/*********************************************************** * Artsoft Retro-Game Library * *----------------------------------------------------------* * (c) 1994-2006 Artsoft Entertainment * * Holger Schemel * * Detmolder Strasse 189 * * 33604 Bielefeld * * Germany * * e-mail: info@artsoft.org * *----------------------------------------------------------* * text.c * ***********************************************************/ #include #include #include "text.h" #include "misc.h" /* ========================================================================= */ /* font functions */ /* ========================================================================= */ #if defined(TARGET_X11_NATIVE_PERFORMANCE_WORKAROUND) static GC font_clip_gc = None; static void InitFontClipmasks() { XGCValues clip_gc_values; unsigned long clip_gc_valuemask; GC copy_clipmask_gc; int i, j; /* This stuff is needed because X11 (XSetClipOrigin(), to be precise) is often very slow when preparing a masked XCopyArea() for big Pixmaps. To prevent this, create small (tile-sized) mask Pixmaps which will then be set much faster with XSetClipOrigin() and speed things up a lot. */ clip_gc_values.graphics_exposures = False; clip_gc_valuemask = GCGraphicsExposures; font_clip_gc = XCreateGC(display, window->drawable, clip_gc_valuemask, &clip_gc_values); /* create graphic context structures needed for clipping */ clip_gc_values.graphics_exposures = False; clip_gc_valuemask = GCGraphicsExposures; copy_clipmask_gc = XCreateGC(display, gfx.font_bitmap_info[0].bitmap->clip_mask, clip_gc_valuemask, &clip_gc_values); /* create only those clipping Pixmaps we really need */ for (i = 0; i < gfx.num_fonts; i++) { if (gfx.font_bitmap_info[i].bitmap == NULL) continue; gfx.font_bitmap_info[i].clip_mask = checked_calloc(gfx.font_bitmap_info[i].num_chars * sizeof(Pixmap)); for (j = 0; j < gfx.font_bitmap_info[i].num_chars; j++) { Bitmap *src_bitmap = gfx.font_bitmap_info[i].bitmap; Pixmap src_pixmap = src_bitmap->clip_mask; int xpos = j % gfx.font_bitmap_info[i].num_chars_per_line; int ypos = j / gfx.font_bitmap_info[i].num_chars_per_line; int width = gfx.font_bitmap_info[i].width; int height = gfx.font_bitmap_info[i].height; int src_x = gfx.font_bitmap_info[i].src_x + xpos * width; int src_y = gfx.font_bitmap_info[i].src_y + ypos * height; gfx.font_bitmap_info[i].clip_mask[j] = XCreatePixmap(display, window->drawable, width, height, 1); XCopyArea(display, src_pixmap, gfx.font_bitmap_info[i].clip_mask[j], copy_clipmask_gc, src_x, src_y, width, height, 0, 0); } } XFreeGC(display, copy_clipmask_gc); } static void FreeFontClipmasks() { int i, j; if (gfx.num_fonts == 0 || gfx.font_bitmap_info[0].bitmap == NULL) return; for (i = 0; i < gfx.num_fonts; i++) { if (gfx.font_bitmap_info[i].clip_mask) { for (j = 0; j < gfx.font_bitmap_info[i].num_chars; j++) XFreePixmap(display, gfx.font_bitmap_info[i].clip_mask[j]); free(gfx.font_bitmap_info[i].clip_mask); } gfx.font_bitmap_info[i].clip_mask = NULL; gfx.font_bitmap_info[i].num_chars = 0; } if (font_clip_gc) XFreeGC(display, font_clip_gc); font_clip_gc = None; } #endif /* TARGET_X11_NATIVE_PERFORMANCE_WORKAROUND */ void InitFontInfo(struct FontBitmapInfo *font_bitmap_info, int num_fonts, int (*select_font_function)(int), int (*get_font_from_token_function)(char *)) { gfx.num_fonts = num_fonts; gfx.font_bitmap_info = font_bitmap_info; gfx.select_font_function = select_font_function; gfx.get_font_from_token_function = get_font_from_token_function; #if defined(TARGET_X11_NATIVE_PERFORMANCE_WORKAROUND) InitFontClipmasks(); #endif } void FreeFontInfo(struct FontBitmapInfo *font_bitmap_info) { if (font_bitmap_info == NULL) return; #if defined(TARGET_X11_NATIVE_PERFORMANCE_WORKAROUND) FreeFontClipmasks(); #endif free(font_bitmap_info); } struct