bsnes/higan/sfc/ppu/ppu.cpp

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#include <sfc/sfc.hpp>
namespace SuperFamicom {
PPU ppu;
#include "background/background.cpp"
#include "mmio/mmio.cpp"
#include "screen/screen.cpp"
#include "sprite/sprite.cpp"
#include "window/window.cpp"
#include "serialization.cpp"
PPU::PPU() :
bg1(*this, Background::ID::BG1),
bg2(*this, Background::ID::BG2),
bg3(*this, Background::ID::BG3),
bg4(*this, Background::ID::BG4),
sprite(*this),
window(*this),
screen(*this) {
surface = new uint32[512 * 512];
output = surface + 16 * 512;
}
PPU::~PPU() {
delete[] surface;
}
auto PPU::step(uint clocks) -> void {
clock += clocks;
}
auto PPU::synchronizeCPU() -> void {
Updated to v067r21 release. byuu says: This moves toward a profile-selection mode. Right now, it is incomplete. There are three binaries, one for each profile. The GUI selection doesn't actually do anything yet. There will be a launcher in a future release that loads each profile's respective binary. I reverted away from blargg's SMP library for the time being, in favor of my own. This will fix most of the csnes/bsnes-performance bugs. This causes a 10% speed hit on 64-bit platforms, and a 15% speed hit on 32-bit platforms. I hope to be able to regain that speed in the future, I may also experiment with creating my own fast-SMP core which drops bus hold delays and TEST register support (never used by anything, ever.) Save states now work in all three cores, but they are not cross-compatible. The profile name is stored in the description field of the save states, and it won't load a state if the profile name doesn't match. The debugger only works on the research target for now. Give it time and it will return for the other targets. Other than that, let's please resume testing on all three once again. See how far we get this time :) I can confirm the following games have issues on the performance profile: - Armored Police Metal Jacket (minor logo flickering, not a big deal) - Chou Aniki (won't start, so obviously unplayable) - Robocop vs The Terminator (major in-game flickering, unplayable) Anyone still have that gigantic bsnes thread archive from the ZSNES forum? Maybe I posted about how to fix those two broken games in there, heh. I really want to release this as v1.0, but my better judgment says we need to give it another week. Damn.
2010-10-20 11:22:44 +00:00
if(CPU::Threaded == true) {
if(clock >= 0 && scheduler.sync != Scheduler::SynchronizeMode::All) co_switch(cpu.thread);
} else {
while(clock >= 0) cpu.enter();
}
}
auto PPU::Enter() -> void { ppu.enter(); }
auto PPU::enter() -> void {
while(true) {
if(scheduler.sync == Scheduler::SynchronizeMode::All) {
scheduler.exit(Scheduler::ExitReason::SynchronizeEvent);
}
scanline();
Update to v088r15 release. byuu says: Changelog: - default placement of presentation window optimized for 1024x768 displays or larger (sorry if yours is smaller, move the window yourself.) - Direct3D waits until a previous Vblank ends before waiting for the next Vblank to begin (fixes video timing analysis, and ---really--- fast computers.) - Window::setVisible(false) clears modality, but also fixed in Browser code as well (fixes loading images on Windows hanging) - Browser won't consume full CPU resources (but timing analysis will, I don't want stalls to affect the results.) - closing settings window while analyzing stops analysis - you can load the SGB BIOS without a game (why the hell you would want to ...) - escape closes the Browser window (it won't close other dialogs, it has to be hooked up per-window) - just for fun, joypad hat up/down moves in Browser file list, any joypad button loads selected game [not very useful, lacks repeat, and there aren't GUI load file open buttons] - Super Scope and Justifier crosshairs render correctly (probably doesn't belong in the core, but it's not something I suspect people want to do themselves ...) - you can load GB, SGB, GB, SGB ... without problems (not happy with how I did this, but I don't want to add an Interface::setInterface() function yet) - PAL timing works as I want now (if you want 50fps on a 60hz monitor, you must not use sync video) [needed to update the DSP frequency when toggling video/audio sync] - not going to save input port selection for now (lot of work), but it will properly keep your port setting across cartridge loads at least [just goes to controller on emulator restart] - SFC overscan on and off both work as expected now (off centers image, on shows entire image) - laevateinn compiles properly now - ethos goes to ~/.config/bsnes now that target-ui is dead [honestly, I recommend deleting the old folder and starting over] - Emulator::Interface callbacks converted to virtual binding structure that GUI inherits from (simplifies binding callbacks) - this breaks Super Game Boy for a bit, I need to rethink system-specific bindings without direct inheritance Timing analysis works spectacularly well on Windows, too. You won't get your 100% perfect rate (unless maybe you leave the analysis running overnight?), but it'll get really freaking close this way.
