Commit Graph

222 Commits

Author SHA1 Message Date
Tim Allen 366e9cebff Update to v104r01 release.
byuu says:

Changelog:

  - gba/cpu: synchronize to the PPU, not oneself, when the CPU is
    stopped
      - this bug was patched in the official v104 release; but not in
        the .tar.xz archive
  - ms/vdp: backdrop color is on the second 16-entry palette, not the
    first [hex\_usr]
  - ms/vdp: fix background color 0 priority; fixes Alex Kidd in High
    Tech World text boxes [hex\_usr]
  - tomoko: choose first option when loading files via the command-line
    [hex\_usr]
  - icarus: lo/hi RAM addressing was backwards; M68K is big endian;
    fixes save files in Sonic 3

Many thanks to hex\_usr for the Master System / Game Gear VDP fix.
That's a tricky system to get good technical information on. The fix
should be correct, but please report if you spot any regressions just in
case.
2017-08-18 22:48:29 +10:00
Tim Allen 0034adab3b Update to v104 public release.
[As mentioned in the v104 internal release notes, byuu fixed a small typo in
the GBA core. -Ed.]

byuu says:

There are lots of improvements in this new release, both to core
emulation and to the user interface. However, some of these changes are
quite substantial, so regressions are a possibility. Please report any
regressions from v103 on the forums if found.

Note that Mega Drive save RAM files will not be compatible with v103,
but will now be compatible with save RAM files from all other Mega Drive
emulators, and the format will be stable going forward.

Also!! Thanks to the tireless work of Screwtape, the
Help->Documentation link in higan now takes you to a very comprehensive
user guide. Please be sure to consult this if you have any questions
about using higan.

Lastly, I've added a link to my Patreon page (https://patreon.com/byuu/)
to the higan downloads page. The money will go exclusively toward
purchasing SNES games for preservation, hardware and flash carts for
reverse engineering, equipment such as backup drives, etc. Donating is
entirely optional and comes with no rewards, but would of course be
greatly appreciated! ^^;

Changelog (since v103):

  - nall/dsp: improved first-order IIR filtering
  - Famicom: improved audio filtering (90hz lowpass + 440hz lowpass +
    14khz highpass)
  - Game Boy Advance: corrected bug in PSG wave channel emulation
    [Cydrak]
  - Mega Drive: added first-order 2.84KHz low-pass filter to match VA6
    model hardware
  - Mega Drive: lowered PSG volume relative to YM2612 to match VA6 model
    hardware
  - Mega Drive: Hblank flag is not always set during Vblank
  - Mega Drive: fix PAL mode reporting from control port reads
  - Famicom: improved phase duty cycle emulation (mode 3 is 25% phase
    inverted; counter decrements)
  - Mega Drive: reset does not cancel 68K bus requests
  - Mega Drive: 68K is not granted bus access on Z80 reset
  - Mega Drive: CTRL port is now read-write, maintains value across
    controller changes
  - Z80: IX, IY override mode can now be serialized in save states
  - 68K: fixed calculations for ABCD, NBCD, SBCD [hex\_usr,
    SuperMikeMan]
  - SPC700: improved all cycle timings to match results observed by
    Overload with a logic anaylzer
  - Super Famicom: SMP uses a separate 4x8-bit buffer for $f4-f7; not
    APU RAM [hex\_usr]
  - Super Famicom: SMP TEST register is now finally 100% fully emulated
    [byuu, AWJ]
  - Game Boy Advance: DMA can run between CPU instruction cycles
  - Game Boy Advance: added 2-cycle delay between DMA activation and
    transfers
  - higan: improved aspect ratio correction accuracy at higher video
    scaling sizes
  - higan: overscan masking will now actually crop the underlying video
    instead of just blanking it
  - Mega Drive: center video when overscan is disabled
  - higan: added increment/decrement quick save slot hotkeys
  - Game Boy Advance: fixed wave RAM nibble ordering (fixes audio in
    Castlevania, Pocket NES)
  - higan: added new adaptive windowed mode: resizes the window to the
    current emulated system's size
  - higan: added new integral scaling mode: resizes the window to fill
    as much of the screen as possible
  - higan: main window is now resizable and will automatically scale
    contents based on user settings
  - higan: fixed one-time blinking of the main window on startup caused
    by focus stealing bug
  - ruby: fixed major memory leak in Direct3D driver
  - ruby: added fullscreen exclusive mode to Direct3D driver
  - Super Famicom: corrected latching behavior of BGnHOFS PPU registers
  - higan: all windows sans the main viewport can be dismissed with the
    escape key now
  - ruby: complete API rewrite; many audio drivers now support device
    selection
  - higan: output frequency can now be modified
  - higan: configuration settings split to individual menu options for
    faster access to individual pages
  - ruby: improved WASAPI driver to event-driven model; more compatible
    in exclusive mode now
  - libco: fix compilation of sjlj and fiber targets [Screwtape]
  - ruby: added YV12 and I420 support to X-Video driver
  - Game Boy: added TAMA emulation (RTC emulation is not working yet)
    [thanks to endrift for notes]
  - Game Boy: correct data ordering of MMM01 ROMs (MMM01 ROMs will need
    to be re-imported into higan)
  - Game Boy: store MBC2 save RAM as 256-bytes instead of 512-bytes (RAM
    is 4-bit; not 8-bit with padding)
  - Game Boy: fixed a bug with RAM serialization in games without a
    battery
  - Mega Drive: fix CRAM reads (fixes Sonic Spinball) [hex\_usr]
  - Game Boy: added rumble support to MBC5 games such as Pokemon Pinball
  - Game Boy: added MBC7 emulation (accelerometer X-axis, EEPROM not
    working yet) [thanks to endrift for notes]
  - hiro: macOS compilation fixes and UI improvements [MerryMage,
    ncbncb]
  - Game Boy: added MBC6 emulation (no phone link or flash support;
    timing bugs in game still)
  - Game Boy: HDMA syncs to other components after each byte transfer
    now
  - Game Boy: disabling the LCD completely halts the PPU (fixes onscreen
    graphical corruption in some games)
  - Mega Drive: added 6-button Fighting Pad emulation [hex\_usr]
  - 68K: TAS sets d7 when EA mode is a direct register (fixes Asterix
    graphical corruption)
  - Game Boy: STAT mode is forced to zero when LCD is disabled (fixes
    Pokemon Pinball)
  - LR35902: complete rewrite
  - icarus: high-DPI is not supported on Windows yet; remove setting for
    consistency with higan window sizes
  - hiro: added full support for high-DPI displays on macOS [ncbncb]
  - ARM7TDMI: complete rewrite
  - Super Famicom: disabled channels during HDMA initialization appear
    to set DoTransfer flag
  - V30MZ: code cleanup
  - Mega Drive: added optional TMSS emulation; disabled by default
    [hex\_usr]
  - ARM7TDMI: pipeline decode stage caches CPSR.T [MerryMage]
  - ARM7TDMI: fixed timing of THUMB stack multiple instruction
    [Cydrak]
  - higan: detect when ruby drivers crash; disable drivers on next
    startup to prevent crash loop
  - Mega Drive: added automatic region detection (favors NTSC-J >
    NTSC-U > PAL) [hex\_usr]
  - Mega Drive: support 8-bit SRAM
  - ARM7TDMI: PC should be incremented by 2 when setting CPSR.T via MSR
    instruction [MerryMage]
  - ruby: add Windows ASIO driver support (does not work on some systems
    due to buggy vendor drivers)
  - higan: default to safe drivers on a new install; due to instability
    with some optimal drivers
2017-08-12 22:40:54 +10:00
Tim Allen ba384a7c48 Update to v104 release.
byuu says:

Changelog:

  - emulator/interface: removed unused Region struct
  - gba/cpu: optimized CPU::step() as much as I could for a slight
    speedup¹
  - gba/cpu: synchronize the APU better during FIFO updates
  - higan/md, icarus: add automatic region detection; make it the
    default option [hex\_usr]
      - picks NTSC-J if there's more than one match ... eventually, this
        will be a setting
  - higan/md, icarus: support all three combinations of SRAM (8-bit low,
    8-bit high, 16-bit)
  - processor/arm7tdmi: fix bug when changing to THUMB mode via MSR
    [MerryMage]
  - tomoko: redesigned crash detector to only occur once for all three
    ruby drivers
      - this will reduce disk thrashing since the configuration file
        only needs to be written out one extra time
      - technically, it's twice ... but we should've always been writing
        one out on first run in case it crashes then
  - tomoko: defaulted back to the safest ruby drivers, given the optimal
    drivers have some stability concerns

¹: minor errata: spotted a typo saying `synchronize(cpu)` when the CPU
is stopped, instead of `synchronize(ppu)`. This will be fixed in the v104
official 7zip archives.

I'm kind of rushing here but, it's really good timing for me to push out
a new official release. The blocking issues are resolved or close to it,
and we need lots of testing of the new major changes.

I'm going to consider this a semi-stable testing release and leave links
to v103 just in case.
2017-08-12 20:53:13 +10:00
Tim Allen 55f19c3e0d Update to v103r32 release.
byuu says:

Changelog:

  - Master System: merged Bus into CPU
  - Mega Drive: merged BusCPU into CPU; BusAPU into AU
  - Mega Drive: added TMSS emulation; disabled by default [hex\_usr]
      - VDP lockout not yet emulated
  - processor/arm7tdmi: renamed interrupt() to exception()
  - processor/arm7tdmi: CPSR.F (FIQ disable) flag is set on reset
  - processor/arm7tdmi: pipeline decode stage caches CPSR.T (THUMB mode)
    [MerryMage]
      - fixes `msr_tests.gba` test F
  - processor/arm7tdmi/disassembler: add PC address to left of currently
    executing instruction
  - processor/arm7tdmi: stop forcing CPSR.M (mode flags) bit 4 high (I
    don't know what really happens here)
  - processor/arm7tdmi: undefined instructions now generate Undefined
    0x4 exception
  - processor/arm7tdmi: thumbInstructionAddRegister masks PC by &~3
    instead of &~2
      - hopefully this is correct; &~2 felt very wrong
  - processor/arm7tdmi: thumbInstructionStackMultiple can use sequential
    timing for PC/LR PUSH/POP [Cydrak]
  - systems/Mega Drive.sys: added tmss.rom; enable with cpu version=1
  - tomoko: detect when a ruby video/audio/input driver crashes higan;
    disable it on next program startup

v104 blockers:

  - Mega Drive: support 8-bit SRAM (even if we don't support 16-bit;
    don't force 8-bit to 16-bit)
  - Mega Drive: add region detection support to icarus
  - ruby: add default audio device information so certain drivers won't
    default to silence out of the box
2017-08-12 02:02:09 +10:00
Tim Allen 406b6a61a5 Update to v103r31 release.
byuu says:

Changelog:

  - gba/cpu: slight speedup to CPU::step()
  - processor/arm7tdmi: fixed about ten bugs, ST018 and GBA games are
    now playable once again
  - processor/arm: removed core from codebase
  - processor/v30mz: code cleanup (renamed functions; updated
    instruction() for consistency with other cores)

It turns out on my much faster system, the new ARM7TDMI core is very
slightly slower than the old one (by about 2% or so FPS.) But the
CPU::step() improvement basically made it a wash.

So yeah, I'm in really serious trouble with how slow my GBA core is now.
Sigh.

As for higan/processor ... this concludes the first phase of major
cleanups and rewrites.

There will always be work to do, and I have two more phases in mind.

One is that a lot of the instruction disassemblers are very old. One
even uses sprintf still. I'd like to modernize them all. Also, the
ARM7TDMI core (and the ARM core before it) can't really disassemble
because the PC address used for instruction execution is not known prior
to calling instruction(), due to pipeline reload fetches that may occur
inside of said function. I had a nasty hack for debugging the new core,
but I'd like to come up with a clean way to allow tracing the new
ARM7TDMI core.

