417
edits
(Added info about Nick Sonneveld's IDA databases.) |
(Added raw info dump about AGI v2.936 and AGI256's exe's differences.) |
||
Line 14: | Line 14: | ||
Thanks Nick. You can check out the disassemblies if you're interested at the | Thanks Nick. You can check out the disassemblies if you're interested at the | ||
[http://www.agidev.com/projects/nagi/dev.php AGI Development Site]. | [http://www.agidev.com/projects/nagi/dev.php AGI Development Site]. | ||
==Differences between AGI v2.936 and AGI256's hacked AGI executable== | |||
This is a raw info dump from a personal file... but there's details to be sure: | |||
<pre> | |||
Differences between original Sierra On-Line's AGI interpreter version 2.936 | |||
and the hacked AGI256's AGI.EXE: | |||
///////////////////////////////////////////////////////////////////////////// | |||
Copyright string changed and some other bytes... | |||
not 100% sure if they are used or not... let's see. | |||
If changed bytes from seg000:0065 to seg000:0077 to all zeroes and to all semirandomly | |||
typed in numbers and all it did was that it made the AGI256 demo have some white color | |||
pixels where they shouldn't be in the Larry's bar screen. So... it may very well be that they're used. | |||
NOTE THAT: E8 49 00 = call sub_C4 = db 'FI',0 | |||
AND there's a real subroutine starting at seg000:00C4 so it might be used as code! | |||
- ORIGINAL 2.936 INTERPRETER: | |||
seg000:0000 aAdventureGameI db 'Adventure Game Interpreter',0Dh,0Ah | |||
seg000:0000 ; DATA XREF: seg001:0000�o | |||
seg000:0000 ; sub_401D+59�r ... | |||
seg000:0000 db 'Copyright (C) 1984, 1985, 1986 Sierra On-Line, Inc.',0Dh,0Ah | |||
seg000:0000 db 'Authors: Jeff Stephenson & Chris Iden',0Dh,0Ah | |||
seg000:0000 db 'FI',0 | |||
-> AGI256 INTERPRETER: | |||
seg000:0000 aAgi256ColorsCS db 'AGI 256 colors ',0Dh,0Ah ; DATA XREF: seg001:0000�o | |||
seg000:0000 ; sub_401D+59�r ... | |||
seg000:0000 db '(C) Sierra On-Line - by Jeff Stephenson and Chris Iden',0Dh,0Ah | |||
seg000:0000 db 'Hacked by Dark Minister',0Dh,0Ah | |||
seg000:0000 db 'FI',0 | |||
seg000:0065 db 87h ; Unknown data from 0x0065 to 0x0077 | |||
seg000:0066 db 49h ; I | |||
seg000:0067 db 29h ; ) | |||
seg000:0068 db 23h ; # ; DATA XREF: sub_4125+12�r | |||
seg000:0068 ; sub_4125+27�r ... | |||
seg000:0069 db 92h | |||
seg000:006A db 99h | |||
seg000:006B db 99h | |||
seg000:006C db 11h | |||
seg000:006D db 11h ; | |||
seg000:006E db 11h | |||
seg000:006F db 19h ; | |||
seg000:0070 db 88h | |||
seg000:0071 db 37h ; 7 | |||
seg000:0072 db 83h | |||
seg000:0073 db 83h ; â | |||
seg000:0074 db 73h ; s | |||
seg000:0075 db 87h ; ç | |||
seg000:0076 db 38h ; 8 | |||
seg000:0077 db 83h ; â | |||
///////////////////////////////////////////////////////////////////////////// | |||
In function _StatLineWrite (Function name taken from Agi2917.idb): | |||
Changes _WindowLineClr call to setWhiteMenuBar call | |||
which clears first 8 rows of video memory with white. | |||
So changes the code that clears the status line before writing to it. | |||
Rationale: | |||
Probably because of wanting VGA support. | |||
- ORIGINAL 2.936 INTERPRETER: | |||
seg000:34D7 E8 CC F6 call sub_2BA6 ; _WindowLineClr in Agi2917.idb | |||
-> AGI256 INTERPRETER: | |||
seg000:34D7 E8 80 65 call near ptr 9A5Ah | |||
0x9A5A - 0x9800 = 0x025A in the AGIGRAF.OVL: | |||
