diff options
Diffstat (limited to 'ThirdParty/lpeg-1.0.2/test.lua')
| -rw-r--r-- | ThirdParty/lpeg-1.0.2/test.lua | 1523 |
1 files changed, 1523 insertions, 0 deletions
diff --git a/ThirdParty/lpeg-1.0.2/test.lua b/ThirdParty/lpeg-1.0.2/test.lua new file mode 100644 index 0000000..8f9f574 --- /dev/null +++ b/ThirdParty/lpeg-1.0.2/test.lua @@ -0,0 +1,1523 @@ +#!/usr/bin/env lua + +-- $Id: test.lua $ + +-- require"strict" -- just to be pedantic + +local m = require"lpeg" + + +-- for general use +local a, b, c, d, e, f, g, p, t + + +-- compatibility with Lua 5.2 +local unpack = rawget(table, "unpack") or unpack +local loadstring = rawget(_G, "loadstring") or load + + +local any = m.P(1) +local space = m.S" \t\n"^0 + +local function checkeq (x, y, p) +if p then print(x,y) end + if type(x) ~= "table" then assert(x == y) + else + for k,v in pairs(x) do checkeq(v, y[k], p) end + for k,v in pairs(y) do checkeq(v, x[k], p) end + end +end + + +local mt = getmetatable(m.P(1)) + + +local allchar = {} +for i=0,255 do allchar[i + 1] = i end +allchar = string.char(unpack(allchar)) +assert(#allchar == 256) + +local function cs2str (c) + return m.match(m.Cs((c + m.P(1)/"")^0), allchar) +end + +local function eqcharset (c1, c2) + assert(cs2str(c1) == cs2str(c2)) +end + + +print"General tests for LPeg library" + +assert(type(m.version()) == "string") +print("version " .. m.version()) +assert(m.type("alo") ~= "pattern") +assert(m.type(io.input) ~= "pattern") +assert(m.type(m.P"alo") == "pattern") + +-- tests for some basic optimizations +assert(m.match(m.P(false) + "a", "a") == 2) +assert(m.match(m.P(true) + "a", "a") == 1) +assert(m.match("a" + m.P(false), "b") == nil) +assert(m.match("a" + m.P(true), "b") == 1) + +assert(m.match(m.P(false) * "a", "a") == nil) +assert(m.match(m.P(true) * "a", "a") == 2) +assert(m.match("a" * m.P(false), "a") == nil) +assert(m.match("a" * m.P(true), "a") == 2) + +assert(m.match(#m.P(false) * "a", "a") == nil) +assert(m.match(#m.P(true) * "a", "a") == 2) +assert(m.match("a" * #m.P(false), "a") == nil) +assert(m.match("a" * #m.P(true), "a") == 2) + + +-- tests for locale +do + assert(m.locale(m) == m) + local t = {} + assert(m.locale(t, m) == t) + local x = m.locale() + for n,v in pairs(x) do + assert(type(n) == "string") + eqcharset(v, m[n]) + end +end + + +assert(m.match(3, "aaaa")) +assert(m.match(4, "aaaa")) +assert(not m.match(5, "aaaa")) +assert(m.match(-3, "aa")) +assert(not m.match(-3, "aaa")) +assert(not m.match(-3, "aaaa")) +assert(not m.match(-4, "aaaa")) +assert(m.P(-5):match"aaaa") + +assert(m.match("a", "alo") == 2) +assert(m.match("al", "alo") == 3) +assert(not m.match("alu", "alo")) +assert(m.match(true, "") == 1) + +local digit = m.S"0123456789" +local upper = m.S"ABCDEFGHIJKLMNOPQRSTUVWXYZ" +local lower = m.S"abcdefghijklmnopqrstuvwxyz" +local letter = m.S"" + upper + lower +local alpha = letter + digit + m.R() + +eqcharset(m.S"", m.P(false)) +eqcharset(upper, m.R("AZ")) +eqcharset(lower, m.R("az")) +eqcharset(upper + lower, m.R("AZ", "az")) +eqcharset(upper + lower, m.R("AZ", "cz", "aa", "bb", "90")) +eqcharset(digit, m.S"01234567" + "8" + "9") +eqcharset(upper, letter - lower) +eqcharset(m.S(""), m.R()) +assert(cs2str(m.S("")) == "") + +eqcharset(m.S"\0", "\0") +eqcharset(m.S"\1\0\2", m.R"\0\2") +eqcharset(m.S"\1\0\2", m.R"\1\2" + "\0") +eqcharset(m.S"\1\0\2" - "\0", m.R"\1\2") + +local word = alpha^1 * (1 - alpha)^0 + +assert((word^0 * -1):match"alo alo") +assert(m.match(word^1 * -1, "alo alo")) +assert(m.match(word^2 * -1, "alo alo")) +assert(not m.match(word^3 * -1, "alo alo")) + +assert(not m.match(word^-1 * -1, "alo alo")) +assert(m.match(word^-2 * -1, "alo alo")) +assert(m.match(word^-3 * -1, "alo alo")) + +local eos = m.P(-1) + +assert(m.match(digit^0 * letter * digit * eos, "1298a1")) +assert(not m.match(digit^0 * letter * eos, "1257a1")) + +b = { + [1] = "(" * (((1 - m.S"()") + #m.P"(" * m.V(1))^0) * ")" +} + +assert(m.match(b, "(al())()")) +assert(not m.match(b * eos, "(al())()")) +assert(m.match(b * eos, "((al())()(é))")) +assert(not m.match(b, "(al()()")) + +assert(not m.match(letter^1 - "for", "foreach")) +assert(m.match(letter^1 - ("for" * eos), "foreach")) +assert(not m.match(letter^1 - ("for" * eos), "for")) + +function basiclookfor (p) + return m.P { + [1] = p + (1 * m.V(1)) + } +end + +function caplookfor (p) + return basiclookfor(p:C()) +end + +assert(m.match(caplookfor(letter^1), " 4achou123...") == "achou") +a = {m.match(caplookfor(letter^1)^0, " two words, one more ")} +checkeq(a, {"two", "words", "one", "more"}) + +assert(m.match( basiclookfor((#m.P(b) * 1) * m.Cp()), " ( (a)") == 7) + +a = {m.match(m.C(digit^1 * m.Cc"d") + m.C(letter^1 * m.Cc"l"), "123")} +checkeq(a, {"123", "d"}) + +-- bug in LPeg 0.12 (nil value does not create a 'ktable') +assert(m.match(m.Cc(nil), "") == nil) + +a = {m.match(m.C(digit^1 * m.Cc"d") + m.C(letter^1 * m.Cc"l"), "abcd")} +checkeq(a, {"abcd", "l"}) + +a = {m.match(m.Cc(10,20,30) * 'a' * m.Cp(), 'aaa')} +checkeq(a, {10,20,30,2}) +a = {m.match(m.Cp() * m.Cc(10,20,30) * 'a' * m.Cp(), 'aaa')} +checkeq(a, {1,10,20,30,2}) +a = m.match(m.Ct(m.Cp() * m.Cc(10,20,30) * 'a' * m.Cp()), 'aaa') +checkeq(a, {1,10,20,30,2}) +a = m.match(m.Ct(m.Cp() * m.Cc(7,8) * m.Cc(10,20,30) * 'a' * m.Cp()), 'aaa') +checkeq(a, {1,7,8,10,20,30,2}) +a = {m.match(m.Cc() * m.Cc() * m.Cc(1) * m.Cc(2,3,4) * m.Cc() * 'a', 'aaa')} +checkeq(a, {1,2,3,4}) + +a = {m.match(m.Cp() * letter^1 * m.Cp(), "abcd")} +checkeq(a, {1, 5}) + + +t = {m.match({[1] = m.C(m.C(1) * m.V(1) + -1)}, "abc")} +checkeq(t, {"abc", "a", "bc", "b", "c", "c", ""}) + +-- bug in 0.12 ('hascapture' did not check for captures inside a rule) +do + local pat = m.P{ + 'S'; + S1 = m.C('abc') + 3, + S = #m.V('S1') -- rule has capture, but '#' must ignore it + } + assert(pat:match'abc' == 1) +end + + +-- bug: loop in 'hascaptures' +do + local p = m.C(-m.P{m.P'x' * m.V(1) + m.P'y'}) + assert(p:match("xxx") == "") +end + + + +-- test for small capture boundary +for i = 250,260 do + assert(#m.match(m.C(i), string.rep('a', i)) == i) + assert(#m.match(m.C(m.C(i)), string.rep('a', i)) == i) +end + +-- tests for any*n and any*-n +for n = 1, 550, 13 do + local x_1 = string.rep('x', n - 1) + local x = x_1 .. 