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kolibrios/programs/develop/libraries/libs-dev/libimg/libimg.asm
Evgeny Grechnikov (Diamond) b599c0a70c procedure img.draw fixed
git-svn-id: svn://kolibrios.org@1252 a494cfbc-eb01-0410-851d-a64ba20cac60
2009-11-07 16:33:23 +00:00

1779 lines
54 KiB
NASM

;;================================================================================================;;
;;//// libimg.asm //// (c) mike.dld, 2007-2008, (c) diamond, 2009 ////////////////////////////////;;
;;================================================================================================;;
;; ;;
;; This file is part of Common development libraries (Libs-Dev). ;;
;; ;;
;; Libs-Dev is free software: you can redistribute it and/or modify it under the terms of the GNU ;;
;; Lesser General Public License as published by the Free Software Foundation, either version 2.1 ;;
;; of the License, or (at your option) any later version. ;;
;; ;;
;; Libs-Dev 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 ;;
;; Lesser General Public License for more details. ;;
;; ;;
;; You should have received a copy of the GNU Lesser General Public License along with Libs-Dev. ;;
;; If not, see <http://www.gnu.org/licenses/>. ;;
;; ;;
;;================================================================================================;;
format MS COFF
public @EXPORT as 'EXPORTS'
include '../../../../struct.inc'
include '../../../../proc32.inc'
include '../../../../macros.inc'
purge section,mov,add,sub
include 'libimg.inc'
section '.flat' code readable align 16
include 'bmp/bmp.asm'
include 'gif/gif.asm'
include 'jpeg/jpeg.asm'
include 'png/png.asm'
include 'tga/tga.asm'
include 'z80/z80.asm'
include 'ico_cur/ico_cur.asm'
;;================================================================================================;;
proc lib_init ;///////////////////////////////////////////////////////////////////////////////////;;
;;------------------------------------------------------------------------------------------------;;
;? Library entry point (called after library load) ;;
;;------------------------------------------------------------------------------------------------;;
;> eax = pointer to memory allocation routine ;;
;> ebx = pointer to memory freeing routine ;;
;> ecx = pointer to memory reallocation routine ;;
;> edx = pointer to library loading routine ;;
;;------------------------------------------------------------------------------------------------;;
;< eax = 1 (fail) / 0 (ok) (library initialization result) ;;
;;================================================================================================;;
mov [mem.alloc], eax
mov [mem.free], ebx
mov [mem.realloc], ecx
mov [dll.load], edx
call img.initialize.jpeg
xor eax, eax
cpuid
cmp ecx, 'ntel'
jnz @f
mov dword [img._.do_rgb.handlers + (Image.bpp15-1)*4], img._.do_rgb.bpp15.intel
mov dword [img._.do_rgb.handlers + (Image.bpp16-1)*4], img._.do_rgb.bpp16.intel
@@:
.ok: xor eax,eax
ret
endp
;;================================================================================================;;
proc img.is_img _data, _length ;//////////////////////////////////////////////////////////////////;;
;;------------------------------------------------------------------------------------------------;;
;? --- TBD --- ;;
;;------------------------------------------------------------------------------------------------;;
;> --- TBD --- ;;
;;------------------------------------------------------------------------------------------------;;
;< --- TBD --- ;;
;;================================================================================================;;
push ebx
mov ebx, img._.formats_table
@@: stdcall [ebx + FormatsTableEntry.Is], [_data], [_length]
or eax, eax
jnz @f
add ebx, sizeof.FormatsTableEntry
cmp dword[ebx], 0
jnz @b
xor eax, eax
@@: pop ebx
ret
endp
;;================================================================================================;;
proc img.info _data, _length ;////////////////////////////////////////////////////////////////////;;
;;------------------------------------------------------------------------------------------------;;
;? --- TBD --- ;;
;;------------------------------------------------------------------------------------------------;;
;> --- TBD --- ;;
;;------------------------------------------------------------------------------------------------;;
;< --- TBD --- ;;
;;================================================================================================;;
xor eax, eax
ret
endp
;;================================================================================================;;
proc img.from_file _filename ;////////////////////////////////////////////////////////////////////;;
;;------------------------------------------------------------------------------------------------;;
;? --- TBD --- ;;
;;------------------------------------------------------------------------------------------------;;
;> --- TBD --- ;;
;;------------------------------------------------------------------------------------------------;;
;< eax = 0 / pointer to image ;;
;;================================================================================================;;
xor eax, eax
ret
endp
;;================================================================================================;;
proc img.to_file _img, _filename ;////////////////////////////////////////////////////////////////;;
;;------------------------------------------------------------------------------------------------;;
;? --- TBD --- ;;
;;------------------------------------------------------------------------------------------------;;
;> --- TBD --- ;;
;;------------------------------------------------------------------------------------------------;;
;< eax = false / true ;;
;;================================================================================================;;
xor eax, eax
ret
endp
;;================================================================================================;;
proc img.from_rgb _rgb_data ;/////////////////////////////////////////////////////////////////////;;
;;------------------------------------------------------------------------------------------------;;
;? --- TBD --- ;;
