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112 Commits
v087 ... v094

Author SHA1 Message Date
Tim Allen
10464b8c54 Update to v094 release. 
byuu says:

This release adds support for game libraries, and substantially improves
Game Boy and Game Boy Color emulation with cycle-based renderers. Many
other changes are also present.

It's very important to note that this release now defaults to optimal
drivers rather than safe drivers. This is particularly important if you
do not have strong OpenGL 3.2 drivers. If performance is bad, go to
Settings -> Configuration -> Advanced, change the video driver, and
restart higan. In the rare case that you have trouble opening higan, you
can edit settings.bml directly and change the setting there. The Windows
safe driver is Direct3D, and the Linux safe driver is XShm.

Also note that although display emulation shaders are now supported,
they have not been included in this release as they are not ready yet.
The support has been built-in anyway, so that they can be tested by
everyone. Once refined, future releases of higan will come with built-in
shaders for each emulated system that simulates the unique display
characteristics of each.

Changelog (since v093):
- sfc: added SA-1 MDR support (fixes SD Gundam G-Next bug)
- sfc: remove random/ and config/, merge to system/ with better
  randomization
- gb: improved color emulation palette contrast
- gbc: do not sort sprites by X-priority
- gbc: allow transparency on BG priority pixels
- gbc: VRAM DMA timing and register fixes
- gbc: block invalid VRAM DMA transfer source and target addresses
- gba: added LCD color emulation (without it, colors are grossly
  over-saturated)
- gba: removed internal frame blending (use shaders to simulate motion
  blur if desired)
- gba: added Game Boy Player support (adds joypad rumble support to
  supported games)
- gba: SOUND_CTL_H is readable
- gb/gbc: PPU renderer is now cycle-based (major accuracy improvement)
- gb/gbc: OAM DMA runs in parallel with the CPU
- gb/gbc: only HRAM can be accessed during OAM DMA
- gb/gbc: fixed serialization of games with SRAM
- gb/gbc: disallow up+down or left+right at the same time
- gb/gbc: added weak hipass filter to remove DC bias
- gb/gbc: STAT OAM+Hblank IRQs only trigger during active display
- gb/gbc: fixed underflow in window clamping
- gb/gbc/gba: audio mixes internally at 2MHz now instead of 4MHz (does
  not affect accuracy)
- gb/gbc/gba: audio volume reduced for consistency with other systems
- fc/sfc/gb/gbc/gba: cheat codes are now stored in universal, decrypted
  format
- ethos: replaced file loader with a proper game library
- ethos: added display emulation shader support
- ethos: added color emulation option to video settings
- ethos: program icon upgraded from 48x48 to 512x512
- ethos: settings and tools windows now use tab frames (less wasted
  screen space)
- ethos: default to optimal (video, audio, input) drivers instead of
  safest drivers
- ethos: input mapping system completely rewritten to support
  hotplugging and unique device mappings
- ruby: added fixes for OpenGL 3.2 on AMD graphics cards
- ruby: quark shaders now support user settings inside of manifest
- ruby: quark shaders can use integral textures (allows display
  emulation shaders to work with raw colors)
- ruby: add joypad rumble support
- ruby: XInput (Xbox 360) controllers now support hotplugging
- ruby: added Linux udev joypad driver with hotplug support
- phoenix: fixed a rare null pointer dereference issue on Windows
- port: target -std=c++11 instead of -std=gnu++11 (do not rely on GNU
  C++ extensions)
- port: added out-of-the-box compilation support for BSD/Clang 3.3+
- port: applied a few Debian upstream patches
- cheats: updated to mightymo's 2014-01-02 release; decrypted all Game
  Genie codes
 2014-01-20 19:55:17 +11:00
Tim Allen
fe85679321 Update to v093r13 release. 
byuu says:

This WIP removes nall/input.hpp entirely, and implements the new
universal cheat format for FC/SFC/GB/GBC/SGB.

GBA is going to be tricky since there's some consternation around
byte/word/dword overrides.

It's also not immediately obvious to me how to implement the code search
in logarithmic time, due to the optional compare value.

Lastly, the cheat values inside cheats.bml seem to be broken for the
SFC. Likely there's a bug somewhere in the conversion process. Obviously
I'll have to fix that before v094.

I received no feedback on the universal cheat format. If nobody adds
anything before v094, then I don't want to hear any complaining about
the formatting :P
 2014-01-13 20:35:46 +11:00
Tim Allen
2b81b630cb Update to v093r12a release. 
byuu says:

Not an official WIP (a WIP WIP? A meta-WIP?), just throwing in the new
fullscreen code, and I noticed that OpenGL colors in 30-bit mode are all
fucked up now for some strange reason. So I'm just using this snapshot
to debug the issue.
 2014-01-05 20:59:17 +11:00
Tim Allen
3ce1d19f7a Update to v093r12 release. 
byuu says:

I've completely redone the ethos InputManager and ruby to work on
HID::Device objects instead of one giant scancode pool.

Currently only the udev driver supports the changes to ruby, so only
Linux users will be able to compile and run this WIP build.

The nice thing about the new system is that it's now possible to
uniquely identify controllers, so if you swap out gamepads, you won't
end up with it working but with all the mappings all screwed up. Since
higan lets you map multiple physical inputs to one emulated input, you
can now configure your keyboard and multiple gamepads to the same
emulated input, and then just use whatever controller you want.

Because USB gamepad makers failed to provide unique serial#s with each
controller, we have to limit the mapping to specific USB ports.
Otherwise, we couldn't distinguish two otherwise identical gamepads. So
basically your computer USB ports act like real game console input port
numbers. Which is kind of neat, I guess.

And the really nice thing about the new system is that we now have the
capability to support hotplugging input devices. I haven't yet added
this to any drivers, but I'm definitely going to add it to udev for v094
official.

Finally, with the device ID (vendor ID + product ID) exposed, we gain
one last really cool feature that we may be able to develop more in the
future. Say we created a joypad.bml file to include with higan. In it,
we'd store the Xbox 360 controller, and pre-defined button mappings for
each emulated system. So if higan detects you have an Xbox 360
controller, you can just plug it in and use it. Even better, we can
clearly specify the difference between triggers and analog axes, and
name each individual input. So you'd see "Xbox 360 Gamepad #1: Left
Trigger" instead of higan v093's "JP0::Axis2.Hi"

Note: for right now, ethos' input manager isn't filtering the device IDs
to look pretty. So you're going to see a 64-bit hex value for a device
ID right now instead of something like Joypad#N for now.
 2013-12-23 22:43:51 +11:00
Tim Allen
73be2e729c Update to v093r11 release. 
byuu says:

Changelog:
- GBA: SOUND_CTL_H is readable, fixes sound effects in Mario&Luigi
  Superstar Saga [Cydrak] (note: game is still unplayable due to other
  bugs)
- phoenix/Windows: workaround for Win32 API ListView bug, fixes slot
  loading behavior
- ruby: added udev driver for Linux with rumble support, and added
  rumble support to existing RawInput driver for XInput and DirectInput
- ethos: added new "Rumble" mapping to GBA input assignment, use it to
  tell higan which controller to rumble (clear it to disable rumble)
- GBA: Game Boy Player rumble is now fully emulated
- core: added new normalized raw-color palette mode for Display
  Emulation shaders

The way rumble was added to ethos was somewhat hackish. The support
doesn't really exist in nall.

I need to redesign the entire input system, but that's not a change
I want to make so close to a release.
 2013-12-21 21:45:58 +11:00
Tim Allen
84fab07756 Update to v093r10 release. 
byuu says:

Changelog:
- Game Boy (Color): STAT OAM+HBlank IRQs only trigger during LY=0-143
  with display enabled
  - fixes backgrounds and text in Wacky Races
- Game Boy (Color): fixed underflow in window clamping
  - fixes Wacky Races, Prehistorik Man, Alleyway, etc
- Game Boy (Color): LCD OAM DMA was running too slow
  - fixes Shin Megami Tensei - Devichil - Kuro no Sho
- Game Boy Advance: removed built-in frame blending; display emulation
  shaders will handle this going forward
- Game Boy Advance: added Game Boy Player emulation
  - currently the screen is tinted red during rumble, no actual gamepad
    rumble support yet
  - this is going to be slow, as we have to hash the frame to detect the
    GBP logo, it'll be optional later on
- Emulator::Interface::Palette can now output a raw palette (for Display
  Emulation shaders only)
  - color channels are not yet split up, it's just the raw packed value
 2013-12-20 22:40:39 +11:00
Tim Allen
926a39d701 Update to v093r09 release. 
byuu says:

Changelog:
- GB/C OAM DMA now runs in parallel with the CPU
- CPU can only access HRAM during OAM DMA
- fixed SGB mode again
- brand new config files will default to the optimal drivers now
  (OpenGL, etc) instead of the safest
- hopefully fixed remaining Windows UI issues
 2013-12-14 17:25:12 +11:00
Tim Allen
1361820dd8 Update to v093r08 release. 
byuu says:

Changelog:
- Game Boy and Game Boy Color now have a weak hipass filter to remove DC
  bias (or whatever)
- Game Boy and Game Boy Color now have cycle-based PPU renderers instead
  of scanline-based renderers
- improved Game Boy color emulation palette contrast
- fixed GTK+ ListView selection bug
- fixed a typo when saving states (should say "Saved to slot N", not
  "Save to slot N")
 2013-12-11 22:19:17 +11:00
Tim Allen
0f78acffd7 Update to v093r07 release. 
byuu says:

Changelog:
- importing a game won't show message box on success
- importing a game will select the game that was imported in the list
  - caveat: GTK+ port doesn't seem to be removing focus from item 0 even
    though the selection is on item 2
- Game Boy audio reduced in volume by 50%
- Game Boy Advance audio reduced in volume by 50%
- Game Boy internally mixes audio at 2MHz now
- Game Boy Advance's Game Boy audio hardware internally mixes audio at
  2MHz now
- Game Boy Color doesn't sort sprites by X-coordinate
- Game Boy Color allows transparency on BGpriority pixels
  - caveat: this seems to allow sprites to appear on top of windows
- Game Boy Color VRAM DMA transfers 16 bytes in 8 clocks (or 16 clocks
  in double speed mode)
- Game Boy Color VRAM DMA masks low 4-bits of source and destination
  address
- Game Boy Color VRAM DMA only allows reads from ROM or RAM
- Game Boy Color VRAM DMA only allows writes to VRAM
- fixed a bug in dereferencing a nullptr from pObject::find(), should
  fix crash when pressing enter key on blank windows
- fixed Windows RadioItem selection
- Game Boy Advance color emulation code added
 2013-12-10 23:12:54 +11:00
Tim Allen
35f1605829 Update to v093r06 release. 
byuu says:

Changelog:
- Windows port should compile out-of-the-box
- InputManager::scancode[] initialized at startup
- Library menu shows item for each bootable media type (notably Game Boy
  Color)
- Display Emulation menu selection fix
- LibraryManager load button works now
- Added hotkey to show library manager (defaults to L)
- Added color emulation to video settings (missing on GBA for now)
- SFC loading SGB without GB cartridge no longer segfaults
- GB/GBC system.load() after cartridge.load()
- GB/GBC BG-over-OAM fix
- GB/GBC disallow up+down and left+right
 2013-12-07 20:12:37 +11:00
Tim Allen
ed4e87f65e Update to v093r05 release. 
byuu says:

Library concept has been refined as per the general forum discussion.
 2013-12-03 21:01:59 +11:00
Tim Allen
b4f18c3b47 Update to v093r04 release. 
byuu says:

This version replaces the old folder-browser with a proper game library.
 2013-11-28 21:32:53 +11:00
Tim Allen
68eaf53691 Update to v093r03 release. 
byuu says:

Updated to support latest phoenix changes.
Converted Settings and Tools to TabFrame views.

Errata:
- phoenix/Windows ComboButton wasn't calling parent
  pWidget::setGeometry() [fixed locally]
- TRACKBAR_CLASS draws COLOR_3DFACE for the background even when its
  parent is a WC_TABCONTROL
 2013-11-28 21:29:01 +11:00
Tim Allen
8c0b0fa4ad Update to v093r02 release. 
byuu says:

Changelog:
- nall: fixed major memory leak in string class
- ruby: video shaders support #define-based settings now
- phoenix/GTK+: support > 256x256 icons for window / task bar / alt-tab
- sfc: remove random/ and config/, merge into system/
- ethos: delete higan.png (48x48), replace with higan512.png (512x512)
  as new higan.png
- ethos: default gamma to 100% (no color adjustment)
- ethos: use "Video Shaders/Display Emulation/" instead of "Video
  Shaders/Emulation/"
- use g++ instead of g++-4.7 (g++ -v must be >= 4.7)
- use -std=c++11 instead of -std=gnu++11
- applied a few patches from Debian upstream to make their packaging job
  easier

So because colors are normalized in GLSL, I won't be able to offer video
shaders absolute color literals. We will have to perform basic color
conversion inside the core.

As such, the current plan is to create some sort of Emulator::Settings
interface. With that, I'll connect an option for color correction, which
will be on by default. For FC/SFC, that will mean gamma correction
(darker / stronger colors), and for GB/GBC/GBA, it will mean simulating
the weird brightness levels of the displays. I am undecided on whether
to use pea soup green for the GB or not. By not doing so, it'll be
easier for the display emulation shader to do it.
 2013-11-09 22:45:54 +11:00
Tim Allen
66f136718e Update to v093r01 release. 
byuu says:

Changelog:
- added SA-1 MDR; fixes bug in SD Gundam G-Next where the main
  battleship was unable to fire
- added out-of-the-box support for any BSD running Clang 3.3+ (FreeBSD
  10+, notably)
- added new video shader, "Display Emulation", which changes the shader
  based on the emulated system
- fixed the home button to go to your default library path
- phoenix: Windows port won't send onActivate unless an item is selected
  (prevents crashing on pressing enter in file dialog)
- ruby: removed vec4 position from out Vertex {} (helps AMD cards)
- shaders: updated all shaders to use texture() instead of texture2D()
  (helps AMD cards)

The "Display Emulation" option works like this: when selected, it tries
to load "<path>/Video Shaders/Emulation/<systemName>.shader/"; otherwise
it falls back to the blur shader. <path> is the usual (next to binary,
then in <config>/higan, then in /usr/share/higan, etc); and <systemName>
is "Famicom", "Super Famicom", "Game Boy", "Game Boy Color", "Game Boy
Advance"

To support BSD, I had to modify the $(platform) variable to
differentiate between Linux and BSD.
As such, the new $(platform) values are:
win -> windows
osx -> macosx
x -> linux or bsd

I am also checking uname -s instead of uname -a now. No reason to
potentially match the hostname to the wrong OS type.
 2013-10-21 22:45:39 +11:00
Tim Allen
4e2eb23835 Update to v093 release. 
byuu says:

Changelog:
- added Cocoa target: higan can now be compiled for OS X Lion
  [Cydrak, byuu]
- SNES/accuracy profile hires color blending improvements - fixes
  Marvelous text [AWJ]
- fixed a slight bug in SNES/SA-1 VBR support caused by a typo
- added support for multi-pass shaders that can load external textures
  (requires OpenGL 3.2+)
- added game library path (used by ananke->Import Game) to
  Settings->Advanced
- system profiles, shaders and cheats database can be stored in "all
  users" shared folders now (eg /usr/share on Linux)
- all configuration files are in BML format now, instead of XML (much
  easier to read and edit this way)
- main window supports drag-and-drop of game folders (but not game files
  / ZIP archives)
- audio buffer clears when entering a modal loop on Windows (prevents
  audio repetition with DirectSound driver)
- a substantial amount of code clean-up (probably the biggest
  refactoring to date)

One highly desired target for this release was to default to the optimal
drivers instead of the safest drivers, but because AMD drivers don't
seem to like my OpenGL 3.2 driver, I've decided to postpone that. AMD
has too big a market share. Hopefully with v093 officially released, we
can get some public input on what AMD doesn't like.
 2013-08-18 13:21:14 +10:00
Tim Allen
c74865e171 Update to v092r10 release. 
byuu says:

Changelog:
- you can now drop game folders (not game files, sorry) onto higan's
  main window to load them
- audio buffer will clear on Windows when entering modal loop (entering
  menu, moving or resizing window)
  - this prevents DirectSound driver's audio repetition
- ruby defaults to the optimal driver for each platform, rather than the
  safest driver, now
- added Cydrak's gl_Position.zw change to ruby
- added fixes for all the changes to nall, ruby, phoenix over the past
  three months
 2013-07-29 19:42:45 +10:00
Tim Allen
29ea5bd599 Update to v092r09 release. 
byuu says:

This will be another massive diff from the previous version.

All of higan was updated to use the new foo& bar syntax, and I also
updated switch statements to be consistent as well (but not in the
disassemblers, was starting to get an RSI just from what I already did.)

phoenix/{windows, cocoa, qt} need to be updated to use "string foo"
instead of "const string& foo", and after that, the major diffs should
be finished.

This archive is the first time I'm posting my copy-on-write,
size+capacity nall::string class, so any feedback on that is welcome as
well.
 2013-05-05 19:21:30 +10:00
Tim Allen
75dab443b4 Update to v092r08 release. 
byuu says:

Changelog:
- fixed cartridge load window focus on Windows
- lots of updates to nall, ruby and phoenix
- ethos and Emulator::Interface updated from "foo &bar" to "foo& bar"
  syntax (work-in-progress)

Before I had mixed the two ways to declare variables/arguments all over
the place, so the goal is to unify them all for consistency. So the
changelog for this release will be massive (750KB >.>) due to the syntax
change. Yeah, that's what I spent the last three days working on ...
 2013-05-02 21:25:45 +10:00
Tim Allen
177e222ca7 Update to v092r07 release. 
byuu says:

- OpenGL should work on OS X now; it uses VAOs and VBOs, and is fully
  OpenGL 3.2 core compliant
- all configuration files are now stored in BML format, instead of CFG
  format (half the size, much more readable)
- some old nall libraries that were never used have been removed
- make install works with or without root now (copies core files to
  /usr/share/higan [non-configurable])
- make install also works on OS X (copies to /Library/Application
  Support/higan)
 2013-04-14 18:52:47 +10:00
Tim Allen
0d75524791 Update to v092r06 release. 
byuu says:

Changelog:
- added support for ruby shader folders (place in "Video Shaders/")
- higan now also looks in your shared folder for configuration files and
  system media folders
- added CFBundleExecutable key to OS X Info.plist

Shared folder locations:
- Windows XP: C:\Documents and Settings\All Users\Application Data\higan
- Windows 7: C:\ProgramData\higan
- OS X: /Library/Application Support/higan
- Linux: /etc/higan

Evaluation order:
- look for item in binary folder: if found, use this folder
- look for item in user folder: if found, use this folder
- look for item in shared folder: if found, use this folder
- create item in user folder

For people repackaging higan for other distros: you should chmod 777
/etc/higan. Failure to do so could result in higan breaking. No, I will
not copy the files from the shared path to the user path.
 2013-04-09 23:31:46 +10:00
Tim Allen
5b4bbf5045 Update to v092r05 release. 
byuu says:

This release should be polished enough for a general release.

This release should be polished enough for a general release.

Anyone with a real, clean Mac up for posting compiled binaries?
Preferably compile with "make profile=balanced" In fact, I'd like it if
someone were willing to host a "higan for Mac" page, with binaries of
each of the latest releases. Only really needed for major official
releases, but it'd be preferable to have the builds updated as soon as
possible after I post new builds.

Changelog:
- no more keyboard chimes when pressing keys
- status bar added, fully functional
- Label::minimumSize() takes frame into account (but note a few places
  hard-code raw Font::size(), so a few text labels are still clipped)
- resizing the main window looks smooth regardless of whether a game is
  running or not
  - currently, resizing the window pauses the emulation. Allowing it to
    run the main loop was lagging out the window resize process too much
    to be worth it

Additional OS X integration enhancements:
- closing the main window unloads the current game, but does not quit
  the application (quit via the main menu or the dock menu)
- clicking the icon in the dock will (re)display the main menu
 2013-03-21 23:59:01 +11:00
Tim Allen
fdd3ea490e Update to v092r04 release. 
byuu says:

This is the first release with full support for OS X, although it's
certainly still very buggy.

Known issues:
- window status bars are still unsupported (they just don't show up)
- you get the bad keypress chime when you use the keyboard
- window geometry and font metrics aren't perfect (bit of clipping here
  and there)
- list view headers that aren't auto-sized are sometimes too short (file
  browser)
- input assignment is really rough (assigning a key also moves around in
  the list or beeps at you)

Custom OS X integration support so far:
- 512x512 ICNS application icon: will look razor-sharp even on a retina
  display
- basic Info.plist added to application bundle
- program menu about, preferences, quit all connected
- Settings->Configuration removed (use higan->Preferences instead)
- global menubar

To compile and use this, you'll need:
- Xz Utils (to extract .tar.xz)
- Xcode 4.6
- Lion 10.7.4 or newer

    mkdir higan_v092r04
    tar -xJf higan_v092r04.tar.xz -C higan_v092r04
    cd higan_v092r04
    make -j 2

ananke is missing, and I haven't updated purify yet, so you'll have to
move game folders from Windows or Linux over, or make them by hand (a
not so enjoyable experience, to say the least.)
 2013-03-19 19:48:50 +11:00
Tim Allen
b7c212de7e Update to v092r03 release. 
byuu says:

This release adds the phoenix/Cocoa port, and rewrites a lot of the
higan user interface to work with all of the new changes (like blocking
in the main run loop and in modal windows.)

It doesn't yet modify the compilation flags to actually build on OS
X yet, and even then, we don't really have ruby drivers, so there'd be
no video, audio or input.

Two months between a single WIP point release ... for the first six
years, I never went more than a month without a full official release.
I guess I should be happy that it's become so refined, but I sure do
miss those halcyon days of exciting progress.
 2013-03-16 00:11:33 +11:00
Tim Allen
d9400084c2 Update to v092r02 release. 
byuu says:

Changelog:
- merged AWJ's hires color blending improvements (most notably: fixes
  Marvelous' text)
- created sfc/base/ to store base unit (expansion port device) emulation
- synchronized the markup of Satellaview and Sufami Turbo cartridge
  slots in the board markup
- fixed "Initializing ..." typo in timing settings

If at all possible, I'd really like to have heavy testing of games that
use hires graphics to check for any regressions.
I trust AWJ's code, and all of the test ROMs I have thrown at it all
appear to work great. But better safe than sorry. Same deal for any core
changes, it's a lot better to catch it now than after v093 is released.
 2013-01-23 19:28:35 +11:00
Tim Allen
bbc33fe05f Update to higan v092r01, ananke v02r01 and purify v03r01 releases. 
byuu says:

higan changelog:
- compiler is set to g++-4.7, subst(cc,++) rule is gone, C files compile
  with $(compiler) -x c
- make throws an error when you specify an invalid profile or compile on
  an unsupported platform (instead of hanging forever)
- added unverified.png to resources (causes too big of a speed hit to
  actually check for folder/unverified file ... so disabled for now)
- fixed default browser paths for Game Boy, Sufami Turbo and BS-X
  Satellaview (have to delete paths.cfg to see this)
- browser home button seeks to configpath()/higan/library.cfg
- settings->driver is now settings->advanced, and it adds game library
  path setting and profile information
- emulation cores now load manifest files internally, manifest.bml is
  not required for a game folder to be recognized by higan as such
- BS-X Satellaview and Sufami Turbo slot cartridge handling moved out of
  sfc/chip and into sfc/slot
- Video::StartFullScreen only sets fullscreen when a game is specified
  on the command-line

purify and ananke changelog:
- library output path shown in purify window
- added button to change library path
- squelch firmware warning windows to prevent multi-threading crash, but
  only via purify (they show up in higan still)
 2013-01-21 23:27:15 +11:00
Tim Allen
65c4011bec Update to purify v03 release. 
byuu says:

This release has an updated version of ananke. If you replace the higan
v092 ananke.dll with this new one, it will fix the SGB+TG3000+ToP+DKJM2
loading issues.
 2013-01-21 19:57:04 +11:00
Tim Allen
a7c35a65b4 Update to ananke v01r01 release. 
This version fixes a problem where ananke would leave out the
'information' section (that is, the game name) when converting a game to
a game folder, resulting in a folder named " (!)".

It also includes the latest version of nall.
 2013-01-19 22:23:42 +11:00
Tim Allen
ba660600ad Update to purify v02r01 release. 
Because byuu's Win32 compiler does not yet support the C++11 std::thread
API, he wrote his own portable wrapper library, so now the new purify
works on Windows too.
 2013-01-19 22:20:25 +11:00
Tim Allen
b6575ca02a Update to purify v02 release. 
byuu says:

purify has been rewritten. It now resembles the older snespurify, and
lets you import multiple game files+archives and regenerate manifests
for multiple game folders. It is also recursive.

So you can now import all of your games for all systems at once, or you
can update all of your bsnes v091 game folders to the new higan v092
format at once.

Caveats:

First, I am now using std::thread, so that the GUI doesn't freeze.
Instead, you get a nice progress bar. Unfortunately, I was mislead and
TDM/GCC 4.7 still does not have std::thread support. So ... sorry, but
I can't compile purify for Windows. I am sick and tired of not being
able to write multi-threaded code, so fuck it. If anyone can get it to
build on Windows, whether that be by using Windows threads, hacking in
std::thread support, skipping threading all together, whatever ...
that'll be great. Otherwise, sorry, purify is Linux only until MinGW can
get its god damned shit together and offers threading support.

Second, there's no way to regenerate Famicom (NES) manifests, because we
discard the iNES header. We are going to need a database for that. So,
all I can suggest is that if you use bsnes/higan, keep all your iNES
images around to re-import as new releases come out.

Third, when you purify game folders, it will back up the ROM and RAM
files only. Your save states, cheat codes, debug logs, etc will be wiped
out. There's a whole lot of reasons for this, the most pertinent is that
it's meant to clean up the folder to a pristine state. It also fixes the
game folder name, etc. So ... sorry, but this is how it works. New
releases rarely if ever allow old save states to work anyway.

Lastly, I am not going to have purify contain infinite backward
compatibility for updating manifests. You will want to keep up with
purifying the collection, otherwise you'll have to grab older purify
copies and convert your way along. Although hopefully the format won't
be so volatile and this won't be necessary very often.
 2013-01-17 22:21:00 +11:00
Tim Allen
8d88337e28 Update to ananke v01 release. 
byuu says:

This updated anake fixes all of the reported game issues thus far.
 2013-01-17 22:20:53 +11:00
Tim Allen
6ac67c260b Update to v092 hotfix release. 
byuu says:

For higan:
- I fixed the data ROM/RAM initialization for the Cx4, which would
  periodically cause a crash.
- I also moved the Satellaview MaskROM vs FlashROM detection into the
  Satellaview manifests, so Same Game - Character Data works now.
- I also re-added the driver filter to the video shaders, so the D3D
  driver won't show OGL shaders and vice versa.

For ananke:
- You can now generate the other SGB images by putting sgb.rom in the
  same folder as the BIOS images.
- I fixed the markup in the database and via heuristics for 5MB+ games
  (DKJM2, ToP)
- Sufami Turbo and BS-X Satellaview generate BML now instead of XML when
  using heuristics.
 2013-01-15 21:51:49 +11:00
Tim Allen
032e924495 Update to v092 release. 
In the release thread, byuu says:

    The first official release of higan has been posted. higan is the
    new name for bsnes, and it continues with the latter's version
    numbering.

    Note that as of now, bsnes still exists. It's a module distributed
    inside of higan. bsnes is now specific to my SNES emulator.

    Due to last minute changes to the emulator interface, and missing
    support in ananke, I wasn't able to include Cydrak's Nintendo DS
    emulator dasShiny in this build, but I hope to do so in the next
    release.

    http://code.google.com/p/higan/downloads/list

    For both new and experienced users, please read the higan user guide
    first:

    http://byuu.org/higan/user-guide

In the v091 WIP thread, byuu says:

    r15->r16:
    - BS-X MaskROM handling (partial ... need to split bsx/flash away
      from sfc/chip, restructure code - it requires tagging the base
      cart markup for now, but it needs to parse the slotted cart
      markup)
    - phoenixflags / phoenixlink += -m32
    - nall/sort stability
    - if(input.poll(scancode[activeScancode]) == false) return;
    - MSU1 / USART need to use interface->path(1)
    - MSU1 needs to use Markup::Document, not XML::Document
    - case-insensitive folder listings
    - remove nall/emulation/system.hpp files (move to ananke)
    - remove rom/ram id= checks with indexing
    X have cores ask for manifest.bml (skipped for v092's release, too
      big a change)
    - rename compatibility profile to balanced (so people don't assume
      it has better compatibility than accuracy)
 2013-01-14 23:15:21 +11:00
Tim Allen
b389d17c9a Update to v091r15 release. 
byuu says:

Changelog:
- all media types always show base name in the title now (eg Super Game
  Boy + Mega Man II)
- Game Boy loading via ananke has been fixed
- phoenix is dynamically linked on Windows now (needed for ananke)
- Linux port shows the higan program icon (once you install the program
  to get the bitmap into /usr/local/share/pixmaps)
- paths.cfg defaults to "userpath()/Emulation/System Name/" when it is
  created from scratch

[Later, after the v092 release, byuu posted this additional changelog:
    - new compilation rules for win32
    - OS::setName
    - default to ~/Emulation/media.name for paths.cfg
]
 2013-01-14 23:14:44 +11:00
Tim Allen
d59ae34e12 Update to higan v091r14 and ananke v00r03 releases. 
byuu says:

higan changelog:
- generates title displayed in emulator window by asking the core
- core builds title solely from "information/title" ... if it's not
  there, you don't get a title at all
- sub-system load menu is gone ... since there are multiple revisions of
  the SGB, this never really worked well anyway
- to load an SGB, BS-X or ST cartridge, load the base cartridge first
- "File->Load Game" moved to "Load->Import Game" ... may cause a bit of
  confusion to new users, but I don't like having a single-item menu,
  we'll just have to explain it to new users
- browser window redone to look like ananke
  - home button here goes to ~/Emulation rather than just ~ like ananke,
    since this is the home of game folders
  - game folder icon is now the executable icon for the Tango theme
    (orange diamond), meant to represent a complete game rather than
    a game file or archive

ananke changelog:
- outputs GBC games to "Game Boy Color/" instead of "Game Boy/"
- adds the file basename to "information/title"

Known issues:
- using ananke to load a GB game trips the Super Famicom SGB mode and
  fails (need to make the full-path auto-detection ignore non-bootable
  systems)
- need to dump and test some BS-X media before releasing
- ananke lacks BS-X Satellaview cartridge support
- v092 isn't going to let you retarget the ananke/higan game folder path
  of ~/Emulation, you will have to wait for a future version if that
  bothers you so greatly

[Later, after the v092 release, byuu posted this additional changelog:
    - kill laevateinn
    - add title()
    - add bootable, remove load
    - combine file, library
    - combine [][][] paths
    - fix SFC subtype handling XML->BML
    - update file browser to use buttons
    - update file browser keyboard handling
    - update system XML->BML
    - fix sufami turbo hashing
    - remove Cartridge::manifest
]
 2013-01-14 23:13:48 +11:00
Tim Allen
85f2e9a6d4 Update to ananke v00r02 release. 
byuu says:

This should be basically final now.

Works with all media types (nes, sfc, gb, gbc, gba, bs, st), strips
headers, can use internal or external firmware, imports saves on first
run.

Added a custom file dialog. It seems both GTK+ and Windows XP have
(un)intelligent file sorting, which puts eg "ActRaiser 2 (NA)" before
"ActRaiser (NA)". So, screw 'em.
 2012-12-26 17:46:57 +11:00
Tim Allen
019fc1a2c6 Update to v091r13 release, and ananke v00r01. 
byuu says (about higan):

- dropped release/ root node for individual games (still there in
  ananke's database.)
- Memory export uses smarter names (vram.rwm -> video.ram, etc.)
- cheat database moved from XML to BML (3.1MB to 1.9MB file size.)
- cheat codes moved from XML to BML
- resource manifest moved from XML to BML

What can I say, I like consistency. But I'll leave the shaders alone
until I get around to shader folders.

byuu says (about ananke):

Works with higan v091r13. Only does SNES stuff so far.
 2012-12-26 17:46:57 +11:00
Tim Allen
84e98833ca Update to v091r11 release. 
byuu says:

This release refines HSU1 support as a bidirectional protocol, nests SFC
manifests as "release/cartridge" and "release/information" (but release/
is not guaranteed to be finalized just yet), removes the database
integration, and adds support for ananke.

ananke represents inevitability. It's a library that, when installed,
higan can use to load files from the command-line, and also from a new
File -> Load Game menu option.

I need to change the build rules a bit for it to work on Windows (need
to make phoenix a DLL, basically), but it works now on Linux.

Right now, it only takes *.sfc file names, looks them up in the included
database, converts them to game folders, and returns the game folder
path for higan to load.

The idea is to continue expanding it to support everything we can that
I don't want in the higan core:
- load *.sfc, *.smc, *.swc, *.fig files
- remove SNES copier headers
- split apart merged firmware files
- pull in external firmware files (eg dsp1b.rom - these are staying
  merged, just as SPC7110 prg+dat are merged)
- load *.zip and *.7z archives
- prompt for selection on multi-file archives
- generate manifest files based on heuristics
- apply BPS patches

The "Load" menu option has been renamed to "Library", to represent games
in your library. I'm going to add some sort of suffix to indicate
unverified games, and use a different folder icon for those (eg
manifests built on heuristics rather than from the database.)

So basically, to future end users:
File -> Load Game will be how they play games.
Library -> (specific system) can be thought of as an infinitely-sized
    recent games list.

purify will likely become a simple stub that invokes ananke's functions.
No reason to duplicate all that code.
 2012-12-26 17:46:57 +11:00
Tim Allen
d4751c5244 Update to v091r10 release. 
byuu says:

This release adds HSU1 support, and fixes the reduce() memory mapping
function.
 2012-12-26 17:46:57 +11:00
Tim Allen
ab345ff20c Update to v091r09 release. 
[r07 and r08 were not posted to the WIP thread. -Ed.]

byuu says:

I'd appreciate it if you guys wouldn't mind testing out the database
functionality.

Save this file as database.bml (remove the date) inside
~/.config/higan/Super Famicom.sfc/ or %APPDATA%/higan/Super Famicom.sfc/

    http://byuu.org/snes/database/database_2012-10-21.bml

Now load any of the 20 games in the database from the file dialog. They
need to be named *.sfc, have no copier header, and have firmware
appended (for Mario Kart only so far.)

If anyone actually does test it, please let me know how it goes for you
and what you think. Note that future versions of higan will have the
database.bml file included with the release.
 2012-12-26 17:46:57 +11:00
Tim Allen
c495c132a7 Update to v091r06 release. 
byuu says:

This release adds initial database support.

The way it works is you can now load game folders as you always have, or
you can load a game file. If you load a game file, it tries to create
a game folder for you by looking up the file's sha256 in a database. If
it can't find it, sorry, the game won't play. I'm not hooking up the
oldschool "make up a manifest" code here. The easiest way to handle this
is to get me every game so I can dump it and add it to the database :D

The database entries are complete entries that can be copied directly.
So it describes the board, the information, file layout, etc. That'll be
what comes with higan releases in the future.

Internally, I'm separating the information and board descriptions, and
will use a tool to merge the two together.

Here's a current database copy, with one game in it. Still hammering out
some details, but it's mostly how it's going to look.

    cartridge region=NTSC
	board type=1CB5B-20
	    superfx revision=2
		rom name=program.rom size=0x200000
		ram name=save.rwm size=0x8000
		map id=io address=00-3f,80-bf:3000-32ff
		map id=rom address=00-3f:8000-ffff mask=0x8000
		map id=rom address=40-5f:0000-ffff
		map id=ram address=00-3f,80-bf:6000-7fff size=0x2000
		map id=ram address=70-71:0000-ffff
	information
	    name:   Super Mario World 2 - Yoshi's Island (SNS) (1.1)
	    title:  Super Mario World 2: Yoshi's Island
	    sha256: bd763c1a56365c244be92e6cffefd318780a2a19eda7d5baf1c6d5bd6c1b3e06
	    board:  SHVC-1CB5B-20
	    rom:    0x200000
	    ram:    0x8000
	layout
	    file name=program.rom size=0x200000
 2012-12-26 17:46:57 +11:00
Tim Allen
ef746bbda4 Update to v091r05 release. 
[No prior releases were posted to the WIP thread. -Ed.]

byuu says:

Super Famicom mapping system has been reworked as discussed with the
mask= changes. offset becomes base, mode is gone. Also added support for
comma-separated fields in the address fields, to reduce the number of
map lines needed.

    <?xml version="1.0" encoding="UTF-8"?>
    <cartridge region="NTSC">
      <superfx revision="2">
	<rom name="program.rom" size="0x200000"/>
	<ram name="save.rwm" size="0x8000"/>
	<map id="io" address="00-3f,80-bf:3000-32ff"/>
	<map id="rom" address="00-3f:8000-ffff" mask="0x8000"/>
	<map id="rom" address="40-5f:0000-ffff"/>
	<map id="ram" address="00-3f,80-bf:6000-7fff" size="0x2000"/>
	<map id="ram" address="70-71:0000-ffff"/>
      </superfx>
    </cartridge>

Or in BML:

    cartridge region=NTSC
      superfx revision=2
	rom name=program.rom size=0x200000
	ram name=save.rwm size=0x8000
	map id=io address=00-3f,80-bf:3000-32ff
	map id=rom address=00-3f:8000-ffff mask=0x8000
	map id=rom address=40-5f:0000-ffff
	map id=ram address=00-3f,80-bf:6000-7fff size=0x2000
	map id=ram address=70-71:0000-ffff

As a result of the changes, old mappings will no longer work. The above
XML example will run Super Mario World 2: Yoshi's Island. Otherwise,
you'll have to write your own.

All that's left now is to work some sort of database mapping system in,
so I can start dumping carts en masse.

The NES changes that FitzRoy asked for are mostly in as well.

Also, part of the reason I haven't released a WIP ... but fuck it, I'm
not going to wait forever to post a new WIP.

I've added a skeleton driver to emulate Campus Challenge '92 and
Powerfest '94. There's no actual emulation, except for the stuff I can
glean from looking at the pictures of the board. It has a DSP-1 (so
SR/DR registers), four ROMs that map in and out, RAM, etc.

I've also added preliminary mapping to upload high scores to a website,
but obviously I need the ROMs first.
 2012-12-26 17:46:57 +11:00
Tim Allen
94b2538af5 Update to higan v091 release. 
byuu says:

Basically just a project rename, with s/bsnes/higan and the new icon
from lowkee added in.

It won't compile on Windows because I forgot to update the resource.rc
file, and a path transform command isn't working on Windows.
It was really just meant as a starting point, so that v091 WIPs can flow
starting from .00 with the new name (it overshadows bsnes v091, so
publicly speaking this "shouldn't exist" and will probably be deleted
from Google Code when v092 is ready.)
 2012-12-26 17:46:36 +11:00
Tim Allen
7f404e6edb Update to v091 release. 
byuu says:

A few issues crept up in the last release, this should take care of
them.

First, it seems that the 32-bit runtime on 64-bit versions of Windows
have 64-bit time functions; whereas true 32-bit Windows does not. This
was causing a DLL error when attempting to load bsnes v090.

Second, when there were more than 2,000 files in the same folder on
Windows, it was lagging the file browser. With OV2's help, I've fixed
that and it'll now load the list instantly.

Lastly, I've included the missing video shaders this time.
 2012-08-11 12:18:19 +10:00
Tim Allen
47dffcae85 Update to v090 release. 
byuu says:

Most notably, this release adds Nintendo DS emulation. The Nintendo DS
module was written entirely by Cydrak, so please give him all of the
credit for it. I for one am extremely grateful to be allowed to use his
module in bsnes.

The Nintendo DS emulator's standalone name is dasShiny. You will need
the Nintendo DS firmware, which I cannot provide, in order to use it. It
also cannot (currently?) detect the save type used by NDS games. As
such, manifest.xml files must be created manually for this purpose. The
long-term plan is to create a database of save types for each game.
Also, you will need an analog input device for the touch screen for now
(joypad axes work well.)

There have also been a lot of changes from my end: a unified
manifest.xml format across all systems, major improvements to SPC7110
emulation, enhancements to RTC emulation, MSU1 enhancements, icons in
the file browser list, improvements to SNES coprocessor memory mapping,
cleanups and improvements in the libraries used to build bsnes, etc.

I've also included kaijuu (which allows launching game folders directly
with bsnes) and purify (which allows opening images that are compressed,
have copier headers, and have wrong extensions); both of which are fully
GUI-based.

This release only loads game folders, not files. Use purify to load ROM
files in bsnes.

Note that this will likely be the last release for a long time, and that
I will probably rename the emulator for the next release, due to how
many additional systems it now supports.
 2012-08-08 00:08:37 +10:00
Tim Allen
be625cc0fb Update to v089r18 release. 
byuu says:

Changelog:
- fixed bsnes to let config files and system folders to be in the same
  folder as the executable
- fixed RawInput driver to compile again without linear_vector
- fixed phoenix/Windows to compile again without linear_vector
- fixed old vs new name warnings on MinGW w64 (technically the warnings
  were erroneous, but I worked around them anyway)
- added memory export hotkey (SNES driver only; mainly for FEoEZ
  translation)
- restored WRAM randomization for v090 stability (we can discuss that
  idea for v091+)
- fixed SuperFX / SA-1 "0x" prefix in the header generation (drop it
  into the latest purify if you want)
- added nall/Makefile uname support for UnxUtils (was breaking
  compilation with full UnxUtils in your path otherwise)
 2012-08-07 23:28:00 +10:00
Tim Allen
4cb8b51606 Update to purify v00r07 release. 
byuu says:

This update uses the latest manifest.xml mappings. It also adds a new
"Update Manifests" button that can be used to quickly regenerate all
manifests (sans Famicom games ... since I strip the iNES header, that
information is gone. We can't support Famicom manifest.xml updates until
we have a database.) This is different than the before wrapping of the
functionality on the convert games button. You can also trigger this on
the command-line with "purify synchronize"

g6672D, great catch. This was fixed, thank you.

[g6672D's bug was: "SA-1 and SuperFX are missing the "0x" for
program.rom/save.rwm size." - Ed.]
 2012-07-23 22:53:28 +10:00
Tim Allen
87cb164f7c Update to v089r17 release. 
byuu says:

This implements the spec from the XML part 3 thread:

    http://board.byuu.org/viewtopic.php?f=16&t=2998

It's also propagated the changes to nall and purify, so you can test
this one.

This is basically it, after years of effort I feel I finally have
a fully consistent and logical XML board format.
The only things left to change will be: modifications if emulation turns
out to be incorrect (eg we missed some MMIO mirrors, or mirrored too
much), and new additions.

And of course, I'm giving it a bit of time for good arguments against
the format.

Other than that, this release removes linear_vector and pointer_vector,
as vector is better than linear_vector and I've never used
pointer_vector.
vector also gets move(), which is a way to use move-semantics across
types. It lets you steal the underlying memory pool, effectively
destroying the vector without a copy.
This works really nicely with the move for read() functions to return
vector<uint8> instead of taking (uint8_t*&, unsigned&) parameters.
 2012-07-22 22:27:18 +10:00
Tim Allen
c1318961d8 Update to v089r16 release. 
byuu says:

Changelog:
- eliminated <mmio>, <mcu> tags [they are merged to their parent nodes
  now]
- added <ram name= size=> tag to EpsonRTC, SharpRTC
- added <firmware> tag to DSP-n, ST-01n, ST-018, Cx4
- interface->path(0) now returns the system folder, which can be used
  for storage now
- as a fun proof-of-concept, I've simulated SNES warm power cycles by
  saving and loading work RAM (same effect if you instantly swapped
  carts)
  - long-term, I'm not sure how I want to do this. The power menu option
    makes no sense with warm RAM
  - I like the idea of decaying RAM based on timestamp from last play;
    and power can just force the timestamp to 0 (which will corrupt all
    RAM)
- Interface::firmware is gone. The cores now load firmware inside their
  boot up routines
- you now get a message on the screen if the emulator can't find
  firmware, should help with "I just get a black screen" messages

I'd like to start preparing for a v090 release. I think we're almost
there now. Have to update nall/cartridge and purify to handle XML
changes first.
 2012-07-22 22:27:14 +10:00
Tim Allen
791e64951b Update to v089r15 release. 
byuu says:

Changelog:
- SuperFX has its own ROM and RAM
- Cx4 has its own ROM
- SPC7110 has its own ProgramROM, DataROM and RAM
- OBC1 has its own RAM
- BsxCartridge has its own ROM, RAM and PSRAM
- mapping changes to accommodate the above
 2012-07-09 21:40:23 +10:00
Tim Allen
27af50099f Update to v089r14 release. 
byuu says:

Changelog:
- NSS emulation improvement (DIP is 8-bits, not 16-bits; can be remapped
  via XML now like all the other chips)
- SA-1 memory map improvements (IRAM and BWRAM can be saved; ROM, IRAM
  and BWRAM are separate from Cartridge::ROM, RAM; no MCU)
- S-DD1 memory map improvements (ROM, RAM inside mapping; no MCU)
- SPC7110 memory map improvements (ROM, RAM inside mapping; no MCU; not
  finished yet [have to handle 8mbit expansion somehow now)

I have tried multiple times now to get the SuperFX core to use internal
ROM and RAM (separate from Cartridge::ROM, RAM) to no avail.
Not sure what the hell is going on there. Trace logs of 430MB are not
enticing ...

So right now: SuperFX, SPC7110 and BS-X cheat by mapping stuff to
Cartridge::ROM, RAM still. They need to not do that.
 2012-07-08 12:57:34 +10:00
Tim Allen
fbd52c7e5f Update to v089r13 release. 
[also, replace the old purify tool with the new tool by the same name.
There were some previous releases outside the WIP thread, but this is
the first one that actually works with a WIP release. -Ed.]

byuu says:

Fixes up loading issues with recent purify changes, and purify also
works on BS/ST file types now and should be a bit more crash-resistant.
 2012-06-25 22:49:39 +10:00
Tim Allen
36795e8061 Update to v089r12 release. 
byuu says:

Changelog:
- Game Boy XML uses <cartridge><board type="MBC3"/> instead of
  <cartridge mapper="MBC3">
- if you run bsnes with a filename argument, it will invoke "purify
  filename" and exit immediately
  - this chains: purify will turn the file into a game folder, and then
    invoke bsnes with the game folder name
    - net result: you can drag a ZIP file onto bsnes or associate SMC
      headered ROMs with bsnes and they'll just work
- new nall: unified usage of - vs _ vs nothing on filenames; fancier
  lstring; fancier image (constructor for creating from filename or from
  memory); etc
- new phoenix: images in ListView, GTK+ merges the check box into the
  first column like the other targets do, etc
- browser list now uses icons to differentiate system folders from game
  folders (the game folder icon sucks, I'm open to suggestions though,
  as long as it's available on Debian Squeeze in /usr/share/icons, no
  custom stuff please)
 2012-06-18 20:13:51 +10:00
Tim Allen
ec8350794a Update to v089r11 release. 
byuu says:

Changelog:
- SPC7110 $480b (and its settings in $4805-6 + $4807) is now fully
  emulated
- decompressor restructured and commented accordingly

The final parts remaining for the SPC7110 core, all within the
decompression engine:
- need to detect when 15+ input bytes are read for one output byte and
  simulate a crash somehow (don't have to perfectly simulate corrupted
  data stream)
- need to emulate time required to decompress data (doesn't have to be
  perfect, just something other than instantaneous)
- need to determine what $480c status flags d6-d0 are for, as best we
  can anyway
 2012-06-06 19:57:53 +10:00
Tim Allen
4545e7c62d Update to v089r10 release. 
byuu says:

Changelog:
- Cydrak merged all three SPC7110 decompression routines into one, cuts
  the size in half
- fixed masking of $4803.d7 and $4813.d7
- data port out of bounds accesses emulated correctly for app SPC7110
  boards
- all(?) data port $4810 reload cases now supported
- basic timing for $4805-6 seeking; reworked delay timing to work better
  as well
- fixed $480c.d7 flag (1 = ready, not busy)
- AbsoluteInput returns -32768 if presentation window lacks focus and
  you don't always allow input
 2012-05-31 22:27:46 +10:00
Tim Allen
3302398907 Update to v089r09 release. 
byuu says:

Changelog:
- SPC7110 data port emulation greatly improved
- SPC7110 $480b.d1 emulated (but $4805-4806 does not work right for mode
  2 decompression yet)
- MSU1 audio output will be muted when the S-DSP FLG ($6c).d6 (mute)
  flag is set
- MSU1 will read filenames from manifest now (defaults to msu1.rom and
  track-#.pcm if missing ... for now)
- bugfixes with MSU1 load state and track seek (and $4804 was wrapping
  into $4805 to change the track#)
- Link coprocessor removed (it was meant for ST018 HLE, which never
  happened)

Notes for things I forgot but need to address:
- $4813 needs to be uint7 for the set_data_offset() to not allow reading
  A23 as set ever (or we can mask)
- AbsoluteInput when window doesn't have focus should return -32768, not
  0
- need to support input ID lists that aren't linear (0-7), but arbitrary
  (0,1,6,7 or whatever)
 2012-05-29 22:20:46 +10:00
Tim Allen
189e707594 Update to v089r08 release. 
byuu says:

Changelog:
- Super Game Boy, BS-X Satellaview and Sufami Turbo cartridges all load
  manifests that specify their file names, and they all work
- Sufami Turbo can now properly handle carts without RAM, or empty slots
  entirely
- Emulator::Interface structures no longer specify any file names, ever
- exposed "capability.(cheats,states)" now. So far, this just means the
  GBA doesn't show the cheat editor, since it doesn't support cheat
  codes yet
- as such, state manager and cheat editor windows auto-hide (may be
  a tiny bit inconvenient, but it makes not having to sync them or deal
  with input when no cart is loaded easier)
- added "AbsoluteInput" type, which returns mouse coordinates from
  -32767,-32767 (top left) to +32767,+32767 (bottom right) or
  -32768,-32768 (offscreen)

AbsoluteInput is just something I'm toying with. Idea is to support eg
Super Scope or Justifier, or possibly some future Famicom controllers
that are absolute-indexed. The coordinates are scaled, so the bigger
your window, the more precise they are. But obviously you can't get more
precise than the emulated system, so 1x scale will behave the same
anyway. I haven't hooked it up yet, need to mess with the idea of custom
cursors via phoenix for that first. Also not sure if it will feel
smoother or not ... if you resize the window, your mouse will seem to
move slower. Still, not having to capture the mouse for SS/JS may be
nicer yet. But we'll see ... just experimenting for now.
 2012-05-28 09:50:50 +10:00
Tim Allen
9a8a54c75e Update to v089r07 release. 
byuu says:

Not even purify makes compatible images for this WIP.
Unless you want to figure it out yourself, I'd suggest waiting for an
updated tool before using subsequent WIPs.

Changelog:
- MSU1 initializes data port + audio track to 0
- MSU1 implements audio track error flag on $2000.d3
- manifest.xml now controls file names for cartridge folders ... mostly

Regressions:
- Super Game Boy support is broken
- Sufami Turbo support is broken

So, basically Emulator::Interface() now has:

    void load(const string &manifest);
    void save();

The first one will analyze the manifest, and call all the ROM + RAM
loadRequest() commands necessary to run the game.
The second one will call saveRequest() commands on all writable and
non-volatile storage (basically if it's a RAM type and has a filename
specified, it gets saved to disk.)
save() shrinks the size of Emulator::Interface() by hiding information
one is unlikely to care about. It also makes it much easier to save.
The core auto-calls this when you unload a game as well. So the only
time you ever have to worry about it is if you want to save RAM files
mid-game (in case you want to do periodic backups in case of a crash.)
 2012-05-26 18:18:42 +10:00
Tim Allen
d418eda97c Update to v089r06 release. 
[Yes, the release number is re-used. -Ed.]

byuu says:

I had some bugs in r07 that I couldn't track down, DKJM2's clock was
getting all out of sync.
So I just reverted to r05, blew away both RTCs entirely, and wrote them
cleanly from scratch (obviously looking off the old code.) A bit
extreme, but it worked.
I believe I found the error in the process, day and month were resetting
the counter to 0 instead of 1, it wasn't handling leap year, etc.
While I was at it, I fixed the day-of-week calculation. The SharpRTC
epoch is actually 1000-01-01, and not 1900-01-01.
I'm sure you guys will be really happy that if it ever becomes 1000AD
again and you're playing a ROM hack that uses the SharpRTC and relies on
its weekday value that it will show the correct day now ...
Kind of a pain to compute, but nothing compared to the seventh circle of
hell that was my IBM dBase III Julian<>Gregorian conversion functions :/
Also found a few bugs in the Epson code this way. And I moved the round
seconds actions and flag clear to +125us after flag set.

So, if you had the old r06 or r07, please delete those.

Unfortunately, this took all of my energy today, so the file names
inside manifest changes will have to be in the next WIP.

EDIT: ran a diff against old r07 and new r06.
- added if(days == 31) case twice in EpsonRTC::tick_day()
- forgot weekday = 0; in SharpRTC::load()
- need to move the cartridge+cheat objects up in sfc/Makefile again
- System::init() needs assert(interface != nullptr /* not 0 */)
 2012-05-25 09:26:06 +10:00
Tim Allen
5dbd5f4d0f Update to v089r07 release. 
byuu says:

Changelog:
- EpsonRTC emulation improved further (stop/pause blocks IRQs, verified
  secondhi >= 3 triggers 30-second adjust (even on invalid BCD),
  second-changed flag is mirrored to minute+hour+day+month+weekday,
  improved busy timing, etc.)
- SharpRTC rewritten, works like EpsonRTC now in that it has its own
  timing thread and ticks with the emulation
- won't attempt to read from an unopen file stream now (I think this is
  what was crashing Sufami Turbo without SRAM?)
- added Tools -> Synchronize Time option below load/save state options.
  Only appears when you play a game with an emulated RTC chip

Just realized that I used 125ms for the 30-second adjust instead of
125us, so I'll fix that in the next WIP.
Aside from that, this is as good as the emulation is going to get.
There's still a couple of absolutely psychopathic edge cases that are
just too damn difficult to simulate.
So that leaves us with data port control + decompression status
registers to investigate before SPC7110 will be finished.
 2012-05-23 21:27:45 +10:00
Tim Allen
d6001a2df4 Update to v089r06 release. 
byuu says:

Changelog:
- renamed SRTC -> SharpRTC
- renamed RTC4513 -> EpsonRTC (consistent with DSP naming schema)
- full emulation of invalid BCD values for EpsonRTC
- fixed EpsonRTC IRQ mask

Remaining SPC7110 tasks:
- RTC: test 30-second adjust with all values from 00-7f
- RTC: hold is supposed to tick the clock one second after being
  released?
- RTC: wait times are too long (need to use >32KHz oscillation to
  simulate it properly)
- Data Port: test $4818 more thoroughly (not too important)
- Decompression: test $480c more thoroughly (very important)
- Decompression: perform some tests on DMA transferring data, especially
  with $4807 set

Write-offs, at least for now:
- Decompression: emulation of the crash/glitch behavior seen on the real
  chip when fed invalid data
- Decompression: I can find no use of $4808
- ALU: Booth cycles for MUL/DIV (this could actually be rather important
  if the game reads simpler values quickly [some shoddy games did this
  with the CPU ALU])
- RTC: delay after hold release for $4841 accesses
- RTC: 125uS delay after 30-second adjust that will screw with registers
  in odd ways if your read or write too soon
- RTC: psychotic behavior of reading too early returning port address
  - 1
 2012-05-22 22:10:00 +10:00
Tim Allen
bd61432322 Update to v089r05 release. 
byuu says:

I split the RTC-4513 code from the SPC7110 code (and obviously in the
XML mapping as well), since they are separate chips on the FEoEZ PCB.
In this way, you can use just the RTC-4513 in homebrew now if you want.
It's a bit nicer than the Sharp RTC from Dai Kaijuu Monogatari II.
This was needed anyway, it has an internal oscillator that's not
divisible by the SNES clock used by the SPC7110; and both the RTC and
decompression code need to be running their own threads anyway.

In the process, I rewrote the way variables are stored to use named
integers rather than a block of memory. Makes the code a lot easier on
the eyes, and more importantly, will make emulating bad BCD values
a whole lot easier.
 2012-05-21 20:56:48 +10:00
Tim Allen
0611fefefa Update to v089r04 release. 
byuu says:

Changelog: (SPC7110)
- emulated $480b.d0 + $4807 deinterleave mode
- cleaned up decompression core (I'd still like to wipe out those static
  variables, those are bad for save states.)
- improved emulation of data port ($481a only increments, never reads)
- improved emulation of RTC (block appropriate bits in the hour register
  based on 12/24h mode select; $4840 modes != 1 all disable the chip;
  added MDR; etc.)
 2012-05-19 16:28:54 +10:00
Tim Allen
6ac7b733bd Update to v089r03 release. 
byuu says:

Substantial improvements to SPC7110 emulation. Added all of the findings
from http://byuu.org/temp/spc7110-mmio.txt that I understood.

I also completely rewrote the RTC. We only had about ~40% of the chip
emulated before. Turns out there's cool stuff like spare RAM, calendar
disable, 12-hour mode, IRQs, IRQ masking, duty cycles, etc. So I went
ahead and emulated all of it. The upper bits on hour+ don't work as
nocash described though, not sure what doc he was reading. The Epson
RTC-4513 manual I have doesn't explain any of the registers.
The new RTC core also ticks seconds based on the emulated clock, and not
on the system clock. This is going to suck for people wanting to keep
the in-game clock synced with their computer, who also abuse fast
forward and save states. Fast forward makes the clock run faster, and
save states will jump the clock to the time it was at when you took the
save state. (It will keep track of the number of seconds between
unloading the game and loading it again, so time passes normally there.)
This is required, however, and how I'm going to rearrange all of the
RTCs for all systems. Any other method can be detected by the game, and
is thus not faithful emulation. To help with this, I'll probably make an
RTC time tool so that you can adjust the time when the emulator isn't
running, but I don't intend to bundle that into bsnes.
New state format bit-packs the RTCRAM values, and it also uses a 64-bit
timestamp. So it's 16 bytes now instead of 20 bytes. S-RTC will drop
from 16 to 12 when it's done.
The RTC busy flag timing needs to be refined with more hardware tests,
there's a slim chance of the game hanging on save at the moment.

The SPC7110 ALU delays are emulated now, too. They may not be perfectly
accurate, but they get the basic gist down.
The only hack that needs to be removed now is the decompression busy
flag. That's ... not going to be fun.

I also redid the mouse emulation. I was polling the mouse position
multiple times per latch. So it should be a bit more precise now,
I hope.
I read it regardless of latch state, dunno if that's good or not.
 2012-05-16 10:27:34 +10:00
Tim Allen
a1e4c67a05 Update to v089r02 release. 
(r01 was not posted to the WIP thread)

byuu says:

r01 changelog:
- major improvements to SPC7110 MCU (memory controller unit)
- revised SPC7110 memory map to reflect aforementioned improvements
- added "Toggle Tracer" hotkey to target-ethos (only works for SFC so
  far, I plan to use this as a lightweight laevateinn for FEoEZ)

r02 changelog:
- quick fix: SRAM is mapped to 00-3f|80-bf:6000-7fff
- quick fix: $4830.d7 is SRAM chip enable, not SRAM write enable. Reads
  return 0x00 when this bit is clear
 2012-05-14 23:32:55 +10:00
Tim Allen
73ebe093b8 Update to v089 release. 
byuu says:

Changelog to v089:
- fix SA-1 Mini Yonku Shining Scorpion
- load from command-line
- remove SNES::Cartridge::NVRAM
- fix SGB save RAM
- update cheats.xml
- already mapped inputs cancel input assign

BS-X wasn't broken after all. I forgot that I ran purify on my BS-X
images, and that the BS Zelda ZIP I have has the disable ROM bit set.
Whoops.
 2012-05-12 12:34:35 +10:00
Tim Allen
c3f9d421da Update to v088r16 release. 
byuu says:

Changelog:
- fixed BGnxOFS to not cache when MOSAIC is not in effect [fixes Air
  Strike Patrol "Good Luck" text]
- added GameBoy::Interface::Hook for SGB bindings [SGB works again]
- do not create bsnes/ folder unless it is absolutely needed (eg you
  create a save state or state manager archive)
- SuperFX works [needed to call system.init() in Interface::Interface()]

Last chance for any bug reports, at this point I pretty much consider
ethos to be finished. It's shipping without BS-X BIOS game loading
support. Sorry, I can't figure that one out.
 2012-05-10 09:35:29 +10:00
Tim Allen
689fc49047 Update to v088r15 release. 
byuu says:

Changelog:
- default placement of presentation window optimized for 1024x768
  displays or larger (sorry if yours is smaller, move the window
  yourself.)
- Direct3D waits until a previous Vblank ends before waiting for the
  next Vblank to begin (fixes video timing analysis, and ---really---
  fast computers.)
- Window::setVisible(false) clears modality, but also fixed in Browser
  code as well (fixes loading images on Windows hanging)
- Browser won't consume full CPU resources (but timing analysis will,
  I don't want stalls to affect the results.)
- closing settings window while analyzing stops analysis
- you can load the SGB BIOS without a game (why the hell you would want
  to ...)
- escape closes the Browser window (it won't close other dialogs, it has
  to be hooked up per-window)
- just for fun, joypad hat up/down moves in Browser file list, any
  joypad button loads selected game [not very useful, lacks repeat, and
  there aren't GUI load file open buttons]
- Super Scope and Justifier crosshairs render correctly (probably
  doesn't belong in the core, but it's not something I suspect people
  want to do themselves ...)
- you can load GB, SGB, GB, SGB ... without problems (not happy with how
  I did this, but I don't want to add an Interface::setInterface()
  function yet)
- PAL timing works as I want now (if you want 50fps on a 60hz monitor,
  you must not use sync video) [needed to update the DSP frequency when
  toggling video/audio sync]
- not going to save input port selection for now (lot of work), but it
  will properly keep your port setting across cartridge loads at least
  [just goes to controller on emulator restart]
- SFC overscan on and off both work as expected now (off centers image,
  on shows entire image)
- laevateinn compiles properly now
- ethos goes to ~/.config/bsnes now that target-ui is dead [honestly,
  I recommend deleting the old folder and starting over]
- Emulator::Interface callbacks converted to virtual binding structure
  that GUI inherits from (simplifies binding callbacks)
    - this breaks Super Game Boy for a bit, I need to rethink
      system-specific bindings without direct inheritance

Timing analysis works spectacularly well on Windows, too. You won't get
your 100% perfect rate (unless maybe you leave the analysis running
overnight?), but it'll get really freaking close this way.
 2012-05-08 09:29:03 +10:00
Tim Allen
cb97d98ad2 Update to v088r14 release. 
byuu says:

Changelog:
- added NSS DIP switch settings window (when loading NSS carts with
  appropriate manifest.xml file)
- added video shader selection (they go in ~/.config/bsnes/Video
  Shaders/ now)
- added driver selection
- added timing settings (not only allows video/audio settings, also has
  code to dynamically compute the values for you ... and it actually
  works pretty good!)
- moved "None" controller device to bottom of list (it is the least
  likely to be used, after all)
- added Interface::path() to support MSU1, USART, Link
- input and hotkey mappings remember list position after assignment
- and more!

target-ethos now has all of the functionality of target-ui, and more.
Final code size for the port is 101.2KB (ethos) vs 167.6KB (ui).
A ~67% reduction in code size, yet it does even more! And you can add or
remove an entire system with only three lines of code (Makefile include,
header include, interface append.)

The only problem left is that the BS-X BIOS won't load the BS Zelda no
Densetsu file.
I can't figure out why it's not working, would appreciate any
assistance, but otherwise I'm probably just going to leave it broken for
v089, sorry.

So the show stoppers for a new release at this point are:
- fix laevateinn to compile with the new interface changes (shouldn't be
  too hard, it'll still use the old, direct interface.)
- clean up Emulator::Interface as much as possible (trim down
  Information, mediaRequest should use an alternate struct designed to
  load firmware / slots separately)
- enhance purify to strip SNES ROM headers, and it really needs a GUI
  interface
- it would be highly desirable to make a launcher that can create
  a cartridge folder from an existing ROM set (* ethos will need to
  accept command-line arguments for this.)
- probably need to remember which controller was selected in each port
  for each system across runs
- need to fix the cursor for Super Scope / Justifier games (move from
  19-bit to 32-bit colors broke it)
- have to refactor that cache.(hv)offset thing to fix ASP
 2012-05-07 09:27:42 +10:00
Tim Allen
3cb04b101b Update to v088r13 release. 
byuu says:

Changelog:
- fixed Super Game Boy input
- Sufami Turbo prompts to load second slot now (you can cancel to leave
  it empty)
- NEC/Hitachi/ARM DSP firmware is loaded; NEC RAM is saved
- folders are grouped properly: Sufami Turbo save RAM saves to its slot
  folder, etc.
- title shows properly (SGB shows GB game name only, BS-X slotted shows
  game name and optional slot name, etc.)
    - above extends to saving cheats and such in their correct folders
      as well
- added cheat editor and cheat database
    - and hooked up the requisite SGB mode loads and can use GB cheats,
      because that's kinda cool
- added state manager
- input settings, cheat editor and state manager all have erase (one)
  and reset (all) buttons now
- lots of cleanup and restructuring on Emulator::Interface; *almost*
  finished with it now

Remaining:
- BS-X BIOS won't show the data pack
- need XML mapping information window
- need NSS DIP switch settings window
- need video shaders
- need driver selection
- need to hide controllers that have no inputs from the input mapping
  list (tempted to just remove "None" as a controller option ...)

ethos is currently 88KB of code, ui is 167KB. We're missing about 5-10KB
of code in ethos to complete it, so the rewrite nearly cut the GUI code
size in half, while support all of the same functionality and allowing
the easy addition and removal of entire systems.
 2012-05-06 16:34:46 +10:00
Tim Allen
5d273c5265 Update to v088r12 release. 
byuu says:

Changelog:
- all hotkeys from target-ui now exist in target-ethos
- controller port menus now show up when you load a system (hidden if
  there are no options to choose from)
- tools menu auto-hides with no game open ... not much point to it then
- since we aren't using RawInput's multi-KB/MS support anyway, input and
  hotkey mappings remove KB0:: and turn MS0:: into Mouse::, makes it
  a lot easier to read
- added mute audio, sync video, sync audio, mask overscan
- added video settings: saturation, gamma, luminance, overscan
  horizontal, overscan vertical
- added audio settings: frequency, latency, resampler, volume
- added input settings: when focus is lost [ ] pause emulator [ ] allow
  input
- pausing and autopausing works
- status messages hooked up (show a message in status bar for a few
  seconds, then revert to normal status text)
- sub systems (SGB, BSX, ST) sorted below primary systems list
- added geometry settings cache
- Emulator::Interface cleanups and simplifications
- save states go into (cart foldername.extension/bsnes/state-#.bsa) now.
  Idea is to put emulator-specific data in their own subfolders

Caveats / Missing:
- SGB input does not work
- Sufami Turbo second slot doesn't work yet
- BS-X BIOS won't show the data pack
- need XML mapping information window
- need cheat editor and cheat database
- need state manager
- need video shaders
- need driver selection
- need NSS DIP switch settings
- need to hide controllers that have no inputs from the input mapping
  list

So for video settings, I used to have contrast/brightness/gamma.
Contrast was just a multiplier on intensity of each channel, and
brightness was an addition or subtraction against each channel. They
kind of overlapped and weren't that effective. The new setup has
saturation, gamma and luminance.

