;;================================================================================================;; ;;//// png.asm //// (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 . ;; ;; ;; ;;================================================================================================;; include 'libpng/png.asm' ;;================================================================================================;; ;;proc img.is.png _data, _length ;////////////////////////////////////////////////////////////////;; img.is.png: ;;------------------------------------------------------------------------------------------------;; ;? Determine if raw data could be decoded (is in PNG format) ;; ;;------------------------------------------------------------------------------------------------;; ;> _data = raw data as read from file/stream ;; ;> _length = data length ;; ;;------------------------------------------------------------------------------------------------;; ;< eax = false / true ;; ;;================================================================================================;; ; test 1 (length of data) cmp dword [esp+8], 8 jb .nope ; test 2: signature mov eax, [esp+4] cmp dword [eax], 0x474E5089 jne .nope cmp dword [eax+4], 0x0A1A0A0D je .yep .nope: xor eax, eax ret 8 .yep: xor eax, eax inc eax ret 8 ;endp ;;================================================================================================;; ;;proc img.decode.png _data, _length, _options ;//////////////////////////////////////////////////;; img.decode.png: xor eax, eax ; .image = 0 pushad mov ebp, esp .localsize = 29*4 virtual at ebp - .localsize .width dd ? .height dd ? .bit_depth dd ? .color_type dd ? .bytes_per_pixel dd ? .scanline_len dd ? .bits_per_pixel dd ? .size_rest dd ? .cur_chunk_ptr dd ? .cur_chunk_size dd ? .allocated dd ? .paeth_a dd ? .paeth_b dd ? .paeth_c dd ? .paeth_pa dd ? .paeth_pb dd ? .paeth_pc dd ? .i dd ? .j dd ? ; variables to handle interlace .row_distance dd ? ; diff between two consecutives rows in destination .col_distance dd ? ; summand for moving to next row in source .row_increment dd ? .col_increment dd ? .block_height dd ? .block_width dd ? .interlace db ? ; 0 if not interlaced, 1 if interlaced .row_increment_shift db ? .col_increment_shift db ? .shift db ? ; shift for current src byte .starting_row dd ? .starting_col dd ? .idat_read dd ? rb 1Ch .image dd ? rd 1 .data dd ? .length dd ? .options dd ? end virtual push eax ; .idat_read = 0 push eax ; .starting_col = 0 push eax ; .starting_row = 0 push eax ; .col_increment_shift, .row_increment_shift inc eax push eax ; .block_width push eax ; .block_height push eax ; .col_increment push eax ; .row_increment sub esp, .localsize-32 ; load deflate unpacker, if not yet ; acquire mutex @@: push 1 pop eax xchg [deflate_loader_mutex], eax ; 'xchg' has an implicit 'lock' prefix test eax, eax jz @f mcall 5, 1 jmp @b @@: cmp [deflate_unpack2], __deflate_unpack2_import_name__ jnz .deflate_loaded ; do loading invoke dll.load, @IMPORT