/* THE COMPUTER CODE CONTAINED HEREIN IS THE SOLE PROPERTY OF PARALLAX SOFTWARE CORPORATION ("PARALLAX"). PARALLAX, IN DISTRIBUTING THE CODE TO END-USERS, AND SUBJECT TO ALL OF THE TERMS AND CONDITIONS HEREIN, GRANTS A ROYALTY-FREE, PERPETUAL LICENSE TO SUCH END-USERS FOR USE BY SUCH END-USERS IN USING, DISPLAYING, AND CREATING DERIVATIVE WORKS THEREOF, SO LONG AS SUCH USE, DISPLAY OR CREATION IS FOR NON-COMMERCIAL, ROYALTY OR REVENUE FREE PURPOSES. IN NO EVENT SHALL THE END-USER USE THE COMPUTER CODE CONTAINED HEREIN FOR REVENUE-BEARING PURPOSES. THE END-USER UNDERSTANDS AND AGREES TO THE TERMS HEREIN AND ACCEPTS THE SAME BY USE OF THIS FILE. COPYRIGHT 1993-1998 PARALLAX SOFTWARE CORPORATION. ALL RIGHTS RESERVED. */ /* * * Graphical routines for drawing fonts. * */ #include #include #include #include #ifndef macintosh #include #endif #include "u_mem.h" #include "gr.h" #include "grdef.h" #include "error.h" #include "cfile.h" #include "byteswap.h" #include "gamefont.h" #ifdef OGL #include "ogl_init.h" #endif #include "console.h" #define FONTSCALE_X(x) ((float)(x)*(FNTScaleX)) #define FONTSCALE_Y(x) ((float)(x)*(FNTScaleY)) #define BITS_TO_BYTES(x) (((x)+7)>>3) int gr_internal_string_clipped(int x, int y, char *s ); int gr_internal_string_clipped_m(int x, int y, char *s ); ubyte *find_kern_entry(grs_font *font,ubyte first,ubyte second) { ubyte *p=font->ft_kerndata; while (*p!=255) if (p[0]==first && p[1]==second) return p; else p+=3; return NULL; } //takes the character AFTER being offset into font #define INFONT(_c) ((_c >= 0) && (_c <= grd_curcanv->cv_font->ft_maxchar-grd_curcanv->cv_font->ft_minchar)) //takes the character BEFORE being offset into current font void get_char_width(ubyte c,ubyte c2,int *width,int *spacing) { int letter; letter = c-grd_curcanv->cv_font->ft_minchar; if (!INFONT(letter)) { //not in font, draw as space *width=0; if (grd_curcanv->cv_font->ft_flags & FT_PROPORTIONAL) *spacing = grd_curcanv->cv_font->ft_w/2; else *spacing = grd_curcanv->cv_font->ft_w; return; } if (grd_curcanv->cv_font->ft_flags & FT_PROPORTIONAL) *width = FONTSCALE_X(grd_curcanv->cv_font->ft_widths[letter]); else *width = grd_curcanv->cv_font->ft_w; *spacing = *width; if (grd_curcanv->cv_font->ft_flags & FT_KERNED) { ubyte *p; if (!(c2==0 || c2=='\n')) { int letter2 = c2-grd_curcanv->cv_font->ft_minchar; if (INFONT(letter2)) { p = find_kern_entry(grd_curcanv->cv_font,(ubyte)letter,letter2); if (p) *spacing = FONTSCALE_X(p[2]); } } } } int get_centered_x(char *s) { int w,w2,s2; for (w=0;*s!=0 && *s!='\n';s++) { if (*s<=0x06) { if (*s<=0x03) s++; continue;//skip color codes. } get_char_width(s[0],s[1],&w2,&s2); w += s2; } return ((grd_curcanv->cv_bitmap.bm_w - w) / 2); } //hack to allow color codes to be embedded in strings -MPM //note we subtract one from color, since 255 is "transparent" so it'll never be used, and 0 would otherwise end the string. //function must already have orig_color var set (or they could be passed as args...) //perhaps some sort of recursive orig_color type thing would be