Yes, I did early development on both. At least the interface to the OS was Pascal. I still have the early documentation buried in a box somewhere.
Sent from my iPhone
> On Jun 20, 2026, at 2:02 PM, Fred Cisin via cctalk <cctalk(a)classiccmp.org> wrote:
>
> On Sat, 20 Jun 2026, ben via cctalk wrote:
>> PL/1 and C are the only two high level languages a operating system is written in, that I can think of that are well documented, and easily found on the WEB.
>
> I heard that all of the Lisa OS, and much of Macintosh, were written in Pascal. (obviously other than some low-level drivers and performance critical routines?)
> Is that correct?
>
> http://pascal.hansotten.com/apple-lisa-pascal/
>
> When did Macintosh development switch to C?
>
> --
> Grumpy Ol' Fred cisin(a)xenosoft.com
I've been reinventing the wheel quite a bit lately and a couple of new
things as well, so I'm glad I was not well-versed in the issues
surrounding this machine in the BSD sphere and elsewhere.
Some new ideas to help those with this machine:
cycle a known-good elsa or permedia with rom disabled through each slot
of an empty card-cage. On each swap, unplug the machine from the wall
and leave the power switch on for a minute or two, then issue an init
at srm. When you run out of slots:
This should pattern the entire bus with a calm elsa stamp.
There are three digital levels to this coherence problem (at least),
and there's the analog one no one seems to have considered as a member
of the whole picture.
I searched for this above and it was no where. I don't think anyone
thought of it.
The system trains. I saw it do this recently with the si3114udc card.
As the card drifts, the system drifts with it, in sympathy. This drift
can become ingrained in the system beyond the digital realm.
I think it is totally worthwhile to consider making a card for this
purpose using a cheap cpld or mcu. There are already pci projects out
there, it could be a snap. I'll look into it, but what it could DO is
repeatedly and visciously assert aligned and properly timed data in the
same way the 3114 and other misbehaved cards assert mis-skewed data and
timing. This, in theory would re-train the entire io subsystem to
compliance with the cards whole and healthy stride, normalizing the
machine for expansion and deployment.
I could really use some feedback. This list has the best there is.
Weaponizing init and prefetch and a crash, exploiting the system is
good, because it can work, but it isn't the whole fix, just a peek at
the mechanisms which can unlock the problem entirely.
So today I added an analog or dumb aspect to what has been seen as a
monolithic problem. It really is a DUAL problem insofar as BSD is
concerned, but for Alpha architecture it is a four-layered problem, as
I see it.
I lack the targam at this depth, so please forgive my terms:
PCI cage physical state (why is this such a stepchild in the process?
And red-headed!)
PCHIP executing saved bitsieve which was generated by init probe before
prefetch is re-asserted (one-boot process).
PCI to EV6 bridge, logic and code the training is here, I believe, and
incredibly active and intrusive. The SRM is a computer inside the
computer.
EV6 bus and its side of the divide.
The way I see it is shooting through three sets of overlapping chain-
link fences. If you are sqare to them and a good shot, you will put
your shot through the same hole of the 'grid' and it will land in the
appropriate target zone. If you are at an angle, you will land your
shot, but it will be dislocated from your planned landing spot. The
system is really tolerant to this!, it trains itself..... If I keep
hitting the fences, the fences move to accommodate my shot, as though
the strikes were physically enough to do that.
I think the dec hardware guys wanted to puke when they were told to
hang pci off ev6 AND as the only available bus. They hated it with
their whole souls. So, the implemented the most rigorous and perfect
implementation of the 'standard' they could. It was so good and so
rigorous the software guys had to eat the puke they'd made the hardware
guys egest. We are dealing with the aftermath of that battle, is my
take. I'm just looking at the machine.
So if it can fail for bad training, why not try GOOD training?
Some of you may remember me. I've been here since 1997 or so?
I have no formal education at all. I have 40 years of computing
experience and have gotten this far in the project through logic and
theory and the output of the framebuffer in various failure modes.
One, for example would just look corrupted to a LOT of people, but it
looks like a loader for a demo on an 80's 8-bit decompressing its
payload. That is informative. I realized that the framebuffer had
overflown into main memory and I was seeing the contents of that in
this familiar way. That is science, even if it is using in-situ
diagnostic tools. Using this as a primary window into the system I've
built the theory as expressed here. A smarter person would use
expensive tools I don't have, and those have been applied already I'm
sure.