2012-05-07 23:29:03 +00:00
add_clocks(28);
Update to v079 release. byuu says: This release includes Nintendo Super System DIP switch emulation and improved PPU rendering accuracy, among other things. Changelog: - added Nintendo Super System DIP switch emulation [requires XML setting maps] - emulated Super Game Boy $6001 VRAM offset selection port [ikari_01] - fixed randomness initialization of S-SMP port registers [fixes DBZ:Hyper Dimension and Ninja Warriors] - mosaic V-countdown caches BGOFS registers (fixes Super Turrican 2 effect) [reported by zal16] - non-mosaic BGOFS registers are always cached at H=60 (fixes NHL '94 and Super Mario World flickering) - fixed 2xSaI family of renderers on 64-bit systems - cleaned up SMP source code - phoenix: fixed a bug when closing bsnes while minimized Please note that the mosaic BGOFS fix is only for the accuracy profile. Unfortunately the older scanline-based compatibility renderer's code is nearly unmaintainable at this point, so I haven't yet been able to backport the fixes. Also, I have written a new cycle-accurate SMP core that does not use libco. The aim is to implement it into Snes9X v1.54. But it would of course be prudent to test the new core first. [...then in the next post...] Decided to keep that Super Mario World part a surprise, so ... surprise! Realized while working on the Super Turrican 2 mosaic fix, and from looking at NHL '94 and Dai Kaijuu Monogatari 2's behavior, that BGOFS registers must be cached between H=0 and H=88 for the entire scanline ... they can't work otherwise, and it'd be stupid for the PPU to re-add the offset to the position on every pixel anyway. I chose H=60 for now. Once I am set up with the RGB monitor and the North American cartridge dumping is completed, I'll set it on getting exact timings for all these things. It'll probably require a smallish speed hit to allow exact-cycle timing events for everything in the PPU.
2011-06-05 03:45:04 +00:00
bg1.begin();
bg2.begin();
bg3.begin();
bg4.begin();
Update to v078 release. byuu says: Finally, a new release. I have been very busy finishing up SNES box, cartridge and PCB scanning plus cataloguing the data, however this release still has some significant improvements. Most notably would be randomization on startup. This will help match the behavior of real hardware and uninitialized memory + registers. It should help catch homebrew software that forgets to initialize things properly. Of course, I was not able to test the complete library, so it is possible that if I've randomized anything that should be constant, that this could cause a regression. You can disable this randomization for netplay or to work around any incompatibilities by editing bsnes.cfg and setting snes.random to false. The GUI also received some updates. Widget sizes are now computed based on font sizes, giving it a perfectly native look (because it is native.) I've also added a hotkey remapping screen to the input settings. Not only can you remap inputs to controllers now, but those who did not know the hotkey bindings can now quickly see which ones exist and what they are mapped to. Changelog (since v077): - memory and most registers are now randomly initialized on power-up - fixed auto joypad polling issue in Super Star Wars - fixed .nec and .rtc file extensions (they were missing the dot) [krom] - PPU/accuracy now clears overscan region on any frame when it is disabled - PPU/compatibility no longer auto-blends hires pixels (use NTSC filter for this) - added hotkey remapping dialog to input settings window - added a few new hotkeys, including quick-reset - phoenix API now auto-sizes widgets based on font sizes - file dialog once again remembers previously selected file when possible
2011-04-30 13:12:15 +00:00
if(vcounter() <= 239) {
for(signed pixel = -7; pixel <= 255; pixel++) {
bg1.run(1);
bg2.run(1);
bg3.run(1);
bg4.run(1);
add_clocks(2);
bg1.run(0);
bg2.run(0);
bg3.run(0);
bg4.run(0);
if(pixel >= 0) {
sprite.run();
