolbar removeItemAtIndex:4];
#endif
}
[_preferencesWindow makeKeyAndOrderFront:self];
}
- (BOOL)applicationOpenUntitledFile:(NSApplication *)sender
{
[self askAutoUpdates];
/* Bring an existing panel to the foreground */
for (NSWindow *window in [[NSApplication sharedApplication] windows]) {
if ([window isKindOfClass:[NSOpenPanel class]]) {
[(NSOpenPanel *)window makeKeyAndOrderFront:nil];
return true;
}
}
[[NSDocumentController sharedDocumentController] openDocument:self];
return true;
}
- (void)userNotificationCenter:(NSUserNotificationCenter *)center didActivateNotification:(NSUserNotification *)notification
{
[[NSDocumentController sharedDocumentController] openDocumentWithContentsOfFile:notification.identifier display:true];
}
- (void)updateFound
{
[[[NSURLSession sharedSession] dataTaskWithURL:[NSURL URLWithString:@UPDATE_SERVER "/raw_changes"] completionHandler:^(NSData *data, NSURLResponse *response, NSError *error) {
NSColor *linkColor = [NSColor colorWithRed:0.125 green:0.325 blue:1.0 alpha:1.0];
if (@available(macOS 10.10, *)) {
linkColor = [NSColor linkColor];
}
NSString *changes = [[NSString alloc] initWithData:data encoding:NSUTF8StringEncoding];
NSRange cutoffRange = [changes rangeOfString:@"<!--(" GB_VERSION ")-->"];
if (cutoffRange.location != NSNotFound) {
changes = [changes substringToIndex:cutoffRange.location];
}
NSString *html = [NSString stringWithFormat:@"<!DOCTYPE html><html><head><title></title>"
"<style>html {background-color:transparent; color: #%06x; line-height:1.5} a:link, a:visited{color:#%06x; text-decoration:none}</style>"
"</head><body>%@</body></html>",
color_to_int([NSColor textColor]),
color_to_int(linkColor),
changes];
if ([(NSHTTPURLResponse *)response statusCode] == 200) {
dispatch_async(dispatch_get_main_queue(), ^{
NSArray *objects;
[[NSBundle mainBundle] loadNibNamed:@"UpdateWindow" owner:self topLevelObjects:&objects];
self.updateChanges.preferences.standardFontFamily = [NSFont systemFontOfSize:0].familyName;
self.updateChanges.preferences.fixedFontFamily = @"Menlo";
self.updateChanges.drawsBackground = false;
[self.updateChanges.mainFrame loadHTMLString:html baseURL:nil];
});
}
}] resume];
}
- (NSArray *)webView:(WebView *)sender contextMenuItemsForElement:(NSDictionary *)element defaultMenuItems:(NSArray *)defaultMenuItems
{
// Disable reload context menu
if ([defaultMenuItems count] <= 2) {
return nil;
}
return defaultMenuItems;
}
- (void)webView:(WebView *)sender didFinishLoadForFrame:(WebFrame *)frame
{
static dispatch_once_t onceToken;
dispatch_once(&onceToken, ^{
sender.mainFrame.frameView.documentView.enclosingScrollView.drawsBackground = true;
sender.mainFrame.frameView.documentView.enclosingScrollView.backgroundColor = [NSColor textBackgroundColor];
sender.policyDelegate = self;
[self.updateWindow center];
[self.updateWindow makeKeyAndOrderFront:nil];
});
}
- (void)webView:(WebView *)webView decidePolicyForNavigationAction:(NSDictionary *)actionInformation request:(NSURLRequest *)request frame:(WebFrame *)frame decisionListener:(id<WebPolicyDecisionListener>)listener
{
[listener ignore];
[[NSWorkspace sharedWorkspace] openURL:[request URL]];
}
- (void)checkForUpdates
{
#ifdef UPDATE_SUPPORT
[[[NSURLSession sharedSession] dataTaskWithURL:[NSURL URLWithString:@UPDATE_SERVER "/latest_version"] completionHandler:^(NSData *data, NSURLResponse *response, NSError *error) {
dispatch_async(dispatch_get_main_queue(), ^{
[self.updatesSpinner stopAnimation:nil];
[self.updatesButton setEnabled:true];
});
if ([(NSHTTPURLResponse *)response statusCode] == 200) {
NSString *string = [[NSString alloc] initWithData:data encoding:NSUTF8StringEncoding];
NSArray <NSString *> *components = [string componentsSeparatedByString:@"|"];
if (components.count != 2) return;
_lastVersion = components[0];
_updateURL = components[1];
if (![@GB_VERSION isEqualToString:_lastVersion] &&
![[[NSUserDefaults standardUserDefaults] stringForKey:@"GBSkippedVersion"] isEqualToString:_lastVersion]) {
[self updateFound];
}
}
}] resume];
#endif
}