Saturation of 100% is normal. If you lower it, color information goes
away. 0% = grayscale. If you raise it, color intensity increases (and
clamps.) This is wonderful for GBA games, since they are oversaturated
to fucking death. Of course we'll want to normalize that inside the
core, so the same sat. value works on all systems, but for now it's
nice. If you raise saturation above 100%, it basically acts like
contrast used to. It's just that lowering it fades to grayscale rather
than black.

Adding doesn't really work well for brightness, it throws off the
relative distance between channels and looks like shit.  So now we have
luminance, which takes over the old contrast <100% role, and just fades
the pixels toward black. Obviously, luminance > 100% would be the same
as saturation > 100%, so that isn't allowed, it caps at 100% now.
Gamma's the same old function. Gamma curve on the lower-half of the
color range.
Effects are applied in the order they appear in the GUI: color ->
saturate -> gammify -> luminate -> output.
 2012-05-04 22:47:41 +10:00
Tim Allen
8703d57030 Update to v088r11 release. 
byuu says:

Changelog:
- phoenix has added Window::setModal(bool modal = true);
- file dialog is now modal. This allows emulation cores to request data
  and get it immediately before continuing the loading process
- save data is hooked up for most systems, still need to handle
  subsystem slot saves (Sufami Turbo, basically.)
- toggle fullscreen key binding added (Alt+Enter for now. I think F11 is
  probably better though, Enter is often mapped to game start button.)
- video scaling is in (center, scale, stretch), works the same in
  windowed and fullscreen mode (stretch hides resize window option), all
  in the settings menu now
- enough structure to map all saved paths for the browser and to load
  BS-X slotted carts, BS-X carts, single Sufami Turbo carts

Caveats / Missing:
- Super Game Boy input doesn't work yet (due to change in callback
  binding)
- doesn't load secondary Sufami Turbo slot yet
- BS-X BIOS isn't show the data pack games to load for some reason (ugh,
  I hate the shit out of debugging BS-X stuff ...)
- need mute audio, sync audio+video toggle, save/load state menu and
  quick keys, XML mapping information window
- need cheat editor and cheat database
- need state manager
- need to sort subsystems below main systems in load menu (basically
  just see if media.slot.size() > 0)
- need video shaders (will probably leave off filters for the time being
  ... due to that 24/30-bit thing)
- need video adjustments (contrast etc, overscan masks)
- need audio adjustments (frequency, latency, resampler, volume,
  per-system frequency)
- need driver selection and input focus policy (driver crash detection
  would be nice too)
- need NSS DIP switch settings (that one will be really fun)
- need to save and load window geometry settings
- need to hook up controller selection (won't be fun), create a map to
  hide controllers with no inputs to reassign
 2012-05-03 22:36:47 +10:00
Tim Allen
9ad8b7eaac Update to v088r10 release. 
byuu says:

ethos is going to be absolutely amazing. You guys are in for a treat :D
I'm impressing the hell out of myself with how well-structured this code
is, it's allowing me to do amazing new things.

Just a small sampling of what's in store (and already implemented):

The file browser will display folders as "[ folder name ]", and
cartridge folders as "Game Name" (no extension, no /) [icons would be
nicer, but well ... phoenix.]
Folders are sorted above cartridge folders.
Cartridge folders for other systems do not show up in the list.
Not only are unique paths stored for each image type, your position in
the list is saved across runs.
Some voodoo was added to GTK+ so that all targets even scroll directly
to that item when you open the list. Load->System->Enter restarts your
last game.
That sounds really simple and obvious, but it makes an -incredible-
difference. Didn't realize it until I tried an implementation of it,
wow.

The input mapping list now lets you bind as many hotkeys as you want to
any given input.
So SFC::Port1::Joypad::B = Keyboard::Z or Joypad::Button1 ... no need to
remap everything to switch between keyboard and joypad. Either one
activates the key.
There is a separate Hotkeys tab now. This should hopefully end the
confusion about how to remap hotkeys that users experience.
Hotkeys are different, too. Instead of OR logic, they use AND logic.
So Fullscreen = Keyboard::Alt and Keyboard::Enter. Both must be pressed
to enter the key. This lets you easily implement "super" modifier keys.

The actual codebase has new features the old UI never had, and has about
~50% of the old functionality (so far, of course), yet is only ~25% as
much code.
The entire GUI no longer needs to pull in all the headers for each
emulated system. It just needs a small interface header file.
Then bind the entire system with exactly **two** lines of code.
Everything is dynamically generated for you after that.
 2012-05-01 22:27:50 +10:00
Tim Allen
76553756a2 Update to v088r09 release. 
byuu says:

Lots of work on ethos, nothing more.
Settings window is in, InputManager pulls all the inputs from all cores
and binds them to ruby inputs, main window adds menu and dynamically
maps in all systems and cartridge slots and options and such, file
browser's back in, RAM is loaded and saved, etc. It's barely usable, but
you have to set up your inputs from the config file by hand for now.
 2012-05-01 22:27:50 +10:00
Tim Allen
4fd20f0ae0 Update to v088r08 release. 
byuu says:

From this WIP, I'm starting on the impossible task of
a declarative-based GUI, which I'm calling Ethos.
base/ becomes emulator/, and we add emulator/interface.hpp, which is
a base API that all emulation cores must implement in full.
(Right now, it's kind of a hybrid to work with the old GUI and the new
GUI at the same time, of course.)
Unlike the old interfaces, the new base class also provides all general
usability hooks: loading and saving files and states, cheat codes, etc.
The new interface also contains information and vector structs to
describe all possible loading methods, controller bindings, etc; and
gives names for them all.
The actual GUI in fact should not include eg <gba/gba.hpp> anymore.
Should speed up GUI compilation.

So the idea going forward is that ethos will build a list of emulators
right when the application starts up.
Once you've appended an emulator to that list, you're done. No more GUI
changes are needed to support that system.
The GUI will have code to parse the emulator interfaces list, and build
all the requisite GUI options dynamically, declarative style.

Ultimately, once the project is finished, the new GUI should look ~99%
identical to the current GUI. But it'll probably be a whole lot smaller.
 2012-05-01 22:27:48 +10:00
Tim Allen
bb4db22a7d Update to v088r07 release. 
byuu says:

(r05 and r06 were save points between large core modifications)

I would really appreciate extensive regression testing (especially
around SuperFX, Cx4, ST018, DSP-n, ST-01n, NES, GB) at this point.
The most critical core changes should be completed now. And it was an
unbelievable amount of restructuring.

Changelog:
- SuperFX core moved to Processor::GSU
- SNES::CPU core moved to Processor::R65816
- SNES::SMP core moved to Processor::SPC700
- NES::CPU core renamed to Processor::R6502
- use filestream to load RAM files from interface
- save states store SHA256 instead of CRC32 (CRC32 usage removed
  entirely from bsnes)
- nes/ -> fc/ and NES -> FC
- snes/ -> sfc/ and SNES -> SFC
- SuperFamicom::MappedRAM::copy uses stream instead of data+size
- Linux port uses gcc-4.7 (still using only gcc-4.6 subset, so you can
  make a gcc-4.6 symlink for now if you like.)
- all profiles and all targets compile and work properly

All eight instruction set cores have been moved to processor/ now.
Consistency's a wonderful thing.
The last remnants of NES/SNES are now limited to target-ui code; and the
nall/(system) folder names.
I'm building with gcc-4.7 on my Linux box now because the resultant
binaries are up to 20% faster (seriously) than gcc-4.6.
 2012-05-01 22:02:14 +10:00
Tim Allen
67c13f749f Update to v088r04 release. 
byuu says:

This will hopefully be a short-lived WIP, I just want to save
a breakpoint before I attempt something else.
NES, GB, GBC and GBA all load via const stream& now.
NES CPU core moved to Processor::RP2A03.
 2012-04-28 16:35:51 +10:00
Tim Allen
616372e96b Update to v088r03 release. 
byuu says:

static vector<uint8_t> file::read(const string &filename); replaces:
static bool file::read(const string &filename, uint8_t *&data, unsigned
&size); This allows automatic deletion of the underlying data.

Added vectorstream, which is obviously a vector<uint8_t> wrapper for
a data stream.  Plan is for all data accesses inside my emulation cores
to take stream objects, especially MSU1.  This lets you feed the core
anything: memorystream, filestream, zipstream, gzipstream, httpstream,
etc.  There will still be exceptions for link and serial, those need
actual library files on disk. But those aren't official hardware devices
anyway.

So to help with speed a bit, I'm rethinking the video rendering path.

Previous system:
- core outputs system-native samples (SNES = 19-bit LRGB, NES = 9-bit
  emphasis+palette, DMG = 2-bit grayscale, etc.)
- interfaceSystem transforms samples to 30-bit via lookup table inside
  the emulation core
- interfaceSystem masks off overscan areas, if enabled
- interfaceUI runs filter to produce new target buffer, if enabled
- interfaceUI transforms 30-bit video to native display depth (24-bit or
  30-bit), and applies color-adjustments (gamma, etc) at the same time

New system:
- all cores now generate an internal palette, and call
  Interface::videoColor(uint32_t source, uint16_t red, uint16_t green,
  uint16_t blue) to get native display color post-adjusted (gamma, etc
  applied already.)
- all cores output to uint32_t* buffer now (output video.palette[color]
  instead of just color)
- interfaceUI runs filter to produce new target buffer, if enabled
- interfaceUI memcpy()'s buffer to the video card

videoColor() is pretty neat. source is the raw pixel (as per the
old-format, 19-bit SNES, 9-bit NES, etc), and you can create a color
from that if you really want to. Or return that value to get a buffer
just like v088 and below.  red, green, blue are 16-bits per channel,
because why the hell not, right? Just lop off all the bits you don't
want. If you have more bits on your display than that, fuck you :P

The last step is extremely difficult to avoid. Video cards can and do
have pitches that differ from the width of the texture.  Trying to make
the core account for this would be really awful. And even if we did
that, the emulation routine would need to write directly to a video card
RAM buffer.  Some APIs require you to lock the video buffer while
writing, so this would leave the video buffer locked for a long time.
Probably not catastrophic, but still awful.  And lastly, if the
emulation core tried writing directly to the display texture, software
filters would no longer be possible (unless you -really- jump through
hooks and divert to a memory buffer when a filter is enabled, but ...
fuck.)

Anyway, the point of all that work was to eliminate an extra video copy,
and the need for a really painful 30-bit to 24-bit conversion (three
shifts, three masks, three array indexes.) So this basically reverts us,
performance-wise, to where we were pre-30 bit support.

[...]

The downside to this is that we're going to need a filter for each
output depth. Since the array type is uint32_t*, and I don't intend to
support higher or lower depths, we really only need 24+30-bit versions
of each filter.  Kinda shitty, but oh well.
 2012-04-27 22:12:53 +10:00
Tim Allen
bba597fc6f Update to v088r02 release. 
byuu says:

Basically, the current implementation of nall/array is deprecated now.
The old method was for non-reference types, it acted like a vector for
POD types (raw memory allocation instead of placement new construction.)
And for reference types, it acted like an unordered set. Yeah, not good.

As of right now, nall/array is no longer used. The vector type usage was
replaced with actual vectors.
I've created nall/set, which now contains the specialization for
reference types.
nall/set basically acts much like std::unordered_set. No auto-sort, only
one of each type is allowed, automatic growth.
This will be the same both for reference and non-reference types ...
however, the non-reference type wasn't implemented just yet.
Future plans for nall/array are for it to be a statically allocated
block of memory, ala array<type, size>, which is meant for RAII memory
usage.
Have to work on the specifics, eg the size as a template parameter may
be problematic. I'd like to return allocated chunks of memory (eg
file::read) in this container so that I don't have to manually free the
data anymore.

I also removed nall/moduloarray, and moved that into the SNES DSP class,
since that's the only thing that uses it.
 2012-04-26 20:56:15 +10:00
Tim Allen
abe639ea91 Update to v088r01 release. 
byuu says:

- GB::CPU::Core -> Processor::LR35902
- Processor::LR35902 -> jump table to switch table
- GB::LCD -> GB::PPU
- static frequency for DMG (no multiplication on clock ticks)
- GB::PPU::interface->videoRefresh() moved outside scheduler (use host
  thread)
- namespace NES  -> Famicom
- namespace SNES -> SuperFamicom
- namespace GB   -> GameBoy
- namespace GBA  -> GameBoyAdvance
- removed boot.rom writeout in GB::System
 2012-04-26 20:51:13 +10:00
Tim Allen
77bb5b7891 Update to v088 release. 
byuu says:

Changes to v088:
- OBJ mosaic Y fix
- Laevateinn compilation
- Remove filebrowser extra code
- Fix -march=native on Windows
- Fix purify mkdir
- GBA sound volume
- Add .gbb
- free firmware memory after file load
- Add GBA game to profile list (Yoshi's Island should work)
 2012-04-24 23:17:52 +10:00
Tim Allen
4b2944c39b Update to v087r30 release. 
byuu says:

Changelog:
- DMA channel masks added (some are 27-bit source/target and some are
  14-bit length -- hooray, varuint_t class.)
- No more state.pending flags. Instead, we set dma.pending flag when we
  want a transfer (fixes GBA Video - Pokemon audio) [Cydrak]
- fixed OBJ Vmosaic [Cydrak, krom]
- OBJ cannot read <=0x13fff in BG modes 3-5 (fixes the garbled tile at
  the top-left of some games)
- DMA timing should be much closer to hardware now, but probably not
  perfect
- PPU frame blending uses blargg's bit-perfect, rounded method (slower,
  but what can you do?)
- GBA carts really unload now
- added nall/gba/cartridge.hpp: used when there is no manifest. Scans
  ROMs for library tags, and selects the first valid one found
- added EEPROM auto-detection when EEPROM size=0. Forces disk/save state
  size to 8192 (otherwise states could crash between pre and post
  detect.)
    - detects first read after a set read address command when the size
      is zero, and sets all subsequent bit-lengths to that value, prints
      detected size to terminal
- added nall/nes/cartridge.hpp: moves iNES detection out of emulation
  core.

Important to note: long-term goal is to remove all
nall/(system)/cartridge.hpp detections from the core and replace with
databases. All in good time.
Anyway, the GBA workarounds should work for ~98.5% of the library, if my
pre-scanning was correct (~40 games with odd tags. I reject ones without
numeric versions now, too.)

I think we're basically at a point where we can release a new version
now. Compatibility should be relatively high (at least for a first
release), and fixes are only going to affect one or two games at a time.
I'd like to start doing some major cleaning house internally (rename
NES->Famicom, SNES->SuperFamicom and such.) Would be much wiser to do
that on a .01 WIP to minimize regressions.

The main problems with a release now:
- speed is pretty bad, haven't really optimized much yet (not sure how
  much we can improve it yet, this usually isn't easy)
- sound isn't -great-, but the GBA audio sucks anyway :P
- couple of known bugs (Sonic X video, etc.)
 2012-04-22 20:49:19 +10:00
Tim Allen
4c29e6fbab Update to v087r29 release. 
byuu says:

Changelog:
- revised NES XML tag nesting
- program.rom is going to refer to PRG+CHR combined. Split is going to
  have to use different file names
- slot loader is gone (good riddance!)
- "Cartridge -> Load Game Boy Advance Cartridge ..." has become "Load ->
  Game Boy Advance ..."
- Load Satellaview Slotted Cartridge is gone. If you load an SNES
  cartridge and it sees <bsx><slot>, it asks if you want to load a BS-X
  data pack
- If you load a Sufami Turbo cartridge with <cartridge linkable="true">,
  it asks if you want to link in another Sufami Turbo cartridge
- if you try and load the same exact Sufami Turbo cartridge in both
  slots, it yells at you for being an idiot :P
 2012-04-20 22:48:09 +10:00
Tim Allen
a454e9d927 Update to v087r28 release. 
byuu says:

Be sure to run make install, and move required images to their appropriate system profile folders.
I still have no warnings in place if those images aren't present.

Changelog:
- OBJ mosaic should hopefully be emulated correctly now (thanks to krom
  and Cydrak for testing the hardware behavior)
- emulated dummy serial registers, fixes Sonic Advance (you may still
  need to specify 512KB FlashROM with an appropriate ID, I used
  Panaonic's)
- GBA core exits scheduler (PPU thread) and calls
  interface->videoRefresh() from main thread (not required, just nice)
- SRAM, FRAM, EEPROM and FlashROM initialized to 0xFF if it does not
  exist (probably not needed, but FlashROM likes to reset to 0xFF
  anyway)
- GBA manifest.xml for file-mode will now use "gamename.xml" instead of
  "gamename.gba.xml"
- started renaming "NES" to "Famicom" and "SNES" to "Super Famicom" in
  the GUI (may or may not change source code in the long-term)
- removed target-libsnes/
- added profile/

Profiles are the major new feature. So far we have:

    Famicom.sys/{nothing (yet?)}
    Super Famicom.sys/{ipl.rom}
    Game Boy.sys/{boot.rom}
    Game Boy Color.sys/{boot.rom}
    Game Boy Advance.sys/{bios.rom[not included]}
    Super Game Boy.sfc/{boot.rom,program.rom[not included]}
    BS-X Satellaview.sfc/{program.rom,bsx.ram,bsx.pram}
    Sufami Turbo.sfc/{program.rom}

The SGB, BSX and ST cartridges ask you to load GB, BS or ST cartridges
directly now. No slot loader for them.  So the obvious downsides: you
can't quickly pick between different SGB BIOSes, but why would you want
to? Just use SGB2/JP.  It's still possible, so I'll sacrifice a little
complexity for a rare case to make it a lot easier for the more common
case.  ST cartridges currently won't let you load the secondary slot.
BS-X Town cart is the only useful game to load with nothing in the slot,
but only barely, since games are all seeded on flash and not on PSRAM
images. We can revisit a way to boot the BIOS directly if and when we
get the satellite uplink emulated and data can be downloaded onto the
PSRAM :P BS-X slotted cartridges still require the secondary slot.

My plan for BS-X slotted cartridges is to require a manifest.xml to
specify that it has the BS-X slot present.  Otherwise, we have to load
the ROM into the SNES cartridge class, and parse its header before we
can find out if it has one. Screw that.  If it's in the XML, I can tell
before loading the ROM if I need to present you with an optional slot
loading dialog.  I will probably do something similar for Sufami Turbo.
Not all games even work with a secondary slot, so why ask you to load
a second slot for them? Let the XML request a second slot. A complete
Sufami Turbo ROM set will be trivial anyway.  Not sure how I want to do
the sub dialog yet. We want basic file loading, but we don't want it to
look like the dialog 'didn't do anything' if it pops back open
immediately again. Maybe change the background color of the dialog to
a darker gray? Tacky, but it'd give you the visual cue without the need
for some subtle text changes.
 2012-04-18 23:58:04 +10:00
Tim Allen
d2241f1931 Update to v087r27 release. 
byuu says:

Changelog:
- serialize processor.pc.data, not processor.pc
- call CPU processor.setMode() in ARM serialize
- serialize BIOS.mdr
- support SRAM > 32KB
- EEPROM, FlashROM serialize
- EEPROM lose nall/bitarray.hpp
- noise line feed after envelope
- space out PSR read
- ST018 needs byte reads fixed (don't align) [fixes HNMS2]
- flush sram/eeprom/flashrom to 0 on cartridge load
- APU/PPU dont sync back to CPU if syncing for state
- fixed APU sync problems in GB/GBC core that could possibly wreck save
  states as well

Quite a lot of little problems there. I believe GBA save states are
fixed now.
 2012-04-17 22:16:54 +10:00
Tim Allen
0cd0dcd811 Update to v087r26 release. 
byuu says:

Changelog:
- fixed FIFO[1] reset behavior (fixes audio in Sword of Mana)
- added FlashROM emulation (both sizes)
- GBA parses RAM settings from manifest.xml now
- save RAM is written to disk now
- added save state support (it's currently broken, though)
- fixed ROM/RAM access timings
- open bus should mostly work (we don't do the PC+12 stuff yet)
- emulated the undocumented memory control register (mirror IWRAM,
  disable I+EWRAM, EWRAM wait state count)
- emulated keypad interrupts
- emulated STOP (freezes video, audio, DMA and timers; only breaks on
  keypad IRQs)
- probably a lot more, it was a long night ...

Show stoppers, missing things, broken things, etc:
- ST018 is still completely broken
- GBC audio sequencer apparently needs work
- GBA audio FIFO buffer seems too quiet
- PHI / ROM prefetch needs to be emulated (no idea on how to do this,
  especially PHI)
- SOUNDBIAS 64/128/256khz modes should output at that resolution
  (really, we need to simulate PWM properly, no idea on how to do this)
- object mosaic top-left coordinates are wrong (minor, fixing will
  actually make the effect look worse)
- need to emulate PPU greenswap and color palette distortion (no idea on
  how do this)
- need GBA save type database (I would also LIKE to blacklist
  / patch-out trainers, but that's a discussion for another day.)
- some ARM ops advance the prefetch buffer, so you can read PC+12 in
  some cases
 2012-04-16 22:19:39 +10:00
Tim Allen
1c18812f47 Update to v087r25 release. 
byuu says:

(r24 was a point release during merging of changes.)

This release is almost entirely Cydrak's direct work:
- Added ARM::sequential() and some WAITCNT timings
- Added Bus::io(uint32 pc), intended for prefetch timing
- Added ARM::load() with data rotation (fixed Mother 3 graphics)
- Added ARM::store() for data mirroring
- LDM, STM, and instruction fetch still use read/write()
- ARM::vector() no longer unmasks FIQs
- Set THUMB shifter flags via bit(), consistent with ARM
- Replace shifter loops with conditional tests

My changes:
- fixed sprite clipping on left-edge of screen
- added first system folder, GBA.system
- sudo make install is now make install
- make install will create GBA.system for you in your home folder

Windows users, take data/GBA.system and put it in the same folder as
bsnes.exe, and give it a BIOS named bios.rom
Or place it in your home folder (%APPDATA%/bsnes)
Also note that this is highly experimental, I'll probably be changing
things a lot before release.

EDIT: I botched the cartridge timing change. Will fix in r26. It'll
still run a bit too fast for now, unfortunately.
 2012-04-15 16:49:56 +10:00
Tim Allen
28885db586 Update to v087r23 release. 
byuu says:

Changelog:
- fixed cascading timers and readouts (speed hit from 320fps to 240fps;
  would be 155fps with r20 timers) (fixes Spyro)
- OBJ mode 3 acts like OBJ mode 2 now (may not be correct, but nobody
  has info on it)
- added background + object vertical+horizontal mosaic in all modes
  (linear+affine+bitmap)
- object mosaic uses sprite (0,0) for start coordinates, not screen
  (0,0) (again, nobody seems to have info on it)
- BIOS cannot be read by r(15)>=0x02000000; returns last BIOS read
  instead (I can't believe games rely on this to work ... fixes SMA
  Mario Bros.)

Mosaic is what concerns me the most, I've no idea if I'm doing it
correctly. But anything is probably better than nothing, so there's
that. I don't really notice the effect in Metroid Fusion. So either it's
broken, or it's really subtle.
 2012-04-14 17:26:45 +10:00
Tim Allen
d423ae0a29 Update to v087r22 release. 
byuu says:

Changelog:
- fixed below pixel green channel on color blending
- added semi-transparent objects [Exophase's method]
- added full support for windows (both inputs, OBJ windows, and output, with optional color effect disable)
- EEPROM uses nall::bitarray now to be friendlier to saving memory to disk
- removed incomplete mosaic support for now (too broken, untested)
- improved sprite priority. Hopefully it's right now.

Just about everything should look great now. It took 25 days, but we
finally have the BIOS rendering correctly.

In order to do OBJ windows, I had to drop my above/below buffers
entirely. I went with the nuclear option.  There's separate layers for
all BGs and objects. I build the OBJ window table during object
rendering.  So as a result, after rendering I go back and apply windows
(and the object window that now exists.) After that, I have to do
a painful Z-buffer select of the top two most important pixels.  Since
I now know the layers, the blending enable tests are a lot nicer, at
least.  But this obviously has quite a speed hit: 390fps to 325fps for
Mr. Driller 2 title screen.

TONC says that "bad" window coordinates do really insane things. GBAtek
says it's a simple y2 < y1 || y2 > 160 ? 160 : y2; x2 < x1 || x2 > 240
? 240 : x2; I like the GBAtek version more, so I went with that. I sure
hope it's right ... but my guess is the hardware does this with
a counter that wraps around or something.  Also, say you have two OBJ
mode 2 sprites that overlap each other, but with different priorities.
The lower (more important) priority sprite has a clear pixel, but the
higher priority sprite has a set pixel. Do we set the "inside OBJ
window" flag to true here? Eg does the value OR, or does it hold the
most important sprite's pixel value? Cydrak suspects it's OR-based,
I concur from what I can see.

Mosaic, I am at a loss. I really need a lot more information in order to
implement it.  For backgrounds, does it apply to the Vcounter of the
entire screen? Or does it apply post-scroll? Or does it even apply after
every adjust in affine/bitmap modes?  I'm betting the hcounter
background mosaic starts at the leftmost edge of the screen, and repeats
previous pixels to apply the effect. Like SNES, very simple.  For
sprites, the SNES didn't have this. Does the mosaic grid start at (0,0)
of the screen, or at (0,0) of each sprite? The latter will look a lot
nicer, but be a lot more complex. Is mosaic on affine objects any
different than mosaic of linear(tiled) objects?

With that out of the way, we still have to fix the CPU memory access
timing, add the rest of the CPU penalty cycles, the memory rotation
/ alignment / extend behavior needs to be fixed, the shifter desperately
needs to be moved from loops to single shift operations, and I need to
add flash memory support.
 2012-04-13 21:50:53 +10:00
Tim Allen
303a0a67d0 Update to v087r21 release. 
byuu says:

Timer speedup added. Boosts Mr. Driller 2 title from 170fps to 400fps.
Other games still benefit, but not as amazingly. I don't dip below
160fps ever here.
Reverted the memory speed to 2 for everything for now, to fix
Castlevania slowdown. We obviously need to add the N/S stuff before we
do that.
Added linear BG and linear OBJ mosaic-Y. Did not add mosaic-X, or any
mosaic to the affine/bitmap modes, because I'm not sure when to apply
the compensation.
Rewrote layer stuff. It now has two layers (above and below), and it
performs the four blending modes as needed.
Didn't add semi-transparent sprites because the docs are too confusing.
Added a blur filter directly into the PPU for now. This obviously
violates my interface, but F-Zero needed it for HUD display. We can
remove it when we have an official release with a blur filter available.
The filter still doesn't warp colors like a real GBA, because I don't
know the formula.
 2012-04-10 21:41:35 +10:00
Tim Allen
01b4cb9919 Update to v087r20 release. 
byuu says:

Changelog:
- HALT waits 16 cycles before testing IRQs instead of 1 (probably less
  precise, but provides a massive speedup) [we will need to work on this
  later]
- MMIO regs for CPU/PPU simplified by combining array accesses
- custom VRAM/PRAM/OAM read/write functions that emulate 8->16-bit
  writes
- 16-bit PRAM data (decent speedup)
- emulated memory access speed (but don't handle non-sequential
  penalties or PPU access penalties yet) [amazingly, doesn't help speed
  at all]
- misc. code cleanups

For this WIP, FPS for Mr. Driller 2 went from 88fps to 172fps.
Compatibility should be unchanged. Timers are still an interesting
avenue to increase performance, but will be very tough to handle the
16MHz timers with eg a period of 65535 (overflow every single tick.) And
that's basically the last major speed boost we'll be able to get.
Blending and windowing is going to hurt performance, but it remains to
be seen how much.
 2012-04-09 16:41:27 +10:00
Tim Allen
17b5bae86a Update to v087r19 release. 
byuu says:

Changelog:
- added FIFO buffer emulation (with DMA and all that jazz) [Cydrak]
- fixed timers and vcounter assign [Cydrak]
- emulated EEPROM (you have to change size manually for 14-bit mode, we
  need a database badly now) [SMA runs now]
- removed OAM array, now decoding directly to struct Object {} [128] and
  ObjectParam {} [32] (faster this way)
- check forceblank (still doesn't remove all garble between transitions,
  though??)
- lots of other stuff

Delete your settings.cfg, or manually change frequencyGBA to 32768, or
bad things will happen (this may change back to 256KHz-4MHz later.)

15 of 16 games are fully playable now, and look and sound great.
The major missing detail right now is PPU blending support, and we
really need to optimize the hell out of the code.
 2012-04-09 16:19:32 +10:00
Tim Allen
6189c93f3d Update to v087r18 release. 
byuu says:

Merged Cydrak's r17c changes:
- BG affine mode added
- BG bitmap mode added
- OBJ affine mode added
- fixed IRQ bug in THUMB mode (fixed almost every game)
- timers added (broke almost every game, whee.)

Cydrak is absolutely amazingly awesome and patient. This really wouldn't
be happening without him.

Also fixed some things from my end, including greatly improved sprite
priorities, and a much better priority sorter. Mr. Driller looks a lot
better now.
 2012-04-07 18:17:49 +10:00
Tim Allen
1de484262c Update to v087r17 release. 
byuu says:

Emulated GBC sound plus the new extensions to it.
I am kind of surprised by how little developers utilized the GBC audio
portion.
Mr. Driller now has sound effects, and Pinobee no Daibouken has BGM.
I still have yet to emulate the GBA extra sound channels and PWM. Need
to emulate timers and DMA 2 refresh mode before I can do that.

Also, I moved both GBC and GBA audio to use length = data; if(++length
== 0); rather than length = 64 - data; if(--length == 0); so that
I could return literal values for register reads.
I thought there was a good reason we used the latter version, but
I can't hear any audible difference even in GBC games, so oh well.
Lastly, I think the pattern[++offset] in the wave channel was a bug in
the DMG/GBC only. I really, really hope it doesn't apply to the GBA,
because that will make bank selection a serious pain in the ass.
 2012-04-06 14:29:50 +10:00
Tim Allen
b8d0ec29b2 Update to v087r16 release. 
byuu says:

Fixed the r15 mask per Cydrak.
Added DMA support (immediate + Vblank + Hblank + HDMA) with IRQ support.
Basically only missing FIFO reload mode for the APU on channel 2.
Added background linear renderer (tilemap mode.)
Added really inefficient pixel priority selector, so that all BGs+OBJ
could be visible onscreen at the same time.

As a result of the above:
* Mr. Driller is our first fully playable game
* Bakunetsu Dodge Ball Fighters is also fully playable
* Pinobee no Daibouken is also fully playable

Most games (15 of 16 tested) are now showing *something*, many things
look really really good in fact.

Absolutely essential missing components:
- APU
- CPU timers and their interrupts
- DMA FIFO mode
- OBJ affine mode
- BG affine mode
- BG bitmap mode
- PPU windows (BG and OBJ)
- PPU mosaic
- PPU blending modes
- SRAM / EEPROM (going to rely on a database, not heuristics. Homebrew
  will require a manifest file.)
 2012-04-04 09:50:40 +10:00
Tim Allen
79a47d133a Update to v087r15 release. 
byuu says:

Added linear (eg non-affine) sprite rendering, 4bpp and 8bpp with hflip
and vflip. Nothing else.
You can now see the Nintendo logo and Gameboy text at the end of the BIOS.
It's a start =)
 2012-04-03 10:47:28 +10:00
Tim Allen
c8bb4949b1 Update to v087r14 release. 
byuu says:

Fixed aforementioned issues.

[From a previous post:
- mul was using r(d) instead of r(n) for accumulate.
- mull didn't remove c/v clear.
- APU register mask was broken, so SOUNDBIAS was reading out wrong.
- APU was only mapping 0x088 and not 0x089 as well.
- Halfword reads in CPU+PPU+APU were all reading from the low address
  each time.]

All CPU+PPU registers are now hooked up (not that they do anything.)
SOUNDBIAS for APU was hooked up, got tired of working on it for the rest :P
I recall from the GB APU that you can't just assign values for the APU
MMIO regs. They do odd reload things as well.
Also, was using MMIO read code like this:

    return (
       (flaga << 0)
    || (flagb << 1)
    || (flagc << 2)
    );

Logical or doesn't work so well with building flags :P
Bad habit from how I split multiple conditionals across several lines.

So ... r14 is basically what r13 should have been yesterday, delaying my
schedule by yet another day :(
 2012-04-01 11:41:15 +10:00
Tim Allen
f587cb0dcc Update to v087r13 release. 
byuu says:

Contains all of Cydrak's fixes, sans PPU.
On the PPU front, I've hooked up 100% of read and write registers.
All three DISPSTAT IRQs (Vblank, Hblank, Vcoincidence) are connected now
as well.
Super Mario Advance now runs without *appearing* to crash, although it's
hard to tell since I have no video or sound :P
ARM Wrestler is known to run, as is the BIOS.
 2012-03-31 19:17:36 +11:00
Tim Allen
ea086fe33f Update to v087r12 release. 
byuu says:

Enough to get through the BIOS and into cartridge ROM.
I am a bit annoyed that I was basically told that the GBA PPU wasn't
that bad. Sprites are a clusterfuck, easily worse than Mode7, docs don't
even begin to explain them in enough detail.
This is going to be fun.
 2012-03-31 19:14:31 +11:00
Tim Allen
c66cc73374 Update to v087r11 release. 
byuu says:

Added all of the above fixes and changes. [A lot of individual fixes for
the ARM core from Cydrak - Ed.] Also new is pipeline_decode() to fetch
data, and IME/IE/IF support, and an ARM::processor.irqline flag that
triggers IRQs at 0x18. Only Vblank is hooked up, which is what SWI 4 was
waiting on previously.
I'm sure my interrupt support is horribly broken and wrong. I was never
able to really figure out IE/IF on the Game Boy, so there's no question
this is even worse.
It's now going crazy and writing 0 to IE forever now after the Vblank
IRQ triggers.
 2012-03-29 22:58:10 +11:00
Tim Allen
5a1dcf5079 Update to v087r10 release. 
byuu says:

Changelog:
- fixed THUMB hi immediate reads (immediate * 4)
- cartridge is properly mirrored to 32MB (eg 12mbit repeats as
  lo8+hi4+hi4+lo8+hi4+hi4) [so it's a bit slower than a standard memcpy
  fill]
- added ARM - load/store halfword register offset
- added ARM - load/store halfword immediate offset
- added ARM - load signed halfword/byte register offset
- added ARM - load signed halfword/byte immediate offset
- added decode() function to make opcode bit testing a lot clearer
  (didn't apply it to the debugger yet)

All ARMv4M and all THUMBv4 instructions should now be implemented.
Although I'm not sure if my implementations of the new instructions are
correct.
 2012-03-27 22:02:57 +11:00
Tim Allen
e16dd58184 Update to v087r09 release. 
byuu says:

Split apart necdsp: core is now in processor/upd96050 (wish I had
a better name for it, but there's no family name that is maskable.)
I would like to support the uPD7720 in the core as well, just for
completeness' sake, but I'll have to modify the decoder to drop one bit
from each mode.
So ... I'll do that later. Worst part is even if I do, I won't be able
to test it :(

Added all of Cydrak's changes. I also simplified LDMIA/STMIA and
PUSH/POP by merging the outer loops.
Probably infinitesimally slower, but less code is nicer. Maybe GCC
optimization will expand it, who knows.
 2012-03-26 21:13:02 +11:00
Tim Allen
395e5a5639 Update to v087r08 release. 
byuu says:

Added some more ARM opcodes, hooked up MMIO. Bind it with mmio[(addr
000-3ff)] = this; inside CPU/PPU/APU, goes to read(), write().
Also moved the Hitachi HG51B core to processor/, and split it apart from
the snes/chip/hitachidsp implementation.
This one actually worked really well. Very clean split between MMIO/DMA
and the processor core. I may move a more generic DMA function inside
the core, not sure yet.

I still believe the HG51B169 to be a variant of the HG51BS family, but
given they're meant to be incredibly flexible microcontrollers, it's
possible that each variant gets its own instruction set.
So, who knows. We'll worry about it if we ever find another HG51B DSP,
I guess.

GBA BIOS is constantly reading from 04000300, but it never writes. If
I return prng()&1, I can get it to proceed until it hits a bad opcode
(stc opcode, which the GBA lacks a coprocessor so ... bad codepath.)
Without it, it just reads that register forever and keeps resetting the
system, or something ...

I guess we're going to have to try and get ARMwrestler working, because
the BIOS seems to need too much emulation code to do anything at all.
 2012-03-24 18:52:36 +11:00
Tim Allen
ec939065bd Update to v087r07 release. 
There was a "v087r07pre" release that I unfortunately missed.

byuu says (about v087r07pre):

Creates the bsnes/processor folder. This has a shared ARM core there
which both the GBA and ST018 inherit.
There are going to be separate decoders, and revision-specific checks,
to support the differences between v3+.
In the future, I also want to move the other processor cores here:
- GBZ80 (GB, GBC)
- 65816 (SNES CPU, SA-1)
- NEC uPD (7725, 96050, maybe 7720 just for fun)
- Hitachi HG51B169
- SuperFX
- SPC700
- 65(C?)02

Basically, the GBA/ST018 forces my hand to start coding a bit more like
a multi-system emulator.

Right now, the ST018 is broken. Hence the pre. Apparently the GBA core
being used now has some bugs. So this'll be a nice way to stress-test
the GBA core a bit before we make it to ARMwrestler.

byuu says (about v087r07):

Both snes/chip/armdsp and gba/cpu use processor/arm now.
Fixed THUMB to execute the BL prefix and suffix separately. I can now
get the GBA BIOS stuck in some kind of infinite loop. Hooray ...
I guess?
 2012-03-23 21:43:39 +11:00
Tim Allen
77578cd0a4 Update to v087r06 release. 
byuu says:

I believe I've implemented every THUMB instruction now, although I'm
sure there are dozens of bugs in the implementation.

It seems that the last jump taken is ending up being off-by-two. It's
probably due to not masking/adjusting PC correctly at certain points.

I don't know if any other bugs are being hit prior to this or not.
I don't implement any I/O registers yet, and the BIOS seems to be poking
at a few of them along the way, so ... who knows.
I could also be reading the log wrong, but it looks to me like there's
some PSR setting the mode flag register to 0, which is supposed to be an
undefined behavior mode ... perhaps mrs has no effect on the m/t bits,
and it just affects the i/f bits?
 2012-03-22 22:47:25 +11:00
Tim Allen
04087a74b0 Update to v087r05 release. 
byuu says:

Implemented all of the ARMv3 instructions, and the bx rm instruction as
well. Already hit THUMB mode right at the start of the BIOS, sigh.
Implemented the first THUMB instruction to get that rolling. Also tried
to support the S flag to LDM/STM, but not sure how successful I was.
 2012-03-21 22:08:16 +11:00
Tim Allen
6701403745 Update to v087r04 release. 
byuu says:

GBA stuff re-added. Only thing missing that was there before is the ARM
branch opcode.
Since we're going to be staring at it for a very long time, I added
a more interesting test video pattern.

Went from 6fps to 912fps. Amazing what being able to divide can do for
a frame rate.
 2012-03-19 22:19:53 +11:00
Tim Allen
95c62f92ac Update to v087r03 release. 
byuu says:

Fixing the PPU stepping increased FPS to 250. Promising, at least, since
the ARM core is still severely overclocked.
However, I reverted back to r02. This one patches gameboy/ and GameBoy::
to gb/ and GB:: and that's it.
Sorry, I just couldn't shake this bad feeling about the code. There were
some poorly hacked-together constructs. I'd rather just redo two days of
work than feel bad about the codebase for the next several years. Going
to attempt the GBA bridge again. Third time's a charm, I suppose (there
was a pre-r03 WIP I abandoned as well.)
This isn't unprecedented, GB core took a few attempts like this as well.
 2012-03-19 21:27:40 +11:00
Tim Allen
0f54be93b7 Update to v087r04 release. 
byuu says:

Changelog:
- gameboy/ -> gb/
- GameBoy -> GB
- basic memory map for GBA
- enough code to execute the first BIOS instruction (b 0x68)

I have the code resetting r(15) to 0 on an exception just as a test.
Since that flushes the pipeline, that means we're basically executing "b
0x68" at 8MHz, and nothing else.
... and I am getting __6 motherfucking FPS__ at 4.4GHz on an i7.

Something is seriously, horribly, unfuckingbelievably wrong here, and
I can't figure out what it is.
My *fully complete* ARM core on the ST018 is even less efficient and
runs at 21.47MHz, and yet I get 60fps even after emulating the SNES
CPU+PPU @ 10+MHz each as well.

... I'm stuck. I can't proceed until we figure out what in the holy fuck
is going on here. So ... if anyone can help, please do. If we can't fix
this, the GBA emulation is dead.
I was able to profile on Windows, and I've included that in this WIP
under out/log.txt.
But it looks normal to me. But yeah, there's NO. FUCKING. WAY. This code
should be running this slowly.
 2012-03-18 23:35:53 +11:00
Tim Allen
8db134843f Update to v087r03 release. 
byuu says:

I wanted to keep this a secret, but unlike other recent additions, this
will easily take several weeks, maybe months, to show anything.
Assuming I can even pull it off. Nothing technically overwhelming here,
I'm more worried about the near-impossibility of debugging the CPU.
 2012-03-18 12:04:22 +11:00
Tim Allen
06e83c6154 Update to v087r02 release. 
byuu says:

Changelog:
- extended USART with quit(), readable(), writable() [both emulation and
  hardware]
    - quit() returns true on hardware when Ctrl+C (SIGINT) is generated
      (breaks main loop); no effect under emulation yet (hard to
      simulate)
    - readable() returns true when data is ready to be read
      (non-blocking support for read())
    - writable() returns true when data can be written (non-blocking
      support for write()) [always true under emulation, since we have
      no buffer size limit]
 2012-03-10 23:47:19 +11:00
Tim Allen
cbfbec4dc3 Update to v087r01 release. 
byuu says:

Changelog:
- fixes ARM core unaligned memory reads (fixes HNMS2 AI, hopefully completely,
  we'll see though) [Cydrak]
- ARM 40000010 writes are now connected to d2 rather than the timer
- ARM bus_readbyte() removed (would love to do the same for writebyte if
  we can ... then we can drop back to bus_read + bus_write only)
- USART with IObit set acts as a regular gamepad now (don't have this
  hooked up with real hardware, but oh well, it's technically possible
  so there's that)
- OpenGL/GLX will use 30-bit when you have a 30-bit display; no need for
  config file video.depth anymore
 2012-03-10 23:37:36 +11:00
1839 changed files with 161131 additions and 194697 deletions
Expand all files Collapse all files

1
.gitignore vendored Normal file
View File

@@ -0,0 +1 @@
ananke/libananke.so

75
bsnes/Makefile → Makefile Executable file → Normal file
View File

@@ -1,18 +1,20 @@
include nall/Makefile
nes := nes
snes := snes
gameboy := gameboy
profile := accuracy
target := ui
fc := fc
sfc := sfc
gb := gb
gba := gba
# options += console
profile := accuracy
target := ethos
# options += debugger
# arch := x86
# console := true
# compiler
c := $(compiler) -std=gnu99
cpp := $(subst cc,++,$(compiler)) -std=gnu++0x
flags := -I. -O3 -fomit-frame-pointer
link :=
flags += -I. -O3 -fomit-frame-pointer
link +=
objects := libco
# profile-guided optimization mode
@@ -27,15 +29,28 @@ else ifeq ($(pgo),optimize)
endif
# platform
ifeq ($(platform),x)
link += -s -ldl -lX11 -lXext
else ifeq ($(platform),osx)
else ifeq ($(platform),win)
link += $(if $(findstring console,$(options)),-mconsole,-mwindows)
link += -mthreads -s -luuid -lkernel32 -luser32 -lgdi32 -lcomctl32 -lcomdlg32 -lshell32 -lole32
ifeq ($(platform),windows)
ifeq ($(arch),x86)
flags += -m32
link += -m32
endif
ifeq ($(console),true)
link += -mconsole
else
link += -mwindows
endif
link += -s -mthreads -luuid -lkernel32 -luser32 -lgdi32 -lcomctl32 -lcomdlg32 -lshell32 -lole32 -lws2_32
link += -Wl,-enable-auto-import -Wl,-enable-runtime-pseudo-reloc
else ifeq ($(platform),macosx)
flags += -march=native
else ifeq ($(platform),linux)
flags += -march=native
link += -s -Wl,-export-dynamic -lX11 -lXext -ldl
else ifeq ($(platform),bsd)
flags += -march=native
link += -s -Wl,-export-dynamic -lX11 -lXext
else
unknown_platform: help;
$(error unsupported platform.)
endif
ui := target-$(target)
@@ -44,9 +59,9 @@ ui := target-$(target)
compile = \
$(strip \
$(if $(filter %.c,$<), \
$(c) $(flags) $1 -c $< -o $@, \
$(compiler) $(cflags) $(flags) $1 -c $< -o $@, \
$(if $(filter %.cpp,$<), \
$(cpp) $(flags) $1 -c $< -o $@ \
$(compiler) $(cppflags) $(flags) $1 -c $< -o $@ \
) \
) \
)
@@ -68,13 +83,14 @@ clean:
-@$(call delete,obj/*.dylib)
-@$(call delete,obj/*.dll)
-@$(call delete,*.res)
-@$(call delete,*.pgd)
-@$(call delete,*.pgc)
-@$(call delete,*.ilk)
-@$(call delete,*.pdb)
-@$(call delete,*.manifest)
archive:
if [ -f higan.tar.xz ]; then rm higan.tar.xz; fi
tar -cJf higan.tar.xz `ls`
sync:
ifeq ($(shell id -un),byuu)
if [ -d ./libco ]; then rm -r ./libco; fi
if [ -d ./nall ]; then rm -r ./nall; fi
if [ -d ./ruby ]; then rm -r ./ruby; fi
@@ -84,13 +100,10 @@ sync:
cp -r ../ruby ./ruby
cp -r ../phoenix ./phoenix
rm -r libco/doc
rm -r libco/test
rm -r nall/test
rm -r ruby/_test
rm -r phoenix/nall
rm -r phoenix/test
archive-all:
tar -cjf bsnes.tar.bz2 base data gameboy libco nall nes obj out phoenix ruby snes target-debugger target-libsnes target-ui Makefile cc.bat purge.bat
rm -r libco/.test
rm -r nall/.test
rm -r ruby/.test
rm -r phoenix/.test
endif
help:;

49
ananke/Makefile Normal file
View File

@@ -0,0 +1,49 @@
include ../nall/Makefile
include ../phoenix/Makefile
path := /usr/local/lib
flags := $(flags) -O3 -fomit-frame-pointer -I..
all:
$(compiler) $(cppflags) $(flags) -fPIC -o obj/ananke.o -c ananke.cpp
ifeq ($(platform),windows)
$(compiler) $(phoenixflags) -fPIC -o obj/phoenix.o -c ../phoenix/phoenix.cpp
$(compiler) $(link) -shared -o phoenix.dll obj/phoenix.o $(phoenixlink)
$(compiler) $(link) -shared -o ananke.dll obj/ananke.o -L. -lphoenix
else ifeq ($(platform),macosx)
$(compiler) $(link) -shared -dynamiclib -undefined suppress -flat_namespace -o libananke.dylib obj/ananke.o
else
$(compiler) $(link) -shared -Wl,-soname,libananke.so.1 -o libananke.so obj/ananke.o
endif
resource: force
sourcery resource/resource.bml resource/resource.cpp resource/resource.hpp
clean:
-@$(call delete,obj/*.o)
-@$(call delete,*.dll)
-@$(call delete,*.so)
install: uninstall
ifeq ($(platform),windows)
else ifeq ($(platform),macosx)
if [ ! -d ~/Library/Application\ Support/ananke ]; then mkdir ~/Library/Application\ Support/ananke; fi
sudo cp libananke.dylib $(path)/libananke.1.dylib
sudo ln -s $(path)/libananke.1.dylib $(path)/libananke.dylib
else
if [ ! -d ~/.config/ananke ]; then mkdir ~/.config/ananke; fi
sudo cp libananke.so $(path)/libananke.so.1
sudo ln -s $(path)/libananke.so.1 $(path)/libananke.so
endif
uninstall:
ifeq ($(platform),windows)
else ifeq ($(platform),macosx)
if [ -f $(path)/libananke.dylib ]; then sudo rm $(path)/libananke.dylib; fi
if [ -f $(path)/libananke.1.dylib ]; then sudo rm $(path)/libananke.1.dylib; fi
else
if [ -f $(path)/libananke.so ]; then sudo rm $(path)/libananke.so; fi
if [ -f $(path)/libananke.so.1 ]; then sudo rm $(path)/libananke.so.1; fi
endif
force:

179
ananke/ananke.cpp Normal file
View File

@@ -0,0 +1,179 @@
#include <nall/nall.hpp>
#include <nall/beat/patch.hpp>
#include "heuristics/famicom.hpp"
#include "heuristics/super-famicom.hpp"
#include "heuristics/game-boy.hpp"
#include "heuristics/game-boy-advance.hpp"
using namespace nall;
#include <phoenix/phoenix.hpp>
using namespace phoenix;
namespace Database {
#include "database/super-famicom.hpp"
#include "database/sufami-turbo.hpp"
#include "database/bsx-satellaview.hpp"
};
struct Ananke {
#include "configuration.cpp"
string libraryPath;
Ananke();
struct Information {
string path; //path to selected file
string name; //name of selected file (inside of archive if .zip)
string archive; //pathname of archive
string manifest; //manifest from successfully applied patch
} information;
//archive.cpp
vector<uint8_t> extractROM();
vector<uint8_t> extractFile(const string &filename);
//patch.cpp
void applyBeatPatch(vector<uint8_t> &buffer);
//famicom.cpp
void copyFamicomSaves(const string &pathname);
string createFamicomHeuristic(vector<uint8_t> &buffer);
string openFamicom(vector<uint8_t> &buffer);
string syncFamicom(const string &pathname);
//super-famicom.cpp
void copySuperFamicomSaves(const string &pathname);
string createSuperFamicomDatabase(vector<uint8_t> &buffer, Markup::Node &document, const string &manifest);
string createSuperFamicomHeuristic(vector<uint8_t> &buffer);
void createSuperFamicomHeuristicFirmware(vector<uint8_t> &buffer, const string &pathname, bool firmware_appended);
string openSuperFamicom(vector<uint8_t> &buffer);
string syncSuperFamicom(const string &pathname);
//sufami-turbo.cpp
void copySufamiTurboSaves(const string &pathname);
string createSufamiTurboDatabase(vector<uint8_t> &buffer, Markup::Node &document, const string &manifest);
string createSufamiTurboHeuristic(vector<uint8_t> &buffer);
string openSufamiTurbo(vector<uint8_t> &buffer);
string syncSufamiTurbo(const string &pathname);
//bsx-satellaview.cpp
string createBsxSatellaviewDatabase(vector<uint8_t> &buffer, Markup::Node &document, const string &manifest);
string createBsxSatellaviewHeuristic(vector<uint8_t> &buffer);
string openBsxSatellaview(vector<uint8_t> &buffer);
string syncBsxSatellaview(const string &pathname);
//game-boy.cpp
void copyGameBoySaves(const string &pathname);
string createGameBoyHeuristic(vector<uint8_t> &buffer);
string openGameBoy(vector<uint8_t> &buffer);
string syncGameBoy(const string &pathname);
//game-boy-advance.cpp
void copyGameBoyAdvanceSaves(const string &pathname);
string createGameBoyAdvanceHeuristic(vector<uint8_t> &buffer);
string openGameBoyAdvance(vector<uint8_t> &buffer);
string syncGameBoyAdvance(const string &pathname);
static bool supported(const string &filename);
string open(string filename = "");
string sync(string pathname);
};
#include "resource/resource.cpp"
#include "file-dialog.cpp"
#include "archive.cpp"
#include "patch.cpp"
#include "famicom.cpp"
#include "super-famicom.cpp"
#include "sufami-turbo.cpp"
#include "bsx-satellaview.cpp"
#include "game-boy.cpp"
#include "game-boy-advance.cpp"
FileDialog *fileDialog = nullptr;
Ananke::Ananke() {
libraryPath = string::read({configpath(), "higan/library.bml"}).strip().ltrim<1>("Path: ").replace("\\", "/");
if(libraryPath.empty()) libraryPath = {userpath(), "Emulation/"};
if(libraryPath.endsWith("/") == false) libraryPath.append("/");
}
bool Ananke::supported(const string &filename) {
string extension = nall::extension(filename);
if(extension == "fc" ) return true;
if(extension == "nes") return true;
if(extension == "sfc") return true;
if(extension == "smc") return true;
if(extension == "st" ) return true;
if(extension == "bs" ) return true;
if(extension == "gb" ) return true;
if(extension == "gbc") return true;
if(extension == "gba") return true;
if(extension == "zip") return true;
return false;
}
string Ananke::open(string filename) {
if(filename.empty()) {
if(!fileDialog) {
fileDialog = new FileDialog;
fileDialog->setGeometry(config.geometry);
}
fileDialog->setPath(config.path);
filename = fileDialog->open();
config.geometry = fileDialog->geometry().text();
}
if(filename.empty()) return "";
information.path = dir(filename);
information.name = notdir(filename);
config.path = information.path; //remember last used directory
vector<uint8_t> buffer;
if(filename.endsWith(".zip")) {
information.archive = filename;
buffer = extractROM();
} else {
buffer = file::read(filename);
}
if(buffer.size() == 0) return ""; //failed to read file
applyBeatPatch(buffer);
if(information.name.endsWith(".fc") || information.name.endsWith(".nes")) return openFamicom(buffer);
if(information.name.endsWith(".sfc") || information.name.endsWith(".smc")) return openSuperFamicom(buffer);
if(information.name.endsWith(".st")) return openSufamiTurbo(buffer);
if(information.name.endsWith(".bs")) return openBsxSatellaview(buffer);
if(information.name.endsWith(".gb") || information.name.endsWith(".gbc")) return openGameBoy(buffer);
if(information.name.endsWith(".gba")) return openGameBoyAdvance(buffer);
return "";
}
string Ananke::sync(string pathname) {
if(pathname.endsWith(".fc/")) return syncFamicom(pathname);
if(pathname.endsWith(".sfc/")) return syncSuperFamicom(pathname);
if(pathname.endsWith(".st/")) return syncSufamiTurbo(pathname);
if(pathname.endsWith(".bs/")) return syncBsxSatellaview(pathname);
if(pathname.endsWith(".gb/")) return syncGameBoy(pathname);
if(pathname.endsWith(".gbc/")) return syncGameBoy(pathname);
if(pathname.endsWith(".gba/")) return syncGameBoyAdvance(pathname);
return "";
}
extern "C" string ananke_browse(const string &filename) {
Ananke ananke;
return ananke.open();
}
extern "C" string ananke_open(const string &filename) {
Ananke ananke;
return ananke.open(filename);
}
extern "C" string ananke_sync(const string &pathname) {
Ananke ananke;
return ananke.sync(pathname);
}

29
ananke/archive.cpp Normal file
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vector<uint8_t> Ananke::extractROM() {
unzip archive;
if(archive.open(information.archive)) {
for(auto& file : archive.file) {
if(file.name.endsWith(".fc") || file.name.endsWith(".nes")
|| file.name.endsWith(".sfc") || file.name.endsWith(".smc")
|| file.name.endsWith(".st") || file.name.endsWith(".bs")
|| file.name.endsWith(".gb") || file.name.endsWith(".gbc")
|| file.name.endsWith(".gba")
) {
information.name = notdir(file.name);
return archive.extract(file);
}
}
}
return vector<uint8_t>();
}
vector<uint8_t> Ananke::extractFile(const string& filename) {
unzip archive;
if(archive.open(information.archive)) {
for(auto& file : archive.file) {
if(notdir(file.name) == filename) {
return archive.extract(file);
}
}
}
return vector<uint8_t>();
}

72
ananke/bsx-satellaview.cpp Normal file
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string Ananke::createBsxSatellaviewDatabase(vector<uint8_t> &buffer, Markup::Node &document, const string &manifest) {
string pathname = {
libraryPath, "BS-X Satellaview/",
document["release/information/name"].text(),
" (", document["release/information/region"].text(), ")",
" (", document["release/information/revision"].text(), ")",
".bs/"
};
directory::create(pathname);
//strip "release" root node from database entry (since a single game manifest isn't part of a database)
string markup = manifest;
markup.replace("\n ", "\n");
markup.replace("information", "\ninformation");
markup.ltrim<1>("release\n");
file::write({pathname, "manifest.bml"}, markup);
file::write({pathname, "program.rom"}, buffer);
return pathname;
}
string Ananke::createBsxSatellaviewHeuristic(vector<uint8_t> &buffer) {
string pathname = {
libraryPath, "BS-X Satellaview/",
nall::basename(information.name),
".bs/"
};
directory::create(pathname);
file::write({pathname, "manifest.bml"}, {
"unverified\n",
"\n",
"cartridge\n",
" rom name=program.rom size=0x", hex(buffer.size()), " type=FlashROM\n",
"\n",
"information\n",
" title: ", nall::basename(information.name), "\n"
});
file::write({pathname, "program.rom"}, buffer);
return pathname;
}
string Ananke::openBsxSatellaview(vector<uint8_t> &buffer) {
string sha256 = nall::sha256(buffer.data(), buffer.size());
string databaseText = string::read({configpath(), "ananke/database/BS-X Satellaview.bml"}).strip();
if(databaseText.empty()) databaseText = string{Database::BsxSatellaview}.strip();
lstring databaseItem = databaseText.split("\n\n");
for(auto &item : databaseItem) {
item.append("\n");
auto document = Markup::Document(item);
if(document["release/information/sha256"].text() == sha256) {
return createBsxSatellaviewDatabase(buffer, document, item);
}
}
return createBsxSatellaviewHeuristic(buffer);
}
string Ananke::syncBsxSatellaview(const string &pathname) {
auto buffer = file::read({pathname, "program.rom"});
if(buffer.size() == 0) return "";
directory::remove(pathname);
information.path = pathname;
information.name = notdir(string{pathname}.rtrim<1>("/"));
return openBsxSatellaview(buffer);
}

17
ananke/configuration.cpp Normal file
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struct Settings : Configuration::Document {
string path;
string geometry;
Settings() {
Configuration::Node node;
node.append(path = userpath(), "Path");
node.append(geometry = "64,64,480,600", "Geometry");
append(node, "Settings");
directory::create({configpath(), "ananke/"});
load({configpath(), "ananke/settings.bml"});
}
~Settings() {
save({configpath(), "ananke/settings.bml"});
}
} config;

19
ananke/database/bsx-satellaview.hpp Normal file
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string BsxSatellaview = R"(
database revision=2013-01-22
release
cartridge
rom name=program.rom size=0x80000 type=MaskROM
information
title:
name: Same Game - Character Cassette
region: JP
revision: 1.0
board: BSMC-CR-01
serial: BSMC-ZS5J-JPN
sha256: 80c34b50817d58820bc8c88d2d9fa462550b4a76372e19c6467cbfbc8cf5d9ef
configuration
rom name=program.rom size=0x80000 type=MaskROM
)";

162
ananke/database/sufami-turbo.hpp Normal file
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string SufamiTurbo = R"(
database revision=2013-01-22
release
cartridge linkable
rom name=program.rom size=0x80000
ram name=save.ram size=0x800
information
title: SDウルトラバトル
name: SD Ultra Battle - Ultraman Densetsu
region: JP
revision: 1.0
serial: SFT-0101-JPN
sha256: 2bb55214fb668ca603d7b944b14f105dfb10b987a8902d420fe4ae1cb69c1d4a
configuration
rom name=program.rom size=0x80000
ram name=save.ram size=0x800
linkable
release
cartridge linkable
rom name=program.rom size=0x80000
ram name=save.ram size=0x800
information
title: SDウルトラバトル
name: SD Ultra Battle - Seven Densetsu
region: JP
revision: 1.0
serial: SFT-0102-JPN
sha256: 2fec5f2bc7dee010af10569a3d2bc18715a79a126940800c3eade5abbd625e3f
configuration
rom name=program.rom size=0x80000
ram name=save.ram size=0x800
linkable
release
cartridge linkable
rom name=program.rom size=0x80000
ram name=save.ram size=0x800
information
title:
name: Poi Poi Ninja World
region: JP
revision: 1.0
serial: SFT-0103-JPN
sha256: 602b20b788640f5743487108a10f3f77bca5ce2d24208b25b1ca498a96eb0d69
configuration
rom name=program.rom size=0x80000
ram name=save.ram size=0x800
linkable
release
cartridge linkable
rom name=program.rom size=0x80000
ram name=save.ram size=0x2000
information
title: SDガンダムジェネレーション
name: SD Gundam Generation - Ichinen Sensouki
region: JP
revision: 1.0
serial: SFT-0104-JPN
sha256: 3e82215bed08274874b30d461fc4a965c6bca932229da5d46d56e36f484d65eb
configuration
rom name=program.rom size=0x80000
ram name=save.ram size=0x2000
linkable
release
cartridge linkable
rom name=program.rom size=0x80000
ram name=save.ram size=0x2000
information
title: SDガンダムジェネレーション
name: SD Gundam Generation - Grips Senki
region: JP
revision: 1.0
serial: SFT-0105-JPN
sha256: 8547a08ed11fe408eac282a90ac46654bd2e5f49bda3aec8e5edf166a0a4b9af
configuration
rom name=program.rom size=0x80000
ram name=save.ram size=0x2000
linkable
release
cartridge
rom name=program.rom size=0x80000
information
title:
name: Gegege no Kitarou - Youkai Donjara
region: JP
revision: 1.0
serial: SFT-0106-JPN
sha256: d93b3a570e7cf343f680ab0768a50b77e3577f9c555007e2de3decd6bc4765c8
configuration
rom name=program.rom size=0x80000
release
cartridge linkable
rom name=program.rom size=0x80000
ram name=save.ram size=0x2000
information
title: SDガンダムジェネレーション
name: SD Gundam Generation - Axis Senki
region: JP
revision: 1.0
serial: SFT-0107-JPN
sha256: 2a9d7c9a61318861028a73ca03e32a48cff162d76cba36fbaab8690b212efe9b
configuration
rom name=program.rom size=0x80000
ram name=save.ram size=0x2000
linkable
release
cartridge linkable
rom name=program.rom size=0x80000
ram name=save.ram size=0x2000
information
title: SDガンダムジェネレーション
name: SD Gundam Generation - Babylonia Kenkoku Senki
region: JP
revision: 1.0
serial: SFT-0108-JPN
sha256: 60ac017c18f534e8cf24ca7f38e22ce92db95ea6c30b2d59d76f13c4f1c8a6e4
configuration
rom name=program.rom size=0x80000
ram name=save.ram size=0x2000
linkable
release
cartridge linkable
rom name=program.rom size=0x80000
ram name=save.ram size=0x2000
information
title: SDガンダムジェネレーション
name: SD Gundam Generation - Zanscar Senki
region: JP
revision: 1.0
serial: SFT-0110-JPN
sha256: 5951a58a91d8e397d0a237ccc2b1248e17c7312cb9cc11cbc350200a97b4e021
configuration
rom name=program.rom size=0x80000
ram name=save.ram size=0x2000
linkable
release
cartridge linkable
rom name=program.rom size=0x80000
ram name=save.ram size=0x800
information
title: SDガンダムジェネレーション
name: SD Gundam Generation - Colony Kakutouki
region: JP
revision: 1.0
serial: SFT-0111-JPN
sha256: e639b5d5d722432b6809ccc6801dc584e1a3016379f34b335ed2dfa73b1ebf69
configuration
rom name=program.rom size=0x80000
ram name=save.ram size=0x800
linkable
)";

13381
ananke/database/super-famicom.hpp Normal file
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File diff suppressed because it is too large Load Diff

39
ananke/famicom.cpp Normal file
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void Ananke::copyFamicomSaves(const string &pathname) {
if(!file::exists({pathname, "save.ram"})) {
if(file::exists({information.path, nall::basename(information.name), ".sav"})) {
file::copy({information.path, nall::basename(information.name), ".srm"}, {pathname, "save.ram"});
}
}
}
string Ananke::createFamicomHeuristic(vector<uint8_t> &buffer) {
string pathname = {
libraryPath, "Famicom/",
nall::basename(information.name),
".fc/"
};
directory::create(pathname);
FamicomCartridge info(buffer.data(), buffer.size());
string markup = {"unverified\n\n", info.markup};
markup.append("\ninformation\n title: ", nall::basename(information.name), "\n");
if(!information.manifest.empty()) markup = information.manifest; //override with embedded beat manifest, if one exists
file::write({pathname, "manifest.bml"}, markup);
file::write({pathname, "program.rom"}, buffer.data() + 16, info.prgrom);
if(info.chrrom > 0) file::write({pathname, "character.rom"}, buffer.data() + 16 + info.prgrom, info.chrrom);
copyFamicomSaves(pathname);
return pathname;
}
string Ananke::openFamicom(vector<uint8_t> &buffer) {
return createFamicomHeuristic(buffer);
}
//this currently cannot work:
//game folders discard iNES header required for heuristic detection
//a games database of all commercial Famicom software will be required
string Ananke::syncFamicom(const string &pathname) {
return "";
}

