-- $Id: testes/api.lua $ -- See Copyright Notice in file all.lua if T==nil then (Message or print)('\n >>> testC not active: skipping API tests <<<\n') return end local debug = require "debug" local pack = table.pack -- standard error message for memory errors local MEMERRMSG = "not enough memory" function tcheck (t1, t2) assert(t1.n == (t2.n or #t2) + 1) for i = 2, t1.n do assert(t1[i] == t2[i - 1]) end end local function checkerr (msg, f, ...) local stat, err = pcall(f, ...) assert(not stat and string.find(err, msg)) end print('testing C API') a = T.testC("pushvalue R; return 1") assert(a == debug.getregistry()) -- absindex assert(T.testC("settop 10; absindex -1; return 1") == 10) assert(T.testC("settop 5; absindex -5; return 1") == 1) assert(T.testC("settop 10; absindex 1; return 1") == 1) assert(T.testC("settop 10; absindex R; return 1") < -10) -- testing alignment a = T.d2s(12458954321123.0) assert(a == string.pack("d", 12458954321123.0)) assert(T.s2d(a) == 12458954321123.0) a,b,c = T.testC("pushnum 1; pushnum 2; pushnum 3; return 2") assert(a == 2 and b == 3 and not c) f = T.makeCfunc("pushnum 1; pushnum 2; pushnum 3; return 2") a,b,c = f() assert(a == 2 and b == 3 and not c) -- test that all trues are equal a,b,c = T.testC("pushbool 1; pushbool 2; pushbool 0; return 3") assert(a == b and a == true and c == false) a,b,c = T.testC"pushbool 0; pushbool 10; pushnil;\ tobool -3; tobool -3; tobool -3; return 3" assert(a==false and b==true and c==false) a,b,c = T.testC("gettop; return 2", 10, 20, 30, 40) assert(a == 40 and b == 5 and not c) t = pack(T.testC("settop 5; return *", 2, 3)) tcheck(t, {n=4,2,3}) t = pack(T.testC("settop 0; settop 15; return 10", 3, 1, 23)) assert(t.n == 10 and t[1] == nil and t[10] == nil) t = pack(T.testC("remove -2; return *", 2, 3, 4)) tcheck(t, {n=2,2,4}) t = pack(T.testC("insert -1; return *", 2, 3)) tcheck(t, {n=2,2,3}) t = pack(T.testC("insert 3; return *", 2, 3, 4, 5)) tcheck(t, {n=4,2,5,3,4}) t = pack(T.testC("replace 2; return *", 2, 3, 4, 5)) tcheck(t, {n=3,5,3,4}) t = pack(T.testC("replace -2; return *", 2, 3, 4, 5)) tcheck(t, {n=3,2,3,5}) t = pack(T.testC("remove 3; return *", 2, 3, 4, 5)) tcheck(t, {n=3,2,4,5}) t = pack(T.testC("copy 3 4; return *", 2, 3, 4, 5)) tcheck(t, {n=4,2,3,3,5}) t = pack(T.testC("copy -3 -1; return *", 2, 3, 4, 5)) tcheck(t, {n=4,2,3,4,3}) do -- testing 'rotate' local t = {10, 20, 30, 40, 50, 60} for i = -6, 6 do local s = string.format("rotate 2 %d; return 7", i) local t1 = pack(T.testC(s, 10, 20, 30, 40, 50, 60)) tcheck(t1, t) table.insert(t, 1, table.remove(t)) end t = pack(T.testC("rotate -2 1; return *", 10, 20, 30, 40)) tcheck(t, {10, 20, 40, 30}) t = pack(T.testC("rotate -2 -1; return *", 10, 20, 30, 40)) tcheck(t, {10, 20, 40, 30}) -- some corner cases t = pack(T.testC("rotate -1 0; return *", 10, 20, 30, 40)) tcheck(t, {10, 20, 30, 40}) t = pack(T.testC("rotate -1 1; return *", 10, 20, 30, 40)) tcheck(t, {10, 20, 30, 40}) t = pack(T.testC("rotate 5 -1; return *", 10, 20, 30, 40)) tcheck(t, {10, 20, 30, 40}) end -- testing warnings T.testC([[ warningC "#This shold be a" warningC " single " warning "warning" warningC "#This should be " warning "another one" ]]) -- testing message handlers do local f = T.makeCfunc[[ getglobal error pushstring bola pcall 1 1 1 # call 'error' with given handler pushstatus return 2 # return error message and status ]] local msg, st = f(string.upper) -- function handler assert(st == "ERRRUN" and msg == "BOLA") local msg, st = f(string.len) -- function handler assert(st == "ERRRUN" and msg == 4) end t = pack(T.testC("insert 3; pushvalue 3; remove 3; pushvalue 2; remove 2; \ insert 2; pushvalue 1; remove 1; insert 1; \ insert -2; pushvalue -2; remove -3; return *", 2, 3, 4, 5, 10, 40, 90)) tcheck(t, {n=7,2,3,4,5,10,40,90}) t = pack(T.testC("concat 5; return *", "alo", 2, 3, "joao", 12)) tcheck(t, {n=1,"alo23joao12"}) -- testing MULTRET t = pack(T.testC("call 2,-1; return *", function (a,b) return 1,2,3,4,a,b end, "alo", "joao")) tcheck(t, {n=6,1,2,3,4,"alo", "joao"}) do -- test returning more results than fit in the caller stack local a = {} for i=1,1000 do a[i] = true end; a[999] = 10 local b = T.testC([[pcall 1 -1 0; pop 1; tostring -1; return 1]], table.unpack, a) assert(b == "10") end -- testing globals _G.a = 14; _G.b = "a31" local a = {T.testC[[ getglobal a; getglobal b; getglobal b; setglobal a; return * ]]} assert(a[2] == 14 and a[3] == "a31" and a[4] == nil and _G.a == "a31") -- testing arith assert(T.testC("pushnum 10; pushnum 20; arith /; return 1") == 0.5) assert(T.testC("pushnum 10; pushnum 20; arith -; return 1") == -10) assert(T.testC("pushnum 10; pushnum -20; arith *; return 1") == -200) assert(T.testC("pushnum 10; pushnum 3; arith ^; return 1") == 1000) assert(T.testC("pushnum 10; pushstring 20; arith /; return 1") == 0.5) assert(T.testC("pushstring 10; pushnum 20; arith -; return 1") == -10) assert(T.testC("pushstring 10; pushstring -20; arith *; return 1") == -200) assert(T.testC("pushstring 10; pushstring 3; arith ^; return 1") == 1000) assert(T.testC("arith /; return 1", 2, 0) == 10.0/0) a = T.testC("pushnum 10; pushint 3; arith \\; return 1") assert(a == 3.0 and math.type(a) == "float") a = T.testC("pushint 10; pushint 3; arith \\; return 1") assert(a == 3 and math.type(a) == "integer") a = assert(T.testC("pushint 10; pushint 3; arith +; return 1")) assert(a == 13 and math.type(a) == "integer") a = assert(T.testC("pushnum 10; pushint 3; arith +; return 1")) assert(a == 13 and math.type(a) == "float") a,b,c = T.testC([[pushnum 1; pushstring 10; arith _; pushstring 5; return 3]]) assert(a == 1 and b == -10 and c == "5") mt = {__add = function (a,b) return setmetatable({a[1] + b[1]}, mt) end, __mod = function (a,b) return setmetatable({a[1] % b[1]}, mt) end, __unm = function (a) return setmetatable({a[1]* 2}, mt) end} a,b,c = setmetatable({4}, mt), setmetatable({8}, mt), setmetatable({-3}, mt) x,y,z = T.testC("arith +; return 2", 10, a, b) assert(x == 10 and y[1] == 12 and z == nil) assert(T.testC("arith %; return 1", a, c)[1] == 4%-3) assert(T.testC("arith _; arith +; arith %; return 1", b, a, c)[1] == 8 % (4 + (-3)*2)) -- errors in arithmetic checkerr("divide by zero", T.testC, "arith \\", 10, 0) checkerr("%%0", T.testC, "arith %", 10, 0) -- testing lessthan and lessequal assert(T.testC("compare LT 2 5, return 1", 3, 2, 2, 4, 2, 2)) assert(T.testC("compare LE 2 5, return 1", 3, 2, 2, 4, 2, 2)) assert(not T.testC("compare LT 3 4, return 1", 3, 2, 2, 4, 2, 2)) assert(T.testC("compare LE 3 4, return 1", 3, 2, 2, 4, 2, 2)) assert(T.testC("compare LT 5 2, return 1", 4, 2, 2, 3, 2, 2)) assert(not T.testC("compare LT 2 -3, return 1", "4", "2", "2", "3", "2", "2")) assert(not T.testC("compare LT -3 2, return 1", "3", "2", "2", "4", "2", "2")) -- non-valid indices produce false assert(not T.testC("compare LT 1 4, return 1")) assert(not T.testC("compare LE 9 1, return 1")) assert(not T.testC("compare EQ 9 9, return 1")) local b = {__lt = function (a,b) return a[1] < b[1] end} local a1,a3,a4 = setmetatable({1}, b), setmetatable({3}, b), setmetatable({4}, b) assert(T.testC("compare LT 2 5, return 1", a3, 2, 2, a4, 2, 2)) assert(T.testC("compare LE 2 5, return 1", a3, 2, 2, a4, 2, 2)) assert(T.testC("compare LT 5 -6, return 1", a4, 2, 2, a3, 2, 2)) a,b = T.testC("compare LT 5 -6, return 2", a1, 2, 2, a3, 2, 20) assert(a == 20 and b == false) a,b = T.testC("compare LE 5 -6, return 2", a1, 2, 2, a3, 2, 20) assert(a == 20 and b == false) a,b = T.testC("compare LE 5 -6, return 2", a1, 2, 2, a1, 2, 20) assert(a == 20 and b == true) do -- testing lessthan and lessequal with metamethods local mt = {__lt = function (a,b) return a[1] < b[1] end, __le = function (a,b) return a[1] <= b[1] end, __eq = function (a,b) return a[1] == b[1] end} local function O (x) return setmetatable({x}, mt) end local a, b = T.testC("compare LT 2 3; pushint 