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CnC_Red_Alert/WIN32LIB/WSA/XORDELTA.ASM

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Initial commit of Command & Conquer Red Alert source code.
2025-02-27 17:15:05 +01:00
;
; Command & Conquer Red Alert(tm)
; Copyright 2025 Electronic Arts Inc.
;
; This program is free software: you can redistribute it and/or modify
; it under the terms of the GNU General Public License as published by
; the Free Software Foundation, either version 3 of the License, or
; (at your option) any later version.
;
; This program is distributed in the hope that it will be useful,
; but WITHOUT ANY WARRANTY; without even the implied warranty of
; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
; GNU General Public License for more details.
;
; You should have received a copy of the GNU General Public License
; along with this program. If not, see <http://www.gnu.org/licenses/>.
;
; **************************************************************************
; ** C O N F I D E N T I A L --- W E S T W O O D A S S O C I A T E S *
; **************************************************************************
; * *
; * Project Name : WSA Support routines *
; * *
; * File Name : XORDELTA.ASM *
; * *
; * Programmer : Scott K. Bowen *
; * *
; * Last Update :May 23, 1994 [SKB] *
; * *
; *------------------------------------------------------------------------*
; * Functions: *
;* Apply_XOR_Delta -- Apply XOR delta data to a buffer. *
;* Apply_XOR_Delta_To_Page_Or_Viewport -- Calls the copy or the XOR funti*
;* Copy_Delta_buffer -- Copies XOR Delta Data to a section of a page. *
;* XOR_Delta_Buffer -- Xor's the data in a XOR Delta format to a page. *
; * - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -*
IDEAL
P386
MODEL USE32 FLAT
LOCALS ??
; These are used to call Apply_XOR_Delta_To_Page_Or_Viewport() to setup flags parameter. If
; These change, make sure and change their values in wsa.cpp.
DO_XOR equ 0
DO_COPY equ 1
TO_VIEWPORT equ 0
TO_PAGE equ 2
;
; Routines defined in this module
;
;
; UWORD Apply_XOR_Delta(UWORD page_seg, BYTE *delta_ptr);
; PUBLIC Apply_XOR_Delta_To_Page_Or_Viewport(UWORD page_seg, BYTE *delta_ptr, WORD width, WORD copy)
;
; PROC C XOR_Delta_Buffer
; PROC C Copy_Delta_Buffer
;
GLOBAL C Apply_XOR_Delta:NEAR
GLOBAL C Apply_XOR_Delta_To_Page_Or_Viewport:NEAR
CODESEG
;***************************************************************************
;* APPLY_XOR_DELTA -- Apply XOR delta data to a linear buffer. *
;* AN example of this in C is at the botton of the file commented out. *
;* *
;* INPUT: BYTE *target - destination buffer. *
;* BYTE *delta - xor data to be delta uncompress. *
;* *
;* OUTPUT: *
;* *
;* WARNINGS: *
;* *
;* HISTORY: *
;* 05/23/1994 SKB : Created. *
;*=========================================================================*
PROC Apply_XOR_Delta C near
USES ebx,ecx,edx,edi,esi
ARG target:DWORD ; pointers.
ARG delta:DWORD ; pointers.
; Optimized for 486/pentium by rearanging instructions.
mov edi,[target] ; get our pointers into offset registers.
mov esi,[delta]
cld ; make sure we go forward
xor ecx,ecx ; use cx for loop
??top_loop:
xor eax,eax ; clear out eax.
mov al,[esi] ; get delta source byte
inc esi
test al,al ; check for a SHORTDUMP ; check al incase of sign value.
je ??short_run
js ??check_others
;
; SHORTDUMP
;
mov ecx,eax ; stick count in cx
??dump_loop:
mov al,[esi] ;get delta XOR byte
xor [edi],al ; xor that byte on the dest
inc esi
inc edi
dec ecx
jnz ??dump_loop
jmp ??top_loop
;
; SHORTRUN
;
??short_run:
mov cl,[esi] ; get count
inc esi ; inc delta source
??do_run:
mov al,[esi] ; get XOR byte
inc esi
??run_loop:
xor [edi],al ; xor that byte.
inc edi ; go to next dest pixel
dec ecx ; one less to go.
jnz ??run_loop
jmp ??top_loop
;
; By now, we know it must be a LONGDUMP, SHORTSKIP, LONGRUN, or LONGSKIP
;
??check_others:
sub eax,080h ; opcode -= 0x80
jnz ??do_skip ; if zero then get next word, otherwise use remainder.