I'ts been awhile is all. I've been lurking.
Please holler!
Best,
Technoid Mutant
Jeffrey S. Worley
Greetings,
Over the past several months I've been privileged to experience RSRE Flex,
an operating environment for PERQ workstations (and a few other bespoke
machines before that). Flex is interesting for being a networked
capability-based system with a hypertext-ish user interface, and everything
is implemented in Algol 68. Closures (in the programming language sense;
called "procedures" in Flex) are a fundamental abstraction similar in
importance to how files are fundamental to Unix*.*
Flex was developed in the late '70s and the '80s by the Royal Signals and
Radar Establishment, a research lab of the UK Ministry of Defence. Its
influence on computing has been limited as far as I can tell: the same
researchers went on to develop the Ten15 abstract machine which begat the
TenDRA compiler, and that might be most of the story. Nevertheless, the
system remains fascinating (I think) if you get the chance to learn about
it. I've collected some Flex materials here: https://mg-1.uk/flex/flex.html
In a few weeks I'll be giving a talk and demonstration of Flex to a
technically well-informed but otherwise unfamiliar audience. I can
certainly fill the time with rich technical details and descriptions of
things like Algol 68 and the PERQ, but I'd like also to have more to say
about the circumstances that brought Flex about and the ways people
encountered it at the time. I'm also hoping to gather information that
might lead to a public release of Flex someday (another thing I've been
working on behind the scenes).
So this message is a general request for information and connections:
- Did you or did someone you know work in computing at RSRE in the '70s and
'80s?
- Flex was shared with people outside of RSRE in the '80s, mainly
universities and colleges from what I can tell. Did you encounter Flex
running on a PERQ in one of these settings?
- Did you ever use Flex under any circumstances? What for?
Also:
- Flex contains numerical routines in both Algol 68 and PERQ microcode that
bear copyright assertions by Numerical Algorithms Group Ltd (now nAG,
nag.com). Does anyone know someone at nAG who would be a sympathetic person
to approach about the disposition of this very old IP?
Many thanks, --T
As a matter of fact, I had already sent Scott an email, but did not get a reply.
> Date: Fri, 26 Jun 2026 08:57:24 -0400
> From: Ken Seefried <seefriek(a)gmail.com <mailto:seefriek@gmail.com>>
> Subject: [cctalk] Re: Looking for a paper in COMPCON '83
>
> You might reach out to the authors. I'm pretty sure S.B. Baden is Scott
> Baden @ UCSD.
>
> https://cseweb.ucsd.edu/~baden/
>
> KJ
I’m trying to get a copy of this paper:
S. B. Baden and D. R. Patel. “Berkeley FP — Experiences with a Functional Programming Language.
Conference Record of COMPCON ’83, San Francisco, California, pp. 274–277, March 1983.
and wonder if anyone on this list has a copy of the proceedings?
The source code is available in the tuhs.org archives and the manual is available in the supplementary documentation for BSD 4.2, but I am interested in what the author wrote about their experiences. (I’m working on a history of John Backus’s functional programming project; Berkeley FP is based on Backus’s work.)
Paul McJones
This is irregular, and I beg your indulgence, as it at least in light
of the recent Alpha EV6 discovery.
I have a story to tell you Mr. Stone, that you will be very glad,
amazed and fulfilled to hear and to know.
This is not the forum for such things, but I am a very little person
and could not hope to reach you in any other way.
Thank you gentlemen for your forbearance. I ask further of you even,
if you know Harold S. Stone, the author of High-Performance Computer
Architecture, please ask him to message me on facebook or call me. I'm
not hard to find, I'm @Technoid_Mutant on Youtube...
Again, my thanks.
Jeff
NetBSD 9.2 and a lot more will now work on Alpha EV6 using a newly
discovered PCI bus cohere protocol involving a couple of SRM commands
and reboots to accomplish whenever the contents of the card cage has
been physically modified.
Here's what I've found:
The Tsunami's bus is reconciled with the PCI bus via a bitsieve, a
matrix stored in undocumented non-volatile memory somewhere on the
board, Pchip most likely.
Triggering a bus-scan with PFREFETCH_MODE enabled just spams the PCI
bus with speculative reads and never gives the cards a voice.
Nothing good is generated and that nothing good is stored in pchip.
This is familiar behavior for the past 30-ish years.
