-- This file is part of the Luau programming language and is licensed under MIT License; see LICENSE.txt for details -- This file is based on Lua 5.x tests -- https://github.com/lua/lua/tree/master/testes print('testing tables, next, and for') local unpack = table.unpack -- testing table.insert return value assert(select('#', table.insert({}, 42)) == 0) local a = {} -- make sure table has lots of space in hash part for i=1,100 do a[i.."+"] = true end for i=1,100 do a[i.."+"] = nil end -- fill hash part with numeric indices testing size operator for i=1,100 do a[i] = true assert(#a == i) end if T then -- testing table sizes local l2 = math.log(2) local function log2 (x) return math.log(x)/l2 end local function mp2 (n) -- minimum power of 2 >= n local mp = 2^math.ceil(log2(n)) assert(n == 0 or (mp/2 < n and n <= mp)) return mp end local function fb (n) local r, nn = T.int2fb(n) assert(r < 256) return nn end -- test fb function local a = 1 local lim = 2^30 while a < lim do local n = fb(a) assert(a <= n and n <= a*1.125) a = math.ceil(a*1.3) end local function check (t, na, nh) local a, h = T.querytab(t) if a ~= na or h ~= nh then print(na, nh, a, h) assert(nil) end end -- testing constructor sizes local lim = 40 local s = 'return {' for i=1,lim do s = s..i..',' local s = s for k=0,lim do local t = loadstring(s..'}')() assert(#t == i) check(t, fb(i), mp2(k)) s = string.format('%sa%d=%d,', s, k, k) end end -- tests with unknown number of elements local a = {} for i=1,lim do a[i] = i end -- build auxiliary table for k=0,lim do local a = {unpack(a,1,k)} assert(#a == k) check(a, k, 0) a = {1,2,3,unpack(a,1,k)} check(a, k+3, 0) assert(#a == k + 3) end print'+' -- testing tables dynamically built local lim = 130 do local a = {}; a[2] = 1; check(a, 0, 1) a = {}; a[0] = 1; check(a, 0, 1); a[2] = 1; check(a, 0, 2) a = {}; a[0] = 1; a[1] = 1; check(a, 1, 1) a = {} for i = 1,lim do a[i] = 1 assert(#a == i) check(a, mp2(i), 0) end end do local a = {} for i = 1,lim do a['a'..i] = 1 assert(#a == 0) check(a, 0, mp2(i)) end end do local a = {} for i=1,16 do a[i] = i end check(a, 16, 0) for i=1,11 do a[i] = nil end for i=30,40 do a[i] = nil end -- force a rehash (?) check(a, 0, 8) a[10] = 1 for i=30,40 do a[i] = nil end -- force a rehash (?) check(a, 0, 8) for i=1,14 do a[i] = nil end for i=30,50 do a[i] = nil end -- force a rehash (?) check(a, 0, 4) end do -- rehash moving elements from array to hash local a = {} for i = 1, 100 do a[i] = i end check(a, 128, 0) for i = 5, 95 do a[i] = nil end check(a, 128, 0) a.x = 1 -- force a re-hash check(a, 4, 8) for i = 1, 4 do assert(a[i] == i) end for i = 5, 95 do assert(a[i] == nil) end for i = 96, 100 do assert(a[i] == i) end assert(a.x == 1) end -- reverse filling for i=1,lim do local a = {} for i=i,1,-1 do a[i] = i end -- fill in reverse check(a, mp2(i), 0) end -- size tests for vararg lim = 35 function foo (n, ...) local arg = {...} check(arg, n, 0) assert(select('#', ...) == n) arg[n+1] = true check(arg, mp2(n+1), 0) arg.x = true check(arg, mp2(n+1), 1) end local a = {} for i=1,lim do a[i] = true; foo(i, unpack(a)) end end -- test size operation on empty tables assert(#{} == 0) assert(#{nil} == 0) assert(#{nil, nil} == 0) assert(#{nil, nil, nil} == 0) assert(#{nil, nil, nil, nil} == 0) print'+' local nofind = {} a,b,c = 1,2,3 a,b,c = nil local function find (name) local n,v while 1 do n,v = next(_G, n) if not n then return nofind end assert(v ~= nil) if n == name then return v end end end local function find1 (name) for n,v in pairs(_G) do if n==name then return v end end return nil -- not found end do -- create 10000 new global variables for i=1,10000 do _G[i] = i end end a = {x=90, y=8, z=23} assert(table.foreach(a, function(i,v) if i=='x' then return v end end) == 90) assert(table.foreach(a, function(i,v) if i=='a' then return v end end) == nil) table.foreach({}, error) table.foreachi({x=10, y=20}, error) local a = {n = 1} table.foreachi({n=3}, function (i, v) assert(a.n == i