kolibrios-gitea/kernel/branches/net/video/vesa20.inc

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;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
;; ;;
;; Copyright (C) KolibriOS team 2004-2008. All rights reserved. ;;
;; Distributed under terms of the GNU General Public License ;;
;; ;;
;; VESA20.INC ;;
;; ;;
;; Vesa 2.0 functions for MenuetOS ;;
;; ;;
;; Copyright 2002 Ville Turjanmaa ;;
;; Alexey, kgaz@crosswindws.net ;;
;; - Voodoo compatible graphics ;;
;; Juan M. Caravaca ;;
;; - Graphics optimimizations eg. drawline ;;
;; ;;
;; See file COPYING for details ;;
;; ;;
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
$Revision$
; If you're planning to write your own video driver I suggest
; you replace the VESA12.INC file and see those instructions.
;Screen_Max_X equ 0xfe00
;Screen_Max_Y equ 0xfe04
;BytesPerScanLine equ 0xfe08
;LFBAddress equ 0xfe80
;ScreenBPP equ 0xfbf1
;*************************************************
; getpixel
;
; in:
; eax = x coordinate
; ebx = y coordinate
;
; ret:
; ecx = 00 RR GG BB
getpixel:
push eax ebx edx edi
call dword [GETPIXEL]
pop edi edx ebx eax
ret
Vesa20_getpixel24:
; eax = x
; ebx = y
imul ebx, [BytesPerScanLine] ; ebx = y * y multiplier
lea edi, [eax+eax*2]; edi = x*3
add edi, ebx ; edi = x*3+(y*y multiplier)
mov ecx, [LFB_BASE+edi]
and ecx, 0xffffff
ret
Vesa20_getpixel32:
imul ebx, [BytesPerScanLine] ; ebx = y * y multiplier
lea edi, [ebx+eax*4]; edi = x*4+(y*y multiplier)
mov ecx, [LFB_BASE+edi]
and ecx, 0xffffff
ret
;*************************************************
virtual at esp
putimg:
.real_sx dd ?
.real_sy dd ?
.image_sx dd ?
.image_sy dd ?
.image_cx dd ?
.image_cy dd ?
.pti dd ?
.abs_cx dd ?
.abs_cy dd ?
.line_increment dd ?
.winmap_newline dd ?
.screen_newline dd ?
.stack_data = 4*12
.edi dd ?
.esi dd ?
.ebp dd ?
.esp dd ?
.ebx dd ?
.edx dd ?
.ecx dd ?
.eax dd ?
.ret_addr dd ?
.arg_0 dd ?
end virtual
align 16
; ebx = pointer
; ecx = size [x|y]
; edx = coordinates [x|y]
; ebp = pointer to 'get' function
; esi = pointer to 'init' function
; edi = parameter for 'get' function
vesa20_putimage:
pushad
call [_display.disable_mouse]
sub esp, putimg.stack_data
; save pointer to image
mov [putimg.pti], ebx
; unpack the size
mov eax, ecx
and ecx, 0xFFFF
shr eax, 16
mov [putimg.image_sx], eax
mov [putimg.image_sy], ecx
; unpack the coordinates
mov eax, edx
and edx, 0xFFFF
shr eax, 16
mov [putimg.image_cx], eax
mov [putimg.image_cy], edx
; calculate absolute (i.e. screen) coordinates
mov eax, [TASK_BASE]
mov ebx, [eax-twdw + WDATA.box.left]
add ebx, [putimg.image_cx]
mov [putimg.abs_cx], ebx
mov ebx, [eax-twdw + WDATA.box.top]
add ebx, [putimg.image_cy]
mov [putimg.abs_cy], ebx
; real_sx = MIN(wnd_sx-image_cx, image_sx);
mov ebx, [eax-twdw + WDATA.box.width]; ebx = wnd_sx
; \begin{diamond}[20.08.2006]
; note that WDATA.box.width is one pixel less than real window x-size
inc ebx
; \end{diamond}[20.08.2006]
sub ebx, [putimg.image_cx]
ja @f
add esp, putimg.stack_data
popad
ret
@@:
cmp ebx, [putimg.image_sx]
jbe .end_x
mov ebx, [putimg.image_sx]
.end_x:
mov [putimg.real_sx], ebx
; init real_sy