Update to v068r12 release. (there was no r11 release posted to the WIP thread) byuu says: This took ten hours of mind boggling insanity to pull off. It upgrades the S-PPU dot-based renderer to fetch one tile, and then output all of its pixels before fetching again. It sounds easy enough, but it's insanely difficult. I ended up taking one small shortcut, in that rather than fetch at -7, I fetch at the first instance where a tile is needed to plot to x=0. So if you have {-3 to +4 } as a tile, it fetches at -3. That won't work so well on hardware, if two BGs fetch at the same X offset, they won't have time. I have had no luck staggering the reads at BG1=-7, BG3=-5, etc. While I can shift and fetch just fine, what happens is that when a new tile is fetched in, that gives a new palette, priority, etc; and this ends up happening between two tiles which results in the right-most edges of the screen ending up with the wrong colors and such. Offset-per-tile is cheap as always. Although looking at it, I'm not sure how BG3 could pre-fetch, especially with the way one or two OPT modes can fetch two tiles. There's no magic in Hoffset caching yet, so the SMW1 pixel issue is still there. Mode 7 got a bugfix, it was off-by-one horizontally from the mosaic code. After re-designing the BG mosaic, I ended up needing a separate mosaic for Mode7, and in the process I fixed that bug. The obvious change is that the Chrono Trigger Mode7->Mode2 transition doesn't cause the pendulum to jump anymore. Windows were simplified just a tad. The range testing is shared for all modes now. Ironically, it's a bit slower, but I'll take less code over more speed for the accuracy core. Speaking of speed, because there's so much less calculations per pixel for BGs, performance for the entire emulator has gone up by 30% in the accuracy core. Pretty neat overall, I can maintain 60fps in all but, yeah you can guess can't you?
2010-09-04 03:36:03 +00:00
window.run();
screen.run();
}
add_clocks(2);
}
add_clocks(14);
sprite.tilefetch();
} else {
add_clocks(1052 + 14 + 136);
}
Update to v088r15 release. byuu says: Changelog: - default placement of presentation window optimized for 1024x768 displays or larger (sorry if yours is smaller, move the window yourself.) - Direct3D waits until a previous Vblank ends before waiting for the next Vblank to begin (fixes video timing analysis, and ---really--- fast computers.) - Window::setVisible(false) clears modality, but also fixed in Browser code as well (fixes loading images on Windows hanging) - Browser won't consume full CPU resources (but timing analysis will, I don't want stalls to affect the results.) - closing settings window while analyzing stops analysis - you can load the SGB BIOS without a game (why the hell you would want to ...) - escape closes the Browser window (it won't close other dialogs, it has to be hooked up per-window) - just for fun, joypad hat up/down moves in Browser file list, any joypad button loads selected game [not very useful, lacks repeat, and there aren't GUI load file open buttons] - Super Scope and Justifier crosshairs render correctly (probably doesn't belong in the core, but it's not something I suspect people want to do themselves ...) - you can load GB, SGB, GB, SGB ... without problems (not happy with how I did this, but I don't want to add an Interface::setInterface() function yet) - PAL timing works as I want now (if you want 50fps on a 60hz monitor, you must not use sync video) [needed to update the DSP frequency when toggling video/audio sync] - not going to save input port selection for now (lot of work), but it will properly keep your port setting across cartridge loads at least [just goes to controller on emulator restart] - SFC overscan on and off both work as expected now (off centers image, on shows entire image) - laevateinn compiles properly now - ethos goes to ~/.config/bsnes now that target-ui is dead [honestly, I recommend deleting the old folder and starting over] - Emulator::Interface callbacks converted to virtual binding structure that GUI inherits from (simplifies binding callbacks) - this breaks Super Game Boy for a bit, I need to rethink system-specific bindings without direct inheritance Timing analysis works spectacularly well on Windows, too. You won't get your 100% perfect rate (unless maybe you leave the analysis running overnight?), but it'll get really freaking close this way.