106
ananke/file-dialog.cpp Normal file
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struct FileDialog : Window {
VerticalLayout layout;
HorizontalLayout pathLayout;
LineEdit pathEdit;
Button homeButton;
Button upButton;
ListView fileList;
HorizontalLayout controlLayout;
Label filterLabel;
Button openButton;
string open() {
setVisible();
fileList.setFocused();
filename = "";
setModal();
return filename;
}
void setPath(const string &path) {
pathname = string{path}.transform("\\", "/");
if(pathname.empty()) pathname = userpath();
if(pathname.endsWith("/") == false) pathname.append("/");
pathEdit.setText(pathname);
fileList.reset();
filenameList.reset();
lstring folders = directory::ifolders(pathname);
for(auto &folder : folders) {
fileList.append(string{folder}.rtrim<1>("/"));
fileList.setImage(filenameList.size(), 0, {resource::folder, sizeof resource::folder});
filenameList.append({pathname, folder});
}
lstring files = directory::ifiles(pathname);
for(auto &file : files) {
if(Ananke::supported(file) == false) continue; //ignore unsupported extensions
fileList.append(file);
if(extension(file) == "zip") {
fileList.setImage(filenameList.size(), 0, {resource::archive, sizeof resource::archive});
} else {
fileList.setImage(filenameList.size(), 0, {resource::file, sizeof resource::file});
}
filenameList.append({pathname, file});
}
fileList.setSelection(0);
fileList.setSelected();
fileList.setFocused();
}
FileDialog() {
setTitle("Load Image");
layout.setMargin(5);
homeButton.setImage({resource::home, sizeof resource::home});
upButton.setImage({resource::up, sizeof resource::up});
filterLabel.setText("Filter: *.fc, *.sfc, *.st, *.bs, *.gb, *.gbc, *.gba, *.nes, *.smc, *.zip");
openButton.setText("Open");
append(layout);
layout.append(pathLayout, {~0, 0}, 5);
pathLayout.append(pathEdit, {~0, 0}, 5);
pathLayout.append(homeButton, {28, 28}, 5);
pathLayout.append(upButton, {28, 28});
layout.append(fileList, {~0, ~0}, 5);
layout.append(controlLayout, {~0, 0});
controlLayout.append(filterLabel, {~0, 0}, 5);
controlLayout.append(openButton, {80, 0});
pathEdit.onActivate = [&] {
string path = pathEdit.text();
setPath(path);
};
homeButton.onActivate = [&] {
setPath(userpath());
};
upButton.onActivate = [&] {
setPath(parentdir(pathname));
};
fileList.onActivate = openButton.onActivate = [&] {
if(fileList.selected() == false) return;
string name = filenameList(fileList.selection());
if(name.empty()) return;
if(name.endsWith("/")) return setPath(name);
filename = name;
onClose();
};
onClose = [&] {
setModal(false);
setVisible(false);
};
}
private:
string pathname;
string filename;
lstring filenameList;
};

58
ananke/game-boy-advance.cpp Normal file
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void Ananke::copyGameBoyAdvanceSaves(const string &pathname) {
if(!file::exists({pathname, "save.ram"})) {
if(file::exists({information.path, nall::basename(information.name), ".sav"})) {
file::copy({information.path, nall::basename(information.name), ".sav"}, {pathname, "save.ram"});
}
}
if(!file::exists({pathname, "rtc.ram"})) {
if(file::exists({information.path, nall::basename(information.name), ".rtc"})) {
file::copy({information.path, nall::basename(information.name), ".rtc"}, {pathname, "rtc.ram"});
}
}
}
string Ananke::createGameBoyAdvanceHeuristic(vector<uint8_t> &buffer) {
string pathname = {
libraryPath, "Game Boy Advance/",
nall::basename(information.name),
".gba/"
};
directory::create(pathname);
GameBoyAdvanceCartridge info(buffer.data(), buffer.size());
string markup = {"unverified\n\n", info.markup};
markup.append("\ninformation\n title: ", nall::basename(information.name), "\n");
if(!information.manifest.empty()) markup = information.manifest; //override with embedded beat manifest, if one exists
file::write({pathname, "manifest.bml"}, markup);
file::write({pathname, "program.rom"}, buffer);
copyGameBoyAdvanceSaves(pathname);
return pathname;
}
string Ananke::openGameBoyAdvance(vector<uint8_t> &buffer) {
return createGameBoyAdvanceHeuristic(buffer);
}
string Ananke::syncGameBoyAdvance(const string &pathname) {
auto buffer = file::read({pathname, "program.rom"});
if(buffer.size() == 0) return "";
auto save = file::read({pathname, "save.ram"});
if(save.size() == 0) save = file::read({pathname, "save.rwm"});
auto rtc = file::read({pathname, "rtc.ram"});
if(rtc.size() == 0) rtc = file::read({pathname, "rtc.rwm"});
directory::remove(pathname);
information.path = pathname;
information.name = notdir(string{pathname}.rtrim<1>("/"));
string outputPath = openGameBoyAdvance(buffer);
if(save.size()) file::write({outputPath, "save.ram"}, save);
if(rtc.size()) file::write({outputPath, "rtc.ram"}, rtc);
return outputPath;
}

59
ananke/game-boy.cpp Normal file
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void Ananke::copyGameBoySaves(const string &pathname) {
if(!file::exists({pathname, "save.ram"})) {
if(file::exists({information.path, nall::basename(information.name), ".sav"})) {
file::copy({information.path, nall::basename(information.name), ".sav"}, {pathname, "save.ram"});
}
}
if(!file::exists({pathname, "rtc.ram"})) {
if(file::exists({information.path, nall::basename(information.name), ".rtc"})) {
file::copy({information.path, nall::basename(information.name), ".rtc"}, {pathname, "rtc.ram"});
}
}
}
string Ananke::createGameBoyHeuristic(vector<uint8_t> &buffer) {
GameBoyCartridge info(buffer.data(), buffer.size());
string pathname = {
libraryPath, "Game Boy", (info.info.cgb ? " Color" : ""), "/",
nall::basename(information.name),
".", (info.info.cgb ? "gbc" : "gb"), "/"
};
directory::create(pathname);
string markup = {"unverified\n\n", info.markup};
markup.append("\ninformation\n title: ", nall::basename(information.name), "\n");
if(!information.manifest.empty()) markup = information.manifest; //override with embedded beat manifest, if one exists
file::write({pathname, "manifest.bml"}, markup);
file::write({pathname, "program.rom"}, buffer);
copyGameBoySaves(pathname);
return pathname;
}
string Ananke::openGameBoy(vector<uint8_t> &buffer) {
return createGameBoyHeuristic(buffer);
}
string Ananke::syncGameBoy(const string &pathname) {
auto buffer = file::read({pathname, "program.rom"});
if(buffer.size() == 0) return "";
auto save = file::read({pathname, "save.ram"});
if(save.size() == 0) save = file::read({pathname, "save.rwm"});
auto rtc = file::read({pathname, "rtc.ram"});
if(rtc.size() == 0) rtc = file::read({pathname, "rtc.rwm"});
directory::remove(pathname);
information.path = pathname;
information.name = notdir(string{pathname}.rtrim<1>("/"));
string outputPath = openGameBoy(buffer);
if(save.size()) file::write({outputPath, "save.ram"}, save);
if(rtc.size()) file::write({outputPath, "rtc.ram"}, rtc);
return outputPath;
}

173
ananke/heuristics/famicom.hpp Normal file
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#ifndef NALL_EMULATION_FAMICOM_HPP
#define NALL_EMULATION_FAMICOM_HPP
#include <nall/sha256.hpp>
#include <nall/string.hpp>
namespace nall {
struct FamicomCartridge {
string markup;
inline FamicomCartridge(const uint8_t *data, unsigned size);
//private:
unsigned mapper;
unsigned mirror;
unsigned prgrom;
unsigned prgram;
unsigned chrrom;
unsigned chrram;
};
FamicomCartridge::FamicomCartridge(const uint8_t *data, unsigned size) {
markup = "";
if(size < 16) return;
if(data[0] != 'N') return;
if(data[1] != 'E') return;
if(data[2] != 'S') return;
if(data[3] != 26) return;
mapper = ((data[7] >> 4) << 4) | (data[6] >> 4);
mirror = ((data[6] & 0x08) >> 2) | (data[6] & 0x01);
prgrom = data[4] * 0x4000;
chrrom = data[5] * 0x2000;
prgram = 0u;
chrram = chrrom == 0u ? 8192u : 0u;
markup.append("cartridge\n");
switch(mapper) {
default:
markup.append(" board type=NES-NROM-256\n");
markup.append(" mirror mode=", mirror == 0 ? "horizontal" : "vertical", "\n");
break;
case 1:
markup.append(" board type=NES-SXROM\n");
markup.append(" chip type=MMC1B2\n");
prgram = 8192;
break;
case 2:
markup.append(" board type=NES-UOROM\n");
markup.append(" mirror mode=", mirror == 0 ? "horizontal" : "vertical", "\n");
break;
case 3:
markup.append(" board type=NES-CNROM\n");
markup.append(" mirror mode=", mirror == 0 ? "horizontal" : "vertical", "\n");
break;
case 4:
//MMC3
markup.append(" board type=NES-TLROM\n");
markup.append(" chip type=MMC3B\n");
prgram = 8192;
//MMC6
//markup.append(" board type=NES-HKROM\n");
//markup.append(" chip type=MMC6n");
//prgram = 1024;
break;
case 5:
markup.append(" board type=NES-ELROM\n");
markup.append(" chip type=MMC5\n");
prgram = 65536;
break;
case 7:
markup.append(" board type=NES-AOROM\n");
break;
case 9:
markup.append(" board type=NES-PNROM\n");
markup.append(" chip type=MMC2\n");
prgram = 8192;
break;
case 10:
markup.append(" board type=NES-FKROM\n");
markup.append(" chip type=MMC4\n");
prgram = 8192;
break;
case 16:
markup.append(" board type=BANDAI-FCG\n");
markup.append(" chip type=LZ93D50\n");
break;
case 21:
case 23:
case 25:
//VRC4
markup.append(" board type=KONAMI-VRC-4\n");
markup.append(" chip type=VRC4\n");
markup.append(" pinout a0=1 a1=0\n");
prgram = 8192;
break;
case 22:
//VRC2
markup.append(" board type=KONAMI-VRC-2\n");
markup.append(" chip type=VRC2\n");
markup.append(" pinout a0=0 a1=1\n");
break;
case 24:
markup.append(" board type=KONAMI-VRC-6\n");
markup.append(" chip type=VRC6\n");
break;
case 26:
markup.append(" board type=KONAMI-VRC-6\n");
markup.append(" chip type=VRC6\n");
prgram = 8192;
break;
case 34:
markup.append(" board type=NES-BNROM\n");
markup.append(" mirror mode=", mirror == 0 ? "horizontal" : "vertical", "\n");
break;
case 66:
markup.append(" board type=NES-GNROM\n");
markup.append(" mirror mode=", mirror == 0 ? "horizontal" : "vertical", "\n");
break;
case 69:
markup.append(" board type=SUNSOFT-5B\n");
markup.append(" chip type=5B\n");
prgram = 8192;
break;
case 73:
markup.append(" board type=KONAMI-VRC-3\n");
markup.append(" chip type=VRC3\n");
markup.append(" mirror mode=", mirror == 0 ? "horizontal" : "vertical", "\n");
prgram = 8192;
break;
case 75:
markup.append(" board type=KONAMI-VRC-1\n");
markup.append(" chip type=VRC1\n");
break;
case 85:
markup.append(" board type=KONAMI-VRC-7\n");
markup.append(" chip type=VRC7\n");
prgram = 8192;
break;
}
markup.append(" prg\n");
if(prgrom) markup.append(" rom name=program.rom size=0x", hex(prgrom), "\n");
if(prgram) markup.append(" ram name=save.ram size=0x", hex(prgram), "\n");
markup.append(" chr\n");
if(chrrom) markup.append(" rom name=character.rom size=0x", hex(chrrom), "\n");
if(chrram) markup.append(" ram size=0x", hex(chrram), "\n");
}
}
#endif

63
ananke/heuristics/game-boy-advance.hpp Normal file
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#ifndef NALL_EMULATION_GAME_BOY_ADVANCE_HPP
#define NALL_EMULATION_GAME_BOY_ADVANCE_HPP
#include <nall/sha256.hpp>
#include <nall/string.hpp>
#include <nall/vector.hpp>
namespace nall {
struct GameBoyAdvanceCartridge {
string markup;
string identifiers;
inline GameBoyAdvanceCartridge(const uint8_t *data, unsigned size);
};
GameBoyAdvanceCartridge::GameBoyAdvanceCartridge(const uint8_t *data, unsigned size) {
struct Identifier {
string name;
unsigned size;
};
vector<Identifier> idlist;
idlist.append({"SRAM_V", 6});
idlist.append({"SRAM_F_V", 8});
idlist.append({"EEPROM_V", 8});
idlist.append({"FLASH_V", 7});
idlist.append({"FLASH512_V", 10});
idlist.append({"FLASH1M_V", 9});
lstring list;
for(auto &id : idlist) {
for(signed n = 0; n < size - 16; n++) {
if(!memcmp(data + n, (const char*)id.name, id.size)) {
const char *p = (const char*)data + n + id.size;
if(p[0] >= '0' && p[0] <= '9'
&& p[1] >= '0' && p[1] <= '9'
&& p[2] >= '0' && p[2] <= '9'
) {
char text[16];
memcpy(text, data + n, id.size + 3);
text[id.size + 3] = 0;
list.appendOnce(text);
}
}
}
}
identifiers = list.merge(",");
markup = "";
markup.append("cartridge\n");
markup.append(" rom name=program.rom size=0x", hex(size), "\n");
if(0);
else if(identifiers.beginsWith("SRAM_V" )) markup.append(" ram name=save.ram type=SRAM size=0x8000\n");
else if(identifiers.beginsWith("SRAM_F_V" )) markup.append(" ram name=save.ram type=FRAM size=0x8000\n");
else if(identifiers.beginsWith("EEPROM_V" )) markup.append(" ram name=save.ram type=EEPROM size=0x0\n");
else if(identifiers.beginsWith("FLASH_V" )) markup.append(" ram name=save.ram type=FlashROM size=0x10000\n");
else if(identifiers.beginsWith("FLASH512_V")) markup.append(" ram name=save.ram type=FlashROM size=0x10000\n");
else if(identifiers.beginsWith("FLASH1M_V" )) markup.append(" ram name=save.ram type=FlashROM size=0x20000\n");
//if(identifiers.empty() == false) markup.append(" #detected: ", identifiers, "\n");
}
}
#endif

30
snesfilter/nall/gameboy/cartridge.hpp → ananke/heuristics/game-boy.hpp Executable file → Normal file
View File

@@ -1,10 +1,12 @@
#ifndef NALL_GAMEBOY_CARTRIDGE_HPP
#define NALL_GAMEBOY_CARTRIDGE_HPP
#ifndef NALL_EMULATION_GAME_BOY_HPP
#define NALL_EMULATION_GAME_BOY_HPP
#include <nall/sha256.hpp>
#include <nall/string.hpp>
namespace nall {
class GameBoyCartridge {
public:
struct GameBoyCartridge {
string markup;
inline GameBoyCartridge(uint8_t *data, unsigned size);
@@ -18,6 +20,9 @@ public:
unsigned romsize;
unsigned ramsize;
bool cgb;
bool cgbonly;
} info;
};
@@ -48,6 +53,9 @@ GameBoyCartridge::GameBoyCartridge(uint8_t *romdata, unsigned romsize) {
memcpy(romdata, header, 0x8000);
}
info.cgb = (romdata[0x0143] & 0x80) == 0x80;
info.cgbonly = (romdata[0x0143] & 0xc0) == 0xc0;
switch(romdata[0x0147]) {
case 0x00: info.mapper = "none"; break;
case 0x01: info.mapper = "MBC1"; break;
@@ -100,15 +108,11 @@ GameBoyCartridge::GameBoyCartridge(uint8_t *romdata, unsigned romsize) {
if(info.mapper == "MBC2") info.ramsize = 512; //512 x 4-bit
markup.append("cartridge mapper=", info.mapper);
if(info.rtc) markup.append(" rtc");
if(info.rumble) markup.append(" rumble");
markup.append("\n");
markup.append("\t" "rom size=", hex(romsize), "\n"); //TODO: trust/check info.romsize?
if(info.ramsize > 0)
markup.append("\t" "ram size=", hex(info.ramsize), info.battery ? " non-volatile\n" : "\n");
markup = "";
markup.append("cartridge\n");
markup.append(" board type=", info.mapper, "\n");
markup.append(" rom name=program.rom size=0x", hex(romsize), "\n");
if(info.ramsize > 0) markup.append(" ram name=save.ram size=0x", hex(info.ramsize), "\n");
}
}

23
ananke/heuristics/satellaview.hpp Normal file
View File

@@ -0,0 +1,23 @@
#ifndef NALL_EMULATION_SATELLAVIEW_HPP
#define NALL_EMULATION_SATELLAVIEW_HPP
#include <nall/sha256.hpp>
#include <nall/string.hpp>
namespace nall {
struct SatellaviewCartridge {
string markup;
inline SatellaviewCartridge(const uint8_t *data, unsigned size);
};
SatellaviewCartridge::SatellaviewCartridge(const uint8_t *data, unsigned size) {
markup = "";
markup.append("cartridge\n");
markup.append(" rom name=program.rom size=0x", hex(size), " type=FlashROM\n");
}
}
#endif

31
ananke/heuristics/sufami-turbo.hpp Normal file
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@@ -0,0 +1,31 @@
#ifndef NALL_EMULATION_SUFAMI_TURBO_HPP
#define NALL_EMULATION_SUFAMI_TURBO_HPP
#include <nall/sha256.hpp>
#include <nall/string.hpp>
namespace nall {
struct SufamiTurboCartridge {
string markup;
inline SufamiTurboCartridge(const uint8_t *data, unsigned size);
};
SufamiTurboCartridge::SufamiTurboCartridge(const uint8_t *data, unsigned size) {
markup = "";
if(size < 0x20000) return; //too small to be a valid game?
if(memcmp(data, "BANDAI SFC-ADX", 14)) return; //missing required header?
unsigned romsize = data[0x36] * 0x20000; //128KB
unsigned ramsize = data[0x37] * 0x800; //2KB
bool linkable = data[0x35] != 0x00; //TODO: unconfirmed
markup.append("cartridge", linkable ? " linkable" : "", "\n");
markup.append(" rom name=program.rom size=0x", hex(romsize), "\n");
if(ramsize)
markup.append(" ram name=save.ram size=0x", hex(ramsize), "\n");
}
}
#endif

814
ananke/heuristics/super-famicom.hpp Normal file
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@@ -0,0 +1,814 @@
#ifndef NALL_EMULATION_SUPER_FAMICOM_HPP
#define NALL_EMULATION_SUPER_FAMICOM_HPP
#include <nall/sha256.hpp>
#include <nall/string.hpp>
namespace nall {
struct SuperFamicomCartridge {
string markup;
inline SuperFamicomCartridge(const uint8_t *data, unsigned size);
//private:
inline void read_header(const uint8_t *data, unsigned size);
inline unsigned find_header(const uint8_t *data, unsigned size);
inline unsigned score_header(const uint8_t *data, unsigned size, unsigned addr);
enum HeaderField {
CartName = 0x00,
Mapper = 0x15,
RomType = 0x16,
RomSize = 0x17,
RamSize = 0x18,
CartRegion = 0x19,
Company = 0x1a,
Version = 0x1b,
Complement = 0x1c, //inverse checksum
Checksum = 0x1e,
ResetVector = 0x3c,
};
enum Mode {
ModeNormal,
ModeBsxSlotted,
ModeBsx,
ModeSufamiTurbo,
ModeSuperGameBoy,
};
enum Type {
TypeNormal,
TypeBsxSlotted,
TypeBsxBios,
TypeBsx,
TypeSufamiTurboBios,
TypeSufamiTurbo,
TypeSuperGameBoy1Bios,
TypeSuperGameBoy2Bios,
TypeGameBoy,
TypeUnknown,
};
enum Region {
NTSC,
PAL,
};
enum MemoryMapper {
LoROM,
HiROM,
ExLoROM,
ExHiROM,
SuperFXROM,
SA1ROM,
SPC7110ROM,
BSCLoROM,
BSCHiROM,
BSXROM,
STROM,
};
enum DSP1MemoryMapper {
DSP1Unmapped,
DSP1LoROM1MB,
DSP1LoROM2MB,
DSP1HiROM,
};
bool loaded; //is a base cartridge inserted?
unsigned crc32; //crc32 of all cartridges (base+slot(s))
unsigned rom_size;
unsigned ram_size;
bool firmware_appended; //true if firmware is appended to end of ROM data
Mode mode;
Type type;
Region region;
MemoryMapper mapper;
DSP1MemoryMapper dsp1_mapper;
bool has_bsx_slot;
bool has_superfx;
bool has_sa1;
bool has_sharprtc;
bool has_epsonrtc;
bool has_sdd1;
bool has_spc7110;
bool has_cx4;
bool has_dsp1;
bool has_dsp2;
bool has_dsp3;
bool has_dsp4;
bool has_obc1;
bool has_st010;
bool has_st011;
bool has_st018;
};
SuperFamicomCartridge::SuperFamicomCartridge(const uint8_t *data, unsigned size) {
firmware_appended = false;
//skip copier header
if((size & 0x7fff) == 512) data += 512, size -= 512;
markup = "";
if(size < 0x8000) return;
read_header(data, size);
markup = "";
if(type == TypeGameBoy) return;
if(type == TypeBsx) return;
if(type == TypeSufamiTurbo) return;
const char *range = (rom_size > 0x200000) || (ram_size > 32 * 1024) ? "0000-7fff" : "0000-ffff";
markup.append("cartridge region=", region == NTSC ? "NTSC" : "PAL", "\n");
if(type == TypeSuperGameBoy1Bios || type == TypeSuperGameBoy2Bios) {
markup.append(
" rom name=program.rom size=0x", hex(rom_size), "\n"
" map id=rom address=00-7f,80-ff:8000-ffff mask=0x8000\n"
" icd2 revision=1\n"
" rom name=sgb.boot.rom size=0x100\n"
" map id=io address=00-3f,80-bf:6000-7fff\n"
);
if((rom_size & 0x7fff) == 0x100) {
firmware_appended = true;
rom_size -= 0x100;
}
}
else if(has_cx4) {
markup.append(
" hitachidsp model=HG51B169 frequency=20000000\n"
" rom id=program name=program.rom size=0x", hex(rom_size), "\n"
" rom id=data name=cx4.data.rom size=0xc00\n"
" ram id=data size=0xc00\n"
" map id=io address=00-3f,80-bf:6000-7fff\n"
" map id=rom address=00-7f,80-ff:8000-ffff mask=0x8000\n"
" map id=ram address=70-77:0000-7fff\n"
);
if((rom_size & 0x7fff) == 0xc00) {
firmware_appended = true;
rom_size -= 0xc00;
}
}
else if(has_spc7110) {
markup.append(
" spc7110\n"
" rom id=program name=program.rom size=0x100000\n"
" rom id=data name=data.rom size=0x", hex(rom_size - 0x100000), "\n"
" ram name=save.ram size=0x", hex(ram_size), "\n"
" map id=io address=00-3f,80-bf:4800-483f\n"
" map id=io address=50:0000-ffff\n"
" map id=rom address=00-3f,80-bf:8000-ffff\n"
" map id=rom address=c0-ff:0000-ffff\n"
" map id=ram address=00-3f,80-bf:6000-7fff mask=0xe000\n"
);
}
else if(has_sdd1) {
markup.append(
" sdd1\n"
" rom name=program.rom size=0x", hex(rom_size), "\n"
);
if(ram_size > 0) markup.append(
" ram name=save.ram size=0x", hex(ram_size), "\n"
);
markup.append(
" map id=io address=00-3f,80-bf:4800-4807\n"
" map id=rom address=00-3f,80-bf:8000-ffff mask=0x8000\n"
" map id=rom address=c0-ff:0000-ffff\n"
);
if(ram_size > 0) markup.append(
" map id=ram address=20-3f,a0-bf:6000-7fff mask=0xe000\n"
" map id=ram address=70-7f:0000-7fff\n"
);
}
else if(mapper == LoROM) {
markup.append(
" rom name=program.rom size=0x", hex(rom_size), "\n"
);
if(ram_size > 0) markup.append(
" ram name=save.ram size=0x", hex(ram_size), "\n"
);
markup.append(
" map id=rom address=00-7f,80-ff:8000-ffff mask=0x8000\n"
);
if(ram_size > 0) markup.append(
" map id=ram address=70-7f,f0-ff:", range, "\n"
);
}
else if(mapper == HiROM) {
markup.append(
" rom name=program.rom size=0x", hex(rom_size), "\n"
);
if(ram_size > 0) markup.append(
" ram name=save.ram size=0x", hex(ram_size), "\n"
);
markup.append(
" map id=rom address=00-3f,80-bf:8000-ffff\n"
" map id=rom address=40-7f,c0-ff:0000-ffff\n"
);
if(ram_size > 0) markup.append(
" map id=ram address=10-3f,90-bf:6000-7fff mask=0xe000\n"
);
}
else if(mapper == ExLoROM) {
markup.append(
" rom name=program.rom size=0x", hex(rom_size), "\n"
);
if(ram_size > 0) markup.append(
" ram name=save.ram size=0x", hex(ram_size), "\n"
);
markup.append(
" map id=rom address=00-3f,80-bf:8000-ffff mask=0x8000\n"
" map id=rom address=40-7f:0000-ffff\n"
);
if(ram_size > 0) markup.append(
" map id=ram address=20-3f,a0-bf:6000-7fff\n"
" map id=ram address=70-7f:0000-7fff\n"
);
}
else if(mapper == ExHiROM) {
markup.append(
" rom name=program.rom size=0x", hex(rom_size), "\n"
);
if(ram_size > 0) markup.append(
" ram name=save.ram size=0x", hex(ram_size), "\n"
);
markup.append(
" map id=rom address=00-3f:8000-ffff base=0x400000\n"
" map id=rom address=40-7f:0000-ffff base=0x400000\n"
" map id=rom address=80-bf:8000-ffff mask=0xc00000\n"
" map id=rom address=c0-ff:0000-ffff mask=0xc00000\n"
);
if(ram_size > 0) markup.append(
" map id=ram address=20-3f,a0-bf:6000-7fff mask=0xe000\n"
" map id=ram address=70-7f:", range, "\n"
);
}
else if(mapper == SuperFXROM) {
markup.append(
" superfx revision=3\n"
" rom name=program.rom size=0x", hex(rom_size), "\n"
);
if(ram_size > 0) markup.append(
" ram name=save.ram size=0x", hex(ram_size), "\n"
);
markup.append(
" map id=io address=00-3f,80-bf:3000-32ff\n"
" map id=rom address=00-3f,80-bf:8000-ffff mask=0x8000\n"
" map id=rom address=40-5f,c0-df:0000-ffff\n"
);
if(ram_size > 0) markup.append(
" map id=ram address=00-3f,80-bf:6000-7fff size=0x2000\n"
" map id=ram address=70-71,f0-f1:0000-ffff\n"
);
}
else if(mapper == SA1ROM) {
markup.append(
" sa1\n"
" rom name=program.rom size=0x", hex(rom_size), "\n"
);
if(ram_size > 0) markup.append(
" ram id=bitmap name=save.ram size=0x", hex(ram_size), "\n"
);
markup.append(
" ram id=internal size=0x800\n"
" map id=io address=00-3f,80-bf:2200-23ff\n"
" map id=rom address=00-3f,80-bf:8000-ffff\n"
" map id=rom address=c0-ff:0000-ffff\n"
);
if(ram_size > 0) markup.append(
" map id=bwram address=00-3f,80-bf:6000-7fff\n"
" map id=bwram address=40-4f:0000-ffff\n"
);
markup.append(
" map id=iram address=00-3f,80-bf:3000-37ff\n"
);
}
else if(mapper == BSCLoROM) {
markup.append(
" rom name=program.rom size=0x", hex(rom_size), "\n"
" ram name=save.ram size=0x", hex(ram_size), "\n"
" map id=rom address=00-1f:8000-ffff base=0x000000 mask=0x8000\n"
" map id=rom address=20-3f:8000-ffff base=0x100000 mask=0x8000\n"
" map id=rom address=80-9f:8000-ffff base=0x200000 mask=0x8000\n"
" map id=rom address=a0-bf:8000-ffff base=0x100000 mask=0x8000\n"
" map id=ram address=70-7f,f0-ff:0000-7fff\n"
" bsxslot\n"
" map id=rom address=c0-ef:0000-ffff\n"
);
}
else if(mapper == BSCHiROM) {
markup.append(
" rom name=program.rom size=0x", hex(rom_size), "\n"
" ram name=save.ram size=0x", hex(ram_size), "\n"
" map id=rom address=00-1f,80-9f:8000-ffff\n"
" map id=rom address=40-5f,c0-df:0000-ffff\n"
" map id=ram address=20-3f,a0-bf:6000-7fff\n"
" bsxslot\n"
" map id=rom address=20-3f,a0-bf:8000-ffff\n"
" map id=rom address=60-7f,e0-ff:0000-ffff\n"
);
}
else if(mapper == BSXROM) {
markup.append(
" bsx\n"
" rom name=program.rom size=0x", hex(rom_size), "\n"
" ram id=save name=save.ram size=0x", hex(ram_size), "\n"
" ram id=download name=bsx.ram size=0x40000\n"
" map id=io address=00-3f,80-bf:5000-5fff\n"
" map id=rom address=00-3f,80-bf:8000-ffff\n"
" map id=rom address=40-7f,c0-ff:0000-ffff\n"
" map id=ram address=20-3f:6000-7fff\n"
);
}
else if(mapper == STROM) {
markup.append(
" rom name=program.rom size=0x", hex(rom_size), "\n"
" map id=rom address='00-1f,80-9f:8000-ffff mask=0x8000\n"
" sufamiturbo\n"
" slot id=A\n"
" map id=rom address=20-3f,a0-bf:8000-ffff mask=0x8000\n"
" map id=ram address=60-63,e0-e3:8000-ffff\n"
" slot id=B\n"
" map id=rom address=40-5f,c0-df:8000-ffff mask=0x8000\n"
" map id=ram address=70-73,f0-f3:8000-ffff\n"
);
}
if(has_sharprtc) {
markup.append(
" sharprtc\n"
" ram name=rtc.ram size=0x10\n"
" map id=io address=00-3f,80-bf:2800-2801\n"
);
}
if(has_epsonrtc) {
markup.append(
" epsonrtc\n"
" ram name=rtc.ram size=0x10\n"
" map id=io address=00-3f,80-bf:4840-4842\n"
);
}
if(has_obc1) {
markup.append(
" obc1\n"
" ram name=save.ram size=0x2000\n"
" map id=io address=00-3f,80-bf:6000-7fff\n"
);
}
if(has_dsp1) {
markup.append(
" necdsp model=uPD7725 frequency=8000000\n"
" rom id=program name=dsp1b.program.rom size=0x1800\n"
" rom id=data name=dsp1b.data.rom size=0x800\n"
" ram id=data size=0x200\n"
);
if(dsp1_mapper == DSP1LoROM1MB) markup.append(
" map id=io address=20-3f,a0-bf:8000-ffff select=0x4000\n"
);
if(dsp1_mapper == DSP1LoROM2MB) markup.append(
" map id=io address=60-6f,e0-ef:0000-7fff select=0x4000\n"
);
if(dsp1_mapper == DSP1HiROM) markup.append(
" map id=io address=00-1f,80-9f:6000-7fff select=0x1000\n"
);
if((size & 0x7fff) == 0x2000) {
firmware_appended = true;
rom_size -= 0x2000;
}
}
if(has_dsp2) {
markup.append(
" necdsp model=uPD7725 frequency=8000000\n"
" rom id=program name=dsp2.program.rom size=0x1800\n"
" rom id=data name=dsp2.data.rom size=0x800\n"
" ram id=data size=0x200\n"
" map id=io address=20-3f,a0-bf:8000-ffff select=0x4000\n"
);
if((size & 0x7fff) == 0x2000) {
firmware_appended = true;
rom_size -= 0x2000;
}
}
if(has_dsp3) {
markup.append(
" necdsp model=uPD7725 frequency=8000000\n"
" rom id=program name=dsp3.program.rom size=0x1800\n"
" rom id=data name=dsp3.data.rom size=0x800\n"
" ram id=data size=0x200\n"
" map id=io address=20-3f,a0-bf:8000-ffff select=0x4000\n"
);
if((size & 0x7fff) == 0x2000) {
firmware_appended = true;
rom_size -= 0x2000;
}
}
if(has_dsp4) {
markup.append(
" necdsp model=uPD7725 frequency=8000000\n"
" rom id=program name=dsp4.program.rom size=0x1800\n"
" rom id=data name=dsp4.data.rom size=0x800\n"
" ram id=data size=0x200\n"
" map id=io address=30-3f,b0-bf:8000-ffff select=0x4000\n"
);
if((size & 0x7fff) == 0x2000) {
firmware_appended = true;
rom_size -= 0x2000;
}
}
if(has_st010) {
markup.append(
" necdsp model=uPD96050 frequency=11000000\n"
" rom id=program name=st010.program.rom size=0xc000\n"
" rom id=data name=st010.data.rom size=0x1000\n"
" ram id=data name=save.ram size=0x1000\n"
" map id=io address=60-67,e0-e7:0000-3fff select=0x0001\n"
" map id=ram address=68-6f,e8-ef:0000-7fff\n"
);
if((size & 0xffff) == 0xd000) {
firmware_appended = true;
rom_size -= 0xd000;
}
}
if(has_st011) {
markup.append(
" necdsp model=uPD96050 frequency=15000000\n"
" rom id=program name=st011.program.rom size=0xc000\n"
" rom id=data name=st011.data.rom size=0x1000\n"
" ram id=data name=save.ram size=0x1000\n"
" map id=io address=60-67,e0-e7:0000-3fff select=0x0001\n"
" map id=ram address=68-6f,e8-ef:0000-7fff\n"
);
if((size & 0xffff) == 0xd000) {
firmware_appended = true;
rom_size -= 0xd000;
}
}
if(has_st018) {
markup.append(
" armdsp frequency=21477272\n"
" rom id=program name=st018.program.rom size=0x20000\n"
" rom id=data name=st018.data.rom size=0x8000\n"
" ram name=save.ram size=0x4000\n"
" map id=io address=00-3f,80-bf:3800-38ff\n"
);
if((size & 0x3ffff) == 0x28000) {
firmware_appended = true;
rom_size -= 0x28000;
}
}
}
void SuperFamicomCartridge::read_header(const uint8_t *data, unsigned size) {
type = TypeUnknown;
mapper = LoROM;
dsp1_mapper = DSP1Unmapped;
region = NTSC;
rom_size = size;
ram_size = 0;
has_bsx_slot = false;
has_superfx = false;
has_sa1 = false;
has_sharprtc = false;
has_epsonrtc = false;
has_sdd1 = false;
has_spc7110 = false;
has_cx4 = false;
has_dsp1 = false;
has_dsp2 = false;
has_dsp3 = false;
has_dsp4 = false;
has_obc1 = false;
has_st010 = false;
has_st011 = false;
has_st018 = false;
//=====================
//detect Game Boy carts
//=====================
if(size >= 0x0140) {
if(data[0x0104] == 0xce && data[0x0105] == 0xed && data[0x0106] == 0x66 && data[0x0107] == 0x66
&& data[0x0108] == 0xcc && data[0x0109] == 0x0d && data[0x010a] == 0x00 && data[0x010b] == 0x0b) {
type = TypeGameBoy;
return;
}
}
if(size < 32768) {
type = TypeUnknown;
return;
}
const unsigned index = find_header(data, size);
const uint8_t mapperid = data[index + Mapper];
const uint8_t rom_type = data[index + RomType];
const uint8_t rom_size = data[index + RomSize];
const uint8_t company = data[index + Company];
const uint8_t regionid = data[index + CartRegion] & 0x7f;
ram_size = 1024 << (data[index + RamSize] & 7);
if(ram_size == 1024) ram_size = 0; //no RAM present
if(rom_size == 0 && ram_size) ram_size = 0; //fix for Bazooka Blitzkrieg's malformed header (swapped ROM and RAM sizes)
//0, 1, 13 = NTSC; 2 - 12 = PAL
region = (regionid <= 1 || regionid >= 13) ? NTSC : PAL;
//=======================
//detect BS-X flash carts
//=======================
if(data[index + 0x13] == 0x00 || data[index + 0x13] == 0xff) {
if(data[index + 0x14] == 0x00) {
const uint8_t n15 = data[index + 0x15];
if(n15 == 0x00 || n15 == 0x80 || n15 == 0x84 || n15 == 0x9c || n15 == 0xbc || n15 == 0xfc) {
if(data[index + 0x1a] == 0x33 || data[index + 0x1a] == 0xff) {
type = TypeBsx;
mapper = BSXROM;
region = NTSC; //BS-X only released in Japan
return;
}
}
}
}
//=========================
//detect Sufami Turbo carts
//=========================
if(!memcmp(data, "BANDAI SFC-ADX", 14)) {
if(!memcmp(data + 16, "SFC-ADX BACKUP", 14)) {
type = TypeSufamiTurboBios;
} else {
type = TypeSufamiTurbo;
}
mapper = STROM;
region = NTSC; //Sufami Turbo only released in Japan
return; //RAM size handled outside this routine
}
//==========================
//detect Super Game Boy BIOS
//==========================
if(!memcmp(data + index, "Super GAMEBOY2", 14)) {
type = TypeSuperGameBoy2Bios;
return;
}
if(!memcmp(data + index, "Super GAMEBOY", 13)) {
type = TypeSuperGameBoy1Bios;
return;
}
//=====================
//detect standard carts
//=====================
//detect presence of BS-X flash cartridge connector (reads extended header information)
if(data[index - 14] == 'Z') {
if(data[index - 11] == 'J') {
uint8_t n13 = data[index - 13];
if((n13 >= 'A' && n13 <= 'Z') || (n13 >= '0' && n13 <= '9')) {
if(company == 0x33 || (data[index - 10] == 0x00 && data[index - 4] == 0x00)) {
has_bsx_slot = true;
}
}
}
}
if(has_bsx_slot) {
if(!memcmp(data + index, "Satellaview BS-X ", 21)) {
//BS-X base cart
type = TypeBsxBios;
mapper = BSXROM;
region = NTSC; //BS-X only released in Japan
return; //RAM size handled internally by load_cart_bsx() -> BSXCart class
} else {
type = TypeBsxSlotted;
mapper = (index == 0x7fc0 ? BSCLoROM : BSCHiROM);
region = NTSC; //BS-X slotted cartridges only released in Japan
}
} else {
//standard cart
type = TypeNormal;
if(index == 0x7fc0 && size >= 0x401000) {
mapper = ExLoROM;
} else if(index == 0x7fc0 && mapperid == 0x32) {
mapper = ExLoROM;
} else if(index == 0x7fc0) {
mapper = LoROM;
} else if(index == 0xffc0) {
mapper = HiROM;
} else { //index == 0x40ffc0
mapper = ExHiROM;
}
}
if(mapperid == 0x20 && (rom_type == 0x13 || rom_type == 0x14 || rom_type == 0x15 || rom_type == 0x1a)) {
has_superfx = true;
mapper = SuperFXROM;
ram_size = 1024 << (data[index - 3] & 7);
if(ram_size == 1024) ram_size = 0;
}
if(mapperid == 0x23 && (rom_type == 0x32 || rom_type == 0x34 || rom_type == 0x35)) {
has_sa1 = true;
mapper = SA1ROM;
}
if(mapperid == 0x35 && rom_type == 0x55) {
has_sharprtc = true;
}
if(mapperid == 0x32 && (rom_type == 0x43 || rom_type == 0x45)) {
has_sdd1 = true;
}
if(mapperid == 0x3a && (rom_type == 0xf5 || rom_type == 0xf9)) {
has_spc7110 = true;
has_epsonrtc = (rom_type == 0xf9);
mapper = SPC7110ROM;
}
if(mapperid == 0x20 && rom_type == 0xf3) {
has_cx4 = true;
}
if((mapperid == 0x20 || mapperid == 0x21) && rom_type == 0x03) {
has_dsp1 = true;
}
if(mapperid == 0x30 && rom_type == 0x05 && company != 0xb2) {
has_dsp1 = true;
}
if(mapperid == 0x31 && (rom_type == 0x03 || rom_type == 0x05)) {
has_dsp1 = true;
}
if(has_dsp1 == true) {
if((mapperid & 0x2f) == 0x20 && size <= 0x100000) {
dsp1_mapper = DSP1LoROM1MB;
} else if((mapperid & 0x2f) == 0x20) {
dsp1_mapper = DSP1LoROM2MB;
} else if((mapperid & 0x2f) == 0x21) {
dsp1_mapper = DSP1HiROM;
}
}
if(mapperid == 0x20 && rom_type == 0x05) {
has_dsp2 = true;
}
if(mapperid == 0x30 && rom_type == 0x05 && company == 0xb2) {
has_dsp3 = true;
}
if(mapperid == 0x30 && rom_type == 0x03) {
has_dsp4 = true;
}
if(mapperid == 0x30 && rom_type == 0x25) {
has_obc1 = true;
}
if(mapperid == 0x30 && rom_type == 0xf6 && rom_size >= 10) {
has_st010 = true;
}
if(mapperid == 0x30 && rom_type == 0xf6 && rom_size < 10) {
has_st011 = true;
}
if(mapperid == 0x30 && rom_type == 0xf5) {
has_st018 = true;
}
}
unsigned SuperFamicomCartridge::find_header(const uint8_t *data, unsigned size) {
unsigned score_lo = score_header(data, size, 0x007fc0);
unsigned score_hi = score_header(data, size, 0x00ffc0);
unsigned score_ex = score_header(data, size, 0x40ffc0);
if(score_ex) score_ex += 4; //favor ExHiROM on images > 32mbits
if(score_lo >= score_hi && score_lo >= score_ex) {
return 0x007fc0;
} else if(score_hi >= score_ex) {
return 0x00ffc0;
} else {
return 0x40ffc0;
}
}
unsigned SuperFamicomCartridge::score_header(const uint8_t *data, unsigned size, unsigned addr) {
if(size < addr + 64) return 0; //image too small to contain header at this location?
int score = 0;
uint16_t resetvector = data[addr + ResetVector] | (data[addr + ResetVector + 1] << 8);
uint16_t checksum = data[addr + Checksum ] | (data[addr + Checksum + 1] << 8);
uint16_t complement = data[addr + Complement ] | (data[addr + Complement + 1] << 8);
uint8_t resetop = data[(addr & ~0x7fff) | (resetvector & 0x7fff)]; //first opcode executed upon reset
uint8_t mapper = data[addr + Mapper] & ~0x10; //mask off irrelevent FastROM-capable bit
//$00:[000-7fff] contains uninitialized RAM and MMIO.
//reset vector must point to ROM at $00:[8000-ffff] to be considered valid.
if(resetvector < 0x8000) return 0;
//some images duplicate the header in multiple locations, and others have completely
//invalid header information that cannot be relied upon.
//below code will analyze the first opcode executed at the specified reset vector to
//determine the probability that this is the correct header.
//most likely opcodes
if(resetop == 0x78 //sei
|| resetop == 0x18 //clc (clc; xce)
|| resetop == 0x38 //sec (sec; xce)
|| resetop == 0x9c //stz $nnnn (stz $4200)
|| resetop == 0x4c //jmp $nnnn
|| resetop == 0x5c //jml $nnnnnn
) score += 8;
//plausible opcodes
if(resetop == 0xc2 //rep #$nn
|| resetop == 0xe2 //sep #$nn
|| resetop == 0xad //lda $nnnn
|| resetop == 0xae //ldx $nnnn
|| resetop == 0xac //ldy $nnnn
|| resetop == 0xaf //lda $nnnnnn
|| resetop == 0xa9 //lda #$nn
|| resetop == 0xa2 //ldx #$nn
|| resetop == 0xa0 //ldy #$nn
|| resetop == 0x20 //jsr $nnnn
|| resetop == 0x22 //jsl $nnnnnn
) score += 4;
//implausible opcodes
if(resetop == 0x40 //rti
|| resetop == 0x60 //rts
|| resetop == 0x6b //rtl
|| resetop == 0xcd //cmp $nnnn
|| resetop == 0xec //cpx $nnnn
|| resetop == 0xcc //cpy $nnnn
) score -= 4;
//least likely opcodes
if(resetop == 0x00 //brk #$nn
|| resetop == 0x02 //cop #$nn
|| resetop == 0xdb //stp
|| resetop == 0x42 //wdm
|| resetop == 0xff //sbc $nnnnnn,x
) score -= 8;
//at times, both the header and reset vector's first opcode will match ...
//fallback and rely on info validity in these cases to determine more likely header.
//a valid checksum is the biggest indicator of a valid header.
if((checksum + complement) == 0xffff && (checksum != 0) && (complement != 0)) score += 4;
if(addr == 0x007fc0 && mapper == 0x20) score += 2; //0x20 is usually LoROM
if(addr == 0x00ffc0 && mapper == 0x21) score += 2; //0x21 is usually HiROM
if(addr == 0x007fc0 && mapper == 0x22) score += 2; //0x22 is usually ExLoROM
if(addr == 0x40ffc0 && mapper == 0x25) score += 2; //0x25 is usually ExHiROM
if(data[addr + Company] == 0x33) score += 2; //0x33 indicates extended header
if(data[addr + RomType] < 0x08) score++;
if(data[addr + RomSize] < 0x10) score++;
if(data[addr + RamSize] < 0x08) score++;
if(data[addr + CartRegion] < 14) score++;
if(score < 0) score = 0;
return score;
}
}
#endif

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*.o

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void Ananke::applyBeatPatch(vector<uint8_t> &buffer) {
string name = {information.path, nall::basename(information.name), ".bps"};
if(!file::exists(name)) return;
bpspatch patch;
if(patch.modify(name) == false) return;
patch.source(buffer.data(), buffer.size());
vector<uint8_t> output;
output.resize(patch.size());
patch.target(output.data(), output.size());
if(patch.apply() == bpspatch::result::success) {
buffer = output;
information.manifest = patch.metadata();
}
}

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resource name=resource
binary id=home name=home.png
binary id=up name=up.png
binary id=folder name=folder.png
binary id=file name=file.png
binary id=archive name=archive.png

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namespace resource {
const uint8_t home[606] = {
137,80,78,71,13,10,26,10,0,0,0,13,73,72,68,82,0,0,0,16,0,0,0,16,8,6,0,0,0,31,243,255,
97,0,0,0,6,98,75,71,68,0,0,0,0,0,0,249,67,187,127,0,0,0,9,112,72,89,115,0,0,13,215,0,
0,13,215,1,66,40,155,120,0,0,0,7,116,73,77,69,7,213,10,14,20,37,19,83,42,210,59,0,0,1,235,73,
68,65,84,56,203,149,147,191,107,83,81,20,128,191,123,251,222,75,211,64,242,36,160,85,135,100,81,123,19,104,85,172,
17,92,28,140,66,19,167,135,212,74,39,145,162,163,24,92,58,180,110,193,169,254,24,234,212,37,139,245,199,96,19,240,
15,240,63,16,121,91,92,196,90,219,240,98,81,137,33,121,215,33,246,217,151,80,33,103,186,92,206,247,221,115,14,231,
194,1,225,41,85,172,128,174,128,246,148,122,200,48,177,7,123,74,105,79,169,61,73,113,104,120,177,56,163,203,55,111,
252,87,34,250,225,154,235,110,20,148,98,253,220,89,182,39,78,113,228,240,56,39,188,38,83,107,107,212,92,151,130,82,
215,14,185,110,117,64,176,31,126,83,156,97,247,248,49,148,202,50,22,141,210,106,181,24,219,252,74,182,92,30,144,136,
126,184,122,251,22,157,100,146,116,42,77,42,149,2,64,107,104,183,219,236,214,235,156,44,149,66,18,177,31,126,247,160,
68,199,48,201,229,46,96,219,118,208,154,214,26,0,223,247,249,185,181,69,114,110,46,144,136,10,232,130,82,188,127,84,
198,107,54,57,63,157,35,30,143,35,132,8,9,124,223,15,206,134,16,140,230,243,212,92,23,3,184,3,172,78,157,62,
195,253,210,61,54,170,111,3,240,201,202,51,86,30,63,69,139,17,116,167,133,48,70,209,221,223,44,47,45,209,238,165,
204,202,121,120,190,48,153,33,17,79,0,160,212,4,153,140,34,155,205,244,94,20,146,145,244,149,222,196,83,121,144,22,
90,107,22,38,51,204,195,186,236,239,211,178,44,76,211,196,48,140,224,254,75,227,7,0,31,234,59,116,187,126,144,11,
48,32,144,82,34,165,196,146,159,1,232,96,241,241,83,3,128,111,222,47,58,34,18,90,36,99,96,179,254,14,207,231,
40,0,151,46,78,115,53,26,67,234,113,46,75,147,237,77,66,21,24,253,21,252,155,126,239,165,239,222,14,162,217,56,
112,245,3,65,36,18,193,182,109,18,137,4,2,137,16,16,139,197,112,28,103,0,178,44,43,252,23,174,207,58,175,0,
135,225,98,245,229,139,215,119,255,0,86,248,213,163,133,187,128,26,0,0,0,0,73,69,78,68,174,66,96,130,
};
const uint8_t up[652] = {
137,80,78,71,13,10,26,10,0,0,0,13,73,72,68,82,0,0,0,16,0,0,0,16,8,6,0,0,0,31,243,255,
97,0,0,0,4,115,66,73,84,8,8,8,8,124,8,100,136,0,0,0,25,116,69,88,116,83,111,102,116,119,97,114,
101,0,119,119,119,46,105,110,107,115,99,97,112,101,46,111,114,103,155,238,60,26,0,0,2,30,73,68,65,84,56,141,
149,147,79,104,19,65,20,198,191,55,187,51,217,141,133,122,104,76,255,209,130,4,237,193,64,42,168,208,213,138,104,68,
98,69,45,20,114,107,74,201,73,144,98,22,193,171,199,82,145,160,23,15,69,79,30,165,66,241,226,77,42,94,68,80,
208,67,41,180,42,149,148,52,137,166,154,38,217,217,25,15,81,172,33,169,246,29,223,251,230,199,124,223,155,33,173,53,
218,213,201,155,124,30,0,150,102,189,233,118,26,214,110,224,184,60,221,223,21,73,246,117,29,76,58,46,79,239,9,224,
184,60,26,16,251,178,87,206,76,6,199,70,147,193,128,8,102,29,151,71,255,11,224,184,188,3,132,197,137,115,211,214,
150,151,199,150,183,137,248,200,37,11,132,69,199,229,29,255,4,16,225,209,232,112,162,167,55,52,72,159,75,31,240,177,
244,30,157,157,157,20,27,58,209,13,194,195,93,1,142,203,211,253,7,34,137,179,71,199,249,74,254,13,12,198,97,50,
142,87,107,11,136,13,29,23,161,253,61,137,230,60,216,142,195,81,193,237,108,42,225,218,235,229,101,104,242,32,132,137,
58,125,199,54,21,241,46,255,28,23,78,95,13,154,166,248,43,15,182,211,247,212,88,198,82,228,161,34,75,16,1,1,
30,224,40,203,117,8,219,64,65,174,162,168,86,113,254,212,69,139,216,159,60,216,111,223,241,99,227,221,135,250,98,148,
175,172,193,228,6,56,55,80,81,5,84,141,175,16,54,131,176,25,150,191,189,64,184,55,68,71,14,15,135,137,53,242,
160,145,140,153,30,232,142,100,111,76,220,177,5,15,64,65,194,135,135,215,185,5,188,45,60,131,100,21,16,35,36,6,
50,208,90,67,41,160,94,175,225,241,211,249,74,177,180,57,99,18,67,234,83,110,197,158,185,119,185,225,137,163,122,247,
250,19,171,44,115,240,141,109,112,193,192,76,130,193,9,115,15,110,87,101,77,91,191,236,7,137,33,101,46,205,122,78,
211,38,180,214,10,165,250,23,48,131,96,112,6,30,104,64,100,77,91,47,231,60,218,245,29,0,128,210,62,126,212,139,
141,43,251,26,178,174,160,85,235,63,99,182,106,250,74,162,90,219,134,50,53,160,21,124,73,240,189,61,0,164,47,17,
31,188,6,98,0,49,2,17,246,0,32,108,220,186,63,25,110,37,38,194,70,115,239,39,48,247,197,219,182,208,154,34,
0,0,0,0,73,69,78,68,174,66,96,130,
};
const uint8_t folder[1176] = {
137,80,78,71,13,10,26,10,0,0,0,13,73,72,68,82,0,0,0,32,0,0,0,32,8,6,0,0,0,115,122,122,
244,0,0,0,4,115,66,73,84,8,8,8,8,124,8,100,136,0,0,0,9,112,72,89,115,0,0,13,215,0,0,13,
215,1,66,40,155,120,0,0,0,25,116,69,88,116,83,111,102,116,119,97,114,101,0,119,119,119,46,105,110,107,115,99,
97,112,101,46,111,114,103,155,238,60,26,0,0,4,21,73,68,65,84,88,133,237,151,61,111,28,69,24,199,127,51,187,
119,123,175,246,57,145,48,9,5,86,148,194,31,0,9,5,33,83,110,149,130,26,137,2,90,58,62,64,36,62,64,74,
132,68,133,104,161,67,72,167,64,23,201,138,2,138,210,69,194,198,196,40,22,198,247,186,119,222,151,153,157,25,138,123,
201,58,119,142,19,114,82,40,248,75,143,118,118,118,247,121,126,243,60,51,179,187,34,12,67,94,167,228,107,141,254,95,
0,240,1,110,220,184,225,43,165,126,54,198,188,119,209,3,66,136,220,90,251,249,195,135,15,191,92,25,64,154,166,91,
149,74,229,157,155,55,111,250,73,146,224,156,3,192,90,11,48,63,159,182,253,59,119,238,220,222,222,222,254,254,209,163,
71,199,43,1,80,74,101,213,106,213,29,29,29,209,233,116,112,206,45,53,0,33,4,155,155,155,249,193,193,193,71,192,
237,149,0,104,173,211,44,203,196,165,75,27,24,99,176,214,158,9,92,204,132,16,130,106,181,90,63,60,60,252,98,123,
123,251,214,172,127,153,156,115,218,90,251,241,222,222,222,143,207,5,0,178,44,203,188,78,167,75,167,211,153,3,204,142,
179,32,197,64,91,91,91,245,70,163,65,179,217,68,8,129,16,2,0,41,229,188,29,69,17,247,238,221,187,5,60,31,
224,242,229,203,105,191,223,247,54,54,90,104,173,23,0,150,149,98,166,56,142,1,230,16,69,139,227,24,99,76,237,188,
224,115,128,221,221,93,117,237,218,53,217,235,245,230,25,0,150,130,204,178,81,212,108,196,197,224,82,202,25,64,229,66,
0,0,99,140,109,54,215,100,154,102,220,63,180,220,221,63,27,228,188,58,63,171,25,204,228,153,22,206,93,185,206,219,
31,232,226,61,158,39,190,93,255,253,155,79,206,0,56,231,116,183,219,245,187,221,46,143,59,13,62,253,240,93,174,191,
181,81,112,54,61,62,47,250,18,200,105,207,60,206,147,206,152,175,190,187,255,254,236,188,152,1,221,104,212,171,90,107,
212,31,146,102,181,204,254,223,99,162,56,159,140,108,233,104,207,35,17,11,77,1,52,42,62,42,211,8,65,103,118,121,
190,21,27,99,116,191,63,160,219,237,18,103,150,122,181,132,53,147,27,228,212,193,179,134,59,207,220,83,179,19,179,214,
145,100,134,52,203,193,137,249,6,86,44,65,86,169,4,180,90,45,50,35,168,5,37,172,83,120,114,53,175,139,113,154,
83,111,250,140,134,57,214,186,39,11,0,121,158,171,40,26,209,239,15,208,230,13,170,129,143,115,14,79,158,155,231,23,
147,131,81,170,209,185,37,240,37,113,170,173,49,249,209,2,128,49,38,43,151,75,84,155,27,172,213,202,56,64,10,177,
188,248,47,40,227,28,163,84,147,91,135,231,9,130,178,199,105,146,41,33,196,201,2,128,181,54,27,141,198,28,15,20,
235,245,75,232,220,190,210,232,51,109,137,51,3,78,224,79,253,148,61,201,232,84,229,130,167,147,176,152,129,212,247,125,
188,32,160,73,153,76,217,11,131,76,230,152,195,186,201,62,97,236,196,84,110,151,173,72,156,131,193,40,181,185,115,139,
0,214,218,100,60,30,211,25,248,84,90,101,162,68,147,233,233,75,8,200,141,69,27,135,206,45,185,153,110,203,47,153,
149,68,25,134,227,196,19,210,91,90,130,84,8,129,12,26,148,74,62,163,68,19,37,154,84,25,148,182,47,29,108,153,
226,44,231,52,209,62,231,148,32,142,227,83,122,81,133,74,13,30,159,196,12,99,189,212,209,191,145,0,134,177,66,25,
83,250,245,234,94,47,124,252,12,128,181,54,6,129,245,107,100,185,37,138,53,74,95,60,15,94,84,82,10,78,134,9,
82,200,56,220,221,157,59,62,51,7,146,36,33,74,12,87,175,4,84,3,143,160,188,186,111,86,41,4,105,170,144,82,
12,139,253,197,18,36,0,154,18,235,85,143,122,105,21,85,127,42,231,28,253,36,65,88,59,88,0,104,183,219,98,103,
103,199,68,177,98,112,234,248,243,100,136,236,190,226,14,184,68,199,199,67,155,36,195,7,187,237,118,45,12,195,120,14,
0,120,81,20,253,244,203,161,248,76,173,227,255,182,255,202,31,187,103,228,192,2,88,157,30,28,63,248,225,235,226,53,
49,251,53,107,183,219,205,96,109,237,205,90,208,218,116,56,41,133,92,201,18,200,141,49,42,75,107,185,16,121,62,58,
233,1,127,133,97,216,91,0,152,66,72,32,96,146,153,124,21,0,83,5,64,10,168,48,12,207,44,45,241,255,207,233,
235,6,248,7,188,50,165,151,203,8,55,43,0,0,0,0,73,69,78,68,174,66,96,130,
};
const uint8_t file[844] = {
137,80,78,71,13,10,26,10,0,0,0,13,73,72,68,82,0,0,0,32,0,0,0,32,8,6,0,0,0,115,122,122,
244,0,0,0,4,115,66,73,84,8,8,8,8,124,8,100,136,0,0,3,3,73,68,65,84,88,133,229,151,79,110,212,
48,24,197,127,182,227,56,81,39,116,36,132,0,169,167,226,2,101,209,93,239,192,150,37,171,46,43,245,4,92,164,183,
40,82,89,21,36,134,84,76,18,59,44,90,91,142,243,103,50,21,59,62,201,138,227,120,236,247,189,247,252,37,3,255,
123,136,116,224,234,234,234,67,150,101,55,64,165,148,66,74,137,115,14,107,109,104,93,215,133,107,220,95,26,3,118,93,
215,125,188,185,185,249,26,239,151,141,16,9,113,125,113,113,81,61,247,195,120,223,247,131,121,241,253,202,126,117,121,121,
121,13,44,3,176,214,110,1,110,111,111,17,66,32,165,12,87,41,37,74,41,148,82,8,33,80,74,177,221,110,209,90,
15,158,167,125,33,4,251,253,158,166,105,182,233,126,50,29,232,251,30,33,68,104,64,88,208,55,207,78,215,117,24,99,
70,191,247,109,77,140,24,112,206,133,13,98,6,210,38,165,164,40,138,48,127,42,60,16,159,200,20,168,17,3,206,185,
17,11,177,4,49,40,231,28,77,211,28,204,114,137,141,17,0,107,109,232,207,177,224,159,41,165,208,90,31,100,97,9,
200,36,3,233,230,233,189,181,150,60,207,41,203,146,186,174,233,186,46,204,91,202,124,21,0,207,192,156,9,1,140,49,
20,69,65,93,215,100,89,70,158,231,3,173,231,50,127,17,128,88,123,127,239,105,55,198,96,140,161,109,219,85,174,95,
13,96,202,132,41,35,62,218,182,5,240,213,110,113,211,163,25,72,179,23,66,208,52,13,90,235,80,92,252,243,199,199,
199,229,244,97,210,172,7,37,136,93,47,165,164,170,42,178,44,67,8,193,201,201,73,232,151,101,57,152,63,197,194,139,
37,136,77,168,181,198,90,27,42,97,215,117,97,222,210,113,92,205,128,215,50,205,222,103,16,75,226,156,11,12,120,64,
62,203,41,38,142,146,32,213,190,239,123,172,181,225,69,228,105,143,193,214,117,141,115,110,86,134,163,0,196,11,11,33,
200,178,140,170,170,6,115,235,186,14,114,120,79,40,165,70,155,28,205,64,74,181,7,32,165,28,248,195,24,67,158,231,
1,172,82,106,117,89,158,5,144,158,231,212,7,113,40,165,6,12,120,169,210,170,184,20,171,142,161,47,54,177,254,254,
236,123,205,227,58,177,219,237,86,3,152,250,34,26,80,37,132,96,179,217,80,150,229,200,96,155,205,6,173,245,96,190,
49,38,48,177,6,196,162,9,189,15,178,44,27,140,123,96,109,219,142,36,136,95,90,107,98,214,3,177,9,211,240,99,
190,8,77,197,161,162,52,11,32,149,96,238,37,3,79,18,164,0,60,232,135,135,135,17,107,171,1,132,135,82,6,157,
227,240,0,119,187,221,8,160,63,5,167,167,167,65,138,163,62,201,226,5,189,235,167,88,232,251,30,173,245,36,56,95,
71,252,247,229,82,164,167,160,146,82,254,234,251,254,213,217,217,89,24,156,211,185,40,138,197,197,211,242,155,231,249,14,
120,7,252,4,246,41,128,10,120,115,127,127,255,249,252,252,252,19,80,46,174,190,50,242,60,167,105,26,132,16,127,238,
238,238,190,0,239,1,5,124,7,92,156,90,14,188,5,94,3,91,192,60,79,252,23,241,135,167,100,107,224,7,240,13,
248,13,19,127,78,159,55,46,158,1,173,43,103,135,195,1,45,79,180,239,129,96,140,191,182,58,238,12,241,249,173,246,
0,0,0,0,73,69,78,68,174,66,96,130,
};
const uint8_t archive[1067] = {
137,80,78,71,13,10,26,10,0,0,0,13,73,72,68,82,0,0,0,32,0,0,0,32,8,6,0,0,0,115,122,122,
244,0,0,0,4,115,66,73,84,8,8,8,8,124,8,100,136,0,0,3,226,73,68,65,84,88,133,237,150,95,136,212,
85,20,199,63,231,222,251,251,253,102,102,103,255,142,166,27,150,150,88,144,102,127,31,218,40,49,200,36,136,68,200,30,
20,218,212,13,89,84,8,138,30,138,222,10,122,232,205,212,44,89,55,145,192,146,32,168,232,37,42,208,212,84,212,165,
32,162,168,101,21,203,221,213,253,51,237,56,51,191,223,189,61,252,134,217,217,117,86,155,26,240,161,253,194,225,222,115,
239,253,157,251,189,231,158,223,57,23,102,49,139,255,59,228,90,147,189,47,164,151,26,63,120,51,12,243,107,156,184,60,
14,59,229,75,135,2,130,234,70,5,45,114,196,89,121,233,185,247,198,142,215,68,96,223,150,166,37,126,144,58,168,148,
190,115,249,163,107,82,205,109,237,68,81,136,32,24,63,0,229,163,76,2,209,1,202,76,138,232,4,202,11,80,58,32,
180,206,253,240,117,143,244,159,250,232,47,27,113,209,138,125,165,115,87,246,208,117,9,236,239,106,190,77,18,254,137,101,
43,58,91,231,45,186,67,141,12,156,117,103,15,127,38,78,0,231,112,81,30,163,4,163,193,211,130,209,130,167,193,76,
235,39,146,45,100,30,123,195,93,56,190,215,133,131,167,213,207,231,70,115,69,203,182,141,239,142,247,84,238,167,43,149,
3,93,201,5,36,147,199,239,93,221,221,182,248,129,213,122,252,66,31,167,191,249,88,10,133,43,216,40,196,218,8,37,
160,68,80,10,180,18,148,18,180,2,53,173,47,46,79,225,242,79,114,83,199,139,146,255,227,20,173,137,208,27,30,203,
175,122,250,65,51,240,233,201,98,223,85,30,120,191,171,97,94,50,149,60,185,108,229,166,246,246,37,29,218,141,253,138,
23,52,80,140,38,157,100,157,5,107,65,25,68,123,177,168,88,40,181,162,13,136,46,27,78,54,207,167,144,27,167,175,
119,45,162,52,191,93,24,155,112,214,110,234,220,147,61,88,38,208,179,49,61,55,104,76,29,107,91,176,116,161,56,114,
67,3,125,233,71,158,121,141,230,185,183,146,27,57,55,121,95,162,64,52,136,138,5,13,74,226,13,69,202,115,18,7,
40,0,65,67,134,200,193,151,59,214,227,108,33,151,12,252,68,54,151,15,113,172,239,220,147,61,36,123,55,55,181,25,
99,135,1,252,32,117,62,44,230,191,187,253,190,39,215,221,179,122,27,209,200,47,224,44,206,89,112,46,182,234,92,172,
151,250,255,100,204,207,220,69,118,228,34,95,125,240,242,69,92,120,38,178,246,9,0,177,108,85,198,68,111,3,160,100,
205,149,98,126,69,208,152,121,106,249,170,173,68,163,191,99,139,19,216,98,14,23,94,41,139,13,167,233,197,220,117,199,
242,127,158,165,113,206,34,238,94,185,161,69,180,30,182,74,47,22,56,234,20,59,167,252,5,7,182,207,57,252,248,230,
221,15,167,51,11,175,153,31,254,11,190,221,191,61,55,116,254,199,141,157,187,42,98,0,96,95,119,211,67,98,237,81,
165,117,81,68,121,162,52,206,70,53,152,118,51,206,136,196,182,28,46,111,163,40,0,120,126,79,86,166,16,112,32,31,
118,55,183,0,20,109,116,169,99,237,171,12,28,235,169,110,177,70,220,124,255,58,190,255,124,7,158,210,109,0,158,248,
197,103,119,13,102,1,76,153,37,56,118,143,94,6,232,221,146,38,145,74,147,76,165,235,66,32,72,54,2,176,161,100,
191,18,230,170,213,37,40,109,240,147,13,117,33,160,141,55,227,220,140,4,180,241,240,19,245,241,128,54,126,237,4,140,
246,8,18,245,241,128,249,247,30,184,145,4,60,143,160,78,49,96,252,242,21,248,64,225,90,4,2,160,21,226,138,103,
252,20,184,90,114,65,21,136,66,169,114,209,189,5,24,3,46,1,81,53,2,205,64,198,41,111,112,184,255,204,220,204,
194,142,210,112,69,146,113,149,9,199,149,117,87,117,77,220,14,245,247,97,197,27,2,230,151,246,140,74,36,166,16,208,
37,221,251,226,244,196,91,216,157,175,11,97,75,141,231,173,10,135,25,249,228,196,196,59,64,2,240,168,120,135,76,207,
249,173,64,166,212,6,196,119,86,15,20,0,5,100,137,79,126,30,40,86,35,0,144,4,90,74,155,207,24,164,53,34,
36,190,143,81,96,28,38,31,183,215,171,122,245,170,138,51,87,170,89,220,104,252,13,162,179,143,166,193,167,182,66,0,
0,0,0,73,69,78,68,174,66,96,130,
};
};