better, but that would be way too much trouble for little gain int gr_message_color_level=1; #define CHECK_EMBEDDED_COLORS() if ((*text_ptr >= 0x01) && (*text_ptr <= 0x03)) { \ text_ptr++; \ if (*text_ptr){ \ if (gr_message_color_level >= *(text_ptr-1)) \ grd_curcanv->cv_font_fg_color = (unsigned char)*text_ptr; \ text_ptr++; \ } \ } \ else if ((*text_ptr >= 0x04) && (*text_ptr <= 0x06)){ \ if (gr_message_color_level >= *text_ptr - 3) \ grd_curcanv->cv_font_fg_color=(unsigned char)orig_color; \ text_ptr++; \ } int gr_internal_string0(int x, int y, char *s ) { unsigned char * fp; char * text_ptr, * next_row, * text_ptr1; int r, BitMask, i, bits, width, spacing, letter, underline; int skip_lines = 0; unsigned int VideoOffset, VideoOffset1; bits=0; VideoOffset1 = y * ROWSIZE + x; next_row = s; while (next_row != NULL ) { text_ptr1 = next_row; next_row = NULL; if (x==0x8000) { //centered int xx = get_centered_x(text_ptr1); VideoOffset1 = y * ROWSIZE + xx; } for (r=0; rcv_font->ft_h; r++) { text_ptr = text_ptr1; VideoOffset = VideoOffset1; while (*text_ptr) { if (*text_ptr == '\n' ) { next_row = &text_ptr[1]; break; } if (*text_ptr == CC_COLOR) { grd_curcanv->cv_font_fg_color = (unsigned char)*(text_ptr+1); text_ptr += 2; continue; } if (*text_ptr == CC_LSPACING) { skip_lines = *(text_ptr+1) - '0'; text_ptr += 2; continue; } underline = 0; if (*text_ptr == CC_UNDERLINE ) { if ((r==grd_curcanv->cv_font->ft_baseline+2) || (r==grd_curcanv->cv_font->ft_baseline+3)) underline = 1; text_ptr++; } get_char_width(text_ptr[0],text_ptr[1],&width,&spacing); letter = (unsigned char)*text_ptr-grd_curcanv->cv_font->ft_minchar; if (!INFONT(letter)) { //not in font, draw as space VideoOffset += spacing; text_ptr++; continue; } if (grd_curcanv->cv_font->ft_flags & FT_PROPORTIONAL) fp = grd_curcanv->cv_font->ft_chars[letter]; else fp = grd_curcanv->cv_font->ft_data + letter * BITS_TO_BYTES(width)*grd_curcanv->cv_font->ft_h; if (underline) for (i=0; i< width; i++ ) DATA[VideoOffset++] = (unsigned char) grd_curcanv->cv_font_fg_color; else { fp += BITS_TO_BYTES(width)*r; BitMask = 0; for (i=0; i< width; i++ ) { if (BitMask==0) { bits = *fp++; BitMask = 0x80; } if (bits & BitMask) DATA[VideoOffset++] = (unsigned char) grd_curcanv->cv_font_fg_color; else DATA[VideoOffset++] = (unsigned char) grd_curcanv->cv_font_bg_color; BitMask >>= 1; } } VideoOffset += spacing-width; //for kerning text_ptr++; } VideoOffset1 += ROWSIZE; y++; } y += skip_lines; VideoOffset1 += ROWSIZE * skip_lines; skip_lines = 0; } return 0; } int gr_internal_string0m(int x, int y, char *s ) { unsigned char * fp; char * text_ptr, * next_row, * text_ptr1; int r, BitMask, i, bits, width, spacing, letter, underline; int skip_lines=0; unsigned int VideoOffset, VideoOffset1; int orig_color=grd_curcanv->cv_font_fg_color;//to allow easy reseting to default string color with colored strings -MPM bits = 0; VideoOffset1 = y * ROWSIZE + x; next_row = s; while (next_row != NULL ) { text_ptr1 = next_row; next_row = NULL; if (x==0x8000) { //centered int xx = get_centered_x(text_ptr1); VideoOffset1 = y * ROWSIZE + xx; } for (r=0; rcv_font->ft_h; r++) { text_ptr = text_ptr1; VideoOffset = VideoOffset1; while (*text_ptr) { if (*text_ptr == '\n' ) { next_row = &text_ptr[1]; break; } if (*text_ptr == CC_COLOR) { grd_curcanv->cv_font_fg_color = (unsigned char)*(text_ptr+1); text_ptr += 2; continue; } if (*text_ptr == CC_LSPACING) { skip_lines = *(text_ptr+1) - '0'; text_ptr += 2; continue; } underline = 0; if (*text_ptr == CC_UNDERLINE ) { if ((r==grd_curcanv->cv_font->ft_baseline+2) || (r==grd_curcanv->cv_font->ft_baseline+3)) underline = 1; text_ptr++; } get_char_width(text_ptr[0],text_ptr[1],&width,&spacing); letter = (unsigned char)*text_ptr-grd_curcanv->cv_font->ft_minchar; if (!INFONT(letter) || (unsigned char)*text_ptr<=0x06) { //not in font, draw as space CHECK_EMBEDDED_COLORS() else{ VideoOffset += spacing; text_ptr++; } continue; } if (grd_curcanv->cv_font->ft_flags & FT_PROPORTIONAL) fp = grd_curcanv->cv_font->ft_chars[letter]; else fp = grd_curcanv->cv_font->ft_data + letter * BITS_TO_BYTES(width)*grd_curcanv->cv_font->ft_h; if (underline) for (i=0; i< width; i++ ) DATA[VideoOffset++] = (unsigned char) grd_curcanv->cv_font_fg_color; else { fp += BITS_TO_BYTES(width)*r; BitMask = 0; for (i=0; i< width; i++ ) { if (BitMask==0) { bits = *fp++; BitMask = 0x80; } if (bits & BitMask) DATA[VideoOffset++] = (unsigned char) grd_curcanv->cv_font_fg_color; else VideoOffset++; BitMask >>= 1; } } text_ptr++; VideoOffset += spacing-width; } VideoOffset1 += ROWSIZE; y++; } y += skip_lines; VideoOffset1 += ROWSIZE * skip_lines; skip_lines = 0; } return 0; } #ifndef OGL //a bitmap for the character grs_bitmap char_bm = { 0,0,0,0, //x,y,w,h BM_LINEAR, //type BM_FLAG_TRANSPARENT, //flags 0, //rowsize NULL, //data #ifdef BITMAP_SELECTOR 0, //selector #endif 0, //avg_color 0 //unused }; int gr_internal_color_string(int x, int y, char *s ) { unsigned char * fp; char * text_ptr, * next_row, * text_ptr1; int width, spacing,letter; int xx,yy; char_bm.bm_h = grd_curcanv->cv_font->ft_h; //set height for chars of this font next_row = s; yy = y; while (next_row != NULL) { text_ptr1 = next_row; next_row = NULL; text_ptr = text_ptr1; xx = x; if (xx==0x8000) //centered xx = get_centered_x(text_ptr); while (*text_ptr) { if (*text_ptr == '\n' ) { next_row = &text_ptr[1]; yy += grd_curcanv->cv_font->ft_h+FSPACY(1); break; } letter = (unsigned char)*text_ptr-grd_curcanv->cv_font->ft_minchar; get_char_width(text_ptr[0],text_ptr[1],&width,&spacing); if (!INFONT(letter)) { //not in font, draw as space xx += spacing; text_ptr++; continue; } if (grd_curcanv->cv_font->ft_flags & FT_PROPORTIONAL) fp = grd_curcanv->cv_font->ft_chars[letter]; else fp = grd_curcanv->cv_font->ft_data + letter * BITS_TO_BYTES(width)*grd_curcanv->cv_font->ft_h; gr_init_bitmap (&char_bm, BM_LINEAR, 0, 0, width, grd_curcanv->cv_font->ft_h, width, fp); gr_bitmapm(xx,yy,&char_bm); #ifdef D1XD3D Win32_FreeTexture (&char_bm); #endif xx += spacing; text_ptr++; } } return 0; } #else //OGL int pow2ize(int x);//from ogl.c int get_font_total_width(grs_font * font){ if (font->ft_flags & FT_PROPORTIONAL){ int i,w=0,c=font->ft_minchar; for (i=0;c<=font->ft_maxchar;i++,c++){ if (font->ft_widths[i]<0) Error("heh?