FontBitmapInfo *getFontBitmapInfo(int font_nr) { int font_bitmap_id = gfx.select_font_function(font_nr); return &gfx.font_bitmap_info[font_bitmap_id]; } int getFontWidth(int font_nr) { int font_bitmap_id = gfx.select_font_function(font_nr); return gfx.font_bitmap_info[font_bitmap_id].width; } int getFontHeight(int font_nr) { int font_bitmap_id = gfx.select_font_function(font_nr); return gfx.font_bitmap_info[font_bitmap_id].height; } int getTextWidth(char *text, int font_nr) { return (text != NULL ? strlen(text) * getFontWidth(font_nr) : 0); } static int getFontCharPosition(int font_nr, char c) { int font_bitmap_id = gfx.select_font_function(font_nr); struct FontBitmapInfo *font = &gfx.font_bitmap_info[font_bitmap_id]; boolean default_font = (font->num_chars == DEFAULT_NUM_CHARS_PER_FONT); int font_pos = (unsigned char)c - 32; /* map some special characters to their ascii values in default font */ if (default_font) font_pos = MAP_FONT_ASCII(c) - 32; /* this allows dynamic special characters together with special font */ if (font_pos < 0 || font_pos >= font->num_chars) font_pos = 0; return font_pos; } void getFontCharSource(int font_nr, char c, Bitmap **bitmap, int *x, int *y) { int font_bitmap_id = gfx.select_font_function(font_nr); struct FontBitmapInfo *font = &gfx.font_bitmap_info[font_bitmap_id]; int font_pos = getFontCharPosition(font_nr, c); *bitmap = font->bitmap; *x = font->src_x + (font_pos % font->num_chars_per_line) * font->width; *y = font->src_y + (font_pos / font->num_chars_per_line) * font->height; } /* ========================================================================= */ /* simple text drawing functions */ /* ========================================================================= */ void DrawInitTextExt(char *text, int ypos, int font_nr, boolean force) { static unsigned long progress_delay = 0; unsigned long progress_delay_value = 100; /* (in milliseconds) */ UPDATE_BUSY_STATE(); if (!force && !DelayReached(&progress_delay, progress_delay_value)) return; if (window != NULL && gfx.num_fonts > 0 && gfx.font_bitmap_info[font_nr].bitmap != NULL) { int x = (video.width - getTextWidth(text, font_nr)) / 2; int y = ypos; int width = video.width; int height = getFontHeight(font_nr); ClearRectangle(drawto, 0, y, width, height); DrawTextExt(drawto, x, y, text, font_nr, BLIT_OPAQUE); /* this makes things significantly faster than directly drawing to window */ BlitBitmap(drawto, window, 0, y, width, height, 0, y); } } void DrawInitText(char *text, int ypos, int font_nr) { DrawInitTextExt(text, ypos, font_nr, TRUE); } void DrawInitTextIfNeeded(char *text, int ypos, int font_nr) { DrawInitTextExt(text, ypos, font_nr, FALSE); } void DrawTextF(int x, int y, int font_nr, char *format, ...) { char buffer[MAX_OUTPUT_LINESIZE + 1]; va_list ap; va_start(ap, format); vsprintf(buffer, format, ap); va_end(ap); if (strlen(buffer) > MAX_OUTPUT_LINESIZE) Error(ERR_EXIT, "string too long in DrawTextF() -- aborting"); DrawText(gfx.sx + x, gfx.sy + y, buffer, font_nr); } void DrawTextFCentered(int y, int font_nr, char *format, ...) { char buffer[MAX_OUTPUT_LINESIZE + 1]; va_list ap; va_start(ap, format); vsprintf(buffer, format, ap); va_end(ap); if (strlen(buffer) > MAX_OUTPUT_LINESIZE) Error(ERR_EXIT, "string too long in DrawTextFCentered() -- aborting"); DrawText(gfx.sx + (gfx.sxsize - getTextWidth(buffer, font_nr)) / 2, gfx.sy + y, buffer, font_nr); } void DrawTextS(int x, int y, int font_nr, char *text) { DrawText(gfx.sx + x, gfx.sy + y, text, font_nr); } void DrawTextSCentered(int y, int font_nr, char *text) { DrawText(gfx.sx + (gfx.sxsize - getTextWidth(text, font_nr)) / 2, gfx.sy + y, text, font_nr); } void DrawTextCentered(int y, int font_nr, char *text) { DrawText((gfx.sxsize - getTextWidth(text, font_nr)) / 