and not v) a.n=a.n+1 end) a = {10,20,30,nil,50} table.foreachi(a, function (i,v) assert(a[i] == v) end) assert(table.foreachi({'a', 'b', 'c'}, function (i,v) if i==2 then return v end end) == 'b') -- assert(print==find("print") and print == find1("print")) -- assert(_G["print"]==find("print")) -- assert(assert==find1("assert")) assert(nofind==find("return")) assert(not find1("return")) _G["ret" .. "urn"] = nil assert(nofind==find("return")) _G["xxx"] = 1 -- assert(xxx==find("xxx")) print('+') a = {} for i=0,10000 do if i % 10 ~= 0 then a['x'..i] = i end end n = {n=0} for i,v in pairs(a) do n.n = n.n+1 assert(i and v and a[i] == v) end assert(n.n == 9000) a = nil -- remove those 10000 new global variables for i=1,10000 do _G[i] = nil end do -- clear global table local a = {} local preserve = {io = 1, string = 1, debug = 1, os = 1, coroutine = 1, table = 1, math = 1} for n,v in pairs(_G) do a[n]=v end for n,v in pairs(a) do if not preserve[n] and type(v) ~= "function" and not string.find(n, "^[%u_]") then _G[n] = nil end collectgarbage() end end local function foo () local getfenv, setfenv, assert, next = getfenv, setfenv, assert, next local n = {gl1=3} setfenv(foo, n) assert(getfenv(foo) == getfenv(1)) assert(getfenv(foo) == n) assert(print == nil and gl1 == 3) gl1 = nil gl = 1 assert(n.gl == 1 and next(n, 'gl') == nil) end foo() print'+' local function checknext (a) local b = {} table.foreach(a, function (k,v) b[k] = v end) for k,v in pairs(b) do assert(a[k] == v) end for k,v in pairs(a) do assert(b[k] == v) end b = {} do local k,v = next(a); while k do b[k] = v; k,v = next(a,k) end end for k,v in pairs(b) do assert(a[k] == v) end for k,v in pairs(a) do assert(b[k] == v) end end checknext{1,x=1,y=2,z=3} checknext{1,2,x=1,y=2,z=3} checknext{1,2,3,x=1,y=2,z=3} checknext{1,2,3,4,x=1,y=2,z=3} checknext{1,2,3,4,5,x=1,y=2,z=3} assert(table.getn{} == 0) assert(table.getn{[-1] = 2} == 0) assert(table.getn{1,2,3,nil,nil} == 3) for i=0,40 do local a = {} for j=1,i do a[j]=j end assert(table.getn(a) == i) end assert(table.maxn{} == 0) assert(table.maxn{[-100] = 1} == 0) assert(table.maxn{["1000"] = true} == 0) assert(table.maxn{["1000"] = true, [24.5] = 3} == 24.5) assert(table.maxn{[1000] = true} == 1000) assert(table.maxn{[10] = true, [100*math.pi] = print} == 100*math.pi) a = {[10] = 1, [20] = 2} a[20] = nil assert(table.maxn(a) == 10) -- int overflow a = {} for i=0,50 do a[math.pow(2,i)] = true end assert(a[table.getn(a)]) print("+") -- erasing values local t = {[{1}] = 1, [{2}] = 2, [string.rep("x ", 4)] = 3, [100.3] = 4, [4] = 5} local n = 0 for k, v in pairs( t ) do n = n+1 assert(t[k] == v) t[k] = nil collectgarbage() assert(t[k] == nil) end assert(n == 5) local function test (a) table.insert(a, 10); table.insert(a, 2, 20); table.insert(a, 1, -1); table.insert(a, 40); table.insert(a, table.getn(a)+1, 50) table.insert(a, 2, -2) assert(table.remove(a,1) == -1) assert(table.remove(a,1) == -2) assert(table.remove(a,1) == 10) assert(table.remove(a,1) == 20) assert(table.remove(a,1) == 40) assert(table.remove(a,1) == 50) assert(table.remove(a,1) == nil) end a = {n=0, [-7] = "ban"} test(a) assert(a.n == 0 and a[-7] == "ban") a = {[-7] = "ban"}; test(a) assert(a.n == nil and table.getn(a) == 0 and a[-7] == "ban") table.insert(a, 1, 10); table.insert(a, 1, 20); table.insert(a, 1, -1) assert(table.remove(a) == 10) assert(table.remove(a) == 20) assert(table.remove(a) == -1) a = {'c', 'd'} table.insert(a, 3, 'a') table.insert(a, 'b') assert(table.remove(a, 1) == 'c') assert(table.remove(a, 1) == 'd') assert(table.remove(a, 1) == 'a') assert(table.remove(a, 1) == 'b') assert(table.getn(a) == 0 and a.n == nil) print("+") -- out of range insertion a = {1, 2, 3} table.insert(a, 0, 0) assert(a[0] == 0 and table.concat(a) == "123") table.insert(a, 10, 10) assert(a[0] == 0 and table.concat(a) == "123" and table.maxn(a) == 10 and a[10] == 10) table.insert(a, -10^9, 42) assert(a[0] == 0 and table.concat(a) == "123" and table.maxn(a) == 