'a' + assert(not m.P(n):match(x_1)) + assert(m.P(n):match(x) == n + 1) + assert(n < 4 or m.match(m.P(n) + "xxx", x_1) == 4) + assert(m.C(n):match(x) == x) + assert(m.C(m.C(n)):match(x) == x) + assert(m.P(-n):match(x_1) == 1) + assert(not m.P(-n):match(x)) + assert(n < 13 or m.match(m.Cc(20) * ((n - 13) * m.P(10)) * 3, x) == 20) + local n3 = math.floor(n/3) + assert(m.match(n3 * m.Cp() * n3 * n3, x) == n3 + 1) +end + +-- true values +assert(m.P(0):match("x") == 1) +assert(m.P(0):match("") == 1) +assert(m.C(0):match("x") == "") + +assert(m.match(m.Cc(0) * m.P(10) + m.Cc(1) * "xuxu", "xuxu") == 1) +assert(m.match(m.Cc(0) * m.P(10) + m.Cc(1) * "xuxu", "xuxuxuxuxu") == 0) +assert(m.match(m.C(m.P(2)^1), "abcde") == "abcd") +p = m.Cc(0) * 1 + m.Cc(1) * 2 + m.Cc(2) * 3 + m.Cc(3) * 4 + + +-- test for alternation optimization +assert(m.match(m.P"a"^1 + "ab" + m.P"x"^0, "ab") == 2) +assert(m.match((m.P"a"^1 + "ab" + m.P"x"^0 * 1)^0, "ab") == 3) +assert(m.match(m.P"ab" + "cd" + "" + "cy" + "ak", "98") == 1) +assert(m.match(m.P"ab" + "cd" + "ax" + "cy", "ax") == 3) +assert(m.match("a" * m.P"b"^0 * "c" + "cd" + "ax" + "cy", "ax") == 3) +assert(m.match((m.P"ab" + "cd" + "ax" + "cy")^0, "ax") == 3) +assert(m.match(m.P(1) * "x" + m.S"" * "xu" + "ay", "ay") == 3) +assert(m.match(m.P"abc" + "cde" + "aka", "aka") == 4) +assert(m.match(m.S"abc" * "x" + "cde" + "aka", "ax") == 3) +assert(m.match(m.S"abc" * "x" + "cde" + "aka", "aka") == 4) +assert(m.match(m.S"abc" * "x" + "cde" + "aka", "cde") == 4) +assert(m.match(m.S"abc" * "x" + "ide" + m.S"ab" * "ka", "aka") == 4) +assert(m.match("ab" + m.S"abc" * m.P"y"^0 * "x" + "cde" + "aka", "ax") == 3) +assert(m.match("ab" + m.S"abc" * m.P"y"^0 * "x" + "cde" + "aka", "aka") == 4) +assert(m.match("ab" + m.S"abc" * m.P"y"^0 * "x" + "cde" + "aka", "cde") == 4) +assert(m.match("ab" + m.S"abc" * m.P"y"^0 * "x" + "ide" + m.S"ab" * "ka", "aka") == 4) +assert(m.match("ab" + m.S"abc" * m.P"y"^0 * "x" + "ide" + m.S"ab" * "ka", "ax") == 3) +assert(m.match(m.P(1) * "x" + "cde" + m.S"ab" * "ka", "aka") == 4) +assert(m.match(m.P(1) * "x" + "cde" + m.P(1) * "ka", "aka") == 4) +assert(m.match(m.P(1) * "x" + "cde" + m.P(1) * "ka", "cde") == 4) +assert(m.match(m.P"eb" + "cd" + m.P"e"^0 + "x", "ee") == 3) +assert(m.match(m.P"ab" + "cd" + m.P"e"^0 + "x", "abcd") == 3) +assert(m.match(m.P"ab" + "cd" + m.P"e"^0 + "x", "eeex") == 4) +assert(m.match(m.P"ab" + "cd" + m.P"e"^0 + "x", "cd") == 3) +assert(m.match(m.P"ab" + "cd" + m.P"e"^0 + "x", "x") == 1) +assert(m.match(m.P"ab" + "cd" + m.P"e"^0 + "x" + "", "zee") == 1) +assert(m.match(m.P"ab" + "cd" + m.P"e"^1 + "x", "abcd") == 3) +assert(m.match(m.P"ab" + "cd" + m.P"e"^1 + "x", "eeex") == 4) +assert(m.match(m.P"ab" + "cd" + m.P"e"^1 + "x", "cd") == 3) +assert(m.match(m.P"ab" + "cd" + m.P"e"^1 + "x", "x") == 2) +assert(m.match(m.P"ab" + "cd" + m.P"e"^1 + "x" + "", "zee") == 1) +assert(not m.match(("aa" * m.P"bc"^-1 + "aab") * "e", "aabe")) + +assert(m.match("alo" * (m.P"\n" + -1), "alo") == 4) + + +-- bug in 0.12 (rc1) +assert(m.match((m.P"\128\187\191" + m.S"abc")^0, "\128\187\191") == 4) + +assert(m.match(m.S"\0\128\255\127"^0, string.rep("\0\128\255\127", 10)) == + 4*10 + 1) + +-- optimizations with optional parts +assert(m.match(("ab" * -m.P"c")^-1, "abc") == 1) +assert(m.match(("ab" * #m.P"c")^-1, "abd") == 1) +assert(m.match(("ab" * m.B"c")^-1, "ab") == 1) +assert(m.match(("ab" * m.P"cd"^0)^-1, "abcdcdc") == 7) + +assert(m.match(m.P"ab"^-1 - "c", "abcd") == 3) + +p = ('Aa' * ('Bb' * ('Cc' * m.P'Dd'^0)^0)^0)^-1 +assert(p:match("AaBbCcDdBbCcDdDdDdBb") == 21) + + +-- bug in 0.12.2 +-- p = { ('ab' ('c' 'ef'?)*)? } +p = m.C(('ab' * ('c' * m.P'ef'^-1)^0)^-1) +s = "abcefccefc" +assert(s == p:match(s)) + + +pi = "3.14159 26535 89793 23846 26433 83279 50288 41971 69399 37510" +assert(m.match(m.Cs((m.P"1" / "a" + m.P"5" / "b" + m.P"9" / "c" + 1)^0), pi) == + m.match(m.Cs((m.P(1) / {["1"] = "a", ["5"] = "b", ["9"] = "c"})^0), pi)) +print"+" + + +-- tests for capture optimizations +assert(m.match((m.P(3) + 4 * m.Cp()) * "a", "abca") == 5) +t = {m.match(((m.P"a" + m.Cp()) * m.P"x")^0, "axxaxx")} +checkeq(t, {3, 6}) + + +-- tests for numbered captures +p = m.C(1) +assert(m.match(m.C(m.C(p * m.C(2)) * m.C(3)) / 3, "abcdefgh") == "a") +assert(m.match(m.C(m.C(p * m.C(2)) * m.C(3)) / 1, "abcdefgh") == "abcdef") +assert(m.match(m.C(m.C(p * m.C(2)) * m.C(3)) / 4, "abcdefgh") == "bc") +assert(m.match(m.C(m.C(p * m.C(2)) * m.C(3)) / 0, "abcdefgh") == 7) + +a, b, c = m.match(p * (m.C(p * m.C(2)) * m.C(3) / 4) * p, "abcdefgh") +assert(a == "a" and b == "efg" and c == "h") + +-- test for table captures +t = m.match(m.Ct(letter^1), "alo") +checkeq(t, {}) + +t, n = m.match(m.Ct(m.C(letter)^1) * m.Cc"t", "alo") +assert(n == "t" and table.concat(t) == "alo") + +t = m.match(m.Ct(m.C(m.C(letter)^1)), "alo") +assert(table.concat(t, ";") == "alo;a;l;o") + +t = m.match(m.Ct(m.C(m.C(letter)^1)), "alo") +assert(table.concat(t, ";") == "alo;a;l;o") + +t = m.match(m.Ct(m.Ct((m.Cp() * letter * m.Cp())^1)), "alo") +assert(table.concat(t[1], ";") == "1;2;2;3;3;4") + +t = m.match(m.Ct(m.C(m.C(1) * 1 * m.C(1))), "alo") +checkeq(t, {"alo", "a", "o"}) + + +-- tests for groups +p = m.Cg(1) -- no capture +assert(p:match('x') == 'x') +p = m.Cg(m.P(true)/function () end * 1) -- no value +assert(p:match('x') == 'x') +p = m.Cg(m.Cg(m.Cg(m.C(1)))) +assert(p:match('x') == 'x') +p = m.Cg(m.Cg(m.Cg(m.C(1))^0) * m.Cg(m.Cc(1) * m.Cc(2))) +t = {p:match'abc'} +checkeq(t, {'a', 'b', 'c', 1, 2}) + +p = m.Ct(m.Cg(m.Cc(10), "hi") * m.C(1)^0 * m.Cg(m.Cc(20), "ho")) +t = p:match'' +checkeq(t, {hi = 10, ho = 20}) +t = p:match'abc' +checkeq(t, {hi = 10, ho = 20, 'a', 'b', 'c'}) + +-- non-string group names +p = m.Ct(m.Cg(1, print) * m.Cg(1, 23.5) * m.Cg(1, io)) +t = p:match('abcdefghij') +assert(t[print] == 'a' and t[23.5] == 'b' and t[io] == 'c') + + +-- test for error messages +local function checkerr (msg, f, ...) + local st, err = pcall(f, ...) + assert(not st and m.match({ m.P(msg) + 1 * m.V(1) }, err)) +end + +checkerr("rule '1' may be left recursive", m.match, { m.V(1) * 'a' }, "a") +checkerr("rule '1' used outside a grammar", m.match, m.V(1), "") +checkerr("rule 'hiii' used outside a grammar", m.match, m.V('hiii'), "") +checkerr("rule 'hiii' undefined in given grammar", m.match, { m.V('hiii') }, "") +checkerr("undefined in given grammar", m.match, { m.V{} }, "") + +checkerr("rule 'A' is not a pattern", m.P, { m.P(1), A = {} }) +checkerr("grammar has no initial rule", m.P, { [print] = {} }) + +-- grammar with a long call chain before left recursion +p = {'a', + a = m.V'b' * m.V'c' * m.V'd' * m.V'a', + b = m.V'c', + c = m.V'd', + d = m.V'e', + e = m.V'f', + f = m.V'g', + g = m.P'' +} +checkerr("rule 'a' may be left recursive", m.match, p, "a") + +-- Bug in peephole optimization of LPeg 0.12 (IJmp -> ICommit) +-- the next grammar has an original sequence IJmp -> ICommit -> IJmp L1 +-- that is optimized to ICommit L1 + +p = m.P { (m.P {m.P'abc'} + 'ayz') * m.V'y'; y = m.P'x' } +assert(p:match('abcx') == 5 and p:match('ayzx') == 5 and not p:match'abc') + + +do + -- large dynamic Cc + local lim = 2^16 - 1 + local c = 0 + local function seq (n) + if n == 1 then c = c + 1; return m.Cc(c) + else + local m = math.floor(n / 2) + return seq(m) * seq(n - m) + end + end + p = m.Ct(seq(lim)) + t = p:match('') + assert(t[lim] == lim) + checkerr("too many", function () p = p / print end) + checkerr("too many", seq, lim + 1) +end + + +do + -- nesting of captures too deep + local p = m.C(1) + for i = 1, 300 do + p = m.Ct(p) + end + checkerr("too deep", p.match, p, "x") +end + + +-- tests for non-pattern as arguments to pattern functions + +p = { ('a' * m.V(1))^-1 } * m.P'b' * { 'a' * m.V(2); m.V(1)^-1 } +assert(m.match(p, "aaabaac") == 7) + +p = m.P'abc' * 2 * -5 * true * 'de' -- mix of numbers and strings and booleans + +assert(p:match("abc01de") == 8) +assert(p:match("abc01de3456") == nil) + +p = 'abc' * (2 * (-5 * (true * m.P'de'))) + +assert(p:match("abc01de") == 8) +assert(p:match("abc01de3456") == nil) + +p = { m.V(2), m.P"abc" } * + (m.P{ "xx", xx = m.P"xx" } + { "x", x = m.P"a" * m.V"x" + "" }) +assert(p:match("abcaaaxx") == 7) +assert(p:match("abcxx") == 6) + + +-- a large table capture +t = m.match(m.Ct(m.C('a')^0), string.rep("a", 10000)) +assert(#t == 10000 and t[1] == 'a' and t[#t] == 'a') + +print('+') + + +-- bug in 0.10 (rechecking a grammar, after tail-call optimization) +m.P{ m.P { (m.P(3) + "xuxu")^0 * m.V"xuxu", xuxu = m.P(1) } } + +local V = m.V + +local Space = m.S(" \n\t")^0 +local Number = m.C(m.R("09")^1) * Space +local FactorOp = m.C(m.S("+-")) * Space +local TermOp = m.C(m.S("*/")) * Space +local Open = "(" * Space +local Close = ")" * Space + + +local function f_factor (v1, op, v2, d) + assert(d == nil) + if op == "+" then return v1 + v2 + else return v1 - v2 + end +end + + +local function f_term (v1, op, v2, d) + assert(d == nil) + if op == "*" then return v1 * v2 + else return v1 / v2 + end +end + +G = m.P{ "Exp", + Exp = m.Cf(V"Factor" * m.Cg(FactorOp * V"Factor")^0, f_factor); + Factor = m.Cf(V"Term" * m.Cg(TermOp * V"Term")^0, f_term); + Term = Number / tonumber + Open * V"Exp" * Close; +} + +G = Space * G * -1 + +for _, s in ipairs{" 3 + 5*9 / (1+1) ", "3+4/2", "3+3-3- 9*2+3*9/1- 8"} do + assert(m.match(G, s) == loadstring("return "..s)()) +end + + +-- test for grammars (errors deep in calling non-terminals) +g = m.P{ + [1] = m.V(2) + "a", + [2] = "a" * m.V(3) * "x", + [3] = "b" * m.V(3) + "c" +} + +assert(m.match(g, "abbbcx") == 7) +assert(m.match(g, "abbbbx") == 2) + + +-- tests for \0 +assert(m.match(m.R("\0\1")^1, "\0\1\0") == 4) +assert(m.match(m.S("\0\1ab")^1, "\0\1\0a") == 5) +assert(m.match(m.P(1)^3, "\0\1\0a") == 5) +assert(not m.match(-4, "\0\1\0a")) +assert(m.match("\0\1\0a", "\0\1\0a") == 5) +assert(m.match("\0\0\0", "\0\0\0") == 4) +assert(not m.match("\0\0\0", "\0\0")) + + +-- tests for predicates +assert(not m.match(-m.P("a") * 2, "alo")) +assert(m.match(- -m.P("a") * 2, "alo") == 3) +assert(m.match(#m.P("a") * 2, "alo") == 3) +assert(m.match(##m.P("a") * 2, "alo") == 3) +assert(not m.match(##m.P("c") * 2, "alo")) +assert(m.match(m.Cs((##m.P("a") * 1 + m.P(1)/".")^0), "aloal") == "a..a.") +assert(m.match(m.Cs((#((#m.P"a")/"") * 1 + m.P(1)/".")^0), "aloal") == "a..a.") +assert(m.match(m.Cs((- -m.P("a") * 1 + m.P(1)/".")^0), "aloal") == "a..a.") +assert(m.match(m.Cs((-((-m.P"a")/"") * 1 + m.P(1)/".")^0), "aloal") == "a..a.") + + +-- fixed length +do + -- 'and' predicate using fixed length + local p = m.C(#("a" * (m.P("bd") + "cd")) * 2) + assert(p:match("acd") == "ac") + + p = #m.P{ "a" * m.V(2), m.P"b" } * 2 + assert(p:match("abc") == 3) + + p = #(m.P"abc" * m.B"c") + assert(p:match("abc") == 1 and not p:match("ab")) + + p = m.P{ "a" * m.V(2), m.P"b"^1 } + checkerr("pattern may not have fixed length", m.B, p) + + p = "abc" * (m.P"b"^1 + m.P"a"^0) + checkerr("pattern may not have fixed length", m.B, p) +end + + +p = -m.P'a' * m.Cc(1) + -m.P'b' * m.Cc(2) + -m.P'c' * m.Cc(3) +assert(p:match('a') == 2 and p:match('') == 1 and p:match('b') == 1) + +p = -m.P'a' * m.Cc(10) + #m.P'a' * m.Cc(20) +assert(p:match('a') == 20 and p:match('') == 10 and p:match('b') == 10) + + + +-- look-behind predicate +assert(not m.match(m.B'a', 'a')) +assert(m.match(1 * m.B'a', 'a') == 2) +assert(not m.match(m.B(1), 'a')) +assert(m.match(1 * m.B(1), 'a') == 2) +assert(m.match(-m.B(1), 'a') == 