10; return 2", O(1), O(2)) assert(a == true and b == 10) local a, b = T.testC("compare LE 2 3; pushint 10; return 2", O(3), O(2)) assert(a == false and b == 10) local a, b = T.testC("compare EQ 2 3; pushint 10; return 2", O(3), O(3)) assert(a == true and b == 10) end -- testing length local t = setmetatable({x = 20}, {__len = function (t) return t.x end}) a,b,c = T.testC([[ len 2; Llen 2; objsize 2; return 3 ]], t) assert(a == 20 and b == 20 and c == 0) t.x = "234"; t[1] = 20 a,b,c = T.testC([[ len 2; Llen 2; objsize 2; return 3 ]], t) assert(a == "234" and b == 234 and c == 1) t.x = print; t[1] = 20 a,c = T.testC([[ len 2; objsize 2; return 2 ]], t) assert(a == print and c == 1) -- testing __concat a = setmetatable({x="u"}, {__concat = function (a,b) return a.x..'.'..b.x end}) x,y = T.testC([[ pushnum 5 pushvalue 2; pushvalue 2; concat 2; pushvalue -2; return 2; ]], a, a) assert(x == a..a and y == 5) -- concat with 0 elements assert(T.testC("concat 0; return 1") == "") -- concat with 1 element assert(T.testC("concat 1; return 1", "xuxu") == "xuxu") -- testing lua_is function B(x) return x and 1 or 0 end function count (x, n) n = n or 2 local prog = [[ isnumber %d; isstring %d; isfunction %d; iscfunction %d; istable %d; isuserdata %d; isnil %d; isnull %d; return 8 ]] prog = string.format(prog, n, n, n, n, n, n, n, n) local a,b,c,d,e,f,g,h = T.testC(prog, x) return B(a)+B(b)+B(c)+B(d)+B(e)+B(f)+B(g)+(100*B(h)) end assert(count(3) == 2) assert(count('alo') == 1) assert(count('32') == 2) assert(count({}) == 1) assert(count(print) == 2) assert(count(function () end) == 1) assert(count(nil) == 1) assert(count(io.stdin) == 1) assert(count(nil, 15) == 100) -- testing lua_to... function to (s, x, n) n = n or 2 return T.testC(string.format("%s %d; return 1", s, n), x) end local null = T.pushuserdata(0) local hfunc = string.gmatch("", "") -- a "heavy C function" (with upvalues) assert(debug.getupvalue(hfunc, 1)) assert(to("tostring", {}) == nil) assert(to("tostring", "alo") == "alo") assert(to("tostring", 12) == "12") assert(to("tostring", 12, 3) == nil) assert(to("objsize", {}) == 0) assert(to("objsize", {1,2,3}) == 3) assert(to("objsize", "alo\0\0a") == 6) assert(to("objsize", T.newuserdata(0)) == 0) assert(to("objsize", T.newuserdata(101)) == 101) assert(to("objsize", 124) == 0) assert(to("objsize", true) == 0) assert(to("tonumber", {}) == 0) assert(to("tonumber", "12") == 12) assert(to("tonumber", "s2") == 0) assert(to("tonumber", 1, 20) == 0) assert(to("topointer", 10) == null) assert(to("topointer", true) == null) assert(to("topointer", nil) == null) assert(to("topointer", "abc") ~= null) assert(to("topointer", string.rep("x", 10)) == to("topointer", string.rep("x", 10))) -- short strings do -- long strings local s1 = string.rep("x", 300) local s2 = string.rep("x", 300) assert(to("topointer", s1) ~= to("topointer", s2)) end assert(to("topointer", T.pushuserdata(20)) ~= null) assert(to("topointer", io.read) ~= null) -- light C function assert(to("topointer", hfunc) ~= null) -- "heavy" C function assert(to("topointer", function () end) ~= null) -- Lua function assert(to("topointer", io.stdin) ~= null) -- full userdata assert(to("func2num", 20) == 0) assert(to("func2num", T.pushuserdata(10)) == 0) assert(to("func2num", io.read) ~= 0) -- light C function assert(to("func2num", hfunc) ~= 0) -- "heavy" C function (with upvalue) a = to("tocfunction", math.deg) assert(a(3) == math.deg(3) and a == math.deg) print("testing panic function") do -- trivial error assert(T.checkpanic("pushstring hi; error") == "hi") -- using the stack inside panic assert(T.checkpanic("pushstring hi; error;", [[checkstack 5 XX pushstring ' alo' pushstring ' mundo' concat 3]]) == "hi alo mundo") -- "argerror" without frames assert(T.checkpanic("loadstring 4") == "bad argument #4 (string expected, got no value)") -- memory error T.totalmem(T.totalmem()+10000) -- set low memory limit (+10k) assert(T.checkpanic("newuserdata 