mov ebx, [eax-twdw + WDATA.box.height]; ebx = wnd_sy
; \begin{diamond}[20.08.2006]
inc ebx
; \end{diamond}[20.08.2006]
sub ebx, [putimg.image_cy]
ja @f
add esp, putimg.stack_data
popad
ret
@@:
cmp ebx, [putimg.image_sy]
jbe .end_y
mov ebx, [putimg.image_sy]
.end_y:
mov [putimg.real_sy], ebx
; line increment
mov eax, [putimg.image_sx]
mov ecx, [putimg.real_sx]
sub eax, ecx
;; imul eax, [putimg.source_bpp]
; lea eax, [eax + eax * 2]
call esi
add eax, [putimg.arg_0]
mov [putimg.line_increment], eax
; winmap new line increment
mov eax, [Screen_Max_X]
inc eax
sub eax, [putimg.real_sx]
mov [putimg.winmap_newline], eax
; screen new line increment
mov eax, [BytesPerScanLine]
movzx ebx, byte [ScreenBPP]
shr ebx, 3
imul ecx, ebx
sub eax, ecx
mov [putimg.screen_newline], eax
; pointer to image
mov esi, [putimg.pti]
; pointer to screen
mov edx, [putimg.abs_cy]
imul edx, [BytesPerScanLine]
mov eax, [putimg.abs_cx]
movzx ebx, byte [ScreenBPP]
shr ebx, 3
imul eax, ebx
add edx, eax
; pointer to pixel map
mov eax, [putimg.abs_cy]
imul eax, [Screen_Max_X]
add eax, [putimg.abs_cy]
add eax, [putimg.abs_cx]
add eax, [_WinMapAddress]
xchg eax, ebp
; get process number
mov ebx, [CURRENT_TASK]
cmp byte [ScreenBPP], 32
je put_image_end_32
;put_image_end_24:
mov edi, [putimg.real_sy]
align 4
.new_line:
mov ecx, [putimg.real_sx]
; push ebp edx
align 4
.new_x:
push [putimg.edi]
mov eax, [putimg.ebp+4]
call eax
cmp [ebp], bl
jne .skip
; mov eax, [esi] ; eax = RRBBGGRR
mov [LFB_BASE+edx], ax
shr eax, 16
mov [LFB_BASE+edx+2], al
.skip:
; add esi, 3 ;[putimg.source_bpp]
add edx, 3
inc ebp
dec ecx
jnz .new_x
; pop edx ebp
add esi, [putimg.line_increment]
add edx, [putimg.screen_newline];[BytesPerScanLine]
add ebp, [putimg.winmap_newline];[Screen_Max_X]
; inc ebp
cmp [putimg.ebp], putimage_get1bpp
jz .correct
cmp [putimg.ebp], putimage_get2bpp
jz .correct
cmp [putimg.ebp], putimage_get4bpp
jnz @f
.correct:
mov eax, [putimg.edi]
mov byte [eax], 80h
@@:
dec edi
jnz .new_line
.finish:
add esp, putimg.stack_data
popad
ret
put_image_end_32:
mov edi, [putimg.real_sy]
align 4
.new_line:
mov ecx, [putimg.real_sx]
; push ebp edx
align 4
.new_x:
push [putimg.edi]
mov eax, [putimg.ebp+4]
call eax
cmp [ebp], bl
jne .skip
; mov eax, [esi] ; ecx = RRBBGGRR
mov [LFB_BASE+edx], eax
.skip:
; add esi, [putimg.source_bpp]
add edx, 4
inc ebp
dec ecx
jnz .new_x
; pop edx ebp
add esi, [putimg.line_increment]
add edx, [putimg.screen_newline];[BytesPerScanLine]
add ebp, [putimg.winmap_newline];[Screen_Max_X]
; inc ebp
cmp [putimg.ebp], putimage_get1bpp
jz .correct
cmp [putimg.ebp], putimage_get2bpp
jz .correct
cmp [putimg.ebp], putimage_get4bpp
jnz @f
.correct:
mov eax, [putimg.edi]
mov byte [eax], 80h
@@:
dec edi
jnz .new_line
.finish:
add esp, putimg.stack_data
popad
call VGA__putimage
mov [EGA_counter], 1
ret
;*************************************************
align 4
__sys_putpixel:
; eax = x coordinate
; ebx = y coordinate
; ecx = ?? RR GG BB ; 0x01000000 negation
; edi = 0x00000001 force
;;; mov [novesachecksum], dword 0
pushad
cmp [Screen_Max_X], eax
jb .exit
cmp [Screen_Max_Y], ebx
jb .exit
test edi, 1 ; force ?
