/* Copyright (C) 1999-2004, 2006-2007, 2010, 2012, 2016, 2018 Free Software Foundation, Inc. This file is part of the GNU LIBICONV Tools. This program is free software: you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 3 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, see . */ /* * Generates a CJK character set table from a .TXT table as found on * ftp.unicode.org or in the X nls directory. * Examples: * * ./cjk_tab_to_h GB2312.1980-0 gb2312 > gb2312.h < gb2312 * ./cjk_tab_to_h JISX0208.1983-0 jisx0208 > jisx0208.h < jis0208 * ./cjk_tab_to_h KSC5601.1987-0 ksc5601 > ksc5601.h < ksc5601 * * ./cjk_tab_to_h GB2312.1980-0 gb2312 > gb2312.h < GB2312.TXT * ./cjk_tab_to_h JISX0208.1983-0 jisx0208 > jisx0208.h < JIS0208.TXT * ./cjk_tab_to_h JISX0212.1990-0 jisx0212 > jisx0212.h < JIS0212.TXT * ./cjk_tab_to_h KSC5601.1987-0 ksc5601 > ksc5601.h < KSC5601.TXT * ./cjk_tab_to_h KSX1001.1992-0 ksc5601 > ksc5601.h < KSX1001.TXT * * ./cjk_tab_to_h BIG5 big5 > big5.h < BIG5.TXT * * ./cjk_tab_to_h JOHAB johab > johab.h < JOHAB.TXT * * ./cjk_tab_to_h JISX0213:2004 jisx0213 > jisx0213.h < JISX0213.TXT */ #include #include #include #include #include #include typedef struct { int start; int end; } Block; typedef struct { int rows; /* number of possible values for the 1st byte */ int cols; /* number of possible values for the 2nd byte */ int (*row_byte) (int row); /* returns the 1st byte value for a given row */ int (*col_byte) (int col); /* returns the 2nd byte value for a given col */ int (*byte_row) (int byte); /* converts a 1st byte value to a row, else -1 */ int (*byte_col) (int byte); /* converts a 2nd byte value to a col, else -1 */ const char* check_row_expr; /* format string for 1st byte value checking */ const char* check_col_expr; /* format string for 2nd byte value checking */ const char* byte_row_expr; /* format string for 1st byte value to row */ const char* byte_col_expr; /* format string for 2nd byte value to col */ int** charset2uni; /* charset2uni[0..rows-1][0..cols-1] is valid */ /* You'll understand the terms "row" and "col" when you buy Ken Lunde's book. Once a row is fixed, choosing a "col" is the same as choosing a "cell". */ int* charsetpage; /* charsetpage[0..rows]: how large is a page for a row */ int ncharsetblocks; Block* charsetblocks; /* blocks[0..nblocks-1] */ int* uni2charset; /* uni2charset[0x0000..0xffff] */ int fffd; /* uni representation of the invalid character */ } Encoding; /* * Outputs the file title. */ static void output_title (const char *charsetname) { printf("/*\n"); printf(" * Copyright (C) 1999-2016 Free Software Foundation, Inc.\n"); printf(" * This file is part of the GNU LIBICONV Library.\n"); printf(" *\n"); printf(" * The GNU LIBICONV Library is free software; you can redistribute it\n"); printf(" * and/or modify it under the terms of the GNU Lesser General Public\n"); printf(" * License as published by the Free Software Foundation; either version 2\n"); printf(" * of the License, or (at your option) any later version.\n"); printf(" *\n"); printf(" * The GNU LIBICONV Library is distributed in the hope that it will be\n"); printf(" * useful, but WITHOUT ANY WARRANTY; without even the implied warranty of\n"); printf(" * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU\n"); printf(" * Lesser General Public License for more details.\n"); printf(" *\n"); printf(" * You should have received a copy of the GNU Lesser General Public\n"); printf(" * License along with the GNU LIBICONV Library; see the file COPYING.LIB.\n"); printf(" * If not, see .\n"); printf(" */\n"); printf("\n"); printf("/*\n"); printf(" * %s\n", charsetname); printf(" */\n"); printf("\n"); } /* * Reads the charset2uni table from standard input. */ static void read_table (Encoding* enc) { int row, col, i, i1, i2, c, j; enc->charset2uni = (int**) malloc(enc->rows*sizeof(int*)); for (row = 0; row < enc->rows; row++) enc->charset2uni[row] = (int*) malloc(enc->cols*sizeof(int)); for (row = 0; row < enc->rows; row++) for (col = 0; col < enc->cols; col++) enc->charset2uni[row][col] = 0xfffd; c = getc(stdin); ungetc(c,stdin); if (c == '#') { /* Read a unicode.org style .TXT file. */ for (;;) { c = getc(stdin); if (c == EOF) break; if (c == '\n' || c == ' ' || c == '\t') continue; if (c == '#') { do { c = getc(stdin); } while (!(c == EOF || c == '\n')); continue; } ungetc(c,stdin); if (scanf("0x%x", &j) != 1) exit(1); i1 = j >> 8; i2 = j & 0xff; row = enc->byte_row(i1); col = enc->byte_col(i2); if (row < 0 || col < 0) { fprintf(stderr, "lost entry for %02x %02x\n", i1, i2); exit(1); } if (scanf(" 0x%x", &enc->charset2uni[row][col]) != 1) exit(1); } } else { /* Read a table of hexadecimal Unicode values. */ for (i1 = 32; i1 < 132; i1++) for (i2 = 32; i2 < 132; i2++) { i = scanf("%x", &j); if (i == EOF) goto read_done; if (i != 1) exit(1); if (j < 0 || j == 0xffff) j = 0xfffd; if (j != 0xfffd) { if (enc->byte_row(i1) < 0 || enc->byte_col(i2) < 0) { fprintf(stderr, "lost entry at %02x %02x\n", i1, i2); exit (1); } enc->charset2uni[enc->byte_row(i1)][enc->byte_col(i2)] = j; } } read_done: ; } } /* * Determine whether the Unicode range goes outside the BMP. */ static bool is_charset2uni_large (Encoding* enc) { int row, col; for (row = 0; row < enc->rows; row++) for (col = 0; col < enc->cols; col++) if (enc->charset2uni[row][col] >= 0x10000) return true; return false; } /* * Compactify the Unicode range by use of an auxiliary table, * so 16 bits suffice to store each value. */ static int compact_large_charset2uni (Encoding* enc, unsigned int **urows, unsigned int *urowshift) { unsigned int shift; for (shift = 8; ; shift--) { int *upages = (int *) malloc((0x110000>>shift) * sizeof(int)); int i, row, col, nurows; for (i = 0; i < 0x110000>>shift; i++) upages[i] = -1; for (row = 0; row < enc->rows; row++) for (col = 0; col < enc->cols; col++) upages[enc->charset2uni[row][col] >> shift] = 0; nurows = 0; for (i = 0; i < 0x110000>>shift; i++) if (upages[i] == 0) nurows++; /* We want all table entries to fit in an 'unsigned short'. */ if (nurows <= 1<<(16-shift)) { int** old_charset2uni; *urows = (unsigned int *) malloc(nurows * sizeof(unsigned int)); *urowshift = shift; nurows = 0; for (i = 0; i < 0x110000>>shift; i++) if (upages[i] == 0) { upages[i] = nurows; (*urows)[nurows] = i; nurows++; } old_charset2uni = enc->charset2uni; enc->charset2uni = (int**) malloc(enc->rows*sizeof(int*)); for (row = 0; row < enc->rows; row++) enc->charset2uni[row] = (int*) malloc(enc->cols*sizeof(int)); for (row = 0; row < enc->rows; row++) for (col = 0; col < enc->cols; col++) { int u = old_charset2uni[row][col]; enc->charset2uni[row][col] = (upages[u >> shift] << shift) | (u & ((1 << shift) - 1)); } enc->fffd = (upages[0xfffd >> shift] << shift) | (0xfffd & ((1 << shift) - 1)); return nurows; } } abort(); } /* * Computes the charsetpage[0..rows] array. */ static void find_charset2uni_pages (Encoding* enc) { int row, col; enc->charsetpage = (int*) malloc((enc->rows+1)*sizeof(int)); for (row = 0; row <= enc->rows; row++) enc->charsetpage[row] = 0; for (row = 0; row < enc->rows; row++) { int used = 0; for (col = 0; col < enc->cols; col++) if (enc->charset2uni[row][col] != enc->fffd) used = col+1; enc->charsetpage[row] = used; } } /* * Fills