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Every time I assemble an application for the TI-83+ calculator (Z80 processor), it stops running at CALL. Here is an example ("Hello") — it starts running just fine, but the calculator freezes at the CALL instruction. Anything I put before CALL works just fine, and anything I put after doesn't run. This is a disassembly of the code, to show addresses rather than labels. I have "touched it up" to show DB lines where those fall in, to make it easier to read.

I have never had this problem writing assembly "programs" (which are loaded into RAM). The only problems that I know of with running "applications" (which are kept in Flash ROM) are that they cannot be self-modifying, and that because paging is necessary, accessing data on a separate page is not possible. This is not self-modifying and only has one page... What have I done wrong?

0080 218900        LD   HL, 0089h
0083 cd9900        CALL 0099h        ;                      --- App stops here
0086 c38f00        JP   008fh
0089 48656c6c6f00  DB   "Hello", 0
008f fd360500      LD   (IY+05h), 0
0093 ef            RST  28h          ; B_CALL (
0094 364c          DB   4C36h        ;   _ReloadAppEntryVecs)
0096 ef            RST  28h          ; B_CALL (
0097 2740          DB   4027h        ;   _JForceCmdNoChar)  --- App should end here
0099 7e            LD   A, (HL)      ;                      --- Call goes to here
009a ef            RST  28h          ; B_CALL (
009b 0445          DB   4504h        ;   _PutC)
009d fe00          CP   0
009f c8            RET  Z
00a0 23            INC  HL
00a1 18f6          JR   0099h
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Does the putc call guarantee that it will preserve the contents of register A? Big trouble if not. To find out if that's the problem, surround the putc call with a push and a pop to preserve A. – Wayne Conrad Jan 27 '10 at 21:36
Pretty sure applications start at 4080h. – Nietzche-jou Jan 27 '10 at 21:39
Yes, putc preserves the accumulator. – c4757p Jan 27 '10 at 21:42
I don't think applications start at 4080h — like I said, anything I put before CALL works (and not everything before 0083h, everything before wherever I put CALL). If applications started at 4080h, it would skip right over it. 0080h is right after the header, which is where all the obscure documentation hints that it should start. – c4757p Jan 27 '10 at 21:44
I find it extremely scary that I remember some of the opcodes (cd, c3, 23 to name a few). – Richard Pennington Jan 27 '10 at 21:53
up vote 9 down vote accepted

Apparently, you are assembling to address 0080h. This can't be correct because the address range 0000h--3FFFh is locked to ROM page 0. Indeed, according to this example, you assemble to 4000h. So your problem is that your CALL is jumping into the firmware, not a part of your application.

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Yeah, that was a dumb moment. I threw in 'ORG 4000h' and now it works. I've got another problem now though... Nothing I 'PutC' is going to the screen — probably a moronic mistake. Jeez — the first freaking language I ever programmed in was 8080 assembler, and now it's been so long my assembly code looks like it was written by a chimpanzee. – c4757p Jan 27 '10 at 22:02
Ok. Problem solved. Yep, the PutC problem as a moronic mistake as well. Thank you. – c4757p Jan 27 '10 at 22:07
+1 for still remembering Z80 asm – hirschhornsalz Apr 22 '11 at 23:18

Here's a memory map I found for the Ti-83+. You can't be loading this program at address $0080, that's where ROM lives. It gets loaded elsewhere. That works for a while until you make a JP or CALL. The CALL $0099 doesn't jump to your expected jump address, it jumps into ROM. That's a quick end.

You need to choose a proper ORG directive in your .asm so it gets loaded into RAM at the expected address. Wherever that might be.

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