test eax, eax jz .deflate_loaded add esp, .localsize popad mov [deflate_loader_mutex], eax ret 12 .deflate_loaded: ; release mutex mov [deflate_loader_mutex], 0 ; ok, continue mov esi, [.data] ; esi -> data mov ecx, [.length] ; ecx = length ; the signature has been already checked in img.is.png lodsd lodsd sub ecx, 8 xor ebx, ebx ; no image allocated .chunks_loop: sub ecx, 12 jc .eof lodsd ; chunk length bswap eax sub ecx, eax jc .eof push ecx ; save length of data rest xchg eax, ecx ; ecx = size of data in the chunk lodsd ; chunk type cmp eax, 'IHDR' jz .ihdr cmp eax, 'IDAT' jz .idat cmp eax, 'IEND' jz .iend cmp eax, 'PLTE' jz .palette ; unrecognized chunk, ignore lea esi, [esi+ecx+4] pop ecx jmp .chunks_loop ; IHDR chunk .ihdr: cmp ecx, 13 jnz .invalid_chunk cmp [.image], 0 jnz .invalid_chunk ; read image characteristics lodsd bswap eax mov [.width], eax lodsd bswap eax mov [.height], eax xor eax, eax lea ebx, [eax+1] lodsb cmp al, 16 ja .invalid_chunk test al, al jz .invalid_chunk lea edx, [eax-1] test al, dl jnz .invalid_chunk mov [.bit_depth], eax lodsb test al, not 7 jnz .invalid_chunk mov [.color_type], eax lodsb test al, al jnz .invalid_chunk ; only compression method 0 is defined lodsb test al, al jnz .invalid_chunk ; only filtering method 0 is defined lodsb cmp al, 1 ja .invalid_chunk ; only interlacing methods 0 and 1 are defined mov [.interlace], al ; check for correctness and calculate bytes_per_pixel and scanline_len mov eax, [.bit_depth] mov edx, [.color_type] dec edx js .grayscale1 dec edx jz .rgb1 dec edx jz .palette1 dec edx jz .grayscale_alpha1 dec edx dec edx jnz .invalid_chunk .rgb_alpha1: inc ebx .rgb1: inc ebx .grayscale_alpha1: inc ebx cmp al, 8 jb .invalid_chunk jmp @f .palette1: cmp al, 8 ja .invalid_chunk .grayscale1: @@: mul ebx mov [.bits_per_pixel], eax add eax, 7 shr eax, 3 mov [.bytes_per_pixel], eax ; allocate image push Image.bpp24 pop eax cmp [.color_type], 2 jz @f mov al, Image.bpp32 cmp [.color_type], 6 jz @f mov al, Image.bpp8i @@: stdcall img.create, [.width], [.height], eax test eax, eax jz .invalid_chunk mov [.image], eax jmp .next_chunk .invalid_chunk: .iend: pop ecx .eof: add esp, .localsize popad ret 12 ; PLTE chunk .palette: mov eax, [.image] test eax, eax jz .invalid_chunk cmp [.color_type], 3 jz .copy_palette .ignore_chunk: add esi, ecx .next_chunk: lodsd pop ecx jmp .chunks_loop .copy_palette: mov edi, [eax + Image.Palette] xor eax, eax cmp ecx, 256*3 ja .next_chunk @@: sub ecx, 3 jz @f js .invalid_chunk lodsd dec esi bswap eax mov al, 0xff ror eax, 8 stosd jmp @b @@: lodsd dec esi bswap eax shr eax, 8 stosd jmp .next_chunk .idat: jecxz .next_chunk cmp [.idat_read], 0 jnz @f lodsb inc [.idat_read] and al, 0xF cmp al, 8 jnz .invalid_chunk dec ecx jz .next_chunk @@: cmp [.idat_read], 1 jnz @f lodsb inc [.idat_read] test al, 20h jnz .invalid_chunk dec ecx jz .next_chunk @@: mov [.cur_chunk_ptr], esi mov [.cur_chunk_size], ecx pop [.length] push eax push esp push ebp push .deflate_callback call [deflate_unpack2] pop