in nblocks and blocks. */ static void find_charset2uni_blocks (Encoding* enc) { int n, row, lastrow; enc->charsetblocks = (Block*) malloc(enc->rows*sizeof(Block)); n = 0; for (row = 0; row < enc->rows; row++) if (enc->charsetpage[row] > 0 && (row == 0 || enc->charsetpage[row-1] == 0)) { for (lastrow = row; enc->charsetpage[lastrow+1] > 0; lastrow++); enc->charsetblocks[n].start = row * enc->cols; enc->charsetblocks[n].end = lastrow * enc->cols + enc->charsetpage[lastrow]; n++; } enc->ncharsetblocks = n; } /* * Outputs the charset to unicode table and function. */ static void output_charset2uni (const char* name, Encoding* enc) { int nurows, row, col, lastrow, col_max, i, i1_min, i1_max; bool is_large; unsigned int* urows; unsigned int urowshift; Encoding tmpenc; is_large = is_charset2uni_large(enc); if (is_large) { /* Use a temporary copy of enc. */ tmpenc = *enc; enc = &tmpenc; nurows = compact_large_charset2uni(enc,&urows,&urowshift); } else { nurows = 0; urows = NULL; urowshift = 0; enc->fffd = 0xfffd; } find_charset2uni_pages(enc); find_charset2uni_blocks(enc); for (row = 0; row < enc->rows; row++) if (enc->charsetpage[row] > 0) { if (row == 0 || enc->charsetpage[row-1] == 0) { /* Start a new block. */ for (lastrow = row; enc->charsetpage[lastrow+1] > 0; lastrow++); printf("static const unsigned short %s_2uni_page%02x[%d] = {\n", name, enc->row_byte(row), (lastrow-row) * enc->cols + enc->charsetpage[lastrow]); } printf(" /""* 0x%02x *""/\n ", enc->row_byte(row)); col_max = (enc->charsetpage[row+1] > 0 ? enc->cols : enc->charsetpage[row]); for (col = 0; col < col_max; col++) { printf(" 0x%04x,", enc->charset2uni[row][col]); if ((col % 8) == 7 && (col+1 < col_max)) printf("\n "); } printf("\n"); if (enc->charsetpage[row+1] == 0) { /* End a block. */ printf("};\n"); } } printf("\n"); if (is_large) { printf("static const ucs4_t %s_2uni_upages[%d] = {\n ", name, nurows); for (i = 0; i < nurows; i++) { printf(" 0x%05x,", urows[i] << urowshift); if ((i % 8) == 7 && (i+1 < nurows)) printf("\n "); } printf("\n"); printf("};\n"); printf("\n"); } printf("static int\n"); printf("%s_mbtowc (conv_t conv, ucs4_t *pwc, const unsigned char *s, size_t n)\n", name); printf("{\n"); printf(" unsigned char c1 = s[0];\n"); printf(" if ("); for (i = 0; i < enc->ncharsetblocks; i++) { i1_min = enc->row_byte(enc->charsetblocks[i].start / enc->cols); i1_max = enc->row_byte((enc->charsetblocks[i].end-1) / enc->cols); if (i > 0) printf(" || "); if (i1_min == i1_max) printf("(c1 == 0x%02x)", i1_min); else printf("(c1 >= 0x%02x && c1 <= 0x%02x)", i1_min, i1_max); } printf(") {\n"); printf(" if (n >= 2) {\n"); printf(" unsigned char c2 = s[1];\n"); printf(" if ("); printf(enc->check_col_expr, "c2"); printf(") {\n"); printf(" unsigned int i = %d * (", enc->cols); printf(enc->byte_row_expr, "c1"); printf(") + ("); printf(enc->byte_col_expr, "c2"); printf(");\n"); printf(" %s wc = 0xfffd;\n", is_large ? "ucs4_t" : "unsigned short"); if (is_large) printf(" unsigned short swc;\n"); for (i = 0; i < enc->ncharsetblocks; i++) { printf(" "); if (i > 0) printf("} else "); if (i < enc->ncharsetblocks-1) printf("if (i < %d) ", enc->charsetblocks[i+1].start); printf("{\n"); printf(" if (i < %d)\n", enc->charsetblocks[i].end); printf(" %s = ", is_large ? "swc" : "wc"); printf("%s_2uni_page%02x[i", name, enc->row_byte(enc->charsetblocks[i].start / enc->cols)); if (enc->charsetblocks[i].start > 0) printf("-%d", enc->charsetblocks[i].start); printf("]"); if (is_large) printf(",\n wc = %s_2uni_upages[swc>>%d] | (swc & 0x%x)", name, urowshift, (1 << urowshift) - 1); printf(";\n"); } printf(" }\n"); printf(" if (wc != 0xfffd) {\n"); printf(" *pwc = %swc;\n", is_large ? "" : "(ucs4_t) "); printf(" return 2;\n"); printf(" }\n"); printf(" }\n"); printf(" return RET_ILSEQ;\n"); printf(" }\n"); printf(" return RET_TOOFEW(0);\n"); printf(" }\n"); printf(" return RET_ILSEQ;\n"); printf("}\n"); printf("\n"); } /* * Outputs the charset to unicode table and function. * (Suitable if the mapping function is well defined, i.e. has no holes, and * is monotonically increasing with small gaps only.) */ static void output_charset2uni_noholes_monotonic (const char* name, Encoding* enc) { int row, col, lastrow, r, col_max, i, i1_min, i1_max; /* Choose stepsize so that stepsize*steps_per_row >= enc->cols, and enc->charset2uni[row][col] - enc->charset2uni[row][col/stepsize*stepsize] is always < 0x100. */ int steps_per_row = 2; int stepsize = (enc->cols + steps_per_row-1) / steps_per_row; find_charset2uni_pages(enc); find_charset2uni_blocks(enc); for (row = 0; row < enc->rows; row++) if (enc->charsetpage[row] > 0) { if (row == 0 || enc->charsetpage[row-1] == 0) { /* Start a new block. */ for (lastrow = row; enc->charsetpage[lastrow+1] > 0; lastrow++); printf("static const unsigned short %s_2uni_main_page%02x[%d] = {\n ", name, enc->row_byte(row), steps_per_row*(lastrow-row+1)); for (r = row; r <= lastrow; r++) { for (i = 0; i < steps_per_row; i++) printf(" 0x%04x,", enc->charset2uni[r][i*stepsize]); if (((r-row) % 4) == 3 && (r < lastrow)) printf("\n "); } printf("\n"); printf("};\n"); printf("static const unsigned char %s_2uni_page%02x[%d] = {\n", name, enc->row_byte(row), (lastrow-row) * enc->cols + enc->charsetpage[lastrow]); } printf(" /""* 0x%02x *""/\n ", enc->row_byte(row)); col_max = (enc->charsetpage[row+1] > 0 ? enc->cols : enc->charsetpage[row]); for (col = 0; col < col_max; col++) { printf(" 0x%02x,", enc->charset2uni[row][col] - enc->charset2uni[row][col/stepsize*stepsize]); if ((col % 8) == 7 && (col+1 < col_max)) printf("\n "); } printf("\n"); if (enc->charsetpage[row+1] == 0) { /* End a block. */ printf("};\n"); } } printf("\n"); printf("static int\n"); printf("%s_mbtowc (conv_t conv, ucs4_t *pwc, const unsigned char *s, size_t n)\n", name); printf("{\n"); printf(" unsigned char c1 = s[0];\n"); printf(" if ("); for (i = 0; i < enc->ncharsetblocks; i++) { i1_min = enc->row_byte(enc->charsetblocks[i].start / enc->cols); i1_max = enc->row_byte((enc->charsetblocks[i].end-1) / enc->cols); if (i > 0) printf(" || "); if (i1_min == i1_max) printf("(c1 == 0x%02x)", i1_min); else printf("(c1 >= 0x%02x && c1 <= 0x%02x)", i1_min, i1_max); } printf(") {\n"); printf(" if (n >= 2) {\n"); printf(" unsigned char c2 = s[1];\n"); printf(" if ("); printf(enc->check_col_expr, "c2"); printf(") {\n"); printf(" unsigned int row = "); printf(enc->byte_row_expr, "c1"); printf(";\n"); printf(" unsigned int col = "); printf(enc->byte_col_expr, "c2"); printf(";\n"); printf(" unsigned int i = %d * row + col;\n", enc->cols); printf(" unsigned short wc = 0xfffd;\n"); for (i = 0; i < enc->ncharsetblocks; i++) { printf(" "); if (i > 0) printf("} else "); if (i < enc->ncharsetblocks-1) printf("if (i < %d) ", enc->charsetblocks[i+1].start); printf("{\n"); printf(" if (i < %d)\n", enc->charsetblocks[i].end); printf(" wc = %s_2uni_main_page%02x[%d*", name, enc->row_byte(enc->charsetblocks[i].start / enc->cols), steps_per_row); if (enc->charsetblocks[i].start > 0) printf("(row-%d)", enc->charsetblocks[i].start / enc->cols); else printf("row"); printf("+"); if (steps_per_row == 2) printf("(col>=%d?1:0)", stepsize); else