1) +assert(m.match(m.B(250), string.rep('a', 250)) == nil) +assert(m.match(250 * m.B(250), string.rep('a', 250)) == 251) + +-- look-behind with an open call +checkerr("pattern may not have fixed length", m.B, m.V'S1') +checkerr("too long to look behind", m.B, 260) + +B = #letter * -m.B(letter) + -letter * m.B(letter) +x = m.Ct({ (B * m.Cp())^-1 * (1 * m.V(1) + m.P(true)) }) +checkeq(m.match(x, 'ar cal c'), {1,3,4,7,9,10}) +checkeq(m.match(x, ' ar cal '), {2,4,5,8}) +checkeq(m.match(x, ' '), {}) +checkeq(m.match(x, 'aloalo'), {1,7}) + +assert(m.match(B, "a") == 1) +assert(m.match(1 * B, "a") == 2) +assert(not m.B(1 - letter):match("")) +assert((-m.B(letter)):match("") == 1) + +assert((4 * m.B(letter, 4)):match("aaaaaaaa") == 5) +assert(not (4 * m.B(#letter * 5)):match("aaaaaaaa")) +assert((4 * -m.B(#letter * 5)):match("aaaaaaaa") == 5) + +-- look-behind with grammars +assert(m.match('a' * m.B{'x', x = m.P(3)}, 'aaa') == nil) +assert(m.match('aa' * m.B{'x', x = m.P('aaa')}, 'aaaa') == nil) +assert(m.match('aaa' * m.B{'x', x = m.P('aaa')}, 'aaaaa') == 4) + + + +-- bug in 0.9 +assert(m.match(('a' * #m.P'b'), "ab") == 2) +assert(not m.match(('a' * #m.P'b'), "a")) + +assert(not m.match(#m.S'567', "")) +assert(m.match(#m.S'567' * 1, "6") == 2) + + +-- tests for Tail Calls + +p = m.P{ 'a' * m.V(1) + '' } +assert(p:match(string.rep('a', 1000)) == 1001) + +-- create a grammar for a simple DFA for even number of 0s and 1s +-- +-- ->1 <---0---> 2 +-- ^ ^ +-- | | +-- 1 1 +-- | | +-- V V +-- 3 <---0---> 4 +-- +-- this grammar should keep no backtracking information + +p = m.P{ + [1] = '0' * m.V(2) + '1' * m.V(3) + -1, + [2] = '0' * m.V(1) + '1' * m.V(4), + [3] = '0' * m.V(4) + '1' * m.V(1), + [4] = '0' * m.V(3) + '1' * m.V(2), +} + +assert(p:match(string.rep("00", 10000))) +assert(p:match(string.rep("01", 10000))) +assert(p:match(string.rep("011", 10000))) +assert(not p:match(string.rep("011", 10000) .. "1")) +assert(not p:match(string.rep("011", 10001))) + + +-- this grammar does need backtracking info. +local lim = 10000 +p = m.P{ '0' * m.V(1) + '0' } +checkerr("stack overflow", m.match, p, string.rep("0", lim)) +m.setmaxstack(2*lim) +checkerr("stack overflow", m.match, p, string.rep("0", lim)) +m.setmaxstack(2*lim + 4) +assert(m.match(p, string.rep("0", lim)) == lim + 1) + +-- this repetition should not need stack space (only the call does) +p = m.P{ ('a' * m.V(1))^0 * 'b' + 'c' } +m.setmaxstack(200) +assert(p:match(string.rep('a', 180) .. 'c' .. string.rep('b', 180)) == 362) + +m.setmaxstack(100) -- restore low limit + +-- tests for optional start position +assert(m.match("a", "abc", 1)) +assert(m.match("b", "abc", 2)) +assert(m.match("c", "abc", 3)) +assert(not m.match(1, "abc", 4)) +assert(m.match("a", "abc", -3)) +assert(m.match("b", "abc", -2)) +assert(m.match("c", "abc", -1)) +assert(m.match("abc", "abc", -4)) -- truncate to position 1 + +assert(m.match("", "abc", 10)) -- empty string is everywhere! +assert(m.match("", "", 10)) +assert(not m.match(1, "", 1)) +assert(not m.match(1, "", -1)) +assert(not m.match(1, "", 0)) + +print("+") + + +-- tests for argument captures +checkerr("invalid argument", m.Carg, 0) +checkerr("invalid argument", m.Carg, -1) +checkerr("invalid argument", m.Carg, 2^18) +checkerr("absent extra argument #1", m.match, m.Carg(1), 'a', 1) +assert(m.match(m.Carg(1), 'a', 1, print) == print) +x = {m.match(m.Carg(1) * m.Carg(2), '', 1, 10, 20)} +checkeq(x, {10, 20}) + +assert(m.match(m.Cmt(m.Cg(m.Carg(3), "a") * + m.Cmt(m.Cb("a"), function (s,i,x) + assert(s == "a" and i == 1); + return i, x+1 + end) * + m.Carg(2), function (s,i,a,b,c) + assert(s == "a" and i == 1 and c == nil); + return i, 2*a + 3*b + end) * "a", + "a", 1, false, 100, 1000) == 2*1001 + 3*100) + + +-- tests for Lua functions + +t = {} +s = "" +p = m.P(function (s1, i) assert(s == s1); t[#t + 1] = i; return nil end) * false +s = "hi, this is a test" +assert(m.match(((p - m.P(-1)) + 2)^0, s) == string.len(s) + 1) +assert(#t == string.len(s)/2 and t[1] == 1 and t[2] == 3) + +assert(not m.match(p, s)) + +p = mt.__add(function (s, i) return i end, function (s, i) return nil end) +assert(m.match(p, "alo")) + +p = mt.__mul(function (s, i) return i end, function (s, i) return nil end) +assert(not m.match(p, "alo")) + + +t = {} +p = function (s1, i) assert(s == s1); t[#t + 1] = i; return i end +s = "hi, this is a test" +assert(m.match((m.P(1) * p)^0, s) == string.len(s) + 1) +assert(#t == string.len(s) and t[1] == 2 and t[2] == 3) + +t = {} +p = m.P(function (s1, i) assert(s == s1); t[#t + 1] = i; + return i <= s1:len() and i end) * 1 +s = "hi, this is a test" +assert(m.match(p^0, s) == string.len(s) + 1) +assert(#t == string.len(s) + 1 and t[1] == 1 and t[2] == 2) + +p = function (s1, i) return m.match(m.P"a"^1, s1, i) end +assert(m.match(p, "aaaa") == 5) +assert(m.match(p, "abaa") == 2) +assert(not m.match(p, "baaa")) + +checkerr("invalid position", m.match, function () return 2^20 end, s) +checkerr("invalid position", m.match, function () return 0 end, s) +checkerr("invalid position", m.match, function (s, i) return i - 1 end, s) +checkerr("invalid position", m.match, + m.P(1)^0 * function (_, i) return i - 1 end, s) +assert(m.match(m.P(1)^0 * function (_, i) return i end * -1, s)) +checkerr("invalid position", m.match, + m.P(1)^0 * function (_, i) return i + 1 end, s) +assert(m.match(m.P(function (s, i) return s:len() + 1 end) * -1, s)) +checkerr("invalid position", m.match, m.P(function (s, i) return s:len() + 2 end) * -1, s) +assert(not m.match(m.P(function (s, i) return s:len() end) * -1, s)) +assert(m.match(m.P(1)^0 * function (_, i) return true end, s) == + string.len(s) + 1) +for i = 1, string.len(s) + 1 do + assert(m.match(function (_, _) return i end, s) == i) +end + +p = (m.P(function (s, i) return i%2 == 0 and i end) * 1 + + m.P(function (s, i) return i%2 ~= 0 and i + 2 <= s:len() and i end) * 3)^0 + * -1 +assert(p:match(string.rep('a', 14000))) + +-- tests for Function Replacements +f = function (a, ...) if a ~= "x" then return {a, ...