10 and a[10] == 10 and a[-10^9] == 42) table.insert(a, 0 / 0, 42) -- platform-dependent behavior atm so hard to validate a = {} for i=1,1000 do a[i] = i; a[i-1] = nil end assert(next(a,nil) == 1000 and next(a,1000) == nil) assert(next({}) == nil) assert(next({}, nil) == nil) -- testing table.create and table.find do local t = table.create(5) assert(#t == 0) -- filled with nil! t[5] = 5 assert(#t == 5) -- magic local t2 = table.create(5, "nice") assert(table.concat(t2,"!") == "nice!nice!nice!nice!nice") assert(table.find(t2, "nice") == 1) assert(table.find(t2, "nice", 5) == 5) assert(table.find(t2, "nice", 6) == nil) assert(table.find({false, true}, true) == 2) -- make sure table.find checks the hash portion as well assert(table.find({[(2)] = true}, true, 2) == 2) end -- test table.concat do -- regular usage assert(table.concat({}) == "") assert(table.concat({}, ",") == "") assert(table.concat({"a", "b", "c"}, ",") == "a,b,c") assert(table.concat({"a", "b", "c"}, ",", 2) == "b,c") assert(table.concat({"a", "b", "c"}, ",", 1, 2) == "a,b") -- hash elements local t = {} t[123] = "a" t[124] = "b" assert(table.concat(t) == "") assert(table.concat(t, ",", 123, 124) == "a,b") assert(table.concat(t, ",", 123, 123) == "a") -- numeric values assert(table.concat({1, 2, 3}, ",") == "1,2,3") assert(table.concat({"a", 2, "c"}, ",") == "a,2,c") -- error cases assert(pcall(table.concat, "") == false) assert(pcall(table.concat, t, false) == false) assert(pcall(table.concat, t, ",", 1, 100) == false) end -- test indexing with strings that have zeroes embedded in them do local t = {} t['start\0end'] = 1 t['start'] = 2 assert(t['start\0end'] == 1) assert(t['start'] == 2) end -- test table freezing do local t = {} assert(not table.isfrozen(t)) t[1] = 1 t.a = 2 -- basic freeze test to validate invariants assert(table.freeze(t) == t) assert(table.isfrozen(t)) assert(not pcall(rawset, t, 1, 2)) assert(not pcall(rawset, t, "a", 2)) assert(not pcall(function() t.a = 3 end)) assert(not pcall(function() t[1] = 3 end)) assert(not pcall(setmetatable, t, {})) assert(not pcall(table.freeze, t)) -- already frozen -- can't freeze tables with protected metatable local t = {} setmetatable(t, { __metatable = "nope" }) assert(not pcall(table.freeze, t)) assert(not table.isfrozen(t)) -- note that it's valid to freeze a table with a metatable and protect it later, freeze doesn't freeze metatable automatically local mt = {} local t = setmetatable({}, mt) table.freeze(t) mt.__metatable = "nope" assert(table.isfrozen(t)) assert(getmetatable(t) == "nope") end -- test #t do local t = table.create(10, 1) assert(#t == 10) t[5] = nil assert(#t == 10) t[10] = nil assert(#t == 9) t[9] = nil t[8] = nil assert(#t == 7) t = table.create(10) assert(#t == 0) t[1] = 1 assert(#t == 1) t[2] = 1 assert(#t == 2) t[3] = 1 t[4] = 1 assert(#t == 4) t = table.create(10) assert(#t == 0) table.insert(t, 1) assert(#t == 1) table.insert(t, 1) assert(#t == 2) table.insert(t, 1) table.insert(t, 1) assert(#t == 4) t = table.create(10, 1) assert(#t == 10) table.remove(t) assert(#t == 9) table.remove(t) table.remove(t) assert(#t == 7) end -- test clone do local t = {a = 1, b = 2, 3, 4, 5} local tt = table.clone(t) assert(#tt == 3) assert(tt.a == 1 and tt.b == 2) t.c = 3 assert(tt.c == nil) t = table.freeze({"test"}) tt = table.clone(t) assert(table.isfrozen(t) and not table.isfrozen(tt)) t = setmetatable({}, {}) tt = table.clone(t) assert(getmetatable(t) == getmetatable(tt)) t = setmetatable({}, {__metatable = "protected"}) assert(not pcall(table.clone, t)) function order(t) local r = '' for k,v in pairs(t) do r ..