Another is that I'd still like to rename a lot of instruction function
names in various cores to be more descriptive. I really liked how the
LR35902 core came out there, and would like to get that level of detail
in with the other cores as well.
2017-08-10 21:26:02 +10:00
Tim Allen 1067566834 Update to v103r30 release.
byuu says:

Changelog:

  - processor/arm7tdmi: completed implemented
  - gba/cpu, sfc/coprocessor/armdsp: use arm7tdmi instead of arm
  - sfc/cpu: experimental fix for newly discovered HDMA emulation issue

Notes:

The ARM7TDMI core crashes pretty quickly when trying to run GBA games,
and I'm certain the same will be the case with the ST018. It was never
all that likely I could rewrite 70KiB of code in 20 hours and have it
work perfectly on the first try. So, now it's time for lots and lots of
debugging. Any help would *really* be appreciated, if anyone were up for
comparing the two implementations for regressions =^-^= I often have a
really hard time spotting simple typos that I make.

Also, the SNES HDMA fix is temporary. I would like it if testers could
run through a bunch of games that are known for being tricky with HDMA
(or if these aren't known to said tester, any games are fine then.) If
we can confirm regressions, then we'll know the fix is either incorrect
or incomplete. But if we don't find any, then it's a good sign that
we're on the right path.
2017-08-09 21:11:59 +10:00
Tim Allen 559eeccc89 Update to v103r29 release.
byuu says:

Changelog:

  - processor/arm7tdmi: implementation all nine remaining ARM
    instructions
  - processor/arm7tdmi: implemented five more THUMB instructions
    (sixteen remain)
2017-08-08 21:51:41 +10:00
Tim Allen a72ff8b7fa Update to v103r28 release.
byuu says:

Changelog:

  - processor/arm7tdmi: implemented 10 of 19 ARM instructions
  - processor/arm7tdmi: implemented 1 of 22 THUMB instructions

Today's WIP was 6 hours of work, and yesterday's was 5 hours.

Half of today was just trying to come up with the design to use a
lambda-based dispatcher to map both instructions and disassembly,
similar to the 68K core. The problem is that the ARM core has 28 unique
bits, which is just far too many bits to have a full lookup table like
the 16-bit 68K core.

The thing I wanted more than anything else was to perform the opcode
bitfield decoding once, and have it decoded for both instructions and
the disassembler. It took three hours to come up with a design that
worked for the ARM half ... relying on #defines being able to pull in
other #defines that were declared and changed later after the first
one. But, I'm happy with it. The decoding is in the table building, as
it is with the 68K core. The decoding does happen at run-time on each
instruction invocation, but it has to be done.

As to the THUMB core, I can create a 64K-entry lambda table to cover all
possible encodings, and ... even though it's a cache killer, I've
decided to go for it, given the outstanding performance it obtained in
the M68K core, as well as considering that THUMB mode is far more common
in GBA games.

As to both cores ... I'm a little torn between two extremes:

On the one hand, I can condense the number of ARM/THUMB instructions
further to eliminate more redundant code. On the other, I can split them
apart to reduce the number of conditional tests needed to execute each
instruction. It's really the disassembler that makes me not want to
split them up further ... as I have to split the disassembler functions
up equally to the instruction functions. But it may be worth it if it's
a speed improvement.
2017-08-07 22:20:35 +10:00
Tim Allen 0b6f1df987 Update to v103r27 release.
byuu says:

Changelog:

  - hiro/windows: set dpiAware=false, fixes icarus window sizes relative
    to higan window sizes
  - higan, icarus, hiro, ruby: add support for high resolution displays
    on macOS [ncbncb]
  - processor/lr35902-legacy: removed
  - processor/arm7tdmi: new processor core started; intended to one day
    be a replacement for processor/arm

It will probably take several WIPs to get the new ARM core up and
running. It's the last processor rewrite. After this, all processor
cores will be up to date with all my current programming conventions.
2017-08-06 23:36:26 +10:00
Tim Allen 020caa546d Update to v103r26 release.
byuu says:

Changelog:

  - processor/lr35902: completed rewrite

I'd appreciate regression testing of the Game Boy and Game Boy Color
emulation between v103r24 and v103r26 (skip r25) if anyone wouldn't
mind.

I fixed up processor/lr35902-legacy to compile and run, so that trace
logs can be created between the two cores to find errors. I'm going to
kill processor/lr35902-legacy with the next WIP release, as well as make
changes to the trace format (add flags externally from AF; much easier
to read them that way), which will make it more difficult to do these
comparisons in the future, hence r26 may prove important later on if we
miss regressions this time.

As for the speed of the new CPU core, not too much to report ... at
least it's not slower :)

    Mega Man II: 212.5 to 214.5fps
    Shiro no Sho: 191.5 to 191.5fps
    Oracle of Ages: 182.5 to 190.5fps
2017-08-06 09:13:26 +10:00
Tim Allen c2975e6898 Update to v103r25 release.
byuu says:

Changelog:

  - gb/cpu: force STAT mode to 0 when LCD is disabled (fixes Pokemon
    Pinball, etc)
  - gb/ppu: when LCD is disabled, require at least one-frame wait to
    re-enable, display white during this time
      - todo: should step by a scanline at a time: worst-case is an
        extra 99% of a frame to enable again
  - gba/ppu: cache tilemap lookups and attribute parsing
      - it's more accurate because the GBA wouldn't read this for every
        pixel
      - but unfortunately, this didn't provide any speedup at all ...
        sigh
  - ruby/audio/alsa: fixed const issue with free()
  - ruby/video/cgl: removed `glDisable(GL_ALPHA_TEST)` [deprecated]
  - ruby/video/cgl: removed `glEnable(GL_TEXTURE_2D)` [unnecessary as
    we use shaders]
  - processor/lr35902: started rewrite¹

¹: so, the Game Boy and Game Boy Color cores will be completely
broken for at least the next two or three WIPs.

The old LR35902 was complete garbage, written in early 2011. So I'm
rewriting it to provide a massive cleanup and consistency with other
processor cores, especially the Z80 core.

I've got about 85% of the main instructions implemented, and then I have
to do the CB instructions. The CB instructions are easier because
they're mostly just a small number of opcodes in many small variations,
but it'll still be tedious.
2017-08-04 23:05:12 +10:00
Tim Allen 571760c747 Update to v103r24 release.
byuu says:

Changelog:

  - gb/mbc6: mapper is now functional, but Net de Get has some text
    corruption¹
  - gb/mbc7: mapper is now functional²
  - gb/cpu: HDMA syncs other components after each byte transfer now
  - gb/ppu: LY,LX forced to zero when LCDC.d7 is lowered (eg disabled),
    not when it's raised (eg enabled)
  - gb/ppu: the LCD does not run at all when LCDC.d7 is clear³
      - fixes graphical corruption between scene transitions in Legend
        of Zelda - Oracle of Ages
      - thanks to Cydrak, Shonumi, gekkio for their input on the cause
        of this issue
  - md/controller: renamed "Gamepad" to "Control Pad" per official
    terminology
  - md/controller: added "Fighting Pad" (6-button controller) emulation
    [hex\_usr]
  - processor/m68k: fixed TAS to set data.d7 when
    EA.mode==DataRegisterDirect; fixes Asterix
  - hiro/windows: removed carriage returns from mouse.cpp and
    desktop.cpp
  - ruby/audio/alsa: added device driver selection [SuperMikeMan]
  - ruby/audio/ao: set format.matrix=nullptr to prevent a crash on some
    systems [SuperMikeMan]
  - ruby/video/cgl: rename term() to terminate() to fix a crash on macOS
    [Sintendo]

¹: The observation that this mapper split $4000-7fff into two banks
came from MAME's implementation. But their implementation was quite
broken and incomplete, so I didn't actually use any of it. The
observation that this mapper split $a000-bfff into two banks came from
Tauwasser, and I did directly use that information, plus the knowledge
that $0400/$0800 are the RAM bank select registers.

The text corruption is due to a race condition with timing. The game is
transferring font letters via HDMA, but the game code ends up setting
the bank# with the font a bit too late after the HDMA has already
occurred. I'm not sure how to fix this ... as a whole, I assumed my Game
Boy timing was pretty good, but apparently it's not that good.

²: The entire design of this mapper comes from endrift's notes.
endrift gets full credit for higan being able to emulate this mapper.
Note that the accelerometer implementation is still not tested, and
probably won't work right until I tweak the sensitivity a lot.

³: So the fun part of this is ... it breaks the strict 60fps rate of
the Game Boy. This was always inevitable: certain timing conditions can
stretch frames, too. But this is pretty much an absolute deal breaker
for something like Vsync timing. This pretty much requires adaptive sync
to run well without audio stuttering during the transition.

There's currently one very important detail missing: when the LCD is
turned off, presumably the image on the screen fades to white. I do not
know how long this process takes, or how to really go about emulating
it. Right now as an incomplete patch, I'm simply leaving the last
displayed image on the screen until the LCD is turned on again. But I
will have to output white, as well as add code to break out of the
emulation loop periodically when the LCD is left off eg indefinitely, or
bad things would happen. I'll work something out and then implement.

Another detail is I'm not sure how long it takes for the LCD to start
rendering again once enabled. Right now, it's immediate. I've heard it's
as long as 1/60th of a second, but that really seems incredibly
excessive? I'd like to know at least a reasonably well-supported
estimate before I implement that.
2017-08-04 23:05:06 +10:00
Tim Allen 7022d1aa51 Update to v103r23 release.
byuu says:

Changelog:

  - gb: added accelerometer X-axis, Y-Axis inputs¹
  - gb: added rumble input¹
  - gb/mbc5: added rumble support²
  - gb/mbc6: added skeleton driver, but it doesn't boot Net de Get
  - gb/mbc7: added mostly complete driver (only missing EEPROM), but it
    doesn't boot Kirby Tilt 'n' Tumble
  - gb/tama: added leap year assignment
  - tomoko: fixed macOS compilation [MerryMage]
  - hiro/cocoa: fix table cell redrawing on updates and automatic column
    resizing [ncbncb]
  - hiro/cocoa: fix some weird issue with clicking table view checkboxes
    on Retina displays [ncbncb]
  - icarus: enhance Game Boy heuristics³
  - nall: fix three missing return statements [Jonas Quinn]
  - ruby: hopefully fixed all compilation errors reported by Screwtape
    et al⁴

¹: because there's no concept of a controller for cartridge inputs,
I'm attaching to the base platform for now. An idea I had was to make
separate ports for each cartridge type ... but this would duplicate the
rumble input between MBC5 and MBC7. And would also be less discoverable.
But it would be more clean in that users wouldn't think the Game Boy
hardware had this functionality. I'll think about it.

²: it probably won't work yet. Rumble isn't documented anywhere, but
I dug through an emulator named GEST and discovered that it seems to use
bit 3 of the RAM bank select to be rumble. I don't know if it sets the
bit for rumbling, then clears when finished, or if it sets it and then
after a few milliseconds it stops rumbling. I couldn't test on my
FreeBSD box because SDL 1.2 doesn't support rumble, udev doesn't exist
on FreeBSD, and nobody has ever posted any working code for how to use
evdev (or whatever it's called) on FreeBSD.

³: I'm still thinking about specifying the MBC7 RAM as EEPROM, since
it's not really static RAM.

⁴: if possible, please test all drivers if you can. I want to ensure
they're all working. Especially let me know if the following work:
macOS: input.carbon Linux: audio.pulseaudiosimple, audio.ao (libao)

If I can confirm these are working, I'm going to then remove them from
being included with stock higan builds.

I'm also considering dropping SDL video on Linux/BSD. XShm is much
faster and supports blurring. I may also drop SDL input on Linux, since
udev works better. That will free a dependency on SDL 1.2 for building
higan. FreeBSD is still going to need it for joypad support, however.
2017-07-30 23:00:31 +10:00
Tim Allen e1223366a7 Update to v103r22 release.
byuu says:

Changelog:

  - ruby: ported all remaining drivers to new API¹
  - ruby/wasapi: fix for dropping one sample per period [SuperMikeMan]
  - gb: emulated most of the TAMA RTC; but RTC state is still volatile²

¹: the new ports are:

  - audio/{directsound, alsa, pulseaudio, pulseaudiosimple, ao}
  - input/{udev, quartz, carbon}

It's pretty much guaranteed many of them will have compilation errors.
Please paste the error logs and I'll try to fix them up. It may take a
WIP or two to get there.