} end end + +t = m.match(m.C(1)^0/f, "abc") +checkeq(t, {"a", "b", "c"}) + +t = m.match(m.C(1)^0/f/f, "abc") +checkeq(t, {{"a", "b", "c"}}) + +t = m.match(m.P(1)^0/f/f, "abc") -- no capture +checkeq(t, {{"abc"}}) + +t = m.match((m.P(1)^0/f * m.Cp())/f, "abc") +checkeq(t, {{"abc"}, 4}) + +t = m.match((m.C(1)^0/f * m.Cp())/f, "abc") +checkeq(t, {{"a", "b", "c"}, 4}) + +t = m.match((m.C(1)^0/f * m.Cp())/f, "xbc") +checkeq(t, {4}) + +t = m.match(m.C(m.C(1)^0)/f, "abc") +checkeq(t, {"abc", "a", "b", "c"}) + +g = function (...) return 1, ... end +t = {m.match(m.C(1)^0/g/g, "abc")} +checkeq(t, {1, 1, "a", "b", "c"}) + +t = {m.match(m.Cc(nil,nil,4) * m.Cc(nil,3) * m.Cc(nil, nil) / g / g, "")} +t1 = {1,1,nil,nil,4,nil,3,nil,nil} +for i=1,10 do assert(t[i] == t1[i]) end + +-- bug in 0.12.2: ktable with only nil could be eliminated when joining +-- with a pattern without ktable +assert((m.P"aaa" * m.Cc(nil)):match"aaa" == nil) + +t = {m.match((m.C(1) / function (x) return x, x.."x" end)^0, "abc")} +checkeq(t, {"a", "ax", "b", "bx", "c", "cx"}) + +t = m.match(m.Ct((m.C(1) / function (x,y) return y, x end * m.Cc(1))^0), "abc") +checkeq(t, {nil, "a", 1, nil, "b", 1, nil, "c", 1}) + +-- tests for Query Replacements + +assert(m.match(m.C(m.C(1)^0)/{abc = 10}, "abc") == 10) +assert(m.match(m.C(1)^0/{a = 10}, "abc") == 10) +assert(m.match(m.S("ba")^0/{ab = 40}, "abc") == 40) +t = m.match(m.Ct((m.S("ba")/{a = 40})^0), "abc") +checkeq(t, {40}) + +assert(m.match(m.Cs((m.C(1)/{a=".", d=".."})^0), "abcdde") == ".bc....e") +assert(m.match(m.Cs((m.C(1)/{f="."})^0), "abcdde") == "abcdde") +assert(m.match(m.Cs((m.C(1)/{d="."})^0), "abcdde") == "abc..e") +assert(m.match(m.Cs((m.C(1)/{e="."})^0), "abcdde") == "abcdd.") +assert(m.match(m.Cs((m.C(1)/{e=".", f="+"})^0), "eefef") == "..+.+") +assert(m.match(m.Cs((m.C(1))^0), "abcdde") == "abcdde") +assert(m.match(m.Cs(m.C(m.C(1)^0)), "abcdde") == "abcdde") +assert(m.match(1 * m.Cs(m.P(1)^0), "abcdde") == "bcdde") +assert(m.match(m.Cs((m.C('0')/'x' + 1)^0), "abcdde") == "abcdde") +assert(m.match(m.Cs((m.C('0')/'x' + 1)^0), "0ab0b0") == "xabxbx") +assert(m.match(m.Cs((m.C('0')/'x' + m.P(1)/{b=3})^0), "b0a0b") == "3xax3") +assert(m.match(m.P(1)/'%0%0'/{aa = -3} * 'x', 'ax') == -3) +assert(m.match(m.C(1)/'%0%1'/{aa = 'z'}/{z = -3} * 'x', 'ax') == -3) + +assert(m.match(m.Cs(m.Cc(0) * (m.P(1)/"")), "4321") == "0") + +assert(m.match(m.Cs((m.P(1) / "%0")^0), "abcd") == "abcd") +assert(m.match(m.Cs((m.P(1) / "%0.%0")^0), "abcd") == "a.ab.bc.cd.d") +assert(m.match(m.Cs((m.P("a") / "%0.%0" + 1)^0), "abcad") == "a.abca.ad") +assert(m.match(m.C("a") / "%1%%%0", "a") == "a%a") +assert(m.match(m.Cs((m.P(1) / ".xx")^0), "abcd") == ".xx.xx.xx.xx") +assert(m.match(m.Cp() * m.P(3) * m.Cp()/"%2%1%1 - %0 ", "abcde") == + "411 - abc ") + +assert(m.match(m.P(1)/"%0", "abc") == "a") +checkerr("invalid capture index", m.match, m.P(1)/"%1", "abc") +checkerr("invalid capture index", m.match, m.P(1)/"%9", "abc") + +p = m.C(1) +p = p * p; p = p * p; p = p * p * m.C(1) / "%9 - %1" +assert(p:match("1234567890") == "9 - 1") + +assert(m.match(m.Cc(print), "") == print) + +-- too many captures (just ignore extra ones) +p = m.C(1)^0 / "%2-%9-%0-%9" +assert(p:match"01234567890123456789" == "1-8-01234567890123456789-8") +s = string.rep("12345678901234567890", 20) +assert(m.match(m.C(1)^0 / "%9-%1-%0-%3", s) == "9-1-" .. s .. "-3") + +-- string captures with non-string subcaptures +p = m.Cc('alo') * m.C(1) / "%1 - %2 - %1" +assert(p:match'x' == 'alo - x - alo') + +checkerr("invalid capture value (a boolean)", m.match, m.Cc(true) / "%1", "a") + +-- long strings for string capture +l = 10000 +s = string.rep('a', l) .. string.rep('b', l) .. string.rep('c', l) + +p = (m.C(m.P'a'^1) * m.C(m.P'b'^1) * m.C(m.P'c'^1)) / '%3%2%1' + +assert(p:match(s) == string.rep('c', l) .. + string.rep('b', l) .. + string.rep('a', l)) + +print"+" + +-- accumulator capture +function f (x) return x + 1 end +assert(m.match(m.Cf(m.Cc(0) * m.C(1)^0, f), "alo alo") == 7) + +t = {m.match(m.Cf(m.Cc(1,2,3), error), "")} +checkeq(t, {1}) +p = m.Cf(m.Ct(true) * m.Cg(m.C(m.R"az"^1) * "=" * m.C(m.R"az"^1) * ";")^0, + rawset) +t = p:match("a=b;c=du;xux=yuy;") +checkeq(t, {a="b", c="du", xux="yuy"}) + + +-- errors in accumulator capture + +-- no initial capture +checkerr("no initial value", m.match, m.Cf(m.P(5), print), 'aaaaaa') +-- no initial capture (very long match forces fold to be a pair open-close) +checkerr("no initial value", m.match, m.Cf(m.P(500), print), + string.rep('a', 600)) + +-- nested capture produces no initial value +checkerr("no initial value", m.match, m.Cf(m.P(1) / {}, print), "alo") + + +-- tests for loop checker + +local function isnullable (p) + checkerr("may accept empty string", function (p) return p^0 end, m.P(p)) +end + +isnullable(m.P("x")^-4) +assert(m.match(((m.P(0) + 1) * m.S"al")^0, "alo") == 3) +assert(m.match((("x" + #m.P(1))^-4 * m.S"al")^0, "alo") == 3) +isnullable("") +isnullable(m.P("x")^0) +isnullable(m.P("x")^-1) +isnullable(m.P("x") + 1 + 2 + m.P("a")^-1) +isnullable(-m.P("ab")) +isnullable(- -m.P("ab")) +isnullable(# #(m.P("ab") + "xy")) +isnullable(- #m.P("ab")^0) +isnullable(# -m.P("ab")^1) +isnullable(#m.V(3)) +isnullable(m.V(3) + m.V(1) + m.P('a')^-1) +isnullable({[1] = m.V(2) * m.V(3), [2] = m.V(3), [3] = m.P(0)}) +assert(m.match(m.P{[1] = m.V(2) * m.V(3), [2] = m.V(3), [3] = m.P(1)}^0, "abc") + == 3) +assert(m.match(m.P""^-3, "a") == 1) + +local function find (p, s) + return m.match(basiclookfor(p), s) +end + + +local function badgrammar (g, expected) + local stat, msg = pcall(m.P, g) + assert(not stat) + if expected then assert(find(expected, msg)) end +end + +badgrammar({[1] = m.V(1)}, "rule '1'") +badgrammar({[1] = m.V(2)}, "rule '2'") -- invalid non-terminal +badgrammar({[1] = m.V"x"}, "rule 'x'") -- invalid non-terminal +badgrammar({[1] = m.V{}}, "rule '(a table)'") -- invalid non-terminal +badgrammar({[1] = #m.P("a") * m.V(1)}, "rule '1'") -- left-recursive +badgrammar({[1] = -m.P("a") * m.V(1)}, "rule '1'") -- left-recursive +badgrammar({[1] = -1 * m.V(1)}, "rule '1'") -- left-recursive +badgrammar({[1] = -1 + m.V(1)}, "rule '1'") -- left-recursive +badgrammar({[1] = 1 * m.V(2), [2] = m.V(2)}, "rule '2'") -- left-recursive +badgrammar({[1] = 1 * m.V(2)^0, [2] = m.P(0)}, "rule '1'") -- inf. loop +badgrammar({ m.V(2), m.V(3)^0, m.P"" }, "rule '2'") -- inf. loop +badgrammar({ m.V(2) * m.V(3)^0, m.V(3)^0, m.P"" }, "rule '1'") -- inf. loop +badgrammar({"x", x = #(m.V(1) * 'a') }, "rule '1'") -- inf. loop +badgrammar({ -(m.V(1) * 'a') }, "rule '1'") -- inf. loop +badgrammar({"x", x = m.P'a'^-1 * m.V"x"}, "rule 'x'") -- left recursive +badgrammar({"x", x = m.P'a' * m.V"y"^1, y = #m.P(1)}, "rule 'x'") + +assert(m.match({'a' * -m.V(1)}, "aaa") == 2) +assert(m.match({'a' * -m.V(1)}, "aaaa") == nil) + + +-- good x bad grammars +m.P{ ('a' * m.V(1))^-1 } +m.P{ -('a' * m.V(1)) } +m.P{ ('abc' * m.V(1))^-1 } +m.P{ -('abc' * m.V(1)) } +badgrammar{ #m.P('abc') * m.V(1) } +badgrammar{ -('a' + m.V(1)) } +m.P{ #('a' * m.V(1)) } +badgrammar{ #('a' + m.V(1)) } +m.P{ m.B{ m.P'abc' } * 'a' * m.V(1) } +badgrammar{ m.B{ m.P'abc' } * m.V(1) } +badgrammar{ ('a' + m.P'bcd')^-1 * m.V(1) } + + +-- simple tests for maximum sizes: +local p = m.P"a" +for i=1,14 do p = p * p end + +p = {} +for i=1,100 do p[i] = m.P"a" end +p = m.P(p) + + +-- strange values for rule labels + +p = m.P{ "print", + print = m.V(print), + [print] = m.V(_G), + [_G] = m.P"a", + } + +assert(p:match("a")) + +-- initial rule +g = {} +for i = 1, 10 do g["i"..i] = "a" * m.V("i"..i+1) end +g.i11 = m.P"" +for i = 1, 10 do + g[1] = "i"..i + local p = m.P(g) + assert(p:match("aaaaaaaaaaa") == 11 - i + 1) +end + +print"+" + + +-- tests for back references +checkerr("back reference 'x' not found", m.match, m.Cb('x'), '') +checkerr("back reference 'b' not found", m.match, m.Cg(1, 'a') * m.Cb('b'), 'a') + +p = m.Cg(m.C(1) * m.C(1), "k") * m.Ct(m.Cb("k")) +t = p:match("ab") +checkeq(t, {"a", "b"}) + +p = m.P(true) +for i = 1, 10 do p = p * m.Cg(1, i) end +for i = 1, 10 do + local p = p * m.Cb(i) + assert(p:match('abcdefghij') == string.sub('abcdefghij', i, i)) +end + + +t = {} +function foo (p) t[#t + 1] = p; return p .. "x" end + +p = m.Cg(m.C(2) / foo, "x") * m.Cb"x" * + m.Cg(m.Cb('x') / foo, "x") * m.Cb"x" * + m.Cg(m.Cb('x') / foo, "x") * m.Cb"x" * + m.Cg(m.Cb('x') / foo, "x") * m.Cb"x" +x = {p:match'ab'} +checkeq(x, {'abx', 'abxx', 'abxxx', 'abxxxx'}) +checkeq(t, {'ab', + 'ab', 'abx', + 'ab', 'abx', 'abxx', + 'ab', 'abx', 'abxx', 'abxxx'}) + + + +-- tests for match-time captures + +p = m.P'a' * (function (s, i) return (s:sub(i, i) == 'b') and i + 1 end) + + 'acd' + +assert(p:match('abc') == 3) +assert(p:match('acd') == 4) + +local function id (s, i, ...) + return true, ... +end + +assert(m.Cmt(m.Cs((m.Cmt(m.S'abc' / { a = 'x', c = 'y' }, id) + + m.R'09'^1 / string.char + + m.P(1))^0), id):match"acb98+68c" == "xyb\98+\68y") + +p = m.P{'S', + S = m.V'atom' * space + + m.Cmt(m.Ct("(" * space * (m.Cmt(m.V'S'^1, id) + m.P(true)) * ")" * space), id), + atom = m.Cmt(m.C(m.R("AZ", "az", "09")^1), id) +} +x = p:match"(a g () ((b) c) (d (e)))" +checkeq(x, {'a', 'g', {}, {{'b'}, 'c'}, {'d', {'e'}}}); + +x = {(m.Cmt(1, id)^0):match(string.rep('a', 500))} +assert(#x == 500) + +local function id(s, i, x) + if x == 'a' then return i, 1, 3, 7 + else return nil, 2, 4, 6, 8 + end +end + +p = ((m.P(id) * 1 + m.Cmt(2, id) * 1 + m.Cmt(1, id) * 1))^0 +assert(table.concat{p:match('abababab')} == string.rep('137', 4)) + +local function ref (s, i, x) + return m.match(x, s, i - x:len()) +end + +assert(m.Cmt(m.P(1)^0, ref):match('alo') == 4) +assert((m.P(1) * m.Cmt(m.P(1)^0, ref)):match('alo') == 4) +assert(not (m.P(1) * m.Cmt(m.C(1)^0, ref)):match('alo')) + +ref = function (s,i,x) return i == tonumber(x) and i, 'xuxu' end + +assert(m.Cmt(1, ref):match'2') +assert(not m.Cmt(1, ref):match'1') +assert(m.Cmt(m.P(1)^0, ref):match'03') + +function ref (s, i, a, b) + if a == b then return i, a:upper() end +end + +p = m.Cmt(m.C(m.R"az"^1) * "-" * m.C(m.R"az"^1), ref) +p = (any - p)^0 * p * any^0 * -1 + +assert(p:match'abbbc-bc ddaa' == 'BC') + +do -- match-time captures cannot be optimized away + local touch = 0 + f = m.P(function () touch = touch + 1; return true end) + + local function check(n) n = n or 1; assert(touch == n); touch = 0 end + + assert(m.match(f * false + 'b', 'a') == nil); check() + assert(m.match(f * false + 'b', '') == nil); check() + assert(m.match( (f * 'a')^0 * 'b', 'b') == 2); check() + assert(m.match( (f * 'a')^0 * 'b', '') == nil); check() + assert(m.match( (f * 'a')^-1 * 'b', 'b') == 2); check() + assert(m.match( (f * 'a')^-1 * 'b', '') == nil); check() + assert(m.match( ('b' + f * 'a')^-1 * 'b', '') == nil); check() + assert(m.match( (m.P'b'^-1 * f * 'a')^-1 * 'b', '') == nil); check() + assert(m.match( (-m.P(1) * m.P'b'^-1 * f * 'a')^-1 * 'b', '') == nil); + check() + assert(m.match( (f * 'a' + 'b')^-1 * 'b', '') == nil); check() + assert(m.match(f * 'a' + f * 'b', 'b') == 2); check(2) + assert(m.match(f * 'a' + f * 'b', 'a') == 2); check(1) + assert(m.match(-f * 'a' + 'b', 'b') == 2); check(1) + assert(m.match(-f * 'a' + 'b', '') == nil); check(1) +end + +c = '[' * m.Cg(m.P'='^0, "init") * '[' * + { m.Cmt(']' * m.C(m.P'='^0) * ']' * m.Cb("init"), function (_, _, s1, s2) + return s1 == s2 end) + + 1 * m.V(1) } / 0 + +assert(c:match'[==[]]====]]]]==]===[]' == 18) +assert(c:match'[[]=]====]=]]]==]===[]' == 14) +assert(not c:match'[[]=]====]=]=]==]===[]') + + +-- old bug: optimization of concat with fail removed match-time capture +p = m.Cmt(0, function (s) p = s end) * m.P(false) +assert(not p:match('alo')) +assert(p == 'alo') + + +-- ensure that failed match-time captures are not kept on Lua stack +do + local t = {__mode = "kv"}; setmetatable(t,t) + local c = 0 + + local function foo (s,i) + collectgarbage(); + assert(next(t) == "__mode" and next(t, "__mode") == nil) + local x = {} + t[x] = true + c = c + 1 + return i, x + end + + local p = m.P{ m.Cmt(0, foo) * m.P(false) + m.P(1) * m.V(1) + m.P"" } + p:match(string.rep('1', 10)) + assert(c == 11) +end + + +-- Return a match-time capture that returns 'n' captures +local function manyCmt (n) + return m.Cmt("a", function () + local a = {}; for i = 1, n do a[i] = n - i end + return true, unpack(a) + end) +end + +-- bug in 1.0: failed match-time that used previous match-time results +do + local x + local function aux (...) x = #{...