#include #include #include /////////////////////////////////////////////////////////// // TImage /////////////////////////////////////////////////////////// // Certified 99% // @doc EXTERNAL // @mfunc Setta l'immagine e le sue dimensioni // // @rdesc Ritorna l'immagine stessa XVT_IMAGE TImage::set( XVT_IMAGE i) // @parm Immagine da settare // @comm L'immagine precedente viene cancellata quando viene settata una nuova { if (_image) xvt_image_destroy(_image); _image = i; if (i) { _src.left = _src.top = 0; short w, h; xvt_image_get_dimensions(i, &w, &h); _src.right = w; _src.bottom = h; _dst = _src; } return _image; } // Certified 100% // @doc EXTERNAL bool TImage::build_filename(TFilename& file) { bool ok = false; if (file.ext()[0] != '\0') ok = file.custom_path(); if (!ok) { const char* const exts[] = { "png", "gif", "jpg", "jpeg", "bmp", "tif", "tiff", NULL}; for (int i = 0; !ok && exts[i]; i++) { file.ext(exts[i]); ok = file.custom_path(); if (!ok) { TFilename res(file.name()); res.insert("res/"); ok = res.exist(); if (ok) file = res; } } } return ok; } // @mfunc Legge l'immagine dal file XVT_IMAGE TImage::load( const char* n) // @parm Nome del file contenente l'immagine { TFilename f(n); XVT_IMAGE i = NULL; if (build_filename(f)) { i = xvt_image_read(f); if (i != NULL) set(i); } return i; } // Certified 100% XVT_IMAGE TImage::load(int id) { return set(xvt_res_get_image(id)); } // Certified 100% XVT_IMAGE TImage::load_icon(int id) { return set(xvt_res_get_icon(id)); } // Certified 100% TImage::TImage(const char* n) : _image(NULL) { if (n && *n) load(n); } // Certified 100% TImage::TImage(int id, bool is_icon) : _image(NULL) { if (id > 0) { if (is_icon) load_icon(id); else load(id); } } // Certified 90% TImage::TImage(const TImage& im, short w, short h) : _image(NULL) { const XVT_IMAGE_FORMAT fmt = xvt_image_get_format(im._image); if (w < 0 || h < 0) { short iw, ih; xvt_image_get_dimensions(im._image, &iw, &ih); if (w < 0) w = iw; if (h < 0) h = ih; } set(xvt_image_create(fmt, w, h, 0L)); if (ok()) xvt_image_transfer(_image, (XVT_IMAGE)im._image, &_src, (RCT*)&im._src); } // Certified 90% TImage::TImage(short w, short h, XVT_IMAGE_FORMAT fmt) : _image(NULL) { set(xvt_image_create(fmt, w, h, 0L)); } // Certified 100% TImage::~TImage() { if (_image != NULL) xvt_image_destroy(_image); } // Certified 100% // @doc EXTERNAL // @mfunc Permette di settare la posizione della figura void TImage::set_pos( int x, // @parm Coordinata x dell'immagine da settare int y) // @parm Coordinata y dell'immagine da settare // @comm Permette di aggiornare il mebro

sommandogli i valori // passati con

{ _dst = _src; xvt_rect_offset(&_dst, x, y); } // Certified 100% void TImage::draw(WINDOW w) const { xvt_dwin_draw_image(w, _image, (RCT*)&_dst, (RCT*)&_src); } // Certified 100% // @doc EXTERNAL // @mfunc Permette di gestire il disegno dell'immagine sullo schermo void TImage::draw( WINDOW win, // @parm Immagine da disegnare int x, // @parm Coordinata x in cui disegnare l'immagine int y) const // @parm Coordinata y in cui disegnare l'immagine // @parm RCT& | _src | Rettangolo contenente l'immagine da disegnare // @parm RCT& | _dst | Rettangolo in cui disegnare l'immagine // @syntax void draw(WINDOW w); // @syntax void draw(WINDOW w, int x, int y); // @syntax void draw(WINDOW w, const RCT& dst); // @syntax void draw(WINDOW w, const RCT& dst, const RCT& src); // @comm Nel caso utilizzo l'ultima sintassi e' possibile disegnare solo una parte // dell'immagine, precisamente delle dimensioni

