lua/testes/utf8.lua
Roberto Ierusalimschy 814213b65f utf8.offset returns also final position of character
'utf8.offset' returns two values: the initial and the final position
of the given character.
2024-05-27 11:29:39 -03:00

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-- $Id: testes/utf8.lua $
-- See Copyright Notice in file all.lua
-- UTF-8 file
print "testing UTF-8 library"
local utf8 = require'utf8'
local function checkerror (msg, f, ...)
local s, err = pcall(f, ...)
assert(not s and string.find(err, msg))
end
local function len (s)
return #string.gsub(s, "[\x80-\xBF]", "")
end
local justone = "^" .. utf8.charpattern .. "$"
-- 't' is the list of codepoints of 's'
local function checksyntax (s, t)
-- creates a string "return '\u{t[1]}...\u{t[n]}'"
local ts = {"return '"}
for i = 1, #t do ts[i + 1] = string.format("\\u{%x}", t[i]) end
ts[#t + 2] = "'"
ts = table.concat(ts)
-- its execution should result in 's'
assert(assert(load(ts))() == s)
end
assert(not utf8.offset("alo", 5))
assert(not utf8.offset("alo", -4))
-- 'check' makes several tests over the validity of string 's'.
-- 't' is the list of codepoints of 's'.
local function check (s, t, nonstrict)
local l = utf8.len(s, 1, -1, nonstrict)
assert(#t == l and len(s) == l)
assert(utf8.char(table.unpack(t)) == s) -- 't' and 's' are equivalent
assert(utf8.offset(s, 0) == 1)
checksyntax(s, t)
-- creates new table with all codepoints of 's'
local t1 = {utf8.codepoint(s, 1, -1, nonstrict)}
assert(#t == #t1)
for i = 1, #t do assert(t[i] == t1[i]) end -- 't' is equal to 't1'
for i = 1, l do -- for all codepoints
local pi, pie = utf8.offset(s, i) -- position of i-th char
local pi1 = utf8.offset(s, 2, pi) -- position of next char
assert(pi1 == pie + 1)
assert(string.find(string.sub(s, pi, pi1 - 1), justone))
assert(utf8.offset(s, -1, pi1) == pi)
assert(utf8.offset(s, i - l - 1) == pi)
assert(pi1 - pi == #utf8.char(utf8.codepoint(s, pi, pi, nonstrict)))
for j = pi, pi1 - 1 do
local off1, off2 = utf8.offset(s, 0, j)
assert(off1 == pi and off2 == pi1 - 1)
end
for j = pi + 1, pi1 - 1 do
assert(not utf8.len(s, j))
end
assert(utf8.len(s, pi, pi, nonstrict) == 1)
assert(utf8.len(s, pi, pi1 - 1, nonstrict) == 1)
assert(utf8.len(s, pi, -1, nonstrict) == l - i + 1)
assert(utf8.len(s, pi1, -1, nonstrict) == l - i)
assert(utf8.len(s, 1, pi, nonstrict) == i)
end
local expected = 1 -- expected position of "current" character
for i = 1, l + 1 do
local p, e = utf8.offset(s, i)
assert(p == expected)
expected = e + 1
end
assert(expected - 1 == #s + 1)
local i = 0
for p, c in utf8.codes(s, nonstrict) do
i = i + 1
assert(c == t[i] and p == utf8.offset(s, i))
assert(utf8.codepoint(s, p, p, nonstrict) == c)
end
assert(i == #t)
i = 0
for c in string.gmatch(s, utf8.charpattern) do
i = i + 1
assert(c == utf8.char(t[i]))
end
assert(i == #t)
for i = 1, l do
assert(utf8.offset(s, i) == utf8.offset(s, i - l - 1, #s + 1))
end
end
do -- error indication in utf8.len
local function checklen (s, p)
local a, b = utf8.len(s)
assert(not a and b == p)
end
checklen("abc\xE3def", 4)
checklen("\xF4\x9F\xBF", 1)
checklen("\xF4\x9F\xBF\xBF", 1)
-- spurious continuation bytes
checklen("汉字\x80", #("汉字") + 1)
checklen("\x80hello", 1)
checklen("hel\x80lo", 4)
checklen("汉字\xBF", #("汉字") + 1)
checklen("\xBFhello", 1)
checklen("hel\xBFlo", 4)
end
-- errors in utf8.codes
do
local function errorcodes (s)
checkerror("invalid UTF%-8 code",
function ()
for c in utf8.codes(s) do assert(c) end
end)
end
errorcodes("ab\xff")
errorcodes("\u{110000}")
errorcodes("in\x80valid")
errorcodes("\xbfinvalid")
errorcodes("αλφ\xBFα")
-- calling interation function with invalid arguments