;;------------------------------------------------------------------------------------------------;;
;> --- TBD --- ;;
;;------------------------------------------------------------------------------------------------;;
;< eax = 0 / pointer to image ;;
;;================================================================================================;;
xor eax, eax
ret
endp
;;================================================================================================;;
proc img.to_rgb2 _img, _out ;/////////////////////////////////////////////////////////////////////;;
;;------------------------------------------------------------------------------------------------;;
;? --- TBD --- ;;
;;------------------------------------------------------------------------------------------------;;
;> --- TBD --- ;;
;;------------------------------------------------------------------------------------------------;;
;< --- TBD --- ;;
;;================================================================================================;;
push esi edi
mov esi, [_img]
stdcall img._.validate, esi
or eax, eax
jnz .ret
mov edi, [_out]
call img._.do_rgb
.ret:
pop edi esi
ret
endp
;;================================================================================================;;
proc img.to_rgb _img ;////////////////////////////////////////////////////////////////////////////;;
;;------------------------------------------------------------------------------------------------;;
;? --- TBD --- ;;
;;------------------------------------------------------------------------------------------------;;
;> --- TBD --- ;;
;;------------------------------------------------------------------------------------------------;;
;< eax = 0 / pointer to rgb_data (array of [rgb] triplets) ;;
;;================================================================================================;;
push esi edi
mov esi, [_img]
stdcall img._.validate, esi
or eax, eax
jnz .error
mov esi, [_img]
mov ecx, [esi + Image.Width]
imul ecx, [esi + Image.Height]
lea eax, [ecx * 3 + 4 * 3]
invoke mem.alloc, eax
or eax, eax
jz .error
mov edi, eax
push eax
mov eax, [esi + Image.Width]
stosd
mov eax, [esi + Image.Height]
stosd
call img._.do_rgb
pop eax
pop edi esi
ret
.error:
xor eax, eax
pop edi esi
ret
endp
;;================================================================================================;;
proc img._.do_rgb ;///////////////////////////////////////////////////////////////////////////////;;
;;------------------------------------------------------------------------------------------------;;
;? --- TBD --- ;;
;;------------------------------------------------------------------------------------------------;;
;> --- TBD --- ;;
;;------------------------------------------------------------------------------------------------;;
;< --- TBD --- ;;
;;================================================================================================;;
mov ecx, [esi + Image.Width]
imul ecx, [esi + Image.Height]
mov eax, [esi + Image.Type]
jmp dword [.handlers + (eax-1)*4]
align 16
.bpp8:
; 8 BPP -> 24 BPP
push ebx
mov ebx, [esi + Image.Palette]
mov esi, [esi + Image.Data]
sub ecx, 1
jz .bpp8.last
@@:
movzx eax, byte [esi]
add esi, 1
mov eax, [ebx + eax*4]
mov [edi], eax
add edi, 3
sub ecx, 1
jnz @b
.bpp8.last:
movzx eax, byte [esi]
mov eax, [ebx + eax*4]
mov [edi], ax
shr eax, 16
mov [edi+2], al
pop ebx
ret
; 15 BPP -> 24 BPP
.bpp15.intel:
push ebx ebp
sub ecx, 4
jb .bpp15.tail
align 16
.bpp15.intel.loop:
repeat 2
mov ebx, [esi]
mov al, [esi]
mov ah, [esi+1]
add esi, 4
and al, 0x1F
and ah, 0x1F shl 2
mov ebp, ebx
mov dl, al
mov dh, ah
shr al, 2
shr ah, 4
shl dl, 3
shl dh, 1
and ebp, 0x1F shl 5
add al, dl
add ah, dh
shr ebp, 2
mov [edi], al
mov [edi+2], ah
mov eax, ebx
mov ebx, ebp
shr eax, 16
shr ebx, 5
add ebx, ebp
mov ebp, eax
mov [edi+1], bl
and eax, (0x1F) or (0x1F shl 10)
and ebp, 0x1F shl 5
lea edx, [eax+eax]
shr al, 2
mov ebx, ebp
shr ah, 4
shl dl, 2
shr ebx, 2
shr ebp, 7
add al, dl
add ah, dh
mov [edi+3], al
add ebx, ebp
mov [edi+5], ah
mov [edi+4], bl
add edi, 6
end repeat
sub ecx, 4
jnb .bpp15.intel.loop
.bpp15.tail:
add ecx, 4
jz .bpp15.done
@@:
movzx eax, word [esi]
mov ebx, eax
add esi, 2
and eax, (0x1F) or (0x1F shl 10)
and ebx, 0x1F shl 5
lea edx, [eax+eax]
shr al, 2
mov ebp, ebx
shr ebx, 2
shr ah, 4
shl dl, 2
shr ebp, 7
add eax, edx
add ebx, ebp
mov [edi], al
mov [edi+1], bl
mov [edi+2], ah
add edi, 3
sub ecx, 1
jnz @b
.bpp15.done:
pop ebp ebx
ret
.bpp15.amd:
push ebx ebp
sub ecx, 4
jb .bpp15.tail
align 16
.bpp15.amd.loop:
repeat 4
if (% mod 2) = 1
mov eax, dword [esi]
mov ebx, dword [esi]
else
movzx eax, word [esi]
mov ebx, eax
end if
add esi, 2
and eax, (0x1F) or (0x1F shl 10)
and ebx, 0x1F shl 5
lea edx, [eax+eax]
shr al, 2
mov ebp, ebx
shr ebx, 2
shr ah, 4
shl dl, 2
shr ebp, 7
add eax, edx
add ebx, ebp
mov [edi], al
mov [edi+1], bl
mov [edi+2], ah
add edi, 3
end repeat
sub ecx, 4
jnb .bpp15.amd.loop
jmp .bpp15.tail
; 16 BPP -> 24 BPP
.bpp16.intel:
push ebx ebp
sub ecx, 4
jb .bpp16.tail
align 16
.bpp16.intel.loop:
repeat 2
mov ebx, [esi]
mov al, [esi]
mov ah, [esi+1]
add esi, 4
and al, 0x1F
and ah, 0x1F shl 3
mov ebp, ebx
mov dl, al
mov dh, ah
shr al, 2
shr ah, 5
shl dl, 3
and ebp, 0x3F shl 5
add al, dl
add ah, dh
shr ebp, 3
mov [edi], al
mov [edi+2], ah
mov eax, ebx
mov ebx, ebp
shr eax, 16
shr ebx, 6
add ebx, ebp
mov ebp, eax
mov [edi+1], bl
and eax, (0x1F) or (0x1F shl 11)
and ebp, 0x3F shl 5
mov edx, eax
shr al, 2
mov ebx, ebp
shr ah, 5
shl dl, 3
shr ebx, 3
shr ebp, 9
add al, dl
add ah, dh
mov [edi+3], al
add ebx, ebp
mov [edi+5], ah
mov [edi+4], bl
add edi, 6
end repeat
sub ecx, 4
jnb .bpp16.intel.loop
.bpp16.tail:
add ecx, 4
jz .bpp16.done
@@:
movzx eax, word [esi]
mov ebx, eax
add esi, 2
and eax, (0x1F) or (0x1F shl 11)
and ebx, 0x3F shl 5
mov edx, eax
shr al, 2
mov ebp, ebx
shr ebx, 3
shr ah, 5
shl dl, 3
shr ebp, 9
add eax, edx
add ebx, ebp
mov [edi], al
mov [edi+1], bl
mov [edi+2], ah
add edi, 3
sub ecx, 1
jnz @b
.bpp16.done:
pop ebp ebx
ret
.bpp16.amd:
push ebx ebp
sub ecx, 4
jb .bpp16.tail
align 16
.bpp16.amd.loop:
repeat 4
if (% mod 2) = 1
mov eax, dword [esi]
mov ebx, dword [esi]
else
movzx eax, word [esi]
mov ebx, eax
end if
add esi, 2
and eax, (0x1F) or (0x1F shl 11)
and ebx, 0x3F shl 5
mov edx, eax
shr al, 2
mov ebp, ebx