- (IBAction)userCheckForUpdates:(id)sender
{
if (self.updateWindow) {
[self.updateWindow makeKeyAndOrderFront:sender];
}
else {
[[NSUserDefaults standardUserDefaults] setObject:nil forKey:@"GBSkippedVersion"];
[self checkForUpdates];
[sender setEnabled:false];
[self.updatesSpinner startAnimation:sender];
}
}
- (void)askAutoUpdates
{
#ifdef UPDATE_SUPPORT
if (![[NSUserDefaults standardUserDefaults] boolForKey:@"GBAskedAutoUpdates"]) {
NSAlert *alert = [[NSAlert alloc] init];
alert.messageText = @"Should SameBoy check for updates when launched?";
alert.informativeText = @"SameBoy is frequently updated with new features, accuracy improvements, and bug fixes. This setting can always be changed in the preferences window.";
[alert addButtonWithTitle:@"Check on Launch"];
[alert addButtonWithTitle:@"Don't Check on Launch"];
[[NSUserDefaults standardUserDefaults] setBool:[alert runModal] == NSAlertFirstButtonReturn forKey:@"GBAutoUpdatesEnabled"];
[[NSUserDefaults standardUserDefaults] setBool:true forKey:@"GBAskedAutoUpdates"];
}
#endif
}
- (IBAction)skipVersion:(id)sender
{
[[NSUserDefaults standardUserDefaults] setObject:_lastVersion forKey:@"GBSkippedVersion"];
[self.updateWindow performClose:sender];
}
- (IBAction)installUpdate:(id)sender
{
[self.updateProgressSpinner startAnimation:nil];
self.updateProgressButton.title = @"Cancel";
self.updateProgressButton.enabled = true;
self.updateProgressLabel.stringValue = @"Downloading update...";
_updateState = UPDATE_DOWNLOADING;
_updateTask = [[NSURLSession sharedSession] downloadTaskWithURL: [NSURL URLWithString:_updateURL] completionHandler:^(NSURL *location, NSURLResponse *response, NSError *error) {
_updateTask = nil;
dispatch_sync(dispatch_get_main_queue(), ^{
self.updateProgressButton.enabled = false;
self.updateProgressLabel.stringValue = @"Extracting update...";
_updateState = UPDATE_EXTRACTING;
});
_downloadDirectory = [[[NSFileManager defaultManager] URLForDirectory:NSItemReplacementDirectory
inDomain:NSUserDomainMask
appropriateForURL:[[NSBundle mainBundle] bundleURL]
create:true
error:nil] path];
NSTask *unzipTask;
if (!_downloadDirectory) {
dispatch_sync(dispatch_get_main_queue(), ^{
self.updateProgressButton.enabled = false;
self.updateProgressLabel.stringValue = @"Failed to extract update.";
_updateState = UPDATE_FAILED;
self.updateProgressButton.title = @"Close";
self.updateProgressButton.enabled = true;
[self.updateProgressSpinner stopAnimation:nil];
});
}
unzipTask = [[NSTask alloc] init];
unzipTask.launchPath = @"/usr/bin/unzip";
unzipTask.arguments = @[location.path, @"-d", _downloadDirectory];
[unzipTask launch];
[unzipTask waitUntilExit];
if (unzipTask.terminationStatus != 0 || unzipTask.terminationReason != NSTaskTerminationReasonExit) {
[[NSFileManager defaultManager] removeItemAtPath:_downloadDirectory error:nil];
dispatch_sync(dispatch_get_main_queue(), ^{
self.updateProgressButton.enabled = false;
self.updateProgressLabel.stringValue = @"Failed to extract update.";
_updateState = UPDATE_FAILED;
self.updateProgressButton.title = @"Close";
self.updateProgressButton.enabled = true;
[self.updateProgressSpinner stopAnimation:nil];
});
return;
}
dispatch_sync(dispatch_get_main_queue(), ^{
self.updateProgressButton.enabled = false;
self.updateProgressLabel.stringValue = @"Update ready, save your game progress and click Install.";
_updateState = UPDATE_WAIT_INSTALL;
self.updateProgressButton.title = @"Install";
self.updateProgressButton.enabled = true;
[self.updateProgressSpinner stopAnimation:nil];
});
}];
[_updateTask resume];
self.updateProgressWindow.preventsApplicationTerminationWhenModal = false;
[self.updateWindow beginSheet:self.updateProgressWindow completionHandler:^(NSModalResponse returnCode) {
[self.updateWindow close];
}];
}
- (void)performUpgrade
{
self.updateProgressButton.enabled = false;
self.updateProgressLabel.stringValue = @"Instaling update...";
_updateState = UPDATE_INSTALLING;
self.updateProgressButton.enabled = false;
[self.updateProgressSpinner startAnimation:nil];