ecx test eax, eax jz .invalid_chunk ; convert PNG unpacked data to RAW data mov esi, eax mov [.allocated], eax mov [.size_rest], ecx ; unfilter and deinterlace ; .interlace_pass, .starting_row and .starting_col have been already set to 0 ; .block_width, .block_height, .col_increment, .row_increment were set ; to values for non-interlaced images; correct if necessary cmp [.interlace], 0 jz .deinterlace_loop push 8 pop eax mov [.row_increment], eax mov [.col_increment], eax mov [.block_height], eax mov [.block_width], eax mov [.row_increment_shift], 3 mov [.col_increment_shift], 3 .deinterlace_loop: mov edx, [.height] cmp edx, [.starting_row] jbe .deinterlace_next mov ebx, [.width] sub ebx, [.starting_col] jbe .deinterlace_next mov cl, [.col_increment_shift] add ebx, [.col_increment] dec ebx shr ebx, cl mov eax, [.bits_per_pixel] imul eax, ebx add eax, 7 shr eax, 3 mov [.scanline_len], eax shl ebx, cl mov [.col_distance], ebx ; Unfilter mov ecx, [.size_rest] push esi .unfilter_loop_e: mov ebx, [.scanline_len] sub ecx, 1 jc .unfilter_abort sub ecx, ebx jc .unfilter_abort movzx eax, byte [esi] add esi, 1 cmp eax, 4 ja .next_scanline jmp dword [@f + eax*4] align 4 @@: dd .unfilter_none dd .unfilter_sub dd .unfilter_up dd .unfilter_average dd .unfilter_paeth .unfilter_sub: mov edi, [.bytes_per_pixel] add esi, edi sub ebx, edi jbe .next_scanline neg edi @@: mov al, [esi+edi] add [esi], al add esi, 1 sub ebx, 1 jnz @b jmp .next_scanline .unfilter_up: cmp edx, [.height] jz .unfilter_none lea edi, [ebx+1] neg edi @@: mov al, [esi+edi] add [esi], al add esi, 1 sub ebx, 1 jnz @b jmp .next_scanline .unfilter_average: mov edi, [.bytes_per_pixel] cmp edx, [.height] jz .unfilter_average_firstline push edx lea edx, [ebx+1] neg edx sub ebx, edi @@: mov al, [esi+edx] shr al, 1 add [esi], al add esi, 1 sub edi, 1 jnz @b mov edi, [.bytes_per_pixel] neg edi test ebx, ebx jz .unfilter_average_done @@: mov al, [esi+edx] add al, [esi+edi] rcr al, 1 add [esi], al add esi, 1 sub ebx, 1 jnz @b .unfilter_average_done: pop edx jmp .next_scanline .unfilter_average_firstline: mov edi, [.bytes_per_pixel] add esi, edi sub ebx, edi jbe .next_scanline neg edi @@: mov al, [esi+edi] shr al, 1 add [esi], al add esi, 1 sub ebx, 1 jnz @b jmp .unfilter_none .unfilter_paeth: cmp edx, [.height] jz .unfilter_sub push edx lea edx, [ebx+1] mov edi, [.bytes_per_pixel] neg edx sub ebx, edi @@: mov al, [esi+edx] add [esi], al add esi, 1 sub edi, 1 jnz @b mov edi, [.bytes_per_pixel] neg edi test ebx, ebx jz .unfilter_paeth_done push ecx @@: push ebx ; PaethPredictor(Raw(x-bpp) = a, Prior(x) = b, Prior(x-bpp) = c) movzx eax, byte [esi+edi] mov [.paeth_a], eax movzx ecx, byte [esi+edx] add edi, edx mov [.paeth_b], ecx add ecx, eax movzx eax, byte [esi+edi] mov [.paeth_c], eax sub ecx, eax ; ecx = a + b - c = p ; calculate pa = abs(p-a), pb = abs(p-b), pc = abs(p-c) mov ebx, ecx sub ebx, eax ; ebx = p - c cmp ebx, 80000000h sbb eax, eax ; eax = (p < c) ? 0 : 0xFFFFFFF not eax ; eax = (p < c) ? 