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namespace resource {
extern const uint8_t home[606];
extern const uint8_t up[652];
extern const uint8_t folder[1176];
extern const uint8_t file[844];
extern const uint8_t archive[1067];
};

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ananke/sufami-turbo.cpp Normal file
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void Ananke::copySufamiTurboSaves(const string &pathname) {
if(!file::exists({pathname, "save.ram"})) {
if(file::exists({information.path, nall::basename(information.name), ".srm"})) {
file::copy({information.path, nall::basename(information.name), ".srm"}, {pathname, "save.ram"});
}
}
}
string Ananke::createSufamiTurboDatabase(vector<uint8_t> &buffer, Markup::Node &document, const string &manifest) {
string pathname = {
libraryPath, "Sufami Turbo/",
document["release/information/name"].text(),
" (", document["release/information/region"].text(), ")",
" (", document["release/information/revision"].text(), ")",
".st/"
};
directory::create(pathname);
//strip "release" root node from database entry (since a single game manifest isn't part of a database)
string markup = manifest;
markup.replace("\n ", "\n");
markup.replace("information", "\ninformation");
markup.ltrim<1>("release\n");
file::write({pathname, "manifest.bml"}, markup);
file::write({pathname, "program.rom"}, buffer);
copySufamiTurboSaves(pathname);
return pathname;
}
string Ananke::createSufamiTurboHeuristic(vector<uint8_t> &buffer) {
string pathname = {
libraryPath, "Sufami Turbo/",
nall::basename(information.name),
".st/"
};
directory::create(pathname);
file::write({pathname, "manifest.bml"}, {
"unverified\n",
"\n",
"cartridge\n",
" rom name=program.rom size=0x", hex(buffer.size()), "\n",
" ram name=save.ram size=0x2000\n",
"\n",
"information\n",
" title: ", nall::basename(information.name), "\n"
});
file::write({pathname, "program.rom"}, buffer);
copySufamiTurboSaves(pathname);
return pathname;
}
string Ananke::openSufamiTurbo(vector<uint8_t> &buffer) {
string sha256 = nall::sha256(buffer.data(), buffer.size());
string databaseText = string::read({configpath(), "ananke/database/Sufami Turbo.bml"}).strip();
if(databaseText.empty()) databaseText = string{Database::SufamiTurbo}.strip();
lstring databaseItem = databaseText.split("\n\n");
for(auto &item : databaseItem) {
item.append("\n");
auto document = Markup::Document(item);
if(document["release/information/sha256"].text() == sha256) {
return createSufamiTurboDatabase(buffer, document, item);
}
}
return createSufamiTurboHeuristic(buffer);
}
string Ananke::syncSufamiTurbo(const string &pathname) {
auto buffer = file::read({pathname, "program.rom"});
if(buffer.size() == 0) return "";
auto save = file::read({pathname, "save.ram"});
if(save.size() == 0) save = file::read({pathname, "save.rwm"});
directory::remove(pathname);
information.path = pathname;
information.name = notdir(string{pathname}.rtrim<1>("/"));
string outputPath = openSufamiTurbo(buffer);
if(save.size()) file::write({outputPath, "save.ram"}, save);
return outputPath;
}

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void Ananke::copySuperFamicomSaves(const string &pathname) {
if(!file::exists({pathname, "save.ram"})) {
if(file::exists({information.path, nall::basename(information.name), ".srm"})) {
file::copy({information.path, nall::basename(information.name), ".srm"}, {pathname, "save.ram"});
}
}
if(!file::exists({pathname, "rtc.ram"})) {
if(file::exists({information.path, nall::basename(information.name), ".rtc"})) {
file::copy({information.path, nall::basename(information.name), ".rtc"}, {pathname, "rtc.ram"});
}
}
}
string Ananke::createSuperFamicomDatabase(vector<uint8_t> &buffer, Markup::Node &document, const string &manifest) {
string pathname = {
libraryPath, "Super Famicom/",
document["release/information/name"].text(),
" (", document["release/information/region"].text(), ")",
" (", document["release/information/revision"].text(), ")",
".sfc/"
};
directory::create(pathname);
//strip "release" root node from database entry (since a single game manifest isn't part of a database)
string markup = manifest;
markup.replace("\n ", "\n");
markup.replace("information", "\ninformation");
markup.ltrim<1>("release\n");
file::write({pathname, "manifest.bml"}, markup);
unsigned offset = 0;
for(auto &node : document["release/information/configuration"]) {
if(node.name != "rom") continue;
string name = node["name"].text();
unsigned size = node["size"].decimal();
file::write({pathname, name}, buffer.data() + offset, size);
offset += size;
}
copySuperFamicomSaves(pathname);
return pathname;
}
string Ananke::createSuperFamicomHeuristic(vector<uint8_t> &buffer) {
string pathname = {
libraryPath, "Super Famicom/",
nall::basename(information.name),
".sfc/"
};
directory::create(pathname);
if((buffer.size() & 0x7fff) == 512) buffer.remove(0, 512); //strip copier header, if present
SuperFamicomCartridge info(buffer.data(), buffer.size());
string markup = {"unverified\n\n", info.markup};
markup.append("\ninformation\n title: ", nall::basename(information.name), "\n");
if(!information.manifest.empty()) markup = information.manifest; //override with embedded beat manifest, if one exists
information.manifest = markup; //save for use with firmware routine below
file::write({pathname, "manifest.bml"}, markup);
if(!markup.find("spc7110")) {
file::write({pathname, "program.rom"}, buffer.data(), info.rom_size);
} else {
file::write({pathname, "program.rom"}, buffer.data(), 0x100000);
file::write({pathname, "data.rom"}, buffer.data() + 0x100000, info.rom_size - 0x100000);
}
createSuperFamicomHeuristicFirmware(buffer, pathname, info.firmware_appended);
copySuperFamicomSaves(pathname);
return pathname;
}
void Ananke::createSuperFamicomHeuristicFirmware(vector<uint8_t> &buffer, const string &pathname, bool firmware_appended) {
auto copyFirmwareInternal = [&](const string &name, unsigned programSize, unsigned dataSize, unsigned bootSize) {
//firmware appended directly onto .sfc file
string basename = nall::basename(name);
if(programSize) file::write({pathname, basename, ".program.rom"}, buffer.data() + buffer.size() - programSize - dataSize - bootSize, programSize);
if(dataSize) file::write({pathname, basename, ".data.rom"}, buffer.data() + buffer.size() - dataSize - bootSize, dataSize);
if(bootSize) file::write({pathname, basename, ".boot.rom"}, buffer.data() + buffer.size() - bootSize, bootSize);
};
auto copyFirmwareExternal = [&](const string &name, unsigned programSize, unsigned dataSize, unsigned bootSize) {
//firmware stored in external file
auto buffer = file::read({information.path, name}); //try and read from the containing directory
if(buffer.size() == 0) buffer = extractFile(name); //try and read from the containing archive, if one exists
if(buffer.size() == 0) {
if(thread::primary()) MessageWindow().setText({
"Error: ", information.name, "\n\n",
"Required firmware ", name, " not found. Game will not be playable!\n\n",
"You must obtain this file, and place it in the same folder as this game."
}).error();
return;
}
string basename = nall::basename(name);
if(programSize) file::write({pathname, basename, ".program.rom"}, buffer.data(), programSize);
if(dataSize) file::write({pathname, basename, ".data.rom"}, buffer.data() + programSize, dataSize);
if(bootSize) file::write({pathname, basename, ".boot.rom"}, buffer.data() + programSize + dataSize, bootSize);
};
auto copyFirmware = [&](const string &name, unsigned programSize, unsigned dataSize, unsigned bootSize = 0) {
if(firmware_appended == 1) copyFirmwareInternal(name, programSize, dataSize, bootSize);
if(firmware_appended == 0) copyFirmwareExternal(name, programSize, dataSize, bootSize);
};
string markup = information.manifest;
if(markup.find("dsp1.program.rom" )) copyFirmware("dsp1.rom", 0x001800, 0x000800);
if(markup.find("dsp1b.program.rom")) copyFirmware("dsp1b.rom", 0x001800, 0x000800);
if(markup.find("dsp2.program.rom" )) copyFirmware("dsp2.rom", 0x001800, 0x000800);
if(markup.find("dsp3.program.rom" )) copyFirmware("dsp3.rom", 0x001800, 0x000800);
if(markup.find("dsp4.program.rom" )) copyFirmware("dsp4.rom", 0x001800, 0x000800);
if(markup.find("st010.program.rom")) copyFirmware("st010.rom", 0x00c000, 0x001000);
if(markup.find("st011.program.rom")) copyFirmware("st011.rom", 0x00c000, 0x001000);
if(markup.find("st018.program.rom")) copyFirmware("st018.rom", 0x020000, 0x008000);
if(markup.find("cx4.data.rom" )) copyFirmware("cx4.rom", 0x000000, 0x000c00);
if(markup.find("sgb.boot.rom" )) copyFirmware("sgb.rom", 0x000000, 0x000000, 0x000100);
}
string Ananke::openSuperFamicom(vector<uint8_t> &buffer) {
string sha256 = nall::sha256(buffer.data(), buffer.size());
string databaseText = string::read({configpath(), "ananke/database/Super Famicom.bml"}).strip();
if(databaseText.empty()) databaseText = string{Database::SuperFamicom}.strip();
lstring databaseItem = databaseText.split("\n\n");
for(auto &item : databaseItem) {
item.append("\n");
auto document = Markup::Document(item);
if(document["release/information/sha256"].text() == sha256) {
return createSuperFamicomDatabase(buffer, document, item);
}
}
return createSuperFamicomHeuristic(buffer);
}
string Ananke::syncSuperFamicom(const string &pathname) {
if(file::exists({pathname, "msu1.rom"})) return ""; //cannot update MSU1 games
vector<uint8_t> buffer;
auto append = [&](string filename) {
filename = {pathname, filename};
auto data = file::read(filename);
if(data.size() == 0) return; //file does not exist
unsigned position = buffer.size();
buffer.resize(buffer.size() + data.size());
memcpy(buffer.data() + position, data.data(), data.size());
};
append("program.rom");
append("data.rom");
append("dsp1.rom");
append("dsp1.program.rom");
append("dsp1.data.rom");
append("dsp1b.rom");
append("dsp1b.program.rom");
append("dsp1b.data.rom");
append("dsp2.rom");
append("dsp2.program.rom");
append("dsp2.data.rom");
append("dsp3.rom");
append("dsp3.program.rom");
append("dsp3.data.rom");
append("dsp4.rom");
append("dsp4.program.rom");
append("dsp4.data.rom");
append("st010.rom");
append("st010.program.rom");
append("st010.data.rom");
append("st011.rom");
append("st011.program.rom");
append("st011.data.rom");
append("st018.rom");
append("st018.program.rom");
append("st018.data.rom");
append("cx4.rom");
append("cx4.data.rom");
append("sgb.rom");
append("sgb.boot.rom");
if(buffer.size() == 0) return "";
auto save = file::read({pathname, "save.ram"});
if(save.size() == 0) save = file::read({pathname, "save.rwm"});
auto rtc = file::read({pathname, "rtc.ram"});
if(rtc.size() == 0) rtc= file::read({pathname, "rtc.rwm"});
directory::remove(pathname);
information.path = pathname;
information.name = notdir(string{pathname}.rtrim<1>("/"));
string outputPath = openSuperFamicom(buffer);
if(save.size()) file::write({outputPath, "save.ram"}, save);
if(rtc.size()) file::write({outputPath, "rtc.ram"}, save);
return outputPath;
}

2
bsnes/cc.bat
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@@ -1,2 +0,0 @@
@mingw32-make -j 8
@pause

BIN
bsnes/data/bsnes.ico
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bsnes/data/bsnes.png
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112663
bsnes/data/cheats.xml
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3812
bsnes/data/laevateinn.hpp
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18
bsnes/gameboy/Makefile
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@@ -1,18 +0,0 @@
options += gameboy
gameboy_objects := gameboy-interface gameboy-system gameboy-scheduler
gameboy_objects += gameboy-memory gameboy-cartridge
gameboy_objects += gameboy-cpu gameboy-apu gameboy-lcd
gameboy_objects += gameboy-cheat gameboy-video
objects += $(gameboy_objects)
obj/gameboy-interface.o: $(gameboy)/interface/interface.cpp $(call rwildcard,$(gameboy)/interface/)
obj/gameboy-system.o: $(gameboy)/system/system.cpp $(call rwildcard,$(gameboy)/system/)
obj/gameboy-scheduler.o: $(gameboy)/scheduler/scheduler.cpp $(call rwildcard,$(gameboy)/scheduler/)
obj/gameboy-cartridge.o: $(gameboy)/cartridge/cartridge.cpp $(call rwildcard,$(gameboy)/cartridge/)
obj/gameboy-memory.o: $(gameboy)/memory/memory.cpp $(call rwildcard,$(gameboy)/memory/)
obj/gameboy-cpu.o: $(gameboy)/cpu/cpu.cpp $(call rwildcard,$(gameboy)/cpu/)
obj/gameboy-apu.o: $(gameboy)/apu/apu.cpp $(call rwildcard,$(gameboy)/apu/)
obj/gameboy-lcd.o: $(gameboy)/lcd/lcd.cpp $(call rwildcard,$(gameboy)/lcd/)
obj/gameboy-cheat.o: $(gameboy)/cheat/cheat.cpp $(call rwildcard,$(gameboy)/cheat/)
obj/gameboy-video.o: $(gameboy)/video/video.cpp $(call rwildcard,$(gameboy)/video/)

153
bsnes/gameboy/cartridge/cartridge.cpp
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@@ -1,153 +0,0 @@
#include <gameboy/gameboy.hpp>
#include <nall/crc32.hpp>
#define CARTRIDGE_CPP
namespace GameBoy {
#include "mbc0/mbc0.cpp"
#include "mbc1/mbc1.cpp"
#include "mbc2/mbc2.cpp"
#include "mbc3/mbc3.cpp"
#include "mbc5/mbc5.cpp"
#include "mmm01/mmm01.cpp"
#include "huc1/huc1.cpp"
#include "huc3/huc3.cpp"
#include "serialization.cpp"
Cartridge cartridge;
void Cartridge::load(System::Revision revision, const string &markup, const uint8_t *data, unsigned size) {
if(size == 0) size = 32768;
romdata = allocate<uint8>(romsize = size, 0xff);
if(data) memcpy(romdata, data, size);
info.mapper = Mapper::Unknown;
info.ram = false;
info.battery = false;
info.rtc = false;
info.rumble = false;
info.romsize = 0;
info.ramsize = 0;
XML::Document document(markup);
auto &mapperid = document["cartridge"]["mapper"].data;
if(mapperid == "none" ) info.mapper = Mapper::MBC0;
if(mapperid == "MBC1" ) info.mapper = Mapper::MBC1;
if(mapperid == "MBC2" ) info.mapper = Mapper::MBC2;
if(mapperid == "MBC3" ) info.mapper = Mapper::MBC3;
if(mapperid == "MBC5" ) info.mapper = Mapper::MBC5;
if(mapperid == "MMM01") info.mapper = Mapper::MMM01;
if(mapperid == "HuC1" ) info.mapper = Mapper::HuC1;
if(mapperid == "HuC3" ) info.mapper = Mapper::HuC3;
info.rtc = document["cartridge"]["rtc"].data == "true";
info.rumble = document["cartridge"]["rumble"].data == "true";
info.romsize = numeral(document["cartridge"]["rom"]["size"].data);
info.ramsize = numeral(document["cartridge"]["ram"]["size"].data);
info.battery = document["cartridge"]["ram"]["battery"].data == "true";
switch(info.mapper) { default:
case Mapper::MBC0: mapper = &mbc0; break;
case Mapper::MBC1: mapper = &mbc1; break;
case Mapper::MBC2: mapper = &mbc2; break;
case Mapper::MBC3: mapper = &mbc3; break;
case Mapper::MBC5: mapper = &mbc5; break;
case Mapper::MMM01: mapper = &mmm01; break;
case Mapper::HuC1: mapper = &huc1; break;
case Mapper::HuC3: mapper = &huc3; break;
}
ramdata = new uint8_t[ramsize = info.ramsize]();
system.load(revision);
loaded = true;
sha256 = nall::sha256(romdata, romsize);
}
void Cartridge::unload() {
if(loaded == false) return;
if(romdata) { delete[] romdata; romdata = 0; }
if(ramdata) { delete[] ramdata; ramdata = 0; }
loaded = false;
}
uint8 Cartridge::rom_read(unsigned addr) {
if(addr >= romsize) addr %= romsize;
return romdata[addr];
}
void Cartridge::rom_write(unsigned addr, uint8 data) {
if(addr >= romsize) addr %= romsize;
romdata[addr] = data;
}
uint8 Cartridge::ram_read(unsigned addr) {
if(ramsize == 0) return 0x00;
if(addr >= ramsize) addr %= ramsize;
return ramdata[addr];
}
void Cartridge::ram_write(unsigned addr, uint8 data) {
if(ramsize == 0) return;
if(addr >= ramsize) addr %= ramsize;
ramdata[addr] = data;
}
uint8 Cartridge::mmio_read(uint16 addr) {
if(addr == 0xff50) return 0x00;
if(bootrom_enable) {
const uint8 *data = nullptr;
switch(system.revision()) { default:
case System::Revision::GameBoy: data = System::BootROM::dmg; break;
case System::Revision::SuperGameBoy: data = System::BootROM::sgb; break;
case System::Revision::GameBoyColor: data = System::BootROM::cgb; break;
}
if(addr >= 0x0000 && addr <= 0x00ff) return data[addr];
if(addr >= 0x0200 && addr <= 0x08ff && system.cgb()) return data[addr - 256];
}
return mapper->mmio_read(addr);
}
void Cartridge::mmio_write(uint16 addr, uint8 data) {
if(bootrom_enable && addr == 0xff50) {
bootrom_enable = false;
return;
}
mapper->mmio_write(addr, data);
}
void Cartridge::power() {
bootrom_enable = true;
mbc0.power();
mbc1.power();
mbc2.power();
mbc3.power();
mbc5.power();
mmm01.power();
huc1.power();
huc3.power();
for(unsigned n = 0x0000; n <= 0x7fff; n++) bus.mmio[n] = this;
for(unsigned n = 0xa000; n <= 0xbfff; n++) bus.mmio[n] = this;
bus.mmio[0xff50] = this;
}
Cartridge::Cartridge() {
loaded = false;
romdata = 0;
ramdata = 0;
}
Cartridge::~Cartridge() {
unload();
}
}

91
bsnes/gameboy/cheat/cheat.cpp
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@@ -1,91 +0,0 @@
#include <gameboy/gameboy.hpp>
namespace GameBoy {
Cheat cheat;
bool Cheat::decode(const string &code_, unsigned &addr, unsigned &data, unsigned &comp) {
static bool initialize = false;
static uint8 mapProActionReplay[256], mapGameGenie[256];
if(initialize == false) {
initialize = true;
for(auto &n : mapProActionReplay) n = ~0;
mapProActionReplay['0'] = 0; mapProActionReplay['1'] = 1; mapProActionReplay['2'] = 2; mapProActionReplay['3'] = 3;
mapProActionReplay['4'] = 4; mapProActionReplay['5'] = 5; mapProActionReplay['6'] = 6; mapProActionReplay['7'] = 7;
mapProActionReplay['8'] = 8; mapProActionReplay['9'] = 9; mapProActionReplay['A'] = 10; mapProActionReplay['B'] = 11;
mapProActionReplay['C'] = 12; mapProActionReplay['D'] = 13; mapProActionReplay['E'] = 14; mapProActionReplay['F'] = 15;
for(auto &n : mapGameGenie) n = ~0;
mapGameGenie['0'] = 0; mapGameGenie['1'] = 1; mapGameGenie['2'] = 2; mapGameGenie['3'] = 3;
mapGameGenie['4'] = 4; mapGameGenie['5'] = 5; mapGameGenie['6'] = 6; mapGameGenie['7'] = 7;
mapGameGenie['8'] = 8; mapGameGenie['9'] = 9; mapGameGenie['A'] = 10; mapGameGenie['B'] = 11;
mapGameGenie['C'] = 12; mapGameGenie['D'] = 13; mapGameGenie['E'] = 14; mapGameGenie['F'] = 15;
}
string code = code_;
code.upper();
unsigned length = code.length(), bits = 0;
if(code.wildcard("????:??")) {
code = { substr(code, 0, 4), substr(code, 5, 2) };
for(unsigned n = 0; n < 6; n++) if(mapProActionReplay[code[n]] > 15) return false;
bits = hex(code);
addr = (bits >> 8) & 0xffff;
data = (bits >> 0) & 0xff;
comp = ~0;
return true;
}
if(code.wildcard("????:??:??")) {
code = { substr(code, 0, 4), substr(code, 5, 2), substr(code, 8, 2) };
for(unsigned n = 0; n < 8; n++) if(mapProActionReplay[code[n]] > 15) return false;
bits = hex(code);
addr = (bits >> 16) & 0xffff;
data = (bits >> 8) & 0xff;
comp = (bits >> 0) & 0xff;
return true;
}
if(code.wildcard("???" "-" "???")) {
code = { substr(code, 0, 3), substr(code, 4, 3) };
for(unsigned n = 0; n < 6; n++) if(mapGameGenie[code[n]] > 15) return false;
for(unsigned n = 0; n < 6; n++) bits |= mapGameGenie[code[n]] << (20 - n * 4);
addr = (bits >> 0) & 0xffff;
data = (bits >> 16) & 0xff;
comp = ~0;
addr = (((addr >> 4) | (addr << 12)) & 0xffff) ^ 0xf000;
return true;
}
if(code.wildcard("???" "-" "???" "-" "???")) {
code = { substr(code, 0, 3), substr(code, 4, 3), substr(code, 8, 1), substr(code, 10, 1) };
for(unsigned n = 0; n < 8; n++) if(mapGameGenie[code[n]] > 15) return false;
for(unsigned n = 0; n < 8; n++) bits |= mapGameGenie[code[n]] << (28 - n * 4);
addr = (bits >> 8) & 0xffff;
data = (bits >> 24) & 0xff;
comp = (bits >> 0) & 0xff;
addr = (((addr >> 4) | (addr << 12)) & 0xffff) ^ 0xf000;
comp = (((comp >> 2) | (comp << 6)) & 0xff) ^ 0xba;
return true;
}
return false;
}
void Cheat::synchronize() {
for(auto &n : override) n = false;
for(unsigned n = 0; n < size(); n++) {
override[operator[](n).addr] = true;
}
}
}

14
bsnes/gameboy/cheat/cheat.hpp
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@@ -1,14 +0,0 @@
struct CheatCode {
unsigned addr;
unsigned data;
unsigned comp;
};
struct Cheat : public linear_vector<CheatCode> {
static bool decode(const string &code, unsigned &addr, unsigned &data, unsigned &comp);
void synchronize();
bool override[65536];
};
extern Cheat cheat;

145
bsnes/gameboy/cpu/core/core.hpp
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@@ -1,145 +0,0 @@
#include "registers.hpp"
void (CPU::*opcode_table[256])();
void (CPU::*opcode_table_cb[256])();
void initialize_opcode_table();
void op_xx();
void op_cb();
//8-bit load commands
template<unsigned x, unsigned y> void op_ld_r_r();
template<unsigned x> void op_ld_r_n();
template<unsigned x> void op_ld_r_hl();
template<unsigned x> void op_ld_hl_r();
void op_ld_hl_n();
template<unsigned x> void op_ld_a_rr();
void op_ld_a_nn();
template<unsigned x> void op_ld_rr_a();
void op_ld_nn_a();
void op_ld_a_ffn();
void op_ld_ffn_a();
void op_ld_a_ffc();
void op_ld_ffc_a();
void op_ldi_hl_a();
void op_ldi_a_hl();
void op_ldd_hl_a();
void op_ldd_a_hl();
//16-bit load commands
template<unsigned x> void op_ld_rr_nn();
void op_ld_nn_sp();
void op_ld_sp_hl();
template<unsigned x> void op_push_rr();
template<unsigned x> void op_pop_rr();
//8-bit arithmetic commands
void opi_add_a(uint8 x);
template<unsigned x> void op_add_a_r();
void op_add_a_n();
void op_add_a_hl();
void opi_adc_a(uint8 x);
template<unsigned x> void op_adc_a_r();
void op_adc_a_n();
void op_adc_a_hl();
void opi_sub_a(uint8 x);
template<unsigned x> void op_sub_a_r();
void op_sub_a_n();
void op_sub_a_hl();
void opi_sbc_a(uint8 x);
template<unsigned x> void op_sbc_a_r();
void op_sbc_a_n();
void op_sbc_a_hl();
void opi_and_a(uint8 x);
template<unsigned x> void op_and_a_r();
void op_and_a_n();
void op_and_a_hl();
void opi_xor_a(uint8 x);
template<unsigned x> void op_xor_a_r();
void op_xor_a_n();
void op_xor_a_hl();
void opi_or_a(uint8 x);
template<unsigned x> void op_or_a_r();
void op_or_a_n();
void op_or_a_hl();
void opi_cp_a(uint8 x);
template<unsigned x> void op_cp_a_r();
void op_cp_a_n();
void op_cp_a_hl();
template<unsigned x> void op_inc_r();
void op_inc_hl();
template<unsigned x> void op_dec_r();
void op_dec_hl();
void op_daa();
void op_cpl();
//16-bit arithmetic commands
template<unsigned x> void op_add_hl_rr();
template<unsigned x> void op_inc_rr();
template<unsigned x> void op_dec_rr();
void op_add_sp_n();
void op_ld_hl_sp_n();
//rotate/shift commands
void op_rlca();
void op_rla();
void op_rrca();
void op_rra();
template<unsigned x> void op_rlc_r();
void op_rlc_hl();
template<unsigned x> void op_rl_r();
void op_rl_hl();
template<unsigned x> void op_rrc_r();
void op_rrc_hl();
template<unsigned x> void op_rr_r();
void op_rr_hl();
template<unsigned x> void op_sla_r();
void op_sla_hl();
template<unsigned x> void op_swap_r();
void op_swap_hl();
template<unsigned x> void op_sra_r();
void op_sra_hl();
template<unsigned x> void op_srl_r();
void op_srl_hl();
//single-bit commands
template<unsigned b, unsigned x> void op_bit_n_r();
template<unsigned b> void op_bit_n_hl();
template<unsigned b, unsigned x> void op_set_n_r();
template<unsigned b> void op_set_n_hl();
template<unsigned b, unsigned x> void op_res_n_r();
template<unsigned b> void op_res_n_hl();
//control commands
void op_ccf();
void op_scf();
void op_nop();
void op_halt();
void op_stop();
void op_di();
void op_ei();
//jump commands
void op_jp_nn();
void op_jp_hl();
template<unsigned x, bool y> void op_jp_f_nn();
void op_jr_n();
template<unsigned x, bool y> void op_jr_f_n();
void op_call_nn();
template<unsigned x, bool y> void op_call_f_nn();
void op_ret();
template<unsigned x, bool y> void op_ret_f();
void op_reti();
template<unsigned n> void op_rst_n();
//disassembler.cpp
string disassemble(uint16 pc);
string disassemble_opcode(uint16 pc);
string disassemble_opcode_cb(uint16 pc);

519
bsnes/gameboy/cpu/core/table.cpp
View File

@@ -1,519 +0,0 @@
#ifdef CPU_CPP
void CPU::initialize_opcode_table() {
opcode_table[0x00] = &CPU::op_nop;
opcode_table[0x01] = &CPU::op_ld_rr_nn<BC>;
opcode_table[0x02] = &CPU::op_ld_rr_a<BC>;
opcode_table[0x03] = &CPU::op_inc_rr<BC>;
opcode_table[0x04] = &CPU::op_inc_r<B>;
opcode_table[0x05] = &CPU::op_dec_r<B>;
opcode_table[0x06] = &CPU::op_ld_r_n<B>;
opcode_table[0x07] = &CPU::op_rlca;
opcode_table[0x08] = &CPU::op_ld_nn_sp;
opcode_table[0x09] = &CPU::op_add_hl_rr<BC>;
opcode_table[0x0a] = &CPU::op_ld_a_rr<BC>;
opcode_table[0x0b] = &CPU::op_dec_rr<BC>;
opcode_table[0x0c] = &CPU::op_inc_r<C>;
opcode_table[0x0d] = &CPU::op_dec_r<C>;
opcode_table[0x0e] = &CPU::op_ld_r_n<C>;
opcode_table[0x0f] = &CPU::op_rrca;
opcode_table[0x10] = &CPU::op_stop;
opcode_table[0x11] = &CPU::op_ld_rr_nn<DE>;
opcode_table[0x12] = &CPU::op_ld_rr_a<DE>;
opcode_table[0x13] = &CPU::op_inc_rr<DE>;
opcode_table[0x14] = &CPU::op_inc_r<D>;
opcode_table[0x15] = &CPU::op_dec_r<D>;
opcode_table[0x16] = &CPU::op_ld_r_n<D>;
opcode_table[0x17] = &CPU::op_rla;
opcode_table[0x18] = &CPU::op_jr_n;
opcode_table[0x19] = &CPU::op_add_hl_rr<DE>;
opcode_table[0x1a] = &CPU::op_ld_a_rr<DE>;
opcode_table[0x1b] = &CPU::op_dec_rr<DE>;
opcode_table[0x1c] = &CPU::op_inc_r<E>;
opcode_table[0x1d] = &CPU::op_dec_r<E>;
opcode_table[0x1e] = &CPU::op_ld_r_n<E>;
opcode_table[0x1f] = &CPU::op_rra;
opcode_table[0x20] = &CPU::op_jr_f_n<ZF, 0>;
opcode_table[0x21] = &CPU::op_ld_rr_nn<HL>;
opcode_table[0x22] = &CPU::op_ldi_hl_a;
opcode_table[0x23] = &CPU::op_inc_rr<HL>;
opcode_table[0x24] = &CPU::op_inc_r<H>;
opcode_table[0x25] = &CPU::op_dec_r<H>;
opcode_table[0x26] = &CPU::op_ld_r_n<H>;
opcode_table[0x27] = &CPU::op_daa;
opcode_table[0x28] = &CPU::op_jr_f_n<ZF, 1>;
opcode_table[0x29] = &CPU::op_add_hl_rr<HL>;
opcode_table[0x2a] = &CPU::op_ldi_a_hl;
opcode_table[0x2b] = &CPU::op_dec_rr<HL>;
opcode_table[0x2c] = &CPU::op_inc_r<L>;
opcode_table[0x2d] = &CPU::op_dec_r<L>;
opcode_table[0x2e] = &CPU::op_ld_r_n<L>;
opcode_table[0x2f] = &CPU::op_cpl;
opcode_table[0x30] = &CPU::op_jr_f_n<CF, 0>;
opcode_table[0x31] = &CPU::op_ld_rr_nn<SP>;
opcode_table[0x32] = &CPU::op_ldd_hl_a;
opcode_table[0x33] = &CPU::op_inc_rr<SP>;
opcode_table[0x34] = &CPU::op_inc_hl;
opcode_table[0x35] = &CPU::op_dec_hl;
opcode_table[0x36] = &CPU::op_ld_hl_n;
opcode_table[0x37] = &CPU::op_scf;
opcode_table[0x38] = &CPU::op_jr_f_n<CF, 1>;
opcode_table[0x39] = &CPU::op_add_hl_rr<SP>;
opcode_table[0x3a] = &CPU::op_ldd_a_hl;
opcode_table[0x3b] = &CPU::op_dec_rr<SP>;
opcode_table[0x3c] = &CPU::op_inc_r<A>;
opcode_table[0x3d] = &CPU::op_dec_r<A>;
opcode_table[0x3e] = &CPU::op_ld_r_n<A>;
opcode_table[0x3f] = &CPU::op_ccf;
opcode_table[0x40] = &CPU::op_ld_r_r<B, B>;
opcode_table[0x41] = &CPU::op_ld_r_r<B, C>;
opcode_table[0x42] = &CPU::op_ld_r_r<B, D>;
opcode_table[0x43] = &CPU::op_ld_r_r<B, E>;
opcode_table[0x44] = &CPU::op_ld_r_r<B, H>;
opcode_table[0x45] = &CPU::op_ld_r_r<B, L>;
opcode_table[0x46] = &CPU::op_ld_r_hl<B>;
opcode_table[0x47] = &CPU::op_ld_r_r<B, A>;
opcode_table[0x48] = &CPU::op_ld_r_r<C, B>;
opcode_table[0x49] = &CPU::op_ld_r_r<C, C>;
opcode_table[0x4a] = &CPU::op_ld_r_r<C, D>;
opcode_table[0x4b] = &CPU::op_ld_r_r<C, E>;
opcode_table[0x4c] = &CPU::op_ld_r_r<C, H>;
opcode_table[0x4d] = &CPU::op_ld_r_r<C, L>;
opcode_table[0x4e] = &CPU::op_ld_r_hl<C>;
opcode_table[0x4f] = &CPU::op_ld_r_r<C, A>;
opcode_table[0x50] = &CPU::op_ld_r_r<D, B>;
opcode_table[0x51] = &CPU::op_ld_r_r<D, C>;
opcode_table[0x52] = &CPU::op_ld_r_r<D, D>;
opcode_table[0x53] = &CPU::op_ld_r_r<D, E>;
opcode_table[0x54] = &CPU::op_ld_r_r<D, H>;
opcode_table[0x55] = &CPU::op_ld_r_r<D, L>;
opcode_table[0x56] = &CPU::op_ld_r_hl<D>;
opcode_table[0x57] = &CPU::op_ld_r_r<D, A>;
opcode_table[0x58] = &CPU::op_ld_r_r<E, B>;
opcode_table[0x59] = &CPU::op_ld_r_r<E, C>;
opcode_table[0x5a] = &CPU::op_ld_r_r<E, D>;
opcode_table[0x5b] = &CPU::op_ld_r_r<E, E>;
opcode_table[0x5c] = &CPU::op_ld_r_r<E, H>;
opcode_table[0x5d] = &CPU::op_ld_r_r<E, L>;
opcode_table[0x5e] = &CPU::op_ld_r_hl<E>;
opcode_table[0x5f] = &CPU::op_ld_r_r<E, A>;
opcode_table[0x60] = &CPU::op_ld_r_r<H, B>;
opcode_table[0x61] = &CPU::op_ld_r_r<H, C>;
opcode_table[0x62] = &CPU::op_ld_r_r<H, D>;
opcode_table[0x63] = &CPU::op_ld_r_r<H, E>;
opcode_table[0x64] = &CPU::op_ld_r_r<H, H>;
opcode_table[0x65] = &CPU::op_ld_r_r<H, L>;
opcode_table[0x66] = &CPU::op_ld_r_hl<H>;
opcode_table[0x67] = &CPU::op_ld_r_r<H, A>;
opcode_table[0x68] = &CPU::op_ld_r_r<L, B>;
opcode_table[0x69] = &CPU::op_ld_r_r<L, C>;
opcode_table[0x6a] = &CPU::op_ld_r_r<L, D>;
opcode_table[0x6b] = &CPU::op_ld_r_r<L, E>;
opcode_table[0x6c] = &CPU::op_ld_r_r<L, H>;
opcode_table[0x6d] = &CPU::op_ld_r_r<L, L>;
opcode_table[0x6e] = &CPU::op_ld_r_hl<L>;
opcode_table[0x6f] = &CPU::op_ld_r_r<L, A>;
opcode_table[0x70] = &CPU::op_ld_hl_r<B>;
opcode_table[0x71] = &CPU::op_ld_hl_r<C>;
opcode_table[0x72] = &CPU::op_ld_hl_r<D>;
opcode_table[0x73] = &CPU::op_ld_hl_r<E>;
opcode_table[0x74] = &CPU::op_ld_hl_r<H>;
opcode_table[0x75] = &CPU::op_ld_hl_r<L>;
opcode_table[0x76] = &CPU::op_halt;
opcode_table[0x77] = &CPU::op_ld_hl_r<A>;
opcode_table[0x78] = &CPU::op_ld_r_r<A, B>;
opcode_table[0x79] = &CPU::op_ld_r_r<A, C>;
opcode_table[0x7a] = &CPU::op_ld_r_r<A, D>;
opcode_table[0x7b] = &CPU::op_ld_r_r<A, E>;
opcode_table[0x7c] = &CPU::op_ld_r_r<A, H>;
opcode_table[0x7d] = &CPU::op_ld_r_r<A, L>;
opcode_table[0x7e] = &CPU::op_ld_r_hl<A>;
opcode_table[0x7f] = &CPU::op_ld_r_r<A, A>;
opcode_table[0x80] = &CPU::op_add_a_r<B>;
opcode_table[0x81] = &CPU::op_add_a_r<C>;
opcode_table[0x82] = &CPU::op_add_a_r<D>;
opcode_table[0x83] = &CPU::op_add_a_r<E>;
opcode_table[0x84] = &CPU::op_add_a_r<H>;
opcode_table[0x85] = &CPU::op_add_a_r<L>;
opcode_table[0x86] = &CPU::op_add_a_hl;
opcode_table[0x87] = &CPU::op_add_a_r<A>;
opcode_table[0x88] = &CPU::op_adc_a_r<B>;
opcode_table[0x89] = &CPU::op_adc_a_r<C>;
opcode_table[0x8a] = &CPU::op_adc_a_r<D>;
opcode_table[0x8b] = &CPU::op_adc_a_r<E>;
opcode_table[0x8c] = &CPU::op_adc_a_r<H>;
opcode_table[0x8d] = &CPU::op_adc_a_r<L>;
opcode_table[0x8e] = &CPU::op_adc_a_hl;
opcode_table[0x8f] = &CPU::op_adc_a_r<A>;
opcode_table[0x90] = &CPU::op_sub_a_r<B>;
opcode_table[0x91] = &CPU::op_sub_a_r<C>;
opcode_table[0x92] = &CPU::op_sub_a_r<D>;
opcode_table[0x93] = &CPU::op_sub_a_r<E>;
opcode_table[0x94] = &CPU::op_sub_a_r<H>;
opcode_table[0x95] = &CPU::op_sub_a_r<L>;
opcode_table[0x96] = &CPU::op_sub_a_hl;
opcode_table[0x97] = &CPU::op_sub_a_r<A>;
opcode_table[0x98] = &CPU::op_sbc_a_r<B>;
opcode_table[0x99] = &CPU::op_sbc_a_r<C>;
opcode_table[0x9a] = &CPU::op_sbc_a_r<D>;
opcode_table[0x9b] = &CPU::op_sbc_a_r<E>;
opcode_table[0x9c] = &CPU::op_sbc_a_r<H>;
opcode_table[0x9d] = &CPU::op_sbc_a_r<L>;
opcode_table[0x9e] = &CPU::op_sbc_a_hl;
opcode_table[0x9f] = &CPU::op_sbc_a_r<A>;
opcode_table[0xa0] = &CPU::op_and_a_r<B>;
opcode_table[0xa1] = &CPU::op_and_a_r<C>;
opcode_table[0xa2] = &CPU::op_and_a_r<D>;
opcode_table[0xa3] = &CPU::op_and_a_r<E>;
opcode_table[0xa4] = &CPU::op_and_a_r<H>;
opcode_table[0xa5] = &CPU::op_and_a_r<L>;
opcode_table[0xa6] = &CPU::op_and_a_hl;
opcode_table[0xa7] = &CPU::op_and_a_r<A>;
opcode_table[0xa8] = &CPU::op_xor_a_r<B>;
opcode_table[0xa9] = &CPU::op_xor_a_r<C>;
opcode_table[0xaa] = &CPU::op_xor_a_r<D>;
opcode_table[0xab] = &CPU::op_xor_a_r<E>;
opcode_table[0xac] = &CPU::op_xor_a_r<H>;
opcode_table[0xad] = &CPU::op_xor_a_r<L>;
opcode_table[0xae] = &CPU::op_xor_a_hl;
opcode_table[0xaf] = &CPU::op_xor_a_r<A>;
opcode_table[0xb0] = &CPU::op_or_a_r<B>;
opcode_table[0xb1] = &CPU::op_or_a_r<C>;
opcode_table[0xb2] = &CPU::op_or_a_r<D>;
opcode_table[0xb3] = &CPU::op_or_a_r<E>;
opcode_table[0xb4] = &CPU::op_or_a_r<H>;
opcode_table[0xb5] = &CPU::op_or_a_r<L>;
opcode_table[0xb6] = &CPU::op_or_a_hl;
opcode_table[0xb7] = &CPU::op_or_a_r<A>;
opcode_table[0xb8] = &CPU::op_cp_a_r<B>;
opcode_table[0xb9] = &CPU::op_cp_a_r<C>;
opcode_table[0xba] = &CPU::op_cp_a_r<D>;
opcode_table[0xbb] = &CPU::op_cp_a_r<E>;
opcode_table[0xbc] = &CPU::op_cp_a_r<H>;
opcode_table[0xbd] = &CPU::op_cp_a_r<L>;
opcode_table[0xbe] = &CPU::op_cp_a_hl;
opcode_table[0xbf] = &CPU::op_cp_a_r<A>;
opcode_table[0xc0] = &CPU::op_ret_f<ZF, 0>;
opcode_table[0xc1] = &CPU::op_pop_rr<BC>;
opcode_table[0xc2] = &CPU::op_jp_f_nn<ZF, 0>;
opcode_table[0xc3] = &CPU::op_jp_nn;
opcode_table[0xc4] = &CPU::op_call_f_nn<ZF, 0>;
opcode_table[0xc5] = &CPU::op_push_rr<BC>;
opcode_table[0xc6] = &CPU::op_add_a_n;
opcode_table[0xc7] = &CPU::op_rst_n<0x00>;
opcode_table[0xc8] = &CPU::op_ret_f<ZF, 1>;
opcode_table[0xc9] = &CPU::op_ret;
opcode_table[0xca] = &CPU::op_jp_f_nn<ZF, 1>;
opcode_table[0xcb] = &CPU::op_cb;
opcode_table[0xcc] = &CPU::op_call_f_nn<ZF, 1>;
opcode_table[0xcd] = &CPU::op_call_nn;
opcode_table[0xce] = &CPU::op_adc_a_n;
opcode_table[0xcf] = &CPU::op_rst_n<0x08>;
opcode_table[0xd0] = &CPU::op_ret_f<CF, 0>;
opcode_table[0xd1] = &CPU::op_pop_rr<DE>;
opcode_table[0xd2] = &CPU::op_jp_f_nn<CF, 0>;
opcode_table[0xd3] = &CPU::op_xx;
opcode_table[0xd4] = &CPU::op_call_f_nn<CF, 0>;
opcode_table[0xd5] = &CPU::op_push_rr<DE>;
opcode_table[0xd6] = &CPU::op_sub_a_n;
opcode_table[0xd7] = &CPU::op_rst_n<0x10>;
opcode_table[0xd8] = &CPU::op_ret_f<CF, 1>;
opcode_table[0xd9] = &CPU::op_reti;
opcode_table[0xda] = &CPU::op_jp_f_nn<CF, 1>;
opcode_table[0xdb] = &CPU::op_xx;
opcode_table[0xdc] = &CPU::op_call_f_nn<CF, 1>;
opcode_table[0xdd] = &CPU::op_xx;
opcode_table[0xde] = &CPU::op_sbc_a_n;
opcode_table[0xdf] = &CPU::op_rst_n<0x18>;
opcode_table[0xe0] = &CPU::op_ld_ffn_a;
opcode_table[0xe1] = &CPU::op_pop_rr<HL>;
opcode_table[0xe2] = &CPU::op_ld_ffc_a;
opcode_table[0xe3] = &CPU::op_xx;
opcode_table[0xe4] = &CPU::op_xx;
opcode_table[0xe5] = &CPU::op_push_rr<HL>;
opcode_table[0xe6] = &CPU::op_and_a_n;
opcode_table[0xe7] = &CPU::op_rst_n<0x20>;
opcode_table[0xe8] = &CPU::op_add_sp_n;
opcode_table[0xe9] = &CPU::op_jp_hl;
opcode_table[0xea] = &CPU::op_ld_nn_a;
opcode_table[0xeb] = &CPU::op_xx;
opcode_table[0xec] = &CPU::op_xx;
opcode_table[0xed] = &CPU::op_xx;
opcode_table[0xee] = &CPU::op_xor_a_n;
opcode_table[0xef] = &CPU::op_rst_n<0x28>;
opcode_table[0xf0] = &CPU::op_ld_a_ffn;
opcode_table[0xf1] = &CPU::op_pop_rr<AF>;
opcode_table[0xf2] = &CPU::op_ld_a_ffc;
opcode_table[0xf3] = &CPU::op_di;
opcode_table[0xf4] = &CPU::op_xx;
opcode_table[0xf5] = &CPU::op_push_rr<AF>;
opcode_table[0xf6] = &CPU::op_or_a_n;
opcode_table[0xf7] = &CPU::op_rst_n<0x30>;
opcode_table[0xf8] = &CPU::op_ld_hl_sp_n;
opcode_table[0xf9] = &CPU::op_ld_sp_hl;
opcode_table[0xfa] = &CPU::op_ld_a_nn;
opcode_table[0xfb] = &CPU::op_ei;
opcode_table[0xfc] = &CPU::op_xx;
opcode_table[0xfd] = &CPU::op_xx;
opcode_table[0xfe] = &CPU::op_cp_a_n;
opcode_table[0xff] = &CPU::op_rst_n<0x38>;
opcode_table_cb[0x00] = &CPU::op_rlc_r<B>;
opcode_table_cb[0x01] = &CPU::op_rlc_r<C>;
opcode_table_cb[0x02] = &CPU::op_rlc_r<D>;
opcode_table_cb[0x03] = &CPU::op_rlc_r<E>;
opcode_table_cb[0x04] = &CPU::op_rlc_r<H>;
opcode_table_cb[0x05] = &CPU::op_rlc_r<L>;
opcode_table_cb[0x06] = &CPU::op_rlc_hl;
opcode_table_cb[0x07] = &CPU::op_rlc_r<A>;
opcode_table_cb[0x08] = &CPU::op_rrc_r<B>;
opcode_table_cb[0x09] = &CPU::op_rrc_r<C>;
opcode_table_cb[0x0a] = &CPU::op_rrc_r<D>;
opcode_table_cb[0x0b] = &CPU::op_rrc_r<E>;
opcode_table_cb[0x0c] = &CPU::op_rrc_r<H>;
opcode_table_cb[0x0d] = &CPU::op_rrc_r<L>;
opcode_table_cb[0x0e] = &CPU::op_rrc_hl;
opcode_table_cb[0x0f] = &CPU::op_rrc_r<A>;
opcode_table_cb[0x10] = &CPU::op_rl_r<B>;
opcode_table_cb[0x11] = &CPU::op_rl_r<C>;
opcode_table_cb[0x12] = &CPU::op_rl_r<D>;
opcode_table_cb[0x13] = &CPU::op_rl_r<E>;
opcode_table_cb[0x14] = &CPU::op_rl_r<H>;
opcode_table_cb[0x15] = &CPU::op_rl_r<L>;
opcode_table_cb[0x16] = &CPU::op_rl_hl;
opcode_table_cb[0x17] = &CPU::op_rl_r<A>;
opcode_table_cb[0x18] = &CPU::op_rr_r<B>;
opcode_table_cb[0x19] = &CPU::op_rr_r<C>;
opcode_table_cb[0x1a] = &CPU::op_rr_r<D>;
opcode_table_cb[0x1b] = &CPU::op_rr_r<E>;
opcode_table_cb[0x1c] = &CPU::op_rr_r<H>;
opcode_table_cb[0x1d] = &CPU::op_rr_r<L>;
opcode_table_cb[0x1e] = &CPU::op_rr_hl;
opcode_table_cb[0x1f] = &CPU::op_rr_r<A>;
opcode_table_cb[0x20] = &CPU::op_sla_r<B>;
opcode_table_cb[0x21] = &CPU::op_sla_r<C>;
opcode_table_cb[0x22] = &CPU::op_sla_r<D>;
opcode_table_cb[0x23] = &CPU::op_sla_r<E>;
opcode_table_cb[0x24] = &CPU::op_sla_r<H>;
opcode_table_cb[0x25] = &CPU::op_sla_r<L>;
opcode_table_cb[0x26] = &CPU::op_sla_hl;
opcode_table_cb[0x27] = &CPU::op_sla_r<A>;
opcode_table_cb[0x28] = &CPU::op_sra_r<B>;
opcode_table_cb[0x29] = &CPU::op_sra_r<C>;
opcode_table_cb[0x2a] = &CPU::op_sra_r<D>;
opcode_table_cb[0x2b] = &CPU::op_sra_r<E>;
opcode_table_cb[0x2c] = &CPU::op_sra_r<H>;
opcode_table_cb[0x2d] = &CPU::op_sra_r<L>;
opcode_table_cb[0x2e] = &CPU::op_sra_hl;
opcode_table_cb[0x2f] = &CPU::op_sra_r<A>;
opcode_table_cb[0x30] = &CPU::op_swap_r<B>;
opcode_table_cb[0x31] = &CPU::op_swap_r<C>;
opcode_table_cb[0x32] = &CPU::op_swap_r<D>;
opcode_table_cb[0x33] = &CPU::op_swap_r<E>;
opcode_table_cb[0x34] = &CPU::op_swap_r<H>;
opcode_table_cb[0x35] = &CPU::op_swap_r<L>;
opcode_table_cb[0x36] = &CPU::op_swap_hl;
opcode_table_cb[0x37] = &CPU::op_swap_r<A>;
opcode_table_cb[0x38] = &CPU::op_srl_r<B>;
opcode_table_cb[0x39] = &CPU::op_srl_r<C>;
opcode_table_cb[0x3a] = &CPU::op_srl_r<D>;
opcode_table_cb[0x3b] = &CPU::op_srl_r<E>;
opcode_table_cb[0x3c] = &CPU::op_srl_r<H>;
opcode_table_cb[0x3d] = &CPU::op_srl_r<L>;
opcode_table_cb[0x3e] = &CPU::op_srl_hl;
opcode_table_cb[0x3f] = &CPU::op_srl_r<A>;
opcode_table_cb[0x40] = &CPU::op_bit_n_r<0, B>;
opcode_table_cb[0x41] = &CPU::op_bit_n_r<0, C>;
opcode_table_cb[0x42] = &CPU::op_bit_n_r<0, D>;
opcode_table_cb[0x43] = &CPU::op_bit_n_r<0, E>;
opcode_table_cb[0x44] = &CPU::op_bit_n_r<0, H>;
opcode_table_cb[0x45] = &CPU::op_bit_n_r<0, L>;
opcode_table_cb[0x46] = &CPU::op_bit_n_hl<0>;
opcode_table_cb[0x47] = &CPU::op_bit_n_r<0, A>;
opcode_table_cb[0x48] = &CPU::op_bit_n_r<1, B>;
opcode_table_cb[0x49] = &CPU::op_bit_n_r<1, C>;
opcode_table_cb[0x4a] = &CPU::op_bit_n_r<1, D>;
opcode_table_cb[0x4b] = &CPU::op_bit_n_r<1, E>;
opcode_table_cb[0x4c] = &CPU::op_bit_n_r<1, H>;
opcode_table_cb[0x4d] = &CPU::op_bit_n_r<1, L>;
opcode_table_cb[0x4e] = &CPU::op_bit_n_hl<1>;
opcode_table_cb[0x4f] = &CPU::op_bit_n_r<1, A>;
opcode_table_cb[0x50] = &CPU::op_bit_n_r<2, B>;
opcode_table_cb[0x51] = &CPU::op_bit_n_r<2, C>;
opcode_table_cb[0x52] = &CPU::op_bit_n_r<2, D>;
opcode_table_cb[0x53] = &CPU::op_bit_n_r<2, E>;
opcode_table_cb[0x54] = &CPU::op_bit_n_r<2, H>;
opcode_table_cb[0x55] = &CPU::op_bit_n_r<2, L>;
opcode_table_cb[0x56] = &CPU::op_bit_n_hl<2>;
opcode_table_cb[0x57] = &CPU::op_bit_n_r<2, A>;
opcode_table_cb[0x58] = &CPU::op_bit_n_r<3, B>;
opcode_table_cb[0x59] = &CPU::op_bit_n_r<3, C>;
opcode_table_cb[0x5a] = &CPU::op_bit_n_r<3, D>;
opcode_table_cb[0x5b] = &CPU::op_bit_n_r<3, E>;
opcode_table_cb[0x5c] = &CPU::op_bit_n_r<3, H>;
opcode_table_cb[0x5d] = &CPU::op_bit_n_r<3, L>;
opcode_table_cb[0x5e] = &CPU::op_bit_n_hl<3>;
opcode_table_cb[0x5f] = &CPU::op_bit_n_r<3, A>;
opcode_table_cb[0x60] = &CPU::op_bit_n_r<4, B>;
opcode_table_cb[0x61] = &CPU::op_bit_n_r<4, C>;
opcode_table_cb[0x62] = &CPU::op_bit_n_r<4, D>;
opcode_table_cb[0x63] = &CPU::op_bit_n_r<4, E>;
opcode_table_cb[0x64] = &CPU::op_bit_n_r<4, H>;
opcode_table_cb[0x65] = &CPU::op_bit_n_r<4, L>;
opcode_table_cb[0x66] = &CPU::op_bit_n_hl<4>;
opcode_table_cb[0x67] = &CPU::op_bit_n_r<4, A>;
opcode_table_cb[0x68] = &CPU::op_bit_n_r<5, B>;
opcode_table_cb[0x69] = &CPU::op_bit_n_r<5, C>;
opcode_table_cb[0x6a] = &CPU::op_bit_n_r<5, D>;
opcode_table_cb[0x6b] = &CPU::op_bit_n_r<5, E>;
opcode_table_cb[0x6c] = &CPU::op_bit_n_r<5, H>;
opcode_table_cb[0x6d] = &CPU::op_bit_n_r<5, L>;
opcode_table_cb[0x6e] = &CPU::op_bit_n_hl<5>;
opcode_table_cb[0x6f] = &CPU::op_bit_n_r<5, A>;
opcode_table_cb[0x70] = &CPU::op_bit_n_r<6, B>;
opcode_table_cb[0x71] = &CPU::op_bit_n_r<6, C>;
opcode_table_cb[0x72] = &CPU::op_bit_n_r<6, D>;
opcode_table_cb[0x73] = &CPU::op_bit_n_r<6, E>;
opcode_table_cb[0x74] = &CPU::op_bit_n_r<6, H>;
opcode_table_cb[0x75] = &CPU::op_bit_n_r<6, L>;
opcode_table_cb[0x76] = &CPU::op_bit_n_hl<6>;
opcode_table_cb[0x77] = &CPU::op_bit_n_r<6, A>;
opcode_table_cb[0x78] = &CPU::op_bit_n_r<7, B>;
opcode_table_cb[0x79] = &CPU::op_bit_n_r<7, C>;
opcode_table_cb[0x7a] = &CPU::op_bit_n_r<7, D>;
opcode_table_cb[0x7b] = &CPU::op_bit_n_r<7, E>;
opcode_table_cb[0x7c] = &CPU::op_bit_n_r<7, H>;
opcode_table_cb[0x7d] = &CPU::op_bit_n_r<7, L>;
opcode_table_cb[0x7e] = &CPU::op_bit_n_hl<7>;
opcode_table_cb[0x7f] = &CPU::op_bit_n_r<7, A>;
opcode_table_cb[0x80] = &CPU::op_res_n_r<0, B>;
opcode_table_cb[0x81] = &CPU::op_res_n_r<0, C>;
opcode_table_cb[0x82] = &CPU::op_res_n_r<0, D>;
opcode_table_cb[0x83] = &CPU::op_res_n_r<0, E>;
opcode_table_cb[0x84] = &CPU::op_res_n_r<0, H>;
opcode_table_cb[0x85] = &CPU::op_res_n_r<0, L>;
opcode_table_cb[0x86] = &CPU::op_res_n_hl<0>;
opcode_table_cb[0x87] = &CPU::op_res_n_r<0, A>;
opcode_table_cb[0x88] = &CPU::op_res_n_r<1, B>;
opcode_table_cb[0x89] = &CPU::op_res_n_r<1, C>;
opcode_table_cb[0x8a] = &CPU::op_res_n_r<1, D>;
opcode_table_cb[0x8b] = &CPU::op_res_n_r<1, E>;
opcode_table_cb[0x8c] = &CPU::op_res_n_r<1, H>;
opcode_table_cb[0x8d] = &CPU::op_res_n_r<1, L>;
opcode_table_cb[0x8e] = &CPU::op_res_n_hl<1>;
opcode_table_cb[0x8f] = &CPU::op_res_n_r<1, A>;
opcode_table_cb[0x90] = &CPU::op_res_n_r<2, B>;
opcode_table_cb[0x91] = &CPU::op_res_n_r<2, C>;
opcode_table_cb[0x92] = &CPU::op_res_n_r<2, D>;
opcode_table_cb[0x93] = &CPU::op_res_n_r<2, E>;
opcode_table_cb[0x94] = &CPU::op_res_n_r<2, H>;
opcode_table_cb[0x95] = &CPU::op_res_n_r<2, L>;
opcode_table_cb[0x96] = &CPU::op_res_n_hl<2>;
opcode_table_cb[0x97] = &CPU::op_res_n_r<2, A>;
opcode_table_cb[0x98] = &CPU::op_res_n_r<3, B>;
opcode_table_cb[0x99] = &CPU::op_res_n_r<3, C>;
opcode_table_cb[0x9a] = &CPU::op_res_n_r<3, D>;
opcode_table_cb[0x9b] = &CPU::op_res_n_r<3, E>;
opcode_table_cb[0x9c] = &CPU::op_res_n_r<3, H>;
opcode_table_cb[0x9d] = &CPU::op_res_n_r<3, L>;
opcode_table_cb[0x9e] = &CPU::op_res_n_hl<3>;
opcode_table_cb[0x9f] = &CPU::op_res_n_r<3, A>;
opcode_table_cb[0xa0] = &CPU::op_res_n_r<4, B>;
opcode_table_cb[0xa1] = &CPU::op_res_n_r<4, C>;
opcode_table_cb[0xa2] = &CPU::op_res_n_r<4, D>;
opcode_table_cb[0xa3] = &CPU::op_res_n_r<4, E>;
opcode_table_cb[0xa4] = &CPU::op_res_n_r<4, H>;
opcode_table_cb[0xa5] = &CPU::op_res_n_r<4, L>;
opcode_table_cb[0xa6] = &CPU::op_res_n_hl<4>;
opcode_table_cb[0xa7] = &CPU::op_res_n_r<4, A>;
opcode_table_cb[0xa8] = &CPU::op_res_n_r<5, B>;
opcode_table_cb[0xa9] = &CPU::op_res_n_r<5, C>;
opcode_table_cb[0xaa] = &CPU::op_res_n_r<5, D>;
opcode_table_cb[0xab] = &CPU::op_res_n_r<5, E>;
opcode_table_cb[0xac] = &CPU::op_res_n_r<5, H>;
opcode_table_cb[0xad] = &CPU::op_res_n_r<5, L>;
opcode_table_cb[0xae] = &CPU::op_res_n_hl<5>;
opcode_table_cb[0xaf] = &CPU::op_res_n_r<5, A>;
opcode_table_cb[0xb0] = &CPU::op_res_n_r<6, B>;
opcode_table_cb[0xb1] = &CPU::op_res_n_r<6, C>;
opcode_table_cb[0xb2] = &CPU::op_res_n_r<6, D>;
opcode_table_cb[0xb3] = &CPU::op_res_n_r<6, E>;
opcode_table_cb[0xb4] = &CPU::op_res_n_r<6, H>;
opcode_table_cb[0xb5] = &CPU::op_res_n_r<6, L>;
opcode_table_cb[0xb6] = &CPU::op_res_n_hl<6>;
opcode_table_cb[0xb7] = &CPU::op_res_n_r<6, A>;
opcode_table_cb[0xb8] = &CPU::op_res_n_r<7, B>;
opcode_table_cb[0xb9] = &CPU::op_res_n_r<7, C>;
opcode_table_cb[0xba] = &CPU::op_res_n_r<7, D>;
opcode_table_cb[0xbb] = &CPU::op_res_n_r<7, E>;
opcode_table_cb[0xbc] = &CPU::op_res_n_r<7, H>;
opcode_table_cb[0xbd] = &CPU::op_res_n_r<7, L>;
opcode_table_cb[0xbe] = &CPU::op_res_n_hl<7>;
opcode_table_cb[0xbf] = &CPU::op_res_n_r<7, A>;
opcode_table_cb[0xc0] = &CPU::op_set_n_r<0, B>;
opcode_table_cb[0xc1] = &CPU::op_set_n_r<0, C>;
opcode_table_cb[0xc2] = &CPU::op_set_n_r<0, D>;
opcode_table_cb[0xc3] = &CPU::op_set_n_r<0, E>;
opcode_table_cb[0xc4] = &CPU::op_set_n_r<0, H>;
opcode_table_cb[0xc5] = &CPU::op_set_n_r<0, L>;
opcode_table_cb[0xc6] = &CPU::op_set_n_hl<0>;
opcode_table_cb[0xc7] = &CPU::op_set_n_r<0, A>;
opcode_table_cb[0xc8] = &CPU::op_set_n_r<1, B>;
opcode_table_cb[0xc9] = &CPU::op_set_n_r<1, C>;
opcode_table_cb[0xca] = &CPU::op_set_n_r<1, D>;
opcode_table_cb[0xcb] = &CPU::op_set_n_r<1, E>;
opcode_table_cb[0xcc] = &CPU::op_set_n_r<1, H>;
opcode_table_cb[0xcd] = &CPU::op_set_n_r<1, L>;
opcode_table_cb[0xce] = &CPU::op_set_n_hl<1>;
opcode_table_cb[0xcf] = &CPU::op_set_n_r<1, A>;
opcode_table_cb[0xd0] = &CPU::op_set_n_r<2, B>;
opcode_table_cb[0xd1] = &CPU::op_set_n_r<2, C>;
opcode_table_cb[0xd2] = &CPU::op_set_n_r<2, D>;
opcode_table_cb[0xd3] = &CPU::op_set_n_r<2, E>;
opcode_table_cb[0xd4] = &CPU::op_set_n_r<2, H>;
opcode_table_cb[0xd5] = &CPU::op_set_n_r<2, L>;
opcode_table_cb[0xd6] = &CPU::op_set_n_hl<2>;
opcode_table_cb[0xd7] = &CPU::op_set_n_r<2, A>;
opcode_table_cb[0xd8] = &CPU::op_set_n_r<3, B>;
opcode_table_cb[0xd9] = &CPU::op_set_n_r<3, C>;
opcode_table_cb[0xda] = &CPU::op_set_n_r<3, D>;
opcode_table_cb[0xdb] = &CPU::op_set_n_r<3, E>;
opcode_table_cb[0xdc] = &CPU::op_set_n_r<3, H>;
opcode_table_cb[0xdd] = &CPU::op_set_n_r<3, L>;
opcode_table_cb[0xde] = &CPU::op_set_n_hl<3>;
opcode_table_cb[0xdf] = &CPU::op_set_n_r<3, A>;
opcode_table_cb[0xe0] = &CPU::op_set_n_r<4, B>;
opcode_table_cb[0xe1] = &CPU::op_set_n_r<4, C>;
opcode_table_cb[0xe2] = &CPU::op_set_n_r<4, D>;
opcode_table_cb[0xe3] = &CPU::op_set_n_r<4, E>;
opcode_table_cb[0xe4] = &CPU::op_set_n_r<4, H>;
opcode_table_cb[0xe5] = &CPU::op_set_n_r<4, L>;
opcode_table_cb[0xe6] = &CPU::op_set_n_hl<4>;
opcode_table_cb[0xe7] = &CPU::op_set_n_r<4, A>;
opcode_table_cb[0xe8] = &CPU::op_set_n_r<5, B>;
opcode_table_cb[0xe9] = &CPU::op_set_n_r<5, C>;
opcode_table_cb[0xea] = &CPU::op_set_n_r<5, D>;
opcode_table_cb[0xeb] = &CPU::op_set_n_r<5, E>;
opcode_table_cb[0xec] = &CPU::op_set_n_r<5, H>;
opcode_table_cb[0xed] = &CPU::op_set_n_r<5, L>;
opcode_table_cb[0xee] = &CPU::op_set_n_hl<5>;
opcode_table_cb[0xef] = &CPU::op_set_n_r<5, A>;
opcode_table_cb[0xf0] = &CPU::op_set_n_r<6, B>;
opcode_table_cb[0xf1] = &CPU::op_set_n_r<6, C>;
opcode_table_cb[0xf2] = &CPU::op_set_n_r<6, D>;
opcode_table_cb[0xf3] = &CPU::op_set_n_r<6, E>;
opcode_table_cb[0xf4] = &CPU::op_set_n_r<6, H>;
opcode_table_cb[0xf5] = &CPU::op_set_n_r<6, L>;
opcode_table_cb[0xf6] = &CPU::op_set_n_hl<6>;
opcode_table_cb[0xf7] = &CPU::op_set_n_r<6, A>;
opcode_table_cb[0xf8] = &CPU::op_set_n_r<7, B>;
opcode_table_cb[0xf9] = &CPU::op_set_n_r<7, C>;
opcode_table_cb[0xfa] = &CPU::op_set_n_r<7, D>;
opcode_table_cb[0xfb] = &CPU::op_set_n_r<7, E>;
opcode_table_cb[0xfc] = &CPU::op_set_n_r<7, H>;
opcode_table_cb[0xfd] = &CPU::op_set_n_r<7, L>;
opcode_table_cb[0xfe] = &CPU::op_set_n_hl<7>;
opcode_table_cb[0xff] = &CPU::op_set_n_r<7, A>;
}
#endif

4
bsnes/gameboy/cpu/mmio/mmio.hpp
View File

@@ -1,4 +0,0 @@
unsigned wram_addr(uint16 addr) const;
void mmio_joyp_poll();
uint8 mmio_read(uint16 addr);
void mmio_write(uint16 addr, uint8 data);

28
bsnes/gameboy/cpu/timing/opcode.cpp
View File

@@ -1,28 +0,0 @@
#ifdef CPU_CPP
void CPU::op_io() {
cycle_edge();
add_clocks(4);
}
uint8 CPU::op_read(uint16 addr) {
cycle_edge();
uint8 r = bus.read(addr);
add_clocks(4);
return r;
}
void CPU::op_write(uint16 addr, uint8 data) {
cycle_edge();
bus.write(addr, data);
add_clocks(4);
}
void CPU::cycle_edge() {
if(status.ei) {
status.ei = false;
status.ime = 1;
}
}
#endif