= tostring(v) end return v end t = {a = 1, b = 2, c = 3, d = 4, e = 5, f = 6} tt = table.clone(t) assert(order(t) == order(tt)) assert(not pcall(table.clone)) assert(not pcall(table.clone, 42)) end -- test boundary invariant maintenance during rehash do local arr = table.create(5, 42) arr[1] = nil arr.a = 'a' -- trigger rehash assert(#arr == 5) -- technically 0 is also valid, but it happens to be 5 because array capacity is 5 end -- test boundary invariant maintenance when replacing hash keys do local arr = {} arr.a = 'a' arr.a = nil arr[1] = 1 -- should rehash and resize array part, otherwise # won't find the boundary in array part assert(#arr == 1) end -- test boundary invariant maintenance when table is filled from the end do local arr = {} for i=5,2,-1 do arr[i] = i assert(#arr == 0) end arr[1] = 1 assert(#arr == 5) end -- test boundary invariant maintenance when table is filled using SETLIST opcode do local arr = {[2]=2,1} assert(#arr == 2) end -- test boundary invariant maintenance when table is filled using table.move do local t1 = {1, 2, 3, 4, 5} local t2 = {[6] = 6} table.move(t1, 1, 5, 1, t2) assert(#t2 == 6) end -- test boundary invariant in sparse arrays or various kinds do local function obscuredalloc() return {} end local bits = 16 for i = 1, 2^bits - 1 do local t1 = obscuredalloc() -- to avoid NEWTABLE guessing correct size for k = 1, bits do t1[k] = if bit32.extract(i, k - 1) == 1 then true else nil end end end -- test table.unpack fastcall for rejecting large unpacks do local ok, res = pcall(function() local a = table.create(7999, 0) local b = table.create(8000, 0) local at = { table.unpack(a) } local bt = { table.unpack(b) } end) assert(not ok) end -- test iteration with lightuserdata keys do function countud() local t = {} t[makelud(1)] = 1 t[makelud(2)] = 2 local count = 0 for k,v in pairs(t) do count += v end return count end assert(countud() == 3) end -- test iteration with lightuserdata keys with a substituted environment do local env = { makelud = makelud, pairs = pairs } setfenv(countud, env) assert(countud() == 3) end -- test __newindex-as-a-table indirection: this had memory safety bugs in Lua 5.1.0 do local hit = false local grandparent = {} grandparent.__newindex = function(s,k,v) assert(k == "foo" and v == 10) hit = true end local parent = {} parent.__newindex = parent setmetatable(parent, grandparent) local child = setmetatable({}, parent) child.foo = 10 assert(hit and child.foo == nil and parent.foo == nil) end -- testing next x GC of deleted keys do local co = coroutine.wrap(function (t) for k, v in pairs(t) do local k1 = next(t) -- all previous keys were deleted assert(k == k1) -- current key is the first in the table t[k] = nil local expected = (type(k) == "table" and k[1] or type(k) == "function" and k() or string.sub(k, 1, 1)) assert(expected == v) coroutine.yield(v) end end) local t = {} t[{1}] = 1 -- add several unanchored, collectable keys t[{2}] = 2 t[string.rep("a", 50)] = "a" -- long string t[string.rep("b", 50)] = "b" t[{3}] = 3 t[string.rep("c", 10)] = "c" -- short string t[function () return 10 end] = 10 local count = 7 while co(t) do collectgarbage("collect") -- collect dead keys count = count - 1 end assert(count == 0 and next(t) == nil) -- traversed the whole table end -- test error cases for table functions do assert(pcall(table.insert, {}) == false) assert(pcall(table.insert, {}, 1, 2, 3) == false) assert(pcall(table.insert, table.freeze({1, 2, 3}), 4) == false) assert(pcall(table.insert, table.freeze({1, 2, 3}), 1, 4) == false) assert(pcall(table.remove, table.freeze({1})) == false) assert(pcall(table.concat, {true}) == false) assert(pcall(table.create) == false) assert(pcall(table.create, -1) == false) assert(pcall(table.create, 1e9) == false) assert(pcall(table.find, {}, 42, 0) == false) assert(pcall(table.clear, table.freeze({})) == false) end -- check that namecall lookup doesn't give up on entries missing from cached slot position do for i = 1,10 do local t = setmetatable({}, { __index = { foo = 1 }}) assert(t.foo == 1) t[-i] = 2 t.foo = function(t, i) return -i end assert(t:foo(i) == -i) end end -- check that fast path for table lookup can't be tricked into assuming a light user data with string pointer is a string assert((function () local t = {} t[makelud("hi")] = "no" return t.hi end)() == nil) return"OK"