jnz .forced
; not forced:
push eax
mov edx, [_display.width]; screen x size
imul edx, ebx
add eax, [_WinMapAddress]
movzx edx, byte [eax+edx]
cmp edx, [CURRENT_TASK]
pop eax
jne .exit
.forced:
; check if negation
test ecx, 0x01000000
jz .noneg
call getpixel
not ecx
mov [esp+32-8], ecx
.noneg:
; OK to set pixel
call dword [PUTPIXEL]; call the real put_pixel function
.exit:
popad
ret
align 4
Vesa20_putpixel24:
; eax = x
; ebx = y
imul ebx, [BytesPerScanLine] ; ebx = y * y multiplier
lea edi, [eax+eax*2]; edi = x*3
mov eax, [esp+32-8+4]
mov [LFB_BASE+ebx+edi], ax
shr eax, 16
mov [LFB_BASE+ebx+edi+2], al
ret
align 4
Vesa20_putpixel32:
; eax = x
; ebx = y
imul ebx, [BytesPerScanLine] ; ebx = y * y multiplier
lea edi, [ebx+eax*4]; edi = x*4+(y*y multiplier)
mov eax, [esp+32-8+4]; eax = color
mov [LFB_BASE+edi], eax
ret
;*************************************************
;align 4
calculate_edi:
mov edi, ebx
imul edi, [Screen_Max_X]
add edi, ebx
add edi, eax
ret
;*************************************************
; DRAWLINE
align 4
__sys_draw_line:
; inc [mouse_pause]
call [_display.disable_mouse]
; draw a line
; eax = HIWORD = x1
; LOWORD = x2
; ebx = HIWORD = y1
; LOWORD = y2
; ecx = color
; edi = force ?
pusha
dl_x1 equ esp+20
dl_y1 equ esp+16
dl_x2 equ esp+12
dl_y2 equ esp+8
dl_dx equ esp+4
dl_dy equ esp+0
xor edx, edx ; clear edx
xor esi, esi ; unpack arguments
xor ebp, ebp
mov si, ax ; esi = x2
mov bp, bx ; ebp = y2
shr eax, 16 ; eax = x1
shr ebx, 16 ; ebx = y1
push eax ; save x1
push ebx ; save y1
push esi ; save x2
push ebp ; save y2
; checking x-axis...
sub esi, eax ; esi = x2-x1
push esi ; save y2-y1
jl .x2lx1 ; is x2 less than x1 ?
jg .no_vline ; x1 > x2 ?
mov edx, ebp ; else (if x1=x2)
call vline
push edx ; necessary to rightly restore stack frame at .exit
jmp .exit
.x2lx1:
neg esi ; get esi absolute value
.no_vline:
; checking y-axis...
sub ebp, ebx ; ebp = y2-y1
push ebp ; save y2-y1
jl .y2ly1 ; is y2 less than y1 ?
jg .no_hline ; y1 > y2 ?
mov edx, [dl_x2]; else (if y1=y2)
call hline
jmp .exit
.y2ly1:
neg ebp ; get ebp absolute value
.no_hline:
cmp ebp, esi
jle .x_rules ; |y2-y1| < |x2-x1| ?