13
bsnes/gameboy/cpu/timing/timing.hpp
View File

@@ -1,13 +0,0 @@
void add_clocks(unsigned clocks);
void timer_262144hz();
void timer_65536hz();
void timer_16384hz();
void timer_8192hz();
void timer_4096hz();
void hblank();
//opcode.cpp
void op_io();
uint8 op_read(uint16 addr);
void op_write(uint16 addr, uint8 data);
void cycle_edge();

60
bsnes/gameboy/gameboy.hpp
View File

@@ -1,60 +0,0 @@
#ifndef GAMEBOY_HPP
#define GAMEBOY_HPP
#include <base/base.hpp>
namespace GameBoy {
namespace Info {
static const char Name[] = "bgameboy";
static const unsigned SerializerVersion = 3;
}
}
/*
bgameboy - Game Boy, Super Game Boy, and Game Boy Color emulator
author: byuu
license: GPLv3
project started: 2010-12-27
*/
#include <libco/libco.h>
#include <nall/gameboy/cartridge.hpp>
namespace GameBoy {
struct Processor {
cothread_t thread;
unsigned frequency;
int64 clock;
inline void create(void (*entrypoint)(), unsigned frequency) {
if(thread) co_delete(thread);
thread = co_create(65536 * sizeof(void*), entrypoint);
this->frequency = frequency;
clock = 0;
}
inline void serialize(serializer &s) {
s.integer(frequency);
s.integer(clock);
}
inline Processor() : thread(nullptr) {
}
inline ~Processor() {
if(thread) co_delete(thread);
}
};
#include <gameboy/memory/memory.hpp>
#include <gameboy/system/system.hpp>
#include <gameboy/scheduler/scheduler.hpp>
#include <gameboy/cartridge/cartridge.hpp>
#include <gameboy/cpu/cpu.hpp>
#include <gameboy/apu/apu.hpp>
#include <gameboy/lcd/lcd.hpp>
#include <gameboy/cheat/cheat.hpp>
#include <gameboy/video/video.hpp>
};
#endif

27
bsnes/gameboy/interface/interface.cpp
View File

@@ -1,27 +0,0 @@
#include <gameboy/gameboy.hpp>
namespace GameBoy {
Interface *interface = nullptr;
void Interface::lcdScanline() {
}
void Interface::joypWrite(bool p15, bool p14) {
}
void Interface::videoRefresh(const uint16_t *data) {
}
void Interface::audioSample(int16_t center, int16_t left, int16_t right) {
}
bool Interface::inputPoll(unsigned id) {
return false;
}
void Interface::message(const string &text) {
print(text, "\n");
}
}

12
bsnes/gameboy/interface/interface.hpp
View File

@@ -1,12 +0,0 @@
struct Interface {
virtual void lcdScanline();
virtual void joypWrite(bool p15, bool p14);
virtual void videoRefresh(const uint16_t *data);
virtual void audioSample(int16_t center, int16_t left, int16_t right);
virtual bool inputPoll(unsigned id);
virtual void message(const string &text);
};
extern Interface *interface;

185
bsnes/gameboy/lcd/cgb.cpp
View File

@@ -1,185 +0,0 @@
#ifdef LCD_CPP
void LCD::cgb_render() {
for(unsigned n = 0; n < 160; n++) {
line[n] = 0x7fff;
origin[n] = Origin::None;
}
if(status.display_enable) {
cgb_render_bg();
if(status.window_display_enable) cgb_render_window();
if(status.ob_enable) cgb_render_ob();
}
uint16 *output = screen + status.ly * 160;
for(unsigned n = 0; n < 160; n++) output[n] = line[n];
interface->lcdScanline();
}
//Attributes:
//0x80: 0 = OAM priority, 1 = BG priority
//0x40: vertical flip
//0x20: horizontal flip
//0x08: VRAM bank#
//0x07: palette#
void LCD::cgb_read_tile(bool select, unsigned x, unsigned y, unsigned &tile, unsigned &attr, unsigned &data) {
unsigned tmaddr = 0x1800 + (select << 10);
tmaddr += (((y >> 3) << 5) + (x >> 3)) & 0x03ff;
tile = vram[0x0000 + tmaddr];
attr = vram[0x2000 + tmaddr];
unsigned tdaddr = attr & 0x08 ? 0x2000 : 0x0000;
if(status.bg_tiledata_select == 0) {
tdaddr += 0x1000 + ((int8)tile << 4);
} else {
tdaddr += 0x0000 + (tile << 4);
}
y &= 7;
if(attr & 0x40) y ^= 7;
tdaddr += y << 1;
data = vram[tdaddr++] << 0;
data |= vram[tdaddr++] << 8;
if(attr & 0x20) data = hflip(data);
}
void LCD::cgb_render_bg() {
unsigned iy = (status.ly + status.scy) & 255;
unsigned ix = status.scx, tx = ix & 7;
unsigned tile, attr, data;
cgb_read_tile(status.bg_tilemap_select, ix, iy, tile, attr, data);
for(unsigned ox = 0; ox < 160; ox++) {
unsigned index = ((data & (0x0080 >> tx)) ? 1 : 0)
| ((data & (0x8000 >> tx)) ? 2 : 0);
unsigned palette_index = ((attr & 0x07) << 3) + (index << 1);
unsigned palette = 0;
palette |= bgpd[palette_index++] << 0;
palette |= bgpd[palette_index++] << 8;
palette &= 0x7fff;
line[ox] = palette;
origin[ox] = (attr & 0x80 ? Origin::BGP : Origin::BG);
ix = (ix + 1) & 255;
tx = (tx + 1) & 7;
if(tx == 0) cgb_read_tile(status.bg_tilemap_select, ix, iy, tile, attr, data);
}
}
void LCD::cgb_render_window() {
if(status.ly - status.wy >= 144u) return;
if(status.wx >= 167u) return;
unsigned iy = status.wyc++;
unsigned ix = (7 - status.wx) & 255, tx = ix & 7;
unsigned tile, attr, data;
cgb_read_tile(status.window_tilemap_select, ix, iy, tile, attr, data);
for(unsigned ox = 0; ox < 160; ox++) {
unsigned index = ((data & (0x0080 >> tx)) ? 1 : 0)
| ((data & (0x8000 >> tx)) ? 2 : 0);
unsigned palette_index = ((attr & 0x07) << 3) + (index << 1);
unsigned palette = 0;
palette |= bgpd[palette_index++] << 0;
palette |= bgpd[palette_index++] << 8;
palette &= 0x7fff;
if(ox - (status.wx - 7) < 160u) {
line[ox] = palette;
origin[ox] = (attr & 0x80 ? Origin::BGP : Origin::BG);
}
ix = (ix + 1) & 255;
tx = (tx + 1) & 7;
if(tx == 0) cgb_read_tile(status.window_tilemap_select, ix, iy, tile, attr, data);
}
}
//Attributes:
//0x80: 0 = OBJ above BG, 1 = BG above OBJ
//0x40: vertical flip
//0x20: horizontal flip
//0x08: VRAM bank#
//0x07: palette#
void LCD::cgb_render_ob() {
const unsigned Height = (status.ob_size == 0 ? 8 : 16);
unsigned sprite[10], sprites = 0;
//find first ten sprites on this scanline
for(unsigned s = 0; s < 40; s++) {
unsigned sy = oam[(s << 2) + 0] - 16;
unsigned sx = oam[(s << 2) + 1] - 8;
sy = status.ly - sy;
if(sy >= Height) continue;
sprite[sprites++] = s;
if(sprites == 10) break;
}
//sort by X-coordinate, when equal, lower address comes first
for(unsigned x = 0; x < sprites; x++) {
for(unsigned y = x + 1; y < sprites; y++) {
signed sx = oam[(sprite[x] << 2) + 1] - 8;
signed sy = oam[(sprite[y] << 2) + 1] - 8;
if(sy < sx) {
sprite[x] ^= sprite[y];
sprite[y] ^= sprite[x];
sprite[x] ^= sprite[y];
}
}
}
//render backwards, so that first sprite has highest priority
for(signed s = sprites - 1; s >= 0; s--) {
unsigned n = sprite[s] << 2;
unsigned sy = oam[n + 0] - 16;
unsigned sx = oam[n + 1] - 8;
unsigned tile = oam[n + 2] & ~status.ob_size;
unsigned attr = oam[n + 3];
sy = status.ly - sy;
if(sy >= Height) continue;
if(attr & 0x40) sy ^= (Height - 1);
unsigned tdaddr = (attr & 0x08 ? 0x2000 : 0x0000) + (tile << 4) + (sy << 1), data = 0;
data |= vram[tdaddr++] << 0;
data |= vram[tdaddr++] << 8;
if(attr & 0x20) data = hflip(data);
for(unsigned tx = 0; tx < 8; tx++) {
unsigned index = ((data & (0x0080 >> tx)) ? 1 : 0)
| ((data & (0x8000 >> tx)) ? 2 : 0);
if(index == 0) continue;
unsigned palette_index = ((attr & 0x07) << 3) + (index << 1);
unsigned palette = 0;
palette |= obpd[palette_index++] << 0;
palette |= obpd[palette_index++] << 8;
palette &= 0x7fff;
unsigned ox = sx + tx;
if(ox < 160) {
//When LCDC.D0 (BG enable) is off, OB is always rendered above BG+Window
if(status.bg_enable) {
if(origin[ox] == Origin::BGP) continue;
if(attr & 0x80) {
if(origin[ox] == Origin::BG || origin[ox] == Origin::BGP) {
if(line[ox] > 0) continue;
}
}
}
line[ox] = palette;
origin[ox] = Origin::OB;
}
}
}
}
#endif

145
bsnes/gameboy/lcd/dmg.cpp
View File

@@ -1,145 +0,0 @@
#ifdef LCD_CPP
void LCD::dmg_render() {
for(unsigned n = 0; n < 160; n++) {
line[n] = 0x00;
origin[n] = Origin::None;
}
if(status.display_enable) {
if(status.bg_enable) dmg_render_bg();
if(status.window_display_enable) dmg_render_window();
if(status.ob_enable) dmg_render_ob();
}
uint16 *output = screen + status.ly * 160;
for(unsigned n = 0; n < 160; n++) output[n] = line[n];
interface->lcdScanline();
}
uint16 LCD::dmg_read_tile(bool select, unsigned x, unsigned y) {
unsigned tmaddr = 0x1800 + (select << 10), tdaddr;
tmaddr += (((y >> 3) << 5) + (x >> 3)) & 0x03ff;
if(status.bg_tiledata_select == 0) {
tdaddr = 0x1000 + ((int8)vram[tmaddr] << 4);
} else {
tdaddr = 0x0000 + (vram[tmaddr] << 4);
}
tdaddr += (y & 7) << 1;
return (vram[tdaddr + 0] << 0) | (vram[tdaddr + 1] << 8);
}
void LCD::dmg_render_bg() {
unsigned iy = (status.ly + status.scy) & 255;
unsigned ix = status.scx, tx = ix & 7;
unsigned data = dmg_read_tile(status.bg_tilemap_select, ix, iy);
for(unsigned ox = 0; ox < 160; ox++) {
uint8 palette = ((data & (0x0080 >> tx)) ? 1 : 0)
| ((data & (0x8000 >> tx)) ? 2 : 0);
line[ox] = bgp[palette];
origin[ox] = Origin::BG;
ix = (ix + 1) & 255;
tx = (tx + 1) & 7;
if(tx == 0) data = dmg_read_tile(status.bg_tilemap_select, ix, iy);
}
}
void LCD::dmg_render_window() {
if(status.ly - status.wy >= 144u) return;
if(status.wx >= 167u) return;
unsigned iy = status.wyc++;
unsigned ix = (7 - status.wx) & 255, tx = ix & 7;
unsigned data = dmg_read_tile(status.window_tilemap_select, ix, iy);
for(unsigned ox = 0; ox < 160; ox++) {
uint8 palette = ((data & (0x0080 >> tx)) ? 1 : 0)
| ((data & (0x8000 >> tx)) ? 2 : 0);
if(ox - (status.wx - 7) < 160u) {
line[ox] = bgp[palette];
origin[ox] = Origin::BG;
}
ix = (ix + 1) & 255;
tx = (tx + 1) & 7;
if(tx == 0) data = dmg_read_tile(status.window_tilemap_select, ix, iy);
}
}
//Attributes:
//0x80: 0 = OBJ above BG, 1 = BG above OBJ
//0x40: vertical flip
//0x20: horizontal flip
//0x10: palette#
void LCD::dmg_render_ob() {
const unsigned Height = (status.ob_size == 0 ? 8 : 16);
unsigned sprite[10], sprites = 0;
//find first ten sprites on this scanline
for(unsigned s = 0; s < 40; s++) {
unsigned sy = oam[(s << 2) + 0] - 16;
unsigned sx = oam[(s << 2) + 1] - 8;
sy = status.ly - sy;
if(sy >= Height) continue;
sprite[sprites++] = s;
if(sprites == 10) break;
}
//sort by X-coordinate, when equal, lower address comes first
for(unsigned x = 0; x < sprites; x++) {
for(unsigned y = x + 1; y < sprites; y++) {
signed sx = oam[(sprite[x] << 2) + 1] - 8;
signed sy = oam[(sprite[y] << 2) + 1] - 8;
if(sy < sx) {
sprite[x] ^= sprite[y];
sprite[y] ^= sprite[x];
sprite[x] ^= sprite[y];
}
}
}
//render backwards, so that first sprite has highest priority
for(signed s = sprites - 1; s >= 0; s--) {
unsigned n = sprite[s] << 2;
unsigned sy = oam[n + 0] - 16;
unsigned sx = oam[n + 1] - 8;
unsigned tile = oam[n + 2] & ~status.ob_size;
unsigned attr = oam[n + 3];
sy = status.ly - sy;
if(sy >= Height) continue;
if(attr & 0x40) sy ^= (Height - 1);
unsigned tdaddr = (tile << 4) + (sy << 1), data = 0;
data |= vram[tdaddr++] << 0;
data |= vram[tdaddr++] << 8;
if(attr & 0x20) data = hflip(data);
for(unsigned tx = 0; tx < 8; tx++) {
uint8 palette = ((data & (0x0080 >> tx)) ? 1 : 0)
| ((data & (0x8000 >> tx)) ? 2 : 0);
if(palette == 0) continue;
palette = obp[(bool)(attr & 0x10)][palette];
unsigned ox = sx + tx;
if(ox < 160) {
if(attr & 0x80) {
if(origin[ox] == Origin::BG) {
if(line[ox] > 0) continue;
}
}
line[ox] = palette;
origin[ox] = Origin::OB;
}
}
}
}
#endif

3
bsnes/gameboy/lcd/mmio/mmio.hpp
View File

@@ -1,3 +0,0 @@
unsigned vram_addr(uint16 addr) const;
uint8 mmio_read(uint16 addr);
void mmio_write(uint16 addr, uint8 data);

135
bsnes/gameboy/system/bootrom-cgb.cpp
View File

@@ -1,135 +0,0 @@
#ifdef SYSTEM_CPP
//SHA256 = 4bf5021be357ce523a59ac5f4efff5d6371ae50112a6db0adf4a75916ad760a9
const uint8_t System::BootROM::cgb[2048] = {
0x31,0xfe,0xff,0x3e,0x02,0xc3,0x7c,0x00,0xd3,0x00,0x98,0xa0,0x12,0xd3,0x00,0x80,
0x00,0x40,0x1e,0x53,0xd0,0x00,0x1f,0x42,0x1c,0x00,0x14,0x2a,0x4d,0x19,0x8c,0x7e,
0x00,0x7c,0x31,0x6e,0x4a,0x45,0x52,0x4a,0x00,0x00,0xff,0x53,0x1f,0x7c,0xff,0x03,
0x1f,0x00,0xff,0x1f,0xa7,0x00,0xef,0x1b,0x1f,0x00,0xef,0x1b,0x00,0x7c,0x00,0x00,
0xff,0x03,0xce,0xed,0x66,0x66,0xcc,0x0d,0x00,0x0b,0x03,0x73,0x00,0x83,0x00,0x0c,
0x00,0x0d,0x00,0x08,0x11,0x1f,0x88,0x89,0x00,0x0e,0xdc,0xcc,0x6e,0xe6,0xdd,0xdd,
0xd9,0x99,0xbb,0xbb,0x67,0x63,0x6e,0x0e,0xec,0xcc,0xdd,0xdc,0x99,0x9f,0xbb,0xb9,
0x33,0x3e,0x3c,0x42,0xb9,0xa5,0xb9,0xa5,0x42,0x3c,0x58,0x43,0xe0,0x70,0x3e,0xfc,
0xe0,0x47,0xcd,0x75,0x02,0xcd,0x00,0x02,0x26,0xd0,0xcd,0x03,0x02,0x21,0x00,0xfe,
0x0e,0xa0,0xaf,0x22,0x0d,0x20,0xfc,0x11,0x04,0x01,0x21,0x10,0x80,0x4c,0x1a,0xe2,
0x0c,0xcd,0xc6,0x03,0xcd,0xc7,0x03,0x13,0x7b,0xfe,0x34,0x20,0xf1,0x11,0x72,0x00,
0x06,0x08,0x1a,0x13,0x22,0x23,0x05,0x20,0xf9,0xcd,0xf0,0x03,0x3e,0x01,0xe0,0x4f,
0x3e,0x91,0xe0,0x40,0x21,0xb2,0x98,0x06,0x4e,0x0e,0x44,0xcd,0x91,0x02,0xaf,0xe0,
0x4f,0x0e,0x80,0x21,0x42,0x00,0x06,0x18,0xf2,0x0c,0xbe,0x20,0xfe,0x23,0x05,0x20,
0xf7,0x21,0x34,0x01,0x06,0x19,0x78,0x86,0x2c,0x05,0x20,0xfb,0x86,0x20,0xfe,0xcd,
0x1c,0x03,0x18,0x02,0x00,0x00,0xcd,0xd0,0x05,0xaf,0xe0,0x70,0x3e,0x11,0xe0,0x50,
0x21,0x00,0x80,0xaf,0x22,0xcb,0x6c,0x28,0xfb,0xc9,0x2a,0x12,0x13,0x0d,0x20,0xfa,
0xc9,0xe5,0x21,0x0f,0xff,0xcb,0x86,0xcb,0x46,0x28,0xfc,0xe1,0xc9,0x11,0x00,0xff,
0x21,0x03,0xd0,0x0e,0x0f,0x3e,0x30,0x12,0x3e,0x20,0x12,0x1a,0x2f,0xa1,0xcb,0x37,
0x47,0x3e,0x10,0x12,0x1a,0x2f,0xa1,0xb0,0x4f,0x7e,0xa9,0xe6,0xf0,0x47,0x2a,0xa9,
0xa1,0xb0,0x32,0x47,0x79,0x77,0x3e,0x30,0x12,0xc9,0x3e,0x80,0xe0,0x68,0xe0,0x6a,
0x0e,0x6b,0x2a,0xe2,0x05,0x20,0xfb,0x4a,0x09,0x43,0x0e,0x69,0x2a,0xe2,0x05,0x20,
0xfb,0xc9,0xc5,0xd5,0xe5,0x21,0x00,0xd8,0x06,0x01,0x16,0x3f,0x1e,0x40,0xcd,0x4a,
0x02,0xe1,0xd1,0xc1,0xc9,0x3e,0x80,0xe0,0x26,0xe0,0x11,0x3e,0xf3,0xe0,0x12,0xe0,
0x25,0x3e,0x77,0xe0,0x24,0x21,0x30,0xff,0xaf,0x0e,0x10,0x22,0x2f,0x0d,0x20,0xfb,
0xc9,0xcd,0x11,0x02,0xcd,0x62,0x02,0x79,0xfe,0x38,0x20,0x14,0xe5,0xaf,0xe0,0x4f,
0x21,0xa7,0x99,0x3e,0x38,0x22,0x3c,0xfe,0x3f,0x20,0xfa,0x3e,0x01,0xe0,0x4f,0xe1,
0xc5,0xe5,0x21,0x43,0x01,0xcb,0x7e,0xcc,0x89,0x05,0xe1,0xc1,0xcd,0x11,0x02,0x79,
0xd6,0x30,0xd2,0x06,0x03,0x79,0xfe,0x01,0xca,0x06,0x03,0x7d,0xfe,0xd1,0x28,0x21,
0xc5,0x06,0x03,0x0e,0x01,0x16,0x03,0x7e,0xe6,0xf8,0xb1,0x22,0x15,0x20,0xf8,0x0c,
0x79,0xfe,0x06,0x20,0xf0,0x11,0x11,0x00,0x19,0x05,0x20,0xe7,0x11,0xa1,0xff,0x19,
0xc1,0x04,0x78,0x1e,0x83,0xfe,0x62,0x28,0x06,0x1e,0xc1,0xfe,0x64,0x20,0x07,0x7b,
0xe0,0x13,0x3e,0x87,0xe0,0x14,0xfa,0x02,0xd0,0xfe,0x00,0x28,0x0a,0x3d,0xea,0x02,
0xd0,0x79,0xfe,0x01,0xca,0x91,0x02,0x0d,0xc2,0x91,0x02,0xc9,0x0e,0x26,0xcd,0x4a,
0x03,0xcd,0x11,0x02,0xcd,0x62,0x02,0x0d,0x20,0xf4,0xcd,0x11,0x02,0x3e,0x01,0xe0,
0x4f,0xcd,0x3e,0x03,0xcd,0x41,0x03,0xaf,0xe0,0x4f,0xcd,0x3e,0x03,0xc9,0x21,0x08,
0x00,0x11,0x51,0xff,0x0e,0x05,0xcd,0x0a,0x02,0xc9,0xc5,0xd5,0xe5,0x21,0x40,0xd8,
0x0e,0x20,0x7e,0xe6,0x1f,0xfe,0x1f,0x28,0x01,0x3c,0x57,0x2a,0x07,0x07,0x07,0xe6,
0x07,0x47,0x3a,0x07,0x07,0x07,0xe6,0x18,0xb0,0xfe,0x1f,0x28,0x01,0x3c,0x0f,0x0f,
0x0f,0x47,0xe6,0xe0,0xb2,0x22,0x78,0xe6,0x03,0x5f,0x7e,0x0f,0x0f,0xe6,0x1f,0xfe,
0x1f,0x28,0x01,0x3c,0x07,0x07,0xb3,0x22,0x0d,0x20,0xc7,0xe1,0xd1,0xc1,0xc9,0x0e,
0x00,0x1a,0xe6,0xf0,0xcb,0x49,0x28,0x02,0xcb,0x37,0x47,0x23,0x7e,0xb0,0x22,0x1a,
0xe6,0x0f,0xcb,0x49,0x20,0x02,0xcb,0x37,0x47,0x23,0x7e,0xb0,0x22,0x13,0xcb,0x41,
0x28,0x0d,0xd5,0x11,0xf8,0xff,0xcb,0x49,0x28,0x03,0x11,0x08,0x00,0x19,0xd1,0x0c,
0x79,0xfe,0x18,0x20,0xcc,0xc9,0x47,0xd5,0x16,0x04,0x58,0xcb,0x10,0x17,0xcb,0x13,
0x17,0x15,0x20,0xf6,0xd1,0x22,0x23,0x22,0x23,0xc9,0x3e,0x19,0xea,0x10,0x99,0x21,
0x2f,0x99,0x0e,0x0c,0x3d,0x28,0x08,0x32,0x0d,0x20,0xf9,0x2e,0x0f,0x18,0xf3,0xc9,
0x3e,0x01,0xe0,0x4f,0xcd,0x00,0x02,0x11,0x07,0x06,0x21,0x80,0x80,0x0e,0xc0,0x1a,
0x22,0x23,0x22,0x23,0x13,0x0d,0x20,0xf7,0x11,0x04,0x01,0xcd,0x8f,0x03,0x01,0xa8,
0xff,0x09,0xcd,0x8f,0x03,0x01,0xf8,0xff,0x09,0x11,0x72,0x00,0x0e,0x08,0x23,0x1a,
0x22,0x13,0x0d,0x20,0xf9,0x21,0xc2,0x98,0x06,0x08,0x3e,0x08,0x0e,0x10,0x22,0x0d,
0x20,0xfc,0x11,0x10,0x00,0x19,0x05,0x20,0xf3,0xaf,0xe0,0x4f,0x21,0xc2,0x98,0x3e,
0x08,0x22,0x3c,0xfe,0x18,0x20,0x02,0x2e,0xe2,0xfe,0x28,0x20,0x03,0x21,0x02,0x99,
0xfe,0x38,0x20,0xed,0x21,0xd8,0x08,0x11,0x40,0xd8,0x06,0x08,0x3e,0xff,0x12,0x13,
0x12,0x13,0x0e,0x02,0xcd,0x0a,0x02,0x3e,0x00,0x12,0x13,0x12,0x13,0x13,0x13,0x05,
0x20,0xea,0xcd,0x62,0x02,0x21,0x4b,0x01,0x7e,0xfe,0x33,0x20,0x0b,0x2e,0x44,0x1e,
0x30,0x2a,0xbb,0x20,0x49,0x1c,0x18,0x04,0x2e,0x4b,0x1e,0x01,0x2a,0xbb,0x20,0x3e,
0x2e,0x34,0x01,0x10,0x00,0x2a,0x80,0x47,0x0d,0x20,0xfa,0xea,0x00,0xd0,0x21,0xc7,
0x06,0x0e,0x00,0x2a,0xb8,0x28,0x08,0x0c,0x79,0xfe,0x4f,0x20,0xf6,0x18,0x1f,0x79,
0xd6,0x41,0x38,0x1c,0x21,0x16,0x07,0x16,0x00,0x5f,0x19,0xfa,0x37,0x01,0x57,0x7e,
0xba,0x28,0x0d,0x11,0x0e,0x00,0x19,0x79,0x83,0x4f,0xd6,0x5e,0x38,0xed,0x0e,0x00,
0x21,0x33,0x07,0x06,0x00,0x09,0x7e,0xe6,0x1f,0xea,0x08,0xd0,0x7e,0xe6,0xe0,0x07,
0x07,0x07,0xea,0x0b,0xd0,0xcd,0xe9,0x04,0xc9,0x11,0x91,0x07,0x21,0x00,0xd9,0xfa,
0x0b,0xd0,0x47,0x0e,0x1e,0xcb,0x40,0x20,0x02,0x13,0x13,0x1a,0x22,0x20,0x02,0x1b,
0x1b,0xcb,0x48,0x20,0x02,0x13,0x13,0x1a,0x22,0x13,0x13,0x20,0x02,0x1b,0x1b,0xcb,
0x50,0x28,0x05,0x1b,0x2b,0x1a,0x22,0x13,0x1a,0x22,0x13,0x0d,0x20,0xd7,0x21,0x00,
0xd9,0x11,0x00,0xda,0xcd,0x64,0x05,0xc9,0x21,0x12,0x00,0xfa,0x05,0xd0,0x07,0x07,
0x06,0x00,0x4f,0x09,0x11,0x40,0xd8,0x06,0x08,0xe5,0x0e,0x02,0xcd,0x0a,0x02,0x13,
0x13,0x13,0x13,0x13,0x13,0xe1,0x05,0x20,0xf0,0x11,0x42,0xd8,0x0e,0x02,0xcd,0x0a,
0x02,0x11,0x4a,0xd8,0x0e,0x02,0xcd,0x0a,0x02,0x2b,0x2b,0x11,0x44,0xd8,0x0e,0x02,
0xcd,0x0a,0x02,0xc9,0x0e,0x60,0x2a,0xe5,0xc5,0x21,0xe8,0x07,0x06,0x00,0x4f,0x09,
0x0e,0x08,0xcd,0x0a,0x02,0xc1,0xe1,0x0d,0x20,0xec,0xc9,0xfa,0x08,0xd0,0x11,0x18,
0x00,0x3c,0x3d,0x28,0x03,0x19,0x20,0xfa,0xc9,0xcd,0x1d,0x02,0x78,0xe6,0xff,0x28,
0x0f,0x21,0xe4,0x08,0x06,0x00,0x2a,0xb9,0x28,0x08,0x04,0x78,0xfe,0x0c,0x20,0xf6,
0x18,0x2d,0x78,0xea,0x05,0xd0,0x3e,0x1e,0xea,0x02,0xd0,0x11,0x0b,0x00,0x19,0x56,
0x7a,0xe6,0x1f,0x5f,0x21,0x08,0xd0,0x3a,0x22,0x7b,0x77,0x7a,0xe6,0xe0,0x07,0x07,
0x07,0x5f,0x21,0x0b,0xd0,0x3a,0x22,0x7b,0x77,0xcd,0xe9,0x04,0xcd,0x28,0x05,0xc9,
0xcd,0x11,0x02,0xfa,0x43,0x01,0xcb,0x7f,0x28,0x04,0xe0,0x4c,0x18,0x28,0x3e,0x04,
0xe0,0x4c,0x3e,0x01,0xe0,0x6c,0x21,0x00,0xda,0xcd,0x7b,0x05,0x06,0x10,0x16,0x00,
0x1e,0x08,0xcd,0x4a,0x02,0x21,0x7a,0x00,0xfa,0x00,0xd0,0x47,0x0e,0x02,0x2a,0xb8,
0xcc,0xda,0x03,0x0d,0x20,0xf8,0xc9,0x01,0x0f,0x3f,0x7e,0xff,0xff,0xc0,0x00,0xc0,
0xf0,0xf1,0x03,0x7c,0xfc,0xfe,0xfe,0x03,0x07,0x07,0x0f,0xe0,0xe0,0xf0,0xf0,0x1e,
0x3e,0x7e,0xfe,0x0f,0x0f,0x1f,0x1f,0xff,0xff,0x00,0x00,0x01,0x01,0x01,0x03,0xff,
0xff,0xe1,0xe0,0xc0,0xf0,0xf9,0xfb,0x1f,0x7f,0xf8,0xe0,0xf3,0xfd,0x3e,0x1e,0xe0,
0xf0,0xf9,0x7f,0x3e,0x7c,0xf8,0xe0,0xf8,0xf0,0xf0,0xf8,0x00,0x00,0x7f,0x7f,0x07,
0x0f,0x9f,0xbf,0x9e,0x1f,0xff,0xff,0x0f,0x1e,0x3e,0x3c,0xf1,0xfb,0x7f,0x7f,0xfe,
0xde,0xdf,0x9f,0x1f,0x3f,0x3e,0x3c,0xf8,0xf8,0x00,0x00,0x03,0x03,0x07,0x07,0xff,
0xff,0xc1,0xc0,0xf3,0xe7,0xf7,0xf3,0xc0,0xc0,0xc0,0xc0,0x1f,0x1f,0x1e,0x3e,0x3f,
0x1f,0x3e,0x3e,0x80,0x00,0x00,0x00,0x7c,0x1f,0x07,0x00,0x0f,0xff,0xfe,0x00,0x7c,
0xf8,0xf0,0x00,0x1f,0x0f,0x0f,0x00,0x7c,0xf8,0xf8,0x00,0x3f,0x3e,0x1c,0x00,0x0f,
0x0f,0x0f,0x00,0x7c,0xff,0xff,0x00,0x00,0xf8,0xf8,0x00,0x07,0x0f,0x0f,0x00,0x81,
0xff,0xff,0x00,0xf3,0xe1,0x80,0x00,0xe0,0xff,0x7f,0x00,0xfc,0xf0,0xc0,0x00,0x3e,
0x7c,0x7c,0x00,0x00,0x00,0x00,0x00,0x00,0x88,0x16,0x36,0xd1,0xdb,0xf2,0x3c,0x8c,
0x92,0x3d,0x5c,0x58,0xc9,0x3e,0x70,0x1d,0x59,0x69,0x19,0x35,0xa8,0x14,0xaa,0x75,
0x95,0x99,0x34,0x6f,0x15,0xff,0x97,0x4b,0x90,0x17,0x10,0x39,0xf7,0xf6,0xa2,0x49,
0x4e,0x43,0x68,0xe0,0x8b,0xf0,0xce,0x0c,0x29,0xe8,0xb7,0x86,0x9a,0x52,0x01,0x9d,
0x71,0x9c,0xbd,0x5d,0x6d,0x67,0x3f,0x6b,0xb3,0x46,0x28,0xa5,0xc6,0xd3,0x27,0x61,
0x18,0x66,0x6a,0xbf,0x0d,0xf4,0x42,0x45,0x46,0x41,0x41,0x52,0x42,0x45,0x4b,0x45,
0x4b,0x20,0x52,0x2d,0x55,0x52,0x41,0x52,0x20,0x49,0x4e,0x41,0x49,0x4c,0x49,0x43,
0x45,0x20,0x52,0x7c,0x08,0x12,0xa3,0xa2,0x07,0x87,0x4b,0x20,0x12,0x65,0xa8,0x16,
0xa9,0x86,0xb1,0x68,0xa0,0x87,0x66,0x12,0xa1,0x30,0x3c,0x12,0x85,0x12,0x64,0x1b,
0x07,0x06,0x6f,0x6e,0x6e,0xae,0xaf,0x6f,0xb2,0xaf,0xb2,0xa8,0xab,0x6f,0xaf,0x86,
0xae,0xa2,0xa2,0x12,0xaf,0x13,0x12,0xa1,0x6e,0xaf,0xaf,0xad,0x06,0x4c,0x6e,0xaf,
0xaf,0x12,0x7c,0xac,0xa8,0x6a,0x6e,0x13,0xa0,0x2d,0xa8,0x2b,0xac,0x64,0xac,0x6d,
0x87,0xbc,0x60,0xb4,0x13,0x72,0x7c,0xb5,0xae,0xae,0x7c,0x7c,0x65,0xa2,0x6c,0x64,
0x85,0x80,0xb0,0x40,0x88,0x20,0x68,0xde,0x00,0x70,0xde,0x20,0x78,0x20,0x20,0x38,
0x20,0xb0,0x90,0x20,0xb0,0xa0,0xe0,0xb0,0xc0,0x98,0xb6,0x48,0x80,0xe0,0x50,0x1e,
0x1e,0x58,0x20,0xb8,0xe0,0x88,0xb0,0x10,0x20,0x00,0x10,0x20,0xe0,0x18,0xe0,0x18,
0x00,0x18,0xe0,0x20,0xa8,0xe0,0x20,0x18,0xe0,0x00,0x20,0x18,0xd8,0xc8,0x18,0xe0,
0x00,0xe0,0x40,0x28,0x28,0x28,0x18,0xe0,0x60,0x20,0x18,0xe0,0x00,0x00,0x08,0xe0,
0x18,0x30,0xd0,0xd0,0xd0,0x20,0xe0,0xe8,0xff,0x7f,0xbf,0x32,0xd0,0x00,0x00,0x00,
0x9f,0x63,0x79,0x42,0xb0,0x15,0xcb,0x04,0xff,0x7f,0x31,0x6e,0x4a,0x45,0x00,0x00,
0xff,0x7f,0xef,0x1b,0x00,0x02,0x00,0x00,0xff,0x7f,0x1f,0x42,0xf2,0x1c,0x00,0x00,
0xff,0x7f,0x94,0x52,0x4a,0x29,0x00,0x00,0xff,0x7f,0xff,0x03,0x2f,0x01,0x00,0x00,
0xff,0x7f,0xef,0x03,0xd6,0x01,0x00,0x00,0xff,0x7f,0xb5,0x42,0xc8,0x3d,0x00,0x00,
0x74,0x7e,0xff,0x03,0x80,0x01,0x00,0x00,0xff,0x67,0xac,0x77,0x13,0x1a,0x6b,0x2d,
0xd6,0x7e,0xff,0x4b,0x75,0x21,0x00,0x00,0xff,0x53,0x5f,0x4a,0x52,0x7e,0x00,0x00,
0xff,0x4f,0xd2,0x7e,0x4c,0x3a,0xe0,0x1c,0xed,0x03,0xff,0x7f,0x5f,0x25,0x00,0x00,
0x6a,0x03,0x1f,0x02,0xff,0x03,0xff,0x7f,0xff,0x7f,0xdf,0x01,0x12,0x01,0x00,0x00,
0x1f,0x23,0x5f,0x03,0xf2,0x00,0x09,0x00,0xff,0x7f,0xea,0x03,0x1f,0x01,0x00,0x00,
0x9f,0x29,0x1a,0x00,0x0c,0x00,0x00,0x00,0xff,0x7f,0x7f,0x02,0x1f,0x00,0x00,0x00,
0xff,0x7f,0xe0,0x03,0x06,0x02,0x20,0x01,0xff,0x7f,0xeb,0x7e,0x1f,0x00,0x00,0x7c,
0xff,0x7f,0xff,0x3f,0x00,0x7e,0x1f,0x00,0xff,0x7f,0xff,0x03,0x1f,0x00,0x00,0x00,
0xff,0x03,0x1f,0x00,0x0c,0x00,0x00,0x00,0xff,0x7f,0x3f,0x03,0x93,0x01,0x00,0x00,
0x00,0x00,0x00,0x42,0x7f,0x03,0xff,0x7f,0xff,0x7f,0x8c,0x7e,0x00,0x7c,0x00,0x00,
0xff,0x7f,0xef,0x1b,0x80,0x61,0x00,0x00,0xff,0x7f,0x00,0x7c,0xe0,0x03,0x1f,0x7c,
0x1f,0x00,0xff,0x03,0x40,0x41,0x42,0x20,0x21,0x22,0x80,0x81,0x82,0x10,0x11,0x12,
0x12,0xb0,0x79,0xb8,0xad,0x16,0x17,0x07,0xba,0x05,0x7c,0x13,0x00,0x00,0x00,0x00,
};
#endif

23
bsnes/gameboy/system/bootrom-dmg.cpp
View File

@@ -1,23 +0,0 @@
#ifdef SYSTEM_CPP
//SHA256 = cf053eccb4ccafff9e67339d4e78e98dce7d1ed59be819d2a1ba2232c6fce1c7
const uint8_t System::BootROM::dmg[256] = {
0x31,0xfe,0xff,0xaf,0x21,0xff,0x9f,0x32,0xcb,0x7c,0x20,0xfb,0x21,0x26,0xff,0x0e,
0x11,0x3e,0x80,0x32,0xe2,0x0c,0x3e,0xf3,0xe2,0x32,0x3e,0x77,0x77,0x3e,0xfc,0xe0,
0x47,0x11,0x04,0x01,0x21,0x10,0x80,0x1a,0xcd,0x95,0x00,0xcd,0x96,0x00,0x13,0x7b,
0xfe,0x34,0x20,0xf3,0x11,0xd8,0x00,0x06,0x08,0x1a,0x13,0x22,0x23,0x05,0x20,0xf9,
0x3e,0x19,0xea,0x10,0x99,0x21,0x2f,0x99,0x0e,0x0c,0x3d,0x28,0x08,0x32,0x0d,0x20,
0xf9,0x2e,0x0f,0x18,0xf3,0x67,0x3e,0x64,0x57,0xe0,0x42,0x3e,0x91,0xe0,0x40,0x04,
0x1e,0x02,0x0e,0x0c,0xf0,0x44,0xfe,0x90,0x20,0xfa,0x0d,0x20,0xf7,0x1d,0x20,0xf2,
0x0e,0x13,0x24,0x7c,0x1e,0x83,0xfe,0x62,0x28,0x06,0x1e,0xc1,0xfe,0x64,0x20,0x06,
0x7b,0xe2,0x0c,0x3e,0x87,0xe2,0xf0,0x42,0x90,0xe0,0x42,0x15,0x20,0xd2,0x05,0x20,
0x4f,0x16,0x20,0x18,0xcb,0x4f,0x06,0x04,0xc5,0xcb,0x11,0x17,0xc1,0xcb,0x11,0x17,
0x05,0x20,0xf5,0x22,0x23,0x22,0x23,0xc9,0xce,0xed,0x66,0x66,0xcc,0x0d,0x00,0x0b,
0x03,0x73,0x00,0x83,0x00,0x0c,0x00,0x0d,0x00,0x08,0x11,0x1f,0x88,0x89,0x00,0x0e,
0xdc,0xcc,0x6e,0xe6,0xdd,0xdd,0xd9,0x99,0xbb,0xbb,0x67,0x63,0x6e,0x0e,0xec,0xcc,
0xdd,0xdc,0x99,0x9f,0xbb,0xb9,0x33,0x3e,0x3c,0x42,0xb9,0xa5,0xb9,0xa5,0x42,0x3c,
0x21,0x04,0x01,0x11,0xa8,0x00,0x1a,0x13,0xbe,0x20,0xfe,0x23,0x7d,0xfe,0x34,0x20,
0xf5,0x06,0x19,0x78,0x86,0x23,0x05,0x20,0xfb,0x86,0x20,0xfe,0x3e,0x01,0xe0,0x50,
};
#endif

23
bsnes/gameboy/system/bootrom-sgb.cpp
View File

@@ -1,23 +0,0 @@
#ifdef SYSTEM_CPP
//SHA256 = 0e4ddff32fc9d1eeaae812a157dd246459b00c9e14f2f61751f661f32361e360
const uint8_t System::BootROM::sgb[256] = {
0x31,0xfe,0xff,0x3e,0x30,0xe0,0x00,0xaf,0x21,0xff,0x9f,0x32,0xcb,0x7c,0x20,0xfb,
0x21,0x26,0xff,0x0e,0x11,0x3e,0x80,0x32,0xe2,0x0c,0x3e,0xf3,0xe2,0x32,0x3e,0x77,
0x77,0x3e,0xfc,0xe0,0x47,0x21,0x5f,0xc0,0x0e,0x08,0xaf,0x32,0x0d,0x20,0xfc,0x11,
0x4f,0x01,0x3e,0xfb,0x0e,0x06,0xf5,0x06,0x00,0x1a,0x1b,0x32,0x80,0x47,0x0d,0x20,
0xf8,0x32,0xf1,0x32,0x0e,0x0e,0xd6,0x02,0xfe,0xef,0x20,0xea,0x11,0x04,0x01,0x21,
0x10,0x80,0x1a,0xcd,0xd3,0x00,0xcd,0xd4,0x00,0x13,0x7b,0xfe,0x34,0x20,0xf3,0x11,
0xe6,0x00,0x06,0x08,0x1a,0x13,0x22,0x23,0x05,0x20,0xf9,0x3e,0x19,0xea,0x10,0x99,
0x21,0x2f,0x99,0x0e,0x0c,0x3d,0x28,0x08,0x32,0x0d,0x20,0xf9,0x2e,0x0f,0x18,0xf3,
0x3e,0x91,0xe0,0x40,0x21,0x00,0xc0,0x0e,0x00,0x3e,0x00,0xe2,0x3e,0x30,0xe2,0x06,
0x10,0x1e,0x08,0x2a,0x57,0xcb,0x42,0x3e,0x10,0x20,0x02,0x3e,0x20,0xe2,0x3e,0x30,
0xe2,0xcb,0x1a,0x1d,0x20,0xef,0x05,0x20,0xe8,0x3e,0x20,0xe2,0x3e,0x30,0xe2,0xcd,
0xc2,0x00,0x7d,0xfe,0x60,0x20,0xd2,0x0e,0x13,0x3e,0xc1,0xe2,0x0c,0x3e,0x07,0xe2,
0x18,0x3a,0x16,0x04,0xf0,0x44,0xfe,0x90,0x20,0xfa,0x1e,0x00,0x1d,0x20,0xfd,0x15,
0x20,0xf2,0xc9,0x4f,0x06,0x04,0xc5,0xcb,0x11,0x17,0xc1,0xcb,0x11,0x17,0x05,0x20,
0xf5,0x22,0x23,0x22,0x23,0xc9,0x3c,0x42,0xb9,0xa5,0xb9,0xa5,0x42,0x3c,0x00,0x00,
0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x3e,0x01,0xe0,0x50,
};
#endif

57
bsnes/gameboy/system/system.cpp
View File

@@ -1,57 +0,0 @@
#include <gameboy/gameboy.hpp>
#define SYSTEM_CPP
namespace GameBoy {
#include "bootrom-dmg.cpp"
#include "bootrom-sgb.cpp"
#include "bootrom-cgb.cpp"
#include "serialization.cpp"
System system;
void System::run() {
scheduler.sync = Scheduler::SynchronizeMode::None;
scheduler.enter();
if(scheduler.exit_reason() == Scheduler::ExitReason::FrameEvent) {
}
}
void System::runtosave() {
scheduler.sync = Scheduler::SynchronizeMode::CPU;
runthreadtosave();
scheduler.active_thread = lcd.thread;
runthreadtosave();
}
void System::runthreadtosave() {
while(true) {
scheduler.enter();
if(scheduler.exit_reason() == Scheduler::ExitReason::SynchronizeEvent) break;
if(scheduler.exit_reason() == Scheduler::ExitReason::FrameEvent) {
}
}
}
void System::init() {
assert(interface != 0);
}
void System::load(Revision revision) {
this->revision = revision;
serialize_init();
}
void System::power() {
bus.power();
cartridge.power();
cpu.power();
apu.power();
lcd.power();
scheduler.init();
clocks_executed = 0;
}
}

82
bsnes/gameboy/video/video.cpp
View File

@@ -1,82 +0,0 @@
#include <gameboy/gameboy.hpp>
#define VIDEO_CPP
namespace GameBoy {
Video video;
unsigned Video::palette_dmg(unsigned color) const {
unsigned R = monochrome[color][0] * 1023.0;
unsigned G = monochrome[color][1] * 1023.0;
unsigned B = monochrome[color][2] * 1023.0;
return (R << 20) + (G << 10) + (B << 0);
}
unsigned Video::palette_sgb(unsigned color) const {
unsigned R = (3 - color) * 341;
unsigned G = (3 - color) * 341;
unsigned B = (3 - color) * 341;
return (R << 20) + (G << 10) + (B << 0);
}
unsigned Video::palette_cgb(unsigned color) const {
unsigned r = (color >> 0) & 31;
unsigned g = (color >> 5) & 31;
unsigned b = (color >> 10) & 31;
unsigned R = (r * 26 + g * 4 + b * 2);
unsigned G = ( g * 24 + b * 8);
unsigned B = (r * 6 + g * 4 + b * 22);
R = min(960, R);
G = min(960, G);
B = min(960, B);
return (R << 20) + (G << 10) + (B << 0);
}
void Video::generate(Format format) {
if(system.dmg()) for(unsigned n = 0; n < 4; n++) palette[n] = palette_dmg(n);
if(system.sgb()) for(unsigned n = 0; n < 4; n++) palette[n] = palette_sgb(n);
if(system.cgb()) for(unsigned n = 0; n < (1 << 15); n++) palette[n] = palette_cgb(n);
if(format == Format::RGB24) {
for(unsigned n = 0; n < (1 << 15); n++) {
unsigned color = palette[n];
palette[n] = ((color >> 6) & 0xff0000) + ((color >> 4) & 0x00ff00) + ((color >> 2) & 0x0000ff);
}
}
if(format == Format::RGB16) {
for(unsigned n = 0; n < (1 << 15); n++) {
unsigned color = palette[n];
palette[n] = ((color >> 14) & 0xf800) + ((color >> 9) & 0x07e0) + ((color >> 5) & 0x001f);
}
}
if(format == Format::RGB15) {
for(unsigned n = 0; n < (1 << 15); n++) {
unsigned color = palette[n];
palette[n] = ((color >> 15) & 0x7c00) + ((color >> 10) & 0x03e0) + ((color >> 5) & 0x001f);
}
}
}
Video::Video() {
palette = new unsigned[1 << 15];
}
Video::~Video() {
delete[] palette;
}
const double Video::monochrome[4][3] = {
{ 0.605, 0.734, 0.059 },
{ 0.543, 0.672, 0.059 },
{ 0.188, 0.383, 0.188 },
{ 0.059, 0.219, 0.059 },
};
}

17
bsnes/gameboy/video/video.hpp
View File

@@ -1,17 +0,0 @@
struct Video {
enum class Format : unsigned { RGB30, RGB24, RGB16, RGB15 };
unsigned *palette;
unsigned palette_dmg(unsigned color) const;
unsigned palette_sgb(unsigned color) const;
unsigned palette_cgb(unsigned color) const;
void generate(Format format);
Video();
~Video();
private:
static const double monochrome[4][3];
};
extern Video video;

17
bsnes/nall/algorithm.hpp
View File

@@ -1,17 +0,0 @@
#ifndef NALL_ALGORITHM_HPP
#define NALL_ALGORITHM_HPP
#undef min
#undef max
namespace nall {
template<typename T, typename U> T min(const T &t, const U &u) {
return t < u ? t : u;
}
template<typename T, typename U> T max(const T &t, const U &u) {
return t > u ? t : u;
}
}
#endif

72
bsnes/nall/any.hpp
View File

@@ -1,72 +0,0 @@
#ifndef NALL_ANY_HPP
#define NALL_ANY_HPP
#include <typeinfo>
#include <nall/type_traits.hpp>
namespace nall {
struct any {
bool empty() const { return container; }
const std::type_info& type() const { return container ? container->type() : typeid(void); }
template<typename T> any& operator=(const T& value_) {
typedef typename type_if<
std::is_array<T>::value,
typename std::remove_extent<typename std::add_const<T>::type>::type*,
T
>::type auto_t;
if(type() == typeid(auto_t)) {
static_cast<holder<auto_t>*>(container)->value = (auto_t)value_;
} else {
if(container) delete container;
container = new holder<auto_t>((auto_t)value_);
}
return *this;
}
any() : container(0) {}
template<typename T> any(const T& value_) : container(0) { operator=(value_); }
private:
struct placeholder {
virtual const std::type_info& type() const = 0;
} *container;
template<typename T> struct holder : placeholder {
T value;
const std::type_info& type() const { return typeid(T); }
holder(const T& value_) : value(value_) {}
};
template<typename T> friend T any_cast(any&);
template<typename T> friend T any_cast(const any&);
template<typename T> friend T* any_cast(any*);
template<typename T> friend const T* any_cast(const any*);
};
template<typename T> T any_cast(any &value) {
typedef typename std::remove_reference<T>::type nonref;
if(value.type() != typeid(nonref)) throw;
return static_cast<any::holder<nonref>*>(value.container)->value;
}
template<typename T> T any_cast(const any &value) {
typedef const typename std::remove_reference<T>::type nonref;
if(value.type() != typeid(nonref)) throw;
return static_cast<any::holder<nonref>*>(value.container)->value;
}
template<typename T> T* any_cast(any *value) {
if(!value || value->type() != typeid(T)) return 0;
return &static_cast<any::holder<T>*>(value->container)->value;
}
template<typename T> const T* any_cast(const any *value) {
if(!value || value->type() != typeid(T)) return 0;
return &static_cast<any::holder<T>*>(value->container)->value;
}
}
#endif

289
bsnes/nall/array.hpp
View File

@@ -1,289 +0,0 @@
#ifndef NALL_ARRAY_HPP
#define NALL_ARRAY_HPP
#include <stdlib.h>
#include <algorithm>
#include <initializer_list>
#include <utility>
#include <nall/algorithm.hpp>
#include <nall/bit.hpp>
#include <nall/sort.hpp>
#include <nall/type_traits.hpp>
#include <nall/utility.hpp>
namespace nall {
template<typename T, typename Enable = void> struct array;
//non-reference array
//===================
template<typename T> struct array<T, typename std::enable_if<!std::is_reference<T>::value>::type> {
struct exception_out_of_bounds{};
protected:
T *pool;
unsigned poolsize, objectsize;
public:
unsigned size() const { return objectsize; }
unsigned capacity() const { return poolsize; }
void reset() {
if(pool) free(pool);
pool = nullptr;
poolsize = 0;
objectsize = 0;
}
void reserve(unsigned newsize) {
if(newsize == poolsize) return;
pool = (T*)realloc(pool, newsize * sizeof(T));
poolsize = newsize;
objectsize = min(objectsize, newsize);
}
void resize(unsigned newsize) {
if(newsize > poolsize) reserve(bit::round(newsize)); //round reserve size up to power of 2
objectsize = newsize;
}
T* get(unsigned minsize = 0) {
if(minsize > objectsize) resize(minsize);
return pool;
}
void append(const T data) {
operator()(objectsize) = data;
}
void append(const T data[], unsigned length) {
for(unsigned n = 0; n < length; n++) operator()(objectsize) = data[n];
}
void remove() {
if(size > 0) resize(size - 1); //remove last element only
}
void remove(unsigned index, unsigned count = 1) {
for(unsigned i = index; count + i < objectsize; i++) {
pool[i] = pool[count + i];
}
if(count + index >= objectsize) resize(index); //every element >= index was removed
else resize(objectsize - count);
}
void sort() {
nall::sort(pool, objectsize);
}
template<typename Comparator> void sort(const Comparator &lessthan) {
nall::sort(pool, objectsize, lessthan);
}
optional<unsigned> find(const T data) {
for(unsigned n = 0; n < size(); n++) if(pool[n] == data) return { true, n };
return { false, 0u };
}
void clear() {
memset(pool, 0, objectsize * sizeof(T));
}
array() : pool(nullptr), poolsize(0), objectsize(0) {
}
array(std::initializer_list<T> list) : pool(nullptr), poolsize(0), objectsize(0) {
for(auto &data : list) append(data);
}
~array() {
reset();
}
//copy
array& operator=(const array &source) {
if(pool) free(pool);
objectsize = source.objectsize;
poolsize = source.poolsize;
pool = (T*)malloc(sizeof(T) * poolsize); //allocate entire pool size,
memcpy(pool, source.pool, sizeof(T) * objectsize); //... but only copy used pool objects
return *this;
}
array(const array &source) : pool(nullptr), poolsize(0), objectsize(0) {
operator=(source);
}
//move
array& operator=(array &&source) {
if(pool) free(pool);
pool = source.pool;
poolsize = source.poolsize;
objectsize = source.objectsize;
source.pool = nullptr;
source.reset();
return *this;
}
array(array &&source) : pool(nullptr), poolsize(0), objectsize(0) {
operator=(std::move(source));
}
//access
inline T& operator[](unsigned position) {
if(position >= objectsize) throw exception_out_of_bounds();
return pool[position];
}
inline const T& operator[](unsigned position) const {
if(position >= objectsize) throw exception_out_of_bounds();
return pool[position];
}
inline T& operator()(unsigned position) {
if(position >= objectsize) resize(position + 1);
return pool[position];
}
inline const T& operator()(unsigned position, const T& data) {
if(position >= objectsize) return data;
return pool[position];
}
//iteration
T* begin() { return &pool[0]; }
T* end() { return &pool[objectsize]; }
const T* begin() const { return &pool[0]; }
const T* end() const { return &pool[objectsize]; }
};
//reference array
//===============
template<typename TR> struct array<TR, typename std::enable_if<std::is_reference<TR>::value>::type> {
struct exception_out_of_bounds{};
protected:
typedef typename std::remove_reference<TR>::type T;
T **pool;
unsigned poolsize, objectsize;
public:
unsigned size() const { return objectsize; }
unsigned capacity() const { return poolsize; }
void reset() {
if(pool) free(pool);
pool = nullptr;
poolsize = 0;
objectsize = 0;
}
void reserve(unsigned newsize) {
if(newsize == poolsize) return;
pool = (T**)realloc(pool, sizeof(T*) * newsize);
poolsize = newsize;
objectsize = min(objectsize, newsize);
}
void resize(unsigned newsize) {
if(newsize > poolsize) reserve(bit::round(newsize));
objectsize = newsize;
}
template<typename... Args>
bool append(T& data, Args&&... args) {
bool result = append(data);
append(std::forward<Args>(args)...);
return result;
}
bool append(T& data) {
if(find(data)) return false;
unsigned offset = objectsize++;
if(offset >= poolsize) resize(offset + 1);
pool[offset] = &data;
return true;
}
bool remove(T& data) {
if(auto position = find(data)) {
for(signed i = position(); i < objectsize - 1; i++) pool[i] = pool[i + 1];
resize(objectsize - 1);
return true;
}
return false;
}
optional<unsigned> find(const T& data) {
for(unsigned n = 0; n < objectsize; n++) if(pool[n] == &data) return { true, n };
return { false, 0u };
}
template<typename... Args> array(Args&&... args) : pool(nullptr), poolsize(0), objectsize(0) {
construct(std::forward<Args>(args)...);
}
~array() {
reset();
}
array& operator=(const array &source) {
if(pool) free(pool);
objectsize = source.objectsize;
poolsize = source.poolsize;
pool = (T**)malloc(sizeof(T*) * poolsize);
memcpy(pool, source.pool, sizeof(T*) * objectsize);
return *this;
}
array& operator=(const array &&source) {
if(pool) free(pool);
pool = source.pool;
poolsize = source.poolsize;
objectsize = source.objectsize;
source.pool = nullptr;
source.reset();
return *this;
}
T& operator[](unsigned position) const {
if(position >= objectsize) throw exception_out_of_bounds();
return *pool[position];
}
//iteration
struct iterator {
bool operator!=(const iterator &source) const { return position != source.position; }
T& operator*() { return source.operator[](position); }
iterator& operator++() { position++; return *this; }
iterator(const array &source, unsigned position) : source(source), position(position) {}
private:
const array &source;
unsigned position;
};
iterator begin() { return iterator(*this, 0); }
iterator end() { return iterator(*this, objectsize); }
const iterator begin() const { return iterator(*this, 0); }
const iterator end() const { return iterator(*this, objectsize); }
private:
void construct() {
}
void construct(const array& source) { operator=(source); }
void construct(const array&& source) { operator=(std::move(source)); }
template<typename... Args> void construct(T& data, Args&&... args) {
append(data);
construct(std::forward<Args>(args)...);
}
};
}
#endif

90
bsnes/nall/base64.hpp
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#ifndef NALL_BASE64_HPP
#define NALL_BASE64_HPP
#include <string.h>
#include <nall/stdint.hpp>
namespace nall {
struct base64 {
static bool encode(char *&output, const uint8_t* input, unsigned inlength) {
output = new char[inlength * 8 / 6 + 6]();
unsigned i = 0, o = 0;
while(i < inlength) {
switch(i % 3) {
case 0: {
output[o++] = enc(input[i] >> 2);
output[o] = enc((input[i] & 3) << 4);
} break;
case 1: {
uint8_t prev = dec(output[o]);
output[o++] = enc(prev + (input[i] >> 4));
output[o] = enc((input[i] & 15) << 2);
} break;
case 2: {
uint8_t prev = dec(output[o]);
output[o++] = enc(prev + (input[i] >> 6));
output[o++] = enc(input[i] & 63);
} break;
}
i++;
}
return true;
}
static bool decode(uint8_t *&output, unsigned &outlength, const char *input) {
unsigned inlength = strlen(input), infix = 0;
output = new uint8_t[inlength]();
unsigned i = 0, o = 0;
while(i < inlength) {
uint8_t x = dec(input[i]);
switch(i++ & 3) {
case 0: {
output[o] = x << 2;
} break;
case 1: {
output[o++] |= x >> 4;
output[o] = (x & 15) << 4;
} break;
case 2: {
output[o++] |= x >> 2;
output[o] = (x & 3) << 6;
} break;
case 3: {
output[o++] |= x;
} break;
}
}
outlength = o;
return true;
}
private:
static char enc(uint8_t n) {
//base64 for URL encodings
static char lookup_table[] = "ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789-_";
return lookup_table[n & 63];
}
static uint8_t dec(char n) {
if(n >= 'A' && n <= 'Z') return n - 'A';
if(n >= 'a' && n <= 'z') return n - 'a' + 26;
if(n >= '0' && n <= '9') return n - '0' + 52;
if(n == '-') return 62;
if(n == '_') return 63;
return 0;
}
};
}
#endif

62
bsnes/nall/bit.hpp
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#ifndef NALL_BIT_HPP
#define NALL_BIT_HPP
namespace nall {
template<unsigned bits>
constexpr inline uintmax_t uclamp(const uintmax_t x) {
enum : uintmax_t { b = 1ull << (bits - 1), y = b * 2 - 1 };
return y + ((x - y) & -(x < y)); //min(x, y);
}
template<unsigned bits>
constexpr inline uintmax_t uclip(const uintmax_t x) {
enum : uintmax_t { b = 1ull << (bits - 1), m = b * 2 - 1 };
return (x & m);
}
template<unsigned bits>
constexpr inline intmax_t sclamp(const intmax_t x) {
enum : intmax_t { b = 1ull << (bits - 1), m = b - 1 };
return (x > m) ? m : (x < -b) ? -b : x;
}
template<unsigned bits>
constexpr inline intmax_t sclip(const intmax_t x) {
enum : uintmax_t { b = 1ull << (bits - 1), m = b * 2 - 1 };
return ((x & m) ^ b) - b;
}
namespace bit {
//lowest(0b1110) == 0b0010
constexpr inline uintmax_t lowest(const uintmax_t x) {
return x & -x;
}
//clear_lowest(0b1110) == 0b1100
constexpr inline uintmax_t clear_lowest(const uintmax_t x) {
return x & (x - 1);
}
//set_lowest(0b0101) == 0b0111
constexpr inline uintmax_t set_lowest(const uintmax_t x) {
return x | (x + 1);
}
//count number of bits set in a byte
inline unsigned count(uintmax_t x) {
unsigned count = 0;
do count += x & 1; while(x >>= 1);
return count;
}
//round up to next highest single bit:
//round(15) == 16, round(16) == 16, round(17) == 32
inline uintmax_t round(uintmax_t x) {
if((x & (x - 1)) == 0) return x;
while(x & (x - 1)) x &= x - 1;
return x << 1;
}
}
}
#endif

101
bsnes/nall/bmp.hpp
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#ifndef NALL_BMP_HPP
#define NALL_BMP_HPP
#include <nall/file.hpp>
//BMP reader / writer
//author: byuu
//note: only 24-bit RGB and 32-bit ARGB uncompressed images supported
namespace nall {
struct bmp {
inline static bool read(const string &filename, uint32_t *&data, unsigned &width, unsigned &height);
inline static bool write(const string &filename, const uint32_t *data, unsigned width, unsigned height, unsigned pitch, bool alpha = false);
};
bool bmp::read(const string &filename, uint32_t *&data, unsigned &width, unsigned &height) {
file fp;
if(fp.open(filename, file::mode::read) == false) return false;
if(fp.size() < 0x36) return false;
if(fp.readm(2) != 0x424d) return false;
fp.seek(0x000a);
unsigned offset = fp.readl(4);
unsigned dibsize = fp.readl(4);
if(dibsize != 40) return false;
signed headerWidth = fp.readl(4);
if(headerWidth < 0) return false;
signed headerHeight = fp.readl(4);
fp.readl(2);
unsigned bitsPerPixel = fp.readl(2);
if(bitsPerPixel != 24 && bitsPerPixel != 32) return false;
unsigned compression = fp.readl(4);
if(compression != 0) return false;
fp.seek(offset);
bool noFlip = headerHeight < 0;
width = headerWidth, height = abs(headerHeight);
data = new uint32_t[width * height];
unsigned bytesPerPixel = bitsPerPixel / 8;
unsigned alignedWidth = width * bytesPerPixel;
unsigned paddingLength = 0;
while(alignedWidth % 4) alignedWidth++, paddingLength++;
for(unsigned y = 0; y < height; y++) {
uint32_t *p = noFlip ? data + y * width : data + (height - 1 - y) * width;
for(unsigned x = 0; x < width; x++, p++) {
*p = fp.readl(bytesPerPixel);
if(bytesPerPixel == 3) *p |= 255 << 24;
}
if(paddingLength) fp.readl(paddingLength);
}
fp.close();
return true;
}
bool bmp::write(const string &filename, const uint32_t *data, unsigned width, unsigned height, unsigned pitch, bool alpha) {
file fp;
if(fp.open(filename, file::mode::write) == false) return false;
unsigned bitsPerPixel = alpha ? 32 : 24;
unsigned bytesPerPixel = bitsPerPixel / 8;
unsigned alignedWidth = width * bytesPerPixel;
unsigned paddingLength = 0;
unsigned imageSize = alignedWidth * height;
unsigned fileSize = 0x36 + imageSize;
while(alignedWidth % 4) alignedWidth++, paddingLength++;
fp.writem(0x424d, 2); //signature
fp.writel(fileSize, 4); //file size
fp.writel(0, 2); //reserved
fp.writel(0, 2); //reserved
fp.writel(0x36, 4); //offset
fp.writel(40, 4); //DIB size
fp.writel(width, 4); //width
fp.writel(-height, 4); //height
fp.writel(1, 2); //color planes
fp.writel(bitsPerPixel, 2); //bits per pixel
fp.writel(0, 4); //compression method (BI_RGB)
fp.writel(imageSize, 4); //image data size
fp.writel(3780, 4); //horizontal resolution
fp.writel(3780, 4); //vertical resolution
fp.writel(0, 4); //palette size
fp.writel(0, 4); //important color count
for(unsigned y = 0; y < height; y++) {
const uint32_t *p = (const uint32_t*)((const uint8_t*)data + y * pitch);
for(unsigned x = 0; x < width; x++) fp.writel(*p++, bytesPerPixel);
if(paddingLength) fp.writel(0, paddingLength);
}
fp.close();
return true;
}
}
#endif