It's also possible things broke from the updates. If so, I could use
help comparing the old file to the new file, looking for mistakes, since
I can't test on these platforms apart from audio/directsound.

Please report working drivers in this list, so we can mark them off the
list. I'll need both macOS and Linux testers.

audio/directsound.cpp:112:

    if(DirectSoundCreate(0, &_interface, 0) != DS_OK) return terminate(), false;

²: once I get this working, I'll add load/save support for the RTC
values. For now, the RTC data will be lost when you close the emulator.

Right now, you can set the date/time in real-time mode, and when you
start the game, the time will be correct, and the time will tick
forward. Note that it runs off emulated time instead of actual real
time, so if you fast-forward to 300%, one minute will be 20 seconds.

The really big limitation right now is that when you exit the game, and
restart it, and resume a new game, the hour spot gets corrupted, and
this seems to instantly kill your pet. Fun. This is crazy because the
commands the game sends to the TAMA interface are identical between
starting a new game and getting in-game versus loading a game.

It's likely going to require disassembling the game's code and seeing
what in the hell it's doing, but I am extremely bad at LR35092 assembly.
Hopefully endrift can help here :|
2017-07-28 21:42:24 +10:00
Tim Allen 80841deaa5 Update to v103r21 release.
byuu says:

Changelog:

  - gb: added TAMA emulation [thanks to endrift for the initial notes]
  - gb: save RTC memory to disk (MBC3 doesn't write to said memory yet;
    TAMA doesn't emulate it yet)
  - gb: expect MMM01 boot loader to be at end of ROM instead of start
  - gb: store MBC2 save RAM as 256-bytes (512x4-bit) instead of
    512-bytes (with padding)
  - gb: major cleanups to every cartridge mapper; moved to Mapper class
    instead of MMIO class
  - gb: don't serialize all mapper states with every save state; only
    serialize the active mapper
  - gb: serialize RAM even if a battery isn't present¹
  - gb/cartridge: removed unnecessary code; refactored other code to
    eliminate duplication of functions
  - icarus: improve GB(C) heuristics generation to not include filenames
    for cartridges without battery backup
  - icarus: remove incorrect rearrangement of MMM01 ROM data
  - md/vdp: fix CRAM reads -- fixes Sonic Spinball colors [hex\_usr]
  - tomoko: hide the main higan window when entering fullscreen
    exclusive mode; helps with multi-monitor setups
  - tomoko: destroy ruby drivers before calling Application::quit()
    [Screwtape]
  - libco: add settings.h and defines to fiber, ucontext [Screwtape]

¹: this is one of those crystal clear indications that nobody's
actually playing the higan DMG/CGB cores, or at least not with save
states. This was a major mistake.

Note: I can't find any official documentation that `GL_ALPHA_TEST` was
removed from OpenGL 3.2. Since it's not hurting anything except showing
some warnings in debug mode, I'm just going to leave it there for now.
2017-07-26 22:42:06 +10:00
Tim Allen d5c09c9ab1 Update to v103r20 release.
byuu says:

Changelog:

  - ruby/audio/xaudio2: ported to new ruby API
  - ruby/video/cgl: ported to new ruby API (untested, won't compile)
  - ruby/video/directdraw: ported to new ruby API
  - ruby/video/gdi: ported to new ruby API
  - ruby/video/glx: ported to new ruby API
  - ruby/video/wgl: ported to new ruby API
  - ruby/video/opengl: code cleanups

The macOS CGL driver is sure to have compilation errors. If someone will
post the compilation error log, I can hopefully fix it in one or two
iterations of WIPs.

I am unable to test the Xorg GLX driver, because my FreeBSD desktop
video card drivers do not support OpenGL 3.2. If the driver doesn't
work, I'm going to need help tracking down what broke from the older
releases.

The real fun is still yet to come ... all the Linux-only drivers, where
I don't have a single Linux machine to test with.

Todo:

  - libco/fiber
  - libco/ucontext (I should really just delete this)
  - tomoko: hide main UI window when in exclusive fullscreen mode
2017-07-24 15:23:40 +10:00
Tim Allen 8be474b0ac Update to v103r19 release.
byuu says:

Changelog:

  - tomoko: Application::onMain assigned at end of Program::Program()
    [Screwtape]¹
  - libco: add `#define _XOPEN_SOURCE 500` to fix compilation of sjlj.c
    [Screwtape]
  - ruby/audio/openal: fixed device driver string list enumeration
  - ruby/audio/wasapi: changing device re-initializes the driver now
  - ruby/audio/wasapi: probably a pointless change, but don't fill the
    buffer beyond the queue size with silence
  - ruby/video/xvideo: renamed from ruby/video/xv
  - ruby/video/xvideo: check to see if `XV_AUTOPAINT_COLORKEY` exists
    before setting it [SuperMikeMan]
  - ruby/video/xvideo: align buffer sizes to be evenly divisible by four
    [SuperMikeMan]
  - ruby/video/xvideo: fail nicely without crashing (hopefully)
  - ruby/video/xvideo: add support for YV12 and I420 12-bit planar YUV
    formats²

¹: prevents crashes when drivers fail to initialize from running the
main loop that polls input drivers before the input driver is
initialized (or fails to initialize itself.) Some drivers still don't
block their main functions when initialization fails, so they will still
crash, but I'll work to fix them.

²: this was a **major** pain in the ass, heh. You only get one chroma
sample for every four luma samples, so the color reproduction is even
worse than UYVY and YUYV (which is two to four chroma to luma.) Further,
the planar format took forever to figure out. Apparently it doesn't care
what portion of the image you specify in XvShmPutImage, it expects you
to use the buffer dimensions to locate the U and V portions of the data.

This is probably the most thorough X-Video driver in existence now.

Notes:

  - forgot to rename the configuration settings dialog window title to
    just "Settings"
2017-07-23 19:18:16 +10:00
Tim Allen 284e4c043e Update to v103r18 release.
byuu says:

Changelog:

  - tomoko: improved handling of changing audio devices on the audio
    settings panel
  - ruby/audio/wasapi: added device enumeration and selection support¹
  - ruby/audio/wasapi: release property store handle from audio device
  - ruby/audio/wasapi: fix exclusive mode buffer filling
  - ruby/video/glx2: ported to new API -- tested and confirmed working
    great²
  - ruby/video/sdl: fixed initialization -- tested and confirmed working
    on FreeBSD now³
  - ruby/video/xv: ported to new API -- tested and mostly working great,
    sans fullscreen mode⁴

Errata:

  - accidentally changed "Driver Settings" label to "Driver" on the
    audio settings tab because I deleted the line and forgot the
    "Settings" part
  - need to use "return initialize();" from setDevice() in the WASAPI
    driver, instead of "return true;", so device selection is currently
    not functioning in this WIP for said driver

¹: for now, this will likely end up selecting the first available
endpoint device, which is probably wrong. I need to come up with a
system to expose good 'default values' when selecting new audio drivers,
or changing audio device settings.

²: glx2 is a fallback driver for system with only OpenGL 2.0 and no
OpenGL 3.2 drivers, such as FreeBSD 10.1 with AMD graphics cards.

³: although I really should track down why InputManager::poll() is
crashing the emulator when Video::ready() returns false ...

⁴: really bizarrely, when entering fullscreen mode, it looks like the
image was a triangle strip, and the bottom right triange is missing, and
the top left triangle skews the entire image into it. I'm suspecting
this is a Radeon driver bug when trying to create a 2560x1600 X-Video
surface. The glitch persists when exiting fullscreen, too.

If anyone can test the X-Video driver on their Linux/BSD system, it'd be
appreciated. If it's just my video card, I'll ignore it. If not,
hopefully someone can find the cause of the issue :|
2017-07-20 21:52:47 +10:00
Tim Allen 0b4e7fb5a5 Update to v103r17 release.
byuu says:

Changelog:

  - tomoko: re-hid the video sync option¹
  - tomoko: removed " Settings" duplication on all the individual
    settings tab options
  - ruby/audio/wasapi: finished port to new syntax; adapted to an
    event-driven model; support 32-bit integral audio²
  - ruby/video/sdl: ported to new syntax; disabled driver on FreeBSD³

¹: still contemplating a synchronize submenu of {none, video, audio},
but ... the fact that video can't work on PAL, WonderSwan games is a
real limitation for it

²: this driver actually received a ton of work. There's also a new
ring-buffer queue, and I added special handling for when exclusive mode
fails because the latency requested is lower than the hardware can
support. It'll pick the closest latency to the minimum that is possible
in this case.

On my Audigy Rx, the results for non-exclusive mode are the same. For
exclusive mode, the framerate drops from 60fps to ~50fps for smaller
buffers, and ~55fps for larger buffers (no matter how big, it never hits
60fps.) This is a lot better than before where it was hitting ~15fps,
but unfortunately it's the best I can do.

The event system used by WASAPI is really stupid. It just uses SetEvent
at some arbitrary time, and you have to query to see how many samples
it's waiting on. This makes it unknowable how many samples we should
buffer before calling `WaitForSingleObject(INFINITE)`, and it's also
unclear how we should handle cases where there's more samples available
than our queue has: either we can fill it with zeroes, or we can write
less samples. The former should prevent audio looping effects when
running too slowly, whereas the latter could potentially be too
ambitious when the audio could've recovered from a minor stall.

It's shocking to me how there's as many ways to send audio to a sound
card as there are sound card APIs, when all that's needed is a simple
double buffer and a callback event from another thread to do it right.
It's also terrifying how unbelievably shitty nearly all sound card
drivers apparently are.

Also, I don't know if cards can output an actual 24-bit mode with three
byte audio samples, or if they always just take 32-bit samples and
ignore the lower 8-bits. Whatever, it's all nonsense for the final
output to be >16-bits anyway (hi, `double[]` input from ruby.)

³: unfortunately, this driver always crashes on FreeBSD (even before
the rewrite), so I'll need someone on Linux to test it and make sure it
actually works. I'll also need testing for a lot of the other drivers as
well, once they're ported over (I don't have X-video, PulseAudio, ALSA,
or udev.)

Note that I forgot to set `_ready=true` at the end of `initialize()`,
and `_ready=false` in `terminate()`, but it shouldn't actually matter
beyond showing you a false warning message on startup about it failing
to initialize.
2017-07-19 23:14:00 +10:00
Tim Allen f87c6b7ecb Update to v103r16 release.
byuu says:

Changelog:

  - emulator/audio: added the ability to change the output frequency at
    run-time without emulator reset
  - tomoko: display video synchronize option again¹
  - tomoko: Settings→Configuration expanded to Settings→{Video,
    Audio, Input, Hotkey, Advanced} Settings²
  - tomoko: fix default population of audio settings tab
  - ruby: Audio::frequency is a double now (to match both
    Emulator::Audio and ASIO)³
  - tomoko: changing the audio device will repopulate the frequency and
    latency lists
  - tomoko: changing the audio frequency can now be done in real-time
  - ruby/audio/asio: added missing device() information, so devices can
    be changed now
  - ruby/audio/openal: ported to new API; added device selection support
  - ruby/audio/wasapi: ported to new API, but did not test yet (it's
    assuredly still broken)⁴

¹: I'm uneasy about this ... but, I guess if people want to disable
audio and just have smooth scrolling video ... so be it. With
Screwtape's documentation, hopefully that'll help people understand that
video synchronization always breaks audio synchronization. I may change
this to a child menu that lets you pick between {no synchronization,
video synchronization, audio synchronization} as a radio selection.

²: given how much more useful the video and audio tabs are now, I
felt that four extra menu items were worth saving a click and going
right to the tab you want. This also matches the behavior of the Tools
menu displaying all tool options and taking you directly to each tab.
This is kind of a hard change to get used to ... but I think it's for
the better.

³: kind of stupid because I've never seen a hardware sound card where
floor(frequency) != frequency, but whatever. Yay consistency.