2012-05-07 23:29:03 +00:00
add_clocks(lineclocks() - 28 - 1052 - 14 - 136);
}
}
auto PPU::add_clocks(uint clocks) -> void {
clocks >>= 1;
while(clocks--) {
tick(2);
step(2);
synchronizeCPU();
}
}
auto PPU::enable() -> void {
function<auto (uint, uint8) -> uint8> reader{&PPU::mmio_read, (PPU*)&ppu};
function<auto (uint, uint8) -> void> writer{&PPU::mmio_write, (PPU*)&ppu};
Update to v091r05 release. [No prior releases were posted to the WIP thread. -Ed.] byuu says: Super Famicom mapping system has been reworked as discussed with the mask= changes. offset becomes base, mode is gone. Also added support for comma-separated fields in the address fields, to reduce the number of map lines needed. <?xml version="1.0" encoding="UTF-8"?> <cartridge region="NTSC"> <superfx revision="2"> <rom name="program.rom" size="0x200000"/> <ram name="save.rwm" size="0x8000"/> <map id="io" address="00-3f,80-bf:3000-32ff"/> <map id="rom" address="00-3f:8000-ffff" mask="0x8000"/> <map id="rom" address="40-5f:0000-ffff"/> <map id="ram" address="00-3f,80-bf:6000-7fff" size="0x2000"/> <map id="ram" address="70-71:0000-ffff"/> </superfx> </cartridge> Or in BML: cartridge region=NTSC superfx revision=2 rom name=program.rom size=0x200000 ram name=save.rwm size=0x8000 map id=io address=00-3f,80-bf:3000-32ff map id=rom address=00-3f:8000-ffff mask=0x8000 map id=rom address=40-5f:0000-ffff map id=ram address=00-3f,80-bf:6000-7fff size=0x2000 map id=ram address=70-71:0000-ffff As a result of the changes, old mappings will no longer work. The above XML example will run Super Mario World 2: Yoshi's Island. Otherwise, you'll have to write your own. All that's left now is to work some sort of database mapping system in, so I can start dumping carts en masse. The NES changes that FitzRoy asked for are mostly in as well. Also, part of the reason I haven't released a WIP ... but fuck it, I'm not going to wait forever to post a new WIP. I've added a skeleton driver to emulate Campus Challenge '92 and Powerfest '94. There's no actual emulation, except for the stuff I can glean from looking at the pictures of the board. It has a DSP-1 (so SR/DR registers), four ROMs that map in and out, RAM, etc. I've also added preliminary mapping to upload high scores to a website, but obviously I need the ROMs first.
2012-10-09 08:25:32 +00:00
bus.map(reader, writer, 0x00, 0x3f, 0x2100, 0x213f);
bus.map(reader, writer, 0x80, 0xbf, 0x2100, 0x213f);
Update to v074r10 release. byuu says: Major WIP, countless changes. I really went to town on cleaning up the source today with all kinds of new ideas. I'll post the ones I remember, use diff -ru to get the rest. What I like the most is my new within template: template<unsigned lo, unsigned hi> alwaysinline bool within(unsigned addr) { static const unsigned mask = ~(hi ^ lo); return (addr & mask) == lo; } Before, you would see code like this: if((addr & 0xe0e000) == 0x206000) { //$20-3f:6000-7fff The comment is basically necessary, and you have to trust that the mask is right, or do the math yourself. Now, it looks like this: if(within<0x20, 0x3f, 0x6000, 0x7fff>(addr)) { That's the same as within<0x206000, 0x3f7fff>, I just made an SNES-variant to more closely simulate my XML mapping style: 20-3f:6000-7fff. Now obviously this has limitations, it only works in base-2 and it can't manage some tricky edge cases like (addr & 0x408000) == 0x008000 for 00-3f|80-bf:8000-ffff. But for the most part, I'll be using this where I can. The Game Boy is fully ported over to it (via the MBCs), but the SNES only has the BS-X town cartridge moved over so far. SuperFX and SA-1 at the very least could benefit. Next up, since the memory map is now static, there's really no reason to remap the entire thing at power-on and reset. So it is now set up at cartridge load and that's it. I moved the CPU/PPU/WRAM mapping out of memory.cpp and into their respective processors. A bit of duplication only because there are multiple processor cores for the different profiles, but I'm not worried about that. This is also going to be necessary to fix the debugger. Next, Coprocessor::enable() actually does what I initially intended it to now: it is called once to turn a chip on after cartridge load. It's not called on power cycle anymore. This should help fix power-cycle on my serial simulation code, and was needed to map