214
bsnes/nall/bps/delta.hpp
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@@ -1,214 +0,0 @@
#ifndef NALL_BPS_DELTA_HPP
#define NALL_BPS_DELTA_HPP
#include <nall/crc32.hpp>
#include <nall/file.hpp>
#include <nall/filemap.hpp>
#include <nall/stdint.hpp>
#include <nall/string.hpp>
namespace nall {
struct bpsdelta {
inline void source(const uint8_t *data, unsigned size);
inline void target(const uint8_t *data, unsigned size);
inline bool source(const string &filename);
inline bool target(const string &filename);
inline bool create(const string &filename, const string &metadata = "");
protected:
enum : unsigned { SourceRead, TargetRead, SourceCopy, TargetCopy };
enum : unsigned { Granularity = 1 };
struct Node {
unsigned offset;
Node *next;
inline Node() : offset(0), next(nullptr) {}
inline ~Node() { if(next) delete next; }
};
filemap sourceFile;
const uint8_t *sourceData;
unsigned sourceSize;
filemap targetFile;
const uint8_t *targetData;
unsigned targetSize;
};
void bpsdelta::source(const uint8_t *data, unsigned size) {
sourceData = data;
sourceSize = size;
}
void bpsdelta::target(const uint8_t *data, unsigned size) {
targetData = data;
targetSize = size;
}
bool bpsdelta::source(const string &filename) {
if(sourceFile.open(filename, filemap::mode::read) == false) return false;
source(sourceFile.data(), sourceFile.size());
return true;
}
bool bpsdelta::target(const string &filename) {
if(targetFile.open(filename, filemap::mode::read) == false) return false;
target(targetFile.data(), targetFile.size());
return true;
}
bool bpsdelta::create(const string &filename, const string &metadata) {
file modifyFile;
if(modifyFile.open(filename, file::mode::write) == false) return false;
uint32_t sourceChecksum = ~0, modifyChecksum = ~0;
unsigned sourceRelativeOffset = 0, targetRelativeOffset = 0, outputOffset = 0;
auto write = [&](uint8_t data) {
modifyFile.write(data);
modifyChecksum = crc32_adjust(modifyChecksum, data);
};
auto encode = [&](uint64_t data) {
while(true) {
uint64_t x = data & 0x7f;
data >>= 7;
if(data == 0) {
write(0x80 | x);
break;
}
write(x);
data--;
}
};
write('B');
write('P');
write('S');
write('1');
encode(sourceSize);
encode(targetSize);
unsigned markupSize = metadata.length();
encode(markupSize);
for(unsigned n = 0; n < markupSize; n++) write(metadata[n]);
Node *sourceTree[65536], *targetTree[65536];
for(unsigned n = 0; n < 65536; n++) sourceTree[n] = 0, targetTree[n] = 0;
//source tree creation
for(unsigned offset = 0; offset < sourceSize; offset++) {
uint16_t symbol = sourceData[offset + 0];
sourceChecksum = crc32_adjust(sourceChecksum, symbol);
if(offset < sourceSize - 1) symbol |= sourceData[offset + 1] << 8;
Node *node = new Node;
node->offset = offset;
node->next = sourceTree[symbol];
sourceTree[symbol] = node;
}
unsigned targetReadLength = 0;
auto targetReadFlush = [&]() {
if(targetReadLength) {
encode(TargetRead | ((targetReadLength - 1) << 2));
unsigned offset = outputOffset - targetReadLength;
while(targetReadLength) write(targetData[offset++]), targetReadLength--;
}
};
while(outputOffset < targetSize) {
unsigned maxLength = 0, maxOffset = 0, mode = TargetRead;
uint16_t symbol = targetData[outputOffset + 0];
if(outputOffset < targetSize - 1) symbol |= targetData[outputOffset + 1] << 8;
{ //source read
unsigned length = 0, offset = outputOffset;
while(offset < sourceSize && offset < targetSize && sourceData[offset] == targetData[offset]) {
length++;
offset++;
}
if(length > maxLength) maxLength = length, mode = SourceRead;
}
{ //source copy
Node *node = sourceTree[symbol];
while(node) {
unsigned length = 0, x = node->offset, y = outputOffset;
while(x < sourceSize && y < targetSize && sourceData[x++] == targetData[y++]) length++;
if(length > maxLength) maxLength = length, maxOffset = node->offset, mode = SourceCopy;
node = node->next;
}
}
{ //target copy
Node *node = targetTree[symbol];
while(node) {
unsigned length = 0, x = node->offset, y = outputOffset;
while(y < targetSize && targetData[x++] == targetData[y++]) length++;
if(length > maxLength) maxLength = length, maxOffset = node->offset, mode = TargetCopy;
node = node->next;
}
//target tree append
node = new Node;
node->offset = outputOffset;
node->next = targetTree[symbol];
targetTree[symbol] = node;
}
{ //target read
if(maxLength < 4) {
maxLength = min((unsigned)Granularity, targetSize - outputOffset);
mode = TargetRead;
}
}
if(mode != TargetRead) targetReadFlush();
switch(mode) {
case SourceRead:
encode(SourceRead | ((maxLength - 1) << 2));
break;
case TargetRead:
//delay write to group sequential TargetRead commands into one
targetReadLength += maxLength;
break;
case SourceCopy:
case TargetCopy:
encode(mode | ((maxLength - 1) << 2));
signed relativeOffset;
if(mode == SourceCopy) {
relativeOffset = maxOffset - sourceRelativeOffset;
sourceRelativeOffset = maxOffset + maxLength;
} else {
relativeOffset = maxOffset - targetRelativeOffset;
targetRelativeOffset = maxOffset + maxLength;
}
encode((relativeOffset < 0) | (abs(relativeOffset) << 1));
break;
}
outputOffset += maxLength;
}
targetReadFlush();
sourceChecksum = ~sourceChecksum;
for(unsigned n = 0; n < 32; n += 8) write(sourceChecksum >> n);
uint32_t targetChecksum = crc32_calculate(targetData, targetSize);
for(unsigned n = 0; n < 32; n += 8) write(targetChecksum >> n);
uint32_t outputChecksum = ~modifyChecksum;
for(unsigned n = 0; n < 32; n += 8) write(outputChecksum >> n);
modifyFile.close();
return true;
}
}
#endif

152
bsnes/nall/bps/linear.hpp
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#ifndef NALL_BPS_LINEAR_HPP
#define NALL_BPS_LINEAR_HPP
#include <nall/crc32.hpp>
#include <nall/file.hpp>
#include <nall/filemap.hpp>
#include <nall/stdint.hpp>
#include <nall/string.hpp>
namespace nall {
struct bpslinear {
inline void source(const uint8_t *data, unsigned size);
inline void target(const uint8_t *data, unsigned size);
inline bool source(const string &filename);
inline bool target(const string &filename);
inline bool create(const string &filename, const string &metadata = "");
protected:
enum : unsigned { SourceRead, TargetRead, SourceCopy, TargetCopy };
enum : unsigned { Granularity = 1 };
filemap sourceFile;
const uint8_t *sourceData;
unsigned sourceSize;
filemap targetFile;
const uint8_t *targetData;
unsigned targetSize;
};
void bpslinear::source(const uint8_t *data, unsigned size) {
sourceData = data;
sourceSize = size;
}
void bpslinear::target(const uint8_t *data, unsigned size) {
targetData = data;
targetSize = size;
}
bool bpslinear::source(const string &filename) {
if(sourceFile.open(filename, filemap::mode::read) == false) return false;
source(sourceFile.data(), sourceFile.size());
return true;
}
bool bpslinear::target(const string &filename) {
if(targetFile.open(filename, filemap::mode::read) == false) return false;
target(targetFile.data(), targetFile.size());
return true;
}
bool bpslinear::create(const string &filename, const string &metadata) {
file modifyFile;
if(modifyFile.open(filename, file::mode::write) == false) return false;
uint32_t modifyChecksum = ~0;
unsigned targetRelativeOffset = 0, outputOffset = 0;
auto write = [&](uint8_t data) {
modifyFile.write(data);
modifyChecksum = crc32_adjust(modifyChecksum, data);
};
auto encode = [&](uint64_t data) {
while(true) {
uint64_t x = data & 0x7f;
data >>= 7;
if(data == 0) {
write(0x80 | x);
break;
}
write(x);
data--;
}
};
unsigned targetReadLength = 0;
auto targetReadFlush = [&]() {
if(targetReadLength) {
encode(TargetRead | ((targetReadLength - 1) << 2));
unsigned offset = outputOffset - targetReadLength;
while(targetReadLength) write(targetData[offset++]), targetReadLength--;
}
};
write('B');
write('P');
write('S');
write('1');
encode(sourceSize);
encode(targetSize);
unsigned markupSize = metadata.length();
encode(markupSize);
for(unsigned n = 0; n < markupSize; n++) write(metadata[n]);
while(outputOffset < targetSize) {
unsigned sourceLength = 0;
for(unsigned n = 0; outputOffset + n < min(sourceSize, targetSize); n++) {
if(sourceData[outputOffset + n] != targetData[outputOffset + n]) break;
sourceLength++;
}
unsigned rleLength = 0;
for(unsigned n = 1; outputOffset + n < targetSize; n++) {
if(targetData[outputOffset] != targetData[outputOffset + n]) break;
rleLength++;
}
if(rleLength >= 4) {
//write byte to repeat
targetReadLength++;
outputOffset++;
targetReadFlush();
//copy starting from repetition byte
encode(TargetCopy | ((rleLength - 1) << 2));
unsigned relativeOffset = (outputOffset - 1) - targetRelativeOffset;
encode(relativeOffset << 1);
outputOffset += rleLength;
targetRelativeOffset = outputOffset - 1;
} else if(sourceLength >= 4) {
targetReadFlush();
encode(SourceRead | ((sourceLength - 1) << 2));
outputOffset += sourceLength;
} else {
targetReadLength += Granularity;
outputOffset += Granularity;
}
}
targetReadFlush();
uint32_t sourceChecksum = crc32_calculate(sourceData, sourceSize);
for(unsigned n = 0; n < 32; n += 8) write(sourceChecksum >> n);
uint32_t targetChecksum = crc32_calculate(targetData, targetSize);
for(unsigned n = 0; n < 32; n += 8) write(targetChecksum >> n);
uint32_t outputChecksum = ~modifyChecksum;
for(unsigned n = 0; n < 32; n += 8) write(outputChecksum >> n);
modifyFile.close();
return true;
}
}
#endif

121
bsnes/nall/bps/metadata.hpp
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@@ -1,121 +0,0 @@
#ifndef NALL_BPS_METADATA_HPP
#define NALL_BPS_METADATA_HPP
#include <nall/crc32.hpp>
#include <nall/file.hpp>
#include <nall/filemap.hpp>
#include <nall/stdint.hpp>
#include <nall/string.hpp>
namespace nall {
struct bpsmetadata {
inline bool load(const string &filename);
inline bool save(const string &filename, const string &metadata);
inline string metadata() const;
protected:
file sourceFile;
string metadataString;
};
bool bpsmetadata::load(const string &filename) {
if(sourceFile.open(filename, file::mode::read) == false) return false;
auto read = [&]() -> uint8_t {
return sourceFile.read();
};
auto decode = [&]() -> uint64_t {
uint64_t data = 0, shift = 1;
while(true) {
uint8_t x = read();
data += (x & 0x7f) * shift;
if(x & 0x80) break;
shift <<= 7;
data += shift;
}
return data;
};
if(read() != 'B') return false;
if(read() != 'P') return false;
if(read() != 'S') return false;
if(read() != '1') return false;
decode();
decode();
unsigned metadataSize = decode();
char data[metadataSize + 1];
for(unsigned n = 0; n < metadataSize; n++) data[n] = read();
data[metadataSize] = 0;
metadataString = (const char*)data;
return true;
}
bool bpsmetadata::save(const string &filename, const string &metadata) {
file targetFile;
if(targetFile.open(filename, file::mode::write) == false) return false;
if(sourceFile.open() == false) return false;
sourceFile.seek(0);
auto read = [&]() -> uint8_t {
return sourceFile.read();
};
auto decode = [&]() -> uint64_t {
uint64_t data = 0, shift = 1;
while(true) {
uint8_t x = read();
data += (x & 0x7f) * shift;
if(x & 0x80) break;
shift <<= 7;
data += shift;
}
return data;
};
uint32_t checksum = ~0;
auto write = [&](uint8_t data) {
targetFile.write(data);
checksum = crc32_adjust(checksum, data);
};
auto encode = [&](uint64_t data) {
while(true) {
uint64_t x = data & 0x7f;
data >>= 7;
if(data == 0) {
write(0x80 | x);
break;
}
write(x);
data--;
}
};
for(unsigned n = 0; n < 4; n++) write(read());
encode(decode());
encode(decode());
unsigned sourceLength = decode();
unsigned targetLength = metadata.length();
encode(targetLength);
sourceFile.seek(sourceLength, file::index::relative);
for(unsigned n = 0; n < targetLength; n++) write(metadata[n]);
unsigned length = sourceFile.size() - sourceFile.offset() - 4;
for(unsigned n = 0; n < length; n++) write(read());
uint32_t outputChecksum = ~checksum;
for(unsigned n = 0; n < 32; n += 8) write(outputChecksum >> n);
targetFile.close();
return true;
}
string bpsmetadata::metadata() const {
return metadataString;
}
}
#endif

126
bsnes/nall/config.hpp
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#ifndef NALL_CONFIG_HPP
#define NALL_CONFIG_HPP
#include <nall/file.hpp>
#include <nall/string.hpp>
#include <nall/vector.hpp>
namespace nall {
namespace configuration_traits {
template<typename T> struct is_boolean { enum { value = false }; };
template<> struct is_boolean<bool> { enum { value = true }; };
template<typename T> struct is_signed { enum { value = false }; };
template<> struct is_signed<signed> { enum { value = true }; };
template<typename T> struct is_unsigned { enum { value = false }; };
template<> struct is_unsigned<unsigned> { enum { value = true }; };
template<typename T> struct is_double { enum { value = false }; };
template<> struct is_double<double> { enum { value = true }; };
template<typename T> struct is_string { enum { value = false }; };
template<> struct is_string<string> { enum { value = true }; };
}
class configuration {
public:
enum type_t { boolean_t, signed_t, unsigned_t, double_t, string_t, unknown_t };
struct item_t {
uintptr_t data;
string name;
string desc;
type_t type;
inline string get() const {
switch(type) {
case boolean_t: return { *(bool*)data };
case signed_t: return { *(signed*)data };
case unsigned_t: return { *(unsigned*)data };
case double_t: return { *(double*)data };
case string_t: return { "\"", *(string*)data, "\"" };
}
return "???";
}
inline void set(string s) {
switch(type) {
case boolean_t: *(bool*)data = (s == "true"); break;
case signed_t: *(signed*)data = integer(s); break;
case unsigned_t: *(unsigned*)data = decimal(s); break;
case double_t: *(double*)data = fp(s); break;
case string_t: s.trim("\""); *(string*)data = s; break;
}
}
};
vector<item_t> list;
template<typename T>
inline void append(T &data, const char *name, const char *desc = "") {
item_t item = { (uintptr_t)&data, name, desc };
if(configuration_traits::is_boolean<T>::value) item.type = boolean_t;
else if(configuration_traits::is_signed<T>::value) item.type = signed_t;
else if(configuration_traits::is_unsigned<T>::value) item.type = unsigned_t;
else if(configuration_traits::is_double<T>::value) item.type = double_t;
else if(configuration_traits::is_string<T>::value) item.type = string_t;
else item.type = unknown_t;
list.append(item);
}
//deprecated
template<typename T>
inline void attach(T &data, const char *name, const char *desc = "") {
append(data, name, desc);
}
inline virtual bool load(const string &filename) {
string data;
if(data.readfile(filename) == true) {
data.replace("\r", "");
lstring line;
line.split("\n", data);
for(unsigned i = 0; i < line.size(); i++) {
if(auto position = qstrpos(line[i], "#")) line[i][position()] = 0;
if(!qstrpos(line[i], " = ")) continue;
lstring part;
part.qsplit(" = ", line[i]);
part[0].trim();
part[1].trim();
for(unsigned n = 0; n < list.size(); n++) {
if(part[0] == list[n].name) {
list[n].set(part[1]);
break;
}
}
}
return true;
} else {
return false;
}
}
inline virtual bool save(const string &filename) const {
file fp;
if(fp.open(filename, file::mode::write)) {
for(unsigned i = 0; i < list.size(); i++) {
string output;
output.append(list[i].name, " = ", list[i].get());
if(list[i].desc != "") output.append(" # ", list[i].desc);
output.append("\r\n");
fp.print(output);
}
fp.close();
return true;
} else {
return false;
}
}
};
}
#endif

66
bsnes/nall/crc32.hpp
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@@ -1,66 +0,0 @@
#ifndef NALL_CRC32_HPP
#define NALL_CRC32_HPP
#include <nall/stdint.hpp>
namespace nall {
const uint32_t crc32_table[256] = {
0x00000000, 0x77073096, 0xee0e612c, 0x990951ba, 0x076dc419, 0x706af48f,
0xe963a535, 0x9e6495a3, 0x0edb8832, 0x79dcb8a4, 0xe0d5e91e, 0x97d2d988,
0x09b64c2b, 0x7eb17cbd, 0xe7b82d07, 0x90bf1d91, 0x1db71064, 0x6ab020f2,
0xf3b97148, 0x84be41de, 0x1adad47d, 0x6ddde4eb, 0xf4d4b551, 0x83d385c7,
0x136c9856, 0x646ba8c0, 0xfd62f97a, 0x8a65c9ec, 0x14015c4f, 0x63066cd9,
0xfa0f3d63, 0x8d080df5, 0x3b6e20c8, 0x4c69105e, 0xd56041e4, 0xa2677172,
0x3c03e4d1, 0x4b04d447, 0xd20d85fd, 0xa50ab56b, 0x35b5a8fa, 0x42b2986c,
0xdbbbc9d6, 0xacbcf940, 0x32d86ce3, 0x45df5c75, 0xdcd60dcf, 0xabd13d59,
0x26d930ac, 0x51de003a, 0xc8d75180, 0xbfd06116, 0x21b4f4b5, 0x56b3c423,
0xcfba9599, 0xb8bda50f, 0x2802b89e, 0x5f058808, 0xc60cd9b2, 0xb10be924,
0x2f6f7c87, 0x58684c11, 0xc1611dab, 0xb6662d3d, 0x76dc4190, 0x01db7106,
0x98d220bc, 0xefd5102a, 0x71b18589, 0x06b6b51f, 0x9fbfe4a5, 0xe8b8d433,
0x7807c9a2, 0x0f00f934, 0x9609a88e, 0xe10e9818, 0x7f6a0dbb, 0x086d3d2d,
0x91646c97, 0xe6635c01, 0x6b6b51f4, 0x1c6c6162, 0x856530d8, 0xf262004e,
0x6c0695ed, 0x1b01a57b, 0x8208f4c1, 0xf50fc457, 0x65b0d9c6, 0x12b7e950,
0x8bbeb8ea, 0xfcb9887c, 0x62dd1ddf, 0x15da2d49, 0x8cd37cf3, 0xfbd44c65,
0x4db26158, 0x3ab551ce, 0xa3bc0074, 0xd4bb30e2, 0x4adfa541, 0x3dd895d7,
0xa4d1c46d, 0xd3d6f4fb, 0x4369e96a, 0x346ed9fc, 0xad678846, 0xda60b8d0,
0x44042d73, 0x33031de5, 0xaa0a4c5f, 0xdd0d7cc9, 0x5005713c, 0x270241aa,
0xbe0b1010, 0xc90c2086, 0x5768b525, 0x206f85b3, 0xb966d409, 0xce61e49f,
0x5edef90e, 0x29d9c998, 0xb0d09822, 0xc7d7a8b4, 0x59b33d17, 0x2eb40d81,
0xb7bd5c3b, 0xc0ba6cad, 0xedb88320, 0x9abfb3b6, 0x03b6e20c, 0x74b1d29a,
0xead54739, 0x9dd277af, 0x04db2615, 0x73dc1683, 0xe3630b12, 0x94643b84,
0x0d6d6a3e, 0x7a6a5aa8, 0xe40ecf0b, 0x9309ff9d, 0x0a00ae27, 0x7d079eb1,
0xf00f9344, 0x8708a3d2, 0x1e01f268, 0x6906c2fe, 0xf762575d, 0x806567cb,
0x196c3671, 0x6e6b06e7, 0xfed41b76, 0x89d32be0, 0x10da7a5a, 0x67dd4acc,
0xf9b9df6f, 0x8ebeeff9, 0x17b7be43, 0x60b08ed5, 0xd6d6a3e8, 0xa1d1937e,
0x38d8c2c4, 0x4fdff252, 0xd1bb67f1, 0xa6bc5767, 0x3fb506dd, 0x48b2364b,
0xd80d2bda, 0xaf0a1b4c, 0x36034af6, 0x41047a60, 0xdf60efc3, 0xa867df55,
0x316e8eef, 0x4669be79, 0xcb61b38c, 0xbc66831a, 0x256fd2a0, 0x5268e236,
0xcc0c7795, 0xbb0b4703, 0x220216b9, 0x5505262f, 0xc5ba3bbe, 0xb2bd0b28,
0x2bb45a92, 0x5cb36a04, 0xc2d7ffa7, 0xb5d0cf31, 0x2cd99e8b, 0x5bdeae1d,
0x9b64c2b0, 0xec63f226, 0x756aa39c, 0x026d930a, 0x9c0906a9, 0xeb0e363f,
0x72076785, 0x05005713, 0x95bf4a82, 0xe2b87a14, 0x7bb12bae, 0x0cb61b38,
0x92d28e9b, 0xe5d5be0d, 0x7cdcefb7, 0x0bdbdf21, 0x86d3d2d4, 0xf1d4e242,
0x68ddb3f8, 0x1fda836e, 0x81be16cd, 0xf6b9265b, 0x6fb077e1, 0x18b74777,
0x88085ae6, 0xff0f6a70, 0x66063bca, 0x11010b5c, 0x8f659eff, 0xf862ae69,
0x616bffd3, 0x166ccf45, 0xa00ae278, 0xd70dd2ee, 0x4e048354, 0x3903b3c2,
0xa7672661, 0xd06016f7, 0x4969474d, 0x3e6e77db, 0xaed16a4a, 0xd9d65adc,
0x40df0b66, 0x37d83bf0, 0xa9bcae53, 0xdebb9ec5, 0x47b2cf7f, 0x30b5ffe9,
0xbdbdf21c, 0xcabac28a, 0x53b39330, 0x24b4a3a6, 0xbad03605, 0xcdd70693,
0x54de5729, 0x23d967bf, 0xb3667a2e, 0xc4614ab8, 0x5d681b02, 0x2a6f2b94,
0xb40bbe37, 0xc30c8ea1, 0x5a05df1b, 0x2d02ef8d
};
inline uint32_t crc32_adjust(uint32_t crc32, uint8_t input) {
return ((crc32 >> 8) & 0x00ffffff) ^ crc32_table[(crc32 ^ input) & 0xff];
}
inline uint32_t crc32_calculate(const uint8_t *data, unsigned length) {
uint32_t crc32 = ~0;
for(unsigned i = 0; i < length; i++) {
crc32 = crc32_adjust(crc32, data[i]);
}
return ~crc32;
}
}
#endif

153
bsnes/nall/directory.hpp
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@@ -1,153 +0,0 @@
#ifndef NALL_DIRECTORY_HPP
#define NALL_DIRECTORY_HPP
#include <nall/intrinsics.hpp>
#include <nall/sort.hpp>
#include <nall/string.hpp>
#include <nall/vector.hpp>
#if defined(PLATFORM_WINDOWS)
#include <nall/windows/utf8.hpp>
#else
#include <dirent.h>
#include <stdio.h>
#include <sys/types.h>
#endif
namespace nall {
struct directory {
static bool exists(const string &pathname);
static lstring folders(const string &pathname, const string &pattern = "*");
static lstring files(const string &pathname, const string &pattern = "*");
static lstring contents(const string &pathname, const string &pattern = "*");
};
#if defined(PLATFORM_WINDOWS)
inline bool directory::exists(const string &pathname) {
DWORD result = GetFileAttributes(utf16_t(pathname));
if(result == INVALID_FILE_ATTRIBUTES) return false;
return (result & FILE_ATTRIBUTE_DIRECTORY);
}
inline lstring directory::folders(const string &pathname, const string &pattern) {
lstring list;
string path = pathname;
path.transform("/", "\\");
if(!strend(path, "\\")) path.append("\\");
path.append("*");
HANDLE handle;
WIN32_FIND_DATA data;
handle = FindFirstFile(utf16_t(path), &data);
if(handle != INVALID_HANDLE_VALUE) {
if(wcscmp(data.cFileName, L".") && wcscmp(data.cFileName, L"..")) {
if(data.dwFileAttributes & FILE_ATTRIBUTE_DIRECTORY) {
string name = (const char*)utf8_t(data.cFileName);
if(wildcard(name, pattern)) list.append(name);
}
}
while(FindNextFile(handle, &data) != false) {
if(wcscmp(data.cFileName, L".") && wcscmp(data.cFileName, L"..")) {
if(data.dwFileAttributes & FILE_ATTRIBUTE_DIRECTORY) {
string name = (const char*)utf8_t(data.cFileName);
if(wildcard(name, pattern)) list.append(name);
}
}
}
FindClose(handle);
}
if(list.size() > 0) list.sort();
for(auto &name : list) name.append("/"); //must append after sorting
return list;
}
inline lstring directory::files(const string &pathname, const string &pattern) {
lstring list;
string path = pathname;
path.transform("/", "\\");
if(!strend(path, "\\")) path.append("\\");
path.append("*");
HANDLE handle;
WIN32_FIND_DATA data;
handle = FindFirstFile(utf16_t(path), &data);
if(handle != INVALID_HANDLE_VALUE) {
if((data.dwFileAttributes & FILE_ATTRIBUTE_DIRECTORY) == 0) {
string name = (const char*)utf8_t(data.cFileName);
if(wildcard(name, pattern)) list.append(name);
}
while(FindNextFile(handle, &data) != false) {
if((data.dwFileAttributes & FILE_ATTRIBUTE_DIRECTORY) == 0) {
string name = (const char*)utf8_t(data.cFileName);
if(wildcard(name, pattern)) list.append(name);
}
}
FindClose(handle);
}
if(list.size() > 0) list.sort();
return list;
}
inline lstring directory::contents(const string &pathname, const string &pattern) {
lstring folders = directory::folders(pathname); //pattern search of contents() should only filter files
lstring files = directory::files(pathname, pattern);
for(auto &file : files) folders.append(file);
return folders;
}
#else
inline bool directory::exists(const string &pathname) {
DIR *dp = opendir(pathname);
if(!dp) return false;
closedir(dp);
return true;
}
inline lstring directory::folders(const string &pathname, const string &pattern) {
lstring list;
DIR *dp;
struct dirent *ep;
dp = opendir(pathname);
if(dp) {
while(ep = readdir(dp)) {
if(!strcmp(ep->d_name, ".")) continue;
if(!strcmp(ep->d_name, "..")) continue;
if(ep->d_type & DT_DIR) {
if(wildcard(ep->d_name, pattern)) list.append(ep->d_name);
}
}
closedir(dp);
}
if(list.size() > 0) list.sort();
for(auto &name : list) name.append("/"); //must append after sorting
return list;
}
inline lstring directory::files(const string &pathname, const string &pattern) {
lstring list;
DIR *dp;
struct dirent *ep;
dp = opendir(pathname);
if(dp) {
while(ep = readdir(dp)) {
if(!strcmp(ep->d_name, ".")) continue;
if(!strcmp(ep->d_name, "..")) continue;
if((ep->d_type & DT_DIR) == 0) {
if(wildcard(ep->d_name, pattern)) list.append(ep->d_name);
}
}
closedir(dp);
}
if(list.size() > 0) list.sort();
return list;
}
inline lstring directory::contents(const string &pathname, const string &pattern) {
lstring folders = directory::folders(pathname); //pattern search of contents() should only filter files
lstring files = directory::files(pathname, pattern);
for(auto &file : files) folders.append(file);
return folders;
}
#endif
}
#endif

115
bsnes/nall/dl.hpp
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@@ -1,115 +0,0 @@
#ifndef NALL_DL_HPP
#define NALL_DL_HPP
//dynamic linking support
#include <nall/intrinsics.hpp>
#include <nall/stdint.hpp>
#include <nall/string.hpp>
#include <nall/utility.hpp>
#if defined(PLATFORM_X) || defined(PLATFORM_OSX)
#include <dlfcn.h>
#elif defined(PLATFORM_WINDOWS)
#include <windows.h>
#include <nall/windows/utf8.hpp>
#endif
namespace nall {
struct library {
bool opened() const { return handle; }
bool open(const char*, const char* = "");
bool open_absolute(const char*);
void* sym(const char*);
void close();
library() : handle(0) {}
~library() { close(); }
library& operator=(const library&) = delete;
library(const library&) = delete;
private:
uintptr_t handle;
};
#if defined(PLATFORM_X)
inline bool library::open(const char *name, const char *path) {
if(handle) close();
handle = (uintptr_t)dlopen(string(path, *path && !strend(path, "/") ? "/" : "", "lib", name, ".so"), RTLD_LAZY);
if(!handle) handle = (uintptr_t)dlopen(string("/usr/local/lib/lib", name, ".so"), RTLD_LAZY);
return handle;
}
inline bool library::open_absolute(const char *name) {
if(handle) close();
handle = (uintptr_t)dlopen(name, RTLD_LAZY);
return handle;
}
inline void* library::sym(const char *name) {
if(!handle) return 0;
return dlsym((void*)handle, name);
}
inline void library::close() {
if(!handle) return;
dlclose((void*)handle);
handle = 0;
}
#elif defined(PLATFORM_OSX)
inline bool library::open(const char *name, const char *path) {
if(handle) close();
handle = (uintptr_t)dlopen(string(path, *path && !strend(path, "/") ? "/" : "", "lib", name, ".dylib"), RTLD_LAZY);
if(!handle) handle = (uintptr_t)dlopen(string("/usr/local/lib/lib", name, ".dylib"), RTLD_LAZY);
return handle;
}
inline bool library::open_absolute(const char *name) {
if(handle) close();
handle = (uintptr_t)dlopen(name, RTLD_LAZY);
return handle;
}
inline void* library::sym(const char *name) {
if(!handle) return 0;
return dlsym((void*)handle, name);
}
inline void library::close() {
if(!handle) return;
dlclose((void*)handle);
handle = 0;
}
#elif defined(PLATFORM_WINDOWS)
inline bool library::open(const char *name, const char *path) {
if(handle) close();
string filepath(path, *path && !strend(path, "/") && !strend(path, "\\") ? "\\" : "", name, ".dll");
handle = (uintptr_t)LoadLibraryW(utf16_t(filepath));
return handle;
}
inline bool library::open_absolute(const char *name) {
if(handle) close();
handle = (uintptr_t)LoadLibraryW(utf16_t(name));
return handle;
}
inline void* library::sym(const char *name) {
if(!handle) return 0;
return (void*)GetProcAddress((HMODULE)handle, name);
}
inline void library::close() {
if(!handle) return;
FreeLibrary((HMODULE)handle);
handle = 0;
}
#else
inline bool library::open(const char*, const char*) { return false; }
inline void* library::sym(const char*) { return 0; }
inline void library::close() {}
#endif
};
#endif

13
bsnes/nall/dsp.hpp
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@@ -1,13 +0,0 @@
#ifndef NALL_DSP_HPP
#define NALL_DSP_HPP
#include <algorithm>
#ifdef __SSE__
#include <xmmintrin.h>
#endif
#define NALL_DSP_INTERNAL_HPP
#include <nall/dsp/core.hpp>
#undef NALL_DSP_INTERNAL_HPP
#endif

51
bsnes/nall/dsp/buffer.hpp
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@@ -1,51 +0,0 @@
#ifdef NALL_DSP_INTERNAL_HPP
struct Buffer {
double **sample;
uint16_t rdoffset;
uint16_t wroffset;
unsigned channels;
void setChannels(unsigned channels) {
for(unsigned c = 0; c < this->channels; c++) {
if(sample[c]) delete[] sample[c];
}
if(sample) delete[] sample;
this->channels = channels;
if(channels == 0) return;
sample = new double*[channels];
for(unsigned c = 0; c < channels; c++) {
sample[c] = new double[65536]();
}
}
inline double& read(unsigned channel, signed offset = 0) {
return sample[channel][(uint16_t)(rdoffset + offset)];
}
inline double& write(unsigned channel, signed offset = 0) {
return sample[channel][(uint16_t)(wroffset + offset)];
}
inline void clear() {
for(unsigned c = 0; c < channels; c++) {
for(unsigned n = 0; n < 65536; n++) {
sample[c][n] = 0;
}
}
rdoffset = 0;
wroffset = 0;
}
Buffer() {
channels = 0;
}
~Buffer() {
setChannels(0);
}
};
#endif

72
bsnes/nall/dsp/resample/average.hpp
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@@ -1,72 +0,0 @@
#ifdef NALL_DSP_INTERNAL_HPP
struct ResampleAverage : Resampler {
inline void setFrequency();
inline void clear();
inline void sample();
inline void sampleLinear();
ResampleAverage(DSP &dsp) : Resampler(dsp) {}
real fraction;
real step;
};
void ResampleAverage::setFrequency() {
fraction = 0.0;
step = dsp.settings.frequency / frequency;
}
void ResampleAverage::clear() {
fraction = 0.0;
}
void ResampleAverage::sample() {
//can only average if input frequency >= output frequency
if(step < 1.0) return sampleLinear();
fraction += 1.0;
real scalar = 1.0;
if(fraction > step) scalar = 1.0 - (fraction - step);
for(unsigned c = 0; c < dsp.settings.channels; c++) {
dsp.output.write(c) += dsp.buffer.read(c) * scalar;
}
if(fraction >= step) {
for(unsigned c = 0; c < dsp.settings.channels; c++) {
dsp.output.write(c) /= step;
}
dsp.output.wroffset++;
fraction -= step;
for(unsigned c = 0; c < dsp.settings.channels; c++) {
dsp.output.write(c) = dsp.buffer.read(c) * fraction;
}
}
dsp.buffer.rdoffset++;
}
void ResampleAverage::sampleLinear() {
while(fraction <= 1.0) {
real channel[dsp.settings.channels];
for(unsigned n = 0; n < dsp.settings.channels; n++) {
real a = dsp.buffer.read(n, -1);
real b = dsp.buffer.read(n, -0);
real mu = fraction;
channel[n] = a * (1.0 - mu) + b * mu;
}
dsp.write(channel);
fraction += step;
}
dsp.buffer.rdoffset++;
fraction -= 1.0;
}
#endif

50
bsnes/nall/dsp/resample/cubic.hpp
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@@ -1,50 +0,0 @@
#ifdef NALL_DSP_INTERNAL_HPP
struct ResampleCubic : Resampler {
inline void setFrequency();
inline void clear();
inline void sample();
ResampleCubic(DSP &dsp) : Resampler(dsp) {}
real fraction;
real step;
};
void ResampleCubic::setFrequency() {
fraction = 0.0;
step = dsp.settings.frequency / frequency;
}
void ResampleCubic::clear() {
fraction = 0.0;
}
void ResampleCubic::sample() {
while(fraction <= 1.0) {
real channel[dsp.settings.channels];
for(unsigned n = 0; n < dsp.settings.channels; n++) {
real a = dsp.buffer.read(n, -3);
real b = dsp.buffer.read(n, -2);
real c = dsp.buffer.read(n, -1);
real d = dsp.buffer.read(n, -0);
real mu = fraction;
real A = d - c - a + b;
real B = a - b - A;
real C = c - a;
real D = b;
channel[n] = A * (mu * 3) + B * (mu * 2) + C * mu + D;
}
dsp.write(channel);
fraction += step;
}
dsp.buffer.rdoffset++;
fraction -= 1.0;
}
#endif

600
bsnes/nall/dsp/resample/lib/sinc.hpp
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@@ -1,600 +0,0 @@
// If these types are changed to anything other than "float", you should comment out the SSE detection directives below
// so that the SSE code is not used.
typedef float resample_coeff_t; // note: sizeof(resample_coeff_t) must be == to a power of 2, and not larger than 16
typedef float resample_samp_t;
// ...but don't comment this single RESAMPLE_SSEREGPARM define out when disabling SSE.
#define RESAMPLE_SSEREGPARM
#if defined(__SSE__)
#define SINCRESAMPLE_USE_SSE 1
#ifndef __x86_64__
#undef RESAMPLE_SSEREGPARM
#define RESAMPLE_SSEREGPARM __attribute__((sseregparm))
#endif
#else
// TODO: altivec here
#endif
namespace ResampleUtility
{
inline void kaiser_window(double* io, int count, double beta);
inline void gen_sinc(double* out, int size, double cutoff, double kaiser);
inline void gen_sinc_os(double* out, int size, double cutoff, double kaiser);
inline void normalize(double* io, int size, double gain = 1.0);
inline void* make_aligned(void* ptr, unsigned boundary); // boundary must be a power of 2
}
class SincResampleHR
{
private:
inline void Init(unsigned ratio_arg, double desired_bandwidth, double beta, double d);
inline void write(resample_samp_t sample) RESAMPLE_SSEREGPARM;
inline resample_samp_t read(void) RESAMPLE_SSEREGPARM;
inline bool output_avail(void);
private:
inline resample_samp_t mac(const resample_samp_t *wave, const resample_coeff_t *coeff, unsigned count);
unsigned ratio;
unsigned num_convolutions;
resample_coeff_t *coeffs;
std::vector<unsigned char> coeffs_mem;
// second half of ringbuffer should be copy of first half.
resample_samp_t *rb;
std::vector<unsigned char> rb_mem;
signed rb_readpos;
signed rb_writepos;
signed rb_in;
signed rb_eff_size;
friend class SincResample;
};
class SincResample
{
public:
enum
{
QUALITY_LOW = 0,
QUALITY_MEDIUM = 2,
QUALITY_HIGH = 4
};
inline SincResample(double input_rate, double output_rate, double desired_bandwidth, unsigned quality = QUALITY_HIGH);
inline void write(resample_samp_t sample) RESAMPLE_SSEREGPARM;
inline resample_samp_t read(void) RESAMPLE_SSEREGPARM;
inline bool output_avail(void);
private:
inline void Init(double input_rate, double output_rate, double desired_bandwidth, double beta, double d, unsigned pn_nume, unsigned phases_min);
inline resample_samp_t mac(const resample_samp_t *wave, const resample_coeff_t *coeffs_a, const resample_coeff_t *coeffs_b, const double ffract, unsigned count) RESAMPLE_SSEREGPARM;
unsigned num_convolutions;
unsigned num_phases;
unsigned step_int;
double step_fract;
double input_pos_fract;
std::vector<resample_coeff_t *> coeffs; // Pointers into coeff_mem.
std::vector<unsigned char> coeff_mem;
std::vector<resample_samp_t> rb; // second half should be copy of first half.
signed rb_readpos;
signed rb_writepos;
signed rb_in;
bool hr_used;
SincResampleHR hr;
};
//
// Code:
//
//#include "resample.hpp"
#if 0
namespace bit
{
inline unsigned round(unsigned x) {
if((x & (x - 1)) == 0) return x;
while(x & (x - 1)) x &= x - 1;
return x << 1;
}
}
#endif
void SincResampleHR::Init(unsigned ratio_arg, double desired_bandwidth, double beta, double d)
{
const unsigned align_boundary = 16;
std::vector<double> coeffs_tmp;
double cutoff; // 1.0 = f/2
ratio = ratio_arg;
//num_convolutions = ((unsigned)ceil(d / ((1.0 - desired_bandwidth) / ratio)) + 1) &~ 1; // round up to be even
num_convolutions = ((unsigned)ceil(d / ((1.0 - desired_bandwidth) / ratio)) | 1);
cutoff = (1.0 / ratio) - (d / num_convolutions);
//printf("%d %d %.20f\n", ratio, num_convolutions, cutoff);
assert(num_convolutions > ratio);
// Generate windowed sinc of POWER
coeffs_tmp.resize(num_convolutions);
//ResampleUtility::gen_sinc(&coeffs_tmp[0], num_convolutions, cutoff, beta);
ResampleUtility::gen_sinc_os(&coeffs_tmp[0], num_convolutions, cutoff, beta);
ResampleUtility::normalize(&coeffs_tmp[0], num_convolutions);
// Copy from coeffs_tmp to coeffs~
// We multiply many coefficients at a time in the mac loop, so make sure the last few that don't really
// exist are allocated, zero'd mem.
coeffs_mem.resize(((num_convolutions + 7) &~ 7) * sizeof(resample_coeff_t) + (align_boundary - 1));
coeffs = (resample_coeff_t *)ResampleUtility::make_aligned(&coeffs_mem[0], align_boundary);
for(unsigned i = 0; i < num_convolutions; i++)
coeffs[i] = coeffs_tmp[i];
rb_eff_size = nall::bit::round(num_convolutions * 2) >> 1;
rb_readpos = 0;
rb_writepos = 0;
rb_in = 0;
rb_mem.resize(rb_eff_size * 2 * sizeof(resample_samp_t) + (align_boundary - 1));
rb = (resample_samp_t *)ResampleUtility::make_aligned(&rb_mem[0], align_boundary);
}
inline bool SincResampleHR::output_avail(void)
{
return(rb_in >= (signed)num_convolutions);
}
inline void SincResampleHR::write(resample_samp_t sample)
{
assert(!output_avail());
rb[rb_writepos] = sample;
rb[rb_writepos + rb_eff_size] = sample;
rb_writepos = (rb_writepos + 1) & (rb_eff_size - 1);
rb_in++;
}
resample_samp_t SincResampleHR::mac(const resample_samp_t *wave, const resample_coeff_t *coeff, unsigned count)
{
#if SINCRESAMPLE_USE_SSE
__m128 accum_veca[2] = { _mm_set1_ps(0), _mm_set1_ps(0) };
resample_samp_t accum;
for(unsigned c = 0; c < count; c += 8)
{
for(unsigned i = 0; i < 2; i++)
{
__m128 co[2];
__m128 w[2];
co[i] = _mm_load_ps(&coeff[c + i * 4]);
w[i] = _mm_load_ps(&wave[c + i * 4]);
w[i] = _mm_mul_ps(w[i], co[i]);
accum_veca[i] = _mm_add_ps(w[i], accum_veca[i]);
}
}
__m128 accum_vec = _mm_add_ps(accum_veca[0], accum_veca[1]); //_mm_add_ps(_mm_add_ps(accum_veca[0], accum_veca[1]), _mm_add_ps(accum_veca[2], accum_veca[3]));
accum_vec = _mm_add_ps(accum_vec, _mm_shuffle_ps(accum_vec, accum_vec, (3 << 0) | (2 << 2) | (1 << 4) | (0 << 6)));
accum_vec = _mm_add_ps(accum_vec, _mm_shuffle_ps(accum_vec, accum_vec, (1 << 0) | (0 << 2) | (1 << 4) | (0 << 6)));
_mm_store_ss(&accum, accum_vec);
return accum;
#else
resample_samp_t accum[4] = { 0, 0, 0, 0 };
for(unsigned c = 0; c < count; c+= 4)
{
accum[0] += wave[c + 0] * coeff[c + 0];
accum[1] += wave[c + 1] * coeff[c + 1];
accum[2] += wave[c + 2] * coeff[c + 2];
accum[3] += wave[c + 3] * coeff[c + 3];
}
return (accum[0] + accum[1]) + (accum[2] + accum[3]); // don't mess with parentheses(assuming compiler doesn't already, which it may...
#endif
}
resample_samp_t SincResampleHR::read(void)
{
assert(output_avail());
resample_samp_t ret;
ret = mac(&rb[rb_readpos], &coeffs[0], num_convolutions);
rb_readpos = (rb_readpos + ratio) & (rb_eff_size - 1);
rb_in -= ratio;
return ret;
}
SincResample::SincResample(double input_rate, double output_rate, double desired_bandwidth, unsigned quality)
{
const struct
{
double beta;
double d;
unsigned pn_nume;
unsigned phases_min;
} qtab[5] =
{
{ 5.658, 3.62, 4096, 4 },
{ 6.764, 4.32, 8192, 4 },
{ 7.865, 5.0, 16384, 8 },
{ 8.960, 5.7, 32768, 16 },
{ 10.056, 6.4, 65536, 32 }
};
// Sanity checks
assert(ceil(input_rate) > 0);
assert(ceil(output_rate) > 0);
assert(ceil(input_rate / output_rate) <= 1024);
assert(ceil(output_rate / input_rate) <= 1024);
// The simplistic number-of-phases calculation code doesn't work well enough for when desired_bandwidth is close to 1.0 and when
// upsampling.
assert(desired_bandwidth >= 0.25 && desired_bandwidth < 0.96);
assert(quality >= 0 && quality <= 4);
hr_used = false;
#if 1
// Round down to the nearest multiple of 4(so wave buffer remains aligned)
// It also adjusts the effective intermediate sampling rate up slightly, so that the upper frequencies below f/2
// aren't overly attenuated so much. In the future, we might want to do an FFT or something to choose the intermediate rate more accurately
// to virtually eliminate over-attenuation.
unsigned ioratio_rd = (unsigned)floor(input_rate / (output_rate * (1.0 + (1.0 - desired_bandwidth) / 2) )) & ~3;
if(ioratio_rd >= 8)
{
hr.Init(ioratio_rd, desired_bandwidth, qtab[quality].beta, qtab[quality].d); //10.056, 6.4);
hr_used = true;
input_rate /= ioratio_rd;
}
#endif
Init(input_rate, output_rate, desired_bandwidth, qtab[quality].beta, qtab[quality].d, qtab[quality].pn_nume, qtab[quality].phases_min);
}
void SincResample::Init(double input_rate, double output_rate, double desired_bandwidth, double beta, double d, unsigned pn_nume, unsigned phases_min)
{
const unsigned max_mult_atatime = 8; // multiply "granularity". must be power of 2.
const unsigned max_mult_minus1 = (max_mult_atatime - 1);
const unsigned conv_alignment_bytes = 16; // must be power of 2
const double input_to_output_ratio = input_rate / output_rate;
const double output_to_input_ratio = output_rate / input_rate;
double cutoff; // 1.0 = input_rate / 2
std::vector<double> coeff_init_buffer;
// Round up num_convolutions to be even.
if(output_rate > input_rate)
num_convolutions = ((unsigned)ceil(d / (1.0 - desired_bandwidth)) + 1) & ~1;
else
num_convolutions = ((unsigned)ceil(d / (output_to_input_ratio * (1.0 - desired_bandwidth))) + 1) & ~1;
if(output_rate > input_rate) // Upsampling
cutoff = desired_bandwidth;
else // Downsampling
cutoff = output_to_input_ratio * desired_bandwidth;
// Round up to be even.
num_phases = (std::max<unsigned>(pn_nume / num_convolutions, phases_min) + 1) &~1;
// Adjust cutoff to account for the multiple phases.
cutoff = cutoff / num_phases;
assert((num_convolutions & 1) == 0);
assert((num_phases & 1) == 0);
// fprintf(stderr, "num_convolutions=%u, num_phases=%u, total expected coeff byte size=%lu\n", num_convolutions, num_phases,
// (long)((num_phases + 2) * ((num_convolutions + max_mult_minus1) & ~max_mult_minus1) * sizeof(float) + conv_alignment_bytes));
coeff_init_buffer.resize(num_phases * num_convolutions);
coeffs.resize(num_phases + 1 + 1);
coeff_mem.resize((num_phases + 1 + 1) * ((num_convolutions + max_mult_minus1) &~ max_mult_minus1) * sizeof(resample_coeff_t) + conv_alignment_bytes);
// Assign aligned pointers into coeff_mem
{
resample_coeff_t *base_ptr = (resample_coeff_t *)ResampleUtility::make_aligned(&coeff_mem[0], conv_alignment_bytes);
for(unsigned phase = 0; phase < (num_phases + 1 + 1); phase++)
{
coeffs[phase] = base_ptr + (((num_convolutions + max_mult_minus1) & ~max_mult_minus1) * phase);
}
}
ResampleUtility::gen_sinc(&coeff_init_buffer[0], num_phases * num_convolutions, cutoff, beta);
ResampleUtility::normalize(&coeff_init_buffer[0], num_phases * num_convolutions, num_phases);
// Reorder coefficients to allow for more efficient convolution.
for(int phase = -1; phase < ((int)num_phases + 1); phase++)
{
for(int conv = 0; conv < (int)num_convolutions; conv++)
{
double coeff;
if(phase == -1 && conv == 0)
coeff = 0;
else if(phase == (int)num_phases && conv == ((int)num_convolutions - 1))
coeff = 0;
else
coeff = coeff_init_buffer[conv * num_phases + phase];
coeffs[phase + 1][conv] = coeff;
}
}
// Free a bit of mem
coeff_init_buffer.resize(0);
step_int = floor(input_to_output_ratio);
step_fract = input_to_output_ratio - step_int;
input_pos_fract = 0;
// Do NOT use rb.size() later in the code, since it'll include the padding.
// We should only need one "max_mult_minus1" here, not two, since it won't matter if it over-reads(due to doing "max_mult_atatime" multiplications at a time
// rather than just 1, in which case this over-read wouldn't happen), from the first half into the duplicated half,
// since those corresponding coefficients will be zero anyway; this is just to handle the case of reading off the end of the duplicated half to
// prevent illegal memory accesses.
rb.resize(num_convolutions * 2 + max_mult_minus1);
rb_readpos = 0;
rb_writepos = 0;
rb_in = 0;
}
resample_samp_t SincResample::mac(const resample_samp_t *wave, const resample_coeff_t *coeffs_a, const resample_coeff_t *coeffs_b, const double ffract, unsigned count)
{
resample_samp_t accum = 0;
#if SINCRESAMPLE_USE_SSE
__m128 accum_vec_a[2] = { _mm_set1_ps(0), _mm_set1_ps(0) };
__m128 accum_vec_b[2] = { _mm_set1_ps(0), _mm_set1_ps(0) };
for(unsigned c = 0; c < count; c += 8) //8) //4)
{
__m128 coeff_a[2];
__m128 coeff_b[2];
__m128 w[2];
__m128 result_a[2], result_b[2];
for(unsigned i = 0; i < 2; i++)
{
coeff_a[i] = _mm_load_ps(&coeffs_a[c + (i * 4)]);
coeff_b[i] = _mm_load_ps(&coeffs_b[c + (i * 4)]);
w[i] = _mm_loadu_ps(&wave[c + (i * 4)]);
result_a[i] = _mm_mul_ps(coeff_a[i], w[i]);
result_b[i] = _mm_mul_ps(coeff_b[i], w[i]);
accum_vec_a[i] = _mm_add_ps(result_a[i], accum_vec_a[i]);
accum_vec_b[i] = _mm_add_ps(result_b[i], accum_vec_b[i]);
}
}
__m128 accum_vec, av_a, av_b;
__m128 mult_a_vec = _mm_set1_ps(1.0 - ffract);
__m128 mult_b_vec = _mm_set1_ps(ffract);
av_a = _mm_mul_ps(mult_a_vec, /*accum_vec_a[0]);*/ _mm_add_ps(accum_vec_a[0], accum_vec_a[1]));
av_b = _mm_mul_ps(mult_b_vec, /*accum_vec_b[0]);*/ _mm_add_ps(accum_vec_b[0], accum_vec_b[1]));
accum_vec = _mm_add_ps(av_a, av_b);
accum_vec = _mm_add_ps(accum_vec, _mm_shuffle_ps(accum_vec, accum_vec, (3 << 0) | (2 << 2) | (1 << 4) | (0 << 6)));
accum_vec = _mm_add_ps(accum_vec, _mm_shuffle_ps(accum_vec, accum_vec, (1 << 0) | (0 << 2) | (1 << 4) | (0 << 6)));
_mm_store_ss(&accum, accum_vec);
#else
resample_coeff_t mult_a = 1.0 - ffract;
resample_coeff_t mult_b = ffract;
for(unsigned c = 0; c < count; c += 4)
{
accum += wave[c + 0] * (coeffs_a[c + 0] * mult_a + coeffs_b[c + 0] * mult_b);
accum += wave[c + 1] * (coeffs_a[c + 1] * mult_a + coeffs_b[c + 1] * mult_b);
accum += wave[c + 2] * (coeffs_a[c + 2] * mult_a + coeffs_b[c + 2] * mult_b);
accum += wave[c + 3] * (coeffs_a[c + 3] * mult_a + coeffs_b[c + 3] * mult_b);
}
#endif
return accum;
}
inline bool SincResample::output_avail(void)
{
return(rb_in >= (int)num_convolutions);
}
resample_samp_t SincResample::read(void)
{
assert(output_avail());
double phase = input_pos_fract * num_phases - 0.5;
signed phase_int = (signed)floor(phase);
double phase_fract = phase - phase_int;
unsigned phase_a = num_phases - 1 - phase_int;
unsigned phase_b = phase_a - 1;
resample_samp_t ret;
ret = mac(&rb[rb_readpos], &coeffs[phase_a + 1][0], &coeffs[phase_b + 1][0], phase_fract, num_convolutions);
unsigned int_increment = step_int;
input_pos_fract += step_fract;
int_increment += floor(input_pos_fract);
input_pos_fract -= floor(input_pos_fract);
rb_readpos = (rb_readpos + int_increment) % num_convolutions;
rb_in -= int_increment;
return ret;
}
inline void SincResample::write(resample_samp_t sample)
{
assert(!output_avail());
if(hr_used)
{
hr.write(sample);
if(hr.output_avail())
{
sample = hr.read();
}
else
{
return;
}
}
rb[rb_writepos + 0 * num_convolutions] = sample;
rb[rb_writepos + 1 * num_convolutions] = sample;
rb_writepos = (rb_writepos + 1) % num_convolutions;
rb_in++;
}
void ResampleUtility::kaiser_window( double* io, int count, double beta)
{
int const accuracy = 24; //16; //12;
double* end = io + count;
double beta2 = beta * beta * (double) -0.25;
double to_fract = beta2 / ((double) count * count);
double i = 0;
double rescale = 0; // Doesn't need an initializer, to shut up gcc
for ( ; io < end; ++io, i += 1 )
{
double x = i * i * to_fract - beta2;
double u = x;
double k = x + 1;
double n = 2;
do
{
u *= x / (n * n);
n += 1;
k += u;
}
while ( k <= u * (1 << accuracy) );
if ( !i )
rescale = 1 / k; // otherwise values get large
*io *= k * rescale;
}
}
void ResampleUtility::gen_sinc(double* out, int size, double cutoff, double kaiser)
{
assert( size % 2 == 0 ); // size must be even
int const half_size = size / 2;
double* const mid = &out [half_size];
// Generate right half of sinc
for ( int i = 0; i < half_size; i++ )
{
double angle = (i * 2 + 1) * (M_PI / 2);
mid [i] = sin( angle * cutoff ) / angle;
}
kaiser_window( mid, half_size, kaiser );
// Mirror for left half
for ( int i = 0; i < half_size; i++ )
out [i] = mid [half_size - 1 - i];
}
void ResampleUtility::gen_sinc_os(double* out, int size, double cutoff, double kaiser)
{
assert( size % 2 == 1); // size must be odd
for(int i = 0; i < size; i++)
{
if(i == (size / 2))
out[i] = 2 * M_PI * (cutoff / 2); //0.078478; //1.0; //sin(2 * M_PI * (cutoff / 2) * (i - size / 2)) / (i - (size / 2));
else
out[i] = sin(2 * M_PI * (cutoff / 2) * (i - size / 2)) / (i - (size / 2));
// out[i] *= 0.3635819 - 0.4891775 * cos(2 * M_PI * i / (size - 1)) + 0.1365995 * cos(4 * M_PI * i / (size - 1)) - 0.0106411 * cos(6 * M_PI * i / (size - 1));
//0.42 - 0.5 * cos(2 * M_PI * i / (size - 1)) + 0.08 * cos(4 * M_PI * i / (size - 1));
// printf("%d %f\n", i, out[i]);
}
kaiser_window(&out[size / 2], size / 2 + 1, kaiser);
// Mirror for left half
for ( int i = 0; i < size / 2; i++ )
out [i] = out [size - 1 - i];
}
void ResampleUtility::normalize(double* io, int size, double gain)
{
double sum = 0;
for ( int i = 0; i < size; i++ )
sum += io [i];
double scale = gain / sum;
for ( int i = 0; i < size; i++ )
io [i] *= scale;
}
void* ResampleUtility::make_aligned(void* ptr, unsigned boundary)
{
unsigned char* null_ptr = (unsigned char *)NULL;
unsigned char* uc_ptr = (unsigned char *)ptr;
uc_ptr += (boundary - ((uc_ptr - null_ptr) & (boundary - 1))) & (boundary - 1);
//while((uc_ptr - null_ptr) & (boundary - 1))
// uc_ptr++;
//printf("%16llx %16llx\n", (unsigned long long)ptr, (unsigned long long)uc_ptr);
assert((uc_ptr - (unsigned char *)ptr) < boundary && (uc_ptr >= (unsigned char *)ptr));
return uc_ptr;
}

43
bsnes/nall/dsp/resample/nearest.hpp
View File

@@ -1,43 +0,0 @@
#ifdef NALL_DSP_INTERNAL_HPP
struct ResampleNearest : Resampler {
inline void setFrequency();
inline void clear();
inline void sample();
ResampleNearest(DSP &dsp) : Resampler(dsp) {}
real fraction;
real step;
};
void ResampleNearest::setFrequency() {
fraction = 0.0;
step = dsp.settings.frequency / frequency;
}
void ResampleNearest::clear() {
fraction = 0.0;
}
void ResampleNearest::sample() {
while(fraction <= 1.0) {
real channel[dsp.settings.channels];
for(unsigned n = 0; n < dsp.settings.channels; n++) {
real a = dsp.buffer.read(n, -1);
real b = dsp.buffer.read(n, -0);
real mu = fraction;
channel[n] = mu < 0.5 ? a : b;
}
dsp.write(channel);
fraction += step;
}
dsp.buffer.rdoffset++;
fraction -= 1.0;
}
#endif

285
bsnes/nall/file.hpp
View File

@@ -1,285 +0,0 @@
#ifndef NALL_FILE_HPP
#define NALL_FILE_HPP
#include <nall/platform.hpp>
#include <nall/stdint.hpp>
#include <nall/string.hpp>
#include <nall/utility.hpp>
#include <nall/windows/utf8.hpp>
namespace nall {
inline FILE* fopen_utf8(const string &utf8_filename, const char *mode) {
#if !defined(_WIN32)
return fopen(utf8_filename, mode);
#else
return _wfopen(utf16_t(utf8_filename), utf16_t(mode));
#endif
}
class file {
public:
enum class mode : unsigned { read, write, readwrite, writeread };
enum class index : unsigned { absolute, relative };
enum class time : unsigned { create, modify, access };
static bool read(const string &filename, uint8_t *&data, unsigned &size) {
data = 0;
file fp;
if(fp.open(filename, mode::read) == false) return false;
size = fp.size();
data = new uint8_t[size];
fp.read(data, size);
fp.close();
return true;
}
static bool read(const string &filename, const uint8_t *&data, unsigned &size) {
return file::read(filename, (uint8_t*&)data, size);
}
static bool write(const string &filename, const uint8_t *data, unsigned size) {
file fp;
if(fp.open(filename, mode::write) == false) return false;
fp.write(data, size);
fp.close();
return true;
}
uint8_t read() {
if(!fp) return 0xff; //file not open
if(file_mode == mode::write) return 0xff; //reads not permitted
if(file_offset >= file_size) return 0xff; //cannot read past end of file
buffer_sync();
return buffer[(file_offset++) & buffer_mask];
}
uintmax_t readl(unsigned length = 1) {
uintmax_t data = 0;
for(int i = 0; i < length; i++) {
data |= (uintmax_t)read() << (i << 3);
}
return data;
}
uintmax_t readm(unsigned length = 1) {
uintmax_t data = 0;
while(length--) {
data <<= 8;
data |= read();
}
return data;
}
void read(uint8_t *buffer, unsigned length) {
while(length--) *buffer++ = read();
}
void write(uint8_t data) {
if(!fp) return; //file not open
if(file_mode == mode::read) return; //writes not permitted
buffer_sync();
buffer[(file_offset++) & buffer_mask] = data;
buffer_dirty = true;
if(file_offset > file_size) file_size = file_offset;
}
void writel(uintmax_t data, unsigned length = 1) {
while(length--) {
write(data);
data >>= 8;
}
}
void writem(uintmax_t data, unsigned length = 1) {
for(int i = length - 1; i >= 0; i--) {
write(data >> (i << 3));
}
}
void write(const uint8_t *buffer, unsigned length) {
while(length--) write(*buffer++);
}
template<typename... Args> void print(Args... args) {
string data(args...);
const char *p = data;
while(*p) write(*p++);
}
void flush() {
buffer_flush();
fflush(fp);
}
void seek(int offset, index index_ = index::absolute) {
if(!fp) return; //file not open
buffer_flush();
uintmax_t req_offset = file_offset;
switch(index_) {
case index::absolute: req_offset = offset; break;
case index::relative: req_offset += offset; break;
}
if(req_offset < 0) req_offset = 0; //cannot seek before start of file
if(req_offset > file_size) {
if(file_mode == mode::read) { //cannot seek past end of file
req_offset = file_size;
} else { //pad file to requested location
file_offset = file_size;
while(file_size < req_offset) write(0x00);
}
}
file_offset = req_offset;
}
int offset() const {
if(!fp) return -1; //file not open
return file_offset;
}
int size() const {
if(!fp) return -1; //file not open
return file_size;
}
bool truncate(unsigned size) {
if(!fp) return false; //file not open
#if !defined(_WIN32)
return ftruncate(fileno(fp), size) == 0;
#else
return _chsize(fileno(fp), size) == 0;
#endif
}
bool end() {
if(!fp) return true; //file not open
return file_offset >= file_size;
}
static bool exists(const string &filename) {
#if !defined(_WIN32)
struct stat64 data;
return stat64(filename, &data) == 0;
#else
struct __stat64 data;
return _wstat64(utf16_t(filename), &data) == 0;
#endif
}
static uintmax_t size(const string &filename) {
#if !defined(_WIN32)
struct stat64 data;
stat64(filename, &data);
#else
struct __stat64 data;
_wstat64(utf16_t(filename), &data);
#endif
return S_ISREG(data.st_mode) ? data.st_size : 0u;
}
static time_t timestamp(const string &filename, file::time mode = file::time::create) {
#if !defined(_WIN32)
struct stat64 data;
stat64(filename, &data);
#else
struct __stat64 data;
_wstat64(utf16_t(filename), &data);
#endif
switch(mode) { default:
case file::time::create: return data.st_ctime;
case file::time::modify: return data.st_mtime;
case file::time::access: return data.st_atime;
}
}
bool open() const {
return fp;
}
bool open(const string &filename, mode mode_) {
if(fp) return false;
switch(file_mode = mode_) {
#if !defined(_WIN32)
case mode::read: fp = fopen(filename, "rb" ); break;
case mode::write: fp = fopen(filename, "wb+"); break; //need read permission for buffering
case mode::readwrite: fp = fopen(filename, "rb+"); break;
case mode::writeread: fp = fopen(filename, "wb+"); break;
#else
case mode::read: fp = _wfopen(utf16_t(filename), L"rb" ); break;
case mode::write: fp = _wfopen(utf16_t(filename), L"wb+"); break;
case mode::readwrite: fp = _wfopen(utf16_t(filename), L"rb+"); break;
case mode::writeread: fp = _wfopen(utf16_t(filename), L"wb+"); break;
#endif
}
if(!fp) return false;
buffer_offset = -1; //invalidate buffer
file_offset = 0;
fseek(fp, 0, SEEK_END);
file_size = ftell(fp);
fseek(fp, 0, SEEK_SET);
return true;
}
void close() {
if(!fp) return;
buffer_flush();
fclose(fp);
fp = 0;
}
file() {
memset(buffer, 0, sizeof buffer);
buffer_offset = -1;
buffer_dirty = false;
fp = 0;
file_offset = 0;
file_size = 0;
file_mode = mode::read;
}
~file() {
close();
}
file& operator=(const file&) = delete;
file(const file&) = delete;
private:
enum { buffer_size = 1 << 12, buffer_mask = buffer_size - 1 };
char buffer[buffer_size];
int buffer_offset;
bool buffer_dirty;
FILE *fp;
unsigned file_offset;
unsigned file_size;
mode file_mode;
void buffer_sync() {
if(!fp) return; //file not open
if(buffer_offset != (file_offset & ~buffer_mask)) {
buffer_flush();
buffer_offset = file_offset & ~buffer_mask;
fseek(fp, buffer_offset, SEEK_SET);
unsigned length = (buffer_offset + buffer_size) <= file_size ? buffer_size : (file_size & buffer_mask);
if(length) unsigned unused = fread(buffer, 1, length, fp);
}
}
void buffer_flush() {
if(!fp) return; //file not open
if(file_mode == mode::read) return; //buffer cannot be written to
if(buffer_offset < 0) return; //buffer unused
if(buffer_dirty == false) return; //buffer unmodified since read
fseek(fp, buffer_offset, SEEK_SET);
unsigned length = (buffer_offset + buffer_size) <= file_size ? buffer_size : (file_size & buffer_mask);
if(length) unsigned unused = fwrite(buffer, 1, length, fp);
buffer_offset = -1; //invalidate buffer
buffer_dirty = false;
}
};
}
#endif

213
bsnes/nall/filemap.hpp
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#ifndef NALL_FILEMAP_HPP
#define NALL_FILEMAP_HPP
#include <nall/file.hpp>
#include <nall/stdint.hpp>
#include <nall/windows/utf8.hpp>
#include <stdio.h>
#include <stdlib.h>
#if defined(_WIN32)
#include <windows.h>
#else
#include <fcntl.h>
#include <unistd.h>
#include <sys/mman.h>
#include <sys/stat.h>
#include <sys/types.h>
#endif
namespace nall {
class filemap {
public:
enum class mode : unsigned { read, write, readwrite, writeread };
bool open() const { return p_open(); }
bool open(const char *filename, mode mode_) { return p_open(filename, mode_); }
void close() { return p_close(); }
unsigned size() const { return p_size; }
uint8_t* data() { return p_handle; }
const uint8_t* data() const { return p_handle; }
filemap() : p_size(0), p_handle(0) { p_ctor(); }
filemap(const char *filename, mode mode_) : p_size(0), p_handle(0) { p_ctor(); p_open(filename, mode_); }
~filemap() { p_dtor(); }
private:
unsigned p_size;
uint8_t *p_handle;
#if defined(_WIN32)
//=============
//MapViewOfFile
//=============
HANDLE p_filehandle, p_maphandle;
bool p_open() const {
return p_handle;
}
bool p_open(const char *filename, mode mode_) {
if(file::exists(filename) && file::size(filename) == 0) {
p_handle = 0;
p_size = 0;
return true;
}
int desired_access, creation_disposition, flprotect, map_access;
switch(mode_) {
default: return false;
case mode::read:
desired_access = GENERIC_READ;
creation_disposition = OPEN_EXISTING;
flprotect = PAGE_READONLY;
map_access = FILE_MAP_READ;
break;
case mode::write:
//write access requires read access
desired_access = GENERIC_WRITE;
creation_disposition = CREATE_ALWAYS;
flprotect = PAGE_READWRITE;
map_access = FILE_MAP_ALL_ACCESS;
break;
case mode::readwrite:
desired_access = GENERIC_READ | GENERIC_WRITE;
creation_disposition = OPEN_EXISTING;
flprotect = PAGE_READWRITE;
map_access = FILE_MAP_ALL_ACCESS;
break;
case mode::writeread:
desired_access = GENERIC_READ | GENERIC_WRITE;
creation_disposition = CREATE_NEW;
flprotect = PAGE_READWRITE;
map_access = FILE_MAP_ALL_ACCESS;
break;
}
p_filehandle = CreateFileW(utf16_t(filename), desired_access, FILE_SHARE_READ, NULL,
creation_disposition, FILE_ATTRIBUTE_NORMAL, NULL);
if(p_filehandle == INVALID_HANDLE_VALUE) return false;
p_size = GetFileSize(p_filehandle, NULL);
p_maphandle = CreateFileMapping(p_filehandle, NULL, flprotect, 0, p_size, NULL);
if(p_maphandle == INVALID_HANDLE_VALUE) {
CloseHandle(p_filehandle);
p_filehandle = INVALID_HANDLE_VALUE;
return false;
}
p_handle = (uint8_t*)MapViewOfFile(p_maphandle, map_access, 0, 0, p_size);
return p_handle;
}
void p_close() {
if(p_handle) {
UnmapViewOfFile(p_handle);
p_handle = 0;
}
if(p_maphandle != INVALID_HANDLE_VALUE) {
CloseHandle(p_maphandle);
p_maphandle = INVALID_HANDLE_VALUE;
}
if(p_filehandle != INVALID_HANDLE_VALUE) {
CloseHandle(p_filehandle);
p_filehandle = INVALID_HANDLE_VALUE;
}
}
void p_ctor() {
p_filehandle = INVALID_HANDLE_VALUE;
p_maphandle = INVALID_HANDLE_VALUE;
}
void p_dtor() {
close();
}
#else
//====
//mmap
//====
int p_fd;
bool p_open() const {
return p_handle;
}
bool p_open(const char *filename, mode mode_) {
if(file::exists(filename) && file::size(filename) == 0) {
p_handle = 0;
p_size = 0;
return true;
}
int open_flags, mmap_flags;
switch(mode_) {
default: return false;
case mode::read:
open_flags = O_RDONLY;
mmap_flags = PROT_READ;
break;
case mode::write:
open_flags = O_RDWR | O_CREAT; //mmap() requires read access
mmap_flags = PROT_WRITE;
break;
case mode::readwrite:
open_flags = O_RDWR;
mmap_flags = PROT_READ | PROT_WRITE;
break;
case mode::writeread:
open_flags = O_RDWR | O_CREAT;
mmap_flags = PROT_READ | PROT_WRITE;
break;
}
p_fd = ::open(filename, open_flags, S_IRUSR | S_IWUSR | S_IRGRP | S_IWGRP);
if(p_fd < 0) return false;
struct stat p_stat;
fstat(p_fd, &p_stat);
p_size = p_stat.st_size;
p_handle = (uint8_t*)mmap(0, p_size, mmap_flags, MAP_SHARED, p_fd, 0);
if(p_handle == MAP_FAILED) {
p_handle = 0;
::close(p_fd);
p_fd = -1;
return false;
}
return p_handle;
}
void p_close() {
if(p_handle) {
munmap(p_handle, p_size);
p_handle = 0;
}
if(p_fd >= 0) {
::close(p_fd);
p_fd = -1;
}
}
void p_ctor() {
p_fd = -1;
}
void p_dtor() {
p_close();
}
#endif
};
}
#endif