}; return false end + local res = {m.match(m.Cmt(manyCmt(20), aux) + manyCmt(10), "a")} + assert(#res == 10 and res[1] == 9 and res[10] == 0) +end + + +-- bug in 1.0: problems with math-times returning too many captures +do + local lim = 2^11 - 10 + local res = {m.match(manyCmt(lim), "a")} + assert(#res == lim and res[1] == lim - 1 and res[lim] == 0) + checkerr("too many", m.match, manyCmt(2^15), "a") +end + +p = (m.P(function () return true, "a" end) * 'a' + + m.P(function (s, i) return i, "aa", 20 end) * 'b' + + m.P(function (s,i) if i <= #s then return i, "aaa" end end) * 1)^0 + +t = {p:match('abacc')} +checkeq(t, {'a', 'aa', 20, 'a', 'aaa', 'aaa'}) + + +------------------------------------------------------------------- +-- Tests for 're' module +------------------------------------------------------------------- + +local re = require "re" + +local match, compile = re.match, re.compile + + + +assert(match("a", ".") == 2) +assert(match("a", "''") == 1) +assert(match("", " ! . ") == 1) +assert(not match("a", " ! . ")) +assert(match("abcde", " ( . . ) * ") == 5) +assert(match("abbcde", " [a-c] +") == 5) +assert(match("0abbc1de", "'0' [a-c]+ '1'") == 7) +assert(match("0zz1dda", "'0' [^a-c]+ 'a'") == 8) +assert(match("abbc--", " [a-c] + +") == 5) +assert(match("abbc--", " [ac-] +") == 2) +assert(match("abbc--", " [-acb] + ") == 7) +assert(not match("abbcde", " [b-z] + ")) +assert(match("abb\"de", '"abb"["]"de"') == 7) +assert(match("abceeef", "'ac' ? 'ab' * 'c' { 'e' * } / 'abceeef' ") == "eee") +assert(match("abceeef", "'ac'? 'ab'* 'c' { 'f'+ } / 'abceeef' ") == 8) + +assert(re.match("aaand", "[a]^2") == 3) + +local t = {match("abceefe", "( ( & 'e' {} ) ? . ) * ")} +checkeq(t, {4, 5, 7}) +local t = {match("abceefe", "((&&'e' {})? .)*")} +checkeq(t, {4, 5, 7}) +local t = {match("abceefe", "( ( ! ! 'e' {} ) ? . ) *")} +checkeq(t, {4, 5, 7}) +local t = {match("abceefe", "(( & ! & ! 'e' {})? .)*")} +checkeq(t, {4, 5, 7}) + +assert(match("cccx" , "'ab'? ('ccc' / ('cde' / 'cd'*)? / 'ccc') 'x'+") == 5) +assert(match("cdx" , "'ab'? ('ccc' / ('cde' / 'cd'*)? / 'ccc') 'x'+") == 4) +assert(match("abcdcdx" , "'ab'? ('ccc' / ('cde' / 'cd'*)? / 'ccc') 'x'+") == 8) + +assert(match("abc", "a <- (. a)?") == 4) +b = "balanced <- '(' ([^()] / balanced)* ')'" +assert(match("(abc)", b)) +assert(match("(a(b)((c) (d)))", b)) +assert(not match("(a(b ((c) (d)))", b)) + +b = compile[[ balanced <- "(" ([^()] / balanced)* ")" ]] +assert(b == m.P(b)) +assert(b:match"((((a))(b)))") + +local g = [[ + S <- "0" B / "1" A / "" -- balanced strings + A <- "0" S / "1" A A -- one more 0 + B <- "1" S / "0" B B -- one more 1 +]] +assert(match("00011011", g) == 9) + +local g = [[ + S <- ("0" B / "1" A)* + A <- "0" / "1" A A + B <- "1" / "0" B B +]] +assert(match("00011011", g) == 9) +assert(match("000110110", g) == 9) +assert(match("011110110", g) == 3) +assert(match("000110010", g) == 1) + +s = "aaaaaaaaaaaaaaaaaaaaaaaa" +assert(match(s, "'a'^3") == 4) +assert(match(s, "'a'^0") == 1) +assert(match(s, "'a'^+3") == s:len() + 1) +assert(not match(s, "'a'^+30")) +assert(match(s, "'a'^-30") == s:len() + 1) +assert(match(s, "'a'^-5") == 6) +for i = 1, s:len() do + assert(match(s, string.format("'a'^+%d", i)) >= i + 1) + assert(match(s, string.format("'a'^-%d", i)) <= i + 1) + assert(match(s, string.format("'a'^%d", i)) == i + 1) +end +assert(match("01234567890123456789", "[0-9]^3+") == 19) + + +assert(match("01234567890123456789", "({....}{...}) -> '%2%1'") == "4560123") +t = match("0123456789", "{| {.}* |}") +checkeq(t, {"0", "1", "2", "3", "4", "5", "6", "7", "8", "9"}) +assert(match("012345", "{| (..) -> '%0%0' |}")[1] == "0101") + +assert(match("abcdef", "( {.} {.} {.} {.} {.} ) -> 3") == "c") +assert(match("abcdef", "( {:x: . :} {.} {.} {.} {.} ) -> 3") == "d") +assert(match("abcdef", "( {:x: . :} {.} {.} {.} {.} ) -> 0") == 6) + +assert(not match("abcdef", "{:x: ({.} {.} {.}) -> 2 :} =x")) +assert(match("abcbef", "{:x: ({.} {.} {.}) -> 2 :} =x")) + +eqcharset(compile"[]]", "]") +eqcharset(compile"[][]", m.S"[]") +eqcharset(compile"[]-]", m.S"-]") +eqcharset(compile"[-]", m.S"-") +eqcharset(compile"[az-]", m.S"a-z") +eqcharset(compile"[-az]", m.S"a-z") +eqcharset(compile"[a-z]", m.R"az") +eqcharset(compile"[]['\"]", m.S[[]['"]]) + +eqcharset(compile"[^]]", any - "]") +eqcharset(compile"[^][]", any - m.S"[]") +eqcharset(compile"[^]-]", any - m.S"-]") +eqcharset(compile"[^]-]", any - m.S"-]") +eqcharset(compile"[^-]", any - m.S"-") +eqcharset(compile"[^az-]", any - m.S"a-z") +eqcharset(compile"[^-az]", any - m.S"a-z") +eqcharset(compile"[^a-z]", any - m.R"az") +eqcharset(compile"[^]['\"]", any - m.S[[]['"]]) + +-- tests for comments in 're' +e = compile[[ +A <- _B -- \t \n %nl .<> <- -> -- +_B <- 'x' --]] +assert(e:match'xy' == 2) + +-- tests for 're' with pre-definitions +defs = {digits = m.R"09", letters = m.R"az", _=m.P"__"} +e = compile("%letters (%letters / %digits)*", defs) +assert(e:match"x123" == 5) +e = compile("%_", defs) +assert(e:match"__" == 3) + +e = compile([[ + S <- A+ + A <- %letters+ B + B <- %digits+ +]], defs) + +e = compile("{[0-9]+'.'