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https://github.com/neovim/neovim.git
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240 lines
6.9 KiB
Lua
240 lines
6.9 KiB
Lua
-- Script creates the following tables in unicode_tables.generated.h:
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--
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-- 1. doublewidth and ambiguous tables: sorted list of non-overlapping closed
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-- intervals. Codepoints in these intervals have double (W or F) or ambiguous
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-- (A) east asian width respectively.
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-- 2. combining table: same as the above, but characters inside are combining
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-- characters (i.e. have general categories equal to Mn, Mc or Me).
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-- 3. foldCase, toLower and toUpper tables used to convert characters to
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-- folded/lower/upper variants. In these tables first two values are
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-- character ranges: like in previous tables they are sorted and must be
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-- non-overlapping. Third value means step inside the range: e.g. if it is
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-- 2 then interval applies only to first, third, fifth, … character in range.
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-- Fourth value is number that should be added to the codepoint to yield
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-- folded/lower/upper codepoint.
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if arg[1] == '--help' then
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print('Usage:')
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print(' genunicodetables.lua UnicodeData.txt CaseFolding.txt ' ..
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'EastAsianWidth.txt')
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print(' unicode_tables.generated.h')
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os.exit(0)
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end
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local unicodedata_fname = arg[1]
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local casefolding_fname = arg[2]
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local eastasianwidth_fname = arg[3]
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local utf_tables_fname = arg[4]
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local split_on_semicolons = function(s)
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local ret = {}
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local idx = 1
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while idx <= #s + 1 do
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item = s:match('^[^;]*', idx)
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idx = idx + #item + 1
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if idx <= #s + 1 then
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assert(s:sub(idx - 1, idx - 1) == ';')
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end
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item = item:gsub('^%s*', '')
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item = item:gsub('%s*$', '')
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table.insert(ret, item)
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end
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return ret
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end
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local fp_lines_to_lists = function(fp, n, has_comments)
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local ret = {}
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local line
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local i = 0
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while true do
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i = i + 1
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line = fp:read('*l')
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if not line then
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break
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end
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if (not has_comments
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or (line:sub(1, 1) ~= '#' and not line:match('^%s*$'))) then
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local l = split_on_semicolons(line)
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if #l ~= n then
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io.stderr:write(('Found %s items in line %u, expected %u\n'):format(
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#l, i, n))
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io.stderr:write('Line: ' .. line .. '\n')
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return nil
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end
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table.insert(ret, l)
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end
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end
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return ret
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end
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local parse_data_to_props = function(ud_fp)
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return fp_lines_to_lists(ud_fp, 15, false)
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end
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local parse_fold_props = function(cf_fp)
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return fp_lines_to_lists(cf_fp, 4, true)
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end
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local parse_width_props = function(eaw_fp)
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return fp_lines_to_lists(eaw_fp, 2, true)
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end
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local make_range = function(start, end_, step, add)
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if step and add then
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return (' {0x%x, 0x%x, %d, %d},\n'):format(
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start, end_, step == 0 and -1 or step, add)
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else
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return (' {0x%04x, 0x%04x},\n'):format(start, end_)
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end
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end
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local build_convert_table = function(ut_fp, props, cond_func, nl_index,
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table_name)
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ut_fp:write('static const convertStruct ' .. table_name .. '[] = {\n')
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local start = -1
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local end_ = -1
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local step = 0
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local add = -1
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for _, p in ipairs(props) do
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if cond_func(p) then
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local n = tonumber(p[1], 16)
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local nl = tonumber(p[nl_index], 16)
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if start >= 0 and add == (nl - n) and (step == 0 or n - end_ == step) then
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-- Continue with the same range.
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step = n - end_
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end_ = n
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else
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if start >= 0 then
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-- Produce previous range.