printf("col/%d", stepsize); printf("] + %s_2uni_page%02x[i", name, enc->row_byte(enc->charsetblocks[i].start / enc->cols)); if (enc->charsetblocks[i].start > 0) printf("-%d", enc->charsetblocks[i].start); printf("];\n"); } printf(" }\n"); printf(" if (wc != 0xfffd) {\n"); printf(" *pwc = (ucs4_t) wc;\n"); printf(" return 2;\n"); printf(" }\n"); printf(" }\n"); printf(" return RET_ILSEQ;\n"); printf(" }\n"); printf(" return RET_TOOFEW(0);\n"); printf(" }\n"); printf(" return RET_ILSEQ;\n"); printf("}\n"); printf("\n"); } /* * Computes the uni2charset[0x0000..0x2ffff] array. */ static void invert (Encoding* enc) { int row, col, j; enc->uni2charset = (int*) malloc(0x30000*sizeof(int)); for (j = 0; j < 0x30000; j++) enc->uni2charset[j] = 0; for (row = 0; row < enc->rows; row++) for (col = 0; col < enc->cols; col++) { j = enc->charset2uni[row][col]; if (j != 0xfffd) enc->uni2charset[j] = 0x100 * enc->row_byte(row) + enc->col_byte(col); } } /* * Outputs the unicode to charset table and function, using a linear array. * (Suitable if the table is dense.) */ static void output_uni2charset_dense (const char* name, Encoding* enc) { /* Like in 8bit_tab_to_h.c */ bool pages[0x300]; int line[0x6000]; int tableno; struct { int minline; int maxline; int usecount; } tables[0x6000]; bool first; int row, col, j, p, j1, j2, t; for (p = 0; p < 0x300; p++) pages[p] = false; for (row = 0; row < enc->rows; row++) for (col = 0; col < enc->cols; col++) { j = enc->charset2uni[row][col]; if (j != 0xfffd) pages[j>>8] = true; } for (j1 = 0; j1 < 0x6000; j1++) { bool all_invalid = true; for (j2 = 0; j2 < 8; j2++) { j = 8*j1+j2; if (enc->uni2charset[j] != 0) all_invalid = false; } if (all_invalid) line[j1] = -1; else line[j1] = 0; } tableno = 0; for (j1 = 0; j1 < 0x6000; j1++) { if (line[j1] >= 0) { if (tableno > 0 && ((j1 > 0 && line[j1-1] == tableno-1) || ((tables[tableno-1].maxline >> 5) == (j1 >> 5) && j1 - tables[tableno-1].maxline <= 8))) { line[j1] = tableno-1; tables[tableno-1].maxline = j1; } else { tableno++; line[j1] = tableno-1; tables[tableno-1].minline = tables[tableno-1].maxline = j1; } } } for (t = 0; t < tableno; t++) { tables[t].usecount = 0; j1 = 8*tables[t].minline; j2 = 8*(tables[t].maxline+1); for (j = j1; j < j2; j++) if (enc->uni2charset[j] != 0) tables[t].usecount++; } { p = -1; for (t = 0; t < tableno; t++) if (tables[t].usecount > 1) { p = tables[t].minline >> 5; printf("static const unsigned short %s_page%02x[%d] = {\n", name, p, 8*(tables[t].maxline-tables[t].minline+1)); for (j1 = tables[t].minline; j1 <= tables[t].maxline; j1++) { if ((j1 % 0x20) == 0 && j1 > tables[t].minline) printf(" /* 0x%04x */\n", 8*j1); printf(" "); for (j2 = 0; j2 < 8; j2++) { j = 8*j1+j2; printf(" 0x%04x,", enc->uni2charset[j]); } printf(" /*0x%02x-0x%02x*/\n", 8*(j1 % 0x20), 8*(j1 % 0x20)+7); } printf("};\n"); } if (p >= 0) printf("\n"); } printf("static int\n%s_wctomb (conv_t conv, unsigned char *r, ucs4_t wc, size_t n)\n", name); printf("{\n"); printf(" if (n >= 2) {\n"); printf(" unsigned short c = 0;\n"); first = true; for (j1 = 0; j1 < 0x6000;) { t = line[j1]; for (j2 = j1; j2 < 0x6000 && line[j2] == t; j2++); if (t >= 0) { if (j1 != tables[t].minline) abort(); if (j2 > tables[t].maxline+1) abort(); j2 = tables[t].maxline+1; if (first) printf(" "); else printf(" else "); first = false; if (tables[t].usecount == 0) abort(); if (tables[t].usecount == 1) { if (j2 != j1+1) abort(); for (j = 8*j1; j < 8*j2; j++) if (enc->uni2charset[j] != 0) { printf("if (wc == 0x%04x)\n c = 0x%02x;\n", j, enc->uni2charset[j]); break; } } else { if (j1 == 0) { printf("if (wc < 0x%04x)", 8*j2); } else { printf("if (wc >= 0x%04x && wc < 0x%04x)", 8*j1, 8*j2); } printf("\n c = %s_page%02x[wc", name, j1 >> 5); if (tables[t].minline > 0) printf("-0x%04x", 8*j1); printf("];\n"); } } j1 = j2; } printf(" if (c != 0) {\n"); printf(" r[0] = (c >> 8); r[1] = (c & 0xff);\n"); printf(" return 2;\n"); printf(" }\n"); printf(" return RET_ILUNI;\n"); printf(" }\n"); printf(" return RET_TOOSMALL;\n"); printf("}\n"); } /* * Outputs the unicode to charset table and function, using a packed array. * (Suitable if the table is sparse.) * The argument 'monotonic' may be set to true if the mapping is monotonically * increasing with small gaps only. */ static void output_uni2charset_sparse (const char* name, Encoding* enc, bool monotonic) { bool pages[0x300]; Block pageblocks[0x300]; int npageblocks; int indx2charset[0x30000]; int summary_indx[0x3000]; int summary_used[0x3000]; int i, row, col, j, p, j1, j2, indx; bool is_large; /* for monotonic: */ int log2_stepsize = (!strcmp(name,"uhc_2") ? 6 : 7); int stepsize = 1 << log2_stepsize; int indxsteps; /* Fill pages[0x300]. */ for (p = 0; p < 0x300; p++) pages[p] = false; for (row = 0; row < enc->rows; row++) for (col = 0; col < enc->cols; col++) { j = enc->charset2uni[row][col]; if (j != 0xfffd) pages[j>>8] = true; } /* Determine whether two or three bytes are needed for each character. */ is_large = false; for (j = 0; j < 0x30000; j++) if (enc->uni2charset[j] >= 0x10000) is_large = true; #if 0 for (p = 0; p < 0x300; p++) if (pages[p]) { printf("static const unsigned short %s_page%02x[256] = {\n", name, p); for (j1 = 0; j1 < 32; j1++) { printf(" "); for (j2 = 0; j2 < 8; j2++) printf("0x%04x, ", enc->uni2charset[256*p+8*j1+j2]); printf("/""*0x%02x-0x%02x*""/\n", 8*j1, 8*j1+7); } printf("};\n"); } printf("\n"); #endif /* Fill summary_indx[] and summary_used[]. */ indx = 0; for (j1 = 0; j1 < 0x3000; j1++) { summary_indx[j1] = indx; summary_used[j1] = 0; for (j2 = 0; j2 < 16; j2++) { j = 16*j1+j2; if (enc->uni2charset[j] != 0) { indx2charset[indx++] = enc->uni2charset[j]; summary_used[j1] |= (1 << j2); } } } /* Fill npageblocks and pageblocks[]. */ npageblocks = 0; for (p = 0; p < 0x300; ) { if (pages[p] && (p == 0 || !pages[p-1])) { pageblocks[npageblocks].start = 16*p; do p++; while (p < 0x300 && pages[p]); j1 = 16*p; while (summary_used[j1-1] == 0) j1--; pageblocks[npageblocks].end = j1; npageblocks++; } else p++; } if (monotonic) { indxsteps = (indx + stepsize-1) / stepsize; printf("static const unsigned short %s_2charset_main[%d] = {\n", name, indxsteps); for (i = 0; i < indxsteps; ) { if ((i % 8) == 0) printf(" "); printf(" 0x%04x,", indx2charset[i*stepsize]); i++; if ((i % 8) == 0 || i == indxsteps) printf("\n"); } printf("};\n"); printf("static const unsigned char %s_2charset[%d] = {\n", name, indx); for (i = 0; i < indx; ) { if ((i % 8) == 0) printf(" "); printf(" 0x%02x,", indx2charset[i] - indx2charset[i/stepsize*stepsize]); i++; if ((i % 8) == 0 || i == indx) printf("\n"); } printf("};\n"); } else { if (is_large) { printf("static const unsigned char %s_2charset[3*%d] = {\n", name, indx); for (i = 0; i < indx; ) { if ((i % 4) == 0) printf(" "); printf(" 0x%1x,0x%02x,0x%02x,", indx2charset[i] >> 16, (indx2charset[i] >> 8) & 0xff, indx2charset[i] & 0xff); i++; if ((i % 4) == 0 || i == indx) printf("\n"); } printf("};\n"); } else { printf("static const unsigned short %s_2charset[%d] = {\n", name, indx); for (i = 0; i < indx; ) { if ((i % 8) == 0) printf(" "); printf(" 0x%04x,", indx2charset[i]); i++; if ((i % 8) == 0 || i == indx) printf("\n"); } printf("};\n"); } } printf("\n"); for (i = 0; i < npageblocks; i++) { printf("static const Summary16 %s_uni2indx_page%02x[%d] = {\n", name, pageblocks[i].start/16, pageblocks[i].end-pageblocks[i].start); for (j1 = pageblocks[i].start; j1 < pageblocks[i].end; ) { if (((16*j1) % 0x100) == 0) printf(" /""* 0x%04x *""/\n", 16*j1); if ((j1 % 4) == 0) printf(" "); printf(" { %4d, 0x%04x },", summary_indx[j1], summary_used[j1]); j1++; if ((j1 % 4) == 0 || j1 == pageblocks[i].end) printf("\n"); } printf("};\n"); } printf("\n"); printf("static int\n"); printf("%s_wctomb (conv_t conv, unsigned char *r, ucs4_t wc, size_t n)\n", name); printf("{\n"); printf(" if (n >= 2) {\n"); printf(" const Summary16 *summary = NULL;\n"); for (i = 0; i < npageblocks; i++) { printf(" "); if (i > 0) printf("else "); printf("if (wc >= 0x%04x && wc < 0x%04x)\n", 16*pageblocks[i].start, 16*pageblocks[i].end); printf(" summary = &%s_uni2indx_page%02x[(wc>>4)", name, pageblocks[i].start/16); if (pageblocks[i].start > 0) printf("-0x%03x", pageblocks[i].start); printf("];\n"); } printf(" if (summary) {\n"); printf(" unsigned short used = summary->used;\n"); printf(" unsigned int i = wc & 0x0f;\n"); printf(" if (used & ((unsigned short) 1 << i)) {\n"); if (monotonic || !is_large) printf(" unsigned short c;\n"); printf(" /* Keep in 'used' only the bits 0..i-1. */\n"); printf(" used &= ((unsigned short) 1 << i) - 1;\n"); printf(" /* Add 'summary->indx' and the number of bits set in 'used'. */\n"); printf(" used = (used & 0x5555) + ((used & 0xaaaa) >> 1);\n"); printf(" used = (used & 0x3333) + ((used & 0xcccc) >> 2);\n"); printf(" used = (used & 0x0f0f) + ((used & 0xf0f0) >> 4);\n"); printf(" used = (used & 0x00ff) + (used >> 8);\n"); if (monotonic) { printf(" used += summary->indx;\n"); printf(" c = %s_2charset_main[used>>%d] + %s_2charset[used];\n", name, log2_stepsize, name); printf(" r[0] = (c >> 8); r[1] = (c & 0xff);\n"); printf(" return 2;\n"); } else { if (is_large) { printf(" used += summary->indx;\n"); printf(" r[0] = %s_2charset[3*used];\n", name); printf(" r[1] = %s_2charset[3*used+1];\n", name); printf(" r[2] = %s_2charset[3*used+2];\n", name); printf(" return 3;\n"); } else { printf(" c = %s_2charset[summary->indx + used];\n", name); printf(" r[0] = (c >> 8); r[1] = (c & 0xff);\n"); printf(" return 2;\n"); } } printf(" }\n"); printf(" }\n"); printf(" return RET_ILUNI;\n"); printf(" }\n"); printf(" return RET_TOOSMALL;\n"); printf("}\n"); } /* ISO-2022/EUC specifics */ static int row_byte_normal (int row) { return 0x21+row; } static int col_byte_normal (int col) { return 0x21+col; } static int byte_row_normal (int byte) { return byte-0x21; } static int byte_col_normal (int byte) { return byte-0x21; } static void do_normal (const char* name) { Encoding enc; enc.rows = 94; enc.cols = 94; enc.row_byte = row_byte_normal; enc.col_byte = col_byte_normal; enc.byte_row = byte_row_normal; enc.byte_col = byte_col_normal; enc.check_row_expr = "%1$s >= 0x21 && %1$s < 0x7f"; enc.check_col_expr = "%1$s >= 0x21 && %1$s < 0x7f"; enc.byte_row_expr = "%1$s - 0x21"; enc.byte_col_expr = "%1$s - 0x21"; read_table(&enc); output_charset2uni(name,&enc); invert(&enc); output_uni2charset_sparse(name,&enc,false); } /* Note: On first sight, the jisx0212_2charset[] table seems to be in order, starting from the charset=0x3021/uni=0x4e02 pair. But it's only mostly in order. There are 75 out-of-order values, scattered all throughout the table. */ static void do_normal_only_charset2uni (const char* name) { Encoding enc; enc.rows = 94; enc.cols = 94; enc.row_byte = row_byte_normal; enc.col_byte = col_byte_normal; enc.byte_row = byte_row_normal; enc.byte_col = byte_col_normal; enc.check_row_expr = "%1$s >= 0x21 && %1$s < 0x7f"; enc.check_col_expr = "%1$s >= 0x21 && %1$s < 0x7f"; enc.byte_row_expr = "%1$s - 0x21"; enc.byte_col_expr = "%1$s - 0x21"; read_table(&enc); output_charset2uni(name,&enc); } /* CNS 11643 specifics - trick to put two tables into one */ static int row_byte_cns11643 (int row) { return 0x100 * (row / 94) + (row % 94) + 0x21; } static int byte_row_cns11643 (int byte) { return (byte >> 8) * 94 + (byte & 0xff) - 0x21; } static void do_cns11643_only_uni2charset (const char* name) { Encoding enc; enc.rows = 16*94; enc.cols = 94; enc.row_byte = row_byte_cns11643; enc.col_byte = col_byte_normal; enc.byte_row = byte_row_cns11643; enc.byte_col = byte_col_normal; enc.check_row_expr = "%1$s >= 0x21 && %1$s < 0x7f"; enc.check_col_expr = "%1$s >= 0x21 && %1$s < 0x7f"; enc.byte_row_expr = "%1$s - 0x21"; enc.byte_col_expr = "%1$s - 0x21"; read_table(&enc); invert(&enc); output_uni2charset_sparse(name,&enc,false); } /* GBK specifics */ static int row_byte_gbk1 (int row) { return 0x81+row; } static int col_byte_gbk1 (int col) { return (col >= 0x3f ? 0x41 : 0x40) + col; } static int byte_row_gbk1 (int byte) { if (byte >= 0x81 && byte < 0xff) return byte-0x81; else return -1; } static int byte_col_gbk1 (int byte) { if (byte >= 0x40 && byte < 0x7f) return byte-0x40; else if (byte >= 0x80 && byte < 0xff) return byte-0x41; else return -1; } static void do_gbk1 (const char* name) { Encoding enc; enc.rows = 126; enc.cols = 190; enc.row_byte = row_byte_gbk1; enc.col_byte = col_byte_gbk1; enc.byte_row = byte_row_gbk1; enc.byte_col = byte_col_gbk1; enc.check_row_expr = "%1$s >= 0x81 && %1$s < 0xff"; enc.check_col_expr = "(%1$s >= 0x40 && %1$s < 0x7f) || (%1$s >= 0x80 && %1$s < 0xff)"; enc.byte_row_expr = "%1$s - 0x81"; enc.byte_col_expr = "%1$s - (%1$s >= 0x80 ? 0x41 : 0x40)"; read_table(&enc); output_charset2uni(name,&enc); invert(&enc); output_uni2charset_dense(name,&enc); } static void do_gbk1_only_charset2uni (const char* name) { Encoding enc; enc.rows = 126; enc.cols = 190; enc.row_byte = row_byte_gbk1; enc.col_byte = col_byte_gbk1; enc.byte_row = byte_row_gbk1; enc.byte_col = byte_col_gbk1; enc.check_row_expr = "%1$s >= 0x81 && %1$s < 0xff"; enc.check_col_expr = "(%1$s >= 0x40 && %1$s < 0x7f) || (%1$s >= 0x80 && %1$s < 0xff)"; enc.byte_row_expr = "%1$s - 0x81"; enc.byte_col_expr = "%1$s - (%1$s >= 0x80 ? 0x41 : 0x40)"; read_table(&enc); output_charset2uni(name,&enc); } static int row_byte_gbk2 (int row) { return 0x81+row; } static int col_byte_gbk2 (int col) { return (col >= 0x3f ? 0x41 : 0x40) + col; } static int byte_row_gbk2 (int byte) { if (byte >= 0x81 && byte < 0xff) return byte-0x81; else return -1; } static int byte_col_gbk2 (int byte) { if (byte >= 0x40 && byte < 0x7f) return byte-0x40; else if (byte >= 0x80 && byte < 0xa1) return byte-0x41; else return -1; } static void do_gbk2_only_charset2uni (const char* name) { Encoding enc; enc.rows = 126; enc.cols = 96; enc.row_byte = row_byte_gbk2; enc.col_byte = col_byte_gbk2; enc.byte_row = byte_row_gbk2; enc.byte_col = byte_col_gbk2; enc.check_row_expr = "%1$s >= 0x81 && %1$s < 0xff"; enc.check_col_expr = "(%1$s >= 0x40 && %1$s < 0x7f) || (%1$s >= 0x80 && %1$s < 0xa1)"; enc.byte_row_expr = "%1$s - 0x81"; enc.byte_col_expr = "%1$s - (%1$s >= 0x80 ? 0x41 : 0x40)"; read_table(&enc); output_charset2uni(name,&enc); } static void do_gbk1_only_uni2charset (const char* name) { Encoding enc; enc.rows = 126; enc.cols = 190; enc.row_byte = row_byte_gbk1; enc.col_byte = col_byte_gbk1; enc.byte_row = byte_row_gbk1; enc.byte_col = byte_col_gbk1; enc.check_row_expr = "%1$s >= 0x81 && %1$s < 0xff"; enc.check_col_expr = "(%1$s >= 0x40 && %1$s < 0x7f) || (%1$s >= 0x80 && %1$s < 0xff)"; enc.byte_row_expr = "%1$s - 0x81"; enc.byte_col_expr = "%1$s - (%1$s >= 0x80 ? 