seg000:025A ; Clears first 8 rows (320*8 bytes) of video memory | |||
seg000:025A ; with white pixels (Color 15). | |||
seg000:025A | |||
seg000:025A setWhiteMenuBar proc near | |||
seg000:025A push cx | |||
seg000:025B push es | |||
seg000:025C push di | |||
seg000:025D push ax | |||
seg000:025E mov ax, 0A000h | |||
seg000:0261 mov es, ax | |||
seg000:0263 assume es:nothing | |||
seg000:0263 xor di, di | |||
seg000:0265 mov ax, 0F0Fh | |||
seg000:0268 mov cx, 500h | |||
seg000:026B repe stosw | |||
seg000:026D pop ax | |||
seg000:026E pop di | |||
seg000:026F pop es | |||
seg000:0270 assume es:nothing | |||
seg000:0270 pop cx | |||
seg000:0271 retn | |||
seg000:0271 setWhiteMenuBar endp | |||
///////////////////////////////////////////////////////////////////////////// | |||
In _ArrangeMem (Name from Agi2917.idb): | |||
Changed to allocating twice the memory than with the original interpreter. | |||
Saves the allocated memory's segment to SBuff_Seg in Agi2917.idb and | |||
to agi256PicSeg in AGI256's disassembly. | |||
Rationale: | |||
Need another screen besides the 16 color & control line & priority info screen | |||
for 256 color info so that doubles the memory need. | |||
0x690 in paragraphs (16 bytes) is 160*168 bytes. | |||
0xD20 is twice that. | |||
- ORIGINAL 2.936 INTERPRETER: | |||
seg000:4240 mov bx, 690h | |||
-> AGI256 INTERPRETER: | |||
seg000:4240 mov bx, 0D20h | |||
///////////////////////////////////////////////////////////////////////////// | |||
In _ArrangeMem (Name from Agi2917.idb): | |||
Changed to allocating twice the memory than with the original interpreter. | |||
Saves the allocated memory's segment to wHGCFontData in Agi2917.idb. | |||
Rationale: | |||
Don't really know. Maybe not needed at all? Or it's also possible that the | |||
wHGCFontData is not a correct name for the variable and/or the allocate | |||
area is used for something else and Hercules font data. | |||
0x690 in paragraphs (16 bytes) is 160*168 bytes. | |||
0xD20 is twice that. | |||
- ORIGINAL 2.936 INTERPRETER: | |||
seg000:4259 add ax, 690h | |||
-> AGI256 INTERPRETER: | |||
seg000:4259 add ax, 0D20h | |||
///////////////////////////////////////////////////////////////////////////// | |||
In an AGI screen buffer filling function (_SBuffClear in Agi2917.idb): | |||
Fills the AGI screen buffer with AX contents. Filling space doubled in AGI256. | |||
(There's some obsolete Hercules code in this function, but it's not used so | |||
it doesn't matter). | |||
Use cases: | |||
AX = 0x4040 (Fill with lowest priority i.e. 4 and black color i.e. 0). | |||
AX = 0x4F4F (Fill with lowest priority i.e. 4 and white color i.e. 15). | |||
Rationale: | |||
Needed because the 256 color screen and the normal 16 color screen are | |||
horizontally adjacent. Probably only needed for clearing the 16 color | |||
screen because the 256 color screen is always fully filled when loading | |||
an AGI256 picture resource into it. | |||
160*168 = 0x3480 * 2 | |||
160*168*2 = 0x6900 * 2 | |||
There's a repe stosw using cx after this instruction. | |||
- ORIGINAL 2.936 INTERPRETER: | |||
seg000:525E mov cx, 3480h | |||
-> AGI256 INTERPRETER: | |||
seg000:525E mov cx, 6900h | |||
///////////////////////////////////////////////////////////////////////////// | |||
In _SBuffXLine (Name from Agi2917.idb): | |||
Changes direct pixel manipulation code to a function call. | |||