0xFFFFFFFF : 0 and eax, ebx ; eax = (p < c) ? p - c : 0 sub ebx, eax sub ebx, eax ; ebx = abs(p-c) mov [.paeth_pc], ebx mov ebx, ecx sub ebx, [.paeth_a] cmp ebx, 80000000h sbb eax, eax not eax and eax, ebx sub ebx, eax sub ebx, eax mov [.paeth_pa], ebx mov ebx, ecx sub ebx, [.paeth_b] cmp ebx, 80000000h sbb eax, eax not eax and eax, ebx sub ebx, eax sub ebx, eax ;mov [.paeth_pb], ebx ; select closest value push edx mov edx, [.paeth_b] sub edx, [.paeth_a] sub ebx, [.paeth_pa] sbb ecx, ecx ; ecx = (pa > pb) ? 0xFFFFFFFF : 0 sbb eax, eax ; eax = (pa > pb) ? 0xFFFFFFFF : 0 and ecx, ebx ; ecx = (pa > pb) ? pb - pa : 0 and eax, edx ; eax = (pa > pb) ? b - a : 0 add ecx, [.paeth_pa] ; ecx = (pa > pb) ? pb : pa = min(pa,pb) add eax, [.paeth_a] ; eax = (pa > pb) ? b : a mov edx, [.paeth_c] sub edx, eax sub [.paeth_pc], ecx sbb ebx, ebx ; ebx = (min(pa,pb) <= pc) ? 0 : 0xFFFFFFFF and ebx, edx ; ebx = (min(pa,pb) <= pc) ? 0 : c - eax add eax, ebx pop edx add [esi], al pop ebx sub edi, edx add esi, 1 sub ebx, 1 jnz @b pop ecx .unfilter_paeth_done: pop edx jmp .next_scanline .unfilter_none: add esi, ebx .next_scanline: sub edx, [.row_increment] jc .unfilter_done cmp edx, [.starting_row] jbe .unfilter_done jmp .unfilter_loop_e .unfilter_abort: xor ecx, ecx .unfilter_done: ; unfiltering done, now convert to raw data ; with deinterlacing if needed pop esi mov ebx, [.image] mov eax, [.width] call img._.get_scanline_len mov [.row_distance], eax mov eax, [.row_increment] mul [.width] sub eax, [.col_distance] call img._.get_scanline_len mov [.col_distance], eax mov edi, [ebx + Image.Data] mov eax, [.starting_row] mul [.width] add eax, [.starting_col] call img._.get_scanline_len add edi, eax mov eax, ebx mov ebx, [.size_rest] mov [.size_rest], ecx mov edx, [.height] sub edx, [.starting_row] mov [.j], edx cmp [.color_type], 0 jz .grayscale2 cmp [.color_type], 2 jz .rgb2 cmp [.color_type], 3 jz .palette2 cmp [.color_type], 4 jz .grayscale_alpha2 .rgb_alpha2: cmp [.bit_depth], 16 jz .rgb_alpha2_16bit .rgb_alpha2.next: sub ebx, 1 jc .convert_done add esi, 1 sub ebx, [.scanline_len] jc .convert_done mov ecx, [.width] sub ecx, [.starting_col] mov [.i], ecx .rgb_alpha2.extloop: macro init_block { push ebx mov eax, [.col_increment] mov edx, [.j] cmp edx, [.block_height] jb @f mov edx, [.block_height] @@: mov ebx, [.i] cmp ebx, [.block_width] jb @f mov ebx, [.block_width] @@: } init_block lea eax, [edi+eax*4] push eax .rgb_alpha2.innloop1: push edi mov ecx, ebx .rgb_alpha2.innloop2: mov al, [esi+2] mov [edi], al mov al, [esi+1] mov [edi+1], al mov al, [esi] mov [edi+2], al mov al, [esi+3] mov [edi+3], al add edi, 4 dec ecx jnz .rgb_alpha2.innloop2 pop edi add edi, [.row_distance] dec edx jnz .rgb_alpha2.innloop1 pop edi ebx add esi, 4 mov eax, [.col_increment] sub [.i], eax ja .rgb_alpha2.extloop add edi, [.col_distance] mov eax, [.row_increment] sub [.j], eax ja .rgb_alpha2.next jmp .convert_done .rgb_alpha2_16bit: sub ebx, 1 jc .convert_done add esi, 1 sub ebx, [.scanline_len] jc .convert_done mov ecx, [.width] sub