2, y, text, font_nr); } void DrawTextSAligned(int x, int y, char *text, int font_nr, int align) { DrawText(gfx.sx + ALIGNED_XPOS(x, getTextWidth(text, font_nr), align), gfx.sx + y, text, font_nr); } void DrawTextAligned(int x, int y, char *text, int font_nr, int align) { DrawText(ALIGNED_XPOS(x, getTextWidth(text, font_nr), align), y, text, font_nr); } void DrawText(int x, int y, char *text, int font_nr) { int mask_mode = BLIT_OPAQUE; if (DrawingOnBackground(x, y)) mask_mode = BLIT_ON_BACKGROUND; DrawTextExt(drawto, x, y, text, font_nr, mask_mode); if (x < gfx.dx) redraw_mask |= REDRAW_FIELD; else if (y < gfx.vy || gfx.vy == 0) redraw_mask |= REDRAW_DOOR_1; } void DrawTextExt(DrawBuffer *dst_bitmap, int dst_x, int dst_y, char *text, int font_nr, int mask_mode) { #if 1 struct FontBitmapInfo *font = getFontBitmapInfo(font_nr); #else int font_bitmap_id = gfx.select_font_function(font_nr); struct FontBitmapInfo *font = &gfx.font_bitmap_info[font_bitmap_id]; #endif int font_width = getFontWidth(font_nr); int font_height = getFontHeight(font_nr); #if 0 int border_1 = gfx.sx + gfx.sxsize; int border_2 = gfx.dx + gfx.dxsize; int dst_x_start = dst_x; #endif Bitmap *src_bitmap; int src_x, src_y; char *text_ptr = text; if (font->bitmap == NULL) return; /* skip text to be printed outside the window (left/right will be clipped) */ if (dst_y < 0 || dst_y + font_height > video.height) return; /* add offset for drawing font characters */ dst_x += font->draw_xoffset; dst_y += font->draw_yoffset; while (*text_ptr) { char c = *text_ptr++; if (c == '\n') c = ' '; /* print space instead of newline */ getFontCharSource(font_nr, c, &src_bitmap, &src_x, &src_y); /* clip text at the left side of the window */ if (dst_x < 0) { dst_x += font_width; continue; } /* clip text at the right side of the window */ #if 1 if (dst_x + font_width > video.width) break; #else /* (this does not work well when trying to print text to whole screen) */ if ((dst_x_start < border_1 && dst_x + font_width > border_1) || (dst_x_start < border_2 && dst_x + font_width > border_2)) break; #endif if (mask_mode == BLIT_INVERSE) /* special mode for text gadgets */ { /* first step: draw solid colored rectangle (use "cursor" character) */ if (strlen(text) == 1) /* only one char inverted => draw cursor */ { Bitmap *cursor_bitmap; int cursor_x, cursor_y; getFontCharSource(font_nr, FONT_ASCII_CURSOR, &cursor_bitmap, &cursor_x, &cursor_y); BlitBitmap(cursor_bitmap, dst_bitmap, cursor_x, cursor_y, font_width, font_height, dst_x, dst_y); } #if defined(TARGET_SDL) /* second step: draw masked inverted character */ SDLCopyInverseMasked(src_bitmap, dst_bitmap, src_x, src_y, font_width, font_height, dst_x, dst_y); #else /* second step: draw masked black rectangle (use "space" character) */ SetClipOrigin(src_bitmap, src_bitmap->stored_clip_gc, dst_x - src_x, dst_y - src_y); BlitBitmapMasked(src_bitmap, dst_bitmap, 0, 0, font_width, font_height, dst_x, dst_y); #endif } else if (mask_mode == BLIT_MASKED || mask_mode == BLIT_ON_BACKGROUND) { if (mask_mode == BLIT_ON_BACKGROUND) { /* clear font character background */ ClearRectangleOnBackground(dst_bitmap, dst_x, dst_y, font_width, font_height); } #if defined(TARGET_X11_NATIVE_PERFORMANCE_WORKAROUND) /* use special font tile clipmasks */ { int font_pos = getFontCharPosition(font_nr, c); SetClipMask(src_bitmap, font_clip_gc, font->clip_mask[font_pos]); SetClipOrigin(src_bitmap, font_clip_gc, dst_x, dst_y); } #else SetClipOrigin(src_bitmap, src_bitmap->stored_clip_gc, dst_x - src_x, dst_y - src_y); #endif BlitBitmapMasked(src_bitmap, dst_bitmap, src_x, src_y, font_width, font_height, dst_x, dst_y); } else /* normal, non-masked font blitting */ { BlitBitmap(src_bitmap, dst_bitmap, src_x, src_y, font_width, font_height, dst_x, dst_y); } dst_x += font_width; } } /* ========================================================================= */ /* text buffer drawing functions */ /* ========================================================================= */ #define MAX_LINES_FROM_FILE 1024 char *GetTextBufferFromFile(char *filename, int max_lines) { FILE *file; char *buffer; int num_lines = 0; if (filename == NULL) return NULL; if (!