blob: faedbcae120e576d13494b72ccbb255a7704c5a7 [file] [log] [blame]
#!/bin/sh
# Copyright 2014 The Chromium Authors. All rights reserved.
# Use of this source code is governed by a BSD-style license that can be
# found in the LICENSE file.
# References:
# https://encoding.spec.whatwg.org/#shift_jis
# Download the following file, run it in source/data/mappings directory
# and save the result to euc-jp-html5.ucm
# https://encoding.spec.whatwg.org/index-jis0208.txt
function preamble {
cat <<PREAMBLE
# ***************************************************************************
# *
# * Copyright (C) 1995-2014, International Business Machines
# * Corporation and others. All Rights Reserved.
# *
# * Generated per the algorithm for Shift_JIS
# * described at https://encoding.spec.whatwg.org/#shift_jis
# *
# ***************************************************************************
<code_set_name> "shift_jis-html5"
<char_name_mask> "AXXXX"
<mb_cur_max> 2
<mb_cur_min> 1
<uconv_class> "MBCS"
<subchar> \x3F
<icu:charsetFamily> "ASCII"
<icu:state> 0-80, 81-9f:1, a1-df, e0-fc:1, 82:3, 84:4, 85-86:2, 87:5, 88:2, 98:6, eb-ec:2, ef:2, f9:2, fc:7
<icu:state> 40-7e, 80-fc
<icu:state> 80-fc
<icu:state> 4f-7e, 80-fc, 59-5f.i, 7a-7e.i
<icu:state> 40-7e, 80-fc, 61-6f.i
<icu:state> 40-7e, 80-fc, 76-7d.i
<icu:state> 40-7e, 80-fc, 73-7e.i
<icu:state> 40-4b, 80-fc
CHARMAP
PREAMBLE
}
# The encoding spec for Shift_JIS says U+0080 has to be round-tripped with
# 0x80. So, this is one character more than ASCII up to 128 (0x80).
function ascii {
for i in $(seq 0 128)
do
printf '<U%04X> \\x%02X |0\n' $i $i
done
}
# Map 0x[A1-DF] to U+FF61 to U+FF9F
function half_width_kana {
for i in $(seq 0xA1 0xDF)
do
# 65377 = 0xFF61, 161 = 0xA1
printf '<U%04X> \\x%02X |0\n' $(($i + 65377 - 161)) $i
done
}
# From https://encoding.spec.whatwg.org/#index-shift_jis-pointer
# The index shift_jis pointer for code point is the return value of
# these steps for the round-trip code points (tag = 0)
#
# Let index be index jis0208 excluding all pointers in the range 8272 to 8835.
# Return the index pointer for code point in index.
# For index ($1) outside the above range, it's for decoding only and tag
# is set to '3'.
# Besides, there are 24 more characters with multiple SJIS representations.
# Only the first of multiple is tagged with '0' (bi-directional mapping)
# while the rest is tagged with '3'.
function jis208 {
awk '!/^#/ && !/^$/ \
{ lead = $1 / 188; \
lead_offset = lead < 0x1F ? 0x81 : 0xC1; \
trail = $1 % 188; \
trail_offset = trail < 0x3F ? 0x40 : 0x41; \
is_in_range = ($1 < 8272 || $1 > 8835); \
tag = (is_in_range && has_seen[$2] == 0) ? 0 : 3; \
printf ("<U%4s> \\x%02X\\x%02X |%d\n", substr($2, 3),\
lead + lead_offset, trail + trail_offset, tag);\
if (is_in_range) has_seen[$2] = 1; \
}' \
index-jis0208.txt
}
# EUDC (End User Defined Characters) is for decoding only
# (use '|3' to denote that).
# See https://encoding.spec.whatwg.org/#shift_jis-decoder - step 5
# This function is called twice with {0x40, 0x7E, 0x40} and {0x80, 0xFC, 0x41}
# to implement it.
function eudc {
# The upper bound for the lead byte is 0xF8 because each lead can
# have 188 characters and the total # of characters in the EUDC
# is 1692 = 188 * (0xF9 - 0xF0) = 10528 - 8836 (see Shift_JIS decoder
# step 3.5 in the encoding spec.)
for lead in $(seq 0xF0 0xF8)
do
for byte in $(seq $1 $2)
do
offset=$3
pointer=$((($lead - 0xC1) * 188 + $byte - $offset))
unicode=$(($pointer - 8836 + 0xE000))
printf "<U%4X> \\\x%02X\\\x%02X |3\n" $unicode $lead $byte
done
done
}
function unsorted_table {
ascii
half_width_kana
jis208
eudc "0x40" "0x7E" "0x40"
eudc "0x80" "0xFC" "0x41"
echo '<U00A5> \x5C |1'
echo '<U203E> \x7E |1'
echo '<U2212> \x81\x7C |1'
}
wget -N -r -nd https://encoding.spec.whatwg.org/index-jis0208.txt
preamble
unsorted_table | sort | uniq
echo 'END CHARMAP'