?[0-9]*} -> sin", math) +assert(e:match("2.34") == math.sin(2.34)) + + +function eq (_, _, a, b) return a == b end + +c = re.compile([[ + longstring <- '[' {:init: '='* :} '[' close + close <- ']' =init ']' / . close +]]) + +assert(c:match'[==[]]===]]]]==]===[]' == 17) +assert(c:match'[[]=]====]=]]]==]===[]' == 14) +assert(not c:match'[[]=]====]=]=]==]===[]') + +c = re.compile" '[' {:init: '='* :} '[' (!(']' =init ']') .)* ']' =init ']' !. " + +assert(c:match'[==[]]===]]]]==]') +assert(c:match'[[]=]====]=][]==]===[]]') +assert(not c:match'[[]=]====]=]=]==]===[]') + +assert(re.find("hi alalo", "{:x:..:} =x") == 4) +assert(re.find("hi alalo", "{:x:..:} =x", 4) == 4) +assert(not re.find("hi alalo", "{:x:..:} =x", 5)) +assert(re.find("hi alalo", "{'al'}", 5) == 6) +assert(re.find("hi aloalolo", "{:x:..:} =x") == 8) +assert(re.find("alo alohi x x", "{:word:%w+:}%W*(=word)!%w") == 11) + +-- re.find discards any captures +local a,b,c = re.find("alo", "{.}{'o'}") +assert(a == 2 and b == 3 and c == nil) + +local function match (s,p) + local i,e = re.find(s,p) + if i then return s:sub(i, e) end +end +assert(match("alo alo", '[a-z]+') == "alo") +assert(match("alo alo", '{:x: [a-z]+ :} =x') == nil) +assert(match("alo alo", "{:x: [a-z]+ :} ' ' =x") == "alo alo") + +assert(re.gsub("alo alo", "[abc]", "x") == "xlo xlo") +assert(re.gsub("alo alo", "%w+", ".") == ". .") +assert(re.gsub("hi, how are you", "[aeiou]", string.upper) == + "hI, hOw ArE yOU") + +s = 'hi [[a comment[=]=] ending here]] and [=[another]]=]]' +c = re.compile" '[' {:i: '='* :} '[' (!(']' =i ']') .)* ']' { =i } ']' " +assert(re.gsub(s, c, "%2") == 'hi and =]') +assert(re.gsub(s, c, "%0") == s) +assert(re.gsub('[=[hi]=]', c, "%2") == '=') + +assert(re.find("", "!.") == 1) +assert(re.find("alo", "!.") == 4) + +function addtag (s, i, t, tag) t.tag = tag; return i, t end + +c = re.compile([[ + doc <- block !. + block <- (start {| (block / { [^<]+ })* |} end?) => addtag + start <- '<' {:tag: [a-z]+ :} '>' + end <- '</' { =tag } '>' +]], {addtag = addtag}) + +x = c:match[[ +<x>hi<b>hello</b>but<b>totheend</x>]] +checkeq(x, {tag='x', 'hi', {tag = 'b', 'hello'}, 'but', + {'totheend'}}) + + +-- test for folding captures +c = re.compile([[ + S <- (number (%s+ number)*) ~> add + number <- %d+ -> tonumber +]], {tonumber = tonumber, add = function (a,b) return a + b end}) +assert(c:match("3 401 50") == 3 + 401 + 50) + +-- tests for look-ahead captures +x = {re.match("alo", "&(&{.}) !{'b'} {&(...)} &{..} {...} {!.}")} +checkeq(x, {"", "alo", ""}) + +assert(re.match("aloalo", + "{~ (((&'al' {.}) -> 'A%1' / (&%l {.}) -> '%1%1') / .)* ~}") + == "AallooAalloo") + +-- bug in 0.9 (and older versions), due to captures in look-aheads +x = re.compile[[ {~ (&(. ([a-z]* -> '*')) ([a-z]+ -> '+') ' '*)* ~} ]] +assert(x:match"alo alo" == "+ +") + +-- valid capture in look-ahead (used inside the look-ahead itself) +x = re.compile[[ + S <- &({:two: .. :} . =two) {[a-z]+} / . S +]] +assert(x:match("hello aloaLo aloalo xuxu") == "aloalo") + + +p = re.compile[[ + block <- {| {:ident:space*:} line + ((=ident !space line) / &(=ident space) block)* |} + line <- {[^%nl]*} %nl + space <- '_' -- should be ' ', but '_' is simpler for editors +]] + +t= p:match[[ +1 +__1.1 +__1.2 +____1.2.1 +____ +2 +__2.1 +]] +checkeq(t, {"1", {"1.1", "1.2", {"1.2.1", "", ident = "____"}, ident = "__"}, + "2", {"2.1", ident = "__"}, ident = ""}) + + +-- nested grammars +p = re.compile[[ + s <- a b !. + b <- ( x <- ('b' x)? ) + a <- ( x <- 'a' x? ) +]] + +assert(p:match'aaabbb') +assert(p:match'aaa') +assert(not p:match'bbb') +assert(not p:match'aaabbba') + +-- testing groups +t = {re.match("abc", "{:S <- {:.:} {S} / '':}")} +checkeq(t, {"a", "bc", "b", "c", "c", ""}) + +t = re.match("1234", "{| {:a:.:} {:b:.:} {:c:.{.}:} |}") +checkeq(t, {a="1", b="2", c="4"}) +t = re.match("1234", "{|{:a:.:} {:b:{.}{.}:} {:c:{.}:}|}") +checkeq(t, {a="1", b="2", c="4"}) +t = re.match("12345", "{| {:.:} {:b:{.}{.}:} {:{.}{.}:} |}") +checkeq(t, {"1", b="2", "4", "5"}) +t = re.match("12345", "{| {:.:} {:{:b:{.}{.}:}:} {:{.}{.}:} |}") +checkeq(t, {"1", "23", "4", "5"}) +t = re.match("12345", "{| {:.:} {{:b:{.}{.}:}} {:{.}{.}:} |}") +checkeq(t, {"1", "23", "4", "5"}) + + +-- testing pre-defined names +assert(os.setlocale("C") == "C") + +function eqlpeggsub (p1, p2) + local s1 = cs2str(re.compile(p1)) + local s2 = string.gsub(allchar, "[^" .. p2 .. "]", "") + -- if s1 ~= s2 then print(#s1,#s2) end + assert(s1 == s2) +end + + +eqlpeggsub("%w", "%w") +eqlpeggsub("%a", "%a") +eqlpeggsub("%l", "%l") +eqlpeggsub("%u", "%u") +eqlpeggsub("%p", "%p") +eqlpeggsub("%d", "%d") +eqlpeggsub("%x", "%x") +eqlpeggsub("%s", "%s") +eqlpeggsub("%c", "%c") + +eqlpeggsub("%W", "%W") +eqlpeggsub("%A", "%A") +eqlpeggsub("%L", "%L") +eqlpeggsub("%U", "%U") +eqlpeggsub("%P", "%P") +eqlpeggsub("%D", "%D") +eqlpeggsub("%X", "%X") +eqlpeggsub("%S", "%S") +eqlpeggsub("%C", "%C") + +eqlpeggsub("[%w]", "%w") +eqlpeggsub("[_%w]", "_%w") +eqlpeggsub("[^%w]", "%W") +eqlpeggsub("[%W%S]", "%W%S") + +re.updatelocale() + + +-- testing nested substitutions x string captures + +p = re.compile[[ + text <- {~ item* ~} + item <- macro / [^()] / '(' item* ')' + arg <- ' '* {~ (!',' item)* ~} + args <- '(' arg (',' arg)* ')' + macro <- ('apply' args) -> '%1(%2)' + / ('add' args) -> '%1 + %2' + / ('mul' args) -> '%1 * %2' +]] + +assert(p:match"add(mul(a,b), apply(f,x))" == "a * b + f(x)") + +rev = re.compile[[ R <- (!.) -> '' / ({.} R) -> '%2%1']] + +assert(rev:match"0123456789" == "9876543210") + + +-- testing error messages in re + +local function errmsg (p, err) + checkerr(err, re.compile, p) +end + +errmsg('aaaa', "rule 'aaaa'") +errmsg('a', 'outside') +errmsg('b <- a', 'undefined') +errmsg("x <- 'a' x <- 'b'", 'already defined') +errmsg("'a' -", "near '-'") + + +print"OK" + + |