\n"); w+=font->ft_widths[i]; } return w; }else{ return font->ft_w*(font->ft_maxchar-font->ft_minchar+1); } } void ogl_font_choose_size(grs_font * font,int gap,int *rw,int *rh){ int nchars = font->ft_maxchar-font->ft_minchar+1; int r,x,y,nc=0,smallest=999999,smallr=-1,tries; int smallprop=10000; int h,w; for (h=32;h<=256;h*=2){ // h=pow2ize(font->ft_h*rows+gap*(rows-1)); if (font->ft_h>h)continue; r=(h/(font->ft_h+gap)); w=pow2ize((get_font_total_width(font)+(nchars-r)*gap)/r); tries=0; do { if (tries) w=pow2ize(w+1); if(tries>3){ break; } nc=0; y=0; while(y+font->ft_h<=h){ x=0; while (xft_flags & FT_PROPORTIONAL){ if (x+font->ft_widths[nc]+gap>w)break; x+=font->ft_widths[nc++]+gap; }else{ if (x+font->ft_w+gap>w)break; x+=font->ft_w+gap; nc++; } } if (nc==nchars) break; y+=font->ft_h+gap; } tries++; }while(nc!=nchars); if (nc!=nchars) continue; if (w*h==smallest){//this gives squarer sizes priority (ie, 128x128 would be better than 512*32) if (w>=h){ if (w/hft_maxchar-font->ft_minchar+1; int i,w,h,tw,th,x,y,curx=0,cury=0; unsigned char *fp; ubyte *data; int gap=1; // x/y offset between the chars so we can filter ogl_font_choose_size(font,gap,&tw,&th); data=d_malloc(tw*th); memset(data, TRANSPARENCY_COLOR, tw * th); // map the whole data with transparency so we won't have borders if using gap gr_init_bitmap(&font->ft_parent_bitmap,BM_LINEAR,0,0,tw,th,tw,data); gr_set_transparent(&font->ft_parent_bitmap, 1); if (!(font->ft_flags & FT_COLOR)) oglflags |= OGL_FLAG_NOCOLOR; ogl_init_texture(font->ft_parent_bitmap.gltexture = ogl_get_free_texture(), tw, th, oglflags); // have to init the gltexture here so the subbitmaps will find it. font->ft_bitmaps=(grs_bitmap*)d_malloc( nchars * sizeof(grs_bitmap)); h=font->ft_h; for(i=0;ift_flags & FT_PROPORTIONAL) w=font->ft_widths[i]; else w=font->ft_w; if (w<1 || w>256) continue; if (curx+w+gap>tw) { cury+=h+gap; curx=0; } if (cury+h>th) Error("font doesn't really fit (%i/%i)?\n",i,nchars); if (font->ft_flags & FT_COLOR) { if (font->ft_flags & FT_PROPORTIONAL) fp = font->ft_chars[i]; else fp = font->ft_data + i * w*h; for (y=0;yft_parent_bitmap.bm_data[curx+x+(cury+y)*tw]=fp[x+y*w]; // Let's call this a HACK: // If we filter the fonts, the sliders will be messed up as the border pixels will have an // alpha value while filtering. So the slider bitmaps will not look "connected". // To prevent this, duplicate the first/last pixel-row with a 1-pixel offset. if (gap && i >= 99 && i <= 102) { // See which bitmaps need left/right shifts: // 99 = SLIDER_LEFT - shift RIGHT // 100 = SLIDER_RIGHT - shift LEFT // 101 = SLIDER_MIDDLE - shift LEFT+RIGHT // 102 = SLIDER_MARKER - shift RIGHT // shift left border if (x==0 && i != 99 && i != 102) font->ft_parent_bitmap.bm_data[(curx+x+(cury+y)*tw)-1]=fp[x+y*w]; // shift right border if (x==w-1 && i != 