Functionally changes nothing as the called function is functionally | |||
identical to the code that was replaced. | |||
Rationale: | |||
Maybe not needed at all? Maybe some leftover modification that wasn't used | |||
after all? | |||
0x9A4F must be pointing to: | |||
seg000:024E ; Sets and/or clears current pixel bits | |||
seg000:024E ; AL = ES:[DI] = PIXEL | |||
seg000:024E ; (PIXEL |= BH) &= BL | |||
seg000:024E | |||
seg000:024E setClrCurrPixel proc near | |||
seg000:024E nop | |||
seg000:024F mov al, es:[di] | |||
seg000:0252 or al, bh | |||
seg000:0254 and al, bl | |||
seg000:0256 mov es:[di], al | |||
seg000:0259 retn | |||
seg000:0259 setClrCurrPixel endp | |||
in AGIGRAF.OVL! So that makes their relocation value 0x9A4F - 0x24E = 0x9801... | |||
wait... that's not even... let's see, there's a nop in setClrCurrPixel's start. | |||
Let's throw that away so we'd jump right into 0x24F so the relocation value | |||
would be 0x9A4F - 0x24E = 0x9800... now that's better :-). | |||
- ORIGINAL 2.936 INTERPRETER: | |||
seg000:5298 loc_5298: ; CODE XREF: sub_526F+34�j | |||
seg000:5298 inc di | |||
seg000:5299 mov al, es:[di] ; CHANGED | |||
seg000:529C or al, bh ; CHANGED | |||
seg000:529E and al, bl ; CHANGED | |||
seg000:52A0 mov es:[di], al ; CHANGED | |||
seg000:52A3 loop loc_5298 | |||
-> AGI256 INTERPRETER: | |||
seg000:5298 loc_5298: ; CODE XREF: sub_526F+34�j | |||
seg000:5298 inc di | |||
seg000:5299 call near ptr 9A4Fh ; CHANGED | |||
seg000:52A3 loop loc_5298 | |||
///////////////////////////////////////////////////////////////////////////// | |||
In _SBuffYLine (Name from Agi2917.idb): | |||
This converts the vertical drawing loop to use 320 rather than 160 as the | |||
offset between rows. Also changes direct pixel manipulation code to a | |||
function call with functionally identical code in it. | |||
Rationale: | |||
As there are now two AGI screens horizontally adjacent to each other (Left | |||
160x168 one is the normal 16 color screen and the right 160x168 one is the | |||
new 256 color screen) the vertical line drawing loop has to use 320 as the | |||
offset between rows rather than 160. The pixel manipulation code replacement | |||
with a function call is probably not needed as it doesn't functionally change | |||
anything. | |||
- ORIGINAL 2.936 INTERPRETER: | |||
seg000:52E3 loc_52E3: ; CODE XREF: sub_52AB+34�j | |||
seg000:52E3 add di, 0A0h ; 'á' | |||
seg000:52E7 mov al, es:[di] | |||
seg000:52EA or al, bh | |||
seg000:52EC and al, bl | |||
seg000:52EE mov es:[di], al | |||
seg000:52F1 loop loc_52E1 | |||
-> AGI256 INTERPRETER: | |||
seg000:52E3 loc_52E3: ; CODE XREF: sub_52AB+34�j | |||
seg000:52E3 add di, 140h | |||
seg000:52E7 call near ptr 9A4Fh | |||
seg000:52F1 loop loc_52E1 | |||
which is effectively the same as: | |||
seg000:52E3 loc_52E3: ; CODE XREF: sub_52AB+34�j | |||
seg000:52E3 add di, 140h | |||
seg000:024F mov al, es:[di] | |||
seg000:0252 or al, bh | |||
seg000:0254 and al, bl | |||
seg000:0256 mov es:[di], al | |||
seg000:52F1 loop loc_52E1 | |||
///////////////////////////////////////////////////////////////////////////// | |||
In _SBuffPlotPixel (Name from Agi2917.idb): | |||
Changes multiplication from 160 to 320 in calculation x + y * 320. | |||
(16 to 32 really but they're multiplied by 10 before these changes). | |||
Rationale: | |||
As there are now two AGI screens horizontally adjacent to each other (Left | |||