cmp [dl_y2], ebx; make sure y1 is at the begining
jge .no_reverse1
neg dword [dl_dx]
mov edx, [dl_x2]
mov [dl_x2], eax
mov [dl_x1], edx
mov edx, [dl_y2]
mov [dl_y2], ebx
mov [dl_y1], edx
.no_reverse1:
mov eax, [dl_dx]
cdq ; extend eax sing to edx
shl eax, 16 ; using 16bit fix-point maths
idiv ebp ; eax = ((x2-x1)*65536)/(y2-y1)
;--------------------------------------
; correction for the remainder of the division
shl edx, 1
cmp ebp, edx
jb @f
inc eax
@@:
;--------------------------------------
mov edx, ebp ; edx = counter (number of pixels to draw)
mov ebp, 1 *65536; <<16 ; ebp = dy = 1.0
mov esi, eax ; esi = dx
jmp .y_rules
.x_rules:
cmp [dl_x2], eax ; make sure x1 is at the begining
jge .no_reverse2
neg dword [dl_dy]
mov edx, [dl_x2]
mov [dl_x2], eax
mov [dl_x1], edx
mov edx, [dl_y2]
mov [dl_y2], ebx
mov [dl_y1], edx
.no_reverse2:
xor edx, edx
mov eax, [dl_dy]
cdq ; extend eax sing to edx
shl eax, 16 ; using 16bit fix-point maths
idiv esi ; eax = ((y2-y1)*65536)/(x2-x1)
;--------------------------------------
; correction for the remainder of the division
shl edx, 1
cmp esi, edx
jb @f
inc eax
@@:
;--------------------------------------
mov edx, esi ; edx = counter (number of pixels to draw)
mov esi, 1 *65536;<< 16 ; esi = dx = 1.0
mov ebp, eax ; ebp = dy
.y_rules:
mov eax, [dl_x1]
mov ebx, [dl_y1]
shl eax, 16
shl ebx, 16
;-----------------------------------------------------------------------------
align 4
.draw:
push eax ebx
;--------------------------------------
; correction for the remainder of the division
test ah, 0x80
jz @f
add eax, 1 shl 16
@@:
;--------------------------------------
shr eax, 16
;--------------------------------------
; correction for the remainder of the division
test bh, 0x80
jz @f
add ebx, 1 shl 16
@@:
;--------------------------------------
shr ebx, 16
call [putpixel]
pop ebx eax
add ebx, ebp ; y = y+dy
add eax, esi ; x = x+dx
dec edx
jnz .draw
; force last drawn pixel to be at (x2,y2)
mov eax, [dl_x2]
mov ebx, [dl_y2]
call [putpixel]
.exit:
add esp, 6*4
popa
; dec [mouse_pause]
call [draw_pointer]
ret
hline:
; draw an horizontal line
; eax = x1
; edx = x2
; ebx = y
; ecx = color
; edi = force ?
push eax edx
cmp edx, eax ; make sure x2 is above x1
jge @f
xchg eax, edx
align 4
@@:
call [putpixel]
inc eax
cmp eax, edx
jle @b
pop edx eax
ret
vline:
; draw a vertical line
; eax = x
; ebx = y1
; edx = y2
; ecx = color
; edi = force ?
push ebx edx
cmp edx, ebx ; make sure y2 is above y1
jge @f
xchg ebx, edx
align 4
@@:
call [putpixel]
inc ebx
cmp ebx, edx
jle @b
pop edx ebx
ret
;*************************************************
virtual at esp
drbar:
.bar_sx dd ?
.bar_sy dd ?
.bar_cx dd ?
.bar_cy dd ?
.abs_cx dd ?
.abs_cy dd ?
.real_sx dd ?
.real_sy dd ?
.color dd ?
.line_inc_scr dd ?
.line_inc_map dd ?
