This is pretty neat. I have been spending the past few months adding an ARM64 JIT to Basilisk II (https://github.com/rcarmo/macemu) and totally appreciate what's involved (I'm currently stuck patching a Quadra ROM to bypass NuBus hardware detection...)
Will definitely give it a try, since I would _love_ to have a Classic Mac environment with some modern creature comforts (like file sharing) in tiny machines.
I am amazed that 1980's software works on binary API compatibility rather than relying on API quirks like timing, memory alignment quirks, memory layout from specific allocator behaviour, etc.
It only takes one unintentional reliance on an implementation detail to make an application not run on another OS implementation...
The Mac classic was about as pure as you could get from an architectural point of view.
A 1 bit framebuffer and a CPU gets you most of what the machine can do.
Most of the quirk abuse of 8-bit machines came from features that were provided with limitations. Sprites, but only 8 of them, colours but only 2 in any 8x8 cell. Multicolour but only in one of two palettes and you'll hate both.
Almost all of the hacks were to get around the limitations of the features.
I don't know if the decision apple made was specifically with future machines in mind. It certainly would have been a headache to make new machines 5 generations down the track if the first one had player missile graphics.
I can't imagine how fast this is compared to the original hardware that ran it. I remember using a Mac 512k with a single floppy drive (no hard drive support) and doing the insert-floppy-dance. Computers were far more mechanical then.
It would be fun to have a "slow it down" feature that also has the various floppy read/write noises paired with it. Bonus points for different generations of hardware and having the OG HD noises to pair with those too!
"Fond" memories of playing King's Quest IV as a little kid on my parents' Apple IIe. You had to swap in a new 5.25" floppy almost every time you walked to another screen. I was fascinated by the game but my god was it tedious to constantly flip and swap the disks around. Google says it came on 8 double sided disks, I could have sworn it was a couple dozen.
The game I played for hours on the Apple ][+ was "FantasyLand 2041". It came on six double sided disks, and I was bummed to find out after quite a lot of game time that disk six was corrupted. I then found out many years later that it wasn't corrupted, the game wasn't ever finished. I then further discovered that John Bell, who produced that and other popular games (Sand of Mars, Beneath the Pyramids, House of Usher), is utterly batty and has written a few "the government is hiding UFOs from us" books.
There was a show HN retro HW project somewhat recently that included sound emulation on board. Maybe that author is reading this, but their sound emulation was probably my favorite part (not to disregard the actual hard parts! I just found it charming)
I'd like to see something like Carbon for old apps so that they boot in modern window frames (without the missing Tahoe corners) and can save to files.
This triggered flashbacks. I'm not sure if I'm remembering correctly, but I think we sometimes also used used Pascal, and it was optional for some toolboxes. It's been a long time though so I could be mistaken. That might have been pre-Mac? But good times, though. Boy, is the world a different place.
The original Mac system software was written in Pascal and most Mac toolbox calls took Pascal-style (prefixed by length) rather than C-style (terminated with null character) strings. But you could write application code in either language keeping this caveat in mind.
It was actually mostly written in assembly, but used Pascal calling conventions and structure layouts since that was expected to be the primary language for application developers. As it had been for Lisa, as it was for “large” applications on Apple II, and as was the case for much of the rest of the microcomputer and minicomputer industry and even the nascent workstation industry (eg Apollo).
It was the Lisa system software that was mostly implemented in Pascal and some blamed this for its largeness and its performance. Compilers and linkers weren’t great back then; most compiler code generation was pretty rigid, and most linkers didn’t even coalesce identical string literals across compilation unit boundaries!
Lisa Workshop C introduced the “pascal” keyword for function declarations and definitions to indicate they used Pascal calling conventions, and otherwise followed Lisa Pascal structure layout rules, so as to minimize the overhead of interoperating with the OS. (I’m not sure whether it introduced the “\p” Pascal string literal convention too or if that came later with Stanford or THINK Lightspeed C.)
I'm guessing they reimplemented the toolbox at the TRAP level (most MacOS calls at the time were accessed through the 68K TRAP instruction).
So, rather than emulating hardware to run native ROMs, they "simply" reimplemented the ROMs.
A friend of mine did this at another level. He basically rewrote the bulk of the toolbox as a C library so that the company, who had a Mac application, could port it to run on a PC, while sharing the source code.
This was before Windows, and it worked! Launched it from DOS, takes over the entire screen. He didn't copy the Mac look and feel. Instead he used OpenLook for his gadgets and what not (since it was, you know, "open").
But he rewrote the bulk of it: QuickDraw, Event Manager, Memory Manager, Window Manager, etc. Just ate it like an elephant. I don't think his regions were as clever as the Mac. Pretty sure he just stuck with rectangles.