mov ax,[esi]
lea esi,[esi+2] ; get word code in ax
test ax,ax ; set flags. (not 32bit register so neg flag works)
jle ??not_long_skip
;
; SHORTSKIP AND LONGSKIP
;
??do_skip:
add edi,eax ; do the skip.
jmp ??top_loop
??not_long_skip:
jz ??stop ; long count of zero means stop
sub eax,08000h ; opcode -= 0x8000
test eax,04000h ; is it a LONGRUN (code & 0x4000)?
je ??long_dump
;
; LONGRUN
;
sub eax,04000h ; opcode -= 0x4000
mov ecx,eax ; use cx as loop count
jmp ??do_run ; jump to run code.
;
; LONGDUMP
;
??long_dump:
mov ecx,eax ; use cx as loop count
jmp ??dump_loop ; go to the dump loop.
??stop:
ret
ENDP Apply_XOR_Delta
;----------------------------------------------------------------------------
;***************************************************************************
;* APPLY_XOR_DELTA_To_Page_Or_Viewport -- Calls the copy or the XOR funtion. *
;* *
;* *
;* This funtion is call to either xor or copy XOR_Delta data onto a *
;* page instead of a buffer. The routine will set up the registers *
;* need for the actual routines that will perform the copy or xor. *
;* *
;* The registers are setup as follows : *
;* es:edi - destination segment:offset onto page. *
;* ds:esi - source buffer segment:offset of delta data. *
;* dx,cx,ax - are all zeroed out before entry. *
;* *
;* INPUT: *
;* *
;* OUTPUT: *
;* *
;* WARNINGS: *
;* *
;* HISTORY: *
;* 03/09/1992 SB : Created. *
;*=========================================================================*
;PUBLIC Apply_XOR_Delta_To_Page_Or_Viewport(UWORD page_seg, BYTE *delta_ptr, WORD width, WORD flags, WORD descriptor)
PROC Apply_XOR_Delta_To_Page_Or_Viewport C near
USES ebx,ecx,edx,edi,esi
ARG target:DWORD ; pointer to the destination buffer.
ARG delta:DWORD ; pointer to the delta buffer.
ARG width:DWORD ; width of animation.
ARG nextrow:DWORD ; Page/Buffer width - anim width.
ARG copy:DWORD ; should it be copied or xor'd?
mov edi,[target] ; Get the target pointer.
mov esi,[delta] ; Get the destination pointer.
xor eax,eax ; clear eax, later put them into ecx and edx.
cld ; make sure we go forward
mov ebx,[nextrow] ; get the amount to add to get to next row from end. push it later...
mov ecx,eax ; use cx for loop
mov edx,eax ; use dx to count the relative column.
push ebx ; push nextrow onto the stack for Copy/XOR_Delta_Buffer.
mov ebx,[width] ; bx will hold the max column for speed compares
; At this point, all the registers have been set up. Now call the correct function
; to either copy or xor the data.
cmp [copy],DO_XOR ; Do we want to copy or XOR
je ??xorfunct ; Jump to XOR if not copy
call Copy_Delta_Buffer ; Call the function to copy the delta buffer.
jmp ??didcopy ; jump past XOR
??xorfunct:
call XOR_Delta_Buffer ; Call funtion to XOR the deltat buffer.
??didcopy:
pop ebx ; remove the push done to pass a value.
ret
ENDP Apply_XOR_Delta_To_Page_Or_Viewport
;----------------------------------------------------------------------------
;***************************************************************************
;* XOR_DELTA_BUFFER -- Xor's the data in a XOR Delta format to a page. *
;* This will only work right if the page has the previous data on it. *
;* This function should only be called by XOR_Delta_Buffer_To_Page_Or_Viewport. *
;* The registers must be setup as follows : *
;* *
;* INPUT: *
;* es:edi - destination segment:offset onto page. *
;* ds:esi - source buffer segment:offset of delta data. *
;* edx,ecx,eax - are all zeroed out before entry. *
;* *
;* OUTPUT: *
;* *
;* WARNINGS: *
;* *
;* HISTORY: *
;* 03/09/1992 SB : Created. *
;*=========================================================================*
PROC XOR_Delta_Buffer C near
ARG nextrow:DWORD
??top_loop:
xor eax,eax ; clear out eax.
mov al,[esi] ; get delta source byte
inc esi
test al,al ; check for a SHORTDUMP ; check al incase of sign value.