20000") == MEMERRMSG) T.totalmem(0) -- restore high limit -- stack error if not _soft then local msg = T.checkpanic[[ pushstring "function f() f() end" loadstring -1; call 0 0 getglobal f; call 0 0 ]] assert(string.find(msg, "stack overflow")) end -- exit in panic still close to-be-closed variables assert(T.checkpanic([[ pushstring "return {__close = function () Y = 'ho'; end}" newtable loadstring -2 call 0 1 setmetatable -2 toclose -1 pushstring "hi" error ]], [[ getglobal Y concat 2 # concat original error with global Y ]]) == "hiho") end -- testing deep C stack if not _soft then print("testing stack overflow") collectgarbage("stop") checkerr("XXXX", T.testC, "checkstack 1000023 XXXX") -- too deep -- too deep (with no message) checkerr("^stack overflow$", T.testC, "checkstack 1000023 ''") local s = string.rep("pushnil;checkstack 1 XX;", 1000000) checkerr("overflow", T.testC, s) collectgarbage("restart") print'+' end local lim = _soft and 500 or 12000 local prog = {"checkstack " .. (lim * 2 + 100) .. "msg", "newtable"} for i = 1,lim do prog[#prog + 1] = "pushnum " .. i prog[#prog + 1] = "pushnum " .. i * 10 end prog[#prog + 1] = "rawgeti R 2" -- get global table in registry prog[#prog + 1] = "insert " .. -(2*lim + 2) for i = 1,lim do prog[#prog + 1] = "settable " .. -(2*(lim - i + 1) + 1) end prog[#prog + 1] = "return 2" prog = table.concat(prog, ";") local g, t = T.testC(prog) assert(g == _G) for i = 1,lim do assert(t[i] == i*10); t[i] = undef end assert(next(t) == nil) prog, g, t = nil -- testing errors a = T.testC([[ loadstring 2; pcall 0 1 0; pushvalue 3; insert -2; pcall 1 1 0; pcall 0 0 0; return 1 ]], "x=150", function (a) assert(a==nil); return 3 end) assert(type(a) == 'string' and x == 150) function check3(p, ...) local arg = {...} assert(#arg == 3) assert(string.find(arg[3], p)) end check3(":1:", T.testC("loadstring 2; return *", "x=")) check3("%.", T.testC("loadfile 2; return *", ".")) check3("xxxx", T.testC("loadfile 2; return *", "xxxx")) -- test errors in non protected threads function checkerrnopro (code, msg) local th = coroutine.create(function () end) -- create new thread local stt, err = pcall(T.testC, th, code) -- run code there assert(not stt and string.find(err, msg)) end if not _soft then collectgarbage("stop") -- avoid __gc with full stack checkerrnopro("pushnum 3; call 0 0", "attempt to call") print"testing stack overflow in unprotected thread" function f () f() end checkerrnopro("getglobal 'f'; call 0 0;", "stack overflow") collectgarbage("restart") end print"+" -- testing table access do -- getp/setp local a = {} local a1 = T.testC("rawsetp 2 1; return 1", a, 20) assert(a == a1) assert(a[T.pushuserdata(1)] == 20) local a1, res = T.testC("rawgetp -1 1; return 2", a) assert(a == a1 and res == 20) end do -- using the table itself as index local a = {} a[a] = 10 local prog = "gettable -1; return *" local res = {T.testC(prog, a)} assert(#res == 2 and res[1] == prog and res[2] == 10) local prog = "settable -2; return *" local res = {T.testC(prog, a, 20)} assert(a[a] == 20) assert(#res == 1 and res[1] == prog) -- raw a[a] = 10 local prog = "rawget -1; return *" local res = {T.testC(prog, a)} assert(#res == 2 and res[1] == prog and res[2] == 10) local prog = "rawset -2; return *" local res = {T.testC(prog, a, 20)} assert(a[a] == 20) assert(#res == 1 and res[1] == prog) -- using the table as the value to set local prog = "rawset -1; return *" local res = {T.testC(prog, 30, a)} assert(a[30] == a) assert(#res == 1 and res[1] == prog) local prog = "settable -1; return *" local res = {T.testC(prog, 40, a)} assert(a[40] == a) assert(#res == 1 and res[1] == prog) local prog = "rawseti -1 100; return *" local res = {T.testC(prog, a)} assert(a[100] == a) assert(#res == 1 and res[1] == prog) local prog = "seti -1 200; return *" local res = {T.testC(prog, a)} assert(a[200] == a) assert(#res == 1 and res[1] == prog) end a = {x=0, y=12} x, y = T.testC("gettable 2; pushvalue 4; gettable 2; return 2", a, 3, "y", 4, "x") assert(x == 0 and y == 12) T.testC("settable -5", a, 3, 4, "x", 15) assert(a.x == 15) a[a] = print x = T.testC("gettable 2; return 1", a) -- table and key are the same object! assert(x == print) T.testC("settable 2", a, "x") -- table and key are the same object! assert(a[a] == "x") b = setmetatable({p = a}, {}) getmetatable(b).