ecx, [.starting_col] mov [.i], ecx .rgb_alpha2_16bit.loop: init_block lea eax, [edi+eax*4] push eax ; convert 16 bit sample to 8 bit sample macro convert_16_to_8 { local .l1,.l2 xor ah, 0x80 js .l1 cmp al, ah adc al, 0 jmp .l2 .l1: cmp ah, al sbb al, 0 .l2: } .rgb_alpha2_16bit.innloop1: push edi mov ecx, ebx .rgb_alpha2_16bit.innloop2: mov ax, [esi+4] convert_16_to_8 mov [edi], al mov ax, [esi+2] convert_16_to_8 mov [edi+1], al mov ax, [esi] convert_16_to_8 mov [edi+2], al ;mov ax, [esi+6] ;convert_16_to_8 ;mov [edi+3], al add edi, 4 dec ecx jnz .rgb_alpha2_16bit.innloop2 pop edi add edi, [.row_distance] dec edx jnz .rgb_alpha2_16bit.innloop1 pop edi ebx add esi, 8 mov eax, [.col_increment] sub [.i], eax ja .rgb_alpha2_16bit.loop add edi, [.col_distance] mov eax, [.row_increment] sub [.j], eax ja .rgb_alpha2_16bit jmp .convert_done .grayscale2: call .create_grayscale_palette cmp [.bit_depth], 16 jz .grayscale2_16bit .palette2: cmp [.bit_depth], 1 jz .palette2_1bit cmp [.bit_depth], 2 jz .palette2_2bit cmp [.bit_depth], 4 jz .palette2_4bit .palette2_8bit: sub ebx, 1 jc .convert_done add esi, 1 sub ebx, [.scanline_len] jc .convert_done mov ecx, [.width] sub ecx, [.starting_col] mov [.i], ecx .palette2_8bit.extloop: init_block add eax, edi push eax mov al, [esi] inc esi macro block_byte_innerloop extloop { local .l1 .l1: mov ecx, ebx rep stosb sub edi, ebx add edi, [.row_distance] dec edx jnz .l1 pop edi ebx mov eax, [.col_increment] sub [.i], eax ja extloop add edi, [.col_distance] mov eax, [.row_increment] sub [.j], eax } block_byte_innerloop .palette2_8bit.extloop ja .palette2_8bit jmp .convert_done .palette2_4bit: sub ebx, 1 jc .convert_done add esi, 1 sub ebx, [.scanline_len] jc .convert_done mov ecx, [.width] sub ecx, [.starting_col] mov [.i], ecx mov [.shift], 0 .palette2_4bit.extloop: init_block add eax, edi push eax xor [.shift], 1 jz .palette2_4bit.shifted mov al, [esi] inc esi shr al, 4 jmp @f .palette2_4bit.shifted: mov al, [esi-1] and al, 0xF @@: block_byte_innerloop .palette2_4bit.extloop ja .palette2_4bit jmp .convert_done .palette2_2bit: sub ebx, 1 jc .convert_done add esi, 1 sub ebx, [.scanline_len] jc .convert_done mov ecx, [.width] sub ecx, [.starting_col] mov [.i], ecx mov [.shift], 0 .palette2_2bit.extloop: init_block add eax, edi push eax mov cl, [.shift] sub cl, 2 jns .palette2_2bit.shifted mov cl, 6 mov al, [esi] inc esi shr al, cl jmp @f .palette2_2bit.shifted: mov al, [esi-1] shr al, cl and al, 3 @@: mov [.shift], cl block_byte_innerloop .palette2_2bit.extloop ja .palette2_2bit jmp .convert_done .palette2_1bit: sub ebx, 1 jc .convert_done add esi, 1 sub ebx, [.scanline_len] jc .convert_done mov ecx, [.width] sub ecx, [.starting_col] mov [.i], ecx mov [.shift], 0 .palette2_1bit.extloop: init_block add eax, edi push eax mov cl, [.shift] dec cl jns .palette2_1bit.shifted mov cl, 7 mov al, [esi] inc esi shr al, cl jmp @f .palette2_1bit.shifted: mov al, [esi-1] shr al, cl and al, 1 @@: mov [.shift], cl block_byte_innerloop .palette2_1bit.extloop ja .palette2_1bit jmp .convert_done .grayscale2_16bit: sub ebx, 1 jc .convert_done add esi, 1 sub ebx, [.scanline_len] jc .convert_done mov ecx, [.width] sub ecx, [.starting_col] mov [.i], ecx .grayscale2_16bit.extloop: init_block add eax, edi push eax mov ax, [esi] add esi, 2 convert_16_to_8 block_byte_innerloop .grayscale2_16bit.extloop ja .grayscale2_16bit jmp .convert_done .rgb2: cmp [.bit_depth], 16 jz .rgb2_16bit .rgb2.next: sub ebx, 1 jc .convert_done add esi, 1 sub ebx, [.scanline_len] jc .convert_done mov ecx, [.width] sub ecx, [.starting_col] mov [.i], ecx .rgb2.extloop: init_block lea eax, [eax*3] add eax, edi push eax .rgb2.innloop1: push edi mov ecx, ebx .rgb2.innloop2: mov al, [esi+2] mov [edi], al mov al, [esi+1] mov [edi+1], al mov al, [esi] mov [edi+2], al add edi, 3 dec ecx jnz .rgb2.innloop2 pop edi add edi, [.row_distance] dec edx jnz .rgb2.innloop1 pop edi ebx add esi, 3 mov eax, [.col_increment] sub [.i], eax ja .rgb2.extloop add edi, [.col_distance] mov eax, [.row_increment] sub [.j], eax ja .rgb2.next jmp .convert_done .rgb2_16bit: sub ebx, 1 jc .convert_done add esi, 1 sub ebx, [.scanline_len] jc .convert_done mov ecx, [.width] sub ecx, [.starting_col] mov [.i], ecx .rgb2_16bit.extloop: init_block lea eax, [eax*3] add eax, edi push eax .rgb2_16bit.innloop1: push edi mov ecx, ebx .rgb2_16bit.innloop2: mov ax, [esi+4] convert_16_to_8 mov [edi], al mov ax, [esi+2] convert_16_to_8 mov [edi+1], al mov ax, [esi] convert_16_to_8 mov [edi+2], al add edi, 3 dec ecx jnz .rgb2_16bit.innloop2 pop edi add edi, [.row_distance] dec edx jnz .rgb2_16bit.innloop1 pop edi ebx add esi, 6 mov eax, [.col_increment] sub [.i], eax ja .rgb2_16bit.extloop add edi, [.col_distance] mov eax, [.row_increment] sub [.j], eax ja .rgb2_16bit jmp .convert_done .grayscale_alpha2: call .create_grayscale_palette cmp [.bit_depth], 16 jz .grayscale_alpha2_16bit .grayscale_alpha2.next: sub ebx, 1 jc .convert_done add esi, 1 sub ebx, [.scanline_len] jc .convert_done mov ecx, [.width] sub ecx, [.starting_col] mov [.i], ecx .grayscale_alpha2.extloop: init_block add eax, edi push eax mov al, [esi] add esi, 2 block_byte_innerloop .grayscale_alpha2.extloop ja .grayscale_alpha2.next jmp .convert_done .grayscale_alpha2_16bit: sub ebx, 1 jc .convert_done add esi, 1 sub ebx, [.scanline_len] jc .convert_done mov ecx, [.width] sub ecx, [.starting_col] mov [.i], ecx .grayscale_alpha2_16bit.extloop: init_block add eax, edi push eax mov ax, [esi] add esi, 4 convert_16_to_8 block_byte_innerloop .grayscale_alpha2_16bit.extloop ja .grayscale_alpha2_16bit .convert_done: ; next interlace pass .deinterlace_next: mov eax, [.block_width] cmp eax, [.block_height] jz .deinterlace_dec_width mov [.block_height], eax mov [.col_increment], eax dec [.col_increment_shift] mov [.starting_row], eax and [.starting_col], 0 jmp .deinterlace_loop .deinterlace_dec_width: shr eax, 1 jz .deinterlace_done mov [.block_width], eax mov [.starting_col], eax add eax, eax and [.starting_row], 0 mov [.row_increment], eax bsf