⁴: I'm going to move it to be event-driven, and try to support 24-bit
sample formats if possible. Who knows which cards that'll fix and which
cards that'll break. I may end up making multiple WASAPI drivers so
people can find one that actually works for them. We'll see.
2017-07-17 20:32:36 +10:00
Tim Allen 4129630d97 Update to v103r15 release.
byuu says:

Changelog:

  - ruby: rewrote the API interfaces for Video, Audio, Input
  - ruby/audio: can now select the number of output channels (not useful
    to higan, sorry)
  - ruby/asio: various improvements
  - tomoko: audio settings panel can now select separate audio devices
    (for ASIO, OSS so far)
  - tomoko: audio settings panel frequency and latency lists are
    dynamically populated now

Note: due to the ruby API rewrite, most drivers will not compile. Right
now, the following work:

  - video: Direct3D, XShm
  - audio: ASIO, OSS
  - input: Windows, SDL, Xlib

It takes a really long time to rewrite these (six hours to do the
above), so it's going to be a while before we're back at 100%
functionality again.

Errata:

  - ASIO needs device(), setDevice()
  - need to call setDevice() at program startup to populate
    frequency/latency settings properly
  - changing the device and/or frequency needs to update the emulator
    resampler rates

The really hard part is going to be the last one: the only way to change
the emulator frequency is to flush all the audio streams and then
recompute all the coefficients for the resamplers. If this is called
during emulation, all audio streams will be erased and thus no sound
will be output. I'll most likely be forced to simply ignore
device/frequency changes until the user loads another game. It is at
least possible to toggle the latency dynamically.
2017-07-17 15:11:18 +10:00
Tim Allen 17697317d4 Update to v103r14 release.
byuu says:

Changelog:

  - tomoko: by popular choice, default to adaptive mode on new installs
  - hiro/windows: fix bug that was preventing the escape key from
    closing some dialog windows
  - nall/registry: use "\\\\" as separator instead of "/" ... because
    some registry keys contain "/" in them >_>
  - ruby: add ASIO driver stub (so far it can only initialize and grab
    the driver name/version information)
2017-07-15 22:00:20 +10:00
Tim Allen ed5ec58595 Update to v103r13 release.
byuu says:

Changelog:

  - gb/interface: fix Game Boy Color extension to be "gbc" and not "gb"
    [hex\_usr]
  - ms/interface: move Master System hardware controls below controller
    ports
  - sfc/ppu: improve latching behavior of BGnHOFS registers (not
    hardware verified) [AWJ]
  - tomoko/input: rework port/device mapping to support non-sequential
    ports and devices¹
      - todo: should add move() to inputDevice.mappings.append and
        inputPort.devices.append
      - note: there's a weird GCC 4.9 bug with brace initialization of
        InputEmulator; have to assign each field separately
  - tomoko: all windows sans the main presentation window can be
    dismissed with the escape key
  - icarus: the single file selection dialog ("Load ROM Image...") can
    be dismissed with the escape key
  - tomoko: do not pause emulation when FocusLoss/Pause is set during
    exclusive fullscreen mode
  - hiro/(windows,gtk,qt): implemented Window::setDismissable() function
    (missing from cocoa port, sorry)
  - nall/string: fixed printing of largest possible negative numbers (eg
    `INT_MIN`) [Sintendo]
      - only took eight months! :D

¹: When I tried to move the Master System hardware port below the
controller ports, I ran into a world of pain.

The input settings list expects every item in the
`InputEmulator<InputPort<InputDevice<InputMapping>>>>` arrays to be
populated with valid results. But these would be sparsely populated
based on the port and device IDs from inside higan. And that is done so
that the Interface::inputPoll can have O(1) lookup of ports and devices.
This worked because all the port and device IDs were sequential (they
left no gaps in the maps upon creating the lists.)

Unfortunately by changing the expectation of port ID to how it appears
in the list, inputs would not poll correctly. By leaving them alone and
just moving Hardware to the third position, the Game Gear would be
missing port IDs of 0 and 1 (the controller ports of the Master System).
Even by trying to make separate MasterSystemHardware and
GameGearHardware ports, things still fractured when the devices were no
longer contigious.

I got pretty sick of this and just decided to give up on O(1)
port/device lookup, and moved to O(n) lookup. It only knocked the
framerate down by maybe one frame per second, enough to be in the margin
of error. Inputs aren't polled *that* often for loops that usually
terminate after 1-2 cycles to be too detrimental to performance.

So the new input system now allows non-sequential port and device IDs.

Remember that I killed input IDs a while back. There's never any reason
for those to need IDs ... it was easier to just order the inputs in the
order you want to see them in the user interface. So the input lookup is
still O(1). Only now, everything's safer and I return a
maybe<InputMapping&>, and won't crash out the program trying to use a
mapping that isn't found for some reason.

Errata: the escape key isn't working on the browser/message dialogs on
Windows, because of course nothing can ever just be easy and work for
me. If anyone else wouldn't mind looking into that, I'd greatly
appreciate it.

Having the `WM_KEYDOWN` test inside the main `Application_sharedProc`, it
seems to not respond to the escape key on modal dialogs. If I put the
`WM_KEYDOWN` test in the main window proc, then it doesn't seem to get
called for `VK_ESCAPE` at all, and doesn't get called period for modal
windows. So I'm at a loss and it's past 4AM here >_>
2017-07-12 18:24:27 +10:00
Tim Allen 434e303ffb Update to v103r12 release.
byuu says:

Changelog:

  - ruby/video: cleaned up Direct3D9 driver and fixed catastrophic
    memory leak
  - ruby/video: added fullscreen exclusive mode support to the Direct3D9
    driver¹
  - ruby/video: minor cosmetic code cleanups to various drivers
  - tomoko: added support to always allow input when in fullscreen
    exclusive mode
  - tomoko: fixed window to not remove resizability flag when exiting
    fullscreen mode

¹: I am assuming that exclusive mode will try to capture the primary
monitor. I don't know what will happen in multi-monitor setups, however,
as I don't use such a setup here.

Also, I am using `D3DPRESENT_DISCARD` instead of `D3DPRESENT_FLIP`. I'm
not sure if this will prove better or worse, but I've heard it will
waste less memory, and having a BackBufferCount of 1 should still result
in page flipping anyway. The difference is supposedly just that you
can't rely on the back buffer being a valid copy of the previous frame
like you can with FLIP.

Lastly, if you want Vsync, you can edit the configuration file to enable
that, and then turn off audio sync.

Errata: "pause emulation when focus is lost" is not working with
exclusive mode. I need to add a check to never auto-pause when in
exclusive mode. Thanks to bun for catching that one.
2017-07-09 12:23:17 +10:00
Tim Allen ee982f098a Update to v103r11 release.
byuu says:

Changelog:

  - tomoko: removed "Settings→Video Emulation→Overscan Mask" setting¹
  - tomoko: remove a few unnecessary calls to resizeViewport on startup
  - tomoko: only resize main window from video settings when in adaptive
    or toggling adaptive mode²
  - hiro/windows: add `SWP_NOACTIVATE` flag to prevent focus stealing on
    resizing invisible windows³
  - hiro/windows: suppress spurious API-generated `onSize()` callback
    when calling `setVisible()`

¹: it just seemed like bad design to default to overscan masking
being disabled with overscan masks of 8 horizontal, 8 vertical out of
the box. Users would adjust the sliders and not see anything happening.
Instead, I've set the default masks to zero. If you want to turn off
overscan masking, simply slide those to zero again.

²: I figure the only way we're going to be able to fairly evaluate
Screwtape's suggestion is to try it both ways. And I will admit, I kind
of like the way this works as well ... a lot more so than I thought I
would, so I think it was a great suggestion. Still, now's the time if
people have strong opinions on this. Be sure to try both r10 and r11 to
compare. Barring no other feedback, I'm going to keep it this way.

³: this fixes the blinking of the main window on startup.

Screwtape, thanks again for the improvement suggestions. At this point
though, I am not using a tiling window manager. If you are able to patch
hiro/gtk and/or hiro/qt (I mostly use GTK) to work with tiling window
managers better, I wouldn't mind applying said patches, so long as they
don't break things on my own Xfce desktop with xfwm4.

Also, I noticed one issue with Xfce ... if the window is maximized and I
try to call `Window::setSize()`, it's not actually removing the maximize
flag. We'll need to look into how to add that to GTK, but I don't think
it's a huge issue. A similar glitch happens on windows where the icon
still reflects being maximized, but it does actually shrink, it just
sticks to the top left corner of the screen. So this isn't really a
critical bug, but would be extra polish.
2017-07-08 11:02:01 +10:00
Tim Allen cbbf5ec114 Update to v103r10 release.
byuu says:

Changelog:

  - tomoko: video scaling options are now resolutions in the
    configuration file, eg "640x480", "960x720", "1280x960"
  - tomoko: main window is now always resizable instead of fixed width
    (also supports maximizing)
  - tomoko: added support for non-integral scaling in windowed mode
  - tomoko: made the quick/managed state messaging more consistent
  - tomoko: hide "Find Codes ..." button from the cheat editor window if
    the cheat database is not present
  - tomoko: per-game cheats.bml file now goes into the higan/ subfolder
    instead of the root folder

So the way the new video system works is you have the following options
on the video settings panel:

Windowed mode: { Aspect correction, Integral scaling, Adaptive }

Fullscreen mode: { Aspect correction, Integral scaling } (and one day,
hopefully Exclusive will be added here)

Whenever you adjust the overscan masking, or you change any of the
windowed or fullscreen mode settings, or you choose a different video
scale from the main menu, or you load a new game, or you unload a game,
or you rotate the display of an emulated system, the resizeViewport
logic will be invoked. This logic will remember the last option you
chose for video scale, and base the new window size on that value as an
upper limit of the new window size.

If you are in windowed mode and have adaptive enabled, it will shrink
the window to fit the contents of the emulated system's video output.
Otherwise, if you are not in integral scaling mode, it will scale the
video as large as possible to fit into the video scaled size you have
selected. Otherwise, it will perform an integral scale and center the
video inside of the viewport.

If you are in fullscreen mode, it's much the same, only there is no
adaptive mode.

A major problem with Xorg is that it's basically impossible to change
the resizability attribute of a window post-creation. You can do it, but
all kinds of crazy issues start popping up. Like if you toggle
fullscreen, then you'll find that the window won't grow past a certain
fairly small size that it's already at, and cannot be shrunk. And the
multipliers will stop expanding the window as large as they should. And
sometimes the UI elements won't be placed in the correct position, or
the video will draw over them. It's a big mess. So I have to keep the
main window always resizable. Also, note that this is not a limitation
of hiro. It's just totally broken in Xorg itself. No amount of fiddling
has ever allowed this to work reliably for me on either GTK+ 2 or Qt 4.

So what this means is ... the adaptive mode window is also resizable.
What happens here is, whenever you drag the corners of the main window
to resize it, or toggle the maximize window button, higan will bypass
the video scale resizing code and instead act as though the adaptive
scaling mode were disabled. So if integral scaling is checked, it'll
begin scaling in integral mode. Otherwise, it'll begin scaling in
non-integral mode.

And because of this flexibility, it no longer made sense for the video
scale menu to be a radio box. I know, it sucks to not see what the
active selection is anymore, but ... say you set the scale to small,
then you accidentally resized the window a little, but want it snapped
back to the proper small resolution dimensions. If it were a radio item,
you couldn't reselect the same option again, because it's already active
and events don't propagate in said case. By turning them into regular
menu options, the video scale menu can be used to restore window sizing.