the bus exactly one time. Although most stuff is mapped through XML, some chips still need some manual hooks for monitoring and such (eg S-DD1.) Next, I've started killing off memory::, it was initially an over-reaction to the question of where to put APURAM (in the SMP or DSP?). The idea was to have this namespace that contained all memory for everything. But it was very annoying and tedious, and various chips ignored the convention anyway like ST-0011 RAM, which couldn't work anyway since it is natively uint16 and not uint8. Cx4 will need 24-bit RAM eventually, too. There's 8->24-bit functions in there now, because the HLE code is hideous. So far, all the cartridge.cpp memory:: types have been destroyed. memory::cartrom, memory::cartram become cartridge.rom and cartridge.ram. memory::cartrtc was moved into the SRTC and SPC7110 classes directly. memory::bsxflash was moved into BSXFlash. memory::bsxram and memory::bsxpram were moved into BSXCartridge (the town cartridge). memory::st[AB](rom|ram) were moved into a new area, snes/chip/sufamiturbo. The snes/chip moniker really doesn't work so well, since it also has base units, and the serial communications stuff which is through the controller port, but oh well, now it also has the base structure for the Sufami Turbo cartridge too. So now we have sufamiturbo.slotA.rom, sufamiturbo.slotB.ram, etc. Next, the ST-0010/ST-0011 actually save the data RAM to disk. This wasn't at all compatible with my old system, and I didn't want to keep adding memory types to check inside the main UI cartridge RAM loading and saving routines. So I built a NonVolatileRAM vector inside SNES::Cartridge, and any chip that has memory it wants to save and load from disk can append onto it : data, size, id ("srm", "rtc", "nec", etc) and slot (0 = cartridge, 1 = slot A, 2 = slot B) To load and save memory, we just do a simple: foreach(memory, SNES::cartridge.nvram) load/saveMemory(memory). As a result, you can now keep your save games in F1 Race of Champions II and Hayazashi Nidan Morita Shougi. Technically I think Metal Combat should work this way as well, having the RAM being part of the chip itself, but for now that chip just writes directly into cartridge.ram, so it also technically saves to disk for now. To avoid a potential conflict with a manipulated memory map, BS-X SRAM and PSRAM are now .bss and .bsp, and not .srm and .psr. Honestly I don't like .srm as an extension either, but it doesn't bother me enough to break save RAM compatibility with other emulators, so don't worry about that changing. I finally killed off MappedRAM initializing size to ~0 (-1U). A size of zero means there is no memory there just the same. This was an old holdover for handling MMIO mapping, if I recall correctly. Something about a size of zero on MMIO-Memory objects causing it to wrap the address, so ~0 would let it map direct addresses ... or something. Whatever, that's not needed at all anymore. BSXBase becomes BSXSatellaview, and I've defaulted the device to being attached since it won't affect non-BSX games anyway. Eventually the GUI needs to make that an option. BSXCart becomes BSXCartridge. BSXFlash remains unchanged. I probably need to make Coprocessor::disable() functions now to free up memory on unload, but it shouldn't hurt anything the way it is. libsnes is most definitely broken to all hell and back now, and the debugger is still shot. I suppose we'll need some tricky code to work with the old ID system, and we'll need to add some more IDs for the new memory types.
2011-01-24 08:59:45 +00:00
}
auto PPU::power() -> void {
for(auto& n : vram) n = random(0x00);
for(auto& n : oam) n = random(0x00);
for(auto& n : cgram) n = random(0x00);
}
auto PPU::reset() -> void {
create(Enter, system.cpuFrequency());
PPUcounter::reset();
memory::fill(surface, 512 * 512 * sizeof(uint32));
mmio_reset();
bg1.reset();
bg2.reset();
bg3.reset();
bg4.reset();
sprite.reset();
window.reset();
screen.reset();
frame();
}
auto PPU::scanline() -> void {
if(vcounter() == 0) {
frame();
bg1.frame();
bg2.frame();
bg3.frame();
bg4.frame();
}
bg1.scanline();
bg2.scanline();
bg3.scanline();
bg4.scanline();
sprite.scanline();
window.scanline();
screen.scanline();
}
auto PPU::frame() -> void {
system.frame();
sprite.frame();
display.interlace = regs.interlace;
display.overscan = regs.overscan;
}
}