shr ebx, 3
shr ah, 5
shl dl, 3
shr ebp, 9
add eax, edx
add ebx, ebp
mov [edi], al
mov [edi+1], bl
mov [edi+2], ah
add edi, 3
end repeat
sub ecx, 4
jnb .bpp16.amd.loop
jmp .bpp16.tail
align 16
.bpp24:
; 24 BPP -> 24 BPP
lea ecx, [ecx*3 + 3]
mov esi, [esi + Image.Data]
shr ecx, 2
rep movsd
ret
align 16
.bpp32:
; 32 BPP -> 24 BPP
mov esi, [esi + Image.Data]
@@:
mov eax, [esi]
mov [edi], ax
shr eax, 16
mov [edi+2], al
add esi, 4
add edi, 3
sub ecx, 1
jnz @b
@@:
ret
endp
;;================================================================================================;;
proc img.decode _data, _length, _options ;////////////////////////////////////////////////////////;;
;;------------------------------------------------------------------------------------------------;;
;? --- TBD --- ;;
;;------------------------------------------------------------------------------------------------;;
;> --- TBD --- ;;
;;------------------------------------------------------------------------------------------------;;
;< eax = 0 / pointer to image ;;
;;================================================================================================;;
push ebx
mov ebx, img._.formats_table
@@: stdcall [ebx + FormatsTableEntry.Is], [_data], [_length]
or eax, eax
jnz @f
add ebx, sizeof.FormatsTableEntry
cmp dword[ebx], eax ;0
jnz @b
pop ebx
ret
@@: mov eax, [ebx + FormatsTableEntry.Decode]
pop ebx
leave
jmp eax
endp
;;================================================================================================;;
proc img.encode _img, _p_length, _options ;///////////////////////////////////////////////////////;;
;;------------------------------------------------------------------------------------------------;;
;? --- TBD --- ;;
;;------------------------------------------------------------------------------------------------;;
;> --- TBD --- ;;
;;------------------------------------------------------------------------------------------------;;
;< eax = 0 / pointer to encoded data ;;
;< [_p_length] = data length ;;
;;================================================================================================;;
xor eax, eax
ret
endp
;;================================================================================================;;
proc img.create _width, _height, _type ;//////////////////////////////////////////////////////////;;
;;------------------------------------------------------------------------------------------------;;
;? --- TBD --- ;;
;;------------------------------------------------------------------------------------------------;;
;> --- TBD --- ;;
;;------------------------------------------------------------------------------------------------;;
;< eax = 0 / pointer to image ;;
;;================================================================================================;;
push ecx
stdcall img._.new
or eax, eax
jz .error
mov ecx, [_type]
mov [eax + Image.Type], ecx
push eax
stdcall img._.resize_data, eax, [_width], [_height]
or eax, eax
jz .error.2
pop eax
jmp .ret
.error.2:
; pop eax
stdcall img._.delete; eax
xor eax, eax
.error:
.ret:
pop ecx
ret
endp
;;================================================================================================;;
proc img.destroy.layer _img ;/////////////////////////////////////////////////////////////////////;;
;;------------------------------------------------------------------------------------------------;;
;? --- TBD --- ;;
;;------------------------------------------------------------------------------------------------;;
;> --- TBD --- ;;
;;------------------------------------------------------------------------------------------------;;
;< eax = false / true ;;
;;================================================================================================;;
mov eax, [_img]
mov edx, [eax + Image.Previous]
test edx, edx
jz @f
push [eax + Image.Next]
pop [edx + Image.Next]
@@:
mov edx, [eax + Image.Next]
test edx, edx
jz @f
push [eax + Image.Previous]
pop [edx + Image.Previous]
@@:
stdcall img._.delete, eax
ret
endp
;;================================================================================================;;
proc img.destroy _img ;///////////////////////////////////////////////////////////////////////////;;
;;------------------------------------------------------------------------------------------------;;
;? --- TBD --- ;;
;;------------------------------------------------------------------------------------------------;;
;> --- TBD --- ;;
;;------------------------------------------------------------------------------------------------;;
;< eax = false / true ;;
;;================================================================================================;;
push 1
mov eax, [_img]
mov eax, [eax + Image.Previous]
.destroy_prev_loop:
test eax, eax
jz .destroy_prev_done
pushd [eax + Image.Previous]
stdcall img._.delete, eax
test eax, eax
jnz @f
mov byte [esp+4], 0
@@:
pop eax
jmp .destroy_prev_loop
.destroy_prev_done:
mov eax, [_img]
.destroy_next_loop:
pushd [eax + Image.Next]
stdcall img._.delete, eax
test eax, eax
jnz @f
mov byte [esp+4], 0
@@:
pop eax
test eax, eax
jnz .destroy_next_loop
pop eax
ret
endp
;;================================================================================================;;
proc img.count _img ;/////////////////////////////////////////////////////////////////////////////;;
;;------------------------------------------------------------------------------------------------;;
;? Get number of images in the list (e.g. in animated GIF file) ;;
;;------------------------------------------------------------------------------------------------;;
;> _img = pointer to image ;;
;;------------------------------------------------------------------------------------------------;;
;< eax = -1 (fail) / >0 (ok) ;;
;;================================================================================================;;
push ecx edx
mov edx, [_img]
stdcall img._.validate, edx
or eax, eax
jnz .error
@@: mov eax, [edx + Image.Previous]
or eax, eax
jz @f
mov edx, eax
jmp @b
@@: xor ecx, ecx
@@: inc ecx
mov eax, [edx + Image.Next]
or eax, eax
jz .exit
mov edx, eax
jmp @b
.exit:
mov eax, ecx
pop edx ecx
ret
.error:
or eax, -1
pop edx ecx
ret
endp