.stack_data = 4*11
end virtual
align 4
; eax cx
; ebx cy
; ecx xe
; edx ye
; edi color
vesa20_drawbar:
pushad
call [_display.disable_mouse]
sub esp, drbar.stack_data
mov [drbar.color], edi
sub edx, ebx
jle .exit ;// mike.dld, 2005-01-29
sub ecx, eax
jle .exit ;// mike.dld, 2005-01-29
mov [drbar.bar_sy], edx
mov [drbar.bar_sx], ecx
mov [drbar.bar_cx], eax
mov [drbar.bar_cy], ebx
mov edi, [TASK_BASE]
add eax, [edi-twdw + WDATA.box.left]; win_cx
add ebx, [edi-twdw + WDATA.box.top]; win_cy
mov [drbar.abs_cx], eax
mov [drbar.abs_cy], ebx
; real_sx = MIN(wnd_sx-bar_cx, bar_sx);
mov ebx, [edi-twdw + WDATA.box.width]; ebx = wnd_sx
; \begin{diamond}[20.08.2006]
; note that WDATA.box.width is one pixel less than real window x-size
inc ebx
; \end{diamond}[20.08.2006]
sub ebx, [drbar.bar_cx]
ja @f
.exit: ;// mike.dld, 2005-01-29
add esp, drbar.stack_data
popad
xor eax, eax
inc eax
ret
@@:
cmp ebx, [drbar.bar_sx]
jbe .end_x
mov ebx, [drbar.bar_sx]
.end_x:
mov [drbar.real_sx], ebx
; real_sy = MIN(wnd_sy-bar_cy, bar_sy);
mov ebx, [edi-twdw + WDATA.box.height]; ebx = wnd_sy
; \begin{diamond}[20.08.2006]
inc ebx
; \end{diamond}
sub ebx, [drbar.bar_cy]
ja @f
add esp, drbar.stack_data
popad
xor eax, eax
inc eax
ret
@@:
cmp ebx, [drbar.bar_sy]
jbe .end_y
mov ebx, [drbar.bar_sy]
.end_y:
mov [drbar.real_sy], ebx
; line_inc_map
mov eax, [Screen_Max_X]
sub eax, [drbar.real_sx]
inc eax
mov [drbar.line_inc_map], eax
; line_inc_scr
mov eax, [drbar.real_sx]
movzx ebx, byte [ScreenBPP]
shr ebx, 3
imul eax, ebx
neg eax
add eax, [BytesPerScanLine]
mov [drbar.line_inc_scr], eax
; pointer to screen
mov edx, [drbar.abs_cy]
imul edx, [BytesPerScanLine]
mov eax, [drbar.abs_cx]
; movzx ebx, byte [ScreenBPP]
; shr ebx, 3
imul eax, ebx
add edx, eax
; pointer to pixel map
mov eax, [drbar.abs_cy]
imul eax, [Screen_Max_X]
add eax, [drbar.abs_cy]
add eax, [drbar.abs_cx]
add eax, [_WinMapAddress]
xchg eax, ebp
; get process number
mov ebx, [CURRENT_TASK]
cmp byte [ScreenBPP], 24
jne draw_bar_end_32
draw_bar_end_24:
mov eax, [drbar.color] ;; BBGGRR00
mov bh, al ;; bh = BB
shr eax, 8 ;; eax = RRGG
; eax - color high RRGG
; bl - process num
; bh - color low BB
; ecx - temp
; edx - pointer to screen
; esi - counter
; edi - counter
mov esi, [drbar.real_sy]
align 4
.new_y:
mov edi, [drbar.real_sx]
align 4
.new_x:
cmp byte [ebp], bl
jne .skip
mov [LFB_BASE+edx], bh
mov [LFB_BASE+edx + 1], ax
.skip:
; add pixel
add edx, 3
inc ebp
dec edi
jnz .new_x
; add line
add edx, [drbar.line_inc_scr]
add ebp, [drbar.line_inc_map]
; <Ivan 15.10.04> drawing gradient bars
test eax, 0x00800000
jz @f
test bh, bh
jz @f
dec bh
@@:
; </Ivan 15.10.04>
dec esi
jnz .new_y
add esp, drbar.stack_data
popad
xor eax, eax
ret
draw_bar_end_32:
mov eax, [drbar.color] ;; BBGGRR00