se tale parametro e' // minore di

{ RCT dst = _src; xvt_rect_offset(&dst, x, y); xvt_dwin_draw_image(win, _image, &dst, (RCT*)&_src); } // Certified 100% void TImage::draw(WINDOW win, const RCT& dst) const { xvt_dwin_draw_image(win, _image, &dst, &_src); } // Certified 100% void TImage::draw(WINDOW win, const RCT& dst, const RCT& src) const { xvt_dwin_draw_image(win, _image, &dst, &src); } // Certified 99% const RCT& TImage::draw(WINDOW win, const RCT& dst, char halign, char valign, char grow) const { const RCT& rct = xvtil_align_rect(_src, dst, halign, valign, grow); draw(win, rct); return rct; } // Certified 100% void TImage::set_clut(byte n, COLOR c) { if (xvt_image_get_format(_image) == XVT_IMAGE_CL8) xvt_image_set_clut(_image, n, c); } void TImage::set_pixel(int x, int y, COLOR col) { xvt_image_set_pixel(_image, x, y, col); } COLOR TImage::get_pixel(int x, int y) const { return xvt_image_get_pixel(_image, x, y); } /* OBSOLETA // Certified 99% // @doc EXTERNAL // @mfunc Setta i colori dell'immagine in modo da renderla trasparente void TImage::convert_to_default_colors() // @comm Legge nell'immagine i colori CYAN e DARK_CYAN e li setta a seconda del colore // della finestra per fare in modo di rendere trasparenti tali colori. { if (!same_color(MASK_BACK_COLOR, COLOR_DKCYAN)) { if (xvt_image_get_format(_image) == XVT_IMAGE_CL8) { for (int index = xvt_image_get_ncolors(_image)-1; index >=0; index--) { const COLOR c = xvt_image_get_clut(_image, index) & 0x00FFFFFF; switch (c) { case COLOR_DKCYAN & 0x00FFFFFF: xvt_image_set_clut(_image, index, MASK_BACK_COLOR); break; case COLOR_CYAN & 0x00FFFFFF: xvt_image_set_clut(_image, index, MASK_LIGHT_COLOR); break; case COLOR_GRAY & 0x00FFFFFF: xvt_image_set_clut(_image, index, MASK_DARK_COLOR); break; default: break; } } } else { short dx, dy; xvt_image_get_dimensions(_image, &dx, &dy); for (short y = 0; y < dy; y++) for (short x = 0; x < dx; x++) { const COLOR c = get_pixel(x, y) & 0x00FFFFFF; switch (c) { case COLOR_DKCYAN & 0x00FFFFFF: set_pixel(x, y, MASK_BACK_COLOR); break; case COLOR_CYAN & 0x00FFFFFF : set_pixel(x, y, MASK_LIGHT_COLOR); break; case COLOR_GRAY & 0x00FFFFFF : set_pixel(x, y, MASK_DARK_COLOR); break; default: break; } } } } } */ // @mfunc Setta i colori dell'immagine in modo da renderla trasparente void TImage::convert_transparent_color(COLOR transparent) // @comm Legge nell'immagine i pixel uguali a quello in alto a sinistra e li setta // uguali allo sfondo delle maschere { if (_image == NULL) return; // Null image const COLOR trans = get_pixel(0,0); if (same_color(trans, transparent)) return; // Nothing to do /* if (xvt_image_get_format(_image) == XVT_IMAGE_CL8) { int i = -1; while (true) { const int index = xvt_image_find_clut_index(_image, trans); if (index > i) { xvt_image_set_clut(_image, index, transparent); i = index; } else break; } } else { short dx, dy; xvt_image_get_dimensions(_image, &dx, &dy); for (short y = 0; y < dy; y++) for (short x = 0; x < dx; x++) { const COLOR c = get_pixel(x, y); if (same_color(c, trans)) set_pixel(x, y, transparent); } } */ xvt_image_replace_color(_image, trans, transparent); // New "native" method } inline COLOR btncolor2btngray(COLOR color, bool use_btn) { static COLOR last_color = -1, last_gray = -1; if (color != last_color) { last_gray = grayed_color(last_color = color); if (use_btn) { // Prendo una sola componente del grigio: tanto sono identiche const int g = XVT_COLOR_GET_RED(last_gray); if (g > 128) // Chiaro last_gray = blend_colors(BTN_LIGHT_COLOR, BTN_BACK_COLOR, (g-128.0)/128.0); else // Scuro last_gray = blend_colors(BTN_BACK_COLOR, BTN_DARK_COLOR, g/128.0); } } return last_gray; } void TImage::fade_to_gray(bool use_btn_colors) // @comm Legge nell'immagine i pixel diversi da quello in alto a sinistra e li setta // in grigio { if (_image == NULL) return; // Null image const COLOR trans = get_pixel(0,0); btncolor2btngray(trans, use_btn_colors); // Reset color conversion if (xvt_image_get_format(_image) == XVT_IMAGE_CL8) { for (int index = xvt_image_get_ncolors(_image)-1; index >=0; index--) { const COLOR pixie = xvt_image_get_clut(_image, index); if (!same_color(pixie, trans)) xvt_image_set_clut(_image, index, btncolor2btngray(pixie, use_btn_colors)); } } else { short dx, dy; xvt_image_get_dimensions(_image, &dx, &dy); for (short y = 0; y < dy; y++) for (short x = 0; x < dx; x++) { const COLOR pixie = get_pixel(x, y); if (!same_color(pixie, trans)) set_pixel(x, y, btncolor2btngray(pixie, use_btn_colors)); } } }