100) font->ft_parent_bitmap.bm_data[(curx+x+(cury+y)*tw)+1]=fp[x+y*w]; } } } } else { int BitMask,bits=0,white=gr_find_closest_color(63,63,63); if (font->ft_flags & FT_PROPORTIONAL) fp = font->ft_chars[i]; else fp = font->ft_data + i * BITS_TO_BYTES(w)*h; for (y=0;yft_parent_bitmap.bm_data[curx+x+(cury+y)*tw]=white; else font->ft_parent_bitmap.bm_data[curx+x+(cury+y)*tw]=255; BitMask >>= 1; } } } gr_init_sub_bitmap(&font->ft_bitmaps[i],&font->ft_parent_bitmap,curx,cury,w,h); curx+=w+gap; } ogl_loadbmtexture_f(&font->ft_parent_bitmap, oglflags); } int ogl_internal_string(int x, int y, char *s ) { char * text_ptr, * next_row, * text_ptr1; int width, spacing,letter; int xx,yy; int orig_color=grd_curcanv->cv_font_fg_color;//to allow easy reseting to default string color with colored strings -MPM next_row = s; yy = y; if (grd_curscreen->sc_canvas.cv_bitmap.bm_type != BM_OGL) Error("carp.\n"); while (next_row != NULL) { text_ptr1 = next_row; next_row = NULL; text_ptr = text_ptr1; xx = x; if (xx==0x8000) //centered xx = get_centered_x(text_ptr); while (*text_ptr) { if (*text_ptr == '\n' ) { next_row = &text_ptr[1]; yy += FONTSCALE_Y(grd_curcanv->cv_font->ft_h)+FSPACY(1); break; } letter = (unsigned char)*text_ptr-grd_curcanv->cv_font->ft_minchar; get_char_width(text_ptr[0],text_ptr[1],&width,&spacing); if (!INFONT(letter) || (unsigned char)*text_ptr<=0x06) { //not in font, draw as space CHECK_EMBEDDED_COLORS() else{ xx += spacing; text_ptr++; } continue; } if (grd_curcanv->cv_font->ft_flags&FT_COLOR) ogl_ubitmapm_cs(xx,yy,FONTSCALE_X(grd_curcanv->cv_font->ft_widths[letter]),FONTSCALE_Y(grd_curcanv->cv_font->ft_h),&grd_curcanv->cv_font->ft_bitmaps[letter],-1,F1_0); else{ if (grd_curcanv->cv_bitmap.bm_type==BM_OGL) ogl_ubitmapm_cs(xx,yy,grd_curcanv->cv_font->ft_widths[letter]*(FONTSCALE_X(grd_curcanv->cv_font->ft_w)/grd_curcanv->cv_font->ft_w),FONTSCALE_Y(grd_curcanv->cv_font->ft_h),&grd_curcanv->cv_font->ft_bitmaps[letter],grd_curcanv->cv_font_fg_color,F1_0); else Error("ogl_internal_string: non-color string to non-ogl dest\n"); } xx += spacing; text_ptr++; } } return 0; } int gr_internal_color_string(int x, int y, char *s ){ return ogl_internal_string(x,y,s); } #endif //OGL int gr_string(int x, int y, char *s ) { int w, h, aw; int clipped=0; if ( x == 0x8000 ) { if ( y<0 ) clipped |= 1; gr_get_string_size(s, &w, &h, &aw ); // for x, since this will be centered, only look at // width. if ( w > grd_curcanv->cv_bitmap.bm_w ) clipped |= 1; if ( (y+h) > grd_curcanv->cv_bitmap.bm_h ) clipped |= 1; if ( (y+h) < 0 ) clipped |= 2; if ( y > grd_curcanv->cv_bitmap.bm_h ) clipped |= 2; } else { if ( (x<0) || (y<0) ) clipped |= 1; gr_get_string_size(s, &w, &h, &aw ); if ( (x+w) > grd_curcanv->cv_bitmap.bm_w ) clipped |= 1; if ( (y+h) > grd_curcanv->cv_bitmap.bm_h ) clipped |= 1; if ( (x+w) < 0 ) clipped |= 2; if ( (y+h) < 0 ) clipped |= 2; if ( x > grd_curcanv->cv_bitmap.bm_w ) clipped |= 2; if ( y > grd_curcanv->cv_bitmap.bm_h ) clipped |= 2; } if ( !clipped ) return gr_ustring(x, y, s ); if ( clipped & 2 ) { // Completely clipped... return 