Errata:

On Windows, the main window blinks a few times on first load. The fix
for that is a safeguard in the video settings code, roughly like so ...
but note you'd need to make a few other changes for this to work against
v103r10:

    auto VideoSettings::updateViewport(bool firstRun) -> void {
      settings["Video/Overscan/Horizontal"].setValue(horizontalMaskSlider.position());
      settings["Video/Overscan/Vertical"].setValue(verticalMaskSlider.position());
      settings["Video/Windowed/AspectCorrection"].setValue(windowedModeAspectCorrection.checked());
      settings["Video/Windowed/IntegralScaling"].setValue(windowedModeIntegralScaling.checked());
      settings["Video/Windowed/AdaptiveSizing"].setValue(windowedModeAdaptiveSizing.checked());
      settings["Video/Fullscreen/AspectCorrection"].setValue(fullscreenModeAspectCorrection.checked());
      settings["Video/Fullscreen/IntegralScaling"].setValue(fullscreenModeIntegralScaling.checked());
      horizontalMaskValue.setText({horizontalMaskSlider.position()});
      verticalMaskValue.setText({verticalMaskSlider.position()});
      if(!firstRun) presentation->resizeViewport();
    }

That'll get it down to one blink, as with v103 official. Not sure I can
eliminate that one extra blink.

I forgot to remove the setResizable toggle on fullscreen mode exit. On
Windows, the main window will end up unresizable after toggling
fullscreen. I missed that one because like I said, toggling resizability
is totally broken on Xorg. You can fix that with the below change:

    auto Presentation::toggleFullScreen() -> void {
      if(!fullScreen()) {
        menuBar.setVisible(false);
        statusBar.setVisible(false);
      //setResizable(true);
        setFullScreen(true);
        if(!input->acquired()) input->acquire();
      } else {
        if(input->acquired()) input->release();
        setFullScreen(false);
      //setResizable(false);
        menuBar.setVisible(true);
        statusBar.setVisible(settings["UserInterface/ShowStatusBar"].boolean());
      }
      resizeViewport();
    }

Windows is stealing focus on calls to resizeViewport(), so we need to
deal with that somehow ...

I'm not really concerned about the behavior of shrinking the viewport
below the smallest multiplier for a given system. It might make sense to
snap it to the window size and forego all other scaling, but honestly
... meh. I don't really care. Nobody sane is going to play like that.
2017-07-07 13:38:46 +10:00
Tim Allen 7af270aa59 Update to v103r09 release.
byuu says:

Changelog:

  - gba/apu: fixed wave RAM nibble ordering (fixes audio in Castlevania,
    PocketNES)
  - emulator: restructured video information to just a single
    videoResolution() → VideoResolution function
      - returns "projected size" (between 160x144 and 320x240)
      - "internal buffer size" (up to 1280x480)
      - returns aspect correction multiplier that is to be applied to
        the width field
          - the value could be < 1.0 to handle systems with taller
            pixels; although higan doesn't emulate such a system
  - tomoko: all calculations for scaling and overscan masking are done
    by the GUI now
  - tomoko: aspect correction can be enabled in either windowed or
    fullscreen mode separately; moved to Video settings panel
  - tomoko: video scaling multipliers (against 320x240) can now me
    modified from the default (2,3,4) via the configuration file
      - use this as a really barebones way of supporting high DPI
        monitors; although the GUI elements won't scale nicely
      - if you set a value less than two, or greater than your
        resolution divided by 320x240, it's your own fault when things
        blow up. I'm not babysitting anyone with advanced config-file
        only options.
  - tomoko: added new adaptive windowed mode
      - when enabled, the window will shrink to eliminate any black
        borders when loading a game or changing video settings. The
        window will not reposition itself.
  - tomoko: added new adaptive fullscreen mode
      - when enabled, the integral scaling will be disabled for
        fullscreen mode, forcing the video to fill at least one
        direction of the video monitor completely.

I expect we will be bikeshedding for the next month on how to describe
the new video options, where they should appear in the GUI, changes
people want, etc ... but suffice to say, I'm happy with the
functionality, so I don't intend to make changes to -what- things do,
but I will entertain better ways to name things.
2017-07-06 18:29:12 +10:00
Tim Allen 191a71b291 Update to v103r08 release.
byuu says:

Changelog:

  - emulator: improved aspect correction accuracy by using
    floating-point calculations
  - emulator: added videoCrop() function, extended videoSize() to take
    cropping parameters¹
  - tomoko: the overscan masking function will now actually resize the
    viewport²
  - gba/cpu: fixed two-cycle delay on triggering DMAs; not running DMAs
    when the CPU is stopped
  - md/vdp: center video when overscan is disabled
  - pce/vce: resize video output from 1140x240 to 1120x240
  - tomoko: resize window scaling from 326x240 to 320x240
  - tomoko: changed save slot naming and status bar messages to indicate
    quick states vs managed states
  - tomoko: added increment/decrement quick state hotkeys
  - tomoko: save/load quick state hotkeys now save to slots 1-5 instead
    of always to 0
  - tomoko: increased overscan range from 0-16 to 0-24 (in case you want
    to mask the Master System to 240x192)

¹: the idea here was to decouple raw pixels from overscan masking.
Overscan was actually horrifically broken before. The Famicom outputs at
256x240, the Super Famicom at 512x480, and the Mega Drive at 1280x480.
Before, a horizontal overscan mask of 8 would not reduce the Super
Famicom or Mega Drive by nearly as much as the Famicom. WIth the new
videoCrop() function, the internals of pixel size distortions can be
handled by each individual core.

²: furthermore, by taking optional cropping information in
videoSize(), games can scale even larger into the viewport window. So
for example, before the Super Famicom could only scale to 1536x1440. But
by cropping the vertical resolution by 6 (228p effectively, still more
than NTSC can even show), I can now scale to 1792x1596. And wiht aspect
correction, that becomes a perfect 8:7 ratio of 2048x1596, giving me
perfectly crisp pixels without linear interpolation being required.

Errata: for some reason, when I save a new managed state with the SFC
core, the default description is being set to a string of what looks to
be hex numbers. I found the cause ... I'll fix this in the next release.

Note: I'd also like to hide the "find codes..." button if cheats.bml
isn't present, as well as update the SMP TEST register comment from
smp/timing.cpp
2017-07-05 16:39:14 +10:00
Tim Allen d4876a831f Update to v103r07 release.
byuu says:

Changelog:

  - gba/cpu: massive code cleanup effort
  - gba/cpu: DMA can run in between active instructions¹
  - gba/cpu: added two-cycle startup delay between DMA activation and
    DMA transfers²
  - processor/spc700: BBC, BBC, CBNE cycle 4 is an idle cycle
  - processor/spc700: ADDW, SUBW, MOVW (read) cycle 4 is an idle cycle

¹: unfortunately, this causes yet another performance penalty for the
poor GBA core =( Also, I think I may have missed disabling DMAs while
the CPU is stopped. I'll fix that in the next WIP.

²: I put the waiting counter decrement at the wrong place, so this
doesn't actually work. Needs to be more like
this:

    auto CPU::step(uint clocks) -> void {
      for(auto _ : range(clocks)) {
        for(auto& timer : this->timer) timer.run();
        for(auto& dma : this->dma) if(dma.active && dma.waiting) dma.waiting--;
        context.clock++;
      }
      ...

    auto CPU::DMA::run() -> bool {
      if(cpu.stopped() || !active || waiting) return false;

      transfer();
      if(irq) cpu.irq.flag |= CPU::Interrupt::DMA0 << id;
      if(drq && id == 3) cpu.irq.flag |= CPU::Interrupt::Cartridge;
      return true;
    }

Of course, the real fix will be restructuring how DMA works, so that
it's always running in parallel with the CPU instead of this weird
design where it tries to run all channels in some kind of loop until no
channels are active anymore whenever one channel is activated.

Not really sure how to design that yet, however.
2017-07-05 15:29:27 +10:00
Tim Allen 16f736307e Update to v103r06 release.
byuu says:

Changelog:

  - processor/spc700: restored fetch/load/store/pull/push shorthand
    functions
  - processor/spc700: split functions that tested the algorithm used (`op
    != &SPC700:...`) to separate instructions
      - mostly for code clarity over code size: it was awkward having
        cycle counts change based on a function parameter
  - processor/spc700: implemented Overload's new findings on which
    cycles are truly internal (no bus reads)
  - sfc/smp: TEST register emulation has been vastly improved¹

¹: it turns out that TEST.d4,d5 is the external clock divider (used
when accessing RAM through the DSP), and TEST.d6,d7 is the internal
clock divider (used when accessing IPLROM, IO registers, or during idle
cycles.)

The DSP (24576khz) feeds its clock / 12 through to the SMP (2048khz).
The clock divider setting further divides the clock by 2, 4, 8, or 16.
Since 8 and 16 are not cleanly divislbe by 12, the SMP cycle count
glitches out and seems to take 10 and 2 clocks instead of 8 or 16. This
can on real hardware either cause the SMP to run very slowly, or more
likely, crash the SMP completely until reset.

What's even stranger is the timers aren't affected by this. They still
clock by 2, 4, 8, or 16.

Note that technically I could divide my own clock counters by 24 and
reduce these to {1,2,5,10} and {1,2,4,8}, I instead chose to divide by
12 to better illustrate this hardware issue and better model that the
SMP clock runs at 2048khz and not 1024khz.

Further, note that things aren't 100% perfect yet. This seems to throw
off some tests, such as blargg's `test_timer_speed`. I can't tell how
far off I am because blargg's test tragically doesn't print out fail
values. But you can see the improvements in that higan is now passing
all of Revenant's tests that were obviously completely wrong before.
2017-07-03 17:24:47 +10:00
Tim Allen 40802b0b9f Update to v103r05 release.
byuu says:

Changelog:

  - fc/controller: added ControllerPort class; removed Peripherals class
  - md/controller/gamepad: removed X,Y,Z buttons since this isn't a
    6-button controller
  - ms/controller: added ControllerPort class (not used in Game Gear
    mode); removed Peripherals class
  - pce/controller: added ControllerPort class; removed Peripherals
    class
  - processor/spc700: idle(address) is part of SMP class again, contains
    flag to detect mov (x)+ edge case
  - sfc/controller/super-scope,justifier: use CPU frequency instead of
    hard-coding NTSC frequency
  - sfc/cpu: move 4x8-bit SMP ports to SMP class
  - sfc/smp: move APU RAM to DSP class
  - sfc/smp: improved emulation of TEST registers bits 4-7 [information
    from nocash]
      - d4,d5 is RAM wait states (1,2,5,10)
      - d6,d7 is ROM/IO wait states (1,2,5,10)
  - sfc/smp: code cleanup to new style (order from lowest to highest
    bits; use .bit(s) functions)
  - sfc/smp: $00f8,$00f9 are P4/P5 auxiliary ports; named the registers
    better
2017-07-01 16:15:27 +10:00
Tim Allen ff3750de4f Update to v103r04 release.
byuu says:

Changelog:

  - fc/apu: $4003,$4007 writes initialize duty counter to 0 instead of 7
  - fc/apu: corrected duty table entries for use with decrementing duty
    counter
  - processor/spc700: emulated the behavior of cycle 3 of (x)+
    instructions to not read I/O registers
      - specifically, this prevents reads from $fd-ff from resetting the
        timers, as observed on real hardware
  - sfc/controller: added ControllerPort class to match Mega Drive
    design
  - sfc/expansion: added ExpansionPort class to match Mega Drive design
  - sfc/system: removed Peripherals class
  - sfc/system: changed `colorburst()` to `cpuFrequency()`; added
    `apuFrequency()`
  - sfc: replaced calls to `system.region == System::Region::*` with
    `Region::*()`
  - sfc/expansion: remove thread from scheduler when device is destroyed
  - sfc/smp: `{read,write}Port` now use a separate 4x8-bit buffer instead
    of underlying APU RAM [hex\_usr]
2017-06-30 14:17:23 +10:00
Tim Allen 78f341489e Update to v103r03 release.
byuu says:

Changelog:

  - md/psg: fixed output frequency rate regression from v103r02
  - processor/m68k: fixed calculations for ABCD, NBCD, SBCD [hex\_usr,
    SuperMikeMan]
  - processor/spc700: renamed abbreviated instructions to functional
    descriptions (eg `XCN` → `ExchangeNibble`)
  - processor/spc700: removed memory.cpp shorthand functions (fetch,
    load, store, pull, push)
  - processor/spc700: updated all instructions to follow cycle behavior
    as documented by Overload with a logic analyzer

Once again, the changes to the SPC700 core are really quite massive. And
this time it's not just cosmetic: the idle cycles have been updated to
pull from various memory addresses. This is why I removed the shorthand
functions -- so that I could handle the at-times very bizarre addresses
the SPC700 has on its address bus during its idle cycles.