160x168 one is the normal 16 color screen and the right 160x168 one is the | |||
new 256 color screen) the pixel plotting code has to use 320 as the offset | |||
between rows rather than 160. | |||
- ORIGINAL 2.936 INTERPRETER: | |||
seg000:5311 shl di, 1 | |||
seg000:5313 shl di, 1 | |||
seg000:5315 shl di, 1 | |||
seg000:5317 shl di, 1 | |||
-> AGI256 INTERPRETER: | |||
seg000:5311 shl di, 4 | |||
seg000:5314 shl di, 1 | |||
///////////////////////////////////////////////////////////////////////////// | |||
In _SBuffPlotPixel (Name from Agi2917.idb): | |||
Changes direct pixel manipulation code to a function call. | |||
Functionally changes nothing as the called function is functionally | |||
identical to the code that was replaced. | |||
Rationale: | |||
Maybe not needed at all? Maybe some leftover modification that wasn't used | |||
after all? | |||
- ORIGINAL 2.936 INTERPRETER: | |||
seg000:532F mov al, es:[di] | |||
seg000:5332 or al, bh | |||
seg000:5334 and al, bl | |||
seg000:5336 mov es:[di], al | |||
-> AGI256 INTERPRETER: | |||
seg000:532F call near ptr 9A4Fh | |||
///////////////////////////////////////////////////////////////////////////// | |||
In _SBuffPicFill (Name from Agi2917.idb): | |||
Changes multiplication from 160 to 320 in calculation x + y * 320. | |||
(16 to 32 really but they're multiplied by 10 before these changes). | |||
Rationale: | |||
As there are now two AGI screens horizontally adjacent to each other (Left | |||
160x168 one is the normal 16 color screen and the right 160x168 one is the | |||
new 256 color screen) the pixel plotting code has to use 320 as the offset | |||
between rows rather than 160. | |||
- ORIGINAL 2.936 INTERPRETER: | |||
seg000:5483 shl di, 1 | |||
seg000:5485 shl di, 1 | |||
seg000:5487 shl di, 1 | |||
seg000:5489 shl di, 1 | |||
-> AGI256 INTERPRETER: | |||
seg000:5483 shl di, 4 | |||
seg000:5486 shl di, 1 | |||
///////////////////////////////////////////////////////////////////////////// | |||
In _Pic_Show (Name from Agi2917.idb): | |||
Before calling j_EGAPutBlock (Name from Agi2917.idb) or j_AG_agi256PutBlock | |||
(Name from AGI256's disassembly) rotate the AGI screen buffers' pixels right | |||
by four in place (Writes the rotated values back to the buffer, that is) | |||
if a certain variable is one (rotate_sbuff). Probably exchanges the places | |||
of color and priority information. | |||
Rationale: | |||
As there are now two AGI screens horizontally adjacent to each other (Left | |||
160x168 one is the normal 16 color screen and the right 160x168 one is the | |||
new 256 color screen) priority screen showing code needs to use 320 as the | |||
offset between rows rather than 160. But because the code is just a single | |||
loop for rotating the whole screen and rotating the 256 color values (If | |||
they aren't shown) doesn't matter (As presumably they are rotated back to | |||
their normal values afterwards) it is easier to just rotate both screens. | |||
160*168 = 0x6900 | |||
160*168*2 = 0xD200 | |||
- ORIGINAL 2.936 INTERPRETER: | |||
seg000:5563 mov cx, 6900h | |||
-> AGI256 INTERPRETER: | |||
seg000:5563 mov cx, 0D200h | |||
///////////////////////////////////////////////////////////////////////////// | |||
In _FBuffOffset (Agi2917.idb), agiToScreenCoords (AGI256 disassembly): | |||
Changes graphics driver dependent (CGA, EGA, Hercules etc) specific | |||
