mirror of
https://github.com/Valeh2012/PersonalVotingMachine
synced 2024-11-23 09:41:01 +02:00
218 lines
6.2 KiB
C
218 lines
6.2 KiB
C
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/*
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bdf_kern.c
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*/
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#include "bdf_font.h"
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#include <assert.h>
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#define BDF_KERNING_MAX (1024*60)
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/* the following tables contain the first encodings if they do contain any kernings */
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uint16_t bdf_first_table_cnt;
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uint16_t bdf_first_encoding_table[BDF_KERNING_MAX];
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uint16_t bdf_index_to_second_table[BDF_KERNING_MAX];
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/* the index from bdf_index_to_second_table can be used to jump into the following table */
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uint16_t bdf_second_table_cnt;
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uint16_t bdf_second_encoding_table[BDF_KERNING_MAX];
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uint8_t bdf_kerning_values[BDF_KERNING_MAX];
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/*
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struct u8g2_kerning
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{
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uint16_t first_table_cnt;
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uint16_t second_table_cnt;
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uint16_t *first_encoding_table;
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uint16_t *index_to_second_table;
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uin16_t *second_encoding_table;
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uint8_t *kerning_values;
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}
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*/
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static void bdf_write_uint16_array(FILE *fp, const char *pre, const char *post, uint16_t cnt, const uint16_t *a)
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{
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uint16_t i;
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fprintf(fp, "static const uint16_t %s_%s[%u] = {\n ", pre, post, cnt);
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for( i = 0; i < cnt; i++ )
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{
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fprintf(fp, "%u", a[i]);
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if ( i+1 < cnt )
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{
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fprintf(fp, ", ");
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if ( i % 16 == 0 && i > 0 )
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{
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fprintf(fp, "\n ");
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}
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}
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}
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fprintf(fp, "};\n");
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}
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static void bdf_write_uint8_array(FILE *fp, const char *pre, const char *post, uint16_t cnt, const uint8_t *a)
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{
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uint16_t i;
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fprintf(fp, "static const uint8_t %s_%s[%u] = {\n ", pre, post, cnt);
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for( i = 0; i < cnt; i++ )
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{
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fprintf(fp, "%u", a[i]);
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if ( i+1 < cnt )
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{
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fprintf(fp, ", ");
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if ( i % 16 == 0 && i > 0 )
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{
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fprintf(fp, "\n ");
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}
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}
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}
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fprintf(fp, "};\n");
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}
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void bdf_write_kerning_file(const char *kernfile, const char *name)
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{
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FILE *fp;
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fp = fopen(kernfile, "w");
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fprintf(fp, "/* %s, Size: %u Bytes */\n", name, bdf_first_table_cnt*4 + bdf_second_table_cnt*3 + 4 + 8); // size calculation for 16 bit controller
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bdf_write_uint16_array(fp, name, "first_encoding_table", bdf_first_table_cnt, bdf_first_encoding_table);
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bdf_write_uint16_array(fp, name, "index_to_second_table", bdf_first_table_cnt, bdf_index_to_second_table);
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bdf_write_uint16_array(fp, name, "second_encoding_table", bdf_second_table_cnt, bdf_second_encoding_table);
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bdf_write_uint8_array(fp, name, "kerning_values", bdf_second_table_cnt, bdf_kerning_values);
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fprintf(fp, "u8g2_kerning_t %s_k = {\n", name);
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fprintf(fp, " %u, %u,\n", bdf_first_table_cnt, bdf_second_table_cnt);
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fprintf(fp, " %s_%s,\n", name, "first_encoding_table");
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fprintf(fp, " %s_%s,\n", name, "index_to_second_table");
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fprintf(fp, " %s_%s,\n", name, "second_encoding_table");
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fprintf(fp, " %s_%s};\n\n", name, "kerning_values");
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fclose(fp);
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}
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/*
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assumes
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tga_set_font(font);
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and
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tga_init((tga_get_char_width()+16)*3, ((tga_get_char_height()+8)*2));
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is called before
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*/
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static int bdf_is_glyph_overlap(uint8_t *font, uint16_t e1, uint16_t e2, uint8_t kerning_test, int is_save)
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{
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unsigned int x, y;
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tga_clear();
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x = 8;
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y = tga_get_char_height();
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x += tga_draw_glyph(x, y, e1, 0);