__index = function (t, i) return t.p[i] end k, x = T.testC("gettable 3, return 2", 4, b, 20, 35, "x") assert(x == 15 and k == 35) k = T.testC("getfield 2 y, return 1", b) assert(k == 12) getmetatable(b).__index = function (t, i) return a[i] end getmetatable(b).__newindex = function (t, i,v ) a[i] = v end y = T.testC("insert 2; gettable -5; return 1", 2, 3, 4, "y", b) assert(y == 12) k = T.testC("settable -5, return 1", b, 3, 4, "x", 16) assert(a.x == 16 and k == 4) a[b] = 'xuxu' y = T.testC("gettable 2, return 1", b) assert(y == 'xuxu') T.testC("settable 2", b, 19) assert(a[b] == 19) -- do -- testing getfield/setfield with long keys local t = {_012345678901234567890123456789012345678901234567890123456789 = 32} local a = T.testC([[ getfield 2 _012345678901234567890123456789012345678901234567890123456789 return 1 ]], t) assert(a == 32) local a = T.testC([[ pushnum 33 setglobal _012345678901234567890123456789012345678901234567890123456789 ]]) assert(_012345678901234567890123456789012345678901234567890123456789 == 33) _012345678901234567890123456789012345678901234567890123456789 = nil end -- testing next a = {} t = pack(T.testC("next; return *", a, nil)) tcheck(t, {n=1,a}) a = {a=3} t = pack(T.testC("next; return *", a, nil)) tcheck(t, {n=3,a,'a',3}) t = pack(T.testC("next; pop 1; next; return *", a, nil)) tcheck(t, {n=1,a}) -- testing upvalues do local A = T.testC[[ pushnum 10; pushnum 20; pushcclosure 2; return 1]] t, b, c = A([[pushvalue U0; pushvalue U1; pushvalue U2; return 3]]) assert(b == 10 and c == 20 and type(t) == 'table') a, b = A([[tostring U3; tonumber U4; return 2]]) assert(a == nil and b == 0) A([[pushnum 100; pushnum 200; replace U2; replace U1]]) b, c = A([[pushvalue U1; pushvalue U2; return 2]]) assert(b == 100 and c == 200) A([[replace U2; replace U1]], {x=1}, {x=2}) b, c = A([[pushvalue U1; pushvalue U2; return 2]]) assert(b.x == 1 and c.x == 2) T.checkmemory() end -- testing absent upvalues from C-function pointers assert(T.testC[[isnull U1; return 1]] == true) assert(T.testC[[isnull U100; return 1]] == true) assert(T.testC[[pushvalue U1; return 1]] == nil) local f = T.testC[[ pushnum 10; pushnum 20; pushcclosure 2; return 1]] assert(T.upvalue(f, 1) == 10 and T.upvalue(f, 2) == 20 and T.upvalue(f, 3) == nil) T.upvalue(f, 2, "xuxu") assert(T.upvalue(f, 2) == "xuxu") -- large closures do local A = "checkstack 300 msg;" .. string.rep("pushnum 10;", 255) .. "pushcclosure 255; return 1" A = T.testC(A) for i=1,255 do assert(A(("pushvalue U%d; return 1"):format(i)) == 10) end assert(A("isnull U256; return 1")) assert(not A("isnil U256; return 1")) end -- testing get/setuservalue -- bug in 5.1.2 checkerr("got number", debug.setuservalue, 3, {}) checkerr("got nil", debug.setuservalue, nil, {}) checkerr("got light userdata", debug.setuservalue, T.pushuserdata(1), {}) -- testing multiple user values local b = T.newuserdata(0, 10) for i = 1, 10 do local v, p = debug.getuservalue(b, i) assert(v == nil and p) end do -- indices out of range local v, p = debug.getuservalue(b, -2) assert(v == nil and not p) local v, p = debug.getuservalue(b, 11) assert(v == nil and not p) end local t = {true, false, 4.56, print, {}, b, "XYZ"} for k, v in ipairs(t) do debug.setuservalue(b, v, k) end for k, v in ipairs(t) do local v1, p = debug.getuservalue(b, k) assert(v1 == v and p) end assert(not debug.getuservalue(4)) debug.setuservalue(b, function () return 10 end, 10) collectgarbage() -- function should not be collected assert(debug.getuservalue(b, 10)() == 10) debug.setuservalue(b, 134) collectgarbage() -- number