0x41 : 0x40)"; read_table(&enc); invert(&enc); output_uni2charset_sparse(name,&enc,false); } /* KSC 5601 specifics */ /* * Reads the charset2uni table from standard input. */ static void read_table_ksc5601 (Encoding* enc) { int row, col, i, i1, i2, c, j; enc->charset2uni = (int**) malloc(enc->rows*sizeof(int*)); for (row = 0; row < enc->rows; row++) enc->charset2uni[row] = (int*) malloc(enc->cols*sizeof(int)); for (row = 0; row < enc->rows; row++) for (col = 0; col < enc->cols; col++) enc->charset2uni[row][col] = 0xfffd; c = getc(stdin); ungetc(c,stdin); if (c == '#') { /* Read a unicode.org style .TXT file. */ for (;;) { c = getc(stdin); if (c == EOF) break; if (c == '\n' || c == ' ' || c == '\t') continue; if (c == '#') { do { c = getc(stdin); } while (!(c == EOF || c == '\n')); continue; } ungetc(c,stdin); if (scanf("0x%x", &j) != 1) exit(1); i1 = j >> 8; i2 = j & 0xff; if (scanf(" 0x%x", &j) != 1) exit(1); /* Take only the range covered by KS C 5601.1987-0 = KS C 5601.1989-0 = KS X 1001.1992, ignore the rest. */ if (!(i1 >= 128+33 && i1 < 128+127 && i2 >= 128+33 && i2 < 128+127)) continue; /* KSC5601 specific */ i1 &= 0x7f; /* KSC5601 specific */ i2 &= 0x7f; /* KSC5601 specific */ row = enc->byte_row(i1); col = enc->byte_col(i2); if (row < 0 || col < 0) { fprintf(stderr, "lost entry for %02x %02x\n", i1, i2); exit(1); } enc->charset2uni[row][col] = j; } } else { /* Read a table of hexadecimal Unicode values. */ for (i1 = 33; i1 < 127; i1++) for (i2 = 33; i2 < 127; i2++) { i = scanf("%x", &j); if (i == EOF) goto read_done; if (i != 1) exit(1); if (j < 0 || j == 0xffff) j = 0xfffd; if (j != 0xfffd) { if (enc->byte_row(i1) < 0 || enc->byte_col(i2) < 0) { fprintf(stderr, "lost entry at %02x %02x\n", i1, i2); exit (1); } enc->charset2uni[enc->byte_row(i1)][enc->byte_col(i2)] = j; } } read_done: ; } } static void do_ksc5601 (const char* name) { Encoding enc; enc.rows = 94; enc.cols = 94; enc.row_byte = row_byte_normal; enc.col_byte = col_byte_normal; enc.byte_row = byte_row_normal; enc.byte_col = byte_col_normal; enc.check_row_expr = "%1$s >= 0x21 && %1$s < 0x7f"; enc.check_col_expr = "%1$s >= 0x21 && %1$s < 0x7f"; enc.byte_row_expr = "%1$s - 0x21"; enc.byte_col_expr = "%1$s - 0x21"; read_table_ksc5601(&enc); output_charset2uni(name,&enc); invert(&enc); output_uni2charset_sparse(name,&enc,false); } /* UHC specifics */ /* UHC part 1: 0x{81..A0}{41..5A,61..7A,81..FE} */ static int row_byte_uhc_1 (int row) { return 0x81 + row; } static int col_byte_uhc_1 (int col) { return (col >= 0x34 ? 0x4d : col >= 0x1a ? 0x47 : 0x41) + col; } static int byte_row_uhc_1 (int byte) { if (byte >= 0x81 && byte < 0xa1) return byte-0x81; else return -1; } static int byte_col_uhc_1 (int byte) { if (byte >= 0x41 && byte < 0x5b) return byte-0x41; else if (byte >= 0x61 && byte < 0x7b) return byte-0x47; else if (byte >= 0x81 && byte < 0xff) return byte-0x4d; else return -1; } static void do_uhc_1 (const char* name) { Encoding enc; enc.rows = 32; enc.cols = 178; enc.row_byte = row_byte_uhc_1; enc.col_byte = col_byte_uhc_1; enc.byte_row = byte_row_uhc_1; enc.byte_col = byte_col_uhc_1; enc.check_row_expr = "(%1$s >= 0x81 && %1$s < 0xa1)"; enc.check_col_expr = "(%1$s >= 0x41 && %1$s < 0x5b) || (%1$s >= 0x61 && %1$s < 0x7b) || (%1$s >= 0x81 && %1$s < 0xff)"; enc.byte_row_expr = "%1$s - 0x81"; enc.byte_col_expr = "%1$s - (%1$s >= 0x81 ? 0x4d : %1$s >= 0x61 ? 0x47 : 0x41)"; read_table(&enc); output_charset2uni_noholes_monotonic(name,&enc); invert(&enc); output_uni2charset_sparse(name,&enc,true); } /* UHC part 2: 0x{A1..C6}{41..5A,61..7A,81..A0} */ static int row_byte_uhc_2 (int row) { return 0xa1 + row; } static int col_byte_uhc_2 (int col) { return (col >= 0x34 ? 0x4d : col >= 0x1a ? 0x47 : 0x41) + col; } static int byte_row_uhc_2 (int byte) { if (byte >= 0xa1 && byte < 0xff) return byte-0xa1; else return -1; } static int byte_col_uhc_2 (int byte) { if (byte >= 0x41 && byte < 0x5b) return byte-0x41; else if (byte >= 0x61 && byte < 0x7b) return byte-0x47; else if (byte >= 0x81 && byte < 0xa1) return byte-0x4d; else return -1; } static void do_uhc_2 (const char* name) { Encoding enc; enc.rows = 94; enc.cols = 84; enc.row_byte = row_byte_uhc_2; enc.col_byte = col_byte_uhc_2; enc.byte_row = byte_row_uhc_2; enc.byte_col = byte_col_uhc_2; enc.check_row_expr = "(%1$s >= 0xa1 && %1$s < 0xff)"; enc.check_col_expr = "(%1$s >= 0x41 && %1$s < 0x5b) || (%1$s >= 0x61 && %1$s < 0x7b) || (%1$s >= 0x81 && %1$s < 0xa1)"; enc.byte_row_expr = "%1$s - 0xa1"; enc.byte_col_expr = "%1$s - (%1$s >= 0x81 ? 0x4d : %1$s >= 0x61 ? 0x47 : 0x41)"; read_table(&enc); output_charset2uni_noholes_monotonic(name,&enc); invert(&enc); output_uni2charset_sparse(name,&enc,true); } /* Big5 specifics */ static int row_byte_big5 (int row) { return 0xa1+row; } static int col_byte_big5 (int col) { return (col >= 0x3f ? 0x62 : 0x40) + col; } static int byte_row_big5 (int byte) { if (byte >= 0xa1 && byte < 0xff) return byte-0xa1; else return -1; } static int byte_col_big5 (int byte) { if (byte >= 0x40 && byte < 0x7f) return byte-0x40; else if (byte >= 0xa1 && byte < 0xff) return byte-0x62; else return -1; } static void do_big5 (const char* name) { Encoding enc; enc.rows = 94; enc.cols = 157; enc.row_byte = row_byte_big5; enc.col_byte = col_byte_big5; enc.byte_row = byte_row_big5; enc.byte_col = byte_col_big5; enc.check_row_expr = "%1$s >= 0xa1 && %1$s < 0xff"; enc.check_col_expr = "(%1$s >= 0x40 && %1$s < 0x7f) || (%1$s >= 0xa1 && %1$s < 0xff)"; enc.byte_row_expr = "%1$s - 0xa1"; enc.byte_col_expr = "%1$s - (%1$s >= 0xa1 ? 0x62 : 0x40)"; read_table(&enc); output_charset2uni(name,&enc); invert(&enc); output_uni2charset_sparse(name,&enc,false); } /* HKSCS specifics */ static int row_byte_hkscs (int row) { return 0x80+row; } static int byte_row_hkscs (int byte) { if (byte >= 0x80 && byte < 0xff) return byte-0x80; else return -1; } static void do_hkscs (const char* name) { Encoding enc; enc.rows = 128; enc.cols = 157; enc.row_byte = row_byte_hkscs; enc.col_byte = col_byte_big5; enc.byte_row = byte_row_hkscs; enc.byte_col = byte_col_big5; enc.check_row_expr = "%1$s >= 0x80 && %1$s < 0xff"; enc.check_col_expr = "(%1$s >= 0x40 && %1$s < 0x7f) || (%1$s >= 0xa1 && %1$s < 0xff)"; enc.byte_row_expr = "%1$s - 0x80"; enc.byte_col_expr = "%1$s - (%1$s >= 0xa1 ? 0x62 : 0x40)"; read_table(&enc); output_charset2uni(name,&enc); invert(&enc); output_uni2charset_sparse(name,&enc,false); } /* Johab Hangul specifics */ static int row_byte_johab_hangul (int row) { return 0x84+row; } static int col_byte_johab_hangul (int col) { return (col >= 0x3e ? 0x43 : 0x41) + col; } static int byte_row_johab_hangul (int byte) { if (byte >= 0x84 && byte < 0xd4) return byte-0x84; else return -1; } static int byte_col_johab_hangul (int byte) { if (byte >= 0x41 && byte < 0x7f) return byte-0x41; else if (byte >= 0x81 && byte < 0xff) return byte-0x43; else return -1; } static void do_johab_hangul (const char* name) { Encoding enc; enc.rows = 80; enc.cols = 188; enc.row_byte = row_byte_johab_hangul; enc.col_byte = col_byte_johab_hangul; enc.byte_row = byte_row_johab_hangul; enc.byte_col = byte_col_johab_hangul; enc.check_row_expr = "%1$s >= 0x84 && %1$s < 0xd4"; enc.check_col_expr = "(%1$s >= 0x41 && %1$s < 0x7f) || (%1$s >= 0x81 && %1$s < 0xff)"; enc.byte_row_expr = "%1$s - 0x84"; enc.byte_col_expr = "%1$s - (%1$s >= 0x81 ? 