60
bsnes/nall/function.hpp
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@@ -1,60 +0,0 @@
#ifndef NALL_FUNCTION_HPP
#define NALL_FUNCTION_HPP
namespace nall {
template<typename T> class function;
template<typename R, typename... P> class function<R (P...)> {
struct container {
virtual R operator()(P... p) const = 0;
virtual container* copy() const = 0;
virtual ~container() {}
} *callback;
struct global : container {
R (*function)(P...);
R operator()(P... p) const { return function(std::forward<P>(p)...); }
container* copy() const { return new global(function); }
global(R (*function)(P...)) : function(function) {}
};
template<typename C> struct member : container {
R (C::*function)(P...);
C *object;
R operator()(P... p) const { return (object->*function)(std::forward<P>(p)...); }
container* copy() const { return new member(function, object); }
member(R (C::*function)(P...), C *object) : function(function), object(object) {}
};
template<typename L> struct lambda : container {
mutable L object;
R operator()(P... p) const { return object(std::forward<P>(p)...); }
container* copy() const { return new lambda(object); }
lambda(const L& object) : object(object) {}
};
public:
operator bool() const { return callback; }
R operator()(P... p) const { return (*callback)(std::forward<P>(p)...); }
void reset() { if(callback) { delete callback; callback = nullptr; } }
function& operator=(const function &source) {
if(this != &source) {
if(callback) { delete callback; callback = nullptr; }
if(source.callback) callback = source.callback->copy();
}
return *this;
}
function(const function &source) : callback(nullptr) { operator=(source); }
function() : callback(nullptr) {}
function(void *function) : callback(nullptr) { if(function) callback = new global((R (*)(P...))function); }
function(R (*function)(P...)) { callback = new global(function); }
template<typename C> function(R (C::*function)(P...), C *object) { callback = new member<C>(function, object); }
template<typename C> function(R (C::*function)(P...) const, C *object) { callback = new member<C>((R (C::*)(P...))function, object); }
template<typename L> function(const L& object) { callback = new lambda<L>(object); }
~function() { if(callback) delete callback; }
};
}
#endif

127
bsnes/nall/gameboy/cartridge.hpp
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#ifndef NALL_GAMEBOY_CARTRIDGE_HPP
#define NALL_GAMEBOY_CARTRIDGE_HPP
namespace nall {
class GameBoyCartridge {
public:
string markup;
inline GameBoyCartridge(uint8_t *data, unsigned size);
//private:
struct Information {
string mapper;
bool ram;
bool battery;
bool rtc;
bool rumble;
unsigned romsize;
unsigned ramsize;
} info;
};
GameBoyCartridge::GameBoyCartridge(uint8_t *romdata, unsigned romsize) {
markup = "";
if(romsize < 0x4000) return;
info.mapper = "unknown";
info.ram = false;
info.battery = false;
info.rtc = false;
info.rumble = false;
info.romsize = 0;
info.ramsize = 0;
unsigned base = romsize - 0x8000;
if(romdata[base + 0x0104] == 0xce && romdata[base + 0x0105] == 0xed
&& romdata[base + 0x0106] == 0x66 && romdata[base + 0x0107] == 0x66
&& romdata[base + 0x0108] == 0xcc && romdata[base + 0x0109] == 0x0d
&& romdata[base + 0x0147] >= 0x0b && romdata[base + 0x0147] <= 0x0d
) {
//MMM01 stores header at bottom of image
//flip this around for consistency with all other mappers
uint8_t header[0x8000];
memcpy(header, romdata + base, 0x8000);
memmove(romdata + 0x8000, romdata, romsize - 0x8000);
memcpy(romdata, header, 0x8000);
}
switch(romdata[0x0147]) {
case 0x00: info.mapper = "none"; break;
case 0x01: info.mapper = "MBC1"; break;
case 0x02: info.mapper = "MBC1"; info.ram = true; break;
case 0x03: info.mapper = "MBC1"; info.ram = true; info.battery = true; break;
case 0x05: info.mapper = "MBC2"; info.ram = true; break;
case 0x06: info.mapper = "MBC2"; info.ram = true; info.battery = true; break;
case 0x08: info.mapper = "none"; info.ram = true; break;
case 0x09: info.mapper = "MBC0"; info.ram = true; info.battery = true; break;
case 0x0b: info.mapper = "MMM01"; break;
case 0x0c: info.mapper = "MMM01"; info.ram = true; break;
case 0x0d: info.mapper = "MMM01"; info.ram = true; info.battery = true; break;
case 0x0f: info.mapper = "MBC3"; info.rtc = true; info.battery = true; break;
case 0x10: info.mapper = "MBC3"; info.rtc = true; info.ram = true; info.battery = true; break;
case 0x11: info.mapper = "MBC3"; break;
case 0x12: info.mapper = "MBC3"; info.ram = true; break;
case 0x13: info.mapper = "MBC3"; info.ram = true; info.battery = true; break;
case 0x19: info.mapper = "MBC5"; break;
case 0x1a: info.mapper = "MBC5"; info.ram = true; break;
case 0x1b: info.mapper = "MBC5"; info.ram = true; info.battery = true; break;
case 0x1c: info.mapper = "MBC5"; info.rumble = true; break;
case 0x1d: info.mapper = "MBC5"; info.rumble = true; info.ram = true; break;
case 0x1e: info.mapper = "MBC5"; info.rumble = true; info.ram = true; info.battery = true; break;
case 0xfc: break; //Pocket Camera
case 0xfd: break; //Bandai TAMA5
case 0xfe: info.mapper = "HuC3"; break;
case 0xff: info.mapper = "HuC1"; info.ram = true; info.battery = true; break;
}
switch(romdata[0x0148]) { default:
case 0x00: info.romsize = 2 * 16 * 1024; break;
case 0x01: info.romsize = 4 * 16 * 1024; break;
case 0x02: info.romsize = 8 * 16 * 1024; break;
case 0x03: info.romsize = 16 * 16 * 1024; break;
case 0x04: info.romsize = 32 * 16 * 1024; break;
case 0x05: info.romsize = 64 * 16 * 1024; break;
case 0x06: info.romsize = 128 * 16 * 1024; break;
case 0x07: info.romsize = 256 * 16 * 1024; break;
case 0x52: info.romsize = 72 * 16 * 1024; break;
case 0x53: info.romsize = 80 * 16 * 1024; break;
case 0x54: info.romsize = 96 * 16 * 1024; break;
}
switch(romdata[0x0149]) { default:
case 0x00: info.ramsize = 0 * 1024; break;
case 0x01: info.ramsize = 2 * 1024; break;
case 0x02: info.ramsize = 8 * 1024; break;
case 0x03: info.ramsize = 32 * 1024; break;
}
if(info.mapper == "MBC2") info.ramsize = 512; //512 x 4-bit
markup.append(
"<?xml version='1.0' encoding='UTF-8'?>\n",
"<cartridge mapper='", info.mapper, "' rtc='", info.rtc, "' rumble='", info.rumble, "'>\n",
" <rom size='0x", hex(romsize), "'/>\n");
if(info.ramsize > 0) markup.append(
" <ram size='0x", hex(info.ramsize), "' battery='", info.battery, "'/>\n");
markup.append(
"</cartridge>\n");
/*
markup.append("cartridge mapper=", info.mapper);
if(info.rtc) markup.append(" rtc");
if(info.rumble) markup.append(" rumble");
markup.append("\n");
markup.append("\t" "rom size=", hex(romsize), "\n"); //TODO: trust/check info.romsize?
if(info.ramsize > 0)
markup.append("\t" "ram size=", hex(info.ramsize), info.battery ? " non-volatile\n" : "\n");
*/
}
}
#endif

465
bsnes/nall/image.hpp
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@@ -1,465 +0,0 @@
#ifndef NALL_IMAGE_HPP
#define NALL_IMAGE_HPP
#include <nall/bmp.hpp>
#include <nall/filemap.hpp>
#include <nall/interpolation.hpp>
#include <nall/png.hpp>
#include <nall/stdint.hpp>
#include <algorithm>
namespace nall {
struct image {
uint8_t *data;
unsigned width;
unsigned height;
unsigned pitch;
bool endian; //0 = little, 1 = big
unsigned depth;
unsigned stride;
struct Channel {
uint64_t mask;
unsigned depth;
unsigned shift;
} alpha, red, green, blue;
typedef double (*interpolation)(double, double, double, double, double);
static inline unsigned bitDepth(uint64_t color);
static inline unsigned bitShift(uint64_t color);
static inline uint64_t normalize(uint64_t color, unsigned sourceDepth, unsigned targetDepth);
inline image& operator=(const image &source);
inline image& operator=(image &&source);
inline image(const image &source);
inline image(image &&source);
inline image(bool endian, unsigned depth, uint64_t alphaMask, uint64_t redMask, uint64_t greenMask, uint64_t blueMask);
inline image();
inline ~image();
inline uint64_t read(const uint8_t *data) const;
inline void write(uint8_t *data, uint64_t value) const;
inline void free();
inline void allocate(unsigned width, unsigned height);
inline void clear(uint64_t color);
inline bool load(const string &filename);
//inline bool loadBMP(const uint8_t *data, unsigned size);
inline bool loadPNG(const uint8_t *data, unsigned size);
inline void scale(unsigned width, unsigned height, interpolation op);
inline void transform(bool endian, unsigned depth, uint64_t alphaMask, uint64_t redMask, uint64_t greenMask, uint64_t blueMask);
inline void alphaBlend(uint64_t alphaColor);
protected:
inline uint64_t interpolate(double mu, const uint64_t *s, interpolation op);
inline void scaleX(unsigned width, interpolation op);
inline void scaleY(unsigned height, interpolation op);
inline bool loadBMP(const string &filename);
inline bool loadPNG(const string &filename);
};
//static
unsigned image::bitDepth(uint64_t color) {
unsigned depth = 0;
if(color) while((color & 1) == 0) color >>= 1;
while((color & 1) == 1) { color >>= 1; depth++; }
return depth;
}
unsigned image::bitShift(uint64_t color) {
unsigned shift = 0;
if(color) while((color & 1) == 0) { color >>= 1; shift++; }
return shift;
}
uint64_t image::normalize(uint64_t color, unsigned sourceDepth, unsigned targetDepth) {
while(sourceDepth < targetDepth) {
color = (color << sourceDepth) | color;
sourceDepth += sourceDepth;
}
if(targetDepth < sourceDepth) color >>= (sourceDepth - targetDepth);
return color;
}
//public
image& image::operator=(const image &source) {
free();
width = source.width;
height = source.height;
pitch = source.pitch;
endian = source.endian;
stride = source.stride;
alpha = source.alpha;
red = source.red;
green = source.green;
blue = source.blue;
data = new uint8_t[width * height * stride];
memcpy(data, source.data, width * height * stride);
return *this;
}
image& image::operator=(image &&source) {
width = source.width;
height = source.height;
pitch = source.pitch;
endian = source.endian;
stride = source.stride;
alpha = source.alpha;
red = source.red;
green = source.green;
blue = source.blue;
data = source.data;
source.data = nullptr;
return *this;
}
image::image(const image &source) : data(nullptr) {
operator=(source);
}
image::image(image &&source) : data(nullptr) {
operator=(std::forward<image>(source));
}
image::image(bool endian, unsigned depth, uint64_t alphaMask, uint64_t redMask, uint64_t greenMask, uint64_t blueMask) : data(nullptr) {
width = 0, height = 0, pitch = 0;
this->endian = endian;
this->depth = depth;
this->stride = (depth / 8) + ((depth & 7) > 0);
alpha.mask = alphaMask, red.mask = redMask, green.mask = greenMask, blue.mask = blueMask;
alpha.depth = bitDepth(alpha.mask), alpha.shift = bitShift(alpha.mask);
red.depth = bitDepth(red.mask), red.shift = bitShift(red.mask);
green.depth = bitDepth(green.mask), green.shift = bitShift(green.mask);
blue.depth = bitDepth(blue.mask), blue.shift = bitShift(blue.mask);
}
image::image() : data(nullptr) {
width = 0, height = 0, pitch = 0;
this->endian = 0;
this->depth = 32;
this->stride = 4;
alpha.mask = 255u << 24, red.mask = 255u << 16, green.mask = 255u << 8, blue.mask = 255u << 0;
alpha.depth = bitDepth(alpha.mask), alpha.shift = bitShift(alpha.mask);
red.depth = bitDepth(red.mask), red.shift = bitShift(red.mask);
green.depth = bitDepth(green.mask), green.shift = bitShift(green.mask);
blue.depth = bitDepth(blue.mask), blue.shift = bitShift(blue.mask);
}
image::~image() {
free();
}
uint64_t image::read(const uint8_t *data) const {
uint64_t result = 0;
if(endian == 0) {
for(signed n = stride - 1; n >= 0; n--) result = (result << 8) | data[n];
} else {
for(signed n = 0; n < stride; n++) result = (result << 8) | data[n];
}
return result;
}
void image::write(uint8_t *data, uint64_t value) const {
if(endian == 0) {
for(signed n = 0; n < stride; n++) { data[n] = value; value >>= 8; }
} else {
for(signed n = stride - 1; n >= 0; n--) { data[n] = value; value >>= 8; }
}
}
void image::free() {
if(data) delete[] data;
data = nullptr;
}
void image::allocate(unsigned width, unsigned height) {
if(data != nullptr && this->width == width && this->height == height) return;
free();
data = new uint8_t[width * height * stride]();
pitch = width * stride;
this->width = width;
this->height = height;
}
void image::clear(uint64_t color) {
uint8_t *dp = data;
for(unsigned n = 0; n < width * height; n++) {
write(dp, color);
dp += stride;
}
}
bool image::load(const string &filename) {
if(loadBMP(filename) == true) return true;
if(loadPNG(filename) == true) return true;
return false;
}
void image::scale(unsigned outputWidth, unsigned outputHeight, interpolation op) {
if(width != outputWidth) scaleX(outputWidth, op);
if(height != outputHeight) scaleY(outputHeight, op);
}
void image::transform(bool outputEndian, unsigned outputDepth, uint64_t outputAlphaMask, uint64_t outputRedMask, uint64_t outputGreenMask, uint64_t outputBlueMask) {
image output(outputEndian, outputDepth, outputAlphaMask, outputRedMask, outputGreenMask, outputBlueMask);
output.allocate(width, height);
#pragma omp parallel for
for(unsigned y = 0; y < height; y++) {
uint8_t *dp = output.data + output.pitch * y;
uint8_t *sp = data + pitch * y;
for(unsigned x = 0; x < width; x++) {
uint64_t color = read(sp);
sp += stride;
uint64_t a = (color & alpha.mask) >> alpha.shift;
uint64_t r = (color & red.mask) >> red.shift;
uint64_t g = (color & green.mask) >> green.shift;
uint64_t b = (color & blue.mask) >> blue.shift;
a = normalize(a, alpha.depth, output.alpha.depth);
r = normalize(r, red.depth, output.red.depth);
g = normalize(g, green.depth, output.green.depth);
b = normalize(b, blue.depth, output.blue.depth);
output.write(dp, (a << output.alpha.shift) | (r << output.red.shift) | (g << output.green.shift) | (b << output.blue.shift));
dp += output.stride;
}
}
operator=(std::move(output));
}
void image::alphaBlend(uint64_t alphaColor) {
uint64_t alphaR = (alphaColor & red.mask) >> red.shift;
uint64_t alphaG = (alphaColor & green.mask) >> green.shift;
uint64_t alphaB = (alphaColor & blue.mask) >> blue.shift;
#pragma omp parallel for
for(unsigned y = 0; y < height; y++) {
uint8_t *dp = data + pitch * y;
for(unsigned x = 0; x < width; x++) {
uint64_t color = read(dp);
uint64_t colorA = (color & alpha.mask) >> alpha.shift;
uint64_t colorR = (color & red.mask) >> red.shift;
uint64_t colorG = (color & green.mask) >> green.shift;
uint64_t colorB = (color & blue.mask) >> blue.shift;
double alphaScale = (double)colorA / (double)((1 << alpha.depth) - 1);
colorA = (1 << alpha.depth) - 1;
colorR = (colorR * alphaScale) + (alphaR * (1.0 - alphaScale));
colorG = (colorG * alphaScale) + (alphaG * (1.0 - alphaScale));
colorB = (colorB * alphaScale) + (alphaB * (1.0 - alphaScale));
write(dp, (colorA << alpha.shift) | (colorR << red.shift) | (colorG << green.shift) | (colorB << blue.shift));
dp += stride;
}
}
}
//protected
uint64_t image::interpolate(double mu, const uint64_t *s, double (*op)(double, double, double, double, double)) {
uint64_t aa = (s[0] & alpha.mask) >> alpha.shift, ar = (s[0] & red.mask) >> red.shift,
ag = (s[0] & green.mask) >> green.shift, ab = (s[0] & blue.mask) >> blue.shift;
uint64_t ba = (s[1] & alpha.mask) >> alpha.shift, br = (s[1] & red.mask) >> red.shift,
bg = (s[1] & green.mask) >> green.shift, bb = (s[1] & blue.mask) >> blue.shift;
uint64_t ca = (s[2] & alpha.mask) >> alpha.shift, cr = (s[2] & red.mask) >> red.shift,
cg = (s[2] & green.mask) >> green.shift, cb = (s[2] & blue.mask) >> blue.shift;
uint64_t da = (s[3] & alpha.mask) >> alpha.shift, dr = (s[3] & red.mask) >> red.shift,
dg = (s[3] & green.mask) >> green.shift, db = (s[3] & blue.mask) >> blue.shift;
int64_t A = op(mu, aa, ba, ca, da);
int64_t R = op(mu, ar, br, cr, dr);
int64_t G = op(mu, ag, bg, cg, dg);
int64_t B = op(mu, ab, bb, cb, db);
A = max(0, min(A, (1 << alpha.depth) - 1));
R = max(0, min(R, (1 << red.depth) - 1));
G = max(0, min(G, (1 << green.depth) - 1));
B = max(0, min(B, (1 << blue.depth) - 1));
return (A << alpha.shift) | (R << red.shift) | (G << green.shift) | (B << blue.shift);
}
void image::scaleX(unsigned outputWidth, interpolation op) {
uint8_t *outputData = new uint8_t[outputWidth * height * stride];
unsigned outputPitch = outputWidth * stride;
double step = (double)width / (double)outputWidth;
const uint8_t *terminal = data + pitch * height;
#pragma omp parallel for
for(unsigned y = 0; y < height; y++) {
uint8_t *dp = outputData + outputPitch * y;
uint8_t *sp = data + pitch * y;
double fraction = 0.0;
uint64_t s[4] = { sp < terminal ? read(sp) : 0 }; //B,C (0,1) = center of kernel { 0, 0, 1, 2 }
s[1] = s[0];
s[2] = sp + stride < terminal ? read(sp += stride) : s[1];
s[3] = sp + stride < terminal ? read(sp += stride) : s[2];
for(unsigned x = 0; x < width; x++) {
while(fraction <= 1.0) {
if(dp >= outputData + outputPitch * height) break;
write(dp, interpolate(fraction, (const uint64_t*)&s, op));
dp += stride;
fraction += step;
}
s[0] = s[1]; s[1] = s[2]; s[2] = s[3];
if(sp + stride < terminal) s[3] = read(sp += stride);
fraction -= 1.0;
}
}
free();
data = outputData;
width = outputWidth;
pitch = width * stride;
}
void image::scaleY(unsigned outputHeight, interpolation op) {
uint8_t *outputData = new uint8_t[width * outputHeight * stride];
double step = (double)height / (double)outputHeight;
const uint8_t *terminal = data + pitch * height;
#pragma omp parallel for
for(unsigned x = 0; x < width; x++) {
uint8_t *dp = outputData + stride * x;
uint8_t *sp = data + stride * x;
double fraction = 0.0;
uint64_t s[4] = { sp < terminal ? read(sp) : 0 };
s[1] = s[0];
s[2] = sp + pitch < terminal ? read(sp += pitch) : s[1];
s[3] = sp + pitch < terminal ? read(sp += pitch) : s[2];
for(unsigned y = 0; y < height; y++) {
while(fraction <= 1.0) {
if(dp >= outputData + pitch * outputHeight) break;
write(dp, interpolate(fraction, (const uint64_t*)&s, op));
dp += pitch;
fraction += step;
}
s[0] = s[1]; s[1] = s[2]; s[2] = s[3];
if(sp + pitch < terminal) s[3] = read(sp += pitch);
fraction -= 1.0;
}
}
free();
data = outputData;
height = outputHeight;
}
bool image::loadBMP(const string &filename) {
uint32_t *outputData;
unsigned outputWidth, outputHeight;
if(bmp::read(filename, outputData, outputWidth, outputHeight) == false) return false;
allocate(outputWidth, outputHeight);
const uint32_t *sp = outputData;
uint8_t *dp = data;
for(unsigned y = 0; y < outputHeight; y++) {
for(unsigned x = 0; x < outputWidth; x++) {
uint32_t color = *sp++;
uint64_t a = normalize((uint8_t)(color >> 24), 8, alpha.depth);
uint64_t r = normalize((uint8_t)(color >> 16), 8, red.depth);
uint64_t g = normalize((uint8_t)(color >> 8), 8, green.depth);
uint64_t b = normalize((uint8_t)(color >> 0), 8, blue.depth);
write(dp, (a << alpha.shift) | (r << red.shift) | (g << green.shift) | (b << blue.shift));
dp += stride;
}
}
delete[] outputData;
return true;
}
bool image::loadPNG(const uint8_t *pngData, unsigned pngSize) {
png source;
if(source.decode(pngData, pngSize) == false) return false;
allocate(source.info.width, source.info.height);
const uint8_t *sp = source.data;
uint8_t *dp = data;
auto decode = [&]() -> uint64_t {
uint64_t p, r, g, b, a;
switch(source.info.colorType) {
case 0: //L
r = g = b = source.readbits(sp);
a = (1 << source.info.bitDepth) - 1;
break;
case 2: //R,G,B
r = source.readbits(sp);
g = source.readbits(sp);
b = source.readbits(sp);
a = (1 << source.info.bitDepth) - 1;
break;
case 3: //P
p = source.readbits(sp);
r = source.info.palette[p][0];
g = source.info.palette[p][1];
b = source.info.palette[p][2];
a = (1 << source.info.bitDepth) - 1;
break;
case 4: //L,A
r = g = b = source.readbits(sp);
a = source.readbits(sp);
break;
case 6: //R,G,B,A
r = source.readbits(sp);
g = source.readbits(sp);
b = source.readbits(sp);
a = source.readbits(sp);
break;
}
a = normalize(a, source.info.bitDepth, alpha.depth);
r = normalize(r, source.info.bitDepth, red.depth);
g = normalize(g, source.info.bitDepth, green.depth);
b = normalize(b, source.info.bitDepth, blue.depth);
return (a << alpha.shift) | (r << red.shift) | (g << green.shift) | (b << blue.shift);
};
for(unsigned y = 0; y < height; y++) {
for(unsigned x = 0; x < width; x++) {
write(dp, decode());
dp += stride;
}
}
return true;
}
bool image::loadPNG(const string &filename) {
filemap map;
if(map.open(filename, filemap::mode::read) == false) return false;
return loadPNG(map.data(), map.size());
}
}
#endif

358
bsnes/nall/inflate.hpp
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@@ -1,358 +0,0 @@
#ifndef NALL_INFLATE_HPP
#define NALL_INFLATE_HPP
#include <setjmp.h>
namespace nall {
namespace puff {
inline int puff(
unsigned char *dest, unsigned long *destlen,
unsigned char *source, unsigned long *sourcelen
);
}
inline bool inflate(
uint8_t *target, unsigned targetLength,
const uint8_t *source, unsigned sourceLength
) {
unsigned long tl = targetLength, sl = sourceLength;
int result = puff::puff((unsigned char*)target, &tl, (unsigned char*)source, &sl);
return result == 0;
}
namespace puff {
//zlib/contrib/puff.c
//version 2.1*
//author: Mark Adler
//license: zlib
//ported by: byuu
//* I have corrected a bug in fixed(), where it was accessing uninitialized
// memory: calling construct() with lencode prior to initializing lencode.count
enum {
MAXBITS = 15,
MAXLCODES = 286,
MAXDCODES = 30,
FIXLCODES = 288,
MAXCODES = MAXLCODES + MAXDCODES,
};
struct state {
unsigned char *out;
unsigned long outlen;
unsigned long outcnt;
unsigned char *in;
unsigned long inlen;
unsigned long incnt;
int bitbuf;
int bitcnt;
jmp_buf env;
};
struct huffman {
short *count;
short *symbol;
};
inline int bits(state *s, int need) {
long val;
val = s->bitbuf;
while(s->bitcnt < need) {
if(s->incnt == s->inlen) longjmp(s->env, 1);
val |= (long)(s->in[s->incnt++]) << s->bitcnt;
s->bitcnt += 8;
}
s->bitbuf = (int)(val >> need);
s->bitcnt -= need;
return (int)(val & ((1L << need) - 1));
}
inline int stored(state *s) {
unsigned len;
s->bitbuf = 0;
s->bitcnt = 0;
if(s->incnt + 4 > s->inlen) return 2;
len = s->in[s->incnt++];
len |= s->in[s->incnt++] << 8;
if(s->in[s->incnt++] != (~len & 0xff) ||
s->in[s->incnt++] != ((~len >> 8) & 0xff)
) return 2;
if(s->incnt + len > s->inlen) return 2;
if(s->out != 0) {
if(s->outcnt + len > s->outlen) return 1;
while(len--) s->out[s->outcnt++] = s->in[s->incnt++];
} else {
s->outcnt += len;
s->incnt += len;
}
return 0;
}
inline int decode(state *s, huffman *h) {
int len, code, first, count, index, bitbuf, left;
short *next;
bitbuf = s->bitbuf;
left = s->bitcnt;
code = first = index = 0;
len = 1;
next = h->count + 1;
while(true) {
while(left--) {
code |= bitbuf & 1;
bitbuf >>= 1;
count = *next++;
if(code - count < first) {
s->bitbuf = bitbuf;
s->bitcnt = (s->bitcnt - len) & 7;
return h->symbol[index + (code - first)];
}
index += count;
first += count;
first <<= 1;
code <<= 1;
len++;
}
left = (MAXBITS + 1) - len;
if(left == 0) break;
if(s->incnt == s->inlen) longjmp(s->env, 1);
bitbuf = s->in[s->incnt++];
if(left > 8) left = 8;
}
return -10;
}
inline int construct(huffman *h, short *length, int n) {
int symbol, len, left;
short offs[MAXBITS + 1];
for(len = 0; len <= MAXBITS; len++) h->count[len] = 0;
for(symbol = 0; symbol < n; symbol++) h->count[length[symbol]]++;
if(h->count[0] == n) return 0;
left = 1;
for(len = 1; len <= MAXBITS; len++) {
left <<= 1;
left -= h->count[len];
if(left < 0) return left;
}
offs[1] = 0;
for(len = 1; len < MAXBITS; len++) offs[len + 1] = offs[len] + h->count[len];
for(symbol = 0; symbol < n; symbol++) {
if(length[symbol] != 0) h->symbol[offs[length[symbol]]++] = symbol;
}
return left;
}
inline int codes(state *s, huffman *lencode, huffman *distcode) {
int symbol, len;
unsigned dist;
static const short lens[29] = {
3, 4, 5, 6, 7, 8, 9, 10, 11, 13, 15, 17, 19, 23, 27, 31,
35, 43, 51, 59, 67, 83, 99, 115, 131, 163, 195, 227, 258
};
static const short lext[29] = {
0, 0, 0, 0, 0, 0, 0, 0, 1, 1, 1, 1, 2, 2, 2, 2,
3, 3, 3, 3, 4, 4, 4, 4, 5, 5, 5, 5, 0
};
static const short dists[30] = {
1, 2, 3, 4, 5, 7, 9, 13, 17, 25, 33, 49, 65, 97, 129, 193,
257, 385, 513, 769, 1025, 1537, 2049, 3073, 4097, 6145,
8193, 12289, 16385, 24577
};
static const short dext[30] = {
0, 0, 0, 0, 1, 1, 2, 2, 3, 3, 4, 4, 5, 5, 6, 6,
7, 7, 8, 8, 9, 9, 10, 10, 11, 11,
12, 12, 13, 13
};
do {
symbol = decode(s, lencode);
if(symbol < 0) return symbol;
if(symbol < 256) {
if(s->out != 0) {
if(s->outcnt == s->outlen) return 1;
s->out[s->outcnt] = symbol;
}
s->outcnt++;
} else if(symbol > 256) {
symbol -= 257;
if(symbol >= 29) return -10;
len = lens[symbol] + bits(s, lext[symbol]);
symbol = decode(s, distcode);
if(symbol < 0) return symbol;
dist = dists[symbol] + bits(s, dext[symbol]);
#ifndef INFLATE_ALLOW_INVALID_DISTANCE_TOO_FAR
if(dist > s->outcnt) return -11;
#endif
if(s->out != 0) {
if(s->outcnt + len > s->outlen) return 1;
while(len--) {
s->out[s->outcnt] =
#ifdef INFLATE_ALLOW_INVALID_DISTANCE_TOO_FAR
dist > s->outcnt ? 0 :
#endif
s->out[s->outcnt - dist];
s->outcnt++;
}
} else {
s->outcnt += len;
}
}
} while(symbol != 256);
return 0;
}
inline int fixed(state *s) {
static int virgin = 1;
static short lencnt[MAXBITS + 1], lensym[FIXLCODES];
static short distcnt[MAXBITS + 1], distsym[MAXDCODES];
static huffman lencode, distcode;
if(virgin) {
int symbol = 0;
short lengths[FIXLCODES];
lencode.count = lencnt;
lencode.symbol = lensym;
distcode.count = distcnt;
distcode.symbol = distsym;
for(; symbol < 144; symbol++) lengths[symbol] = 8;
for(; symbol < 256; symbol++) lengths[symbol] = 9;
for(; symbol < 280; symbol++) lengths[symbol] = 7;
for(; symbol < FIXLCODES; symbol++) lengths[symbol] = 8;
construct(&lencode, lengths, FIXLCODES);
for(symbol = 0; symbol < MAXDCODES; symbol++) lengths[symbol] = 5;
construct(&distcode, lengths, MAXDCODES);
virgin = 0;
}
return codes(s, &lencode, &distcode);
}
inline int dynamic(state *s) {
int nlen, ndist, ncode, index, err;
short lengths[MAXCODES];
short lencnt[MAXBITS + 1], lensym[MAXLCODES];
short distcnt[MAXBITS + 1], distsym[MAXDCODES];
huffman lencode, distcode;
static const short order[19] = {
16, 17, 18, 0, 8, 7, 9, 6, 10, 5, 11, 4, 12, 3, 13, 2, 14, 1, 15
};
lencode.count = lencnt;
lencode.symbol = lensym;
distcode.count = distcnt;
distcode.symbol = distsym;
nlen = bits(s, 5) + 257;
ndist = bits(s, 5) + 1;
ncode = bits(s, 4) + 4;
if(nlen > MAXLCODES || ndist > MAXDCODES) return -3;
for(index = 0; index < ncode; index++) lengths[order[index]] = bits(s, 3);
for(; index < 19; index++) lengths[order[index]] = 0;
err = construct(&lencode, lengths, 19);
if(err != 0) return -4;
index = 0;
while(index < nlen + ndist) {
int symbol, len;
symbol = decode(s, &lencode);
if(symbol < 16) {
lengths[index++] = symbol;
} else {
len = 0;
if(symbol == 16) {
if(index == 0) return -5;
len = lengths[index - 1];
symbol = 3 + bits(s, 2);
} else if(symbol == 17) {
symbol = 3 + bits(s, 3);
} else {
symbol = 11 + bits(s, 7);
}
if(index + symbol > nlen + ndist) return -6;
while(symbol--) lengths[index++] = len;
}
}
if(lengths[256] == 0) return -9;
err = construct(&lencode, lengths, nlen);
if(err < 0 || (err > 0 && nlen - lencode.count[0] != 1)) return -7;
err = construct(&distcode, lengths + nlen, ndist);
if(err < 0 || (err > 0 && ndist - distcode.count[0] != 1)) return -8;
return codes(s, &lencode, &distcode);
}
inline int puff(
unsigned char *dest, unsigned long *destlen,
unsigned char *source, unsigned long *sourcelen
) {
state s;
int last, type, err;
s.out = dest;
s.outlen = *destlen;
s.outcnt = 0;
s.in = source;
s.inlen = *sourcelen;
s.incnt = 0;
s.bitbuf = 0;
s.bitcnt = 0;
if(setjmp(s.env) != 0) {
err = 2;
} else {
do {
last = bits(&s, 1);
type = bits(&s, 2);
err = type == 0 ? stored(&s)
: type == 1 ? fixed(&s)
: type == 2 ? dynamic(&s)
: -1;
if(err != 0) break;
} while(!last);
}
if(err <= 0) {
*destlen = s.outcnt;
*sourcelen = s.incnt;
}
return err;
}
}
}
#endif

386
bsnes/nall/input.hpp
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@@ -1,386 +0,0 @@
#ifndef NALL_INPUT_HPP
#define NALL_INPUT_HPP
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <nall/stdint.hpp>
#include <nall/string.hpp>
namespace nall {
struct Keyboard;
Keyboard& keyboard(unsigned = 0);
static const char KeyboardScancodeName[][64] = {
"Escape", "F1", "F2", "F3", "F4", "F5", "F6", "F7", "F8", "F9", "F10", "F11", "F12",
"PrintScreen", "ScrollLock", "Pause", "Tilde",
"Num1", "Num2", "Num3", "Num4", "Num5", "Num6", "Num7", "Num8", "Num9", "Num0",
"Dash", "Equal", "Backspace",
"Insert", "Delete", "Home", "End", "PageUp", "PageDown",
"A", "B", "C", "D", "E", "F", "G", "H", "I", "J", "K", "L", "M",
"N", "O", "P", "Q", "R", "S", "T", "U", "V", "W", "X", "Y", "Z",
"LeftBracket", "RightBracket", "Backslash", "Semicolon", "Apostrophe", "Comma", "Period", "Slash",
"Keypad1", "Keypad2", "Keypad3", "Keypad4", "Keypad5", "Keypad6", "Keypad7", "Keypad8", "Keypad9", "Keypad0",
"Point", "Enter", "Add", "Subtract", "Multiply", "Divide",
"NumLock", "CapsLock",
"Up", "Down", "Left", "Right",
"Tab", "Return", "Spacebar", "Menu",
"Shift", "Control", "Alt", "Super",
};
struct Keyboard {
const unsigned ID;
enum { Base = 1 };
enum { Count = 8, Size = 128 };
enum Scancode {
Escape, F1, F2, F3, F4, F5, F6, F7, F8, F9, F10, F11, F12,
PrintScreen, ScrollLock, Pause, Tilde,
Num1, Num2, Num3, Num4, Num5, Num6, Num7, Num8, Num9, Num0,
Dash, Equal, Backspace,
Insert, Delete, Home, End, PageUp, PageDown,
A, B, C, D, E, F, G, H, I, J, K, L, M,
N, O, P, Q, R, S, T, U, V, W, X, Y, Z,
LeftBracket, RightBracket, Backslash, Semicolon, Apostrophe, Comma, Period, Slash,
Keypad1, Keypad2, Keypad3, Keypad4, Keypad5, Keypad6, Keypad7, Keypad8, Keypad9, Keypad0,
Point, Enter, Add, Subtract, Multiply, Divide,
NumLock, CapsLock,
Up, Down, Left, Right,
Tab, Return, Spacebar, Menu,
Shift, Control, Alt, Super,
Limit,
};
static signed numberDecode(uint16_t scancode) {
for(unsigned i = 0; i < Count; i++) {
if(keyboard(i).belongsTo(scancode)) return i;
}
return -1;
}
static signed keyDecode(uint16_t scancode) {
for(unsigned i = 0; i < Count; i++) {
if(keyboard(i).isKey(scancode)) return scancode - keyboard(i).key(Escape);
}
return -1;
}
static signed modifierDecode(uint16_t scancode) {
for(unsigned i = 0; i < Count; i++) {
if(keyboard(i).isModifier(scancode)) return scancode - keyboard(i).key(Shift);
}
return -1;
}
static bool isAnyKey(uint16_t scancode) {
for(unsigned i = 0; i < Count; i++) {
if(keyboard(i).isKey(scancode)) return true;
}
return false;
}
static bool isAnyModifier(uint16_t scancode) {
for(unsigned i = 0; i < Count; i++) {
if(keyboard(i).isModifier(scancode)) return true;
}
return false;
}
static uint16_t decode(const char *name) {
string s(name);
if(!strbegin(name, "KB")) return 0;
s.ltrim("KB");
unsigned id = decimal(s);
auto pos = strpos(s, "::");
if(!pos) return 0;
s = substr(s, pos() + 2);
for(unsigned i = 0; i < Limit; i++) {
if(s == KeyboardScancodeName[i]) return Base + Size * id + i;
}
return 0;
}
string encode(uint16_t code) const {
unsigned index = 0;
for(unsigned i = 0; i < Count; i++) {
if(code >= Base + Size * i && code < Base + Size * (i + 1)) {
index = code - (Base + Size * i);
break;
}
}
return { "KB", ID, "::", KeyboardScancodeName[index] };
}
uint16_t operator[](Scancode code) const { return Base + ID * Size + code; }
uint16_t key(unsigned id) const { return Base + Size * ID + id; }
bool isKey(unsigned id) const { return id >= key(Escape) && id <= key(Menu); }
bool isModifier(unsigned id) const { return id >= key(Shift) && id <= key(Super); }
bool belongsTo(uint16_t scancode) const { return isKey(scancode) || isModifier(scancode); }
Keyboard(unsigned ID_) : ID(ID_) {}
};
inline Keyboard& keyboard(unsigned id) {
static Keyboard kb0(0), kb1(1), kb2(2), kb3(3), kb4(4), kb5(5), kb6(6), kb7(7);
switch(id) { default:
case 0: return kb0; case 1: return kb1; case 2: return kb2; case 3: return kb3;
case 4: return kb4; case 5: return kb5; case 6: return kb6; case 7: return kb7;
}
}
static const char MouseScancodeName[][64] = {
"Xaxis", "Yaxis", "Zaxis",
"Button0", "Button1", "Button2", "Button3", "Button4", "Button5", "Button6", "Button7",
};
struct Mouse;
Mouse& mouse(unsigned = 0);
struct Mouse {
const unsigned ID;
enum { Base = Keyboard::Base + Keyboard::Size * Keyboard::Count };
enum { Count = 8, Size = 16 };
enum { Axes = 3, Buttons = 8 };
enum Scancode {
Xaxis, Yaxis, Zaxis,
Button0, Button1, Button2, Button3, Button4, Button5, Button6, Button7,
Limit,
};
static signed numberDecode(uint16_t scancode) {
for(unsigned i = 0; i < Count; i++) {
if(mouse(i).belongsTo(scancode)) return i;
}
return -1;
}
static signed axisDecode(uint16_t scancode) {
for(unsigned i = 0; i < Count; i++) {
if(mouse(i).isAxis(scancode)) return scancode - mouse(i).axis(0);
}
return -1;
}
static signed buttonDecode(uint16_t scancode) {
for(unsigned i = 0; i < Count; i++) {
if(mouse(i).isButton(scancode)) return scancode - mouse(i).button(0);
}
return -1;
}
static bool isAnyAxis(uint16_t scancode) {
for(unsigned i = 0; i < Count; i++) {
if(mouse(i).isAxis(scancode)) return true;
}
return false;
}
static bool isAnyButton(uint16_t scancode) {
for(unsigned i = 0; i < Count; i++) {
if(mouse(i).isButton(scancode)) return true;
}
return false;
}
static uint16_t decode(const char *name) {
string s(name);
if(!strbegin(name, "MS")) return 0;
s.ltrim("MS");
unsigned id = decimal(s);
auto pos = strpos(s, "::");
if(!pos) return 0;
s = substr(s, pos() + 2);
for(unsigned i = 0; i < Limit; i++) {
if(s == MouseScancodeName[i]) return Base + Size * id + i;
}
return 0;
}
string encode(uint16_t code) const {
unsigned index = 0;
for(unsigned i = 0; i < Count; i++) {
if(code >= Base + Size * i && code < Base + Size * (i + 1)) {
index = code - (Base + Size * i);
break;
}
}
return { "MS", ID, "::", MouseScancodeName[index] };
}
uint16_t operator[](Scancode code) const { return Base + ID * Size + code; }
uint16_t axis(unsigned id) const { return Base + Size * ID + Xaxis + id; }
uint16_t button(unsigned id) const { return Base + Size * ID + Button0 + id; }
bool isAxis(unsigned id) const { return id >= axis(0) && id <= axis(2); }
bool isButton(unsigned id) const { return id >= button(0) && id <= button(7); }
bool belongsTo(uint16_t scancode) const { return isAxis(scancode) || isButton(scancode); }
Mouse(unsigned ID_) : ID(ID_) {}
};
inline Mouse& mouse(unsigned id) {
static Mouse ms0(0), ms1(1), ms2(2), ms3(3), ms4(4), ms5(5), ms6(6), ms7(7);
switch(id) { default:
case 0: return ms0; case 1: return ms1; case 2: return ms2; case 3: return ms3;
case 4: return ms4; case 5: return ms5; case 6: return ms6; case 7: return ms7;
}
}
static const char JoypadScancodeName[][64] = {
"Hat0", "Hat1", "Hat2", "Hat3", "Hat4", "Hat5", "Hat6", "Hat7",
"Axis0", "Axis1", "Axis2", "Axis3", "Axis4", "Axis5", "Axis6", "Axis7",
"Axis8", "Axis9", "Axis10", "Axis11", "Axis12", "Axis13", "Axis14", "Axis15",
"Button0", "Button1", "Button2", "Button3", "Button4", "Button5", "Button6", "Button7",
"Button8", "Button9", "Button10", "Button11", "Button12", "Button13", "Button14", "Button15",
"Button16", "Button17", "Button18", "Button19", "Button20", "Button21", "Button22", "Button23",
"Button24", "Button25", "Button26", "Button27", "Button28", "Button29", "Button30", "Button31",
};
struct Joypad;
Joypad& joypad(unsigned = 0);
struct Joypad {
const unsigned ID;
enum { Base = Mouse::Base + Mouse::Size * Mouse::Count };
enum { Count = 8, Size = 64 };
enum { Hats = 8, Axes = 16, Buttons = 32 };
enum Scancode {
Hat0, Hat1, Hat2, Hat3, Hat4, Hat5, Hat6, Hat7,
Axis0, Axis1, Axis2, Axis3, Axis4, Axis5, Axis6, Axis7,
Axis8, Axis9, Axis10, Axis11, Axis12, Axis13, Axis14, Axis15,
Button0, Button1, Button2, Button3, Button4, Button5, Button6, Button7,
Button8, Button9, Button10, Button11, Button12, Button13, Button14, Button15,
Button16, Button17, Button18, Button19, Button20, Button21, Button22, Button23,
Button24, Button25, Button26, Button27, Button28, Button29, Button30, Button31,
Limit,
};
enum Hat { HatCenter = 0, HatUp = 1, HatRight = 2, HatDown = 4, HatLeft = 8 };
static signed numberDecode(uint16_t scancode) {
for(unsigned i = 0; i < Count; i++) {
if(joypad(i).belongsTo(scancode)) return i;
}
return -1;
}
static signed hatDecode(uint16_t scancode) {
for(unsigned i = 0; i < Count; i++) {
if(joypad(i).isHat(scancode)) return scancode - joypad(i).hat(0);
}
return -1;
}
static signed axisDecode(uint16_t scancode) {
for(unsigned i = 0; i < Count; i++) {
if(joypad(i).isAxis(scancode)) return scancode - joypad(i).axis(0);
}
return -1;
}
static signed buttonDecode(uint16_t scancode) {
for(unsigned i = 0; i < Count; i++) {
if(joypad(i).isButton(scancode)) return scancode - joypad(i).button(0);
}
return -1;
}
static bool isAnyHat(uint16_t scancode) {
for(unsigned i = 0; i < Count; i++) {
if(joypad(i).isHat(scancode)) return true;
}
return false;
}
static bool isAnyAxis(uint16_t scancode) {
for(unsigned i = 0; i < Count; i++) {
if(joypad(i).isAxis(scancode)) return true;
}
return false;
}
static bool isAnyButton(uint16_t scancode) {
for(unsigned i = 0; i < Count; i++) {
if(joypad(i).isButton(scancode)) return true;
}
return false;
}
static uint16_t decode(const char *name) {
string s(name);
if(!strbegin(name, "JP")) return 0;
s.ltrim("JP");
unsigned id = decimal(s);
auto pos = strpos(s, "::");
if(!pos) return 0;
s = substr(s, pos() + 2);
for(unsigned i = 0; i < Limit; i++) {
if(s == JoypadScancodeName[i]) return Base + Size * id + i;
}
return 0;
}
string encode(uint16_t code) const {
unsigned index = 0;
for(unsigned i = 0; i < Count; i++) {
if(code >= Base + Size * i && code < Base + Size * (i + 1)) {
index = code - (Base + Size * i);
}
}
return { "JP", ID, "::", JoypadScancodeName[index] };
}
uint16_t operator[](Scancode code) const { return Base + ID * Size + code; }
uint16_t hat(unsigned id) const { return Base + Size * ID + Hat0 + id; }
uint16_t axis(unsigned id) const { return Base + Size * ID + Axis0 + id; }
uint16_t button(unsigned id) const { return Base + Size * ID + Button0 + id; }
bool isHat(unsigned id) const { return id >= hat(0) && id <= hat(7); }
bool isAxis(unsigned id) const { return id >= axis(0) && id <= axis(15); }
bool isButton(unsigned id) const { return id >= button(0) && id <= button(31); }
bool belongsTo(uint16_t scancode) const { return isHat(scancode) || isAxis(scancode) || isButton(scancode); }
Joypad(unsigned ID_) : ID(ID_) {}
};
inline Joypad& joypad(unsigned id) {
static Joypad jp0(0), jp1(1), jp2(2), jp3(3), jp4(4), jp5(5), jp6(6), jp7(7);
switch(id) { default:
case 0: return jp0; case 1: return jp1; case 2: return jp2; case 3: return jp3;
case 4: return jp4; case 5: return jp5; case 6: return jp6; case 7: return jp7;
}
}
struct Scancode {
enum { None = 0, Limit = Joypad::Base + Joypad::Size * Joypad::Count };
static uint16_t decode(const char *name) {
uint16_t code;
code = Keyboard::decode(name);
if(code) return code;
code = Mouse::decode(name);
if(code) return code;
code = Joypad::decode(name);
if(code) return code;
return None;
}
static string encode(uint16_t code) {
for(unsigned i = 0; i < Keyboard::Count; i++) {
if(keyboard(i).belongsTo(code)) return keyboard(i).encode(code);
}
for(unsigned i = 0; i < Mouse::Count; i++) {
if(mouse(i).belongsTo(code)) return mouse(i).encode(code);
}
for(unsigned i = 0; i < Joypad::Count; i++) {
if(joypad(i).belongsTo(code)) return joypad(i).encode(code);
}
return "None";
}
};
}
#endif

63
bsnes/nall/intrinsics.hpp
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#ifndef NALL_INTRINSICS_HPP
#define NALL_INTRINSICS_HPP
struct Intrinsics {
enum class Compiler : unsigned { GCC, VisualC, Unknown };
enum class Platform : unsigned { X, OSX, Windows, Unknown };
enum class Endian : unsigned { LSB, MSB, Unknown };
static inline Compiler compiler();
static inline Platform platform();
static inline Endian endian();
};
/* Compiler detection */
#if defined(__GNUC__)
#define COMPILER_GCC
Intrinsics::Compiler Intrinsics::compiler() { return Intrinsics::Compiler::GCC; }
#elif defined(_MSC_VER)
#define COMPILER_VISUALC
Intrinsics::Compiler Intrinsics::compiler() { return Intrinsics::Compiler::VisualC; }
#else
#warning "unable to detect compiler"
#define COMPILER_UNKNOWN
Intrinsics::Compiler Intrinsics::compiler() { return Intrinsics::Compiler::Unknown; }
#endif
/* Platform detection */
#if defined(linux) || defined(__sun__) || defined(__FreeBSD__) || defined(__FreeBSD_kernel__) || defined(__NetBSD__) || defined(__OpenBSD__)
#define PLATFORM_X
Intrinsics::Platform Intrinsics::platform() { return Intrinsics::Platform::X; }
#elif defined(__APPLE__)
#define PLATFORM_OSX
Intrinsics::Platform Intrinsics::platform() { return Intrinsics::Platform::OSX; }
#elif defined(_WIN32)
#define PLATFORM_WINDOWS
#define PLATFORM_WIN
Intrinsics::Platform Intrinsics::platform() { return Intrinsics::Platform::Windows; }
#else
#warning "unable to detect platform"
#define PLATFORM_UNKNOWN
Intrinsics::Platform Intrinsics::platform() { return Intrinsics::Platform::Unknown; }
#endif
/* Endian detection */
#if defined(__i386__) || defined(__amd64__) || defined(_M_IX86) || defined(_M_AMD64)
#define ENDIAN_LSB
#define ARCH_LSB
Intrinsics::Endian Intrinsics::endian() { return Intrinsics::Endian::LSB; }
#elif defined(__powerpc__) || defined(_M_PPC) || defined(__BIG_ENDIAN__)
#define ENDIAN_MSB
#define ARCH_MSB
Intrinsics::Endian Intrinsics::endian() { return Intrinsics::Endian::MSB; }
#else
#warning "unable to detect endian"
#define ENDIAN_UNKNOWN
#define ARCH_UNKNOWN
Intrinsics::Endian Intrinsics::endian() { return Intrinsics::Endian::Unknown; }
#endif
#endif

110
bsnes/nall/ips.hpp
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#ifndef NALL_IPS_HPP
#define NALL_IPS_HPP
#include <nall/file.hpp>
#include <nall/stdint.hpp>
#include <nall/string.hpp>
namespace nall {
struct ips {
inline bool apply();
inline void source(const uint8_t *data, unsigned size);
inline void modify(const uint8_t *data, unsigned size);
inline bool source(const string &filename);
inline bool modify(const string &filename);
inline ips();
inline ~ips();
uint8_t *data;
unsigned size;
const uint8_t *sourceData;
unsigned sourceSize;
const uint8_t *modifyData;
unsigned modifySize;
};
bool ips::apply() {
if(modifySize < 8) return false;
if(modifyData[0] != 'P') return false;
if(modifyData[1] != 'A') return false;
if(modifyData[2] != 'T') return false;
if(modifyData[3] != 'C') return false;
if(modifyData[4] != 'H') return false;
if(data) delete[] data;
data = new uint8_t[16 * 1024 * 1024 + 65536](); //maximum size of IPS patch + single-tag padding
size = sourceSize;
memcpy(data, sourceData, sourceSize);
unsigned offset = 5;
while(true) {
unsigned address, length;
if(offset > modifySize - 3) break;
address = modifyData[offset++] << 16;
address |= modifyData[offset++] << 8;
address |= modifyData[offset++] << 0;
if(address == 0x454f46) { //EOF
if(offset == modifySize) return true;
if(offset == modifySize - 3) {
size = modifyData[offset++] << 16;
size |= modifyData[offset++] << 8;
size |= modifyData[offset++] << 0;
return true;
}
}
if(offset > modifySize - 2) break;
length = modifyData[offset++] << 8;
length |= modifyData[offset++] << 0;
if(length) { //Copy
if(offset > modifySize - length) break;
while(length--) data[address++] = modifyData[offset++];
} else { //RLE
if(offset > modifySize - 3) break;
length = modifyData[offset++] << 8;
length |= modifyData[offset++] << 0;
if(length == 0) break; //illegal
while(length--) data[address++] = modifyData[offset];
offset++;
}
size = max(size, address);
}
delete[] data;
data = nullptr;
return false;
}
void ips::source(const uint8_t *data, unsigned size) {
sourceData = data, sourceSize = size;
}
void ips::modify(const uint8_t *data, unsigned size) {
modifyData = data, modifySize = size;
}
bool ips::source(const string &filename) {
return file::read(filename, sourceData, sourceSize);
}
bool ips::modify(const string &filename) {
return file::read(filename, modifyData, modifySize);
}
ips::ips() : data(nullptr), sourceData(nullptr), modifyData(nullptr) {
}
ips::~ips() {
if(data) delete[] data;
if(sourceData) delete[] sourceData;
if(modifyData) delete[] modifyData;
}
}
#endif

165
bsnes/nall/lzss.hpp
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#ifndef NALL_LZSS_HPP
#define NALL_LZSS_HPP
#include <nall/file.hpp>
#include <nall/filemap.hpp>
#include <nall/stdint.hpp>
#include <nall/string.hpp>
namespace nall {
//19:5 pulldown
//8:1 marker: d7-d0
//length: { 4 - 35 }, offset: { 1 - 0x80000 }
//4-byte file size header
//little-endian encoding
struct lzss {
inline void source(const uint8_t *data, unsigned size);
inline bool source(const string &filename);
inline unsigned size() const;
inline bool compress(const string &filename);
inline bool decompress(uint8_t *targetData, unsigned targetSize);
inline bool decompress(const string &filename);
protected:
struct Node {
unsigned offset;
Node *next;
inline Node() : offset(0), next(nullptr) {}
inline ~Node() { if(next) delete next; }
} *tree[65536];
filemap sourceFile;
const uint8_t *sourceData;
unsigned sourceSize;
public:
inline lzss() : sourceData(nullptr), sourceSize(0) {}
};
void lzss::source(const uint8_t *data, unsigned size) {
sourceData = data;
sourceSize = size;
}
bool lzss::source(const string &filename) {
if(sourceFile.open(filename, filemap::mode::read) == false) return false;
sourceData = sourceFile.data();
sourceSize = sourceFile.size();
return true;
}
unsigned lzss::size() const {
unsigned size = 0;
if(sourceSize < 4) return size;
for(unsigned n = 0; n < 32; n += 8) size |= sourceData[n >> 3] << n;
return size;
}
bool lzss::compress(const string &filename) {
file targetFile;
if(targetFile.open(filename, file::mode::write) == false) return false;
for(unsigned n = 0; n < 32; n += 8) targetFile.write(sourceSize >> n);
for(unsigned n = 0; n < 65536; n++) tree[n] = 0;
uint8_t buffer[25];
unsigned sourceOffset = 0;
while(sourceOffset < sourceSize) {
uint8_t mask = 0x00;
unsigned bufferOffset = 1;
for(unsigned iteration = 0; iteration < 8; iteration++) {
if(sourceOffset >= sourceSize) break;
uint16_t symbol = sourceData[sourceOffset + 0];
if(sourceOffset < sourceSize - 1) symbol |= sourceData[sourceOffset + 1] << 8;
Node *node = tree[symbol];
unsigned maxLength = 0, maxOffset = 0;
while(node) {
if(node->offset < sourceOffset - 0x80000) {
//out-of-range: all subsequent nodes will also be, so free up their memory
if(node->next) { delete node->next; node->next = 0; }
break;
}
unsigned length = 0, x = sourceOffset, y = node->offset;
while(length < 35 && x < sourceSize && sourceData[x++] == sourceData[y++]) length++;
if(length > maxLength) maxLength = length, maxOffset = node->offset;
if(length == 35) break;
node = node->next;
}
//attach current symbol to top of tree for subsequent searches
node = new Node;
node->offset = sourceOffset;
node->next = tree[symbol];
tree[symbol] = node;
if(maxLength < 4) {
buffer[bufferOffset++] = sourceData[sourceOffset++];
} else {
unsigned output = ((maxLength - 4) << 19) | (sourceOffset - 1 - maxOffset);
for(unsigned n = 0; n < 24; n += 8) buffer[bufferOffset++] = output >> n;
mask |= 0x80 >> iteration;
sourceOffset += maxLength;
}
}
buffer[0] = mask;
targetFile.write(buffer, bufferOffset);
}
sourceFile.close();
targetFile.close();
return true;
}
bool lzss::decompress(uint8_t *targetData, unsigned targetSize) {
if(targetSize < size()) return false;
unsigned sourceOffset = 4, targetOffset = 0;
while(sourceOffset < sourceSize) {
uint8_t mask = sourceData[sourceOffset++];
for(unsigned iteration = 0; iteration < 8; iteration++) {
if(sourceOffset >= sourceSize) break;
if((mask & (0x80 >> iteration)) == 0) {
targetData[targetOffset++] = sourceData[sourceOffset++];
} else {
unsigned code = 0;
for(unsigned n = 0; n < 24; n += 8) code |= sourceData[sourceOffset++] << n;
unsigned length = (code >> 19) + 4;
unsigned offset = targetOffset - 1 - (code & 0x7ffff);
while(length--) targetData[targetOffset++] = targetData[offset++];
}
}
}
}
bool lzss::decompress(const string &filename) {
if(sourceSize < 4) return false;
unsigned targetSize = size();
file fp;
if(fp.open(filename, file::mode::write) == false) return false;
fp.truncate(targetSize);
fp.close();
filemap targetFile;
if(targetFile.open(filename, filemap::mode::readwrite) == false) return false;
uint8_t *targetData = targetFile.data();
bool result = decompress(targetData, targetSize);
sourceFile.close();
targetFile.close();
return result;
}
}
#endif

116
bsnes/nall/map.hpp
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#ifndef NALL_MAP_HPP
#define NALL_MAP_HPP
#include <nall/vector.hpp>
namespace nall {
template<typename LHS, typename RHS>
struct map {
struct pair {
LHS name;
RHS data;
};
inline void reset() {
list.reset();
}
inline unsigned size() const {
return list.size();
}
//O(log n) find
inline optional<unsigned> find(const LHS &name) const {
signed first = 0, last = size() - 1;
while(first <= last) {
signed middle = (first + last) / 2;
if(name < list[middle].name) last = middle - 1; //search lower half
else if(list[middle].name < name) first = middle + 1; //search upper half
else return { true, middle }; //match found
}
return { false, 0u };
}
//O(n) insert + O(log n) find
inline RHS& insert(const LHS &name, const RHS &data) {
if(auto position = find(name)) {
list[position()].data = data;
return list[position()].data;
}
signed offset = size();
for(unsigned n = 0; n < size(); n++) {
if(name < list[n].name) { offset = n; break; }
}
list.insert(offset, { name, data });
return list[offset].data;
}
//O(log n) find
inline void modify(const LHS &name, const RHS &data) {
if(auto position = find(name)) list[position()].data = data;
}
//O(n) remove + O(log n) find
inline void remove(const LHS &name) {
if(auto position = find(name)) list.remove(position());
}
//O(log n) find
inline RHS& operator[](const LHS &name) {
if(auto position = find(name)) return list[position()].data;
throw;
}
inline const RHS& operator[](const LHS &name) const {
if(auto position = find(name)) return list[position()].data;
throw;
}
inline RHS& operator()(const LHS &name) {
return insert(name, RHS());
}
inline const RHS& operator()(const LHS &name, const RHS &data) const {
if(auto position = find(name)) return list[position()].data;
return data;
}
inline pair* begin() { return list.begin(); }
inline pair* end() { return list.end(); }
inline const pair* begin() const { return list.begin(); }
inline const pair* end() const { return list.end(); }
protected:
vector<pair> list;
};
template<typename LHS, typename RHS>
struct bidirectional_map {
const map<LHS, RHS> &lhs;
const map<RHS, LHS> &rhs;
inline void reset() {
llist.reset();
rlist.reset();
}
inline unsigned size() const {
return llist.size();
}
inline void insert(const LHS &ldata, const RHS &rdata) {
llist.insert(ldata, rdata);
rlist.insert(rdata, ldata);
}
inline bidirectional_map() : lhs(llist), rhs(rlist) {}
protected:
map<LHS, RHS> llist;
map<RHS, LHS> rlist;
};
}
#endif

40
bsnes/nall/moduloarray.hpp
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#ifndef NALL_MODULO_HPP
#define NALL_MODULO_HPP
#include <nall/serializer.hpp>
namespace nall {
template<typename T, int size> class modulo_array {
public:
inline T operator[](int index) const {
return buffer[size + index];
}
inline T read(int index) const {
return buffer[size + index];
}
inline void write(unsigned index, const T value) {
buffer[index] =
buffer[index + size] =
buffer[index + size + size] = value;
}
void serialize(serializer &s) {
s.array(buffer, size * 3);
}
modulo_array() {
buffer = new T[size * 3]();
}
~modulo_array() {
delete[] buffer;
}
private:
T *buffer;
};
}
#endif

142
bsnes/nall/platform.hpp
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#ifndef NALL_PLATFORM_HPP
#define NALL_PLATFORM_HPP
#if defined(_WIN32)
//minimum version needed for _wstat64, etc
#undef __MSVCRT_VERSION__
#define __MSVCRT_VERSION__ 0x0601
#include <nall/windows/utf8.hpp>
#endif
//=========================
//standard platform headers
//=========================
#include <limits>
#include <assert.h>
#include <limits.h>
#include <math.h>
#include <stdarg.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <time.h>
#include <sys/types.h>
#include <sys/stat.h>
#if defined(_WIN32)
#include <io.h>
#include <direct.h>
#include <shlobj.h>
#include <wchar.h>
#undef interface
#define dllexport __declspec(dllexport)
#else
#include <unistd.h>
#include <pwd.h>
#define dllexport
#endif
//==================
//warning supression
//==================
//Visual C++
#if defined(_MSC_VER)
//disable libc "deprecation" warnings
#pragma warning(disable:4996)
#endif
//================
//POSIX compliance
//================
#if defined(_MSC_VER)
#define PATH_MAX _MAX_PATH
#define va_copy(dest, src) ((dest) = (src))
#endif
#if defined(_WIN32)
#define getcwd _getcwd
#define ftruncate _chsize
#define mkdir(n, m) _wmkdir(nall::utf16_t(n))
#define putenv _putenv
#define rmdir _rmdir
#define vsnprintf _vsnprintf
inline void usleep(unsigned milliseconds) { Sleep(milliseconds / 1000); }
#endif
//================
//inline expansion
//================
#if defined(__GNUC__)
#define noinline __attribute__((noinline))
#define inline inline
#define alwaysinline inline __attribute__((always_inline))
#elif defined(_MSC_VER)
#define noinline __declspec(noinline)
#define inline inline
#define alwaysinline inline __forceinline
#else
#define noinline
#define inline inline
#define alwaysinline inline
#endif
//=========================
//file system functionality
//=========================
#if defined(_WIN32)
inline char* realpath(const char *filename, char *resolvedname) {
wchar_t fn[_MAX_PATH] = L"";
_wfullpath(fn, nall::utf16_t(filename), _MAX_PATH);
strcpy(resolvedname, nall::utf8_t(fn));
for(unsigned n = 0; resolvedname[n]; n++) if(resolvedname[n] == '\\') resolvedname[n] = '/';
return resolvedname;
}
inline char* userpath(char *path) {
wchar_t fp[_MAX_PATH] = L"";
SHGetFolderPathW(0, CSIDL_APPDATA | CSIDL_FLAG_CREATE, 0, 0, fp);
strcpy(path, nall::utf8_t(fp));
for(unsigned n = 0; path[n]; n++) if(path[n] == '\\') path[n] = '/';
unsigned length = strlen(path);
if(path[length] != '/') strcpy(path + length, "/");
return path;
}
inline char* getcwd(char *path) {
wchar_t fp[_MAX_PATH] = L"";
_wgetcwd(fp, _MAX_PATH);
strcpy(path, nall::utf8_t(fp));
for(unsigned n = 0; path[n]; n++) if(path[n] == '\\') path[n] = '/';
unsigned length = strlen(path);
if(path[length] != '/') strcpy(path + length, "/");
return path;
}
#else
//realpath() already exists
inline char* userpath(char *path) {
*path = 0;
struct passwd *userinfo = getpwuid(getuid());
if(userinfo) strcpy(path, userinfo->pw_dir);
unsigned length = strlen(path);
if(path[length] != '/') strcpy(path + length, "/");
return path;
}
inline char *getcwd(char *path) {
auto unused = getcwd(path, PATH_MAX);
unsigned length = strlen(path);
if(path[length] != '/') strcpy(path + length, "/");
return path;
}
#endif
#endif