Correction: 68K Mac OS calls were A-line traps — in other words, they had opcodes of the form `$Axxx`. To the processor, they're unimplemented instructions that each take an exception through the same vector. The exception handler is the Mac OS trap dispatcher.
`TRAP` is a different instruction, with opcodes `$4E4x`. Each one gets its own exception vector.
It's not just trap calls, though — sometimes applications write directly to the sound buffer or use hardware page flipping.
Hm, doesn't seem to work. Let's try the X11 version:
make ams-x11
./build.pl -i exhibit graft skif minivx xv68k freemountd interact-x11
...
T=0.275s ERROR: OpenDF is unimplemented
Nope, it seems to be missing something. OpenDF? All I find is this: https://github.com/PrjEnt/OpenDF, a long-abandoned project which seems to be a more compact version of another abandoned thing.
The FSSpec calls added in System 7 are mostly new interfaces to existing File Manager functionality. There's an actual high-level `OpenDF()` call, which is like `FSOpen()` except that it won't try to open a driver when the name begins with `.`.
Some applications call `OpenDF()` without checking its availability, but fall back to `FSOpen()` or equivalent if `OpenDF()` returns `paramErr`, which is what the parent is witnessing. See `68k/modules/ams-fs/Files.cc` in the `metamage_1` repo.
If the error message is confusing people, maybe it's time to implement `OpenDF()` for real.
Strange it errors out on given that I assume the thing does run elsewhere. The X11 version sometimes shows the opening screen but any attempt at interaction leads to the mentioned error. The VLC version shows the error directly.
Yes, that works, the tic-tac-toe thing appears and remains even though the error message regarding OpenDF is shown. In other words that error message can be ignored, at least as long as whatever is in AMS_APPNAME does not require whatever OpenDF provides.
This is pretty neat. I have been spending the past few months adding an ARM64 JIT to Basilisk II (https://github.com/rcarmo/macemu) and totally appreciate what's involved (I'm currently stuck patching a Quadra ROM to bypass NuBus hardware detection...)
Will definitely give it a try, since I would _love_ to have a Classic Mac environment with some modern creature comforts (like file sharing) in tiny machines.
I am amazed that 1980's software works on binary API compatibility rather than relying on API quirks like timing, memory alignment quirks, memory layout from specific allocator behaviour, etc.
It only takes one unintentional reliance on an implementation detail to make an application not run on another OS implementation...
The Mac classic was about as pure as you could get from an architectural point of view.
A 1 bit framebuffer and a CPU gets you most of what the machine can do.
Most of the quirk abuse of 8-bit machines came from features that were provided with limitations. Sprites, but only 8 of them, colours but only 2 in any 8x8 cell. Multicolour but only in one of two palettes and you'll hate both.
Almost all of the hacks were to get around the limitations of the features.
I don't know if the decision apple made was specifically with future machines in mind. It certainly would have been a headache to make new machines 5 generations down the track if the first one had player missile graphics.
There were plenty of apps that relied on implementation quirks.
Very cool. If it's built on SDL2, it should be straightforward to make it run in the browser via Emscripten, right?
I can't imagine how fast this is compared to the original hardware that ran it. I remember using a Mac 512k with a single floppy drive (no hard drive support) and doing the insert-floppy-dance. Computers were far more mechanical then.
It would be fun to have a "slow it down" feature that also has the various floppy read/write noises paired with it. Bonus points for different generations of hardware and having the OG HD noises to pair with those too!
"Fond" memories of playing King's Quest IV as a little kid on my parents' Apple IIe. You had to swap in a new 5.25" floppy almost every time you walked to another screen. I was fascinated by the game but my god was it tedious to constantly flip and swap the disks around. Google says it came on 8 double sided disks, I could have sworn it was a couple dozen.
The game I played for hours on the Apple ][+ was "FantasyLand 2041". It came on six double sided disks, and I was bummed to find out after quite a lot of game time that disk six was corrupted. I then found out many years later that it wasn't corrupted, the game wasn't ever finished. I then further discovered that John Bell, who produced that and other popular games (Sand of Mars, Beneath the Pyramids, House of Usher), is utterly batty and has written a few "the government is hiding UFOs from us" books.
There was a show HN retro HW project somewhat recently that included sound emulation on board. Maybe that author is reading this, but their sound emulation was probably my favorite part (not to disregard the actual hard parts! I just found it charming)
So has this beaten MACE to the finish line? Or are the goals different? https://mace.home.blog
I'd like to see something like Carbon for old apps so that they boot in modern window frames (without the missing Tahoe corners) and can save to files.
This is exactly the sort of project that can serve as the basis for such a system.
Wine for classic Mac OS? Amazing. Well done.
