void compute_string_bbox(out ANT_BBox abbox) { ANT_BBox bbox = new ANT_BBox(); ANT_BBox glyph_bbox = new ANT_BBox(); // initialize string bbox to "empty" values bbox.xMin = bbox.yMin = 32000; bbox.xMax = bbox.yMax = -32000; // for each glyph image, compute its bounding box, // translate it, and grow the string bbox for (int n = 0; n < num_glyphs; n++) { TGlyph glyph = glyphs[n]; ANT.ANT_Glyph_Get_CBox(glyph.image, ANT_Glyph_BBox_Mode.ANT_GLYPH_BBOX_PIXELS, glyph_bbox); glyph_bbox.xMin += glyph.pos.x; glyph_bbox.xMax += glyph.pos.x; glyph_bbox.yMin += glyph.pos.y; glyph_bbox.yMax += glyph.pos.y; if (glyph_bbox.xMin < bbox.xMin) { bbox.xMin = glyph_bbox.xMin; } if (glyph_bbox.yMin < bbox.yMin) { bbox.yMin = glyph_bbox.yMin; } if (glyph_bbox.xMax > bbox.xMax) { bbox.xMax = glyph_bbox.xMax; } if (glyph_bbox.yMax > bbox.yMax) { bbox.yMax = glyph_bbox.yMax; } } // check that we really grew the string bbox if (bbox.xMin > bbox.xMax) { bbox.xMin = 0; bbox.yMin = 0; bbox.xMax = 0; bbox.yMax = 0; } // return string bbox abbox = bbox; }
void DoWork() { ANT_Library library; ANT_Face face; ANT_GlyphSlot slot; ANT_Error error; string filename; string text; int num_chars; bool use_kerning; int previous; int pen_x, pen_y, n; filename = Common.Example_AltNETType_FontFileName; text = "AltNETType (transformation + centering + kerning)";// Common.Pangram; num_chars = text.Length; // ... initialize library ... // ... create face object ... // ... set character size ... { // initialize library error = ANT.ANT_Init_AltNETType(out library); // error handling omitted // create face object error = ANT.ANT_New_Face(library, filename, 0, out face); // error handling omitted if (error != ANT_Error.ANT_Err_Ok) { return; } // use 50pt at 100dpi // set character size error = ANT.ANT_Set_Char_Size(face, 28 * 64, 0, 96, 0); // error handling omitted } // a small shortcut slot = face.glyph; // start at (0,0) pen_x = 0; pen_y = 0; num_glyphs = 0; use_kerning = ANT.ANT_HAS_KERNING(face); previous = 0; ANT_Vector delta = new ANT_Vector(); for (n = 0; n < num_chars; n++) { glyph = glyphs[n]; if (glyph == null) { glyphs[n] = glyph = new TGlyph(); } // convert character code to glyph index glyph.index = ANT.ANT_Get_Char_Index(face, text[n]); // retrieve kerning distance and move pen position if (use_kerning && previous != 0 && glyph.index != 0) { ANT.ANT_Get_Kerning(face, previous, glyph.index, ANT_Kerning_Mode.ANT_KERNING_DEFAULT, delta); pen_x += delta.x >> 6; } // store current pen position if (glyph.pos == null) { glyph.pos = new ANT_Vector(); } glyph.pos.x = pen_x; glyph.pos.y = pen_y; // load glyph image into the slot without rendering error = ANT.ANT_Load_Glyph(face, glyph.index, ANT_LOAD.ANT_LOAD_DEFAULT); if (error != ANT_Error.ANT_Err_Ok) { // ignore errors, jump to next glyph continue; } // extract glyph image and store it in our table error = ANT.ANT_Get_Glyph(face.glyph, out glyph.image); if (error != ANT_Error.ANT_Err_Ok) { // ignore errors, jump to next glyph continue; } // translate the glyph image now ANT.ANT_Glyph_Transform(glyph.image, null, glyph.pos); // increment pen position pen_x += slot.advance.x >> 6; // record current glyph index previous = glyph.index; // increment number of glyphs num_glyphs++; } ANT_Vector start = new ANT_Vector(); // transformation matrix ANT_Matrix matrix = new ANT_Matrix(); ANT_Glyph image; ANT_Vector pen = new ANT_Vector(); ANT_BBox bbox = new ANT_BBox(); double angle; ANT_BBox string_bbox; compute_string_bbox(out string_bbox); int my_target_width = WIDTH; int my_target_height = HEIGHT; // compute string dimensions in integer pixels int string_width = string_bbox.xMax - string_bbox.xMin; int string_height = string_bbox.yMax - string_bbox.yMin; // use -30 degrees angle = (330.0 / 360) * 3.14159 * 2; // compute start pen position in 26.6 cartesian pixels start.x = (int)(((my_target_width - string_width * Math.Cos(angle) - string_height * Math.Sin(angle)) / 2 + string_bbox.yMax * Math.Sin(angle)) * 64); // start.y = ((my_target_height - string_height) / 2) * 64; // need to center bitmaps (not base line) start.y = (int)(((my_target_height - string_height * Math.Cos(angle) - string_width * Math.Sin(angle)) / 2 - string_bbox.yMin * Math.Cos(angle)) * 64); // set up transform (a rotation here) matrix.xx = (int)(Math.Cos(angle) * 0x10000L); matrix.xy = (int)(-Math.Sin(angle) * 0x10000L); matrix.yx = (int)(Math.Sin(angle) * 0x10000L); matrix.yy = (int)(Math.Cos(angle) * 0x10000L); pen.CopyFrom(start); for (n = 0; n < num_glyphs; n++) { // create a copy of the original glyph error = ANT.ANT_Glyph_Copy(glyphs[n].image, out image); if (error != ANT_Error.ANT_Err_Ok) { continue; } // transform copy (this will also translate it to the // correct position ANT.ANT_Glyph_Transform(image, matrix, pen); // check bounding box; if the transformed glyph image // is not in our target surface, we can avoid rendering it ANT.ANT_Glyph_Get_CBox(image, ANT_Glyph_BBox_Mode.ANT_GLYPH_BBOX_PIXELS, bbox); if (bbox.xMax <= 0 || bbox.xMin >= my_target_width || bbox.yMax <= 0 || bbox.yMin >= my_target_height) { //continue; } else { // convert glyph image to bitmap (destroy the glyph copy!) error = ANT.ANT_Glyph_To_Bitmap(ref image, ANT_Render_Mode.ANT_RENDER_MODE_NORMAL, null, // no additional translation true); // destroy copy in "image" if (error == ANT_Error.ANT_Err_Ok) { ANT_BitmapGlyph bit = (ANT_BitmapGlyph)image; draw_bitmap(bit.bitmap, bit.left, my_target_height - bit.top); } } // increment pen position -- // we don't have access to a slot structure, // so we have to use advances from glyph structure // (which are in 16.16 fixed float format) pen.x += image.advance.x >> 10; pen.y += image.advance.y >> 10; ANT.ANT_Done_Glyph(ref image); } // show_image(); ANT.ANT_Done_Face(ref face); ANT.ANT_Done_AltNETType(ref library); }