;;//// image processing //////////////////////////////////////////////////////////////////////////;;
;;================================================================================================;;
proc img.lock_bits _img, _start_line, _end_line ;/////////////////////////////////////////////////;;
;;------------------------------------------------------------------------------------------------;;
;? --- TBD --- ;;
;;------------------------------------------------------------------------------------------------;;
;> --- TBD --- ;;
;;------------------------------------------------------------------------------------------------;;
;< eax = 0 / pointer to bits ;;
;;================================================================================================;;
xor eax, eax
ret
endp
;;================================================================================================;;
proc img.unlock_bits _img, _lock ;////////////////////////////////////////////////////////////////;;
;;------------------------------------------------------------------------------------------------;;
;? --- TBD --- ;;
;;------------------------------------------------------------------------------------------------;;
;> --- TBD --- ;;
;;------------------------------------------------------------------------------------------------;;
;< eax = false / true ;;
;;================================================================================================;;
xor eax, eax
ret
endp
;;================================================================================================;;
proc img.flip.layer _img, _flip_kind ;////////////////////////////////////////////////////////////;;
;;------------------------------------------------------------------------------------------------;;
;? Flip image layer ;;
;;------------------------------------------------------------------------------------------------;;
;> _img = pointer to image ;;
;> _flip_kind = one of FLIP_* constants ;;
;;------------------------------------------------------------------------------------------------;;
;< eax = false / true ;;
;;================================================================================================;;
locals
scanline_len dd ?
endl
push ebx esi edi
mov ebx, [_img]
stdcall img._.validate, ebx
or eax, eax
jnz .error
mov ecx, [ebx + Image.Height]
mov eax, [ebx + Image.Width]
call img._.get_scanline_len
mov [scanline_len], eax
test [_flip_kind], FLIP_VERTICAL
jz .dont_flip_vert
imul eax, ecx
sub eax, [scanline_len]
shr ecx, 1
mov esi, [ebx + Image.Data]
lea edi, [esi + eax]
.next_line_vert:
push ecx
mov ecx, [scanline_len]
push ecx
shr ecx, 2
@@: mov eax, [esi]
xchg eax, [edi]
mov [esi], eax
add esi, 4
add edi, 4
sub ecx, 1
jnz @b
pop ecx
and ecx, 3
jz .cont_line_vert
@@:
mov al, [esi]
xchg al, [edi]
mov [esi], al
add esi, 1
add edi, 1
dec ecx
jnz @b
.cont_line_vert:
pop ecx
mov eax, [scanline_len]
shl eax, 1
sub edi, eax
dec ecx
jnz .next_line_vert
.dont_flip_vert:
test [_flip_kind], FLIP_HORIZONTAL
jz .exit
mov ecx, [ebx + Image.Height]
mov eax, [ebx + Image.Type]
mov esi, [ebx + Image.Data]
mov edi, [scanline_len]
add edi, esi
jmp dword [.handlers_horz + (eax-1)*4]
.bpp32_horz:
sub edi, 4
.next_line_horz:
push ecx esi edi
mov ecx, [scanline_len]
shr ecx, 3
@@: mov eax, [esi]
xchg eax, [edi]
mov [esi], eax
add esi, 4
add edi, -4
sub ecx, 1
jnz @b
pop edi esi ecx
add esi, [scanline_len]
add edi, [scanline_len]
dec ecx
jnz .next_line_horz
jmp .exit
.bpp1x_horz:
sub edi, 2
.next_line_horz1x:
push ecx esi edi
mov ecx, [ebx + Image.Width]
@@: mov ax, [esi]
mov dx, [edi]
mov [edi], ax
mov [esi], dx
add esi, 2
sub edi, 2
sub ecx, 2
ja @b
pop edi esi ecx
add esi, [scanline_len]
add edi, [scanline_len]
dec ecx
jnz .next_line_horz1x
jmp .exit
.bpp8_horz:
dec edi
.next_line_horz8:
push ecx esi edi
mov ecx, [scanline_len]
shr ecx, 1
@@: mov al, [esi]
mov dl, [edi]
mov [edi], al
mov [esi], dl
add esi, 1
sub edi, 1
sub ecx, 1
jnz @b
pop edi esi ecx
add esi, [scanline_len]
add edi, [scanline_len]
dec ecx
jnz .next_line_horz8
jmp .exit
.bpp24_horz:
sub edi, 3
.next_line_horz24:
push ecx esi edi
mov ecx, [ebx + Image.Width]
@@:
mov al, [esi]
mov dl, [edi]
mov [edi], al
mov [esi], dl
mov al, [esi+1]
mov dl, [edi+1]
mov [edi+1], al
mov [esi+1], dl
mov al, [esi+2]
mov dl, [edi+2]
mov [edi+2], al
mov [esi+2], dl
add esi, 3
sub edi, 3
sub ecx, 2
ja @b
pop edi esi ecx
add esi, [scanline_len]
add edi, [scanline_len]
dec ecx
jnz .next_line_horz24
.exit:
xor eax, eax
inc eax
pop edi esi ebx
ret
.error:
xor eax, eax
pop edi esi ebx
ret
endp
;;================================================================================================;;
proc img.flip _img, _flip_kind ;//////////////////////////////////////////////////////////////////;;
;;------------------------------------------------------------------------------------------------;;
;? Flip all layers of image ;;
;;------------------------------------------------------------------------------------------------;;
;> _img = pointer to image ;;
;> _flip_kind = one of FLIP_* constants ;;
;;------------------------------------------------------------------------------------------------;;
;< eax = false / true ;;
;;================================================================================================;;
push 1
mov ebx, [_img]
@@:
mov eax, [ebx + Image.Previous]
test eax, eax
jz .loop
mov ebx, eax
jmp @b
.loop:
stdcall img.flip.layer, ebx, [_flip_kind]
test eax, eax
jnz @f
mov byte [esp], 0
@@:
mov ebx, [ebx + Image.Next]
test ebx, ebx
jnz .loop
pop eax
ret
endp
;;================================================================================================;;
proc img.rotate.layer _img, _rotate_kind ;////////////////////////////////////////////////////////;;
;;------------------------------------------------------------------------------------------------;;
;? Rotate image layer ;;
;;------------------------------------------------------------------------------------------------;;
;> _img = pointer to image ;;
;> _rotate_kind = one of ROTATE_* constants ;;
;;------------------------------------------------------------------------------------------------;;
;< eax = false / true ;;
;;================================================================================================;;
locals
scanline_len_old dd ?