dispatch_async(dispatch_get_global_queue(DISPATCH_QUEUE_PRIORITY_DEFAULT, 0), ^{
NSString *executablePath = [[NSBundle mainBundle] executablePath];
NSString *contentsPath = [[[NSBundle mainBundle] bundlePath] stringByAppendingPathComponent:@"Contents"];
NSString *contentsTempPath = [[[NSBundle mainBundle] bundlePath] stringByAppendingPathComponent:@"TempContents"];
NSString *updateContentsPath = [_downloadDirectory stringByAppendingPathComponent:@"SameBoy.app/Contents"];
NSError *error = nil;
[[NSFileManager defaultManager] moveItemAtPath:contentsPath toPath:contentsTempPath error:&error];
if (error) {
[[NSFileManager defaultManager] removeItemAtPath:_downloadDirectory error:nil];
_downloadDirectory = nil;
dispatch_sync(dispatch_get_main_queue(), ^{
self.updateProgressButton.enabled = false;
self.updateProgressLabel.stringValue = @"Failed to install update.";
_updateState = UPDATE_FAILED;
self.updateProgressButton.title = @"Close";
self.updateProgressButton.enabled = true;
[self.updateProgressSpinner stopAnimation:nil];
});
return;
}
[[NSFileManager defaultManager] moveItemAtPath:updateContentsPath toPath:contentsPath error:&error];
if (error) {
[[NSFileManager defaultManager] moveItemAtPath:contentsTempPath toPath:contentsPath error:nil];
[[NSFileManager defaultManager] removeItemAtPath:_downloadDirectory error:nil];
_downloadDirectory = nil;
dispatch_sync(dispatch_get_main_queue(), ^{
self.updateProgressButton.enabled = false;
self.updateProgressLabel.stringValue = @"Failed to install update.";
_updateState = UPDATE_FAILED;
self.updateProgressButton.title = @"Close";
self.updateProgressButton.enabled = true;
[self.updateProgressSpinner stopAnimation:nil];
});
return;
}
[[NSFileManager defaultManager] removeItemAtPath:_downloadDirectory error:nil];
[[NSFileManager defaultManager] removeItemAtPath:contentsTempPath error:nil];
_downloadDirectory = nil;
atexit_b(^{
execl(executablePath.UTF8String, executablePath.UTF8String, "--update-launch", NULL);
});
dispatch_async(dispatch_get_main_queue(), ^{
[NSApp terminate:nil];
});
});
}
- (IBAction)updateAction:(id)sender
{
switch (_updateState) {
case UPDATE_DOWNLOADING:
[_updateTask cancelByProducingResumeData:nil];
_updateTask = nil;
[self.updateProgressWindow close];
break;
case UPDATE_WAIT_INSTALL:
[self performUpgrade];
break;
case UPDATE_EXTRACTING:
case UPDATE_INSTALLING:
break;
case UPDATE_FAILED:
[self.updateProgressWindow close];
break;
}
}
- (void)dealloc
{
if (_downloadDirectory) {
[[NSFileManager defaultManager] removeItemAtPath:_downloadDirectory error:nil];
}
}
- (IBAction)nop:(id)sender
{
}
@end

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#import <Cocoa/Cocoa.h>
#ifndef BigSurToolbar_h
#define BigSurToolbar_h
/* Backport the toolbarStyle property to allow compilation with older SDKs*/
#ifndef __MAC_10_16
typedef NS_ENUM(NSInteger, NSWindowToolbarStyle) {
// The default value. The style will be determined by the window's given configuration
NSWindowToolbarStyleAutomatic,
// The toolbar will appear below the window title
NSWindowToolbarStyleExpanded,
// The toolbar will appear below the window title and the items in the toolbar will attempt to have equal widths when possible
NSWindowToolbarStylePreference,
// The window title will appear inline with the toolbar when visible
NSWindowToolbarStyleUnified,
// Same as NSWindowToolbarStyleUnified, but with reduced margins in the toolbar allowing more focus to be on the contents of the window
NSWindowToolbarStyleUnifiedCompact
} API_AVAILABLE(macos(11.0));
@interface NSWindow (toolbarStyle)
@property (nonatomic) NSWindowToolbarStyle toolbarStyle API_AVAILABLE(macos(11.0));
@end
@interface NSImage (SFSymbols)
+ (instancetype)imageWithSystemSymbolName:(NSString *)symbolName accessibilityDescription:(NSString *)description API_AVAILABLE(macos(11.0));
@end
#endif
#endif

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#import <Cocoa/Cocoa.h>
#include "GBView.h"
#include "GBImageView.h"
#include "GBSplitView.h"
#include "GBVisualizerView.h"
#include "GBOSDView.h"
@class GBCheatWindowController;