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x -= kerning_test;
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tga_clear_pixel_intersection();
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x += tga_draw_glyph(x, y, e2, 0);
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if ( is_save )
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{
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//char buf[64];
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//sprintf(buf, "glyph_intersection_%u_%u_%u.tga", e1, e2, kerning_test);
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//tga_save(buf);
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}
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return tga_is_pixel_intersection();
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}
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unsigned bdf_calculate_kerning(uint8_t *font, uint16_t e1, uint16_t e2, uint8_t min_distance_in_per_cent_of_char_width)
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{
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uint8_t upper_bound;
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uint8_t kerning;
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uint8_t min_distance_in_pixel;
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tga_set_font(font);
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tga_init((tga_get_char_width()+16)*3, ((tga_get_char_height()+8)*2));
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min_distance_in_pixel = ((unsigned)tga_get_char_width()*(unsigned)min_distance_in_per_cent_of_char_width) / 100;
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upper_bound = tga_get_char_width();
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for( kerning = 0; kerning < upper_bound; kerning++ )
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{
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if ( bdf_is_glyph_overlap(font, e1, e2, kerning, 0) != 0 )
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break;
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}
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if ( kerning >= upper_bound )
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kerning = 0; /* maybe "." compared against "-" */
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if ( kerning < min_distance_in_pixel )
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kerning = 0;
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else
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kerning -= min_distance_in_pixel;
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if ( kerning != 0 )
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{
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bdf_is_glyph_overlap(font, e1, e2, kerning, 1);
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//printf("bdf_calculate_kerning %u %u ", e1, e2);
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//printf("result: %d\n", kerning);
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}
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return kerning;
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}
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void bdf_calculate_all_kerning(bf_t *bf, const char *filename, const char *fontname, uint8_t min_distance_in_per_cent_of_char_width)
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{
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int first, second;
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bg_t *bg_first;
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bg_t *bg_second;
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uint8_t kerning;
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int is_first_encoding_added;
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bdf_first_table_cnt = 0;
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bdf_second_table_cnt = 0;
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for( first= 0; first < bf->glyph_cnt; first++ )
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{
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is_first_encoding_added = 0;
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bg_first = bf->glyph_list[first];
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if ( bg_first->target_data != NULL && bg_first->is_excluded_from_kerning == 0 )
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{
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for( second= 0; second < bf->glyph_cnt; second++ )
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{
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bg_second = bf->glyph_list[second];
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if ( bg_second->target_data != NULL && bg_second->is_excluded_from_kerning == 0 )
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{
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kerning = bdf_calculate_kerning(bf->target_data, bg_first->encoding, bg_second->encoding, min_distance_in_per_cent_of_char_width);
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if ( kerning > 1 )
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{
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if ( is_first_encoding_added == 0 )
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{
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bdf_first_encoding_table[bdf_first_table_cnt] = bg_first->encoding;
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bdf_index_to_second_table[bdf_first_table_cnt] = bdf_second_table_cnt;
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bdf_first_table_cnt++;
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if (bdf_first_table_cnt > BDF_KERNING_MAX)
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{
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fprintf(stderr, "Kerning calculation aborted: bdf_first_table_cnt > BDF_KERNING_MAX\n");
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return;
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}
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is_first_encoding_added = 1;
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}
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bdf_second_encoding_table[bdf_second_table_cnt] = bg_second->encoding;
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bdf_kerning_values[bdf_second_table_cnt] = kerning;
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bdf_second_table_cnt++;
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if (bdf_second_table_cnt > BDF_KERNING_MAX)
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{
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fprintf(stderr, "Kerning calculation aborted: bdf_second_table_cnt > BDF_KERNING_MAX\n");
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return;
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}
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}
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}
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}
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}
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}
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/* add a final entry for more easier calculation in u8g2 */
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bdf_first_encoding_table[bdf_first_table_cnt] = 0x0ffff;
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bdf_index_to_second_table[bdf_first_table_cnt] = bdf_second_table_cnt;
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bdf_first_table_cnt++;
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bdf_write_kerning_file(filename, fontname);
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}
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