After PREFETCH has been disabled, an attempted boot of the target
operating system, NetBSD 9.2 fails in the expected way, with a Black
Screen of Death at the moment WSCONS is robbed of the framebuffer for
Xwindows. This is the only netBSD problem and it can be resolve with a
simple workaround which separates those two events by some time,
however brief ( a second would do, a tenth ).
The kernel parament 'n', passed via the boot -if n dqa0 command in the
SRM puts Netbsd in a mode convenient to us, as the framebuffer is
initialized as-such (see how nice the text is!) and has had time to
settle. When we take the defaults and 'exit', the process completes to
an XDM login and a desktop. I believe DEC intended this to allow NT
boots under odd circumstances and did not delete the feature, leaving
us a backdoor to boot our operating systems with the machines full
cooperation.
I believe (without testing the method with other than the video card
very thoroughly) that other cards may be positively affected by this
new-found ability to cohere the bus: Sata/Pata cards (Please God!), and
other commodity cards which otherwise would not work.
Why do SCSI cards always work no matter what? The reason is that these
premium cards already know themselves quite well and operate at a
higher-level on the bus. They are immune from the storm coming through
the broken bitsieve, basically establishing a fixed mode without
negotiating?
The Promise ATA133, for example, ought to work, but it is shouted-down
by the mess through the wrong sieve and craps out to pio mode 4. I
think, and I will test, that cohering the machine after installing this
card may give me a fast and reliable (Cheap) local storage.
Why doesn't the onboard ata controller ever really work? It is not
really on the PCI bus, but is rather sort of in-between the Tsunami and
PCI on an ISA bridge and so cannot benefit by a probe. I believe the
drivers for NT, VMS, and TRU use specific driver tweaks to accomplish
stable performance at UDMA speeds on this commodity chip.
The alterations to fix the boot process are trivial, it isn't and never
really has been a NetBSD problem, nor OpenBSD.
Go ahead and cohere your Alpha's bus by:
Install NetBSD 9.2 with the full installation, enable XDM if you want.
It won't run X. We knew that, but the process allows the bus to be
probed without prefetch confusing everthing.
Enter SRM.
Alphabox>>> set pci_parity off
Alphabox>>> set prefetch_mode off
Alphabox>>> init
let the boot proceed to the familiar Black Screen of Death.
Reset the machine and re-enter the SRM
Alphabox>>> set prefetch_mode on
Alphabox>>> init
The machine is permanently configured with the new bitsieve generated
by the probe we just conducted. You will not need to modify these
again unless you makes some hardware change in the card-cage.
If you have an Ev6 in the closet, now's the time to drag it out and
reclaim its glory. This fix allows prefetch to work the way it was
designed to, with tremendous performance benefits, and with the proper
sieve in place, strange things will no longer occur.
I have not tested as yet, but I believe that with this cohere in place
on your macine, and using a similar mechanism to allow the video card
time to settle, OpenBSD 5.9 and/or 6.0 should run, even though no one
ever saw X on them before, you can today.
Why did the oldest versions of NetBSD, OpenBSD, and Linux work in
Xwindows just fine? I am guessing, but given that DEC had no possible
interest in helping anyone do this (Evidence all of HISTORY), these
three teams had no real choice but to slavishly emulate the boot
process in every way they could, not knowing which emulated
eccentricity was the actual key. It worked, but no one outside of DEC
could know why.
When the Openbsd/Netbsd/freebsd teams got new members, changed tools,
rebuilt anew, at some point they forgot why the code was so strange and
obviously inefficient. It should have been a clue, but they instead
'streamlined and optimized'-away the CAREFUL TIMING and they wiped away
another thing that I think was probably once done by Tru, NT, VMS,
OBSD, FBSD, and NBSD, all. I think they blindly passed something to
Pchip, a key bitsieve or a special command to probe without prefetch
and then go back as we are doing manually via SRM. Whatever the
mechanism was, it was not seen as such and removed, breaking X then.
Regression would show what worked, but it would never tell you why
without a terrific forensic effort involving long and unfettered access
to the actual, known-good vintage iron.
Best Regards,
Technoid Mutant
(Also Known as The Technoid and as Technoid6502)
We've been working on restoring and powering up a fairly rare bird of IBM Midrange machine, the IBM System/38.
We had some good success this past weekend that I'd like to share.
https://crusty.computer/?p=89
June Work Recap: Edith – The Crusty Computer Club
crusty.computer
tl;dr: she powered up and no smoke came out and no sparks came out! There are several repairs needed but they are known and fixable.