109
bsnes/nall/priorityqueue.hpp
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#ifndef NALL_PRIORITYQUEUE_HPP
#define NALL_PRIORITYQUEUE_HPP
#include <limits>
#include <nall/function.hpp>
#include <nall/serializer.hpp>
#include <nall/utility.hpp>
namespace nall {
template<typename type_t> void priority_queue_nocallback(type_t) {}
//priority queue implementation using binary min-heap array;
//does not require normalize() function.
//O(1) find (tick)
//O(log n) append (enqueue)
//O(log n) remove (dequeue)
template<typename type_t> class priority_queue {
public:
inline void tick(unsigned ticks) {
basecounter += ticks;
while(heapsize && gte(basecounter, heap[0].counter)) callback(dequeue());
}
//counter is relative to current time (eg enqueue(64, ...) fires in 64 ticks);
//counter cannot exceed std::numeric_limits<unsigned>::max() >> 1.
void enqueue(unsigned counter, type_t event) {
unsigned child = heapsize++;
counter += basecounter;
while(child) {
unsigned parent = (child - 1) >> 1;
if(gte(counter, heap[parent].counter)) break;
heap[child].counter = heap[parent].counter;
heap[child].event = heap[parent].event;
child = parent;
}
heap[child].counter = counter;
heap[child].event = event;
}
type_t dequeue() {
type_t event(heap[0].event);
unsigned parent = 0;
unsigned counter = heap[--heapsize].counter;
while(true) {
unsigned child = (parent << 1) + 1;
if(child >= heapsize) break;
if(child + 1 < heapsize && gte(heap[child].counter, heap[child + 1].counter)) child++;
if(gte(heap[child].counter, counter)) break;
heap[parent].counter = heap[child].counter;
heap[parent].event = heap[child].event;
parent = child;
}
heap[parent].counter = counter;
heap[parent].event = heap[heapsize].event;
return event;
}
void reset() {
basecounter = 0;
heapsize = 0;
}
void serialize(serializer &s) {
s.integer(basecounter);
s.integer(heapsize);
for(unsigned n = 0; n < heapcapacity; n++) {
s.integer(heap[n].counter);
s.integer(heap[n].event);
}
}
priority_queue(unsigned size, function<void (type_t)> callback_ = &priority_queue_nocallback<type_t>)
: callback(callback_) {
heap = new heap_t[size];
heapcapacity = size;
reset();
}
~priority_queue() {
delete[] heap;
}
priority_queue& operator=(const priority_queue&) = delete;
priority_queue(const priority_queue&) = delete;
private:
function<void (type_t)> callback;
unsigned basecounter;
unsigned heapsize;
unsigned heapcapacity;
struct heap_t {
unsigned counter;
type_t event;
} *heap;
//return true if x is greater than or equal to y
inline bool gte(unsigned x, unsigned y) {
return x - y < (std::numeric_limits<unsigned>::max() >> 1);
}
};
}
#endif

91
bsnes/nall/property.hpp
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@@ -1,91 +0,0 @@
#ifndef NALL_PROPERTY_HPP
#define NALL_PROPERTY_HPP
//nall::property implements ownership semantics into container classes
//example: property<owner>::readonly<type> implies that only owner has full
//access to type; and all other code has readonly access.
//
//this code relies on extended friend semantics from C++0x to work, as it
//declares a friend class via a template paramter. it also exploits a bug in
//G++ 4.x to work even in C++98 mode.
//
//if compiling elsewhere, simply remove the friend class and private semantics
//property can be used either of two ways:
//struct foo {
// property<foo>::readonly<bool> x;
// property<foo>::readwrite<int> y;
//};
//-or-
//struct foo : property<foo> {
// readonly<bool> x;
// readwrite<int> y;
//};
//return types are const T& (byref) instead of T (byval) to avoid major speed
//penalties for objects with expensive copy constructors
//operator-> provides access to underlying object type:
//readonly<Object> foo;
//foo->bar();
//... will call Object::bar();
//operator='s reference is constant so as to avoid leaking a reference handle
//that could bypass access restrictions
//both constant and non-constant operators are provided, though it may be
//necessary to cast first, for instance:
//struct foo : property<foo> { readonly<int> bar; } object;
//int main() { int value = const_cast<const foo&>(object); }
//writeonly is useful for objects that have non-const reads, but const writes.
//however, to avoid leaking handles, the interface is very restricted. the only
//way to write is via operator=, which requires conversion via eg copy
//constructor. example:
//struct foo {
// foo(bool value) { ... }
//};
//writeonly<foo> bar;
//bar = true;
namespace nall {
template<typename C> struct property {
template<typename T> struct traits { typedef T type; };
template<typename T> struct readonly {
const T* operator->() const { return &value; }
const T& operator()() const { return value; }
operator const T&() const { return value; }
private:
T* operator->() { return &value; }
operator T&() { return value; }
const T& operator=(const T& value_) { return value = value_; }
T value;
friend class traits<C>::type;
};
template<typename T> struct writeonly {
void operator=(const T& value_) { value = value_; }
private:
const T* operator->() const { return &value; }
const T& operator()() const { return value; }
operator const T&() const { return value; }
T* operator->() { return &value; }
operator T&() { return value; }
T value;
friend class traits<C>::type;
};
template<typename T> struct readwrite {
const T* operator->() const { return &value; }
const T& operator()() const { return value; }
operator const T&() const { return value; }
T* operator->() { return &value; }
operator T&() { return value; }
const T& operator=(const T& value_) { return value = value_; }
T value;
};
};
}
#endif

32
bsnes/nall/public_cast.hpp
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@@ -1,32 +0,0 @@
#ifndef NALL_PUBLIC_CAST_HPP
#define NALL_PUBLIC_CAST_HPP
//this is a proof-of-concept-*only* C++ access-privilege elevation exploit.
//this code is 100% legal C++, per C++98 section 14.7.2 paragraph 8:
//"access checking rules do not apply to names in explicit instantiations."
//usage example:
//struct N { typedef void (Class::*)(); };
//template class public_cast<N, &Class::Reference>;
//(class.*public_cast<N>::value);
//Class::Reference may be public, protected or private
//Class::Reference may be a function, object or variable
namespace nall {
template<typename T, typename T::type... P> struct public_cast;
template<typename T> struct public_cast<T> {
static typename T::type value;
};
template<typename T> typename T::type public_cast<T>::value;
template<typename T, typename T::type P> struct public_cast<T, P> {
static typename T::type value;
};
template<typename T, typename T::type P> typename T::type public_cast<T, P>::value = public_cast<T>::value = P;
}
#endif

28
bsnes/nall/random.hpp
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@@ -1,28 +0,0 @@
#ifndef NALL_RANDOM_HPP
#define NALL_RANDOM_HPP
namespace nall {
//pseudo-random number generator
inline unsigned prng() {
static unsigned n = 0;
return n = (n >> 1) ^ (((n & 1) - 1) & 0xedb88320);
}
struct random_lfsr {
inline void seed(unsigned seed__) {
seed_ = seed__;
}
inline unsigned operator()() {
return seed_ = (seed_ >> 1) ^ (((seed_ & 1) - 1) & 0xedb88320);
}
random_lfsr() : seed_(0) {
}
private:
unsigned seed_;
};
}
#endif

142
bsnes/nall/reference_array.hpp
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@@ -1,142 +0,0 @@
#ifndef NALL_REFERENCE_ARRAY_HPP
#define NALL_REFERENCE_ARRAY_HPP
#include <algorithm>
#include <type_traits>
#include <nall/bit.hpp>
namespace nall {
template<typename T> struct reference_array {
struct exception_out_of_bounds{};
protected:
typedef typename std::remove_reference<T>::type type_t;
type_t **pool;
unsigned poolsize, buffersize;
public:
unsigned size() const { return buffersize; }
unsigned capacity() const { return poolsize; }
void reset() {
if(pool) free(pool);
pool = nullptr;
poolsize = 0;
buffersize = 0;
}
void reserve(unsigned newsize) {
if(newsize == poolsize) return;
pool = (type_t**)realloc(pool, sizeof(type_t*) * newsize);
poolsize = newsize;
buffersize = min(buffersize, newsize);
}
void resize(unsigned newsize) {
if(newsize > poolsize) reserve(bit::round(newsize));
buffersize = newsize;
}
template<typename... Args>
bool append(type_t& data, Args&&... args) {
bool result = append(data);
append(std::forward<Args>(args)...);
return result;
}
bool append(type_t& data) {
for(unsigned index = 0; index < buffersize; index++) {
if(pool[index] == &data) return false;
}
unsigned index = buffersize++;
if(index >= poolsize) resize(index + 1);
pool[index] = &data;
return true;
}
bool remove(type_t& data) {
for(unsigned index = 0; index < buffersize; index++) {
if(pool[index] == &data) {
for(unsigned i = index; i < buffersize - 1; i++) pool[i] = pool[i + 1];
resize(buffersize - 1);
return true;
}
}
return false;
}
template<typename... Args> reference_array(Args&... args) : pool(nullptr), poolsize(0), buffersize(0) {
construct(args...);
}
~reference_array() {
reset();
}
reference_array& operator=(const reference_array &source) {
if(pool) free(pool);
buffersize = source.buffersize;
poolsize = source.poolsize;
pool = (type_t**)malloc(sizeof(type_t*) * poolsize);
memcpy(pool, source.pool, sizeof(type_t*) * buffersize);
return *this;
}
reference_array& operator=(const reference_array &&source) {
if(pool) free(pool);
pool = source.pool;
poolsize = source.poolsize;
buffersize = source.buffersize;
source.pool = nullptr;
source.reset();
return *this;
}
inline type_t& operator[](unsigned index) {
if(index >= buffersize) throw exception_out_of_bounds();
return *pool[index];
}
inline type_t& operator[](unsigned index) const {
if(index >= buffersize) throw exception_out_of_bounds();
return *pool[index];
}
//iteration
struct iterator {
bool operator!=(const iterator &source) const { return index != source.index; }
type_t& operator*() { return array.operator[](index); }
iterator& operator++() { index++; return *this; }
iterator(const reference_array &array, unsigned index) : array(array), index(index) {}
private:
const reference_array &array;
unsigned index;
};
iterator begin() { return iterator(*this, 0); }
iterator end() { return iterator(*this, buffersize); }
const iterator begin() const { return iterator(*this, 0); }
const iterator end() const { return iterator(*this, buffersize); }
private:
void construct() {
}
void construct(const reference_array &source) {
operator=(source);
}
void construct(const reference_array &&source) {
operator=(std::move(source));
}
template<typename... Args> void construct(T data, Args&... args) {
append(data);
construct(args...);
}
};
}
#endif

85
bsnes/nall/serial.hpp
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@@ -1,85 +0,0 @@
#ifndef NALL_SERIAL_HPP
#define NALL_SERIAL_HPP
#include <sys/ioctl.h>
#include <fcntl.h>
#include <termios.h>
#include <unistd.h>
#include <nall/stdint.hpp>
namespace nall {
class serial {
public:
//-1 on error, otherwise return bytes read
int read(uint8_t *data, unsigned length) {
if(port_open == false) return -1;
return ::read(port, (void*)data, length);
}
//-1 on error, otherwise return bytes written
int write(const uint8_t *data, unsigned length) {
if(port_open == false) return -1;
return ::write(port, (void*)data, length);
}
bool open(const char *portname, unsigned rate, bool flowcontrol) {
close();
port = ::open(portname, O_RDWR | O_NOCTTY | O_NDELAY | O_NONBLOCK);
if(port == -1) return false;
if(ioctl(port, TIOCEXCL) == -1) { close(); return false; }
if(fcntl(port, F_SETFL, 0) == -1) { close(); return false; }
if(tcgetattr(port, &original_attr) == -1) { close(); return false; }
termios attr = original_attr;
cfmakeraw(&attr);
cfsetspeed(&attr, rate);
attr.c_lflag &=~ (ECHO | ECHONL | ISIG | ICANON | IEXTEN);
attr.c_iflag &=~ (BRKINT | PARMRK | INPCK | ISTRIP | INLCR | IGNCR | ICRNL | IXON | IXOFF | IXANY);
attr.c_iflag |= (IGNBRK | IGNPAR);
attr.c_oflag &=~ (OPOST);
attr.c_cflag &=~ (CSIZE | CSTOPB | PARENB | CLOCAL);
attr.c_cflag |= (CS8 | CREAD);
if(flowcontrol == false) {
attr.c_cflag &= ~CRTSCTS;
} else {
attr.c_cflag |= CRTSCTS;
}
attr.c_cc[VTIME] = attr.c_cc[VMIN] = 0;
if(tcsetattr(port, TCSANOW, &attr) == -1) { close(); return false; }
return port_open = true;
}
void close() {
if(port != -1) {
tcdrain(port);
if(port_open == true) {
tcsetattr(port, TCSANOW, &original_attr);
port_open = false;
}
::close(port);
port = -1;
}
}
serial() {
port = -1;
port_open = false;
}
~serial() {
close();
}
private:
int port;
bool port_open;
termios original_attr;
};
}
#endif

146
bsnes/nall/serializer.hpp
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@@ -1,146 +0,0 @@
#ifndef NALL_SERIALIZER_HPP
#define NALL_SERIALIZER_HPP
#include <type_traits>
#include <utility>
#include <nall/stdint.hpp>
#include <nall/utility.hpp>
namespace nall {
//serializer: a class designed to save and restore the state of classes.
//
//benefits:
//- data() will be portable in size (it is not necessary to specify type sizes.)
//- data() will be portable in endianness (always stored internally as little-endian.)
//- one serialize function can both save and restore class states.
//
//caveats:
//- only plain-old-data can be stored. complex classes must provide serialize(serializer&);
//- floating-point usage is not portable across platforms
class serializer {
public:
enum mode_t { Load, Save, Size };
mode_t mode() const {
return imode;
}
const uint8_t* data() const {
return idata;
}
unsigned size() const {
return isize;
}
unsigned capacity() const {
return icapacity;
}
template<typename T> void floatingpoint(T &value) {
enum { size = sizeof(T) };
//this is rather dangerous, and not cross-platform safe;
//but there is no standardized way to export FP-values
uint8_t *p = (uint8_t*)&value;
if(imode == Save) {
for(unsigned n = 0; n < size; n++) idata[isize++] = p[n];
} else if(imode == Load) {
for(unsigned n = 0; n < size; n++) p[n] = idata[isize++];
} else {
isize += size;
}
}
template<typename T> void integer(T &value) {
enum { size = std::is_same<bool, T>::value ? 1 : sizeof(T) };
if(imode == Save) {
for(unsigned n = 0; n < size; n++) idata[isize++] = (uintmax_t)value >> (n << 3);
} else if(imode == Load) {
value = 0;
for(unsigned n = 0; n < size; n++) value |= (uintmax_t)idata[isize++] << (n << 3);
} else if(imode == Size) {
isize += size;
}
}
template<typename T> void array(T &array) {
enum { size = sizeof(T) / sizeof(typename std::remove_extent<T>::type) };
for(unsigned n = 0; n < size; n++) integer(array[n]);
}
template<typename T> void array(T array, unsigned size) {
for(unsigned n = 0; n < size; n++) integer(array[n]);
}
//copy
serializer& operator=(const serializer &s) {
if(idata) delete[] idata;
imode = s.imode;
idata = new uint8_t[s.icapacity];
isize = s.isize;
icapacity = s.icapacity;
memcpy(idata, s.idata, s.icapacity);
return *this;
}
serializer(const serializer &s) : idata(0) {
operator=(s);
}
//move
serializer& operator=(serializer &&s) {
if(idata) delete[] idata;
imode = s.imode;
idata = s.idata;
isize = s.isize;
icapacity = s.icapacity;
s.idata = 0;
return *this;
}
serializer(serializer &&s) {
operator=(std::move(s));
}
//construction
serializer() {
imode = Size;
idata = 0;
isize = 0;
icapacity = 0;
}
serializer(unsigned capacity) {
imode = Save;
idata = new uint8_t[capacity]();
isize = 0;
icapacity = capacity;
}
serializer(const uint8_t *data, unsigned capacity) {
imode = Load;
idata = new uint8_t[capacity];
isize = 0;
icapacity = capacity;
memcpy(idata, data, capacity);
}
~serializer() {
if(idata) delete[] idata;
}
private:
mode_t imode;
uint8_t *idata;
unsigned isize;
unsigned icapacity;
};
};
#endif

145
bsnes/nall/sha256.hpp
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@@ -1,145 +0,0 @@
#ifndef NALL_SHA256_HPP
#define NALL_SHA256_HPP
//author: vladitx
#include <nall/stdint.hpp>
namespace nall {
#define PTR(t, a) ((t*)(a))
#define SWAP32(x) ((uint32_t)( \
(((uint32_t)(x) & 0x000000ff) << 24) | \
(((uint32_t)(x) & 0x0000ff00) << 8) | \
(((uint32_t)(x) & 0x00ff0000) >> 8) | \
(((uint32_t)(x) & 0xff000000) >> 24) \
))
#define ST32(a, d) *PTR(uint32_t, a) = (d)
#define ST32BE(a, d) ST32(a, SWAP32(d))
#define LD32(a) *PTR(uint32_t, a)
#define LD32BE(a) SWAP32(LD32(a))
#define LSL32(x, n) ((uint32_t)(x) << (n))
#define LSR32(x, n) ((uint32_t)(x) >> (n))
#define ROR32(x, n) (LSR32(x, n) | LSL32(x, 32 - (n)))
//first 32 bits of the fractional parts of the square roots of the first 8 primes 2..19
static const uint32_t T_H[8] = {
0x6a09e667, 0xbb67ae85, 0x3c6ef372, 0xa54ff53a, 0x510e527f, 0x9b05688c, 0x1f83d9ab, 0x5be0cd19,
};
//first 32 bits of the fractional parts of the cube roots of the first 64 primes 2..311
static const uint32_t T_K[64] = {
0x428a2f98, 0x71374491, 0xb5c0fbcf, 0xe9b5dba5, 0x3956c25b, 0x59f111f1, 0x923f82a4, 0xab1c5ed5,
0xd807aa98, 0x12835b01, 0x243185be, 0x550c7dc3, 0x72be5d74, 0x80deb1fe, 0x9bdc06a7, 0xc19bf174,
0xe49b69c1, 0xefbe4786, 0x0fc19dc6, 0x240ca1cc, 0x2de92c6f, 0x4a7484aa, 0x5cb0a9dc, 0x76f988da,
0x983e5152, 0xa831c66d, 0xb00327c8, 0xbf597fc7, 0xc6e00bf3, 0xd5a79147, 0x06ca6351, 0x14292967,
0x27b70a85, 0x2e1b2138, 0x4d2c6dfc, 0x53380d13, 0x650a7354, 0x766a0abb, 0x81c2c92e, 0x92722c85,
0xa2bfe8a1, 0xa81a664b, 0xc24b8b70, 0xc76c51a3, 0xd192e819, 0xd6990624, 0xf40e3585, 0x106aa070,
0x19a4c116, 0x1e376c08, 0x2748774c, 0x34b0bcb5, 0x391c0cb3, 0x4ed8aa4a, 0x5b9cca4f, 0x682e6ff3,
0x748f82ee, 0x78a5636f, 0x84c87814, 0x8cc70208, 0x90befffa, 0xa4506ceb, 0xbef9a3f7, 0xc67178f2,
};
struct sha256_ctx {
uint8_t in[64];
unsigned inlen;
uint32_t w[64];
uint32_t h[8];
uint64_t len;
};
inline void sha256_init(sha256_ctx *p) {
memset(p, 0, sizeof(sha256_ctx));
memcpy(p->h, T_H, sizeof(T_H));
}
static void sha256_block(sha256_ctx *p) {
unsigned i;
uint32_t s0, s1;
uint32_t a, b, c, d, e, f, g, h;
uint32_t t1, t2, maj, ch;
for(i = 0; i < 16; i++) p->w[i] = LD32BE(p->in + i * 4);
for(i = 16; i < 64; i++) {
s0 = ROR32(p->w[i - 15], 7) ^ ROR32(p->w[i - 15], 18) ^ LSR32(p->w[i - 15], 3);
s1 = ROR32(p->w[i - 2], 17) ^ ROR32(p->w[i - 2], 19) ^ LSR32(p->w[i - 2], 10);
p->w[i] = p->w[i - 16] + s0 + p->w[i - 7] + s1;
}
a = p->h[0]; b = p->h[1]; c = p->h[2]; d = p->h[3];
e = p->h[4]; f = p->h[5]; g = p->h[6]; h = p->h[7];
for(i = 0; i < 64; i++) {
s0 = ROR32(a, 2) ^ ROR32(a, 13) ^ ROR32(a, 22);
maj = (a & b) ^ (a & c) ^ (b & c);
t2 = s0 + maj;
s1 = ROR32(e, 6) ^ ROR32(e, 11) ^ ROR32(e, 25);
ch = (e & f) ^ (~e & g);
t1 = h + s1 + ch + T_K[i] + p->w[i];
h = g; g = f; f = e; e = d + t1;
d = c; c = b; b = a; a = t1 + t2;
}
p->h[0] += a; p->h[1] += b; p->h[2] += c; p->h[3] += d;
p->h[4] += e; p->h[5] += f; p->h[6] += g; p->h[7] += h;
//next block
p->inlen = 0;
}
inline void sha256_chunk(sha256_ctx *p, const uint8_t *s, unsigned len) {
unsigned l;
p->len += len;
while(len) {
l = 64 - p->inlen;
l = (len < l) ? len : l;
memcpy(p->in + p->inlen, s, l);
s += l;
p->inlen += l;
len -= l;
if(p->inlen == 64) sha256_block(p);
}
}
inline void sha256_final(sha256_ctx *p) {
uint64_t len;
p->in[p->inlen++] = 0x80;
if(p->inlen > 56) {
memset(p->in + p->inlen, 0, 64 - p->inlen);
sha256_block(p);
}
memset(p->in + p->inlen, 0, 56 - p->inlen);
len = p->len << 3;
ST32BE(p->in + 56, len >> 32);
ST32BE(p->in + 60, len);
sha256_block(p);
}
inline void sha256_hash(sha256_ctx *p, uint8_t *s) {
uint32_t *t = (uint32_t*)s;
for(unsigned i = 0; i < 8; i++) ST32BE(t++, p->h[i]);
}
#undef PTR
#undef SWAP32
#undef ST32
#undef ST32BE
#undef LD32
#undef LD32BE
#undef LSL32
#undef LSR32
#undef ROR32
}
#endif

886
bsnes/nall/snes/cartridge.hpp
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@@ -1,886 +0,0 @@
#ifndef NALL_SNES_CARTRIDGE_HPP
#define NALL_SNES_CARTRIDGE_HPP
namespace nall {
class SnesCartridge {
public:
string markup;
inline SnesCartridge(const uint8_t *data, unsigned size);
//private:
inline void read_header(const uint8_t *data, unsigned size);
inline unsigned find_header(const uint8_t *data, unsigned size);
inline unsigned score_header(const uint8_t *data, unsigned size, unsigned addr);
inline unsigned gameboy_ram_size(const uint8_t *data, unsigned size);
inline bool gameboy_has_rtc(const uint8_t *data, unsigned size);
enum HeaderField {
CartName = 0x00,
Mapper = 0x15,
RomType = 0x16,
RomSize = 0x17,
RamSize = 0x18,
CartRegion = 0x19,
Company = 0x1a,
Version = 0x1b,
Complement = 0x1c, //inverse checksum
Checksum = 0x1e,
ResetVector = 0x3c,
};
enum Mode {
ModeNormal,
ModeBsxSlotted,
ModeBsx,
ModeSufamiTurbo,
ModeSuperGameBoy,
};
enum Type {
TypeNormal,
TypeBsxSlotted,
TypeBsxBios,
TypeBsx,
TypeSufamiTurboBios,
TypeSufamiTurbo,
TypeSuperGameBoy1Bios,
TypeSuperGameBoy2Bios,
TypeGameBoy,
TypeUnknown,
};
enum Region {
NTSC,
PAL,
};
enum MemoryMapper {
LoROM,
HiROM,
ExLoROM,
ExHiROM,
SuperFXROM,
SA1ROM,
SPC7110ROM,
BSCLoROM,
BSCHiROM,
BSXROM,
STROM,
};
enum DSP1MemoryMapper {
DSP1Unmapped,
DSP1LoROM1MB,
DSP1LoROM2MB,
DSP1HiROM,
};
bool loaded; //is a base cartridge inserted?
unsigned crc32; //crc32 of all cartridges (base+slot(s))
unsigned rom_size;
unsigned ram_size;
Mode mode;
Type type;
Region region;
MemoryMapper mapper;
DSP1MemoryMapper dsp1_mapper;
bool has_bsx_slot;
bool has_superfx;
bool has_sa1;
bool has_srtc;
bool has_sdd1;
bool has_spc7110;
bool has_spc7110rtc;
bool has_cx4;
bool has_dsp1;
bool has_dsp2;
bool has_dsp3;
bool has_dsp4;
bool has_obc1;
bool has_st010;
bool has_st011;
bool has_st018;
};
SnesCartridge::SnesCartridge(const uint8_t *data, unsigned size) {
read_header(data, size);
string xml;
markup = "<?xml version='1.0' encoding='UTF-8'?>\n";
if(type == TypeBsx) {
markup.append("<cartridge/>\n");
return;
}
if(type == TypeSufamiTurbo) {
markup.append("<cartridge/>\n");
return;
}
if(type == TypeGameBoy) {
markup.append("<cartridge rtc='", gameboy_has_rtc(data, size), "'\n");
if(gameboy_ram_size(data, size) > 0) {
markup.append(" <ram size='0x", hex(gameboy_ram_size(data, size)), "'>\n");
}
markup.append("</cartridge>\n");
return;
}
const char *range = (rom_size > 0x200000) || (ram_size > 32 * 1024) ? "0000-7fff" : "0000-ffff";
markup.append("<cartridge region='", region == NTSC ? "NTSC" : "PAL", "'>\n");
if(type == TypeSuperGameBoy1Bios || type == TypeSuperGameBoy2Bios) markup.append(
" <rom>\n"
" <map mode='linear' address='00-7f:8000-ffff'/>\n"
" <map mode='linear' address='80-ff:8000-ffff'/>\n"
" </rom>\n"
" <icd2 revision='1'>\n"
" <map address='00-3f:6000-7fff'/>\n"
" <map address='80-bf:6000-7fff'/>\n"
" </icd2>\n"
);
else if(has_cx4) markup.append(
" <hitachidsp model='HG51B169' frequency='20000000' firmware='cx4.rom' sha256='ae8d4d1961b93421ff00b3caa1d0f0ce7783e749772a3369c36b3dbf0d37ef18'>\n"
" <rom>\n"
" <map mode='linear' address='00-7f:8000-ffff'/>\n"
" <map mode='linear' address='80-ff:8000-ffff'/>\n"
" </rom>\n"
" <mmio>\n"
" <map address='00-3f:6000-7fff'/>\n"
" <map address='80-bf:6000-7fff'/>\n"
" </mmio>\n"
" </hitachidsp>\n"
);
else if(has_spc7110) {
markup.append(
" <rom>\n"
" <map mode='shadow' address='00-0f:8000-ffff'/>\n"
" <map mode='shadow' address='80-bf:8000-ffff'/>\n"
" <map mode='linear' address='c0-cf:0000-ffff'/>\n"
" </rom>\n"
" <spc7110>\n"
" <ram size='0x", hex(ram_size), "'>\n"
" <map mode='linear' address='00:6000-7fff'/>\n"
" <map mode='linear' address='30:6000-7fff'/>\n"
" </ram>\n"
" <mmio>\n"
" <map address='00-3f:4800-483f'/>\n"
" <map address='80-bf:4800-483f'/>\n"
" </mmio>\n"
" <mcu>\n"
" <map address='d0-ff:0000-ffff' offset='0x100000' size='0x", hex(size - 0x100000), "'/>\n"
" </mcu>\n"
" <dcu>\n"
" <map address='50:0000-ffff'/>\n"
" </dcu>\n"
);
if(has_spc7110rtc) markup.append(
" <rtc>\n"
" <map address='00-3f:4840-4842'/>\n"
" <map address='80-bf:4840-4842'/>\n"
" </rtc>\n"
);
markup.append(
" </spc7110>\n"
);
}
else if(mapper == LoROM) {
markup.append(
" <rom>\n"
" <map mode='linear' address='00-7f:8000-ffff'/>\n"
" <map mode='linear' address='80-ff:8000-ffff'/>\n"
" </rom>\n"
);
if(ram_size > 0) markup.append(
" <ram size='0x", hex(ram_size), "'>\n"
" <map mode='linear' address='20-3f:6000-7fff'/>\n"
" <map mode='linear' address='a0-bf:6000-7fff'/>\n"
" <map mode='linear' address='70-7f:", range, "'/>\n"
" <map mode='linear' address='f0-ff:", range, "'/>\n"
" </ram>\n"
);
}
else if(mapper == HiROM) {
markup.append(
" <rom>\n"
" <map mode='shadow' address='00-3f:8000-ffff'/>\n"
" <map mode='linear' address='40-7f:0000-ffff'/>\n"
" <map mode='shadow' address='80-bf:8000-ffff'/>\n"
" <map mode='linear' address='c0-ff:0000-ffff'/>\n"
" </rom>\n"
);
if(ram_size > 0) markup.append(
" <ram size='0x", hex(ram_size), "'>\n"
" <map mode='linear' address='20-3f:6000-7fff'/>\n"
" <map mode='linear' address='a0-bf:6000-7fff'/>\n"
" <map mode='linear' address='70-7f:", range, "'/>\n"
" </ram>\n"
);
}
else if(mapper == ExLoROM) {
markup.append(
" <rom>\n"
" <map mode='linear' address='00-3f:8000-ffff'/>\n"
" <map mode='linear' address='40-7f:0000-ffff'/>\n"
" <map mode='linear' address='80-bf:8000-ffff'/>\n"
" </rom>\n"
);
if(ram_size > 0) markup.append(
" <ram size='0x", hex(ram_size), "'>\n"
" <map mode='linear' address='20-3f:6000-7fff'/>\n"
" <map mode='linear' address='a0-bf:6000-7fff'/>\n"
" <map mode='linear' address='70-7f:0000-7fff'/>\n"
" </ram>\n"
);
}
else if(mapper == ExHiROM) {
markup.append(
" <rom>\n"
" <map mode='shadow' address='00-3f:8000-ffff' offset='0x400000'/>\n"
" <map mode='linear' address='40-7f:0000-ffff' offset='0x400000'/>\n"
" <map mode='shadow' address='80-bf:8000-ffff' offset='0x000000'/>\n"
" <map mode='linear' address='c0-ff:0000-ffff' offset='0x000000'/>\n"
" </rom>\n"
);
if(ram_size > 0) markup.append(
" <ram size='0x", hex(ram_size), "'>\n"
" <map mode='linear' address='20-3f:6000-7fff'/>\n"
" <map mode='linear' address='a0-bf:6000-7fff'/>\n"
" <map mode='linear' address='70-7f:", range, "'/>\n"
" </ram>\n"
);
}
else if(mapper == SuperFXROM) markup.append(
" <superfx revision='2'>\n"
" <rom>\n"
" <map mode='linear' address='00-3f:8000-ffff'/>\n"
" <map mode='linear' address='40-5f:0000-ffff'/>\n"
" <map mode='linear' address='80-bf:8000-ffff'/>\n"
" <map mode='linear' address='c0-df:0000-ffff'/>\n"
" </rom>\n"
" <ram size='0x", hex(ram_size), "'>\n"
" <map mode='linear' address='00-3f:6000-7fff' size='0x2000'/>\n"
" <map mode='linear' address='60-7f:0000-ffff'/>\n"
" <map mode='linear' address='80-bf:6000-7fff' size='0x2000'/>\n"
" <map mode='linear' address='e0-ff:0000-ffff'/>\n"
" </ram>\n"
" <mmio>\n"
" <map address='00-3f:3000-32ff'/>\n"
" <map address='80-bf:3000-32ff'/>\n"
" </mmio>\n"
" </superfx>\n"
);
else if(mapper == SA1ROM) markup.append(
" <sa1>\n"
" <mcu>\n"
" <rom>\n"
" <map mode='direct' address='00-3f:8000-ffff'/>\n"
" <map mode='direct' address='80-bf:8000-ffff'/>\n"
" <map mode='direct' address='c0-ff:0000-ffff'/>\n"
" </rom>\n"
" <ram>\n"
" <map mode='direct' address='00-3f:6000-7fff'/>\n"
" <map mode='direct' address='80-bf:6000-7fff'/>\n"
" </ram>\n"
" </mcu>\n"
" <iram size='0x800'>\n"
" <map mode='linear' address='00-3f:3000-37ff'/>\n"
" <map mode='linear' address='80-bf:3000-37ff'/>\n"
" </iram>\n"
" <bwram size='0x", hex(ram_size), "'>\n"
" <map mode='linear' address='40-4f:0000-ffff'/>\n"
" </bwram>\n"
" <mmio>\n"
" <map address='00-3f:2200-23ff'/>\n"
" <map address='80-bf:2200-23ff'/>\n"
" </mmio>\n"
" </sa1>\n"
);
else if(mapper == BSCLoROM) markup.append(
" <rom>\n"
" <map mode='linear' address='00-1f:8000-ffff' offset='0x000000'/>\n"
" <map mode='linear' address='20-3f:8000-ffff' offset='0x100000'/>\n"
" <map mode='linear' address='80-9f:8000-ffff' offset='0x200000'/>\n"
" <map mode='linear' address='a0-bf:8000-ffff' offset='0x100000'/>\n"
" </rom>\n"
" <ram size='0x", hex(ram_size), "'>\n"
" <map mode='linear' address='70-7f:0000-7fff'/>\n"
" <map mode='linear' address='f0-ff:0000-7fff'/>\n"
" </ram>\n"
" <bsx>\n"
" <slot>\n"
" <map mode='linear' address='c0-ef:0000-ffff'/>\n"
" </slot>\n"
" </bsx>\n"
);
else if(mapper == BSCHiROM) markup.append(
" <rom>\n"
" <map mode='shadow' address='00-1f:8000-ffff'/>\n"
" <map mode='linear' address='40-5f:0000-ffff'/>\n"
" <map mode='shadow' address='80-9f:8000-ffff'/>\n"
" <map mode='linear' address='c0-df:0000-ffff'/>\n"
" </rom>\n"
" <ram size='0x", hex(ram_size), "'>\n"
" <map mode='linear' address='20-3f:6000-7fff'/>\n"
" <map mode='linear' address='a0-bf:6000-7fff'/>\n"
" </ram>\n"
" <bsx>\n"
" <slot>\n"
" <map mode='shadow' address='20-3f:8000-ffff'/>\n"
" <map mode='linear' address='60-7f:0000-ffff'/>\n"
" <map mode='shadow' address='a0-bf:8000-ffff'/>\n"
" <map mode='linear' address='e0-ff:0000-ffff'/>\n"
" </slot>\n"
" </bsx>\n"
);
else if(mapper == BSXROM) markup.append(
" <bsx>\n"
" <mcu>\n"
" <map address='00-3f:8000-ffff'/>\n"
" <map address='80-bf:8000-ffff'/>\n"
" <map address='40-7f:0000-ffff'/>\n"
" <map address='c0-ff:0000-ffff'/>\n"
" <map address='20-3f:6000-7fff'/>\n"
" </mcu>\n"
" <mmio>\n"
" <map address='00-3f:5000-5fff'/>\n"
" <map address='80-bf:5000-5fff'/>\n"
" </mmio>\n"
" </bsx>\n"
);
else if(mapper == STROM) markup.append(
" <rom>\n"
" <map mode='linear' address='00-1f:8000-ffff'/>\n"
" <map mode='linear' address='80-9f:8000-ffff'/>\n"
" </rom>\n"
" <sufamiturbo>\n"
" <slot id='A'>\n"
" <rom>\n"
" <map mode='linear' address='20-3f:8000-ffff'/>\n"
" <map mode='linear' address='a0-bf:8000-ffff'/>\n"
" </rom>\n"
" <ram size='0x20000'>\n"
" <map mode='linear' address='60-63:8000-ffff'/>\n"
" <map mode='linear' address='e0-e3:8000-ffff'/>\n"
" </ram>\n"
" </slot>\n"
" <slot id='B'>\n"
" <rom>\n"
" <map mode='linear' address='40-5f:8000-ffff'/>\n"
" <map mode='linear' address='c0-df:8000-ffff'/>\n"
" </rom>\n"
" <ram size='0x20000'>\n"
" <map mode='linear' address='70-73:8000-ffff'/>\n"
" <map mode='linear' address='f0-f3:8000-ffff'/>\n"
" </ram>\n"
" </slot>\n"
" </sufamiturbo>\n"
);
if(has_srtc) markup.append(
" <srtc>\n"
" <map address='00-3f:2800-2801'/>\n"
" <map address='80-bf:2800-2801'/>\n"
" </srtc>\n"
);
if(has_sdd1) markup.append(
" <sdd1>\n"
" <mcu>\n"
" <map address='c0-ff:0000-ffff'/>\n"
" </mcu>\n"
" <mmio>\n"
" <map address='00-3f:4800-4807'/>\n"
" <map address='80-bf:4800-4807'/>\n"
" </mmio>\n"
" </sdd1>\n"
);
if(has_obc1) markup.append(
" <obc1>\n"
" <map address='00-3f:6000-7fff'/>\n"
" <map address='80-bf:6000-7fff'/>\n"
" </obc1>\n"
);
if(has_dsp1) {
//91e87d11e1c30d172556bed2211cce2efa94ba595f58c5d264809ef4d363a97b dsp1.rom
markup.append(" <necdsp model='uPD7725' frequency='8000000' firmware='dsp1b.rom' sha256='d789cb3c36b05c0b23b6c6f23be7aa37c6e78b6ee9ceac8d2d2aa9d8c4d35fa9'>\n");
if(dsp1_mapper == DSP1LoROM1MB) markup.append(
" <dr>\n"
" <map address='20-3f:8000-bfff'/>\n"
" <map address='a0-bf:8000-bfff'/>\n"
" </dr>\n"
" <sr>\n"
" <map address='20-3f:c000-ffff'/>\n"
" <map address='a0-bf:c000-ffff'/>\n"
" </sr>\n"
);
if(dsp1_mapper == DSP1LoROM2MB) markup.append(
" <dr>\n"
" <map address='60-6f:0000-3fff'/>\n"
" <map address='e0-ef:0000-3fff'/>\n"
" </dr>\n"
" <sr>\n"
" <map address='60-6f:4000-7fff'/>\n"
" <map address='e0-ef:4000-7fff'/>\n"
" </sr>\n"
);
if(dsp1_mapper == DSP1HiROM) markup.append(
" <dr>\n"
" <map address='00-1f:6000-6fff'/>\n"
" <map address='80-9f:6000-6fff'/>\n"
" </dr>\n"
" <sr>\n"
" <map address='00-1f:7000-7fff'/>\n"
" <map address='80-9f:7000-7fff'/>\n"
" </sr>\n"
);
markup.append(" </necdsp>\n");
}
if(has_dsp2) markup.append(
" <necdsp model='uPD7725' frequency='8000000' firmware='dsp2.rom' sha256='03ef4ef26c9f701346708cb5d07847b5203cf1b0818bf2930acd34510ffdd717'>\n"
" <dr>\n"
" <map address='20-3f:8000-bfff'/>\n"
" <map address='a0-bf:8000-bfff'/>\n"
" </dr>\n"
" <sr>\n"
" <map address='20-3f:c000-ffff'/>\n"
" <map address='a0-bf:c000-ffff'/>\n"
" </sr>\n"
" </necdsp>\n"
);
if(has_dsp3) markup.append(
" <necdsp model='uPD7725' frequency='8000000' firmware='dsp3.rom' sha256='0971b08f396c32e61989d1067dddf8e4b14649d548b2188f7c541b03d7c69e4e'>\n"
" <dr>\n"
" <map address='20-3f:8000-bfff'/>\n"
" <map address='a0-bf:8000-bfff'/>\n"
" </dr>\n"
" <sr>\n"
" <map address='20-3f:c000-ffff'/>\n"
" <map address='a0-bf:c000-ffff'/>\n"
" </sr>\n"
" </necdsp>\n"
);
if(has_dsp4) markup.append(
" <necdsp model='uPD7725' frequency='8000000' firmware='dsp4.rom' sha256='752d03b2d74441e430b7f713001fa241f8bbcfc1a0d890ed4143f174dbe031da'>\n"
" <dr>\n"
" <map address='30-3f:8000-bfff'/>\n"
" <map address='b0-bf:8000-bfff'/>\n"
" </dr>\n"
" <sr>\n"
" <map address='30-3f:c000-ffff'/>\n"
" <map address='b0-bf:c000-ffff'/>\n"
" </sr>\n"
" </necdsp>\n"
);
if(has_st010) markup.append(
" <necdsp model='uPD96050' frequency='10000000' firmware='st010.rom' sha256='fa9bced838fedea11c6f6ace33d1878024bdd0d02cc9485899d0bdd4015ec24c'>\n"
" <dr>\n"
" <map address='60:0000'/>\n"
" <map address='e0:0000'/>\n"
" </dr>\n"
" <sr>\n"
" <map address='60:0001'/>\n"
" <map address='e0:0001'/>\n"
" </sr>\n"
" <dp>\n"
" <map address='68-6f:0000-0fff'/>\n"
" <map address='e8-ef:0000-0fff'/>\n"
" </dp>\n"
" </necdsp>\n"
);
if(has_st011) markup.append(
" <necdsp model='uPD96050' frequency='15000000' firmware='st011.rom' sha256='8b2b3f3f3e6e29f4d21d8bc736b400bc988b7d2214ebee15643f01c1fee2f364'>\n"
" <dr>\n"
" <map address='60:0000'/>\n"
" <map address='e0:0000'/>\n"
" </dr>\n"
" <sr>\n"
" <map address='60:0001'/>\n"
" <map address='e0:0001'/>\n"
" </sr>\n"
" <dp>\n"
" <map address='68-6f:0000-0fff'/>\n"
" <map address='e8-ef:0000-0fff'/>\n"
" </dp>\n"
" </necdsp>\n"
);
if(has_st018) markup.append(
" <armdsp firmware='st018.rom' frequency='21477272' sha256='6df209ab5d2524d1839c038be400ae5eb20dafc14a3771a3239cd9e8acd53806'>\n"
" <map address='00-3f:3800-38ff'/>\n"
" <map address='80-bf:3800-38ff'/>\n"
" </armdsp>\n"
);
markup.append("</cartridge>\n");
}
void SnesCartridge::read_header(const uint8_t *data, unsigned size) {
type = TypeUnknown;
mapper = LoROM;
dsp1_mapper = DSP1Unmapped;
region = NTSC;
rom_size = size;
ram_size = 0;
has_bsx_slot = false;
has_superfx = false;
has_sa1 = false;
has_srtc = false;
has_sdd1 = false;
has_spc7110 = false;
has_spc7110rtc = false;
has_cx4 = false;
has_dsp1 = false;
has_dsp2 = false;
has_dsp3 = false;
has_dsp4 = false;
has_obc1 = false;
has_st010 = false;
has_st011 = false;
has_st018 = false;
//=====================
//detect Game Boy carts
//=====================
if(size >= 0x0140) {
if(data[0x0104] == 0xce && data[0x0105] == 0xed && data[0x0106] == 0x66 && data[0x0107] == 0x66
&& data[0x0108] == 0xcc && data[0x0109] == 0x0d && data[0x010a] == 0x00 && data[0x010b] == 0x0b) {
type = TypeGameBoy;
return;
}
}
if(size < 32768) {
type = TypeUnknown;
return;
}
const unsigned index = find_header(data, size);
const uint8_t mapperid = data[index + Mapper];
const uint8_t rom_type = data[index + RomType];
const uint8_t rom_size = data[index + RomSize];
const uint8_t company = data[index + Company];
const uint8_t regionid = data[index + CartRegion] & 0x7f;
ram_size = 1024 << (data[index + RamSize] & 7);
if(ram_size == 1024) ram_size = 0; //no RAM present
//0, 1, 13 = NTSC; 2 - 12 = PAL
region = (regionid <= 1 || regionid >= 13) ? NTSC : PAL;
//=======================
//detect BS-X flash carts
//=======================
if(data[index + 0x13] == 0x00 || data[index + 0x13] == 0xff) {
if(data[index + 0x14] == 0x00) {
const uint8_t n15 = data[index + 0x15];
if(n15 == 0x00 || n15 == 0x80 || n15 == 0x84 || n15 == 0x9c || n15 == 0xbc || n15 == 0xfc) {
if(data[index + 0x1a] == 0x33 || data[index + 0x1a] == 0xff) {
type = TypeBsx;
mapper = BSXROM;
region = NTSC; //BS-X only released in Japan
return;
}
}
}
}
//=========================
//detect Sufami Turbo carts
//=========================
if(!memcmp(data, "BANDAI SFC-ADX", 14)) {
if(!memcmp(data + 16, "SFC-ADX BACKUP", 14)) {
type = TypeSufamiTurboBios;
} else {
type = TypeSufamiTurbo;
}
mapper = STROM;
region = NTSC; //Sufami Turbo only released in Japan
return; //RAM size handled outside this routine
}
//==========================
//detect Super Game Boy BIOS
//==========================
if(!memcmp(data + index, "Super GAMEBOY2", 14)) {
type = TypeSuperGameBoy2Bios;
return;
}
if(!memcmp(data + index, "Super GAMEBOY", 13)) {
type = TypeSuperGameBoy1Bios;
return;
}
//=====================
//detect standard carts
//=====================
//detect presence of BS-X flash cartridge connector (reads extended header information)
if(data[index - 14] == 'Z') {
if(data[index - 11] == 'J') {
uint8_t n13 = data[index - 13];
if((n13 >= 'A' && n13 <= 'Z') || (n13 >= '0' && n13 <= '9')) {
if(company == 0x33 || (data[index - 10] == 0x00 && data[index - 4] == 0x00)) {
has_bsx_slot = true;
}
}
}
}
if(has_bsx_slot) {
if(!memcmp(data + index, "Satellaview BS-X ", 21)) {
//BS-X base cart
type = TypeBsxBios;
mapper = BSXROM;
region = NTSC; //BS-X only released in Japan
return; //RAM size handled internally by load_cart_bsx() -> BSXCart class
} else {
type = TypeBsxSlotted;
mapper = (index == 0x7fc0 ? BSCLoROM : BSCHiROM);
region = NTSC; //BS-X slotted cartridges only released in Japan
}
} else {
//standard cart
type = TypeNormal;
if(index == 0x7fc0 && size >= 0x401000) {
mapper = ExLoROM;
} else if(index == 0x7fc0 && mapperid == 0x32) {
mapper = ExLoROM;
} else if(index == 0x7fc0) {
mapper = LoROM;
} else if(index == 0xffc0) {
mapper = HiROM;
} else { //index == 0x40ffc0
mapper = ExHiROM;
}
}
if(mapperid == 0x20 && (rom_type == 0x13 || rom_type == 0x14 || rom_type == 0x15 || rom_type == 0x1a)) {
has_superfx = true;
mapper = SuperFXROM;
ram_size = 1024 << (data[index - 3] & 7);
if(ram_size == 1024) ram_size = 0;
}
if(mapperid == 0x23 && (rom_type == 0x32 || rom_type == 0x34 || rom_type == 0x35)) {
has_sa1 = true;
mapper = SA1ROM;
}
if(mapperid == 0x35 && rom_type == 0x55) {
has_srtc = true;
}
if(mapperid == 0x32 && (rom_type == 0x43 || rom_type == 0x45)) {
has_sdd1 = true;
}
if(mapperid == 0x3a && (rom_type == 0xf5 || rom_type == 0xf9)) {
has_spc7110 = true;
has_spc7110rtc = (rom_type == 0xf9);
mapper = SPC7110ROM;
}
if(mapperid == 0x20 && rom_type == 0xf3) {
has_cx4 = true;
}
if((mapperid == 0x20 || mapperid == 0x21) && rom_type == 0x03) {
has_dsp1 = true;
}
if(mapperid == 0x30 && rom_type == 0x05 && company != 0xb2) {
has_dsp1 = true;
}
if(mapperid == 0x31 && (rom_type == 0x03 || rom_type == 0x05)) {
has_dsp1 = true;
}
if(has_dsp1 == true) {
if((mapperid & 0x2f) == 0x20 && size <= 0x100000) {
dsp1_mapper = DSP1LoROM1MB;
} else if((mapperid & 0x2f) == 0x20) {
dsp1_mapper = DSP1LoROM2MB;
} else if((mapperid & 0x2f) == 0x21) {
dsp1_mapper = DSP1HiROM;
}
}
if(mapperid == 0x20 && rom_type == 0x05) {
has_dsp2 = true;
}
if(mapperid == 0x30 && rom_type == 0x05 && company == 0xb2) {
has_dsp3 = true;
}
if(mapperid == 0x30 && rom_type == 0x03) {
has_dsp4 = true;
}
if(mapperid == 0x30 && rom_type == 0x25) {
has_obc1 = true;
}
if(mapperid == 0x30 && rom_type == 0xf6 && rom_size >= 10) {
has_st010 = true;
}
if(mapperid == 0x30 && rom_type == 0xf6 && rom_size < 10) {
has_st011 = true;
}
if(mapperid == 0x30 && rom_type == 0xf5) {
has_st018 = true;
}
}
unsigned SnesCartridge::find_header(const uint8_t *data, unsigned size) {
unsigned score_lo = score_header(data, size, 0x007fc0);
unsigned score_hi = score_header(data, size, 0x00ffc0);
unsigned score_ex = score_header(data, size, 0x40ffc0);
if(score_ex) score_ex += 4; //favor ExHiROM on images > 32mbits
if(score_lo >= score_hi && score_lo >= score_ex) {
return 0x007fc0;
} else if(score_hi >= score_ex) {
return 0x00ffc0;
} else {
return 0x40ffc0;
}
}
unsigned SnesCartridge::score_header(const uint8_t *data, unsigned size, unsigned addr) {
if(size < addr + 64) return 0; //image too small to contain header at this location?
int score = 0;
uint16_t resetvector = data[addr + ResetVector] | (data[addr + ResetVector + 1] << 8);
uint16_t checksum = data[addr + Checksum ] | (data[addr + Checksum + 1] << 8);
uint16_t complement = data[addr + Complement ] | (data[addr + Complement + 1] << 8);
uint8_t resetop = data[(addr & ~0x7fff) | (resetvector & 0x7fff)]; //first opcode executed upon reset
uint8_t mapper = data[addr + Mapper] & ~0x10; //mask off irrelevent FastROM-capable bit
//$00:[000-7fff] contains uninitialized RAM and MMIO.
//reset vector must point to ROM at $00:[8000-ffff] to be considered valid.
if(resetvector < 0x8000) return 0;
//some images duplicate the header in multiple locations, and others have completely
//invalid header information that cannot be relied upon.
//below code will analyze the first opcode executed at the specified reset vector to
//determine the probability that this is the correct header.
//most likely opcodes
if(resetop == 0x78 //sei
|| resetop == 0x18 //clc (clc; xce)
|| resetop == 0x38 //sec (sec; xce)
|| resetop == 0x9c //stz $nnnn (stz $4200)
|| resetop == 0x4c //jmp $nnnn
|| resetop == 0x5c //jml $nnnnnn
) score += 8;
//plausible opcodes
if(resetop == 0xc2 //rep #$nn
|| resetop == 0xe2 //sep #$nn
|| resetop == 0xad //lda $nnnn
|| resetop == 0xae //ldx $nnnn
|| resetop == 0xac //ldy $nnnn
|| resetop == 0xaf //lda $nnnnnn
|| resetop == 0xa9 //lda #$nn
|| resetop == 0xa2 //ldx #$nn
|| resetop == 0xa0 //ldy #$nn
|| resetop == 0x20 //jsr $nnnn
|| resetop == 0x22 //jsl $nnnnnn
) score += 4;
//implausible opcodes
if(resetop == 0x40 //rti
|| resetop == 0x60 //rts
|| resetop == 0x6b //rtl
|| resetop == 0xcd //cmp $nnnn
|| resetop == 0xec //cpx $nnnn
|| resetop == 0xcc //cpy $nnnn
) score -= 4;
//least likely opcodes
if(resetop == 0x00 //brk #$nn
|| resetop == 0x02 //cop #$nn
|| resetop == 0xdb //stp
|| resetop == 0x42 //wdm
|| resetop == 0xff //sbc $nnnnnn,x
) score -= 8;
//at times, both the header and reset vector's first opcode will match ...
//fallback and rely on info validity in these cases to determine more likely header.
//a valid checksum is the biggest indicator of a valid header.
if((checksum + complement) == 0xffff && (checksum != 0) && (complement != 0)) score += 4;
if(addr == 0x007fc0 && mapper == 0x20) score += 2; //0x20 is usually LoROM
if(addr == 0x00ffc0 && mapper == 0x21) score += 2; //0x21 is usually HiROM
if(addr == 0x007fc0 && mapper == 0x22) score += 2; //0x22 is usually ExLoROM
if(addr == 0x40ffc0 && mapper == 0x25) score += 2; //0x25 is usually ExHiROM
if(data[addr + Company] == 0x33) score += 2; //0x33 indicates extended header
if(data[addr + RomType] < 0x08) score++;
if(data[addr + RomSize] < 0x10) score++;
if(data[addr + RamSize] < 0x08) score++;
if(data[addr + CartRegion] < 14) score++;
if(score < 0) score = 0;
return score;
}
unsigned SnesCartridge::gameboy_ram_size(const uint8_t *data, unsigned size) {
if(size < 512) return 0;
switch(data[0x0149]) {
case 0x00: return 0 * 1024;
case 0x01: return 8 * 1024;
case 0x02: return 8 * 1024;
case 0x03: return 32 * 1024;
case 0x04: return 128 * 1024;
case 0x05: return 128 * 1024;
default: return 128 * 1024;
}
}
bool SnesCartridge::gameboy_has_rtc(const uint8_t *data, unsigned size) {
if(size < 512) return false;
if(data[0x0147] == 0x0f ||data[0x0147] == 0x10) return true;
return false;
}
}
#endif

458
bsnes/nall/snes/cpu.hpp
View File

@@ -1,458 +0,0 @@
#ifndef NALL_SNES_CPU_HPP
#define NALL_SNES_CPU_HPP
namespace nall {
struct SNESCPU {
enum : unsigned {
Implied, //
Constant, //#$00
AccumConstant, //#$00
IndexConstant, //#$00
Direct, //$00
DirectX, //$00,x
DirectY, //$00,y
IDirect, //($00)
IDirectX, //($00,x)
IDirectY, //($00),y
ILDirect, //[$00]
ILDirectY, //[$00],y
Address, //$0000
AddressX, //$0000,x
AddressY, //$0000,y
IAddressX, //($0000,x)
ILAddress, //[$0000]
PAddress, //PBR:$0000
PIAddress, //PBR:($0000)
Long, //$000000
LongX, //$000000,x
Stack, //$00,s
IStackY, //($00,s),y
BlockMove, //$00,$00
RelativeShort, //+/- $00
RelativeLong, //+/- $0000
};
struct OpcodeInfo {
char name[4];
unsigned mode;
};
static const OpcodeInfo opcodeInfo[256];
static unsigned getOpcodeLength(bool accum, bool index, uint8_t opcode);
static string disassemble(unsigned pc, bool accum, bool index, uint8_t opcode, uint8_t pl, uint8_t ph, uint8_t pb);
};
const SNESCPU::OpcodeInfo SNESCPU::opcodeInfo[256] = {
//0x00 - 0x0f
{ "brk", Constant },
{ "ora", IDirectX },
{ "cop", Constant },
{ "ora", Stack },
{ "tsb", Direct },
{ "ora", Direct },
{ "asl", Direct },
{ "ora", ILDirect },
{ "php", Implied },
{ "ora", AccumConstant },
{ "asl", Implied },
{ "phd", Implied },
{ "tsb", Address },
{ "ora", Address },
{ "asl", Address },
{ "ora", Long },
//0x10 - 0x1f
{ "bpl", RelativeShort },
{ "ora", IDirectY },
{ "ora", IDirect },
{ "ora", IStackY },
{ "trb", Direct },
{ "ora", DirectX },
{ "asl", DirectX },
{ "ora", ILDirectY },
{ "clc", Implied },
{ "ora", AddressY },
{ "inc", Implied },
{ "tcs", Implied },
{ "trb", Address },
{ "ora", AddressX },
{ "asl", AddressX },
{ "ora", LongX },
//0x20 - 0x2f
{ "jsr", Address },
{ "and", IDirectX },
{ "jsl", Long },
{ "and", Stack },
{ "bit", Direct },
{ "and", Direct },
{ "rol", Direct },
{ "and", ILDirect },
{ "plp", Implied },
{ "and", AccumConstant },
{ "rol", Implied },
{ "pld", Implied },
{ "bit", Address },
{ "and", Address },
{ "rol", Address },
{ "and", Long },
//0x30 - 0x3f
{ "bmi", RelativeShort },
{ "and", IDirectY },
{ "and", IDirect },
{ "and", IStackY },
{ "bit", DirectX },
{ "and", DirectX },
{ "rol", DirectX },
{ "and", ILDirectY },
{ "sec", Implied },
{ "and", AddressY },
{ "dec", Implied },
{ "tsc", Implied },
{ "bit", AddressX },
{ "and", AddressX },
{ "rol", AddressX },
{ "and", LongX },
//0x40 - 0x4f
{ "rti", Implied },
{ "eor", IDirectX },
{ "wdm", Constant },
{ "eor", Stack },
{ "mvp", BlockMove },
{ "eor", Direct },
{ "lsr", Direct },
{ "eor", ILDirect },
{ "pha", Implied },
{ "eor", AccumConstant },
{ "lsr", Implied },
{ "phk", Implied },
{ "jmp", PAddress },
{ "eor", Address },
{ "lsr", Address },
{ "eor", Long },
//0x50 - 0x5f
{ "bvc", RelativeShort },
{ "eor", IDirectY },
{ "eor", IDirect },
{ "eor", IStackY },
{ "mvn", BlockMove },
{ "eor", DirectX },
{ "lsr", DirectX },
{ "eor", ILDirectY },
{ "cli", Implied },
{ "eor", AddressY },
{ "phy", Implied },
{ "tcd", Implied },
{ "jml", Long },
{ "eor", AddressX },
{ "lsr", AddressX },
{ "eor", LongX },
//0x60 - 0x6f
{ "rts", Implied },
{ "adc", IDirectX },
{ "per", Address },
{ "adc", Stack },
{ "stz", Direct },
{ "adc", Direct },
{ "ror", Direct },
{ "adc", ILDirect },
{ "pla", Implied },
{ "adc", AccumConstant },
{ "ror", Implied },
{ "rtl", Implied },
{ "jmp", PIAddress },
{ "adc", Address },
{ "ror", Address },
{ "adc", Long },
//0x70 - 0x7f
{ "bvs", RelativeShort },
{ "adc", IDirectY },
{ "adc", IDirect },
{ "adc", IStackY },
{ "stz", DirectX },
{ "adc", DirectX },
{ "ror", DirectX },
{ "adc", ILDirectY },
{ "sei", Implied },
{ "adc", AddressY },
{ "ply", Implied },
{ "tdc", Implied },
{ "jmp", IAddressX },
{ "adc", AddressX },
{ "ror", AddressX },
{ "adc", LongX },
//0x80 - 0x8f
{ "bra", RelativeShort },
{ "sta", IDirectX },
{ "brl", RelativeLong },
{ "sta", Stack },
{ "sty", Direct },
{ "sta", Direct },
{ "stx", Direct },
{ "sta", ILDirect },
{ "dey", Implied },
{ "bit", AccumConstant },
{ "txa", Implied },
{ "phb", Implied },
{ "sty", Address },
{ "sta", Address },
{ "stx", Address },
{ "sta", Long },
//0x90 - 0x9f
{ "bcc", RelativeShort },
{ "sta", IDirectY },
{ "sta", IDirect },
{ "sta", IStackY },
{ "sty", DirectX },
{ "sta", DirectX },
{ "stx", DirectY },
{ "sta", ILDirectY },
{ "tya", Implied },
{ "sta", AddressY },
{ "txs", Implied },
{ "txy", Implied },
{ "stz", Address },
{ "sta", AddressX },
{ "stz", AddressX },
{ "sta", LongX },
//0xa0 - 0xaf
{ "ldy", IndexConstant },
{ "lda", IDirectX },
{ "ldx", IndexConstant },
{ "lda", Stack },
{ "ldy", Direct },
{ "lda", Direct },
{ "ldx", Direct },
{ "lda", ILDirect },
{ "tay", Implied },
{ "lda", AccumConstant },
{ "tax", Implied },
{ "plb", Implied },
{ "ldy", Address },
{ "lda", Address },
{ "ldx", Address },
{ "lda", Long },
//0xb0 - 0xbf
{ "bcs", RelativeShort },
{ "lda", IDirectY },
{ "lda", IDirect },
{ "lda", IStackY },
{ "ldy", DirectX },
{ "lda", DirectX },
{ "ldx", DirectY },
{ "lda", ILDirectY },
{ "clv", Implied },
{ "lda", AddressY },
{ "tsx", Implied },
{ "tyx", Implied },
{ "ldy", AddressX },
{ "lda", AddressX },
{ "ldx", AddressY },
{ "lda", LongX },
//0xc0 - 0xcf
{ "cpy", IndexConstant },
{ "cmp", IDirectX },
{ "rep", Constant },
{ "cmp", Stack },
{ "cpy", Direct },
{ "cmp", Direct },
{ "dec", Direct },
{ "cmp", ILDirect },
{ "iny", Implied },
{ "cmp", AccumConstant },
{ "dex", Implied },
{ "wai", Implied },
{ "cpy", Address },
{ "cmp", Address },
{ "dec", Address },
{ "cmp", Long },
//0xd0 - 0xdf
{ "bne", RelativeShort },
{ "cmp", IDirectY },
{ "cmp", IDirect },
{ "cmp", IStackY },
{ "pei", IDirect },
{ "cmp", DirectX },
{ "dec", DirectX },
{ "cmp", ILDirectY },
{ "cld", Implied },
{ "cmp", AddressY },
{ "phx", Implied },
{ "stp", Implied },
{ "jmp", ILAddress },
{ "cmp", AddressX },
{ "dec", AddressX },
{ "cmp", LongX },
//0xe0 - 0xef
{ "cpx", IndexConstant },
{ "sbc", IDirectX },
{ "sep", Constant },
{ "sbc", Stack },
{ "cpx", Direct },
{ "sbc", Direct },
{ "inc", Direct },
{ "sbc", ILDirect },
{ "inx", Implied },
{ "sbc", AccumConstant },
{ "nop", Implied },
{ "xba", Implied },
{ "cpx", Address },
{ "sbc", Address },
{ "inc", Address },
{ "sbc", Long },
//0xf0 - 0xff
{ "beq", RelativeShort },
{ "sbc", IDirectY },
{ "sbc", IDirect },
{ "sbc", IStackY },
{ "pea", Address },
{ "sbc", DirectX },
{ "inc", DirectX },
{ "sbc", ILDirectY },
{ "sed", Implied },
{ "sbc", AddressY },
{ "plx", Implied },
{ "xce", Implied },
{ "jsr", IAddressX },
{ "sbc", AddressX },
{ "inc", AddressX },
{ "sbc", LongX },
};
inline unsigned SNESCPU::getOpcodeLength(bool accum, bool index, uint8_t opcode) {
switch(opcodeInfo[opcode].mode) { default:
case Implied: return 1;
case Constant: return 2;
case AccumConstant: return 3 - accum;
case IndexConstant: return 3 - index;
case Direct: return 2;
case DirectX: return 2;
case DirectY: return 2;
case IDirect: return 2;
case IDirectX: return 2;
case IDirectY: return 2;
case ILDirect: return 2;
case ILDirectY: return 2;
case Address: return 3;
case AddressX: return 3;
case AddressY: return 3;
case IAddressX: return 3;
case ILAddress: return 3;
case PAddress: return 3;
case PIAddress: return 3;
case Long: return 4;
case LongX: return 4;
case Stack: return 2;
case IStackY: return 2;
case BlockMove: return 3;
case RelativeShort: return 2;
case RelativeLong: return 3;
}
}
inline string SNESCPU::disassemble(unsigned pc, bool accum, bool index, uint8_t opcode, uint8_t pl, uint8_t ph, uint8_t pb) {
string name = opcodeInfo[opcode].name;
unsigned mode = opcodeInfo[opcode].mode;
if(mode == Implied) return name;
if(mode == Constant) return { name, " #$", hex<2>(pl) };
if(mode == AccumConstant) return { name, " #$", accum ? "" : hex<2>(ph), hex<2>(pl) };
if(mode == IndexConstant) return { name, " #$", index ? "" : hex<2>(ph), hex<2>(pl) };
if(mode == Direct) return { name, " $", hex<2>(pl) };
if(mode == DirectX) return { name, " $", hex<2>(pl), ",x" };
if(mode == DirectY) return { name, " $", hex<2>(pl), ",y" };
if(mode == IDirect) return { name, " ($", hex<2>(pl), ")" };
if(mode == IDirectX) return { name, " ($", hex<2>(pl), ",x)" };
if(mode == IDirectY) return { name, " ($", hex<2>(pl), "),y" };
if(mode == ILDirect) return { name, " [$", hex<2>(pl), "]" };
if(mode == ILDirectY) return { name, " [$", hex<2>(pl), "],y" };
if(mode == Address) return { name, " $", hex<2>(ph), hex<2>(pl) };
if(mode == AddressX) return { name, " $", hex<2>(ph), hex<2>(pl), ",x" };
if(mode == AddressY) return { name, " $", hex<2>(ph), hex<2>(pl), ",y" };
if(mode == IAddressX) return { name, " ($", hex<2>(ph), hex<2>(pl), ",x)" };
if(mode == ILAddress) return { name, " [$", hex<2>(ph), hex<2>(pl), "]" };
if(mode == PAddress) return { name, " $", hex<2>(ph), hex<2>(pl) };
if(mode == PIAddress) return { name, " ($", hex<2>(ph), hex<2>(pl), ")" };
if(mode == Long) return { name, " $", hex<2>(pb), hex<2>(ph), hex<2>(pl) };
if(mode == LongX) return { name, " $", hex<2>(pb), hex<2>(ph), hex<2>(pl), ",x" };
if(mode == Stack) return { name, " $", hex<2>(pl), ",s" };
if(mode == IStackY) return { name, " ($", hex<2>(pl), ",s),y" };
if(mode == BlockMove) return { name, " $", hex<2>(ph), ",$", hex<2>(pl) };
if(mode == RelativeShort) {
unsigned addr = (pc + 2) + (int8_t)(pl << 0);
return { name, " $", hex<4>(addr) };
}
if(mode == RelativeLong) {
unsigned addr = (pc + 3) + (int16_t)((ph << 8) + (pl << 0));
return { name, " $", hex<4>(addr) };
}
return "";
}
}
#endif

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