je ??short_run
js ??check_others
;
; SHORTDUMP
;
mov ecx,eax ; stick count in cx
??dump_loop:
mov al,[esi] ; get delta XOR byte
xor [edi],al ; xor that byte on the dest
inc esi
inc edx ; increment our count on current column
inc edi
cmp edx,ebx ; are we at the final column
jne ??end_col1 ; if not the jmp over the code
sub edi,edx ; get our column back to the beginning.
xor edx,edx ; zero out our column counter
add edi,[nextrow] ; jump to start of next row
??end_col1:
dec ecx
jnz ??dump_loop
jmp ??top_loop
;
; SHORTRUN
;
??short_run:
mov cl,[esi] ; get count
inc esi ; inc delta source
??do_run:
mov al,[esi] ; get XOR byte
inc esi
??run_loop:
xor [edi],al ; xor that byte.
inc edx ; increment our count on current column
inc edi ; go to next dest pixel
cmp edx,ebx ; are we at the final column
jne ??end_col2 ; if not the jmp over the code
sub edi,ebx ; get our column back to the beginning.
xor edx,edx ; zero out our column counter
add edi,[nextrow] ; jump to start of next row
??end_col2:
dec ecx
jnz ??run_loop
jmp ??top_loop
;
; By now, we know it must be a LONGDUMP, SHORTSKIP, LONGRUN, or LONGSKIP
;
??check_others:
sub eax,080h ; opcode -= 0x80
jnz ??do_skip ; if zero then get next word, otherwise use remainder.
mov ax,[esi] ; get word code in ax
lea esi,[esi+2]
test ax,ax ; set flags. (not 32bit register so neg flag works)
jle ??not_long_skip
;
; SHORTSKIP AND LONGSKIP
;
??do_skip:
sub edi,edx ; go back to beginning or row.
add edx,eax ; incriment our count on current row
??recheck3:
cmp edx,ebx ; are we past the end of the row
jb ??end_col3 ; if not the jmp over the code
sub edx,ebx ; Subtract width from the col counter
add edi,[nextrow] ; jump to start of next row
jmp ??recheck3 ; jump up to see if we are at the right row
??end_col3:
add edi,edx ; get to correct position in row.
jmp ??top_loop
??not_long_skip:
jz ??stop ; long count of zero means stop
sub eax,08000h ; opcode -= 0x8000
test eax,04000h ; is it a LONGRUN (code & 0x4000)?
je ??long_dump
;
; LONGRUN
;
sub eax,04000h ; opcode -= 0x4000
mov ecx,eax ; use cx as loop count
jmp ??do_run ; jump to run code.
;
; LONGDUMP
;
??long_dump:
mov ecx,eax ; use cx as loop count
jmp ??dump_loop ; go to the dump loop.
??stop:
ret
ENDP XOR_Delta_Buffer
;----------------------------------------------------------------------------
;***************************************************************************
;* COPY_DELTA_BUFFER -- Copies XOR Delta Data to a section of a page. *
;* This function should only be called by XOR_Delta_Buffer_To_Page_Or_Viewport. *
;* The registers must be setup as follows : *
;* *
;* INPUT: *
;* es:edi - destination segment:offset onto page. *
;* ds:esi - source buffer segment:offset of delta data. *
;* dx,cx,ax - are all zeroed out before entry. *
;* *
;* OUTPUT: *
;* *
;* WARNINGS: *
;* *
;* HISTORY: *
;* 03/09/1992 SB : Created. *
;*=========================================================================*
PROC Copy_Delta_Buffer C near
ARG nextrow:DWORD
??top_loop:
xor eax,eax ; clear out eax.
mov al,[esi] ; get delta source byte
inc esi
test al,al ; check for a SHORTDUMP ; check al incase of sign value.
je ??short_run
js ??check_others
;
; SHORTDUMP
;
mov ecx,eax ; stick count in cx
??dump_loop:
mov al,[esi] ; get delta XOR byte
mov [edi],al ; store that byte on the dest
inc edx ; increment our count on current column
inc esi
inc edi
cmp edx,ebx ; are we at the final column
jne ??end_col1 ; if not the jmp over the code
sub edi,edx ; get our column back to the beginning.
xor edx,edx ; zero out our column counter
add edi,[nextrow] ; jump to start of next row
??end_col1:
dec ecx
jnz ??dump_loop
jmp ??top_loop
;
; SHORTRUN
;
??short_run:
mov cl,[esi] ; get count
inc esi ; inc delta source
??do_run:
mov al,[esi] ; get XOR byte
inc esi
??run_loop:
mov [edi],al ; store the byte (instead of XOR against current color)
inc edx ; increment our count on current column
inc edi ; go to next dest pixel
cmp edx,ebx ; are we at the final column
jne ??end_col2 ; if not the jmp over the code
sub edi,ebx ; get our column back to the beginning.