@interface Document : NSDocument <NSWindowDelegate, GBImageViewDelegate, NSTableViewDataSource, NSTableViewDelegate, NSSplitViewDelegate>
@property (nonatomic, readonly) GB_gameboy_t *gb;
@property (nonatomic, strong) IBOutlet GBView *view;
@property (nonatomic, strong) IBOutlet NSTextView *consoleOutput;
@property (nonatomic, strong) IBOutlet NSPanel *consoleWindow;
@property (nonatomic, strong) IBOutlet NSTextField *consoleInput;
@property (nonatomic, strong) IBOutlet NSWindow *mainWindow;
@property (nonatomic, strong) IBOutlet NSView *memoryView;
@property (nonatomic, strong) IBOutlet NSPanel *memoryWindow;
@property (nonatomic, readonly) GB_gameboy_t *gameboy;
@property (nonatomic, strong) IBOutlet NSTextField *memoryBankInput;
@property (nonatomic, strong) IBOutlet NSToolbarItem *memoryBankItem;
@property (nonatomic, strong) IBOutlet GBImageView *tilesetImageView;
@property (nonatomic, strong) IBOutlet NSPopUpButton *tilesetPaletteButton;
@property (nonatomic, strong) IBOutlet GBImageView *tilemapImageView;
@property (nonatomic, strong) IBOutlet NSPopUpButton *tilemapPaletteButton;
@property (nonatomic, strong) IBOutlet NSPopUpButton *tilemapMapButton;
@property (nonatomic, strong) IBOutlet NSPopUpButton *TilemapSetButton;
@property (nonatomic, strong) IBOutlet NSButton *gridButton;
@property (nonatomic, strong) IBOutlet NSTabView *vramTabView;
@property (nonatomic, strong) IBOutlet NSPanel *vramWindow;
@property (nonatomic, strong) IBOutlet NSTextField *vramStatusLabel;
@property (nonatomic, strong) IBOutlet NSTableView *paletteTableView;
@property (nonatomic, strong) IBOutlet NSTableView *spritesTableView;
@property (nonatomic, strong) IBOutlet NSPanel *printerFeedWindow;
@property (nonatomic, strong) IBOutlet NSImageView *feedImageView;
@property (nonatomic, strong) IBOutlet NSTextView *debuggerSideViewInput;
@property (nonatomic, strong) IBOutlet NSTextView *debuggerSideView;
@property (nonatomic, strong) IBOutlet GBSplitView *debuggerSplitView;
@property (nonatomic, strong) IBOutlet NSBox *debuggerVerticalLine;
@property (nonatomic, strong) IBOutlet NSPanel *cheatsWindow;
@property (nonatomic, strong) IBOutlet GBCheatWindowController *cheatWindowController;
@property (nonatomic, readonly) Document *partner;
@property (nonatomic, readonly) bool isSlave;
@property (strong) IBOutlet NSView *gbsPlayerView;
@property (strong) IBOutlet NSTextField *gbsTitle;
@property (strong) IBOutlet NSTextField *gbsAuthor;
@property (strong) IBOutlet NSTextField *gbsCopyright;
@property (strong) IBOutlet NSPopUpButton *gbsTracks;
@property (strong) IBOutlet NSButton *gbsPlayPauseButton;
@property (strong) IBOutlet NSButton *gbsRewindButton;
@property (strong) IBOutlet NSSegmentedControl *gbsNextPrevButton;
@property (strong) IBOutlet GBVisualizerView *gbsVisualizer;
@property (strong) IBOutlet GBOSDView *osdView;
-(uint8_t) readMemory:(uint16_t) addr;
-(void) writeMemory:(uint16_t) addr value:(uint8_t)value;
-(void) performAtomicBlock: (void (^)())block;
-(void) connectLinkCable:(NSMenuItem *)sender;
-(int)loadStateFile:(const char *)path noErrorOnNotFound:(bool)noErrorOnFileNotFound;
@end

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12
bsnes/gb/Cocoa/GBAudioClient.h Normal file
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#import <Foundation/Foundation.h>
#import <Core/gb.h>
@interface GBAudioClient : NSObject
@property (nonatomic, strong) void (^renderBlock)(UInt32 sampleRate, UInt32 nFrames, GB_sample_t *buffer);
@property (nonatomic, readonly) UInt32 rate;
@property (nonatomic, readonly, getter=isPlaying) bool playing;
-(void) start;
-(void) stop;
-(id) initWithRendererBlock:(void (^)(UInt32 sampleRate, UInt32 nFrames, GB_sample_t *buffer)) block
andSampleRate:(UInt32) rate;
@end

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#import <Foundation/Foundation.h>
#import <AudioToolbox/AudioToolbox.h>
#import "GBAudioClient.h"
static OSStatus render(
GBAudioClient *self,
AudioUnitRenderActionFlags *ioActionFlags,
const AudioTimeStamp *inTimeStamp,