mov esi, [drbar.real_sy]
align 4
.new_y:
mov edi, [drbar.real_sx]
align 4
.new_x:
cmp byte [ebp], bl
jne .skip
mov [LFB_BASE+edx], eax
.skip:
; add pixel
add edx, 4
inc ebp
dec edi
jnz .new_x
; add line
add edx, [drbar.line_inc_scr]
add ebp, [drbar.line_inc_map]
; <Ivan 15.10.04> drawing gradient bars
test eax, 0x80000000
jz @f
test al, al
jz @f
dec al
@@:
; </Ivan 15.10.04>
dec esi
jnz .new_y
add esp, drbar.stack_data
popad
call VGA_draw_bar
xor eax, eax
mov [EGA_counter], 1
ret
align 4
vesa20_drawbackground_tiled:
call [_display.disable_mouse]
pushad
; External loop for all y from start to end
mov ebx, [draw_data+32+RECT.top] ; y start
dp2:
mov ebp, [draw_data+32+RECT.left] ; x start
; 1) Calculate pointers in WinMapAddress (does pixel belong to OS thread?) [ebp]
; and LFB data (output for our function) [edi]
mov eax, [BytesPerScanLine]
mul ebx
xchg ebp, eax
add ebp, eax
add ebp, eax
add ebp, eax
cmp [ScreenBPP], byte 24 ; 24 or 32 bpp ? - x size
jz @f
add ebp, eax
@@:
add ebp, LFB_BASE
; ebp:=Y*BytesPerScanLine+X*BytesPerPixel+AddrLFB
call calculate_edi
xchg edi, ebp
add ebp, [_WinMapAddress]
; Now eax=x, ebx=y, edi->output, ebp=offset in WinMapAddress
; 2) Calculate offset in background memory block
push eax
xor edx, edx
mov eax, ebx
div dword [BgrDataHeight] ; edx := y mod BgrDataHeight
pop eax
push eax
mov ecx, [BgrDataWidth]
mov esi, edx
imul esi, ecx ; esi := (y mod BgrDataHeight) * BgrDataWidth
xor edx, edx
div ecx ; edx := x mod BgrDataWidth
sub ecx, edx
add esi, edx ; esi := (y mod BgrDataHeight)*BgrDataWidth + (x mod BgrDataWidth)
pop eax
lea esi, [esi*3]
add esi, [img_background]
xor edx, edx
inc edx
; 3) Loop through redraw rectangle and copy background data
; Registers meaning:
; eax = x, ebx = y (screen coordinates)
; ecx = deltax - number of pixels left in current tile block
; edx = 1
; esi -> bgr memory, edi -> output
; ebp = offset in WinMapAddress
dp3:
cmp [ebp], dl
jnz nbgp
movsb
movsb
movsb
jmp @f
nbgp:
add esi, 3
add edi, 3
@@:
cmp [ScreenBPP], byte 25 ; 24 or 32 bpp?
sbb edi, -1 ; +1 for 32 bpp
; I do not use 'inc eax' because this is slightly slower then 'add eax,1'
add ebp, edx
add eax, edx
cmp eax, [draw_data+32+RECT.right]
ja dp4
sub ecx, edx
jnz dp3
; next tile block on x-axis
mov ecx, [BgrDataWidth]
sub esi, ecx
sub esi, ecx
sub esi, ecx
jmp dp3
dp4:
; next scan line
inc ebx
cmp ebx, [draw_data+32+RECT.bottom]
jbe dp2
popad
mov [EGA_counter], 1
call VGA_drawbackground
ret
; ----------
vesa20_drawbackground_stretch:
call [_display.disable_mouse]
pushad
; Helper variables
; calculate 2^32*(BgrDataWidth-1) mod (ScreenWidth-1)
mov eax, [BgrDataWidth]
dec eax
xor edx, edx
div dword [Screen_Max_X]
push eax ; high
xor eax, eax
div dword [Screen_Max_X]
push eax ; low