0; } // Partially clipped... #ifdef OGL if (TYPE==BM_OGL) return ogl_internal_string(x,y,s); #endif if (grd_curcanv->cv_font->ft_flags & FT_COLOR) return gr_internal_color_string( x, y, s); if ( grd_curcanv->cv_font_bg_color == -1) return gr_internal_string_clipped_m( x, y, s ); return gr_internal_string_clipped( x, y, s ); } int gr_ustring(int x, int y, char *s ) { #ifdef OGL if (TYPE==BM_OGL) return ogl_internal_string(x,y,s); #endif if (grd_curcanv->cv_font->ft_flags & FT_COLOR) { return gr_internal_color_string(x,y,s); } else switch( TYPE ) { case BM_LINEAR: if ( grd_curcanv->cv_font_bg_color == -1) return gr_internal_string0m(x,y,s); else return gr_internal_string0(x,y,s); #ifdef __MSDOS__ case BM_SVGA: if ( grd_curcanv->cv_font_bg_color == -1) return gr_internal_string2m(x,y,s); else return gr_internal_string2(x,y,s); #endif #ifdef D1XD3D case BM_DIRECTX: if ( grd_curcanv->cv_font_bg_color == -1) return gr_internal_string_clipped_m(x,y,s); else return gr_internal_string_clipped(x,y,s); #endif } return 0; } void gr_get_string_size(char *s, int *string_width, int *string_height, int *average_width ) { int i = 0, longest_width = 0; int width,spacing; *string_height = FONTSCALE_Y(grd_curcanv->cv_font->ft_h); *string_width = 0; *average_width = grd_curcanv->cv_font->ft_w; if (s != NULL ) { *string_width = 0; while (*s) { // if (*s == '&') // s++; while (*s == '\n') { s++; *string_height += FONTSCALE_Y(grd_curcanv->cv_font->ft_h)+FSPACY(1); *string_width = 0; } if (*s == 0) break; get_char_width(s[0],s[1],&width,&spacing); *string_width += spacing; if (*string_width > longest_width) longest_width = *string_width; i++; s++; } } *string_width = longest_width; } int gr_uprintf( int x, int y, char * format, ... ) { char buffer[1000]; va_list args; va_start(args, format ); vsprintf(buffer,format,args); return gr_ustring( x, y, buffer ); } int gr_printf( int x, int y, char * format, ... ) { char buffer[1000]; va_list args; va_start(args, format ); vsprintf(buffer,format,args); return gr_string( x, y, buffer ); } void gr_close_font( grs_font * font ) { if (font) { if ( font->ft_chars ) d_free( font->ft_chars ); d_free( font->oldfont ); #ifdef OGL if (font->ft_bitmaps) d_free( font->ft_bitmaps ); gr_free_bitmap_data(&font->ft_parent_bitmap); // ogl_freebmtexture(&font->ft_parent_bitmap); #endif d_free( font ); } } void build_colormap_good( ubyte * palette, ubyte * colormap, int * freq ); #include "bitmap.h" // decode_data_asm #if 0 void decode_data_asm(ubyte *data, int num_pixels, ubyte * colormap, int * count ); #pragma aux decode_data_asm parm [esi] [ecx] [edi] [ebx] modify exact [esi edi eax ebx ecx] = \ "again_ddn:" \ "xor eax,eax" \ "mov al,[esi]" \ "inc dword ptr [ebx+eax*4]" \ "mov al,[edi+eax]" \ "mov [esi],al" \ "inc esi" \ "dec ecx" \ "jne again_ddn" #endif grs_font * gr_init_font( char * fontname ) { old_grs_font *font; grs_font *newfont; int i; unsigned char * ptr; int nchars; CFILE *fontfile; char file_id[4]; int32_t datasize; //size up to (but not including) palette fontfile = cfopen(fontname, "rb"); if (!fontfile) Error( "Can't open font file %s", fontname ); cfread(file_id, 4, 1, fontfile); if ( !strncmp( file_id, "NFSP", 4 ) ) { con_printf(CON_NORMAL, "File %s is not a font file\n", fontname); return NULL; } datasize = cfile_read_int(fontfile); font = (old_grs_font *) d_malloc(datasize); newfont = (grs_font *) d_malloc(sizeof(grs_font)); newfont->oldfont=font; cfread(font,1,datasize,fontfile); newfont->ft_flags=INTEL_SHORT(font->ft_flags); newfont->ft_w=INTEL_SHORT(font->ft_w); newfont->ft_h=INTEL_SHORT(font->ft_h); newfont->ft_baseline=INTEL_SHORT(font->ft_baseline); newfont->ft_maxchar=font->ft_maxchar; newfont->ft_minchar=font->ft_minchar; newfont->ft_bytewidth=INTEL_SHORT(font->ft_bytewidth); nchars = newfont->ft_maxchar-newfont->ft_minchar+1; if (newfont->ft_flags & FT_PROPORTIONAL) { newfont->ft_widths = (short *) (INTEL_INT(font->ft_widths) + ((ubyte *) font)); for (i = 0; i < nchars; i++) newfont->ft_widths[i] = INTEL_SHORT(newfont->ft_widths[i]); newfont->ft_data = (INTEL_INT(font->ft_data)) + ((ubyte *) font); newfont->ft_chars = (unsigned char **)d_malloc( nchars * sizeof(unsigned char *)); ptr = newfont->ft_data; for (i=0; i< nchars; i++ ) { newfont->ft_chars[i] = ptr; if (newfont->ft_flags & FT_COLOR) ptr += newfont->ft_widths[i] * newfont->ft_h; else ptr += BITS_TO_BYTES(newfont->ft_widths[i]) * newfont->ft_h; } } else { newfont->ft_data = ((unsigned char *) font) + sizeof(*font); newfont->ft_chars = NULL; newfont->ft_widths = NULL; ptr = newfont->ft_data + (nchars * newfont->ft_w * newfont->ft_h); } if (newfont->ft_flags & FT_KERNED) newfont->ft_kerndata = INTEL_INT(font->ft_kerndata) + ((ubyte *) font); if (newfont->ft_flags & FT_COLOR) { //remap palette ubyte palette[256*3]; ubyte colormap[256]; int freq[256]; cfread(palette,3,256,fontfile); //read the palette build_colormap_good( (ubyte *)&palette, colormap, freq ); colormap[255] = 255; decode_data_asm(newfont->ft_data, ptr-newfont->ft_data, colormap, freq ); } cfclose(fontfile); //set curcanv vars grd_curcanv->cv_font = newfont; grd_curcanv->cv_font_fg_color = 0; grd_curcanv->cv_font_bg_color = 0; { int x,y,aw; char tests[]="abcdefghij1234.A"; gr_get_string_size(tests,&x,&y,&aw); newfont->ft_aw=x/(float)strlen(tests); } #ifdef OGL ogl_init_font(newfont); #endif return newfont; } void gr_set_curfont( grs_font * new ) { grd_curcanv->cv_font = new; } void gr_set_fontcolor( int fg_color, int bg_color ) { grd_curcanv->cv_font_fg_color = fg_color; grd_curcanv->cv_font_bg_color = bg_color; } int gr_internal_string_clipped(int x, int y, char *s ) { unsigned char * fp; char * text_ptr, * next_row, * text_ptr1; int r, BitMask, i, bits, width, spacing, letter, underline; int x1 = x, last_x; bits = 0; next_row = s; while (next_row != NULL ) { text_ptr1 = next_row; next_row = NULL; x = x1; if (x==0x8000) //centered x = get_centered_x(text_ptr1); last_x = x; for (r=0; rcv_font->ft_h; r++) { text_ptr = text_ptr1; x = last_x; while (*text_ptr) { if (*text_ptr == '\n' ) { next_row = &text_ptr[1]; break; } if (*text_ptr == CC_COLOR) { grd_curcanv->cv_font_fg_color = (unsigned char)*(text_ptr+1); text_ptr += 2; continue; } if (*text_ptr == CC_LSPACING) { Int3(); // Warning: skip lines not supported for clipped strings. text_ptr += 2; continue; } underline = 0; if (*text_ptr == CC_UNDERLINE ) { if ((r==grd_curcanv->cv_font->ft_baseline+2) || (r==grd_curcanv->cv_font->ft_baseline+3)) underline = 1; text_ptr++; } get_char_width(text_ptr[0],text_ptr[1],&width,&spacing); letter = (unsigned char)*text_ptr-grd_curcanv->cv_font->ft_minchar; if (!INFONT(letter)) { //not in font, draw as space x += spacing; text_ptr++; continue; } if (grd_curcanv->cv_font->ft_flags & FT_PROPORTIONAL) fp = grd_curcanv->cv_font->ft_chars[letter]; else fp = grd_curcanv->cv_font->ft_data + letter * BITS_TO_BYTES(width)*grd_curcanv->cv_font->ft_h; if (underline) { for (i=0; i< width; i++ ) { gr_setcolor(grd_curcanv->cv_font_fg_color); gr_pixel( x++, y ); } } else { fp += BITS_TO_BYTES(width)*r; BitMask = 0; for (i=0; i< width; i++ ) { if (BitMask==0) { bits = *fp++; BitMask = 0x80; } if (bits & BitMask) gr_setcolor(grd_curcanv->cv_font_fg_color); else gr_setcolor(grd_curcanv->cv_font_bg_color); gr_pixel( x++, y ); BitMask >>= 1; } } x += spacing-width; //for kerning text_ptr++; } y++; } } return 0; } int gr_internal_string_clipped_m(int x, int y, char *s ) { unsigned char * fp; char * text_ptr, * next_row, * text_ptr1; int r, BitMask, i, bits, width, spacing, letter, underline; int x1 = x, last_x; bits = 0; next_row = s; while (next_row != NULL ) { text_ptr1 = next_row; next_row = NULL; x = x1; if (x==0x8000) //centered x = get_centered_x(text_ptr1); last_x = x; for (r=0; rcv_font->ft_h; r++) { x = last_x; text_ptr = text_ptr1; while (*text_ptr) { if (*text_ptr == '\n' ) { next_row = &text_ptr[1]; break; } if (*text_ptr == CC_COLOR) { grd_curcanv->cv_font_fg_color = (unsigned char)*(text_ptr+1); text_ptr += 2; continue; } if (*text_ptr == CC_LSPACING) { Int3(); // Warning: skip lines not supported for clipped strings. text_ptr += 2; continue; } underline = 0; if (*text_ptr == CC_UNDERLINE ) { if ((r==grd_curcanv->cv_font->ft_baseline+2) || (r==grd_curcanv->cv_font->ft_baseline+3)) underline = 1; text_ptr++; } get_char_width(text_ptr[0],text_ptr[1],&width,&spacing); letter = (unsigned char)*text_ptr-grd_curcanv->cv_font->ft_minchar; if (!INFONT(letter)) { //not in font, draw as space x += spacing; text_ptr++; continue; } if (grd_curcanv->cv_font->ft_flags & FT_PROPORTIONAL) fp = grd_curcanv->cv_font->ft_chars[letter]; else fp = grd_curcanv->cv_font->ft_data + letter * BITS_TO_BYTES(width)*grd_curcanv->cv_font->ft_h; if (underline) { for (i=0; i< width; i++ ) { gr_setcolor(grd_curcanv->cv_font_fg_color); gr_pixel( x++, y ); } } else { fp += BITS_TO_BYTES(width)*r; BitMask = 0; for (i=0; i< width; i++ ) { if (BitMask==0) { bits = *fp++; BitMask = 0x80; } if (bits & BitMask) { gr_setcolor(grd_curcanv->cv_font_fg_color); gr_pixel( x++, y ); } else { x++; } BitMask >>= 1; } } x += spacing-width; //for kerning text_ptr++; } y++; } } return 0; }