UInt32 inBusNumber,
UInt32 inNumberFrames,
AudioBufferList *ioData)
{
GB_sample_t *buffer = (GB_sample_t *)ioData->mBuffers[0].mData;
self.renderBlock(self.rate, inNumberFrames, buffer);
return noErr;
}
@implementation GBAudioClient
{
AudioComponentInstance audioUnit;
}
-(id) initWithRendererBlock:(void (^)(UInt32 sampleRate, UInt32 nFrames, GB_sample_t *buffer)) block
andSampleRate:(UInt32) rate
{
if (!(self = [super init])) {
return nil;
}
// Configure the search parameters to find the default playback output unit
// (called the kAudioUnitSubType_RemoteIO on iOS but
// kAudioUnitSubType_DefaultOutput on Mac OS X)
AudioComponentDescription defaultOutputDescription;
defaultOutputDescription.componentType = kAudioUnitType_Output;
defaultOutputDescription.componentSubType = kAudioUnitSubType_DefaultOutput;
defaultOutputDescription.componentManufacturer = kAudioUnitManufacturer_Apple;
defaultOutputDescription.componentFlags = 0;
defaultOutputDescription.componentFlagsMask = 0;
// Get the default playback output unit
AudioComponent defaultOutput = AudioComponentFindNext(NULL, &defaultOutputDescription);
NSAssert(defaultOutput, @"Can't find default output");
// Create a new unit based on this that we'll use for output
OSErr err = AudioComponentInstanceNew(defaultOutput, &audioUnit);
NSAssert1(audioUnit, @"Error creating unit: %hd", err);
// Set our tone rendering function on the unit
AURenderCallbackStruct input;
input.inputProc = (void*)render;
input.inputProcRefCon = (__bridge void * _Nullable)(self);
err = AudioUnitSetProperty(audioUnit,
kAudioUnitProperty_SetRenderCallback,
kAudioUnitScope_Input,
0,
&input,
sizeof(input));
NSAssert1(err == noErr, @"Error setting callback: %hd", err);
AudioStreamBasicDescription streamFormat;
streamFormat.mSampleRate = rate;
streamFormat.mFormatID = kAudioFormatLinearPCM;
streamFormat.mFormatFlags =
kAudioFormatFlagIsSignedInteger | kAudioFormatFlagIsPacked | kAudioFormatFlagsNativeEndian;
streamFormat.mBytesPerPacket = 4;
streamFormat.mFramesPerPacket = 1;
streamFormat.mBytesPerFrame = 4;
streamFormat.mChannelsPerFrame = 2;
streamFormat.mBitsPerChannel = 2 * 8;
err = AudioUnitSetProperty (audioUnit,
kAudioUnitProperty_StreamFormat,
kAudioUnitScope_Input,
0,
&streamFormat,
sizeof(AudioStreamBasicDescription));
NSAssert1(err == noErr, @"Error setting stream format: %hd", err);
err = AudioUnitInitialize(audioUnit);
NSAssert1(err == noErr, @"Error initializing unit: %hd", err);
self.renderBlock = block;
_rate = rate;
return self;
}
-(void) start
{
OSErr err = AudioOutputUnitStart(audioUnit);
NSAssert1(err == noErr, @"Error starting unit: %hd", err);
_playing = true;
}
-(void) stop
{
AudioOutputUnitStop(audioUnit);
_playing = false;
}
-(void) dealloc
{
[self stop];
AudioUnitUninitialize(audioUnit);
AudioComponentInstanceDispose(audioUnit);
}
@end

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bsnes/gb/Cocoa/GBBorderView.h Normal file
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#import <Cocoa/Cocoa.h>
@interface GBBorderView : NSView
@end

26
bsnes/gb/Cocoa/GBBorderView.m Normal file
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#import "GBBorderView.h"
@implementation GBBorderView
- (void)awakeFromNib
{
self.wantsLayer = true;
}
- (BOOL)wantsUpdateLayer
{
return true;
}
- (void)updateLayer
{
/* Wonderful, wonderful windowserver(?) bug. Using 0,0,0 here would cause it to render garbage
on fullscreen windows on some High Sierra machines. Any other value, including the one used
here (which is rendered exactly the same due to rounding) works around this bug. */
self.layer.backgroundColor = [NSColor colorWithCalibratedRed:0
green:0
blue:1.0 / 1024.0
alpha:1.0].CGColor;
}
@end

35
bsnes/gb/Cocoa/GBButtons.h Normal file
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#ifndef GBButtons_h
#define GBButtons_h
typedef enum : NSUInteger {
GBRight,
GBLeft,
GBUp,
GBDown,
GBA,
GBB,
GBSelect,
GBStart,
GBTurbo,
GBRewind,
GBUnderclock,
GBButtonCount,
GBGameBoyButtonCount = GBStart + 1,
} GBButton;