There is one behavior Overload mentioned that I don't emulate ... one of
the cycles of the (X) transfer functions seems to not actually access
the $f0-ff internal SMP registers? I don't fully understand what
Overload is getting at, so I haven't tried to support it just yet.

Also, there are limits to logic analyzers. In many cases the same
address is read from twice consecutively. It is unclear which of the two
reads the SPC700 actually utilizes. I tried to choose the most logical
values (usually the first one), but ... I don't know that we'll be able
to figure this one out. It's going to be virtually impossible to test
this through software, because the PC can't really execute out of
registers that have side effects on reads.
2017-06-28 17:24:46 +10:00
Tim Allen 3517d5c4a4 Update to v103r02 release.
byuu says:

Changelog:

  - fc/apu: improved phase duty cycle emulation (mode 3 is 25% phase
    inverted; counter decrements)
  - md/apu: power/reset do not cancel 68K bus requests
  - md/apu: 68K is not granted bus access on Z80 power/reset
  - md/controller: replaced System::Peripherals with ControllerPort
    concept
  - md/controller: CTRL port is now read-write, maintains value across
    controller changes (and soon, soft resets)
  - md/psg: PSG sampling rate unintentionally modified¹
  - processor/spc700: improve cycle timing of (indirect),y instructions
    [Overload]
  - processor/spc700: idle() cycles actually read from the program
    counter; much like the 6502 [Overload]
      - some of the idle() cycles should read from other addresses; this
        still needs to be supported
  - processor/spc700: various cleanups to instruction function naming
  - processor/z80: prefix state (HL→IX,IY override) can now be
    serialized
  - icarus: fix install rule for certain platforms (it wasn't buggy on
    FreeBSD, but was on Linux?)

¹: the clock speed of the PSG is oscillator/15. But I was setting the
sampling rate to oscillator/15/16, which was around 223KHz. I am not
sure whether the PSG should be outputting at 3MHz or 223KHz. Amazingly
... I don't really hear a difference either way `o_O` I didn't actually
mean to make this change; I just noticed it after comparing the diff
between r01 and r02. If this turns out to be wrong, set

    stream = Emulator::audio.createStream(1, frequency() / 16.0);

in md/psg.cpp to revert this change.
2017-06-27 11:18:28 +10:00
Tim Allen ecc7e899e0 Update to v103r01 release.
byuu says:

Changelog:

  - nall/dsp: improve one pole coefficient calculations [Fatbag]
  - higan/audio: reworked filters to support selection of either one
    pole (first-order) or biquad (second-order) filters
      - note: the design is not stable yet; so forks should not put too
        much effort into synchronizing with this change yet
  - fc: added first-order filters as per NESdev wiki (90hz lowpass +
    440hz lowpass + 14khz highpass)
  - fc: created separate NTSC-J and NTSC-U regions
      - NESdev wiki says the Japanese Famicom uses a separate audio
        filtering strategy, but details are fuzzy
      - there's also cartridge audio output being disabled on NES units;
        and differences with controllers
      - this stuff will be supported in the future, just adding the
        support for it now
  - gba: corrected serious bugs in PSG wave channel emulation [Cydrak]
      - note that if there are still bugs here, it's my fault
  - md/psg,ym2612: added first-order low-pass 2840hz filter to match
    VA3-VA6 Mega Drives
  - md/psg: lowered volume relative to the YM2612
      - using 0x1400; multiple people agreed it was the closest to the
        hardware recordings against a VA6
  - ms,md/psg: don't serialize the volume levels array
  - md/vdp: Hblank bit acts the same during Vblank as outside of it (it
    isn't always set during Vblank)
  - md/vdp: return isPAL in bit 0 of control port reads
  - tomoko: change command-line option separator from : to |
      - [Editor's note: This change was present in the public v103,
        but it's in this changelog because it was made after the v103 WIP]
  - higan/all: change the 20hz high-pass filters from second-order
    three-pass to first-order one-pass
      - these filters are meant to remove DC bias, but I honestly can't
        hear a difference with or without them
      - so there's really no sense wasting CPU power with an extremely
        powerful filter here

Things I did not do:

  - change icarus install rule
  - work on 8-bit Mega Drive SRAM
  - work on Famicom or Mega Drive region detection heuristics in icarus

My long-term dream plan is to devise a special user-configurable
filtering system where you can set relative volumes and create your own
list of filters (any number of them in any order at any frequency), that
way people can make the systems sound however they want.

Right now, the sanest place to put this information is inside the
$system.sys/manifest.bml files. But that's not very user friendly, and
upgrading to new versions will lose these changes if you don't copy them
over manually. Of course, cluttering the GUI with a fancy filter editor
is probably supreme overkill for 99% of users, so maybe that's fine.
2017-06-26 11:41:58 +10:00
Tim Allen 561c6413a4 Update to v103 final release.
byuu says (in the public annoucement):

With this release, PC Engine, Master System, Game Gear, Mega Drive and
the newly added SuperGrafx support are now quite usable! They're far
from the best emulators for these systems, but with many bugfixes, full
sound emulation, and save state support ... many games are now fully
playable with decent accuracy. The Game Boy Advance emulation is also
now substantially improved with vastly improved sound quality and a new
dot-based PPU renderer. With that change, every single component in
higan is now cycle-based. Regrettably, these changes do carry a ~20%
performance penalty compared to GBA emulation in v102.

Changelog (since the previous release):

  - added SuperGrafx emulation
  - improved audio band-pass filtering for all emulated systems
  - screen rotation is now a hotkey; automatically rotates control
    bindings
  - screen rotation now supported on the Game Boy Advance as well (used
    by a small number of games)
  - massive improvements to Mega Drive emulation
  - massive code cleanups and rewrites to many CPU emulation cores
    (MOS6502, WDC65816, SPC700, etc)
  - Famicom, Master System, Mega Drive: added PAL emulation support
  - PC Engine, SuperGrafx, Master System, Game Gear, Mega Drive: added
    save state support
  - PC Engine, SuperGrafx: added PSG sound emulation
  - Master System, Game Gear: added PSG sound emulation
  - Mega Drive: added Z80 APU emulation [with help from Cydrak]
  - Mega Drive: added PSG sound emulation
  - Mega Drive: added YM2612 sound emulation [Cydrak]
  - Super Famicom: fixed Super Game Boy emulation
  - PC Engine: added save RAM support (using per-game PCE-CD backup RAM)
  - Game Boy Advance: substantial improvements to audio emulation
    quality
  - Game Boy Advance: convert scanline-based PPU renderer to a dot-based
    renderer
  - Game Boy Advance: properly initialize CPU state (fixes Classic NES
    Series games)
  - Game Boy Advance: MUL timing corrected [Jonas Quinn]
  - Mega Drive: emulate special mappers for Phantasy Star IV, Super
    Street Fighter II, etc.
  - Super Famicom: use darker luma for INIDISP=0 (large improvement to
    Final Fantasy III opening)
  - Super Famicom: fixed bugs in SMP OR1,AND1 instructions
  - cheat code database regrettably removed from official releases; will
    be made available separately
  - Famicom: PAL emulation improvements [hex\_usr]
2017-06-22 16:11:59 +10:00
Tim Allen b7006822bf Update to v103 WIP release.
byuu says (in the WIP forum):

Changelog:

  - higan: cheat codes accept = and ? separators now
      - the new preferred code format is: address=value or
        address=if-match?value
      - the old code format of address/value and address/if-match/value
        will continue to work
  - higan: cheats.bml is no longer included with the base distribution
      - mightymo stopped updating it in 2015, and it's not source code;
        it can still be pulled in from older releases
  - fc: improved PAL mode timing; use PAL APU timing tables; fix PAL
    noise period table [hex\_usr]
  - md: support aborting a Z80 bus wait in order to capture save states
    without freezing
      - note that this will violate accuracy; but in practice a slight
        desync is better than an emulator deadlock
  - sfc: revert DSP ENDX randomization for now (want to research it more
    before deploying in an official release)
  - sfc: fix Super Famicom.sys/manifest.bml APU RAM size [hex\_usr]
  - tomoko: cleaned up make install rules
  - hiro/cocoa: use ABGR for pixel data [Sintendo]

Note: I forgot to change the command-line and drag-and-drop separator
from : to | in this WIP. However, it is corrected in the v103 official
binary and source published on download.byuu.org. Sorry about that, I
know it makes the Git repository history more difficult. I'm not
concerned whether the : → | change is part of v103 or v103r01 in the
repository, and will leave this to your discretion, Screwtape.

I also still need to set the VDP bit to indicate PAL mode in the Mega
Drive core. This is what happens when I have 47 things I have to do,
given how lousy my memory is. I miss things.
2017-06-22 16:10:13 +10:00
Tim Allen 8476f35153 Update to v102r28 release.
byuu says:

Changelog:

  - higan: `Emulator::<Platform::load>()` now returns a struct containing
    both a path ID and a string option
  - higan: `Emulator::<Platform::load>()` now takes an optional final
    argument of string options
  - fc: added PAL emulation (finally, only took six years)
  - md: added PAL emulation
  - md: fixed address parameter to `VDP::Sprite::write()`; fixes missing
    sprites in Super Street Fighter II
  - md: emulated HIRQ counter; fixes many games
      - Super Street Fighter II - status bar
      - Altered Beast - status bar
      - Sonic the Hedgehog - Labyrinth Zone - water effect
      - etc.
  - ms: added PAL emulation
  - sfc: added the ability to override the default region auto-detection
  - sfc: removed "system.region" override setting from `Super Famicom.sys`
  - tomoko: added options list to game folder load dialog window
  - tomoko: added the ability to specify game folder load options on the
    command-line

So, basically ... Sega forced a change with the way region detection
works. You end up with games that can run on multiple regions, and the
content changes accordingly. Bare Knuckle in NTSC-J mode will become
Streets of Rage in NTSC-U mode. Some games can even run in both NTSC and
PAL mode.

In my view, there should be a separate ROM for each region a game was
released in, even if the ROM content were identical. But unfortunately
that's not how things were done by anyone else.

So to support this, the higan load dialog now has a drop-down at the
bottom-right, where you can choose the region to load games from. On the
SNES, it defaults to "Auto", which will pull the region setting from the
manifest, or fall back on NTSC. On the Mega Drive ... unfortunately, I
can't auto-detect the region from the ROM header. $1f0 is supposed to
contain a string like "JUE", but instead you get games like Maui Mallard
that put an "A" there, and other such nonsense. Sega was far more lax
than Nintendo with the ROM header validity. So for now at least, you
have to manually select your region every time you play a Mega Drive
game, thus you have "NTSC-J", "NTSC-U", and "PAL". The same goes for the
Master System for the same reason, but there's only "NTSC" and "PAL"
here. I'm not sure if games have a way to detect domestic vs
international consoles.

And for now ... the Famicom is the same as well, with no auto-detection.
I'd sincerely hope iNES has a header bit for the region, but I didn't
bother with updating icarus to support that yet.

The way to pass these parameters on the command-line is to prefix the
game path with "option:", so for example:

    higan "PAL:/path/to/Sonic the Hedgehog (USA, Europe).md"

If you don't provide a prefix, it uses the default (NTSC-J, NTSC, or
Auto.) Obviously, it's not possible to pass parameters with
drag-and-drop, so you will always get the default option in said case.
2017-06-20 22:34:50 +10:00
Tim Allen e7806dd6e8 Update to v102r27 release.
byuu says:

Changelog:

  - processor/gsu: minor code cleanup
  - processor/hg51b: renamed reg(Read,Write) to register(Read,Write)
  - processor/lr35902: minor code cleanup
  - processor/spc700: completed code cleanup (sans disassembler)
      - no longer uses internal global state inside instructions
  - processor/spc700: will no longer hang the emulator if stuck in a WAI
    (SLEEP) or STP (STOP) instruction
  - processor/spc700: fixed bug in handling of OR1 and AND1 instructions
  - processor/z80: minor code cleanup
  - sfc/dsp: revert to initializing registers to 0x00; save for
    ENDX=random(), FLG=0xe0 [Jonas Quinn]

Major testing of the SNES game library would be appreciated, now that
its CPU cores have all been revised.

