byuu says:
This will easily be the biggest diff in the history of higan. And not in
a good way.
* target-higan and target-loki have been blown away completely
* nall and ruby massively updated
* phoenix replaced with hiro (pretty near a total rewrite)
* target-higan restarted using hiro (just a window for now)
* all emulation cores updated to compile again
* installation changed to not require root privileges (installs locally)
For the foreseeable future (maybe even permanently?), the new higan UI
will only build under Linux/BSD with GTK+ 2.20+. Probably the most
likely route for Windows/OS X will be to try and figure out how to build
hiro/GTK on those platforms, as awful as that would be. The other
alternative would be to produce new UIs for those platforms ... which
would actually be a good opportunity to make something much more user
friendly.
Being that I just started on this a few hours ago, that means that for
at least a few weeks, don't expect to be able to actually play any
games. Right now, you can pretty much just compile the binary and that's
it. It's quite possible that some nall changes didn't produce
compilation errors, but will produce runtime errors. So until the UI can
actually load games, we won't know if anything is broken. But we should
mostly be okay. It was mostly just trim<1> -> trim changes, moving to
Hash::SHA256 (much cleaner), and patching some reckless memory copy
functions enough to compile.
Progress isn't going to be like it was before: I'm now dividing my time
much thinner between studying and other hobbies.
My aim this time is not to produce a binary for everyone to play games
on. Rather, it's to keep the emulator alive. I want to be able to apply
critical patches again. And I would also like the base of the emulator
to live on, for use in other emulator frontends that utilize higan.
byuu says:
Lots of changes this time around. FreeBSD stability and compilation is
still a work in progress.
FreeBSD 10 + Clang 3.3 = 108fps
FreeBSD 10 + GCC 4.7 = 130fps
Errata 1: I've been fighting that god-damned endian.h header for the
past nine WIPs now. The above WIP isn't building now because FreeBSD
isn't including headers before using certain types, and you end up with
a trillion error messages. So just delete all the endian.h includes from
nall/intrinsics.hpp to build.
Errata 2: I was trying to match g++ and g++47, so I used $(findstring
g++,$(compiler)), which ends up also matching clang++. Oops. Easy fix,
put Clang first and then else if g++ next. Not ideal, but oh well. All
it's doing for now is declaring -fwrapv twice, so you don't have to fix
it just yet. Probably just going to alias g++="g++47" and do exact
matching instead.
Errata 3: both OpenGL::term and VideoGLX::term are causing a core dump
on BSD. No idea why. The resources are initialized and valid, but
releasing them crashes the application.
Changelog:
- nall/Makefile is more flexible with overriding $(compiler), so you can
build with GCC or Clang on BSD (defaults to GCC now)
- PLATFORM_X was renamed to PLATFORM_XORG, and it's also declared with
PLATFORM_LINUX or PLATFORM_BSD
- PLATFORM_XORG probably isn't the best name ... still thinking about
what best to call LINUX|BSD|SOLARIS or ^(WINDOWS|MACOSX)
- fixed a few legitimate Clang warning messages in nall
- Compiler::VisualCPP is ugly as hell, renamed to Compiler::CL
- nall/platform includes nall/intrinsics first. Trying to move away from
testing for _WIN32, etc directly in all files. Work in progress.
- nall turns off Clang warnings that I won't "fix", because they aren't
broken. It's much less noisy to compile with warnings on now.
- phoenix gains the ability to set background and foreground colors on
various text container widgets (GTK only for now.)
- rewrote a lot of the MSU1 code to try and simplify it. Really hope
I didn't break anything ... I don't have any MSU1 test ROMs handy
- SNES coprocessor audio is now mixed as sclamp<16>(system_sample
+ coprocessor_sample) instead of sclamp<16>((sys + cop) / 2)
- allows for greater chance of aliasing (still low, SNES audio is
quiet), but doesn't cut base system volume in half anymore
- fixed Super Scope and Justifier cursor colors
- use input.xlib instead of input.x ... allows Xlib input driver to be
visible on Linux and BSD once again
- make install and make uninstall must be run as root again; no longer
using install but cp instead for BSD compatibility
- killed $(DESTDIR) ... use make prefix=$DESTDIR$prefix instead
- you can now set text/background colors for the loki console via (eg):
- settings.terminal.background-color 0x000000
- settings.terminal.foreground-color 0xffffff
byuu says:
New terminal is in. Much nicer to use now. Command history makes a major
difference in usability.
The SMP is now fully traceable and debuggable. Basically they act as
separate entities, you can trace both at the same time, but for the most
part running and stepping is performed on the chip you select.
I'm going to put off CPU+SMP interleave support for a while. I don't
actually think it'll be too hard. Will get trickier if/when we support
coprocessor debugging.
Remaining tasks:
- aliases
- hotkeys
- save states
- window geometry
Basically, the debugger's done. Just have to add the UI fluff.
I also removed tracing/memory export from higan. It was always meant to
be temporary until the debugger was remade.
byuu says:
Commands can be prefixed with: (cpu|smp|ppu|dsp|apu|vram|oam|cgram)/ to
set their source. Eg "vram/hex 0800" or "smp/breakpoints.append execute
ffc0"; default is cpu.