xor edx,edx ; zero out our column counter
add edi,[nextrow] ; jump to start of next row
??end_col2:
dec ecx
jnz ??run_loop
jmp ??top_loop
;
; By now, we know it must be a LONGDUMP, SHORTSKIP, LONGRUN, or LONGSKIP
;
??check_others:
sub eax,080h ; opcode -= 0x80
jnz ??do_skip ; if zero then get next word, otherwise use remainder.
mov ax,[esi] ; get word code in ax
lea esi,[esi+2]
test ax,ax ; set flags. (not 32bit register so neg flag works)
jle ??not_long_skip
;
; SHORTSKIP AND LONGSKIP
;
??do_skip:
sub edi,edx ; go back to beginning or row.
add edx,eax ; incriment our count on current row
??recheck3:
cmp edx,ebx ; are we past the end of the row
jb ??end_col3 ; if not the jmp over the code
sub edx,ebx ; Subtract width from the col counter
add edi,[nextrow] ; jump to start of next row
jmp ??recheck3 ; jump up to see if we are at the right row
??end_col3:
add edi,edx ; get to correct position in row.
jmp ??top_loop
??not_long_skip:
jz ??stop ; long count of zero means stop
sub eax,08000h ; opcode -= 0x8000
test eax,04000h ; is it a LONGRUN (code & 0x4000)?
je ??long_dump
;
; LONGRUN
;
sub eax,04000h ; opcode -= 0x4000
mov ecx,eax ; use cx as loop count
jmp ??do_run ; jump to run code.
;
; LONGDUMP
;
??long_dump:
mov ecx,eax ; use cx as loop count
jmp ??dump_loop ; go to the dump loop.
??stop:
ret
ENDP Copy_Delta_Buffer
;----------------------------------------------------------------------------
END
;----------------------------------------------------------------------------
;
;PUBLIC UWORD Apply_XOR_Delta(UWORD page_seg, BYTE *delta_ptr)
;{
;
; register UWORD loop;
; BYTE opcode, xor_byte;
; UWORD bytes_to_uncompress = 64000U;
;
;
; /* Make our buffer pointer */
;
; to = MK_FP(page_seg, 0);
; delta = Normalize_Pointer(delta_ptr);
;
;
; while (bytes_to_uncompress) {
;
; opcode = *delta++;
;
;
; /* Check for SHORTDUMP */
;
; if (opcode > 0) {
;
;
; bytes_to_uncompress -= opcode;
;
; for (loop = 0; loop < opcode; loop++) {
; xor_byte = *delta++;
; *to++ ^= xor_byte;
; }
; continue;
; }
;
; /* Check for SHORTRUN */
;
; if (opcode == 0) {
;
; word_count = *delta++;
; xor_byte = *delta++;
;
; bytes_to_uncompress -= word_count;
;
; for (loop = 0; loop < word_count; loop++) {
; *to++ ^= xor_byte;
; }
; continue;
; }
;
; /* By now, we know it must be a LONGDUMP, SHORTSKIP, or LONGSKIP */
;
; opcode -= 0x80;
;
;
; /* Is it a SHORTSKIP? */
;
; if (opcode != 0) {
;
; to += opcode;
; bytes_to_uncompress -= (WORD) opcode;
; continue;
; }
;
;
; word_count = *((UWORD *) delta)++;
;
; /* Is it a LONGSKIP? */
;
; if ((WORD) word_count > 0) {
;
; to += word_count;
; bytes_to_uncompress -= (WORD) word_count;
; continue;
; }
;
;
; word_count -= 0x8000;
;
; /* Is it a LONGRUN? */
;
; if (word_count & 0x4000) {
;
; word_count -= 0x4000;
;
; bytes_to_uncompress -= word_count;
;
; xor_byte = *delta++;
;
; for (loop = 0; loop < word_count; loop++) {
; *to++ ^= xor_byte;
; }
; continue;
; }
;
;
; /* It must be a LONGDUMP */
;
; bytes_to_uncompress -= word_count;
;
; for (loop = 0; loop < word_count; loop++) {
; xor_byte = *delta++;
; *to++ ^= xor_byte;
; }
; }
;
;
; return(64000U);
;}
;

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