switches to a single VGA specific code. | |||
Rationale: | |||
AGI256 requires VGA so there's no need for the other switches. | |||
// The original 2.936 interpreter's part in pseudo C: | |||
{ | |||
uint16 display = *(ds:0x1130); // enum {CGA, Tandy, HGC, EGA, VGA?}; | |||
uint16 computer = *(ds:0x112e); // enum { IBM_PC?, PCJr?, Tandy?, ...?} | |||
if (display == VGA) | |||
x *= 2; | |||
if (computer == IBM_PC) { | |||
x /= 2; | |||
if (display == EGA) | |||
x /= 2; | |||
} | |||
if (computer == Tandy) { | |||
if (display == EGA) | |||
x /= 4; | |||
} | |||
offset += x; | |||
retn; | |||
} | |||
// AGI256 interpreter's part in pseudo C: | |||
di += bx * 2; | |||
retn; | |||
- ORIGINAL 2.936 INTERPRETER: | |||
seg000:5636 cmp word ptr ds:1130h, 4 | |||
seg000:563B jnz loc_563F | |||
seg000:563D shl bx, 1 | |||
seg000:563F | |||
seg000:563F loc_563F: ; CODE XREF: seg000:563B�j | |||
seg000:563F cmp word ptr ds:112Eh, 0 | |||
seg000:5644 jnz loc_5651 | |||
seg000:5646 shr bx, 1 | |||
seg000:5648 cmp word ptr ds:1130h, 3 | |||
seg000:564D jnz loc_5651 | |||
seg000:564F shr bx, 1 | |||
seg000:5651 | |||
seg000:5651 loc_5651: ; CODE XREF: seg000:5644�j | |||
seg000:5651 ; seg000:564D�j | |||
seg000:5651 cmp word ptr ds:112Eh, 2 | |||
seg000:5656 jnz loc_5663 | |||
seg000:5658 cmp word ptr ds:1130h, 3 | |||
seg000:565D jnz loc_5663 | |||
seg000:565F shr bx, 1 | |||
seg000:5661 shr bx, 1 | |||
seg000:5663 | |||
seg000:5663 loc_5663: ; CODE XREF: seg000:5656�j | |||
seg000:5663 ; seg000:565D�j | |||
seg000:5663 add di, bx | |||
seg000:5665 retn | |||
-> AGI256 INTERPRETER: | |||
seg000:5636 shl bx, 1 | |||
seg000:5638 add di, bx | |||
seg000:563A retn | |||
///////////////////////////////////////////////////////////////////////////// | |||
In _PicBuffOffset (Agi2917.idb), screenOffset (AGI256 disassembly): | |||
Changes multiplication from 160 to 320 in calculation x + y * 320. | |||
(16 to 32 really but they're multiplied by 10 before these changes). | |||
Rationale: | |||
As there are now two AGI screens horizontally adjacent to each other (Left | |||
160x168 one is the normal 16 color screen and the right 160x168 one is the | |||
new 256 color screen) the AGI screen pixel position calculation has to use | |||
320 as the offset between rows rather than 160. | |||
- ORIGINAL 2.936 INTERPRETER: | |||
seg000:5676 shl di, 1 | |||
seg000:5678 shl di, 1 | |||
seg000:567A shl di, 1 | |||
seg000:567C shl di, 1 | |||
-> AGI256 INTERPRETER: | |||
seg000:5676 shl di, 4 | |||
seg000:5679 shl di, 1 | |||
seg000:567B nop | |||
seg000:567C nop | |||
seg000:567D nop | |||
///////////////////////////////////////////////////////////////////////////// | |||
Function that is called near the _EnablePicDraw's beginning in Agi2917.idb: | |||
If the relocation value 0x9800 works here too (Why wouldn't it?) then | |||
we're changing jump from ???GRAF.OVL's first subroutine (Not from the | |||
jump table in its head but after that at 0x0015 is the first subroutine) | |||
to a straight return. The first subroutine the the ???GRAF.OVL is the video | |||
mode setting routine. At least in AGIGRAF.OVL it sets 320x200 256 color video | |||
mode (Mode 13h), sets ds:[videoOfs] to 0xA000 and clears first 64 KiB of video | |||
memory with zeroes. | |||
Rationale: | |||
So this basically throws away some video mode specific stuff and replaces | |||