scanline_len_new dd ?
scanline_pixels_new dd ?
line_buffer dd ?
pixels_ptr dd ?
endl
mov [line_buffer], 0
push ebx esi edi
mov ebx, [_img]
stdcall img._.validate, ebx
or eax, eax
jnz .error
cmp [_rotate_kind], ROTATE_90_CCW
je .rotate_ccw_low
cmp [_rotate_kind], ROTATE_90_CW
je .rotate_cw_low
cmp [_rotate_kind], ROTATE_180
je .flip
jmp .exit
.rotate_ccw_low:
mov eax, [ebx + Image.Height]
mov [scanline_pixels_new], eax
call img._.get_scanline_len
mov [scanline_len_new], eax
invoke mem.alloc, eax
or eax, eax
jz .error
mov [line_buffer], eax
mov eax, [ebx + Image.Width]
mov ecx, eax
call img._.get_scanline_len
mov [scanline_len_old], eax
mov eax, [scanline_len_new]
imul eax, ecx
add eax, [ebx + Image.Data]
mov [pixels_ptr], eax
cmp [ebx + Image.Type], Image.bpp8
jz .rotate_ccw8
cmp [ebx + Image.Type], Image.bpp24
jz .rotate_ccw24
cmp [ebx + Image.Type], Image.bpp32
jz .rotate_ccw32
.next_column_ccw_low1x:
dec ecx
js .exchange_dims
push ecx
mov edx, [scanline_len_old]
add [scanline_len_old], -2
mov ecx, [scanline_pixels_new]
mov esi, [ebx + Image.Data]
mov edi, [line_buffer]
@@: mov ax, [esi]
mov [edi], ax
add esi, edx
add edi, 2
sub ecx, 1
jnz @b
mov eax, [scanline_pixels_new]
mov edi, [ebx + Image.Data]
lea esi, [edi + 2]
mov edx, [scanline_len_old]
@@: mov ecx, edx
shr ecx, 2
rep movsd
mov ecx, edx
and ecx, 3
rep movsb
add esi, 1
sub eax, 1
jnz @b
mov eax, [scanline_len_new]
sub [pixels_ptr], eax
mov ecx, [scanline_pixels_new]
mov esi, [line_buffer]
mov edi, [pixels_ptr]
mov edx, ecx
shr ecx, 2
rep movsd
mov ecx, edx
and ecx, 3
rep movsb
pop ecx
jmp .next_column_ccw_low1x
.rotate_ccw32:
.next_column_ccw_low:
dec ecx
js .exchange_dims
push ecx
mov edx, [scanline_len_old]
add [scanline_len_old], -4
mov ecx, [scanline_pixels_new]
mov esi, [ebx + Image.Data]
mov edi, [line_buffer]
@@: mov eax, [esi]
stosd
add esi, edx
dec ecx
jnz @b
mov eax, [scanline_pixels_new]
mov edi, [ebx + Image.Data]
lea esi, [edi + 4]
mov edx, [scanline_len_old]
shr edx, 2
@@: mov ecx, edx
rep movsd
add esi, 4
dec eax
jnz @b
mov eax, [scanline_len_new]
sub [pixels_ptr], eax
mov ecx, [scanline_pixels_new]
mov esi, [line_buffer]
mov edi, [pixels_ptr]
rep movsd
pop ecx
jmp .next_column_ccw_low
.rotate_ccw8:
.next_column_ccw_low8:
dec ecx
js .exchange_dims
push ecx
mov edx, [scanline_len_old]
add [scanline_len_old], -1
mov ecx, [scanline_pixels_new]
mov esi, [ebx + Image.Data]
mov edi, [line_buffer]
@@: mov al, [esi]
mov [edi], al
add esi, edx
add edi, 1
sub ecx, 1
jnz @b
mov eax, [scanline_pixels_new]
mov edi, [ebx + Image.Data]
lea esi, [edi + 1]
mov edx, [scanline_len_old]
@@: mov ecx, edx
shr ecx, 2
rep movsd
mov ecx, edx
and ecx, 3
rep movsb
add esi, 1
sub eax, 1
jnz @b
mov eax, [scanline_len_new]
sub [pixels_ptr], eax
mov ecx, [scanline_pixels_new]
mov esi, [line_buffer]
mov edi, [pixels_ptr]
mov edx, ecx
shr ecx, 2
rep movsd
mov ecx, edx
and ecx, 3
rep movsb
pop ecx
jmp .next_column_ccw_low8
.rotate_ccw24:
.next_column_ccw_low24:
dec ecx
js .exchange_dims
push ecx
mov edx, [scanline_len_old]
add [scanline_len_old], -3
mov ecx, [scanline_pixels_new]
mov esi, [ebx + Image.Data]
mov edi, [line_buffer]
@@: mov al, [esi]
mov [edi], al
mov al, [esi+1]
mov [edi+1], al
mov al, [esi+2]
mov [edi+2], al
add esi, edx
add edi, 3
sub ecx, 1
jnz @b
mov eax, [scanline_pixels_new]
mov edi, [ebx + Image.Data]
lea esi, [edi + 3]
mov edx, [scanline_len_old]
@@: mov ecx, edx
shr ecx, 2
rep movsd
mov ecx, edx
and ecx, 3
rep movsb
add esi, 3
sub eax, 1
jnz @b
mov eax, [scanline_len_new]
sub [pixels_ptr], eax
mov ecx, eax
mov esi, [line_buffer]
mov edi, [pixels_ptr]
shr ecx, 2
rep movsd
mov ecx, eax
and ecx, 3
rep movsb
pop ecx
jmp .next_column_ccw_low24
.rotate_cw_low:
mov eax, [ebx + Image.Height]
mov [scanline_pixels_new], eax
call img._.get_scanline_len
mov [scanline_len_new], eax
invoke mem.alloc, eax
or eax, eax
jz .error
mov [line_buffer], eax
mov eax, [ebx + Image.Width]
mov ecx, eax
call img._.get_scanline_len
mov [scanline_len_old], eax
mov eax, [scanline_len_new]
imul eax, ecx
add eax, [ebx + Image.Data]
mov [pixels_ptr], eax
cmp [ebx + Image.Type], Image.bpp8
jz .rotate_cw8
cmp [ebx + Image.Type], Image.bpp24
jz .rotate_cw24
cmp [ebx + Image.Type], Image.bpp32
jz .rotate_cw32
.next_column_cw_low1x:
dec ecx
js .exchange_dims
push ecx
mov edx, [scanline_len_old]
add [scanline_len_old], -2
mov ecx, [scanline_pixels_new]
mov esi, [pixels_ptr]
add esi, -2
mov edi, [line_buffer]
@@: mov ax, [esi]
mov [edi], ax
sub esi, edx
add edi, 2
sub ecx, 1
jnz @b
mov eax, [scanline_pixels_new]
dec eax
mov edi, [ebx + Image.Data]
add edi, [scanline_len_old]
lea esi, [edi + 2]
mov edx, [scanline_len_old]
@@: mov ecx, edx
shr ecx, 2
rep movsd
mov ecx, edx
and ecx, 3
rep movsb
add esi, 3
sub eax, 1
jnz @b
mov eax, [scanline_len_new]
sub [pixels_ptr], eax
mov ecx, eax
mov esi, [line_buffer]