eax, eax mov [.row_increment_shift], al jmp .deinterlace_loop .deinterlace_done: mcall 68, 13, [.allocated] mov esi, [.cur_chunk_ptr] add esi, [.cur_chunk_size] push [.length] jmp .next_chunk .deflate_callback: mov ebp, [esp+4] mov ebx, [esp+8] xor eax, eax mov esi, [.cur_chunk_size] mov [ebx], esi test esi, esi jz .deflate_callback.ret mov eax, [.cur_chunk_ptr] mov ecx, [.length] add esi, eax mov [.cur_chunk_ptr], esi and [.cur_chunk_size], 0 @@: sub ecx, 12 jb .deflate_callback.ret cmp dword [esi+4+4], 'IDAT' jnz .deflate_callback.ret mov edx, [esi+4] bswap edx sub ecx, edx jb .deflate_callback.ret add esi, 4+8 test edx, edx jz @b mov [.cur_chunk_size], edx mov [.cur_chunk_ptr], esi mov [.length], ecx .deflate_callback.ret: ret 8 .create_grayscale_palette: push edi edx mov edi, [eax + Image.Palette] mov ecx, [.bit_depth] cmp cl, 16 jnz @f mov cl, 8 @@: push 1 pop eax shl eax, cl xchg eax, ecx mov edx, 0x010101 cmp al, 8 jz .graypal_common mov edx, 0x111111 cmp al, 4 jz .graypal_common mov edx, 0x555555 cmp al, 2 jz .graypal_common mov edx, 0xFFFFFF .graypal_common: xor eax, eax @@: stosd add eax, edx loop @b pop edx edi ret ;endp ;;================================================================================================;; align 4 proc img.encode.png uses ebx edx, _img:dword, _common:dword, _specific:dword ;;------------------------------------------------------------------------------------------------;; ;? Encode image into raw data in png format ;; ;;------------------------------------------------------------------------------------------------;; ;> [_img] = pointer to image ;; ;> [_common] = format independent options ;; ;> [_specific] = 0 / pointer to the structure of format specific options ;; ;;------------------------------------------------------------------------------------------------;; ;< eax = 0 / pointer to encoded data ;; ;< ecx = error code / the size of encoded data ;; ;;================================================================================================;; locals encoded_file rd 1 encoded_file_size rd 1 simag png_image endl mov ebx,[_img] mov eax,[ebx+Image.Type] cmp eax,Image.bpp24 je @f mov ecx,LIBIMG_ERROR_BIT_DEPTH jmp .error @@: mov edx,ebp sub edx,sizeof.png_image mov dword[edx+png_image.version],PNG_IMAGE_VERSION mov ecx,[ebx+Image.Width] mov [edx+png_image.width],ecx ;Image width in pixels (columns) mov eax,[ebx+Image.Height] mov [edx+png_image.height],eax ;Image height in pixels (rows) mov dword[edx+png_image.format],PNG_COLOR_TYPE_RGB ;mov dword[edx+png_image.flags],PNG_IMAGE_FLAG_??? imul ecx,3 mov edi,ecx imul edi,[ebx+Image.Height] cmp edi,4096 jge @f mov edi,4096 ;minimum memory size @@: mov [encoded_file_size],edi stdcall [mem.alloc],edi test eax,eax jnz @f mov ecx,LIBIMG_ERROR_OUT_OF_MEMORY jmp .error @@: mov [encoded_file],eax mov edi,edx sub edi,4 stdcall png_image_write_to_memory, edx,eax,edi,0,[ebx+Image.Data],ecx,0 mov eax,[encoded_file] mov ecx,[encoded_file_size] jmp .quit .error: xor eax,eax .quit: ret endp