; the same for height
mov eax, [BgrDataHeight]
dec eax
xor edx, edx
div dword [Screen_Max_Y]
push eax ; high
xor eax, eax
div dword [Screen_Max_Y]
push eax ; low
; External loop for all y from start to end
mov ebx, [draw_data+32+RECT.top] ; y start
mov ebp, [draw_data+32+RECT.left] ; x start
; 1) Calculate pointers in WinMapAddress (does pixel belong to OS thread?) [ebp]
; and LFB data (output for our function) [edi]
mov eax, [BytesPerScanLine]
mul ebx
xchg ebp, eax
add ebp, eax
add ebp, eax
add ebp, eax
cmp [ScreenBPP], byte 24 ; 24 or 32 bpp ? - x size
jz @f
add ebp, eax
@@:
; ebp:=Y*BytesPerScanLine+X*BytesPerPixel+AddrLFB
call calculate_edi
xchg edi, ebp
; Now eax=x, ebx=y, edi->output, ebp=offset in WinMapAddress
push ebx
push eax
; 2) Calculate offset in background memory block
mov eax, ebx
imul ebx, dword [esp+12]
mul dword [esp+8]
add edx, ebx ; edx:eax = y * 2^32*(BgrDataHeight-1)/(ScreenHeight-1)
mov esi, edx
imul esi, [BgrDataWidth]
push edx
push eax
mov eax, [esp+8]
mul dword [esp+28]
push eax
mov eax, [esp+12]
mul dword [esp+28]
add [esp], edx
pop edx ; edx:eax = x * 2^32*(BgrDataWidth-1)/(ScreenWidth-1)
add esi, edx
lea esi, [esi*3]
add esi, [img_background]
push eax
push edx
push esi
; 3) Smooth horizontal
bgr_resmooth0:
mov ecx, [esp+8]
mov edx, [esp+4]
mov esi, [esp]
push edi
mov edi, bgr_cur_line
call smooth_line
bgr_resmooth1:
mov eax, [esp+16+4]
inc eax
cmp eax, [BgrDataHeight]
jae bgr.no2nd
mov ecx, [esp+8+4]
mov edx, [esp+4+4]
mov esi, [esp+4]
add esi, [BgrDataWidth]
add esi, [BgrDataWidth]
add esi, [BgrDataWidth]
mov edi, bgr_next_line
call smooth_line
bgr.no2nd:
pop edi
sdp3:
xor esi, esi
mov ecx, [esp+12]
; 4) Loop through redraw rectangle and copy background data
; Registers meaning:
; esi = offset in current line, edi -> output
; ebp = offset in WinMapAddress
; dword [esp] = offset in bgr data
; qword [esp+4] = x * 2^32 * (BgrDataWidth-1) / (ScreenWidth-1)
; qword [esp+12] = y * 2^32 * (BgrDataHeight-1) / (ScreenHeight-1)
; dword [esp+20] = x
; dword [esp+24] = y
; precalculated constants:
; qword [esp+28] = 2^32*(BgrDataHeight-1)/(ScreenHeight-1)
; qword [esp+36] = 2^32*(BgrDataWidth-1)/(ScreenWidth-1)
sdp3a:
mov eax, [_WinMapAddress]
cmp [ebp+eax], byte 1
jnz snbgp
mov eax, [bgr_cur_line+esi]
test ecx, ecx
jz .novert
mov ebx, [bgr_next_line+esi]
call [overlapping_of_points_ptr]
.novert:
mov [LFB_BASE+edi], ax
shr eax, 16
mov [LFB_BASE+edi+2], al
snbgp:
cmp [ScreenBPP], byte 25
sbb edi, -4
add ebp, 1
mov eax, [esp+20]
add eax, 1
mov [esp+20], eax
add esi, 4
cmp eax, [draw_data+32+RECT.right]
jbe sdp3a
sdp4:
; next y
mov ebx, [esp+24]
add ebx, 1
mov [esp+24], ebx
cmp ebx, [draw_data+32+RECT.bottom]
ja sdpdone
; advance edi, ebp to next scan line
sub eax, [draw_data+32+RECT.left]