0x43 : 0x41)"; read_table(&enc); output_charset2uni(name,&enc); invert(&enc); output_uni2charset_dense(name,&enc); } /* SJIS specifics */ static int row_byte_sjis (int row) { return (row >= 0x1f ? 0xc1 : 0x81) + row; } static int col_byte_sjis (int col) { return (col >= 0x3f ? 0x41 : 0x40) + col; } static int byte_row_sjis (int byte) { if (byte >= 0x81 && byte < 0xa0) return byte-0x81; else if (byte >= 0xe0) return byte-0xc1; else return -1; } static int byte_col_sjis (int byte) { if (byte >= 0x40 && byte < 0x7f) return byte-0x40; else if (byte >= 0x80 && byte < 0xfd) return byte-0x41; else return -1; } static void do_sjis (const char* name) { Encoding enc; enc.rows = 94; enc.cols = 188; enc.row_byte = row_byte_sjis; enc.col_byte = col_byte_sjis; enc.byte_row = byte_row_sjis; enc.byte_col = byte_col_sjis; enc.check_row_expr = "(%1$s >= 0x81 && %1$s < 0xa0) || (%1$s >= 0xe0)"; enc.check_col_expr = "(%1$s >= 0x40 && %1$s < 0x7f) || (%1$s >= 0x80 && %1$s < 0xfd)"; enc.byte_row_expr = "%1$s - (%1$s >= 0xe0 ? 0xc1 : 0x81)"; enc.byte_col_expr = "%1$s - (%1$s >= 0x80 ? 0x41 : 0x40)"; read_table(&enc); output_charset2uni(name,&enc); invert(&enc); output_uni2charset_sparse(name,&enc,false); } /* GB18030 Unicode specifics */ static void do_gb18030uni (const char* name) { int c; unsigned int bytes; int i1, i2, i3, i4, i, j, k; int charset2uni[4*10*126*10]; int uni2charset[0x10000]; struct { int low; int high; int diff; int total; } ranges[256]; int ranges_count, ranges_total; for (i = 0; i < 4*10*126*10; i++) charset2uni[i] = 0; for (j = 0; j < 0x10000; j++) uni2charset[j] = 0; /* Read a unicode.org style .TXT file. */ for (;;) { c = getc(stdin); if (c == EOF) break; if (c == '\n' || c == ' ' || c == '\t') continue; if (c == '#') { do { c = getc(stdin); } while (!(c == EOF || c == '\n')); continue; } ungetc(c,stdin); if (scanf("0x%x", &bytes) != 1) exit(1); i1 = (bytes >> 24) & 0xff; i2 = (bytes >> 16) & 0xff; i3 = (bytes >> 8) & 0xff; i4 = bytes & 0xff; if (!(i1 >= 0x81 && i1 <= 0x84 && i2 >= 0x30 && i2 <= 0x39 && i3 >= 0x81 && i3 <= 0xfe && i4 >= 0x30 && i4 <= 0x39)) { fprintf(stderr, "lost entry for %02x %02x %02x %02x\n", i1, i2, i3, i4); exit(1); } i = (((i1-0x81) * 10 + (i2-0x30)) * 126 + (i3-0x81)) * 10 + (i4-0x30); if (scanf(" 0x%x", &j) != 1) exit(1); if (!(j >= 0 && j < 0x10000)) exit(1); charset2uni[i] = j; uni2charset[j] = i; } /* Verify that the mapping i -> j is monotonically increasing and of the form low[k] <= i <= high[k] => j = diff[k] + i with a set of disjoint intervals (low[k], high[k]). */ ranges_count = 0; for (i = 0; i < 4*10*126*10; i++) if (charset2uni[i] != 0) { int diff; j = charset2uni[i]; diff = j - i; if (ranges_count > 0) { if (!(i > ranges[ranges_count-1].high)) exit(1); if (!(j > ranges[ranges_count-1].high + ranges[ranges_count-1].diff)) exit(1); /* Additional property: The diffs are also increasing. */ if (!(diff >= ranges[ranges_count-1].diff)) exit(1); } if (ranges_count > 0 && diff == ranges[ranges_count-1].diff) ranges[ranges_count-1].high = i; else { if (ranges_count == 256) exit(1); ranges[ranges_count].low = i; ranges[ranges_count].high = i; ranges[ranges_count].diff = diff; ranges_count++; } } /* Determine size of bitmap. */ ranges_total = 0; for (k = 0; k < ranges_count; k++) { ranges[k].total = ranges_total; ranges_total += ranges[k].high - ranges[k].low + 1; } printf("static const unsigned short %s_charset2uni_ranges[%d] = {\n", name, 2*ranges_count); for (k = 0; k < ranges_count; k++) { printf(" 0x%04x, 0x%04x", ranges[k].low, ranges[k].high); if (k+1 < ranges_count) printf(","); if ((k % 4) == 3 && k+1 < ranges_count) printf("\n"); } printf("\n"); printf("};\n"); printf("\n"); printf("static const unsigned short %s_uni2charset_ranges[%d] = {\n", name, 2*ranges_count); for (k = 0; k < ranges_count; k++) { printf(" 0x%04x, 0x%04x", ranges[k].low + ranges[k].diff, ranges[k].high + ranges[k].diff); if (k+1 < ranges_count) printf(","); if ((k % 4) == 3 && k+1 < ranges_count) printf("\n"); } printf("\n"); printf("};\n"); printf("\n"); printf("static const struct { unsigned short diff; unsigned short bitmap_offset; } %s_ranges[%d] = {\n ", name, ranges_count); for (k = 0; k < ranges_count; k++) { printf(" { %5d, 0x%04x }", ranges[k].diff, ranges[k].total); if (k+1 < ranges_count) printf(","); if ((k % 4) == 3 && k+1 < ranges_count) printf("\n "); } printf("\n"); printf("};\n"); printf("\n"); printf("static const unsigned char %s_bitmap[%d] = {\n ", name, (ranges_total + 7) / 8); { int accu = 0; for (k = 0; k < ranges_count; k++) { for (i = ranges[k].total; i <= ranges[k].total + (ranges[k].high - ranges[k].low);) { if (charset2uni[i - ranges[k].total + ranges[k].low] != 0) accu |= (1 << (i % 8)); i++; if ((i % 8) == 0) { printf(" 0x%02x", accu); if ((i / 8) < (ranges_total + 7) / 8) printf(","); if (((i / 8) % 12) == 0) printf("\n "); accu = 0; } } if (i != (k+1 < ranges_count ? ranges[k+1].total : ranges_total)) abort(); } if ((ranges_total % 8) != 0) printf(" 0x%02x", accu); printf("\n"); } printf("};\n"); printf("\n"); printf("static int\n"); printf("%s_mbtowc (conv_t conv, ucs4_t *pwc, const unsigned char *s, size_t n)\n", name); printf("{\n"); printf(" unsigned char c1 = s[0];\n"); printf(" if (c1 >= 0x81 && c1 <= 0x84) {\n"); printf(" if (n >= 2) {\n"); printf(" unsigned char c2 = s[1];\n"); printf(" if (c2 >= 0x30 && c2 <= 0x39) {\n"); printf(" if (n >= 3) {\n"); printf(" unsigned char c3 = s[2];\n"); printf(" if (c3 >= 0x81 && c3 <= 0xfe) {\n"); printf(" if (n >= 4) {\n"); printf(" unsigned char c4 = s[3];\n"); printf(" if (c4 >= 0x30 && c4 <= 0x39) {\n"); printf(" unsigned int i = (((c1 - 0x81) * 10 + (c2 - 0x30)) * 126 + (c3 - 0x81)) * 10 + (c4 - 0x30);\n"); printf(" if (i >= %d && i <= %d) {\n", ranges[0].low, ranges[ranges_count-1].high); printf(" unsigned int k1 = 0;\n"); printf(" unsigned int k2 = %d;\n", ranges_count-1); printf(" while (k1 < k2) {\n"); printf(" unsigned int k = (k1 + k2) / 2;\n"); printf(" if (i <= %s_charset2uni_ranges[2*k+1])\n", name); printf(" k2 = k;\n"); printf(" else if (i >= %s_charset2uni_ranges[2*k+2])\n", name); printf(" k1 = k + 1;\n"); printf(" else\n"); printf(" return RET_ILSEQ;\n"); printf(" }\n"); printf(" {\n"); printf(" unsigned int bitmap_index = i - %s_charset2uni_ranges[2*k1] + %s_ranges[k1].bitmap_offset;\n", name, name); printf(" if ((%s_bitmap[bitmap_index >> 3] >> (bitmap_index & 7)) & 1) {\n", name); printf(" unsigned int diff = %s_ranges[k1].diff;\n", name); printf(" *pwc = (ucs4_t) (i + diff);\n"); printf(" return 4;\n"); printf(" }\n"); printf(" }\n"); printf(" }\n"); printf(" }\n"); printf(" return RET_ILSEQ;\n"); printf(" }\n"); printf(" return RET_TOOFEW(0);\n"); printf(" }\n"); printf(" return RET_ILSEQ;\n"); printf(" }\n"); printf(" return RET_TOOFEW(0);\n"); printf(" }\n"); printf(" return RET_ILSEQ;\n"); printf(" }\n"); printf(" return RET_TOOFEW(0);\n"); printf(" }\n"); printf(" return RET_ILSEQ;\n"); printf("}\n"); printf("\n"); printf("static int\n"); printf("%s_wctomb (conv_t conv, unsigned char *r, ucs4_t wc, size_t n)\n", name); printf("{\n"); printf(" if (n >= 4) {\n"); printf(" unsigned int i = wc;\n"); printf(" if (i >= 0x%04x && i <= 0x%04x) {\n", ranges[0].low + ranges[0].diff, ranges[ranges_count-1].high + ranges[ranges_count-1].diff); printf(" unsigned int k1 = 0;\n"); printf(" unsigned int k2 = %d;\n", ranges_count-1); printf(" while (k1 < k2) {\n"); printf(" unsigned int k = (k1 + k2) / 2;\n"); printf(" if (i <= %s_uni2charset_ranges[2*k+1])\n", name); printf(" k2 = k;\n"); printf(" else if (i >= %s_uni2charset_ranges[2*k+2])\n", name); printf(" k1 = k + 1;\n"); printf(" else\n"); printf(" return RET_ILUNI;\n"); printf(" }\n"); printf(" {\n"); printf(" unsigned int bitmap_index = i - %s_uni2charset_ranges[2*k1] + %s_ranges[k1].bitmap_offset;\n", name, name); printf(" if ((%s_bitmap[bitmap_index >> 3] >> (bitmap_index & 7)) & 1) {\n", name); printf(" unsigned int diff = %s_ranges[k1].diff;\n", name); printf(" i -= diff;\n"); printf(" r[3] = (i %% 10) + 0x30; i = i / 10;\n"); printf(" r[2] = (i %% 126) + 0x81; i = i / 126;\n"); printf(" r[1] = (i %% 10) + 0x30; i = i / 10;\n"); printf(" r[0] = i + 0x81;\n"); printf(" return 4;\n"); printf(" }\n"); printf(" }\n"); printf(" }\n"); printf(" return RET_ILUNI;\n"); printf(" }\n"); printf(" return RET_TOOSMALL;\n"); printf("}\n"); } /* JISX0213 specifics */ static void do_jisx0213 (const char* name) { printf("#ifndef _JISX0213_H\n"); printf("#define _JISX0213_H\n"); printf("\n"); printf("/* JISX0213 plane 1 (= ISO-IR-233) characters are in the range\n"); printf(" 0x{21..7E}{21..7E}.\n"); printf(" JISX0213 plane 2 (= ISO-IR-229) characters are in the range\n"); printf(" 0x{21,23..25,28,2C..2F,6E..7E}{21..7E}.\n"); printf(" Together this makes 120 rows of 94 characters.\n"); printf("*/\n"); printf("\n"); { #define row_convert(row) \ ((row) >= 0x121 && (row) <= 0x17E ? row-289 : /* 0..93 */ \ (row) == 0x221 ? row-451 : /* 94 */ \ (row) >= 0x223 && (row) <= 0x225 ? row-452 : /* 95..97 */ \ (row) == 0x228 ? row-454 : /* 98 */ \ (row) >= 0x22C && (row) <= 0x22F ? row-457 : /* 99..102 */ \ (row) >= 0x26E && (row) <= 0x27E ? row-519 : /* 103..119 */ \ -1) unsigned int table[120][94]; int pagemin[0x1100]; int pagemax[0x1100]; int pageidx[0x1100]; unsigned int pagestart[0x1100]; unsigned int pagestart_len = 0; { unsigned int rowc, colc; for (rowc = 0; rowc < 120; rowc++) for (colc = 0; colc < 94; colc++) table[rowc][colc] = 0; } { unsigned int page; for (page = 0; page < 0x1100; page++) pagemin[page] = -1; for (page = 0; page < 0x1100; page++) pagemax[page] = -1; for (page = 0; page < 0x1100; page++) pageidx[page] = -1; } printf("static const unsigned short jisx0213_to_ucs_combining[][2] = {\n"); { int private_use = 0x0001; for (;;) { char line[30]; unsigned int row, col; unsigned int ucs; memset(line,0,sizeof(line)); if (scanf("%[^\n]\n",line) < 1) break; assert(line[0]=='0'); assert(line[1]=='x'); assert(isxdigit(line[2])); assert(isxdigit(line[3])); assert(isxdigit(line[4])); assert(isxdigit(line[5])); assert(isxdigit(line[6])); assert(line[7]=='\t'); line[7] = '\0'; col = strtoul(&line[5],NULL,16); line[5] = '\0'; row = strtoul(&line[2],NULL,16); if (line[20] != '\0' && line[21] == '\0') { unsigned int u1, u2; assert(line[8]=='0'); assert(line[9]=='x'); assert(isxdigit(line[10])); assert(isxdigit(line[11])); assert(isxdigit(line[12])); assert(isxdigit(line[13])); assert(line[14]==' '); assert(line[15]=='0'); assert(line[16]=='x'); assert(isxdigit(line[17])); assert(isxdigit(line[18])); assert(isxdigit(line[19])); assert(isxdigit(line[20])); u2 = strtoul(&line[17],NULL,16); line[14] = '\0'; u1 = strtoul(&line[10],NULL,16); printf(" { 0x%04x, 0x%04x },\n", u1, u2); ucs = private_use++; } else { assert(line[8]=='0'); assert(line[9]=='x'); assert(isxdigit(line[10])); assert(isxdigit(line[11])); assert(isxdigit(line[12])); assert(isxdigit(line[13])); ucs = strtoul(&line[10],NULL,16); } assert((unsigned int) row_convert(row) < 120); assert((unsigned int) (col-0x21) < 94); table[row_convert(row)][col-0x21] = ucs; } } printf("};\n"); printf("\n"); { unsigned int rowc, colc; for (rowc = 0; rowc < 120; rowc++) { for (colc = 0; colc < 94; colc++) { unsigned int value = table[rowc][colc]; unsigned int page = value >> 8; unsigned int rest = value & 0xff; if (pagemin[page] < 0 || pagemin[page] > rest) pagemin[page] = rest; if (pagemax[page] < 0 || pagemax[page] < rest) pagemax[page] = rest; } } } { unsigned int index = 0; unsigned int i; for (i = 0; i < 0x1100; ) { if (pagemin[i] >= 0) { if (pagemin[i+1] >= 0 && pagemin[i] >= 0x80 && pagemax[i+1] < 0x80) { /* Combine two pages into a single one. */ assert(pagestart_len < sizeof(pagestart)/sizeof(pagestart[0])); pagestart[pagestart_len++] = (i<<8)+0x80; pageidx[i] = index; pageidx[i+1] = index; index++; i += 2; } else { /* A single page. */ assert(pagestart_len < sizeof(pagestart)/sizeof(pagestart[0])); pagestart[pagestart_len++] = i<<8; pageidx[i] = index; index++; i += 1; } } else i++; } } printf("static const unsigned short jisx0213_to_ucs_main[120 * 94] = {\n"); { unsigned int row; for (row = 0; row < 0x300; row++) { unsigned int rowc = row_convert(row); if (rowc != (unsigned int) (-1)) { printf(" /* 0x%X21..0x%X7E */\n",row,row); { unsigned int count = 0; unsigned int colc; for (colc = 0; colc < 94; colc++) { if ((count % 8) == 0) printf(" "); { unsigned int value = table[rowc][colc]; unsigned int page = value >> 8; unsigned int index = pageidx[page]; assert(value-pagestart[index] < 0x100); printf(" 0x%04x,",(index<<8)|(value-pagestart[index])); } count++; if ((count % 8) == 0) printf("\n"); } } printf("\n"); } } } printf("};\n"); printf("\n"); printf("static const ucs4_t jisx0213_to_ucs_pagestart[] = {\n"); { unsigned int count = 0; unsigned int i; for (i = 0; i < pagestart_len; i++) { char buf[10]; if ((count % 8) == 0) printf(" "); printf(" "); sprintf(buf,"0x%04x",pagestart[i]); if (strlen(buf) < 7) printf("%*s",(int)(7-strlen(buf)),""); printf("%s,",buf); count++; if ((count % 8) == 0) printf("\n"); } } printf("\n"); printf("};\n"); #undef row_convert } rewind(stdin); printf("\n"); { int table[0x110000]; bool pages[0x4400]; int maxpage = -1; unsigned int combining_prefixes[100]; unsigned int combining_prefixes_len = 0; { unsigned int i; for (i = 0; i < 0x110000; i++) table[i] = -1; for (i = 0; i < 0x4400; i++) pages[i] = false; } for (;;) { char line[30]; unsigned int plane, row, col; memset(line,0,sizeof(line)); if (scanf("%[^\n]\n",line) < 1) break; assert(line[0]=='0'); assert(line[1]=='x'); assert(isxdigit(line[2])); assert(isxdigit(line[3])); assert(isxdigit(line[4])); assert(isxdigit(line[5])); assert(isxdigit(line[6])); assert(line[7]=='\t'); line[7] = '\0'; col = strtoul(&line[5],NULL,16); line[5] = '\0'; row = strtoul(&line[3],NULL,16); line[3] = '\0'; plane = strtoul(&line[2],NULL,16) - 1; if (line[20] != '\0' && line[21] == '\0') { unsigned int u1, u2; assert(line[8]=='0'); assert(line[9]=='x'); assert(isxdigit(line[10])); assert(isxdigit(line[11])); assert(isxdigit(line[12])); assert(isxdigit(line[13])); assert(line[14]==' '); assert(line[15]=='0'); assert(line[16]=='x'); assert(isxdigit(line[17])); assert(isxdigit(line[18])); assert(isxdigit(line[19])); assert(isxdigit(line[20])); u2 = strtoul(&line[17],NULL,16); line[14] = '\0'; u1 = strtoul(&line[10],NULL,16); assert(u2 == 0x02E5 || u2 == 0x02E9 || u2 == 0x0300 || u2 == 0x0301 || u2 == 0x309A); assert(combining_prefixes_len < sizeof(combining_prefixes)/sizeof(combining_prefixes[0])); combining_prefixes[combining_prefixes_len++] = u1; } else { unsigned int ucs; assert(line[8]=='0'); assert(line[9]=='x'); assert(isxdigit(line[10])); assert(isxdigit(line[11])); assert(isxdigit(line[12])); assert(isxdigit(line[13])); ucs = strtoul(&line[10],NULL,16); /* Add an entry. */ assert(plane <= 1); assert(row <= 0x7f); assert(col <= 0x7f); table[ucs] = (plane << 15) | (row << 8) | col; pages[ucs>>6] = true; if (maxpage < 0 || (ucs>>6) > maxpage) maxpage = ucs>>6; } } { unsigned int i; for (i = 0; i < combining_prefixes_len; i++) { unsigned int u1 = combining_prefixes[i]; assert(table[u1] >= 0); table[u1] |= 0x0080; } } printf("static const short jisx0213_from_ucs_level1[%d] = {\n",maxpage+1); { unsigned int index = 0; unsigned int i; for (i = 0; i <= maxpage; i++) { if ((i % 8) == 0) printf(" "); if (pages[i]) { printf(" %3u,",index); index++; } else { printf(" %3d,",-1); } if (((i+1) % 8) == 0) printf("\n"); } } printf("\n"); printf("};\n"); printf("\n"); #if 0 /* Dense array */ printf("static const unsigned short jisx0213_from_ucs_level2[] = {\n"); { unsigned int i; for (i = 0; i <= maxpage; i++) { if (pages[i]) { printf(" /* 0x%04X */\n",i<<6); { unsigned int j; for (j = 0; j < 0x40; ) { unsigned int ucs = (i<<6)+j; int value = table[ucs]; if (value < 0) value = 0; if ((j % 8) == 0) printf(" "); printf(" 0x%04x,",value); j++; if ((j % 8) == 0) printf("\n"); } } } } } printf("};\n"); #else /* Sparse array */ { int summary_indx[0x11000]; int summary_used[0x11000]; unsigned int i, k, indx; printf("static const unsigned short jisx0213_from_ucs_level2_data[] = {\n"); /* Fill summary_indx[] and summary_used[]. */ indx = 0; for (i = 0, k = 0; i <= maxpage; i++) { if (pages[i]) { unsigned int j1, j2; unsigned int count = 0; printf(" /* 0x%04X */\n",i<<6); for (j1 = 0; j1 < 4; j1++) { summary_indx[4*k+j1] = indx; summary_used[4*k+j1] = 0; for (j2 = 0; j2 < 16; j2++) { unsigned int j = 16*j1+j2; unsigned int ucs = (i<<6)+j; int value = table[ucs]; if (value < 0) value = 0; if (value > 0) { summary_used[4*k+j1] |= (1 << j2); if ((count % 8) == 0) printf(" "); printf(" 0x%04x,",value); count++; if ((count % 8) == 0) printf("\n"); indx++; } } } if ((count % 8) > 0) printf("\n"); k++; } } printf("};\n"); printf("\n"); printf("static const Summary16 jisx0213_from_ucs_level2_2indx[] = {\n"); for (i = 0, k = 0; i <= maxpage; i++) { if (pages[i]) { unsigned int j1; printf(" /* 0x%04X */\n",i<<6); printf(" "); for (j1 = 0; j1 < 4; j1++) { printf(" { %4d, 0x%04x },", summary_indx[4*k+j1], summary_used[4*k+j1]); } printf("\n"); k++; } } printf("};\n"); } #endif printf("\n"); } printf("#ifdef __GNUC__\n"); printf("__inline\n"); printf("#else\n"); printf("#ifdef __cplusplus\n"); printf("inline\n"); printf("#endif\n"); printf("#endif\n"); printf("static ucs4_t jisx0213_to_ucs4 (unsigned int row, unsigned int col)\n"); printf("{\n"); printf(" ucs4_t val;\n"); printf("\n"); printf(" if (row >= 0x121 && row <= 0x17e)\n"); printf(" row -= 289;\n"); printf(" else if (row == 0x221)\n"); printf(" row -= 451;\n"); printf(" else if (row >= 0x223 && row <= 0x225)\n"); printf(" row -= 452;\n"); printf(" else if (row == 0x228)\n"); printf(" row -= 454;\n"); printf(" else if (row >= 0x22c && row <= 0x22f)\n"); printf(" row -= 457;\n"); printf(" else if (row >= 0x26e && row <= 0x27e)\n"); printf(" row -= 519;\n"); printf(" else\n"); printf(" return 0x0000;\n"); printf("\n"); printf(" if (col >= 0x21 && col <= 0x7e)\n"); printf(" col -= 0x21;\n"); printf(" else\n"); printf(" return 0x0000;\n"); printf("\n"); printf(" val = jisx0213_to_ucs_main[row * 94 + col];\n"); printf(" val = jisx0213_to_ucs_pagestart[val >> 8] + (val & 0xff);\n"); printf(" if (val == 0xfffd)\n"); printf(" val = 0x0000;\n"); printf(" return val;\n"); printf("}\n"); printf("\n"); printf("#ifdef __GNUC__\n"); printf("__inline\n"); printf("#else\n"); printf("#ifdef __cplusplus\n"); printf("inline\n"); printf("#endif\n"); printf("#endif\n"); printf("static unsigned short ucs4_to_jisx0213 (ucs4_t ucs)\n"); printf("{\n"); printf(" if (ucs < (sizeof(jisx0213_from_ucs_level1)/sizeof(jisx0213_from_ucs_level1[0])) << 6) {\n"); printf(" int index1 = jisx0213_from_ucs_level1[ucs >> 6];\n"); printf(" if (index1 >= 0)"); #if 0 /* Dense array */ printf("\n"); printf(" return jisx0213_from_ucs_level2[(index1 << 6) + (ucs & 0x3f)];\n"); #else /* Sparse array */ printf(" {\n"); printf(" const Summary16 *summary = &jisx0213_from_ucs_level2_2indx[((index1 << 6) + (ucs & 0x3f)) >> 4];\n"); printf(" unsigned short used = summary->used;\n"); printf(" unsigned int i = ucs & 0x0f;\n"); printf(" if (used & ((unsigned short) 1 << i)) {\n"); printf(" /* Keep in 'used' only the bits 0..i-1. */\n"); printf(" used &= ((unsigned short) 1 << i) - 1;\n"); printf(" /* Add 'summary->indx' and the number of bits set in 'used'. */\n"); printf(" used = (used & 0x5555) + ((used & 0xaaaa) >> 1);\n"); printf(" used = (used & 0x3333) + ((used & 0xcccc) >> 2);\n"); printf(" used = (used & 0x0f0f) + ((used & 0xf0f0) >> 4);\n"); printf(" used = (used & 0x00ff) + (used >> 8);\n"); printf(" return jisx0213_from_ucs_level2_data[summary->indx + used];\n"); printf(" };\n"); printf(" };\n"); #endif printf(" }\n"); printf(" return 0x0000;\n"); printf("}\n"); printf("\n"); printf("#endif /* _JISX0213_H */\n"); } /* Main program */ int main (int argc, char *argv[]) { const char* charsetname; const char* name; if (argc != 3) exit(1); charsetname = argv[1]; name = argv[2]; output_title(charsetname); if (!strcmp(name,"gb2312") || !strcmp(name,"isoir165ext") || !strcmp(name,"gb12345ext") || !strcmp(name,"jisx0208") || !strcmp(name,"jisx0212")) do_normal(name); else if (!strcmp(name,"cns11643_1") || !strcmp(name,"cns11643_2") || !strcmp(name,"cns11643_3") || !strcmp(name,"cns11643_4a") || !strcmp(name,"cns11643_4b") || !strcmp(name,"cns11643_5") || !strcmp(name,"cns11643_6") || !strcmp(name,"cns11643_7") || !strcmp(name,"cns11643_15")) do_normal_only_charset2uni(name); else if (!strcmp(name,"cns11643_inv")) do_cns11643_only_uni2charset(name); else if (!strcmp(name,"gbkext1")) do_gbk1_only_charset2uni(name); else if (!strcmp(name,"gbkext2")) do_gbk2_only_charset2uni(name); else if (!strcmp(name,"gbkext_inv")) do_gbk1_only_uni2charset(name); else if (!strcmp(name,"cp936ext") || !strcmp(name,"gb18030ext")) do_gbk1(name); else if (!strcmp(name,"ksc5601")) do_ksc5601(name); else if (!strcmp(name,"uhc_1")) do_uhc_1(name); else if (!strcmp(name,"uhc_2")) do_uhc_2(name); else if (!strcmp(name,"big5") || !strcmp(name,"cp950ext")) do_big5(name); else if (!strcmp(name,"hkscs1999") || !strcmp(name,"hkscs2001") || !strcmp(name,"hkscs2004") || !strcmp(name,"hkscs2008")) do_hkscs(name); else if (!strcmp(name,"johab_hangul")) do_johab_hangul(name); else if (!strcmp(name,"cp932ext")) do_sjis(name); else if (!strcmp(name,"gb18030uni")) do_gb18030uni(name); else if (!strcmp(name,"jisx0213")) do_jisx0213(name); else exit(1); return 0; }