We know the DSP registers read back as randomized data ... mostly, but
there are apparently internal latches, which we can't emulate with the
current DSP design. So until we know which registers have separate
internal state that actually *is* initialized, I'm going to play it safe
and not break more games.

Thanks again to Jonas Quinn for the continued research into this issue.

EDIT: that said ... `MD works if((ENDX&0x30) > 0)` is only a 3:4 chance
that the game will work. That seems pretty unlikely that the odds of it
working are that low, given hardware testing by others in the past :/ I
thought if worked if `PITCH != 0` before, which would have been way more
likely.

The two remaining CPU cores that need major cleanup efforts are the
LR35902 and ARM cores. Both are very large, complicated, annoying cores
that will probably be better off as full rewrites from scratch. I don't
think I want to delay v103 in trying to accomplish that, however.

So I think it'll be best to focus on allowing the Mega Drive core to not
lock when processors are frozen waiting on a response from other
processors during a save state operation. Then we should be good for a
new release.
2017-06-19 12:07:54 +10:00
Tim Allen 50411a17d1 Update to v102r26 release.
byuu says:

Changelog:

  - md/ym2612: initialize DAC sample to center volume [Cydrak]
  - processor/arm: add accumulate mode extra cycle to mlal [Jonas
    Quinn]
  - processor/huc6280: split off algorithms, improve naming of functions
  - processor/mos6502: split off algorithms
  - processor/spc700: major revamp of entire core (~50% completed)
  - processor/wdc65816: fixed several bugs introduced by rewrite

For the SPC700, this turns out to be very old code as well, with global
object state variables, those annoying `{Boolean,Natural}BitField` types,
`under_case` naming conventions, heavily abbreviated function names, etc.
I'm working to get the code to be in the same design as the MOS6502,
HuC6280, WDC65816 cores, since they're all extremely similar in terms of
architectural design (the SPC700 is more of an off-label
reimplementation of a 6502 core, but still.)

The main thing left is that about 90% of the actual instructions still
need to be adapted to not use the internal state (`aa`, `rd`, `dp`,
`sp`, `bit` variables.) I wanted to finish this today, but ran out of
time before work.

I wouldn't suggest too much testing just yet. We should wait until the
SPC700 core is finished for that. However, if some does want to and
spots regressions, please let me know.
2017-06-16 10:06:17 +10:00
Tim Allen b73d918776 Update to v102r25 release.
byuu says:

Changelog:

  - processor/arm: corrected MUL instruction timings [Jonas Quinn]
  - processor/wdc65816: finished phase two of the rewrite

I'm really pleased with the visual results of the wdc65816 core rewrite.
I was able to eliminate all of the weird `{Boolean,Natural}BitRange`
templates, as well as the need to use unions/structs. Registers are now
just simple `uint24` or `uint16` types (technically they're `Natural<T>`
types, but then all of higan uses those), flags are now just bool types.
I also eliminated all of the implicit object state inside of the core
(aa, rd, dp, sp) and instead do all computations on the stack frame with
local variables. Through using macros to reference the registers and
individual parts of them, I was able to reduce the visual tensity of all
of the instructions. And by using normal types without implicit states,
I was able to eliminate about 15% of the instructions necessary, instead
reusing existing ones.

The final third phase of the rewrite will be to recode the disassembler.
That code is probably the oldest code in all of higan right now, still
using sprintf to generate the output. So it is very long overdue for a
cleanup.

And now for the bad news ... as with any large code cleanup, regression
errors have seeped in. Currently, no games are running at all. I've left
the old disassembler in for this reason: we can compare trace logs of
v102r23 against trace logs of v102r25. The second there's any
difference, we've spotted a buggy instruction and can correct it.

With any luck, this will be the last time I ever rewrite the wdc65816
core. My style has changed wildly over the ~10 years since I wrote this
core, but it's really solidifed in recent years.
2017-06-15 01:55:55 +10:00
Tim Allen 6e8406291c Update to v102r24 release.
byuu says

Changelog:

  - FC: fixed three MOS6502 regressions [hex\_usr]
  - GBA: return fetched instruction instead of 0 for unmapped MMIO
    (passes all of endrift's I/O tests)
  - MD: fix VDP control port read Vblank bit to test screen height
    instead of hard-code 240 (fixes Phantasy Star IV)
  - MD: swap USP,SSP when executing an exception (allows Super Street
    Fighter II to run; but no sprites visible yet)
  - MD: grant 68K access to Z80 bus on reset (fixes vdpdoc demo ROM from
    freezing immediately)
  - SFC: reads from $00-3f,80-bf:4000-43ff no longer update MDR
    [p4plus2]
  - SFC: massive, eight-hour cleanup of WDC65816 CPU core ... still not
    complete

The big change this time around is the SFC CPU core. I've renamed
everything from R65816 to WDC65816, and then went through and tried to
clean up the code as much as possible. This core is so much larger than
the 6502 core that I chose cleaning up the code to rewriting it.

First off, I really don't care for the BitRange style functionality. It
was an interesting experiment, but its fatal flaw are that the types are
just bizarre, which makes them hard to pass around generically to other
functions as arguments. So I went back to the list of bools for flags,
and union/struct blocks for the registers.

Next, I renamed all of the functions to be more descriptive: eg
`op_read_idpx_w` becomes `instructionIndexedIndirectRead16`. `op_adc_b`
becomes `algorithmADC8`. And so forth.

I eliminated about ten instructions because they were functionally
identical sans the index, so I just added a uint index=0 parameter to
said functions. I added a few new ones (adjust→INC,DEC;
pflag→REP,SEP) where it seemed appropriate.

I cleaned up the disaster of the instruction switch table into something
a whole lot more elegant without all the weird argument decoding
nonsense (still need M vs X variants to avoid having to have 4-5
separate switch tables, but all the F/I flags are gone now); and made
some things saner, like the flag clear/set and branch conditions, now
that I have normal types for flags and registers once again.

I renamed all of the memory access functions to be more descriptive to
what they're doing: eg writeSP→push, readPC→fetch,
writeDP→writeDirect, etc. Eliminated some of the special read/write
modes that were only used in one single instruction.

I started to clean up some of the actual instructions themselves, but
haven't really accomplished much here. The big thing I want to do is get
rid of the global state (aa, rd, iaddr, etc) and instead use local
variables like I am doing with my other 65xx CPU cores now. But this
will take some time ... the algorithm functions depend on rd to be set
to work on them, rather than taking arguments. So I'll need to rework
that.

And then lastly, the disassembler is still a mess. I want to finish the
CPU cleanups, and then post a new WIP, and then rewrite the disassembler
after that. The reason being ... I want a WIP that can generate
identical trace logs to older versions, in case the CPU cleanup causes
any regressions. That way I can more easily spot the errors.

Oh ... and a bit of good news. v102 was running at ~140fps on the SNES
core. With the new support to suspend/resume WAI/STP, plus the internal
CPU registers not updating the MDR, the framerate dropped to ~132fps.
But with the CPU cleanups, performance went back to ~140fps. So, hooray.
Of course, without those two other improvements, we'd have ended up at
possibly ~146-148fps, but oh well.
2017-06-13 11:42:31 +10:00
Tim Allen cea64b9991 Update to v102r23 release.
byuu says:

Changelog:
  - rewrote the 6502 CPU core from scratch. Now called MOS6502,
    supported BCD mode
      - Famicom core disables BCD mode via MOS6502::BCD = 0;
  - renamed r65816 folder to wdc65816 (still need to rename the actual
    class, though ...)

Note: need to remove build rules for the now renamed r6502, r65816
objects from processor/GNUmakefile.

So this'll seem like a small WIP, but it was a solid five hours to
rewrite the entire 6502 core. The reason I wanted to do this was because
the old 6502 core was pretty sloppy. My coding style improved a lot, and
I really liked how the HuC6280 CPU core came out, so I wanted the 6502
core to be like that one.

The core can now support BCD mode, so hopefully that will prove useful
to hex\_usr and allow one core to run both the NES and his Atari 2600
cores at some point.

Note that right now, the core doesn't support any illegal instructions.
The old core supported a small number of them, but were mostly the no
operation ones. The goal is support all of the illegal instructions at
some point.

It's very possible the rewrite introduced some regressions, so thorough
testing of the NES core would be appreciated if anyone were up for it.
2017-06-11 11:51:53 +10:00
Tim Allen 8af3e4a6e2 Update to v102r22 release.
byuu says:

Changelog:

  - higan: Emulator::Interface::videoSize() renamed to videoResolution()
  - higan: Emulator::Interface::rtcsync() renamed to rtcSynchronize()
  - higan: added video display rotation support to Video
  - GBA: substantially improved audio mixing
      - fixed bug with FIFO 50%/100% volume setting
      - now properly using SOUNDBIAS amplitude to control output
        frequencies
      - reduced quantization noise
      - corrected relative volumes between PSG and FIFO channels
      - both PSG and FIFO values cached based on amplitude; resulting in
        cleaner PCM samples
      - treating PSG volume=3 as 200% volume instead of 0% volume now
        (unverified: to match mGBA)
  - GBA: properly initialize ALL CPU state; including the vital
    prefetch.wait=1 (fixes Classic NES series games)
  - GBA: added video rotation with automatic key translation support
  - PCE: reduced output resolution scalar from 285x242 to 285x240
      - the extra two scanlines won't be visible on most TVs; and they
        make all other cores look worse
      - this is because all other cores output at 240p or less; so they
        were all receiving black bars in windowed mode
  - tomoko: added "Rotate Display" hotkey setting
  - tomoko: changed hotkey multi-key logic to OR instead of AND
      - left support for flipping it back inside the core; for those so
        inclined; by uncommenting one line in input.hpp
  - tomoko: when choosing Settings→Configuration, it will
    automatically select the currently loaded system
      - for instance, if you're playing a Game Gear game, it'll take you
        to the Game Gear input settings
      - if no games are loaded, it will take you to the hotkeys panel
        instead
  - WS(C): merged "Hardware-Vertical", "Hardware-Horizontal" controls
    into combined "Hardware"
  - WS(C): converted rotation support from being inside the core to
    using Emulator::Video
      - this lets WS(C) video content scale larger now that it's not
        bounded by a 224x224 square box
  - WS(C): added automatic key rotation support
  - WS(C): removed emulator "Rotate" key (use the general hotkey
    instead; I recommend F8 for this)
  - nall: added serializer support for nall::Boolean (boolean) types
      - although I will probably prefer the usage of uint1 in most cases
2017-06-09 00:08:02 +10:00
Tim Allen a4629e1f64 Update to v102r21 release.
byuu says:

Changelog:

  - GBA: fixed WININ2 reads, BG3PB writes [Jonas Quinn]
  - R65816: added support for yielding/resuming from WAI/STP¹
  - SFC: removed status.dmaCounter functionality (also fixes possible
    TAS desync issue)
  - tomoko: added support for combinatorial inputs [hex\_usr\]²
  - nall: fixed missing return value from Arithmetic::operator--
    [Hendricks266]

Now would be the time to start looking for major regressions with the
new GBA PPU renderer, I suppose ...

¹: this doesn't matter for the master thread (SNES CPU), but is
important for slave threads (SNES SA1). If you try to save a state and
the SA1 is inside of a WAI instruction, it will get stuck there forever.
This was causing attempts to create a save state in Super Bomberman
- Panic Bomber W to deadlock the emulator and crash it. This is now
finally fixed.

Note that I still need to implement similar functionality into the Mega
Drive 68K and Z80 cores. They still have the possibility of deadlocking.
The SNES implementation was more a dry-run test for this new
functionality. This possible crashing bug in the Mega Drive core is the
major blocking bug for a new official release.