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ut_fp:write(make_range(start, end_, step, add))
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end
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start = n
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end_ = n
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step = 0
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add = nl - n
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end
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end
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end
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if start >= 0 then
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ut_fp:write(make_range(start, end_, step, add))
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end
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ut_fp:write('};\n')
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end
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local build_case_table = function(ut_fp, dataprops, table_name, index)
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local cond_func = function(p)
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return p[index] ~= ''
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end
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return build_convert_table(ut_fp, dataprops, cond_func, index,
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'to' .. table_name)
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end
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local build_fold_table = function(ut_fp, foldprops)
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local cond_func = function(p)
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return (p[2] == 'C' or p[2] == 'S')
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end
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return build_convert_table(ut_fp, foldprops, cond_func, 3, 'foldCase')
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end
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local build_combining_table = function(ut_fp, dataprops)
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ut_fp:write('static const struct interval combining[] = {\n')
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local start = -1
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local end_ = -1
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for _, p in ipairs(dataprops) do
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if (({Mn=true, Mc=true, Me=true})[p[3]]) then
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local n = tonumber(p[1], 16)
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if start >= 0 and end_ + 1 == n then
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-- Continue with the same range.
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end_ = n
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else
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if start >= 0 then
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-- Produce previous range.
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ut_fp:write(make_range(start, end_))
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end
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start = n
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end_ = n
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end
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end
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end
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if start >= 0 then
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ut_fp:write(make_range(start, end_))
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end
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ut_fp:write('};\n')
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end
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local build_width_table = function(ut_fp, dataprops, widthprops, widths,
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table_name)
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ut_fp:write('static const struct interval ' .. table_name .. '[] = {\n')
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local start = -1
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local end_ = -1
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local dataidx = 1
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for _, p in ipairs(widthprops) do
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if widths[p[2]:sub(1, 1)] then
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local rng_start, rng_end = p[1]:find('%.%.')
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local n, n_last
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if rng_start then
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-- It is a range. We don’t check for composing char then.
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n = tonumber(p[1]:sub(1, rng_start - 1), 16)
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n_last = tonumber(p[1]:sub(rng_end + 1), 16)
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else
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n = tonumber(p[1], 16)
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n_last = n
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end
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local dn
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while true do
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dn = tonumber(dataprops[dataidx][1], 16)
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if dn >= n then
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break
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end
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dataidx = dataidx + 1
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end
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if dn ~= n and n_last == n then
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io.stderr:write('Cannot find character ' .. n .. ' in data table.\n')
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end
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-- Only use the char when it’s not a composing char.
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-- But use all chars from a range.
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local dp = dataprops[dataidx]
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if (n_last > n) or (not (({Mn=true, Mc=true, Me=true})[dp[3]])) then
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if start >= 0 and end_ + 1 == n then
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-- Continue with the same range.
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else
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if start >= 0 then
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ut_fp:write(make_range(start, end_))
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end
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start = n
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end
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end_ = n_last
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end
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end
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end
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if start >= 0 then
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ut_fp:write(make_range(start, end_))
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end
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ut_fp:write('};\n')
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end
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local ud_fp = io.open(unicodedata_fname, 'r')
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local dataprops = parse_data_to_props(ud_fp)
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ud_fp:close()
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local ut_fp = io.open(utf_tables_fname, 'w')
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build_case_table(ut_fp, dataprops, 'Lower', 14)
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build_case_table(ut_fp, dataprops, 'Upper', 13)
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build_combining_table(ut_fp, dataprops)
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local cf_fp = io.open(casefolding_fname, 'r')
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local foldprops = parse_fold_props(cf_fp)
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cf_fp:close()
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build_fold_table(ut_fp, foldprops)
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local eaw_fp = io.open(eastasianwidth_fname, 'r')
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local widthprops = parse_width_props(eaw_fp)
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eaw_fp:close()
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build_width_table(ut_fp, dataprops, widthprops, {W=true, F=true}, 'doublewidth')
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build_width_table(ut_fp, dataprops, widthprops, {A=true}, 'ambiguous')
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ut_fp:close()
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