extern NSString const *GBButtonNames[GBButtonCount];
static inline NSString *n2s(uint64_t number)
{
return [NSString stringWithFormat:@"%llx", number];
}
static inline NSString *button_to_preference_name(GBButton button, unsigned player)
{
if (player) {
return [NSString stringWithFormat:@"GBPlayer%d%@", player + 1, GBButtonNames[button]];
}
return [NSString stringWithFormat:@"GB%@", GBButtonNames[button]];
}
#endif

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#import <Foundation/Foundation.h>
#import "GBButtons.h"
NSString const *GBButtonNames[] = {@"Right", @"Left", @"Up", @"Down", @"A", @"B", @"Select", @"Start", @"Turbo", @"Rewind", @"Slow-Motion"};

5
bsnes/gb/Cocoa/GBCheatTextFieldCell.h Normal file
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#import <Cocoa/Cocoa.h>
@interface GBCheatTextFieldCell : NSTextFieldCell
@property (nonatomic) bool usesAddressFormat;
@end

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bsnes/gb/Cocoa/GBCheatTextFieldCell.m Normal file
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#import "GBCheatTextFieldCell.h"
@interface GBCheatTextView : NSTextView
@property bool usesAddressFormat;
@end
@implementation GBCheatTextView
- (bool)_insertText:(NSString *)string replacementRange:(NSRange)range
{
if (range.location == NSNotFound) {
range = self.selectedRange;
}
NSString *new = [self.string stringByReplacingCharactersInRange:range withString:string];
if (!self.usesAddressFormat) {
NSRegularExpression *regex = [NSRegularExpression regularExpressionWithPattern:@"^(\\$[0-9A-Fa-f]{1,2}|[0-9]{1,3})$" options:0 error:NULL];
if ([regex numberOfMatchesInString:new options:0 range:NSMakeRange(0, new.length)]) {
[super insertText:string replacementRange:range];
return true;
}
if ([regex numberOfMatchesInString:[@"$" stringByAppendingString:new] options:0 range:NSMakeRange(0, new.length + 1)]) {
[super insertText:string replacementRange:range];
[super insertText:@"$" replacementRange:NSMakeRange(0, 0)];
return true;
}
if ([new isEqualToString:@"$"] || [string length] == 0) {
self.string = @"$00";
self.selectedRange = NSMakeRange(1, 2);
return true;
}
}
else {
NSRegularExpression *regex = [NSRegularExpression regularExpressionWithPattern:@"^(\\$[0-9A-Fa-f]{1,3}:)?\\$[0-9a-fA-F]{1,4}$" options:0 error:NULL];
if ([regex numberOfMatchesInString:new options:0 range:NSMakeRange(0, new.length)]) {
[super insertText:string replacementRange:range];
return true;
}
if ([string length] == 0) {
NSUInteger index = [new rangeOfString:@":"].location;
if (index != NSNotFound) {
if (range.location > index) {
self.string = [[new componentsSeparatedByString:@":"] firstObject];
self.selectedRange = NSMakeRange(self.string.length, 0);
return true;
}
self.string = [[new componentsSeparatedByString:@":"] lastObject];
self.selectedRange = NSMakeRange(0, 0);
return true;
}
else if ([[self.string substringWithRange:range] isEqualToString:@":"]) {
self.string = [[self.string componentsSeparatedByString:@":"] lastObject];
self.selectedRange = NSMakeRange(0, 0);
return true;
}
}
if ([new isEqualToString:@"$"] || [string length] == 0) {
self.string = @"$0000";
self.selectedRange = NSMakeRange(1, 4);
return true;
}
if (([string isEqualToString:@"$"] || [string isEqualToString:@":"]) && range.length == 0 && range.location == 0) {
if ([self _insertText:@"$00:" replacementRange:range]) {
self.selectedRange = NSMakeRange(1, 2);
return true;
}
}
if ([string isEqualToString:@":"] && range.length + range.location == self.string.length) {
if ([self _insertText:@":$0" replacementRange:range]) {
self.selectedRange = NSMakeRange(self.string.length - 2, 2);
return true;
}
}
if ([string isEqualToString:@"$"]) {
if ([self _insertText:@"$0" replacementRange:range]) {
self.selectedRange = NSMakeRange(range.location + 1, 1);
return true;
}
}
}
return false;
}
- (NSUndoManager *)undoManager
{
return nil;
}
- (void)insertText:(id)string replacementRange:(NSRange)replacementRange
{
if (![self _insertText:string replacementRange:replacementRange]) {
NSBeep();
}
}
/* Private API, don't tell the police! */