These overlap a little bit in odd ways, but that's just the way the SNES
works: it's not a very orthogonal system. CPU is both a processor and
the main bus (ROM, RAM, WRAM, etc), APU is the shared memory by the
SMP+DSP (eg use it to catch writes from either chip); PPU probably won't
ever be used since it's broken down into three separate buses (VRAM,
OAM, CGRAM), but DSP could be useful for tracking bugs like we found in
Koushien 2 with the DSP echo buffer corrupting SMP opcodes. Technically
the PPU memory pools are only ever tripped by the CPU poking at them, as
the PPU doesn't ever write.
I now have run.for, run.to, step.for, step.to. The difference is that
run only prints the next instruction after running, whereas step prints
all of the instructions along the way as well. run.to acts the same as
"step over" here. Although it's not quite as nice, since you have to
specify the address of the next instruction.
Logging the Field/Vcounter/Hcounter on instruction listings now, good
for timing information.
Added in the tracer mask, as well as memory export, as well as
VRAM/OAM/CGRAM/SMP read/write/execute breakpoints, as well as an APU
usage map (it tracks DSP reads/writes separately, although I don't
currently have debugger callbacks on DSP accesses just yet.)
Have not hooked up actual SMP debugging just yet, but I plan to soon.
Still thinking about how I want to allow / block interleaving of
instructions (terminal output and tracing.)
So ... remaining tasks at this point:
- full SMP debugging
- CPU+SMP interleave support
- aliases
- hotkeys
- save states (will be kind of tricky ... will have to suppress
breakpoints during synchronization, or abort a save in a break event.)
- keep track of window geometry between runs
byuu says:
Changelog:
- target-ethos/ is now target-higan/ (will unfortunately screw up diffs
pretty badly at this point.)
- had a serious bug in nall::optional<T>::operator=, which is now fixed.
- added tracer (no masking just yet, I need to write a nall::bitvector
class because I don't want to hard-code those anymore.)
- added usage logging (keep track of RWX/EP states for all bus
addresses.)
- added read/write to poke at memory (hex also works for reading, but
this one can poke at MMIO regs and is for one address only.)
- added both run.for (# of instructions) and run.to (program counter
address.)
- added read/write/execute breakpoints with counters for a given
address, and with an optional compare byte (for read/write modes.)
About the only major things left now for loki is support for trace
masking, memory export, and VRAM/OAM/CGRAM access.
For phoenix/Console, I really need to add a history to up+down arrows,
and I should support left/right insert-at.
byuu says:
Changelog:
- port: various compilation fixes for OS X [kode54]
- nall: added programpath() function to return path to process binary
[todo: need to have ethos use this function]
- ruby: XAudio2 will select default game sound device instead of first
sound device
- ruby: DirectInput device IDs are no longer ambiguous when VID+PID are
identical
- ruby: OpenGL won't try and terminate if it hasn't been initialized
- gb: D-pad up+down/left+right not masked in SGB mode
- sfc: rewrote ICD2 video rendering to output in real-time, work with
cycle-based Game Boy renderer
- sfc: rewrote Bus::reduce(), reduces game loading time by about 500ms
- ethos: store save states in {game}/higan/* instead of {game}/bsnes/*
- loki: added target-loki/ (blank stub for now)
- Makefile: purge out/* on make clean
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
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
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.
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.
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.
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
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
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
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.
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.
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.
byuu describes the changes since v067:
This release officially introduces the accuracy and performance cores,
alongside the previously-existing compatibility core. The accuracy core
allows the most accurate SNES emulation ever seen, with every last
processor running at the lowest possible clock synchronization level.
The performance core allows slower computers the chance to finally use
bsnes. It is capable of attaining 60fps in standard games even on an
entry-level Intel Atom processor, commonly found in netbooks.
The accuracy core is absolutely not meant for casual gaming at all. It
is meant solely for getting as close to 100% perfection as possible, no
matter the cost to speed. It should only be used for testing,
development or debugging.
The compatibility core is identical to bsnes v067 and earlier, but is
now roughly 10% faster. This is the default and recommended core for
casual gaming.
The performance core contains an entirely new S-CPU core, with
range-tested IRQs; and uses blargg's heavily-optimized S-DSP core
directly. Although there are very minor accuracy tradeoffs to increase
speed, I am confident that the performance core is still more accurate
and compatible than any other SNES emulator. The S-CPU, S-SMP, S-DSP,
SuperFX and SA-1 processors are all clock-based, just as in the accuracy
and compatibility cores; and as always, there are zero game-specific
hacks. Its compatibility is still well above 99%, running even the most
challenging games flawlessly.
If you have held off from using bsnes in the past due to its system
requirements, please give the performance core a try. I think you will
be impressed. I'm also not finished: I believe performance can be
increased even further.
I would also strongly suggest Windows Vista and Windows 7 users to take
advantage of the new XAudio2 driver by OV2. Not only does it give you
a performance boost, it also lowers latency and provides better sound by
way of skipping an API emulation layer.