²: many, many thanks to hex\_usr for coming up with a really nice
design. I mostly implemented it the exact same way, but with a few tiny
differences that don't really matter (display " and ", " or " instead of
" & ", " | " in the input settings windows; append → bind;
assignmentName changed to displayName.)

The actual functionality is identical to the old higan v094 and earlier
builds. Emulated digital inputs let you combine multiple possible keys
to trigger the buttons. This is OR logic, so you can map to eg
keyboard.up OR gamepad.up for instance. Emulated analog inputs always
sum together. Emulated rumble outputs will cause all mapped devices to
rumble, which is probably not at all useful but whatever. Hotkeys use
AND logic, so you have to press every key mapped to trigger them. Useful
for eg Ctrl+F to trigger fullscreen.

Obviously, there are cases where OR logic would be nice for hotkeys,
too. Eg if you want both F11 and your gamepad's guide button to trigger
the fullscreen toggle. Unfortunately, this isn't supported, and likely
won't ever be in tomoko. Something I might consider is a throw switch in
the configuration file to swap between AND or OR logic for hotkeys, but
I'm not going to allow construction of mappings like "(Keyboard.Ctrl and
Keyboard.F) or Gamepad.Guide", as that's just too complicated to code,
and too complicated to make a nice GUI to set up the mappings for.
2017-06-06 23:44:40 +10:00
Tim Allen 3bcf3c24c9 Update to v102r20 release.
byuu says:

Changelog:

  - nall: `#undef OUT` on Windows platform
  - GBA: add missing CPU prefetch state to serialization (this was
    breaking serialization in games using ROM prefetch)
  - GBA: reset all PPU data in the power() function (some things were
    missing before, causing issues on reset)
  - GBA: restored horizontal mosaic emulation to the new pixel-based
    renderer
  - GBA: fixed tilemap background horizontal flipping (Legend of Spyro -
    warning screen)
  - GBA: fixed d8 bits of scroll registers (ATV - Thunder Ridge Racers -
    menu screen)
  - SFC: DRAM refresh ticks the ALU MUL/DIV registers five steps forward
    [reported by kevtris]
  - SFC: merged dmaCounter and autoJoypadCounter into new shared
    clockCounter
      - left stub for old dmaCounter so that I can do some traces to
        ensure the new code's 100% identical

GBA save states would have been broken since whenever I emulated ROM
prefetch. I guess not many people are using the GBA core ...
2017-06-06 11:39:27 +10:00
Tim Allen 2461293ff0 Update to v102r19 release.
byuu says:

Note: add `#undef OUT` to the top of higan/gba/ppu/ppu.hpp to compile on
Windows (ugh ...) Now to await posts about this in four more threads
again ;)

Changelog:

  - GBA: rewrote PPU from a scanline-based renderer to a pixel-based
    renderer
  - ruby: fixed video/gdi bugs

Note that there's an approximately 21% speed penalty compared to v102r18
for the pixel-based renderer.

Also, horizontal mosaic effects are not yet implemented. But they should
be prior to v103. This one is a little tricky as it currently works on
fully rendered scanlines. I need to roll the mosaic into the background
renderers, and then for sprites, well ... see below.

The trickiest part by far of this new renderer is the object (sprite)
system. Unlike every other system I emulate, the GBA supports affine
rendering of its sprites. Or in other words, rotation effects. And it
also has a very complex priority system.

Right now, I can't see any way that the GBA PPU could render pixels in
real-time like this. My belief is that there's a 240-entry buffer that
fills up the next scanline's row of pixels. Which means it probably also
runs on the last scanline of Vblank so that the first scanline has
sprite data.

However, I didn't design my object renderer like this just yet. For now,
it creates a buffer of all 240 pixels right away at the start of the
scanline. I know\!\! That's technically scanline-based. But it's only
for fetching object tiledata, and it's only temporary.

What needs to happen is I need a way to run something like a "mini libco
thread" inside of the main thread, so that the object renderer can run
in parallel with the rest of the PPU, yet not be a hideous abomination
of a state machine, yet also not be horrendously slow as a full libco
thread would be.

I'm envisioning some kind of stackless yielding coroutine. But I'll need
to think through how to design that, given the absence of coroutines
even in C++17.
2017-06-04 13:16:44 +10:00
Tim Allen 1ca4609079 Update to v102r18 release.
byuu says:

This WIP fixes all the critical pending issues I had open. I'm sure
there's many more that simply didn't make their way into said list. So
by all means, please report important issues you're aware of so they can
get fixed.

Changelog:

  - ruby: add variable texture support to GDI video driver [bug
    reported by Cydrak]
  - ruby: minor cleanups to XShm video driver
  - ruby: fix handling of up+down, left+right hat cases for XInput
    driver [bug reported by Cydrak]
  - nall: fixed vector class so that compilation with GCC 7.1 should
    succeed [SuperMikeMan]
  - sfc: initialize most DSP registers to random values to fix Magical
    Drop [Jonas Quinn]
  - sfc: lower PPU brightness when luma=0 from 50% scale to 25% scale;
    helps scenes like Final Fantasy III's intro
2017-05-30 17:48:41 +10:00
Tim Allen 82c58527c3 Update to v102r17 release.
byuu says:

Changelog:

  - GBA: process audio at 2MHz instead of 32KHz¹
  - MD: do not allow the 68K to stop the Z80, unless it has been granted
    bus access first
  - MD: do not reset bus requested/granted signals when the 68K resets
    the Z80
      - the above two fix The Lost Vikings
  - MD: clean up the bus address decoding to be more readable
  - MD: add support for a13000-a130ff (#TIME) region; pass to cartridge
    I/O²
  - MD: emulate SRAM mapping used by >16mbit games; bank mapping used
    by >32mbit games³
  - MD: add 'reset pending' flag so that loading save states won't
    reload 68K PC, SP registers
      - this fixes save state support ... mostly⁴
  - MD: if DMA is not enabled, do not allow CD5 to be set [Cydrak]
      - this fixes in-game graphics for Ristar. Title screen still
        corrupted on first run
  - MD: detect and break sprite lists that form an infinite loop
    [Cydrak]
      - this fixes the emulator from dead-locking on certain games
  - MD: add DC offset to sign DAC PCM samples [Cydrak]
      - this improves audio in Sonic 3
  - MD: 68K TAS has a hardware bug that prevents writing the result back
    to RAM
      - this fixes Gargoyles
  - MD: 68K TRAP should not change CPU interrupt level
      - this fixes Shining Force II, Shining in the Darkness, etc
  - icarus: better SRAM heuristics for Mega Drive games

Todo:

  - need to serialize the new cartridge ramEnable, ramWritable, bank
    variables

¹: so technically, the GBA has its FIFO queue (raw PCM), plus a GB
chipset. The GB audio runs at 2MHz. However, I was being lazy and
running the sequencer 64 times in a row, thus decimating the audio to
32KHz. But simply discarding 63 out of every 64 samples resorts in
muddier sound with more static in it.

However ... increasing the audio thread processing intensity 64-fold,
and requiring heavy-duty three-chain lowpass and highpass filters is not
cheap. For this bump in sound quality, we're eating a loss of about 30%
of previous performance.

Also note that the GB audio emulation in the GBA core still lacks many
of the improvements made to the GB core. I was hoping to complete the GB
enhancements, but it seems like I'm never going to pass blargg's
psychotic edge case tests. So, first I want to clean up the GB audio to
my current coding standards, and then I'll port that over to the GBA,
which should further increase sound quality. At that point, it sound
exceed mGBA's audio quality (due to the ridiculously high sampling rate
and strong-attenuation audio filtering.)

²: word writes are probably not handled correctly ... but games are
only supposed to do byte writes here.

³: the SRAM mapping is used by games like "Story of Thor" and
"Phantasy Star IV." Unfortunately, the former wasn't released in the US
and is region protected. So you'll need to change the NTSU to NTSCJ in
md/system/system.cpp in order to boot it. But it does work nicely now.
The write protection bit is cleared in the game, and then it fails to
write to SRAM (soooooooo many games with SRAM write protection do this),
so for now I've had to disable checking that bit. Phantasy Star IV has a
US release, but sadly the game doesn't boot yet. Hitting some other bug.

The bank mapping is pretty much just for the 40mbit Super Street Fighter
game. It shows the Sega and Capcom logos now, but is hitting yet another
bug and deadlocking.

For now, I emulate the SRAM/bank mapping registers on all cartridges,
and set sane defaults. So long as games don't write to $a130XX, they
should all continue to work. But obviously, we need to get to a point
where higan/icarus can selectively enable these registers on a per-game
basis.

⁴: so, the Mega Drive has various ways to lock a chip until another
chip releases it. The VDP can lock the 68K, the 68K can lock the Z80,
etc. If this happens when you save a state, it'll dead-lock the
emulator. So that's obviously a problem that needs to be fixed. The fix
will be nasty ... basically, bypassing the dead-lock, creating a
miniature, one-instruction-long race condition. Extremely unlikely to
cause any issues in practice (it's only a little worse than the SNES
CPU/SMP desync), but ... there's nothing I can do about it. So you'll
have to take it or leave it. But yeah, for now, save states may lock up
the emulator. I need to add code to break the loops when in the process
of creating a save state still.
2017-03-10 21:23:29 +11:00
Tim Allen 04072b278b Update to v102r16 release.
byuu says:

Changelog:

  - Emulator::Stream now allows adding low-pass and high-pass filters
    dynamically
      - also accepts a pass# count; each pass is a second-order biquad
        butterworth IIR filter
  - Emulator::Stream no longer automatically filters out >20KHz
    frequencies for all streams
  - FC: added 20Hz high-pass filter; 20KHz low-pass filter
  - GB: removed simple 'magic constant' high-pass filter of unknown
    cutoff frequency (missed this one in the last WIP)
  - GB,SGB,GBC: added 20Hz high-pass filter; 20KHz low-pass filter
  - MS,GG,MD/PSG: added 20Hz high-pass filter; 20KHz low-pass filter
  - MD: added save state support (but it's completely broken for now;
    sorry)
  - MD/YM2612: fixed Voice#3 per-operator pitch support (fixes sound
    effects in Streets of Rage, etc)
  - PCE: added 20Hz high-pass filter; 20KHz low-pass filter
  - WS,WSC: added 20Hz high-pass filter; 20KHz low-pass filter

So, the point of the low-pass filters is to remove frequencies above
human hearing. If we don't do this, then resampling will introduce
aliasing that results in sounds that are audible to the human ear. Which
basically an annoying buzzing sound. You'll definitely hear the
improvement from these in games like Mega Man 2 on the NES. Of course,
these already existed before, so this WIP won't sound better than
previous WIPs.

The high-pass filters are a little more complicated. Their main role is
to remove DC bias and help to center the audio stream. I don't
understand how they do this at all, but ... that's what everyone who
knows what they're talking about says, thus ... so be it.

I have set all of the high-pass filters to 20Hz, which is below the
limit of human hearing. Now this is where it gets really interesting ...
technically, some of these systems actually cut off a lot of range. For
instance, the GBA should technically use an 800Hz high-pass filter when
output is done through the system's speakers. But of course, if you plug
in headphones, you can hear the lower frequencies.

Now 800Hz ... you definitely can hear. At that level, nearly all of the
bass is stripped out and the audio is very tinny. Just like the real
system. But for now, I don't want to emulate the audio being crushed
that badly.

I'm sticking with 20Hz everywhere since it won't negatively affect audio
quality. In fact, you should not be able to hear any difference between
this WIP and the previous WIP. But theoretically, DC bias should mostly
be removed as a result of these new filters. It may be that we need to
raise the values on some cores in the future, but I don't want to do
that until we know for certain that we have to.

What I can say is that compared to even older WIPs than r15 ... the
removal of the simple one-pole low-pass and high-pass filters with the
newer three-pass, second-order filters should result in much better
attenuation (less distortion of audible frequencies.) Probably not
enough to be noticeable in a blind test, though.
2017-03-09 07:20:40 +11:00