Sounds like Wine + FEX
But will it run Dark Castle??
Many hours were wasted on that game.
Still wondering why the main character looks like Sammy from Scooby Doo
and yes:
https://github.com/jjuran/metamage_1/commit/30cb0e260d5ff478...
Hell, I’d go straight for Beyond Dark Castle… it really took the series to a whole different level.
how does it compare to executor? https://en.wikipedia.org/wiki/Executor_(software)
This triggered flashbacks. I'm not sure if I'm remembering correctly, but I think we sometimes also used used Pascal, and it was optional for some toolboxes. It's been a long time though so I could be mistaken. That might have been pre-Mac? But good times, though. Boy, is the world a different place.
The original Mac system software was written in Pascal and most Mac toolbox calls took Pascal-style (prefixed by length) rather than C-style (terminated with null character) strings. But you could write application code in either language keeping this caveat in mind.
It was actually mostly written in assembly, but used Pascal calling conventions and structure layouts since that was expected to be the primary language for application developers. As it had been for Lisa, as it was for “large” applications on Apple II, and as was the case for much of the rest of the microcomputer and minicomputer industry and even the nascent workstation industry (eg Apollo).
It was the Lisa system software that was mostly implemented in Pascal and some blamed this for its largeness and its performance. Compilers and linkers weren’t great back then; most compiler code generation was pretty rigid, and most linkers didn’t even coalesce identical string literals across compilation unit boundaries!
Lisa Workshop C introduced the “pascal” keyword for function declarations and definitions to indicate they used Pascal calling conventions, and otherwise followed Lisa Pascal structure layout rules, so as to minimize the overhead of interoperating with the OS. (I’m not sure whether it introduced the “\p” Pascal string literal convention too or if that came later with Stanford or THINK Lightspeed C.)
This is quite the feat. I’d love to know more about the process to make this, the motivation, how much time was spent, etc.
I'm guessing they reimplemented the toolbox at the TRAP level (most MacOS calls at the time were accessed through the 68K TRAP instruction).
So, rather than emulating hardware to run native ROMs, they "simply" reimplemented the ROMs.
A friend of mine did this at another level. He basically rewrote the bulk of the toolbox as a C library so that the company, who had a Mac application, could port it to run on a PC, while sharing the source code.
This was before Windows, and it worked! Launched it from DOS, takes over the entire screen. He didn't copy the Mac look and feel. Instead he used OpenLook for his gadgets and what not (since it was, you know, "open").
But he rewrote the bulk of it: QuickDraw, Event Manager, Memory Manager, Window Manager, etc. Just ate it like an elephant. I don't think his regions were as clever as the Mac. Pretty sure he just stuck with rectangles.
Correction: 68K Mac OS calls were A-line traps — in other words, they had opcodes of the form `$Axxx`. To the processor, they're unimplemented instructions that each take an exception through the same vector. The exception handler is the Mac OS trap dispatcher.
`TRAP` is a different instruction, with opcodes `$4E4x`. Each one gets its own exception vector.
It's not just trap calls, though — sometimes applications write directly to the sound buffer or use hardware page flipping.
related discussion https://news.ycombinator.com/item?id=40338443
Ah, yes, the two front ends I haven't touched in years. This should be fun. :-)
You clipped the part that said "Starting VNC server on 127.0.0.1:5900". Did you try connecting a VNC client?
I think they mean FSpOpenDF (https://dev.os9.ca/techpubs/mac/Files/Files-53.html#HEADING5...), a (relatively) late addition to the Mac API.
The FSSpec calls added in System 7 are mostly new interfaces to existing File Manager functionality. There's an actual high-level `OpenDF()` call, which is like `FSOpen()` except that it won't try to open a driver when the name begins with `.`.
Some applications call `OpenDF()` without checking its availability, but fall back to `FSOpen()` or equivalent if `OpenDF()` returns `paramErr`, which is what the parent is witnessing. See `68k/modules/ams-fs/Files.cc` in the `metamage_1` repo.
If the error message is confusing people, maybe it's time to implement `OpenDF()` for real.
OpenDF is a MacOS toolbox call (which is apparently not implemented)
Strange it errors out on given that I assume the thing does run elsewhere. The X11 version sometimes shows the opening screen but any attempt at interaction leads to the mentioned error. The VLC version shows the error directly.
Any interaction with the Welcome application terminates it. Try setting AMS_APPNAME=Tic-tac-toe in the environment, or AMS_APPNAME="Nyanochrome Cat".
Yes, that works, the tic-tac-toe thing appears and remains even though the error message regarding OpenDF is shown. In other words that error message can be ignored, at least as long as whatever is in AMS_APPNAME does not require whatever OpenDF provides.