- (void)_userReplaceRange:(NSRange)range withString:(NSString *)string
{
[self insertText:string replacementRange:range];
}
@end
@implementation GBCheatTextFieldCell
{
bool _drawing, _editing;
GBCheatTextView *_fieldEditor;
}
- (NSTextView *)fieldEditorForView:(NSView *)controlView
{
if (_fieldEditor) {
_fieldEditor.usesAddressFormat = self.usesAddressFormat;
return _fieldEditor;
}
_fieldEditor = [[GBCheatTextView alloc] initWithFrame:controlView.frame];
_fieldEditor.fieldEditor = true;
_fieldEditor.usesAddressFormat = self.usesAddressFormat;
return _fieldEditor;
}
@end

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bsnes/gb/Cocoa/GBCheatWindowController.h Normal file
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#import <Foundation/Foundation.h>
#import <AppKit/AppKit.h>
#import "Document.h"
@interface GBCheatWindowController : NSObject <NSTableViewDelegate, NSTableViewDataSource, NSTextFieldDelegate>
@property (nonatomic, weak) IBOutlet NSTableView *cheatsTable;
@property (nonatomic, weak) IBOutlet NSTextField *addressField;
@property (nonatomic, weak) IBOutlet NSTextField *valueField;
@property (nonatomic, weak) IBOutlet NSTextField *oldValueField;
@property (nonatomic, weak) IBOutlet NSButton *oldValueCheckbox;
@property (nonatomic, weak) IBOutlet NSTextField *descriptionField;
@property (nonatomic, weak) IBOutlet NSTextField *importCodeField;
@property (nonatomic, weak) IBOutlet NSTextField *importDescriptionField;
@property (nonatomic, weak) IBOutlet Document *document;
- (void)cheatsUpdated;
@end

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bsnes/gb/Cocoa/GBCheatWindowController.m Normal file
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#import "GBCheatWindowController.h"
#import "GBWarningPopover.h"
#import "GBCheatTextFieldCell.h"
@implementation GBCheatWindowController
+ (NSString *)addressStringFromCheat:(const GB_cheat_t *)cheat
{
if (cheat->bank != GB_CHEAT_ANY_BANK) {
return [NSString stringWithFormat:@"$%x:$%04x", cheat->bank, cheat->address];
}
return [NSString stringWithFormat:@"$%04x", cheat->address];
}
+ (NSString *)actionDescriptionForCheat:(const GB_cheat_t *)cheat
{
if (cheat->use_old_value) {
return [NSString stringWithFormat:@"[%@]($%02x) = $%02x", [self addressStringFromCheat:cheat], cheat->old_value, cheat->value];
}
return [NSString stringWithFormat:@"[%@] = $%02x", [self addressStringFromCheat:cheat], cheat->value];
}
- (NSInteger)numberOfRowsInTableView:(NSTableView *)tableView
{
GB_gameboy_t *gb = self.document.gameboy;
if (!gb) return 0;
size_t cheatCount;
GB_get_cheats(gb, &cheatCount);
return cheatCount + 1;
}
- (NSCell *)tableView:(NSTableView *)tableView dataCellForTableColumn:(NSTableColumn *)tableColumn row:(NSInteger)row
{
GB_gameboy_t *gb = self.document.gameboy;
if (!gb) return nil;
size_t cheatCount;
GB_get_cheats(gb, &cheatCount);
NSUInteger columnIndex = [[tableView tableColumns] indexOfObject:tableColumn];
if (row >= cheatCount && columnIndex == 0) {
return [[NSCell alloc] init];
}
return nil;
}
- (nullable id)tableView:(NSTableView *)tableView objectValueForTableColumn:(nullable NSTableColumn *)tableColumn row:(NSInteger)row
{
size_t cheatCount;
GB_gameboy_t *gb = self.document.gameboy;
if (!gb) return nil;
const GB_cheat_t *const *cheats = GB_get_cheats(gb, &cheatCount);
NSUInteger columnIndex = [[tableView tableColumns] indexOfObject:tableColumn];
if (row >= cheatCount) {
switch (columnIndex) {
case 0:
return @YES;
case 1:
return @NO;
case 2:
return @"Add Cheat...";
case 3:
return @"";
}
}
switch (columnIndex) {
case 0:
return @NO;
case 1:
return @(cheats[row]->enabled);
case 2:
return @(cheats[row]->description);
case 3:
return [GBCheatWindowController actionDescriptionForCheat:cheats[row]];
}
return nil;
}
- (IBAction)importCheat:(id)sender
{
GB_gameboy_t *gb = self.document.gameboy;
if (!gb) return;
[self.document performAtomicBlock:^{
if (GB_import_cheat(gb,
self.importCodeField.stringValue.UTF8String,
self.importDescriptionField.stringValue.UTF8String,
true)) {