mov edi, [pixels_ptr]
shr ecx, 2
rep movsd
mov ecx, eax
and ecx, 3
rep movsb
pop ecx
jmp .next_column_cw_low1x
.rotate_cw32:
.next_column_cw_low:
dec ecx
js .exchange_dims
push ecx
mov edx, [scanline_len_old]
add [scanline_len_old], -4
mov ecx, [scanline_pixels_new]
mov esi, [pixels_ptr]
add esi, -4
mov edi, [line_buffer]
@@: mov eax, [esi]
stosd
sub esi, edx
dec ecx
jnz @b
mov eax, [scanline_pixels_new]
dec eax
mov edi, [ebx + Image.Data]
add edi, [scanline_len_old]
lea esi, [edi + 4]
mov edx, [scanline_len_old]
shr edx, 2
@@: mov ecx, edx
rep movsd
add esi, 4
dec eax
jnz @b
mov eax, [scanline_len_new]
sub [pixels_ptr], eax
mov ecx, [scanline_pixels_new]
mov esi, [line_buffer]
mov edi, [pixels_ptr]
rep movsd
pop ecx
jmp .next_column_cw_low
.rotate_cw8:
.next_column_cw_low8:
dec ecx
js .exchange_dims
push ecx
mov edx, [scanline_len_old]
add [scanline_len_old], -1
mov ecx, [scanline_pixels_new]
mov esi, [pixels_ptr]
add esi, -1
mov edi, [line_buffer]
@@: mov al, [esi]
mov [edi], al
sub esi, edx
add edi, 1
sub ecx, 1
jnz @b
mov eax, [scanline_pixels_new]
dec eax
mov edi, [ebx + Image.Data]
add edi, [scanline_len_old]
lea esi, [edi + 1]
mov edx, [scanline_len_old]
@@: mov ecx, edx
shr ecx, 2
rep movsd
mov ecx, edx
and ecx, 3
rep movsb
add esi, 1
sub eax, 1
jnz @b
mov eax, [scanline_len_new]
sub [pixels_ptr], eax
mov ecx, eax
mov esi, [line_buffer]
mov edi, [pixels_ptr]
shr ecx, 2
rep movsd
mov ecx, eax
and ecx, 3
rep movsb
pop ecx
jmp .next_column_cw_low8
.rotate_cw24:
.next_column_cw_low24:
dec ecx
js .exchange_dims
push ecx
mov edx, [scanline_len_old]
add [scanline_len_old], -3
mov ecx, [scanline_pixels_new]
mov esi, [pixels_ptr]
add esi, -3
mov edi, [line_buffer]
@@: mov al, [esi]
mov [edi], al
mov al, [esi+1]
mov [edi+1], al
mov al, [esi+2]
mov [edi+2], al
sub esi, edx
add edi, 3
sub ecx, 1
jnz @b
mov eax, [scanline_pixels_new]
dec eax
mov edi, [ebx + Image.Data]
add edi, [scanline_len_old]
lea esi, [edi + 3]
mov edx, [scanline_len_old]
@@: mov ecx, edx
shr ecx, 2
rep movsd
mov ecx, edx
and ecx, 3
rep movsb
add esi, 3
sub eax, 1
jnz @b
mov eax, [scanline_len_new]
sub [pixels_ptr], eax
mov ecx, eax
mov esi, [line_buffer]
mov edi, [pixels_ptr]
shr ecx, 2
rep movsd
mov ecx, eax
and ecx, 3
rep movsb
pop ecx
jmp .next_column_cw_low24
.flip:
jmp .exit
.exchange_dims:
push [ebx + Image.Width] [ebx + Image.Height]
pop [ebx + Image.Width] [ebx + Image.Height]
.exit:
invoke mem.free, [line_buffer]
xor eax, eax
inc eax
pop edi esi ebx
ret
.error:
invoke mem.free, [line_buffer]
xor eax, eax
pop edi esi ebx
ret
endp
;;================================================================================================;;
proc img.rotate _img, _rotate_kind ;//////////////////////////////////////////////////////////////;;
;;------------------------------------------------------------------------------------------------;;
;? Rotate all layers of image ;;
;;------------------------------------------------------------------------------------------------;;
;> _img = pointer to image ;;
;> _rotate_kind = one of ROTATE_* constants ;;
;;------------------------------------------------------------------------------------------------;;
;< eax = false / true ;;
;;================================================================================================;;
push 1
mov ebx, [_img]
@@:
mov eax, [ebx + Image.Previous]
test eax, eax
jz .loop
mov ebx, eax
jmp @b
.loop:
stdcall img.rotate.layer, ebx, [_rotate_kind]
test eax, eax
jnz @f
mov byte [esp], 0
@@:
mov ebx, [ebx + Image.Next]
test ebx, ebx
jnz .loop
pop eax
ret
endp
;;================================================================================================;;
proc img.draw _img, _x, _y, _width, _height, _xpos, _ypos ;///////////////////////////////////////;;
;;------------------------------------------------------------------------------------------------;;
;? Draw image in the window ;;
;;------------------------------------------------------------------------------------------------;;
;> _img = pointer to image ;;
;>_x = x-coordinate in the window ;;
;>_y = y-coordinate in the window ;;
;>_width = maximum width to draw ;;
;>_height = maximum height to draw ;;
;>_xpos = offset in image by x-axis ;;
;>_ypos = offset in image by y-axis ;;
;;------------------------------------------------------------------------------------------------;;
;< no return value ;;
;;================================================================================================;;
push ebx esi edi
mov ebx, [_img]
stdcall img._.validate, ebx
test eax, eax
jnz .done
mov ecx, [ebx + Image.Width]
sub ecx, [_xpos]
jbe .done
cmp ecx, [_width]
jb @f
mov ecx, [_width]
@@:
mov edx, [ebx + Image.Height]
sub edx, [_ypos]
jbe .done
cmp edx, [_height]
jb @f
mov edx, [_height]
@@:
mov eax, [ebx + Image.Width]
sub eax, ecx