sub ebp, eax
add ebp, [Screen_Max_X]
add ebp, 1
sub edi, eax
sub edi, eax
sub edi, eax
cmp [ScreenBPP], byte 24
jz @f
sub edi, eax
@@:
add edi, [BytesPerScanLine]
; restore ecx,edx; advance esi to next background line
mov eax, [esp+28]
mov ebx, [esp+32]
add [esp+12], eax
mov eax, [esp+16]
adc [esp+16], ebx
sub eax, [esp+16]
mov ebx, eax
lea eax, [eax*3]
imul eax, [BgrDataWidth]
sub [esp], eax
mov eax, [draw_data+32+RECT.left]
mov [esp+20], eax
test ebx, ebx
jz sdp3
cmp ebx, -1
jnz bgr_resmooth0
push edi
mov esi, bgr_next_line
mov edi, bgr_cur_line
mov ecx, [Screen_Max_X]
inc ecx
rep movsd
jmp bgr_resmooth1
sdpdone:
add esp, 44
popad
mov [EGA_counter], 1
call VGA_drawbackground
ret
uglobal
align 4
bgr_cur_line rd 1920 ; maximum width of screen
bgr_next_line rd 1920
endg
smooth_line:
mov al, [esi+2]
shl eax, 16
mov ax, [esi]
test ecx, ecx
jz @f
mov ebx, [esi+2]
shr ebx, 8
call [overlapping_of_points_ptr]
@@:
stosd
mov eax, [esp+20+8]
add eax, 1
mov [esp+20+8], eax
cmp eax, [draw_data+32+RECT.right]
ja @f
add ecx, [esp+36+8]
mov eax, edx
adc edx, [esp+40+8]
sub eax, edx
lea eax, [eax*3]
sub esi, eax
jmp smooth_line
@@:
mov eax, [draw_data+32+RECT.left]
mov [esp+20+8], eax
ret
align 16
overlapping_of_points:
if 0
; this version of procedure works, but is slower than next version
push ecx edx
mov edx, eax
push esi
shr ecx, 24
mov esi, ecx
mov ecx, ebx
movzx ebx, dl
movzx eax, cl
sub eax, ebx
movzx ebx, dh
imul eax, esi
add dl, ah
movzx eax, ch
sub eax, ebx
imul eax, esi
add dh, ah
ror ecx, 16
ror edx, 16
movzx eax, cl
movzx ebx, dl
sub eax, ebx
imul eax, esi
pop esi
add dl, ah
mov eax, edx
pop edx
ror eax, 16
pop ecx
ret
else
push ecx edx
mov edx, eax
push esi
shr ecx, 26
mov esi, ecx
mov ecx, ebx
shl esi, 9
movzx ebx, dl
movzx eax, cl
sub eax, ebx
movzx ebx, dh
add dl, [BgrAuxTable+(eax+0x100)+esi]
movzx eax, ch
sub eax, ebx
add dh, [BgrAuxTable+(eax+0x100)+esi]
ror ecx, 16
ror edx, 16
movzx eax, cl
movzx ebx, dl
sub eax, ebx
add dl, [BgrAuxTable+(eax+0x100)+esi]
pop esi
mov eax, edx
pop edx
ror eax, 16
pop ecx
ret
end if
iglobal
align 4
overlapping_of_points_ptr dd overlapping_of_points
endg
init_background:
mov edi, BgrAuxTable
xor edx, edx
.loop2:
mov eax, edx
shl eax, 8
neg eax
mov ecx, 0x200
.loop1:
mov byte [edi], ah
inc edi
add eax, edx
loop .loop1
add dl, 4
jnz .loop2
test byte [cpu_caps+(CAPS_MMX/8)], 1 shl (CAPS_MMX mod 8)
jz @f
mov [overlapping_of_points_ptr], overlapping_of_points_mmx
@@:
ret
align 16
overlapping_of_points_mmx:
movd mm0, eax
movd mm4, eax
movd mm1, ebx
pxor mm2, mm2
punpcklbw mm0, mm2
punpcklbw mm1, mm2
psubw mm1, mm0
movd mm3, ecx
psrld mm3, 24
packuswb mm3, mm3
packuswb mm3, mm3
pmullw mm1, mm3
psrlw mm1, 8
packuswb mm1, mm2
paddb mm4, mm1
movd eax, mm4
ret