(file = fopen(filename, MODE_READ))) return NULL; buffer = checked_calloc(1); /* start with valid, but empty text buffer */ while (!feof(file) && num_lines < max_lines) { char line[MAX_LINE_LEN]; /* read next line of input file */ if (!fgets(line, MAX_LINE_LEN, file)) break; buffer = checked_realloc(buffer, strlen(buffer) + strlen(line) + 1); strcat(buffer, line); num_lines++; } fclose(file); return buffer; } void DrawTextToTextArea_OLD(int x, int y, char *text, int font_nr, int line_length, int area_xsize, int area_ysize, int mask_mode) { int area_line = 0; int font_height = getFontHeight(font_nr); if (text == NULL) return; while (*text && area_line < area_ysize) { char buffer[MAX_OUTPUT_LINESIZE + 1]; int i; for (i = 0; i < line_length && *text; i++) if ((buffer[i] = *text++) == '\n') break; buffer[MIN(i, area_xsize)] = '\0'; DrawTextExt(drawto, x, y + area_line * font_height, buffer, font_nr, mask_mode); area_line++; } redraw_mask |= REDRAW_FIELD; } static boolean RenderLineToBuffer(char **src_buffer_ptr, char *dst_buffer, int *dst_buffer_len, int line_length, boolean last_line_was_empty) { char *text_ptr = *src_buffer_ptr; char *buffer = dst_buffer; int buffer_len = *dst_buffer_len; boolean buffer_filled = FALSE; while (*text_ptr) { char *word_ptr; int word_len; /* skip leading whitespaces */ while (*text_ptr == ' ' || *text_ptr == '\t') text_ptr++; word_ptr = text_ptr; word_len = 0; /* look for end of next word */ while (*word_ptr != ' ' && *word_ptr != '\t' && *word_ptr != '\0') { word_ptr++; word_len++; } if (word_len == 0) { continue; } else if (*text_ptr == '\n') /* special case: force empty line */ { if (buffer_len == 0) text_ptr++; /* prevent printing of multiple empty lines */ if (buffer_len > 0 || !last_line_was_empty) buffer_filled = TRUE; } else if (word_len < line_length - buffer_len) { /* word fits into text buffer -- add word */ if (buffer_len > 0) buffer[buffer_len++] = ' '; strncpy(&buffer[buffer_len], text_ptr, word_len); buffer_len += word_len; buffer[buffer_len] = '\0'; text_ptr += word_len; } else if (buffer_len > 0) { /* not enough space left for word in text buffer -- print buffer */ buffer_filled = TRUE; } else { /* word does not fit at all into empty text buffer -- cut word */ strncpy(buffer, text_ptr, line_length); buffer[line_length] = '\0'; text_ptr += line_length; buffer_filled = TRUE; } if (buffer_filled) break; } *src_buffer_ptr = text_ptr; *dst_buffer_len = buffer_len; return buffer_filled; } #if 0 void DrawTextWrapped_OLD(int x, int y, char *text, int font_nr, int line_length, int max_lines) { char *text_ptr = text; int current_line = 0; int font_height = getFontHeight(font_nr); while (*text_ptr && current_line < max_lines) { char buffer[line_length + 1]; int buffer_len = 0; buffer[0] = '\0'; RenderLineToBuffer(&text_ptr, buffer, &buffer_len, line_length, TRUE); DrawText(x, y + current_line * font_height, buffer, font_nr); current_line++; } } #endif #if 0 int DrawTextFromFile_OLD(int x, int y, char *filename, int font_nr, int line_length, int max_lines, boolean wrap_text) { int font_height = getFontHeight(font_nr); char line[MAX_LINE_LEN]; char buffer[line_length + 1]; int buffer_len; int current_line = 0; FILE *file; if (current_line >= max_lines) return 0; if (filename == NULL) return 0; if (!