call img._.get_scanline_len
shl ecx, 16
add ecx, edx
push eax
mov eax, [ebx + Image.Width]
imul eax, [_ypos]
add eax, [_xpos]
call img._.get_scanline_len
add eax, [ebx + Image.Data]
mov edx, [_x - 2]
mov dx, word [_y]
mov esi, [ebx + Image.Type]
mov esi, [type2bpp + (esi-1)*4]
mov edi, [ebx + Image.Palette]
xchg eax, ebx
pop eax
push ebp
push 65
pop ebp
xchg eax, ebp
int 40h
pop ebp
.done:
pop edi esi ebx
ret
endp
;;================================================================================================;;
;;////////////////////////////////////////////////////////////////////////////////////////////////;;
;;================================================================================================;;
;! Below are private procs you should never call directly from your code ;;
;;================================================================================================;;
;;////////////////////////////////////////////////////////////////////////////////////////////////;;
;;================================================================================================;;
;;================================================================================================;;
proc img._.validate, _img ;///////////////////////////////////////////////////////////////////////;;
;;------------------------------------------------------------------------------------------------;;
;? --- TBD --- ;;
;;------------------------------------------------------------------------------------------------;;
;> --- TBD --- ;;
;;------------------------------------------------------------------------------------------------;;
;< --- TBD --- ;;
;;================================================================================================;;
xor eax, eax
ret
endp
;;================================================================================================;;
proc img._.new ;//////////////////////////////////////////////////////////////////////////////////;;
;;------------------------------------------------------------------------------------------------;;
;? --- TBD --- ;;
;;------------------------------------------------------------------------------------------------;;
;> --- TBD --- ;;
;;------------------------------------------------------------------------------------------------;;
;< eax = 0 / pointer to image ;;
;;================================================================================================;;
invoke mem.alloc, sizeof.Image
test eax, eax
jz @f
push ecx
xor ecx, ecx
mov [eax + Image.Data], ecx
mov [eax + Image.Type], ecx
mov [eax + Image.Flags], ecx
mov [eax + Image.Extended], ecx
mov [eax + Image.Previous], ecx
mov [eax + Image.Next], ecx
pop ecx
@@:
ret
endp
;;================================================================================================;;
proc img._.delete _img ;//////////////////////////////////////////////////////////////////////////;;
;;------------------------------------------------------------------------------------------------;;
;? --- TBD --- ;;
;;------------------------------------------------------------------------------------------------;;
;> --- TBD --- ;;
;;------------------------------------------------------------------------------------------------;;
;< eax = false / true ;;
;;================================================================================================;;
push edx
mov edx, [_img]
cmp [edx + Image.Data], 0
je @f
invoke mem.free, [edx + Image.Data]
@@: cmp [edx + Image.Extended], 0
je @f
invoke mem.free, [edx + Image.Extended]
@@: invoke mem.free, edx
pop edx
ret
endp
;;================================================================================================;;
proc img._.resize_data _img, _width, _height ;////////////////////////////////////////////////////;;
;;------------------------------------------------------------------------------------------------;;
;? --- TBD --- ;;
;;------------------------------------------------------------------------------------------------;;
;> --- TBD --- ;;
;;------------------------------------------------------------------------------------------------;;
;< --- TBD --- ;;
;;================================================================================================;;
push ebx esi
mov ebx, [_img]
mov eax, [_height]
; our memory is limited, [_width]*[_height] must not overflow
; image with width or height greater than 65535 is most likely bogus
cmp word [_width+2], 0
jnz .error
cmp word [_height+2], 0
jnz .error
imul eax, [_width]
test eax, eax
jz .error
; do not allow images which require too many memory
cmp eax, 4000000h
jae .error
cmp [ebx + Image.Type], Image.bpp8
jz .bpp8
cmp [ebx + Image.Type], Image.bpp24
jz .bpp24
.bpp32:
shl eax, 2
jmp @f
.bpp24:
lea eax, [eax*3]
jmp @f
.bpp8:
add eax, 256*4 ; for palette