Changelog:
- Split core into three profiles: accuracy, compatibility and
performance
- Accuracy core now takes advantage of variable-bitlength integers (eg
uint24_t)
- Performance core uses a new S-CPU core, written from scratch for speed
- Performance core uses blargg's snes_dsp library for S-DSP emulation
- Binaries are now compiled using GCC 4.5
- Added a workaround in the SA-1 core for a bug in GCC 4.5+
- The clock-based S-PPU renderer has greatly improved OAM emulation;
fixing Winter Gold and Megalomania rendering issues
- Corrected pseudo-hires color math in the clock-based S-PPU renderer;
fixing Super Buster Bros backgrounds
- Fixed a clamping bug in the Cx4 16-bit triangle operation [Jonas
Quinn]; fixing Mega Man X2 "gained weapon" star background effect
- Updated video renderer to properly handle mixed-resolution screens
with interlace enabled; fixing Air Strike Patrol level briefing screen
- Added mightymo's 2010-08-19 cheat code pack
- Windows port: added XAudio2 output support [OV2]
- Source: major code restructuring; virtual base classes for processor
- cores removed, build system heavily modified, etc.
byuu says:
Fixed bsnes launcher on Windows XP
Fixed Windows bsnes launcher internationalization support (emulator can
be in a folder with spaces and Japanese characters, and you can drag
a Japanese file name onto the launcher, and it will load it properly)
Moved fast CPU to use a switch table for MMIO, unfortunately for no
speed gain
Bus::read/write take uint24 parameters for address, luckily no speed
penalty
MMIOAccess gained a handle() function, and hid the mmio[] table. Makes
hooking it cleaner
Added malloc.h header to nall/function.hpp to fix a ridiculous GCC 4.5.0
error
Fixed a fairly large bug in the fast CPU IRQ handler, which fixes
Robocop et al
Forgot to bump revision to .24 in the compiled binaries, too lazy to
recompile or hex edit to change them
Unfortunately, in order to add nice battery usage, I have to add the
sleep calls to the video and audio wait loops. But they don't know
anything about the GUI and its settings, nor do I really want to make
them know about this setting. I do not want to force allow it. Even with
the media timer trick, Sleep(0) makes Vsync+Async fail a lot more
frequently than never sleeping at all. I would rather laptop users
suffer 100% utilization of a single core than for all users to not be
able to get good audio+video sync. Not sure what to do about that, so
I'll probably just remove the battery usage comment from performance
mode for now.
byuu says:
Added missing $4200 IRQ lock, which fixes Chou Aniki on the fast CPU
core, so slower PCs can get their brotherly love on.
Added range-based controller IOBit latching to the fast CPU core, which
enables Super Scope and Justifier support. Uses the priority queue as
well, so there is zero speed-hit. Given the way range-testing works, the
trigger point may vary by 1-2 pixels when firing at the same spot. Not
really a big deal when it avoids a massive speed penalty.
Fixed PAL and interlace-mode HVIRQs at V=0,H<2 on the fast CPU core.
Added the dot-renderer's sprite list update-on-OAM-write functionality
to the scanline-based PPU renderer. Unfortunately it looks like all the
speed gain was already taken from the global dirty flag I was using
before, but this certainly won't hurt speed any, so whatever.
Added #ifdef to stop CoInitialize(0) on non-Windows ports.
Added #ifdefs to stop gradient fade on Windows port. Not going to fuck
over the Linux port aesthetic because of Qt bug #47,326,927. If there's
a way to tell what Qt theme is being used, I can leave it enabled for
XP/Vista themes.
Moved HDMA trigger from 1104 to 1112, and reduced channel overhead from
24 to 16, to better simulate one-cycle DMA->CPU sync.
Code clarity: I've re-added my varint.hpp classes, and am actively using
them in the accuracy cores. So far, I haven't done anything that would
detriment speed, but it is certainly cool. The APU ports exposed by the
CPU and SMP now take uint2 address arguments, the CPU WRAM address
register is a uint17, and the IRQ H/VTIME values are uint10. This
basically allows the source to clearly convey the data sizes, and
eliminates the need to manually mask values when writing to registers or
reading from memory. I'm going to be doing this everywhere, and it will
have a speed impact eventually, because the automation means we can't
skip masks when we know the data is already masked off.
Source: archive contains the launcher code, so that I can look into why
it's crashing on XP tomorrow.
It doesn't look like Circuit USA's flags are going to work too well with
this new CPU core. Still not sure what the hell Robocop vs The
Terminator is doing, I'll read through the mega SNES thread for clues
tomorrow. Speedy Gonzales is definitely broken, as modifying the MDR was
breaking things with my current core. Probably because the new CPU core
doesn't wait for a cycle edge to trigger.
I was thinking that perhaps we could keep some form of cheat codes list
to work as game-specific hacks for the performance core. Keeps the hacks
out of the emulator, but could allow the remaining bugs to be worked
around for people who have no choice but to use the performance core.