it with a VGA specific "nothing needed here" code :). | |||
// The original 2.936 interpreter's part in pseudo C: | |||
{ | |||
uint16 display = *(ds:0x1130); // enum {CGA, Tandy, HGC, EGA, VGA?}; | |||
uint16 computer = *(ds:0x112e); // enum { IBM_PC?, PCJr?, Tandy?, ...?} | |||
if (computer == IBM_PC && display != HGC && display != EGA) | |||
setVideoMode(); // goto near ptr 0x9815; | |||
else | |||
retn; | |||
} | |||
// AGI256 interpreter's part in pseudo C (Eh :)): | |||
retn; | |||
- ORIGINAL 2.936 INTERPRETER: | |||
seg000:569F jmp near ptr 9815h | |||
-> AGI256 INTERPRETER: | |||
seg000:569F retn | |||
///////////////////////////////////////////////////////////////////////////// | |||
If the relocation value 0x9800 works here too (Why wouldn't it?) then | |||
we're changing jump from ???GRAF.OVL's second subroutine (Not from the | |||
jump table in its head but after that at 0x0037 is the second subroutine) | |||
to a straight return. The second subroutine the the ???GRAF.OVL is the text | |||
mode setting routine. At least in AGIGRAF.OVL it sets 40x25 16 color text mode, | |||
enables background intensity (Colors 8-15), sets some cursor stuff and | |||
clears the text screen using some attribute. | |||
So this basically throws away some video mode specific stuff and replaces | |||
it with a VGA specific "nothing needed here" code :). | |||
// The original 2.936 interpreter's part in pseudo C: | |||
{ | |||
uint16 display = *(ds:0x1130); // enum {CGA, Tandy, HGC, EGA, VGA?}; | |||
uint16 computer = *(ds:0x112e); // enum { IBM_PC?, PCJr?, Tandy?, ...?} | |||
if (computer == IBM_PC && display != HGC && display != EGA) | |||
setTextMode(); // goto near ptr 0x9837; | |||
else | |||
retn; | |||
} | |||
// AGI256 interpreter's part in pseudo C (Eh :)): | |||
retn; | |||
- ORIGINAL 2.936 INTERPRETER: | |||
seg000:5937 jmp near ptr 9837h | |||
-> AGI256 INTERPRETER: | |||
seg000:5937 retn | |||
///////////////////////////////////////////////////////////////////////////// | |||
'GAMEID' -string's (No trailing zero btw) start is turned into 'DM', 0 | |||
Rationale: | |||
DM is probably short for "Dark Minister" who was the hacker who made the | |||
AGI256 hack. Is this modification needed? Is this checked as the game ID | |||
or something? Don't know... | |||
- ORIGINAL 2.936 INTERPRETER: | |||
seg000:5B6C 'GAMEID' (A string without the trailing zero) | |||
-> AGI256 INTERPRETER: | |||
seg000:5B6C 'DM', 0 (, 'eID') | |||
///////////////////////////////////////////////////////////////////////////// | |||
In _MenuInput (Agi2917.idb): | |||
Changes _WindowLineClr (Agi2917.idb) call near the function's beginning to | |||
AGIGRAF.OVL's setWhiteMenuBar which clears first 8 rows (320*8 bytes) of | |||
video memory with white pixels (Color 15). | |||
Rationale: | |||
Probably needed for VGA support when handling the menu/status line. | |||
- ORIGINAL 2.936 INTERPRETER: | |||
seg000:93ED call sub_2BA6 | |||
-> AGI256 INTERPRETER: | |||
seg000:93ED call near ptr 9A5Ah | |||
///////////////////////////////////////////////////////////////////////////// | |||
- ORIGINAL 2.936 INTERPRETER & AGI256 INTERPRETER -info combined: | |||
seg001:0000 dd 0 ; | |||
seg001:0004 db 0 ; | |||
seg001:0005 db 0 ; | |||
seg001:0006 dd unk_9800 | |||
seg001:000A dw seg seg006 | |||
seg001:000C db 86h ; å | |||
seg001:000D db 0 ; | |||
seg001:000E db 0 ; | |||