@@:
mov esi, eax
invoke mem.realloc, [ebx + Image.Data], eax
or eax, eax
jz .error
mov [ebx + Image.Data], eax
push [_width]
pop [ebx + Image.Width]
push [_height]
pop [ebx + Image.Height]
cmp [ebx + Image.Type], Image.bpp8
jnz .ret
lea esi, [eax + esi - 256*4]
mov [ebx + Image.Palette], esi
jmp .ret
.error:
xor eax, eax
.ret:
pop esi ebx
ret
endp
;;================================================================================================;;
img._.get_scanline_len: ;/////////////////////////////////////////////////////////////////////////;;
;;------------------------------------------------------------------------------------------------;;
;? --- TBD --- ;;
;;------------------------------------------------------------------------------------------------;;
;> --- TBD --- ;;
;;------------------------------------------------------------------------------------------------;;
;< --- TBD --- ;;
;;================================================================================================;;
cmp [ebx + Image.Type], Image.bpp8
jz .bpp8.1
cmp [ebx + Image.Type], Image.bpp24
jz .bpp24.1
add eax, eax
cmp [ebx + Image.Type], Image.bpp32
jnz @f
add eax, eax
jmp @f
.bpp24.1:
lea eax, [eax*3]
.bpp8.1:
@@:
ret
;;================================================================================================;;
;;////////////////////////////////////////////////////////////////////////////////////////////////;;
;;================================================================================================;;
;! Below is private data you should never use directly from your code ;;
;;================================================================================================;;
;;////////////////////////////////////////////////////////////////////////////////////////////////;;
;;================================================================================================;;
align 4
img._.formats_table:
.bmp dd img.is.bmp, img.decode.bmp, img.encode.bmp
.ico dd img.is.ico, img.decode.ico_cur, img.encode.ico
.cur dd img.is.cur, img.decode.ico_cur, img.encode.cur
.gif dd img.is.gif, img.decode.gif, img.encode.gif
.png dd img.is.png, img.decode.png, img.encode.png
.jpg dd img.is.jpg, img.decode.jpg, img.encode.jpg
.tga dd img.is.tga, img.decode.tga, img.encode.tga
.z80 dd img.is.z80, img.decode.z80, img.encode.z80 ;this must be the last entry as there are no
;signatures in z80 screens at all
dd 0
align 4
type2bpp dd 8, 24, 32, 15, 16
img._.do_rgb.handlers:
dd img._.do_rgb.bpp8
dd img._.do_rgb.bpp24
dd img._.do_rgb.bpp32
dd img._.do_rgb.bpp15.amd ; can be overwritten in lib_init
dd img._.do_rgb.bpp16.amd ; can be overwritten in lib_init
img.flip.layer.handlers_horz:
dd img.flip.layer.bpp8_horz
dd img.flip.layer.bpp24_horz
dd img.flip.layer.bpp32_horz
dd img.flip.layer.bpp1x_horz
dd img.flip.layer.bpp1x_horz
;;================================================================================================;;
;;////////////////////////////////////////////////////////////////////////////////////////////////;;
;;================================================================================================;;
;! Exported functions section ;;
;;================================================================================================;;
;;////////////////////////////////////////////////////////////////////////////////////////////////;;
;;================================================================================================;;
align 4
@EXPORT:
export \
lib_init , 'lib_init' , \
0x00050007 , 'version' , \
img.is_img , 'img_is_img' , \
img.info , 'img_info' , \
img.from_file , 'img_from_file' , \
img.to_file , 'img_to_file' , \
img.from_rgb , 'img_from_rgb' , \
img.to_rgb , 'img_to_rgb' , \
img.to_rgb2 , 'img_to_rgb2' , \
img.decode , 'img_decode' , \
img.encode , 'img_encode' , \
img.create , 'img_create' , \
img.destroy , 'img_destroy' , \
img.destroy.layer, 'img_destroy_layer', \
img.count , 'img_count' , \
img.lock_bits , 'img_lock_bits' , \
img.unlock_bits , 'img_unlock_bits' , \
img.flip , 'img_flip' , \
img.flip.layer , 'img_flip_layer' , \
img.rotate , 'img_rotate' , \
img.rotate.layer, 'img_rotate_layer', \
img.draw , 'img_draw'
; import from deflate unpacker
; is initialized only when PNG loading is requested
align 4
@IMPORT:
library archiver, 'archiver.obj'
import archiver, \
deflate_unpack2, 'deflate_unpack2'
align 4
; mutex for unpacker loading
deflate_loader_mutex dd 0
; default palette for GIF - b&w
gif_default_palette:
db 0, 0, 0
db 0xFF, 0xFF, 0xFF
section '.data' data readable writable align 16
; uninitialized data - global constant tables
mem.alloc dd ?
mem.free dd ?
mem.realloc dd ?
dll.load dd ?
; data for YCbCr -> RGB translation
color_table_1 rd 256
color_table_2 rd 256
color_table_3 rd 256
color_table_4 rd 256