self.importCodeField.stringValue = @"";
self.importDescriptionField.stringValue = @"";
[self.cheatsTable reloadData];
[self tableViewSelectionDidChange:nil];
}
else {
NSBeep();
[GBWarningPopover popoverWithContents:@"This code is not a valid GameShark or GameGenie code" onView:self.importCodeField];
}
}];
}
- (void)tableView:(NSTableView *)tableView setObjectValue:(id)object forTableColumn:(NSTableColumn *)tableColumn row:(NSInteger)row
{
GB_gameboy_t *gb = self.document.gameboy;
if (!gb) return;
size_t cheatCount;
const GB_cheat_t *const *cheats = GB_get_cheats(gb, &cheatCount);
NSUInteger columnIndex = [[tableView tableColumns] indexOfObject:tableColumn];
[self.document performAtomicBlock:^{
if (columnIndex == 1) {
if (row >= cheatCount) {
GB_add_cheat(gb, "New Cheat", 0, 0, 0, 0, false, true);
}
else {
GB_update_cheat(gb, cheats[row], cheats[row]->description, cheats[row]->address, cheats[row]->bank, cheats[row]->value, cheats[row]->old_value, cheats[row]->use_old_value, !cheats[row]->enabled);
}
}
else if (row < cheatCount) {
GB_remove_cheat(gb, cheats[row]);
}
}];
[self.cheatsTable reloadData];
[self tableViewSelectionDidChange:nil];
}
- (void)tableViewSelectionDidChange:(NSNotification *)notification
{
GB_gameboy_t *gb = self.document.gameboy;
if (!gb) return;
size_t cheatCount;
const GB_cheat_t *const *cheats = GB_get_cheats(gb, &cheatCount);
unsigned row = self.cheatsTable.selectedRow;
const GB_cheat_t *cheat = NULL;
if (row >= cheatCount) {
static const GB_cheat_t template = {
.address = 0,
.bank = 0,
.value = 0,
.old_value = 0,
.use_old_value = false,
.enabled = false,
.description = "New Cheat",
};
cheat = &template;
}
else {
cheat = cheats[row];
}
self.addressField.stringValue = [GBCheatWindowController addressStringFromCheat:cheat];
self.valueField.stringValue = [NSString stringWithFormat:@"$%02x", cheat->value];
self.oldValueField.stringValue = [NSString stringWithFormat:@"$%02x", cheat->old_value];
self.oldValueCheckbox.state = cheat->use_old_value;
self.descriptionField.stringValue = @(cheat->description);
}
- (void)awakeFromNib
{
[self tableViewSelectionDidChange:nil];
((GBCheatTextFieldCell *)self.addressField.cell).usesAddressFormat = true;
}
- (void)controlTextDidChange:(NSNotification *)obj
{
[self updateCheat:nil];
}
- (IBAction)updateCheat:(id)sender
{
GB_gameboy_t *gb = self.document.gameboy;
if (!gb) return;
uint16_t address = 0;
uint16_t bank = GB_CHEAT_ANY_BANK;
if ([self.addressField.stringValue rangeOfString:@":"].location != NSNotFound) {
sscanf(self.addressField.stringValue.UTF8String, "$%hx:$%hx", &bank, &address);
}
else {
sscanf(self.addressField.stringValue.UTF8String, "$%hx", &address);
}
uint8_t value = 0;
if ([self.valueField.stringValue characterAtIndex:0] == '$') {
sscanf(self.valueField.stringValue.UTF8String, "$%02hhx", &value);
}
else {
sscanf(self.valueField.stringValue.UTF8String, "%hhd", &value);
}
uint8_t oldValue = 0;
if ([self.oldValueField.stringValue characterAtIndex:0] == '$') {
sscanf(self.oldValueField.stringValue.UTF8String, "$%02hhx", &oldValue);
}
else {
sscanf(self.oldValueField.stringValue.UTF8String, "%hhd", &oldValue);
}
size_t cheatCount;
const GB_cheat_t *const *cheats = GB_get_cheats(gb, &cheatCount);
unsigned row = self.cheatsTable.selectedRow;
[self.document performAtomicBlock:^{
if (row >= cheatCount) {
GB_add_cheat(gb,
self.descriptionField.stringValue.UTF8String,
address,
bank,
value,
oldValue,
self.oldValueCheckbox.state,
false);
}
else {
GB_update_cheat(gb,
cheats[row],
self.descriptionField.stringValue.UTF8String,
address,
bank,
value,
oldValue,
self.oldValueCheckbox.state,
cheats[row]->enabled);
}
}];
[self.cheatsTable reloadData];
}
- (void)cheatsUpdated
{
[self.cheatsTable reloadData];
[self tableViewSelectionDidChange:nil];
}
@end

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bsnes/gb/Cocoa/GBColorCell.h Normal file
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#import <Cocoa/Cocoa.h>
@interface GBColorCell : NSTextFieldCell
@end

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