(file = fopen(filename, MODE_READ))) return 0; buffer[0] = '\0'; buffer_len = 0; while (!feof(file) && current_line < max_lines) { char *line_ptr; boolean last_line_was_empty = TRUE; /* read next line of input file */ if (!fgets(line, MAX_LINE_LEN, file)) break; /* skip comments (lines directly beginning with '#') */ if (line[0] == '#') continue; /* cut trailing newline from input line */ for (line_ptr = line; *line_ptr; line_ptr++) { if (*line_ptr == '\n' || *line_ptr == '\r') { *line_ptr = '\0'; break; } } if (strlen(line) == 0) /* special case: force empty line */ strcpy(line, "\n"); line_ptr = line; while (*line_ptr && current_line < max_lines) { #if 1 boolean buffer_filled; if (wrap_text) { buffer_filled = RenderLineToBuffer(&line_ptr, buffer, &buffer_len, line_length, last_line_was_empty); } else { if (strlen(line_ptr) <= line_length) { buffer_len = strlen(line_ptr); strcpy(buffer, line_ptr); } else { buffer_len = line_length; strncpy(buffer, line_ptr, line_length); } buffer[buffer_len] = '\0'; line_ptr += buffer_len; buffer_filled = TRUE; } #else boolean buffer_filled = RenderLineToBuffer(&line_ptr, buffer, &buffer_len, line_length, last_line_was_empty); #endif if (buffer_filled) { DrawText(x, y + current_line * font_height, buffer, font_nr); current_line++; last_line_was_empty = (buffer_len == 0); buffer[0] = '\0'; buffer_len = 0; } } } fclose(file); if (buffer_len > 0 && current_line < max_lines) { DrawText(x, y + current_line * font_height, buffer, font_nr); current_line++; } return current_line; } #endif static boolean getCheckedTokenValueFromString(char *string, char **token, char **value) { char *ptr; if (!getTokenValueFromString(string, token, value)) return FALSE; if (**token != '.') /* token should begin with dot */ return FALSE; for (ptr = *token; *ptr; ptr++) /* token should contain no whitespace */ if (*ptr == ' ' || *ptr == '\t') return FALSE; for (ptr = *value; *ptr; ptr++) /* value should contain no whitespace */ if (*ptr == ' ' || *ptr == '\t') return FALSE; return TRUE; } static void DrawTextBuffer_Flush(int x, int y, char *buffer, int font_nr, int line_length, int cut_length, int mask_mode, boolean centered, int current_line) { int buffer_len = strlen(buffer); int font_width = getFontWidth(font_nr); int font_height = getFontHeight(font_nr); int offset_chars = (centered ? (line_length - buffer_len) / 2 : 0); int offset_xsize = (centered ? font_width * (line_length - buffer_len) / 2 : 0); int final_cut_length = MAX(0, cut_length - offset_chars); int xx = x + offset_xsize; int yy = y + current_line * font_height; buffer[final_cut_length] = '\0'; if (mask_mode != -1) DrawTextExt(drawto, xx, yy, buffer, font_nr, mask_mode); else DrawText(xx, yy, buffer, font_nr); } int DrawTextBuffer(int x, int y, char *text_buffer, int font_nr, int line_length, int cut_length, int max_lines, int mask_mode, boolean autowrap, boolean centered, boolean parse_comments) { #if 0 int font_width = getFontWidth(font_nr); int font_height = getFontHeight(font_nr); #endif char buffer[line_length + 1]; int buffer_len; int current_line = 0; if (text_buffer == NULL || *text_buffer == '\0') return 0; if (current_line >= max_lines) return 0; if (cut_length == -1) cut_length = line_length; buffer[0] = '\0'; buffer_len = 0; while (*text_buffer && current_line < max_lines) { char line[MAX_LINE_LEN + 1]; char *line_ptr; boolean last_line_was_empty = TRUE; #if 1 int num_line_chars = MAX_LINE_LEN; #else int num_line_chars = (autowrap ? MAX_LINE_LEN : line_length); #endif int i; /* copy next line from text buffer to line buffer (nearly fgets() style) */ for (i = 0; i < num_line_chars && *text_buffer; i++) if ((line[i] = *text_buffer++) == '\n') break; line[i] = '\0'; /* prevent 'num_line_chars' sized lines to cause additional empty line */ if (i == num_line_chars && *text_buffer == '\n') text_buffer++; /* skip comments (lines directly beginning