//Asper #ifndef INCLUDE_LIBIMG_H #define INCLUDE_LIBIMG_H #ifndef INCLUDE_KOLIBRI_H #include "../lib/kolibri.h" #endif #ifndef INCLUDE_MEM_H #include "../lib/mem.h" #endif #ifndef INCLUDE_DLL_H #include "../lib/dll.h" #endif #ifndef INCLUDE_LIBIO_H #include "../lib/obj/libio.h" #endif //library dword libimg = #alibimg; char alibimg[] = "/sys/lib/libimg.obj"; dword libimg_init = #alibimg_init; dword img_is_img = #aimg_is_img; dword img_to_rgb2 = #aimg_to_rgb2; dword img_decode = #aimg_decode; dword img_destroy = #aimg_destroy; dword img_draw = #aimg_draw; dword img_create = #aimg_create; dword img_encode = #aimg_encode; //dword img_flip = #aimg_flip; //dword img_rotate = #aimg_rotate; $DD 2 dup 0 //import libimg , \ char alibimg_init[] = "lib_init"; char aimg_is_img[] = "img_is_img"; char aimg_to_rgb2[] = "img_to_rgb2"; char aimg_decode[] = "img_decode"; char aimg_destroy[] = "img_destroy"; char aimg_draw[] = "img_draw"; char aimg_create[] = "img_create"; char aimg_encode[] = "img_encode"; //char aimg_flip[] = "img_flip"; //char aimg_rotate[] = "img_rotate "; #define LIBIMG_FORMAT_BMP 1 #define LIBIMG_FORMAT_ICO 2 #define LIBIMG_FORMAT_CUR 3 #define LIBIMG_FORMAT_GIF 4 #define LIBIMG_FORMAT_PNG 5 #define LIBIMG_FORMAT_JPEG 6 #define LIBIMG_FORMAT_TGA 7 #define LIBIMG_FORMAT_PCX 8 #define LIBIMG_FORMAT_XCF 9 #define LIBIMG_FORMAT_TIFF 10 #define LIBIMG_FORMAT_PNM 11 #define LIBIMG_FORMAT_WBMP 12 #define LIBIMG_FORMAT_XBM 13 #define LIBIMG_FORMAT_Z80 14 struct _Image { dword Checksum; // ((Width ROL 16) OR Height) XOR Data[0] ; ignored so far dword Width; dword Height; dword Next; dword Previous; dword Type; // one of Image.bppN dword Data; dword Palette; // used iff Type eq Image.bpp1, Image.bpp2, Image.bpp4 or Image.bpp8i dword Extended; dword Flags; // bitfield dword Delay; // used iff Image.IsAnimated is set in Flags }; // values for Image.Type // must be consecutive to allow fast switch on Image.Type in support functions #define Image_bpp8i 1 // indexed #define Image_bpp24 2 #define Image_bpp32 3 #define Image_bpp15 4 #define Image_bpp16 5 #define Image_bpp1 6 #define Image_bpp8g 7 // grayscale #define Image_bpp2i 8 #define Image_bpp4i 9 #define Image_bpp8a 10 // grayscale with alpha channel; application layer only!!! // kernel doesn't handle this image type, // libimg can only create and destroy such images :dword load_image(dword filename) { //align 4 dword img_data=0; dword img_data_len=0; dword fh=0; dword image=0; byte tmp_buf[40]; $and img_data, 0 //$mov eax, filename //$push eax //invoke file.open, eax, O_READ file_open stdcall (filename, O_READ); $or eax, eax $jnz loc05 $stc return 0; @loc05: $mov fh, eax //invoke file.size file_size stdcall (filename); $mov img_data_len, ebx //stdcall mem.Alloc, ebx mem_Alloc(EBX); $test eax, eax $jz error_close $mov img_data, eax //invoke file.read, [fh], eax, [img_data_len] file_read stdcall (fh, EAX, img_data_len); $cmp eax, -1 $jz error_close $cmp eax, img_data_len $jnz error_close //invoke file.close, [fh] file_close stdcall (fh); $inc eax $jz error_ //; img.decode checks for img.is_img //; //invoke img.is_img, [img_data], [img_data_len] //; $or eax, eax //; $jz exit //invoke img.decode, [img_data], [img_data_len], 0 EAX=img_data; img_decode stdcall (EAX, img_data_len,0); $or eax, eax $jz error_ $cmp image, 0 $pushf $mov image, eax //call init_frame $popf //call update_image_sizes mem_Free(img_data);//free_img_data(img_data); $clc return image; @error_free: //invoke img.destroy, [image] img_destroy stdcall (image); $jmp error_ @error_pop: $pop eax $jmp error_ @error_close: //invoke file.close, [fh] file_close stdcall (fh); @error_: mem_Free(img_data); $stc return 0; } :dword create_image(dword type, dword width, dword height) { img_create stdcall(width, height, type); return EAX; } // size - output parameter, error code / the size of encoded data :dword encode_image(dword image_ptr, dword options, dword specific_options, dword* size) { img_encode stdcall(image_ptr, options, specific_options); ESDWORD[size] = ECX; return EAX; } :void DrawLibImage(dword image_pointer,x,y,w,h,offx,offy) { img_draw stdcall ( image_pointer, x, y, w, h, offx, offy ); } //NOTICE: DO NOT FORGET TO INIT libio AND libimg!!! #ifdef LANG_RUS #define TEXT_FILE_SAVED_AS "'Файл сохранен как " #else #define TEXT_FILE_SAVED_AS "'File saved as " #endif :void save_image(dword _image_pointer, _w, _h, _path) { char save_success_message[4096+200]; dword encoded_data=0; dword encoded_size=0; dword image_ptr = 0; image_ptr = create_image(Image_bpp24, _w, _h); if (image_ptr == 0) { notify("'Error saving file, probably not enought memory!' -E"); } else { EDI = image_ptr; memmov(EDI._Image.Data, _image_pointer, _w * _h * 3); encoded_data = encode_image(image_ptr, LIBIMG_FORMAT_PNG, 0, #encoded_size); img_destroy stdcall(image_ptr); if(encoded_data == 0) { notify("'Error saving file, incorrect data!' -E"); } else { if (CreateFile(encoded_size, encoded_data, _path) == 0) { strcpy(#save_success_message, TEXT_FILE_SAVED_AS); strcat(#save_success_message, _path); strcat(#save_success_message, "' -O"); notify(#save_success_message); } else { notify("'Error saving image file!\nNot enough space? Path wrong?\nFile system is not writable?..' -E"); } } } } #ifndef INCLUDE_LIBIMG_LOAD_SKIN_H #include "../lib/patterns/libimg_load_skin.h" #endif #endif