local f = utf8.codes("")
assert(f("", 2) == nil)
assert(f("", -1) == nil)
assert(f("", math.mininteger) == nil)
end
-- error in initial position for offset
checkerror("position out of bounds", utf8.offset, "abc", 1, 5)
checkerror("position out of bounds", utf8.offset, "abc", 1, -4)
checkerror("position out of bounds", utf8.offset, "", 1, 2)
checkerror("position out of bounds", utf8.offset, "", 1, -1)
checkerror("continuation byte", utf8.offset, "𦧺", 1, 2)
checkerror("continuation byte", utf8.offset, "𦧺", 1, 2)
checkerror("continuation byte", utf8.offset, "\x80", 1)
-- error in indices for len
checkerror("out of bounds", utf8.len, "abc", 0, 2)
checkerror("out of bounds", utf8.len, "abc", 1, 4)
local s = "hello World"
local t = {string.byte(s, 1, -1)}
for i = 1, utf8.len(s) do assert(t[i] == string.byte(s, i)) end
check(s, t)
check("汉字/漢字", {27721, 23383, 47, 28450, 23383,})
do
local s = "áéí\128"
local t = {utf8.codepoint(s,1,#s - 1)}
assert(#t == 3 and t[1] == 225 and t[2] == 233 and t[3] == 237)
checkerror("invalid UTF%-8 code", utf8.codepoint, s, 1, #s)
checkerror("out of bounds", utf8.codepoint, s, #s + 1)
t = {utf8.codepoint(s, 4, 3)}
assert(#t == 0)
checkerror("out of bounds", utf8.codepoint, s, -(#s + 1), 1)
checkerror("out of bounds", utf8.codepoint, s, 1, #s + 1)
-- surrogates
assert(utf8.codepoint("\u{D7FF}") == 0xD800 - 1)
assert(utf8.codepoint("\u{E000}") == 0xDFFF + 1)
assert(utf8.codepoint("\u{D800}", 1, 1, true) == 0xD800)
assert(utf8.codepoint("\u{DFFF}", 1, 1, true) == 0xDFFF)
assert(utf8.codepoint("\u{7FFFFFFF}", 1, 1, true) == 0x7FFFFFFF)
end
assert(utf8.char() == "")
assert(utf8.char(0, 97, 98, 99, 1) == "\0abc\1")
assert(utf8.codepoint(utf8.char(0x10FFFF)) == 0x10FFFF)
assert(utf8.codepoint(utf8.char(0x7FFFFFFF), 1, 1, true) == (1<<31) - 1)
checkerror("value out of range", utf8.char, 0x7FFFFFFF + 1)
checkerror("value out of range", utf8.char, -1)
local function invalid (s)
checkerror("invalid UTF%-8 code", utf8.codepoint, s)
assert(not utf8.len(s))
end
-- UTF-8 representation for 0x11ffff (value out of valid range)
invalid("\xF4\x9F\xBF\xBF")
-- surrogates
invalid("\u{D800}")
invalid("\u{DFFF}")
-- overlong sequences
invalid("\xC0\x80") -- zero
invalid("\xC1\xBF") -- 0x7F (should be coded in 1 byte)
invalid("\xE0\x9F\xBF") -- 0x7FF (should be coded in 2 bytes)
invalid("\xF0\x8F\xBF\xBF") -- 0xFFFF (should be coded in 3 bytes)
-- invalid bytes
invalid("\x80") -- continuation byte
invalid("\xBF") -- continuation byte
invalid("\xFE") -- invalid byte
invalid("\xFF") -- invalid byte
-- empty string
check("", {})
-- minimum and maximum values for each sequence size
s = "\0 \x7F\z
\xC2\x80 \xDF\xBF\z
\xE0\xA0\x80 \xEF\xBF\xBF\z
\xF0\x90\x80\x80 \xF4\x8F\xBF\xBF"
s = string.gsub(s, " ", "")
check(s, {0,0x7F, 0x80,0x7FF, 0x800,0xFFFF, 0x10000,0x10FFFF})
do
-- original UTF-8 values
local s = "\u{4000000}\u{7FFFFFFF}"
assert(#s == 12)
check(s, {0x4000000, 0x7FFFFFFF}, true)
s = "\u{200000}\u{3FFFFFF}"
assert(#s == 10)
check(s, {0x200000, 0x3FFFFFF}, true)
s = "\u{10000}\u{1fffff}"
assert(#s == 8)
check(s, {0x10000, 0x1FFFFF}, true)
end
local x = "日本語a-4\0éó"
check(x, {26085, 26412, 35486, 97, 45, 52, 0, 233, 243})
-- Supplementary Characters
check("𣲷𠜎𠱓𡁻𠵼ab𠺢",
{0x23CB7, 0x2070E, 0x20C53, 0x2107B, 0x20D7C, 0x61, 0x62, 0x20EA2,})
check("𨳊𩶘𦧺𨳒𥄫𤓓\xF4\x8F\xBF\xBF",
{0x28CCA, 0x29D98, 0x269FA, 0x28CD2, 0x2512B, 0x244D3, 0x10ffff})
local i = 0
for p, c in string.gmatch(x, "()(" .. utf8.charpattern .. ")") do
i = i + 1
assert(utf8.offset(x, i) == p)
assert(utf8.len(x, p) == utf8.len(x) - i + 1)
assert(utf8.len(c) == 1)
for j = 1, #c - 1 do
assert(utf8.offset(x, 0, p + j - 1) == p)
end
end
print'ok'