seg001:000F db 0 ; | |||
seg001:0010 db 0 ; | |||
seg001:0011 db 0 ; | |||
seg001:0012 db 2Bh ; + | |||
seg001:0013 db 0 ; | |||
seg001:0014 db 0 ; | |||
seg001:0015 db 0 ; | |||
seg001:0016 dd unk_9800 | |||
seg001:001A dw seg seg004 | |||
seg001:001C db 93h ; ô | |||
seg001:001D db 0 ; | |||
seg001:001E db 0 ; | |||
seg001:001F db 0 ; | |||
seg001:0020 db 0 ; | |||
seg001:0021 db 0 ; | |||
seg001:0022 db 1Eh ; | |||
seg001:0023 db 0 ; | |||
seg001:0024 db 0 ; | |||
seg001:0025 db 0 ; | |||
seg001:0026 dd unk_9800 | |||
seg001:002A dw seg seg005 | |||
seg001:002C db 159 | |||
seg001:002D db 0 ; | |||
seg001:002E db 0 ; | |||
seg001:002F db 0 ; | |||
seg001:0030 db 0 ; | |||
seg001:0031 db 0 ; | |||
seg001:0032 db 37 ; Changed 0x25 (37) -> 0x28 (40) in AGI256 hack, size in paragraphs | |||
seg001:0033 db 0 ; | |||
seg001:0034 db 0 ; | |||
seg001:0035 db 0 ; | |||
seg001:0036 dd unk_9800 | |||
seg001:003A dw seg seg007 | |||
seg001:003C db 172 | |||
seg001:003D db 0 ; | |||
seg001:003E db 0 ; | |||
seg001:003F db 0 ; | |||
seg001:0040 db 0 ; | |||
seg001:0041 db 0 ; | |||
seg001:0042 db 91 | |||
seg001:0043 db 0 ; | |||
seg001:0044 db 0 ; | |||
seg001:0045 db 0 ; | |||
seg001:0046 dd unk_9800 | |||
seg001:004A dw seg seg003 | |||
seg001:004C db 185 | |||
seg001:004D db 0 ; | |||
seg001:004E db 0 ; | |||
seg001:004F db 0 ; | |||
seg001:0050 db 0 ; | |||
seg001:0051 db 0 ; | |||
seg001:0052 db 23 ; Changed 0x17 (23) -> 0x28 (40) in AGI256 hack, size in paragraphs | |||
seg001:0053 db 0 ; | |||
seg001:0054 db 0 ; | |||
seg001:0055 db 0 ; | |||
seg001:0056 dd unk_9DB0 | |||
seg001:005A dw seg seg008 | |||
seg001:005C db 197 | |||
seg001:005D db 0 ; | |||
seg001:005E db 0 ; | |||
seg001:005F db 0 ; | |||
seg001:0060 db 0 ; | |||
seg001:0061 db 0 ; | |||
seg001:0062 db 22 ; Changed 0x16 (22) -> 0x19 (25) in AGI256 hack, size in paragraphs | |||
seg001:0063 db 0 ; | |||
seg001:0064 db 0 ; | |||
seg001:0065 db 0 ; | |||
seg001:0066 dd unk_9DB0 | |||
seg001:006A dw seg seg009 | |||
seg001:006C dw 210 | |||
seg001:006E db 0 ; | |||
seg001:006F db 0 ; | |||
seg001:0070 db 0 ; | |||
seg001:0071 db 0 ; | |||
seg001:0072 dw 38 | |||
seg001:0074 db 0 ; | |||
seg001:0075 db 40h | |||
seg001:0076 db 0 ; | |||
seg001:0077 db 0 ; | |||
seg001:0078 dd seg seg009+0BF10000h | |||
seg001:007C dw 0DFh | |||
seg001:007E db 0 ; | |||
seg001:007F db 0 ; | |||
seg001:0080 db 0 ; | |||
seg001:0081 db 0 ; | |||
seg001:0082 db 0E8h ; F | |||
seg001:0083 db 1 ; | |||
seg001:0084 db 0FFh ; | |||
seg001:0085 db 0FFh ; | |||
seg001:0086 aCga_graf_ovl db 'CGA_GRAF.OVL',0 ; Changed to an empty string in AGI256 hack | |||
seg001:0093 aJr_graf_ovl db 'JR_GRAF.OVL',0 ; Changed to an empty string in AGI256 hack | |||
seg001:009F aEga_graf_ovl db 'EGA_GRAF.OVL',0 ; Changed to 'AGIGRAF.OVL',0 in AGI256 hack | |||
seg001:00AC aHgc_graf_ovl db 'HGC_GRAF.OVL',0 ; Changed to an empty string in AGI256 hack | |||
seg001:00B9 aVg_graf_ovl db 'VG_GRAF.OVL',0 ; Changed to an empty string in AGI256 hack | |||
seg001:00C5 aIbm_objs_ovl db 'IBM_OBJS.OVL',0 ; Changed to 'AGIOBJS.OVL',0 in AGI256 hack | |||
seg001:00D2 aHgc_objs_ovl db 'HGC_OBJS.OVL',0 ; Changed to an empty string in AGI256 hack | |||
seg001:00DF aAgidata_ovl db 'AGIDATA.OVL',0 | |||
seg001:00EB aAgi_exe db 'AGI.EXE',0 | |||
///////////////////////////////////////////////////////////////////////////// | |||
</pre> |
edits