What's needed to get taipan onto a cart:

joey_z is willing to manufacture carts like this:

+---------------------------------------------------------------------------+
| Type 12: XEGS 32 KB cartridge                                             |
+---------------------------------------------------------------------------+

 This bank-switched cartridge occupies 16 KB of address space between $8000
 and $BFFF. The cartridge memory is divided into 4 banks, 8 KB each.
 Bank 3 (the last one) is always mapped to $A000-$BFFF. Two lowest bits of
 a byte written to $D500-$D5FF select the bank mapped to $8000-$9FFF.
 The initially selected bank is random, although it seems that 0 gets chosen
 the most often. Atari800 always selects bank 0 initially.

 Reference:
 http://www.atarimax.com/jindroush.atari.org/acarts.html#xegs

"For bank-switched cartridges banks are numbered in the order they appear
in the image file, starting with 0."

So far, he's built a prototype (old EPROM, dead-bug mounted logic ICs,
hand-wired) and is working on a cleaner version, using a 99 cent flash
chip, for production. The only cart shells we've been able to find are
actually for the C=64, and will supposedly work on any Atari 8-bit except
the 1200XL.

...so:

Bank 3 has the startup code, uncompressed title screen, title code,
and code to copy stuff from the banks to RAM, and the tail-end of the
code that needs to be copied. The main portion of the code gets split up
into bank-sized chunks... but the last bank of code doesn't need to be
copied to RAM: I use a custom linker script to have cl65 org the RODATA
segment there, plus a new segment called HIGHCODE, which is executable
code that will run directly from the cartridge. This bank stays selected
while the game is running, so it also has the font in it.

There are currently 2 full banks of code (numbers 0, 1) that need to be
copied to RAM. The bank with RODATA and HIGHCODE is bank 2.

Code in bank 3 will copy all the chunks to correct place in RAM... and
I don't need to leave room for DOS or anything else, so the code can be
ORGed at $0400 (romable_taimain.raw target in the Makefile does this).

romable_taimain.raw is the code that's org'ed to $400, that gets copied
to RAM. rodata.8000 is the code/data that is used directly from ROM,
in bank 2.

Currently, romable_taimain.raw is 17251 bytes. $0400 + 18739 means the
code ends at $4763. The BSS is right after that, and is less than a
page. The OS will place the GR.0 display list at $7c20, and the stack
will grow down from there to $7a20 (except it never grows that much).

Copying the game code to RAM causes a short delay at boot (about 1/3 sec).
It's barely noticeable, and lots of cartridge games have similar delays.
The copying code could maybe be optimized to speed it up a little,
but it's probably not even worth the effort.

Amusingly, the Taipan cart will work on a 32K 800. Not a 16K Atari though.
24K might become possible, but currently isn't (AFAIK there never were
any stock 24K Ataris anyway, they'd be 8K or 16K machines with a 3rd-party
RAM upgrade, and exceedingly rare these days).

bank 3: fixed bank
$a000-$bxxx - title screen data, dl, menu code,
              memory size checker, code to
              copy romable_taimain to RAM.
$bxxx-$bfff - tail end of romable_taimain.raw (around 1400 bytes)
$bffa-$bfff - cart trailer

banks 0, 1: full banks of romable_taimain code
$8000-$9dff - 31 pages (7936 bytes, 7.75K) of code
$9f00-$9fff - unused, filled with $ff

bank 2: RODATA and HIGHCODE segments.
        This bank stays enabled after copying is done.
        currently all but 200-odd bytes are used.
$8000-$9bff - up to 7K of code/data (28 pages)
$9c00-$9fff - font (1K). The font has a nonzero byte at $9ffc,
              so the OS doesn't think there's a cartridge here
              if this bank happens to come up at boot.

Unused areas are filled with $ff (this is the default state for both
flash and EPROM). For the banks that map at $8000, this includes the
cart trailer area. A non-zero byte (our $ff) at $9ffc tells the OS that a
cart isn't inserted in the right slot, so it won't try to initialize/run
our cart as a right cart. Only bank 3 (that maps as a left cart) has a
valid cart trailer... according to cart.txt, every once in a while, bank
3 might come up selected in the $8000 bank at power on. This shouldn't
matter: it'll be in both bank areas, and if the OS tries to init it as
a right cart, the init/run addresses will point to the left cart area.

--

Changes the game needed for a cart version: Not many.

.org $400 for taimain.xex. It could be a little higher, but making it
as low as possible allows room for bugfixes or new features (if I ever
add any).

the RODATA segment is org'ed to $8000 (see cartbank2.cfg).

all of the game's asm code, and a small amount of the C code, goes in
a new segment called HIGHCODE (see cartbank2.cfg).

checkmem.s isn't needed any longer... though there is a new memory checker
(in bank 3) that says "32K required" if someone tries it on a 16K machine.

Exiting the game (N at "Play again?" prompt) reboots since there's no
DOS to exit to. You end up at the title screen again.

Pressing the Reset key does a coldstart (reboot) in the cart version.
You end up at the title screen again.

The title decompression is gone: it just displays the title screen DL and
data straight from ROM. The menu help text and the tail end of the display
list are in RAM though, so the menu can change them. Moving the end of
the DL to RAM means one extra black (border-colored) scanline appears
due to the DL jump instruction. This is the only visible difference
between the cart and xex builds.

The font is located in ROM, on a 1K boundary, so CHBAS can point
to it, rather than $2000 like the xex version.

num_buf and firm are located in the BSS rather than page 6 as they
are in the .xex version.

--

What would be *really* slick: figure out a way to split the code up
across banks and include bankswitching in the logic, so it runs from
the cart and switches banks as needed. This would allow Taipan to run
on a 16K or even an 8K 400/800!

Can it be done? Surely. Can it be done without rewriting everything
in asm? Probably. Do I want to? Not really.

--

A 5200 version should be possible. At the moment, the .xex version is
just under 32K (excluding the memory-checker segment). The 5200 would
need its own conio, since cc65's conio for 5200 uses a 20x24 GR.1 screen
and doesn't support input at all. It would also needs its own bignum
library, since the bigfloat one uses the OS's floating point ROM (which
doesn't exist on the 5200). Probably will do a bigint48 bignum lib.

The 5200 cart window is 32K, so no bankswitching would be
required. There's only 16K of RAM, but that'll be plenty.

The numeric keys on the controller would be used for all input. When
entering a firm name, it'll work like texting on a regular phone keypad,
press 2 for A, press it again for B, etc. The * and # keys will be
backspace and enter. Not sure what to use for A-for-all and delete.

--

The cartridge label should look like a classic brown 1st-gen 400/800 cart,
even if the cart shell itself doesn't.

Yellow text:

TAIPAN!
Computer Game

and a bogus serial number.. CXU000001 or such (U for Urchlay).

The top should say LEFT CARTRIDGE.

If there's going to be a printed manual, it should be based on the Apple II
version's manual. If there was one. If I can find a copy.