with '#') */ if (line[0] == '#' && parse_comments) { char *token, *value; /* try to read generic token/value pair definition after comment sign */ if (getCheckedTokenValueFromString(line + 1, &token, &value)) { /* if found, flush the current buffer, if non-empty */ if (buffer_len > 0 && current_line < max_lines) { DrawTextBuffer_Flush(x, y, buffer, font_nr, line_length, cut_length, mask_mode, centered, current_line); current_line++; buffer[0] = '\0'; buffer_len = 0; } if (strEqual(token, ".font")) font_nr = gfx.get_font_from_token_function(value); else if (strEqual(token, ".autowrap")) autowrap = get_boolean_from_string(value); else if (strEqual(token, ".centered")) centered = get_boolean_from_string(value); else if (strEqual(token, ".parse_comments")) parse_comments = get_boolean_from_string(value); } continue; } /* cut trailing newline and carriage return from input line */ for (line_ptr = line; *line_ptr; line_ptr++) { if (*line_ptr == '\n' || *line_ptr == '\r') { *line_ptr = '\0'; break; } } if (strlen(line) == 0) /* special case: force empty line */ strcpy(line, "\n"); line_ptr = line; while (*line_ptr && current_line < max_lines) { boolean buffer_filled; if (autowrap) { buffer_filled = RenderLineToBuffer(&line_ptr, buffer, &buffer_len, line_length, last_line_was_empty); } else { if (strlen(line_ptr) <= line_length) { buffer_len = strlen(line_ptr); strcpy(buffer, line_ptr); } else { buffer_len = line_length; strncpy(buffer, line_ptr, line_length); } buffer[buffer_len] = '\0'; line_ptr += buffer_len; buffer_filled = TRUE; } if (buffer_filled) { #if 1 DrawTextBuffer_Flush(x, y, buffer, font_nr, line_length, cut_length, mask_mode, centered, current_line); #else int offset_chars = (centered ? (line_length - buffer_len) / 2 : 0); int offset_xsize = (centered ? font_width * (line_length - buffer_len) / 2 : 0); int final_cut_length = MAX(0, cut_length - offset_chars); int xx = x + offset_xsize; buffer[final_cut_length] = '\0'; if (mask_mode != -1) DrawTextExt(drawto, xx, y + current_line * font_height, buffer, font_nr, mask_mode); else DrawText(xx, y + current_line * font_height, buffer, font_nr); #endif current_line++; last_line_was_empty = (buffer_len == 0); buffer[0] = '\0'; buffer_len = 0; } } } if (buffer_len > 0 && current_line < max_lines) { #if 1 DrawTextBuffer_Flush(x, y, buffer, font_nr, line_length, cut_length, mask_mode, centered, current_line); #else int offset_chars = (centered ? (line_length - buffer_len) / 2 : 0); int offset_xsize = (centered ? font_width * (line_length - buffer_len) / 2 : 0); int final_cut_length = MAX(0, cut_length - offset_chars); int xx = x + offset_xsize; buffer[final_cut_length] = '\0'; if (mask_mode != -1) DrawTextExt(drawto, xx, y + current_line * font_height, buffer, font_nr, mask_mode); else DrawText(xx, y + current_line * font_height, buffer, font_nr); #endif current_line++; } return current_line; } int DrawTextFile(int x, int y, char *filename, int font_nr, int line_length, int cut_length, int max_lines, int mask_mode, boolean autowrap, boolean centered, boolean parse_comments) { char *text_buffer = GetTextBufferFromFile(filename, MAX_LINES_FROM_FILE); int num_lines_printed = DrawTextBuffer(x, y, text_buffer, font_nr, line_length, cut_length, max_lines, mask_mode, autowrap, centered, parse_comments); checked_free(text_buffer); return num_lines_printed; } #if 0 void DrawTextWrapped(int x, int y, char *text, int font_nr, int line_length, int max_lines) { DrawTextBuffer(x, y, text, font_nr, line_length, -1, max_lines, -1, TRUE, FALSE, FALSE); } void DrawTextToTextArea(int x, int y, char *text, int font_nr, int line_length, int cut_length, int max_lines, int mask_mode) { DrawTextBuffer(x, y, text, font_nr, line_length, cut_length, max_lines, mask_mode, FALSE, FALSE, FALSE); } #endif