should not be a problem for collector assert(debug.getuservalue(b) == 134) -- test barrier for uservalues do local oldmode = collectgarbage("incremental") T.gcstate("atomic") assert(T.gccolor(b) == "black") debug.setuservalue(b, {x = 100}) T.gcstate("pause") -- complete collection assert(debug.getuservalue(b).x == 100) -- uvalue should be there collectgarbage(oldmode) end -- long chain of userdata for i = 1, 1000 do local bb = T.newuserdata(0, 1) debug.setuservalue(bb, b) b = bb end collectgarbage() -- nothing should not be collected for i = 1, 1000 do b = debug.getuservalue(b) end assert(debug.getuservalue(b).x == 100) b = nil -- testing locks (refs) -- reuse of references local i = T.ref{} T.unref(i) assert(T.ref{} == i) Arr = {} Lim = 100 for i=1,Lim do -- lock many objects Arr[i] = T.ref({}) end assert(T.ref(nil) == -1 and T.getref(-1) == nil) T.unref(-1); T.unref(-1) for i=1,Lim do -- unlock all them T.unref(Arr[i]) end function printlocks () local f = T.makeCfunc("gettable R; return 1") local n = f("n") print("n", n) for i=0,n do print(i, f(i)) end end for i=1,Lim do -- lock many objects Arr[i] = T.ref({}) end for i=1,Lim,2 do -- unlock half of them T.unref(Arr[i]) end assert(type(T.getref(Arr[2])) == 'table') assert(T.getref(-1) == nil) a = T.ref({}) collectgarbage() assert(type(T.getref(a)) == 'table') -- colect in cl the `val' of all collected userdata tt = {} cl = {n=0} A = nil; B = nil local F F = function (x) local udval = T.udataval(x) table.insert(cl, udval) local d = T.newuserdata(100) -- create garbage d = nil assert(debug.getmetatable(x).__gc == F) assert(load("table.insert({}, {})"))() -- create more garbage collectgarbage() -- force a GC during GC assert(debug.getmetatable(x).__gc == F) -- previous GC did not mess this? local dummy = {} -- create more garbage during GC if A ~= nil then assert(type(A) == "userdata") assert(T.udataval(A) == B) debug.getmetatable(A) -- just access it end A = x -- ressucita userdata B = udval return 1,2,3 end tt.__gc = F -- test whether udate collection frees memory in the right time do collectgarbage(); collectgarbage(); local x = collectgarbage("count"); local a = T.newuserdata(5001) assert(T.testC("objsize 2; return 1", a) == 5001) assert(collectgarbage("count") >= x+4) a = nil collectgarbage(); assert(collectgarbage("count") <= x+1) -- udata without finalizer x = collectgarbage("count") collectgarbage("stop") for i=1,1000 do T.newuserdata(0) end assert(collectgarbage("count") > x+10) collectgarbage() assert(collectgarbage("count") <= x+1) -- udata with finalizer collectgarbage() x = collectgarbage("count") collectgarbage("stop") a = {__gc = function () end} for i=1,1000 do debug.setmetatable(T.newuserdata(0), a) end assert(collectgarbage("count") >= x+10) collectgarbage() -- this collection only calls TM, without freeing memory assert(collectgarbage("count") >= x+10) collectgarbage() -- now frees memory assert(collectgarbage("count") <= x+1) collectgarbage("restart") end collectgarbage("stop") -- create 3 userdatas with tag `tt' a = T.newuserdata(0); debug.setmetatable(a, tt); na = T.udataval(a) b = T.newuserdata(0); debug.setmetatable(b, tt); nb = T.udataval(b) c = T.newuserdata(0); debug.setmetatable(c, tt); nc = T.udataval(c) -- create userdata without meta table x = T.newuserdata(4) y = T.newuserdata(0) checkerr("FILE%* expected, got userdata", io.input, a) checkerr("FILE%* expected, got userdata", io.input, x) assert(debug.getmetatable(x) == nil and debug.getmetatable(y) == nil) d=T.ref(a); e=T.ref(b); f=T.ref(c); t = {T.getref(d), T.getref(e), T.getref(f)} assert(t[1] == a and t[2] == b and t[3] == c) t=nil; a=nil; c=nil; T.unref(e); T.unref(f) collectgarbage() -- check that unref objects have been collected assert(#cl == 1 and cl[1] == nc) x = T.getref(d) assert(type(x) == 'userdata' and debug.getmetatable(x) == tt) x =nil tt.b = b -- create cycle tt=nil -- frees tt for GC A = nil b = nil T.unref(d); n5 = T.newuserdata(0) debug.setmetatable(n5, {__gc=F}) n5 = T.udataval(n5) collectgarbage() assert(#cl == 4) -- check order of collection assert(cl[2] == n5 and cl[3] == nb and cl[4] == na) collectgarbage"restart" a, na = {}, {} for i=30,1,-1 do a[i] = T.newuserdata(0) debug.setmetatable(a[i], {__gc=F}) na[i] = T.udataval(a[i]) end cl = {} a = nil; collectgarbage() assert(#cl == 30) for i=1,30 do assert(cl[i] == na[i]) end na = nil for i=2,Lim,2 do -- unlock the other half T.unref(Arr[i]) end x = T.newuserdata(41); debug.setmetatable(x, {__gc=F}) assert(T.testC("objsize 2; return 1", x) == 41) cl = {} a = {[x] = 1} x = T.udataval(x) collectgarbage() -- old `x' cannot be collected (`a' still uses it) assert(#cl == 0) for n in pairs(a) do a[n] = undef end collectgarbage() assert(#cl == 1 and cl[1] == x) -- old `x' must be collected -- testing lua_equal assert(T.testC("compare EQ 2 4; return 1", print, 1, print, 20)) assert(T.testC("compare EQ 3 2; return 1", 'alo', "alo")) assert(T.testC("compare EQ 2 3; return 1", nil, nil)) assert(not T.testC("compare EQ 2 3; return 1", {}, {})) assert(not T.testC("compare EQ 2 3; return 1")) assert(not T.testC("compare EQ 2 3; return 1", 3)) -- testing lua_equal with fallbacks do local map = {} local t = {__eq = function (a,b) return map[a] == map[b] end} local function f(x) local u = T.newuserdata(0) debug.setmetatable(u, t) map[u] = x return u end assert(f(10) == f(10)) assert(f(10) ~= f(11)) assert(T.testC("compare EQ 2 3; return 1", f(10), f(10))) assert(not T.testC("compare EQ 2 3; return 1", f(10), f(20))) t.__eq = nil assert(f(10) ~= f(10)) end print'+' -- testing changing hooks during hooks _G.t = {} T.sethook([[ # set a line hook after 3 count hooks sethook 4 0 ' getglobal t; pushvalue -3; append -2 pushvalue -2; append -2 ']], "c", 3) local a = 1 -- counting a = 1 -- counting a = 1 -- count hook (set line hook) a = 1 -- line hook a = 1 -- line hook debug.sethook() t = _G.t assert(t[1] == "line") line = t[2] assert(t[3] == "line" and t[4] == line + 1) assert(t[5] == "line" and t[6] == line + 2) assert(t[7] == nil) ------------------------------------------------------------------------- do -- testing errors during GC warn("@off") collectgarbage("stop") local a = {} for i=1,20 do a[i] = T.newuserdata(i) -- creates several udata end for i=1,20,2 do -- mark half of them to raise errors during GC debug.setmetatable(a[i], {__gc = function (x) error("@expected error in gc") end}) end for i=2,20,2 do -- mark the other half to count and to create more garbage debug.setmetatable(a[i], {__gc = function (x) load("A=A+1")() end}) end a = nil _G.A = 0 collectgarbage() assert(A == 10) -- number of normal collections collectgarbage("restart") warn("@on") end ------------------------------------------------------------------------- -- test for userdata vals do local a = {}; local lim = 30 for i=0,lim do a[i] = T.pushuserdata(i) end for i=0,lim do assert(T.udataval(a[i]) == i) end for i=0,lim do assert(T.pushuserdata(i) == a[i]) end for i=0,lim do a[a[i]] = i end for i=0,lim do a[T.pushuserdata(i)] = i end assert(type(tostring(a[1])) == "string") end ------------------------------------------------------------------------- -- testing multiple states T.closestate(T.newstate()); L1 = T.newstate() assert(L1) assert(T.doremote(L1, "X='a'; return 'a'") == 'a') assert(#pack(T.doremote(L1, "function f () return 'alo', 3 end; f()")) == 0) a, b = T.doremote(L1, "return f()") assert(a == 'alo' and b == '3') T.doremote(L1, "_ERRORMESSAGE = nil") -- error: `sin' is not defined a, _, b = T.doremote(L1, "return sin(1)") assert(a == nil and b == 2) -- 2 == run-time error -- error: syntax error a, b, c = T.doremote(L1, "return a+") assert(a == nil and c == 3 and type(b) == "string") -- 3 == syntax error T.loadlib(L1) a, b, c = T.doremote(L1, [[ string = require'string' a = require'_G'; assert(a == _G and require("_G") == a) io = require'io'; assert(type(io.read) == "function") assert(require("io") == io) a = require'table'; assert(type(a.insert) == "function") a = require'debug'; assert(type(a.getlocal) == "function") a = require'math'; assert(type(a.sin) == "function") return string.sub('okinama', 1, 2) ]]) assert(a == "ok") T.closestate(L1); L1 = T.newstate() T.loadlib(L1) T.doremote(L1, "a = {}") T.testC(L1, [[getglobal "a"; pushstring "x"; pushint 1; settable -3]]) assert(T.doremote(L1, "return a.x") == "1") T.closestate(L1) L1 = nil print('+') ------------------------------------------------------------------------- -- testing to-be-closed variables ------------------------------------------------------------------------- print"testing to-be-closed variables" do local openresource = {} local function newresource () local x = setmetatable({10}, {__close = function(y) assert(openresource[#openresource] == y) openresource[#openresource] = nil y[1] = y[1] + 1 end}) openresource[#openresource + 1] = x return x end local a, b = T.testC([[ call 0 1 # create resource pushnil toclose -2 # mark call result to be closed toclose -1 # mark nil to be closed (will be ignored) return 2 ]], newresource) assert(a[1] == 11 and b == nil) assert(#openresource == 0) -- was closed -- repeat the test, but calling function in a 'multret' context local a = {T.testC([[ call 0 1 # create resource toclose 2 # mark it to be closed return 2 ]], newresource)} assert(type(a[1]) == "string" and a[2][1] == 11) assert(#openresource == 0) -- was closed -- closing by error local a, b = pcall(T.makeCfunc[[ call 0 1 # create resource toclose -1 # mark it to be closed error # resource is the error object ]], newresource) assert(a == false and b[1] == 11) assert(#openresource == 0) -- was closed -- non-closable value local a, b = pcall(T.makeCfunc[[ newtable # create non-closable object toclose -1 # mark it to be closed (should raise an error) abort # will not be executed ]]) assert(a == false and string.find(b, "non%-closable value")) local function check (n) assert(#openresource == n) end -- closing resources with 'closeslot' _ENV.xxx = true local a = T.testC([[ pushvalue 2 # stack: S, NR, CH, NR call 0 1 # create resource; stack: S, NR, CH, R toclose -1 # mark it to be closed pushvalue 2 # stack: S, NR, CH, R, NR call 0 1 # create another resource; stack: S, NR, CH, R, R toclose -1 # mark it to be closed pushvalue 3 # stack: S, NR, CH, R, R, CH pushint 2 # there should be two open resources call 1 0 # stack: S, NR, CH, R, R closeslot -1 # close second resource pushvalue 3 # stack: S, NR, CH, R, R, CH pushint 1 # there should be one open resource call 1 0 # stack: S, NR, CH, R, R closeslot 4 setglobal "xxx" # previous op. erased the slot pop 1 # pop other resource from the stack pushint * return 1 # return stack size ]], newresource, check) assert(a == 3 and _ENV.xxx == nil) -- no extra items left in the stack -- closing resources with 'pop' local a = T.testC([[ pushvalue 2 # stack: S, NR, CH, NR call 0 1 # create resource; stack: S, NR, CH, R toclose -1 # mark it to be closed pushvalue 2 # stack: S, NR, CH, R, NR call 0 1 # create another resource; stack: S, NR, CH, R, R toclose -1 # mark it to be closed pushvalue 3 # stack: S, NR, CH, R, R, CH pushint 2 # there should be two open resources call 1 0 # stack: S, NR, CH, R, R pop 1 # pop second resource pushvalue 3 # stack: S, NR, CH, R, CH pushint 1 # there should be one open resource call 1 0 # stack: S, NR, CH, R pop 1 # pop other resource from the stack pushvalue 3 # stack: S, NR, CH, CH pushint 0 # there should be no open resources call 1 0 # stack: S, NR, CH pushint * return 1 # return stack size ]], newresource, check) assert(a == 3) -- no extra items left in the stack -- non-closable value local a, b = pcall(T.makeCfunc[[ pushint 32 toclose -1 ]]) assert(not a and string.find(b, "(C temporary)")) end --[[ ** {================================================================== ** Testing memory limits ** =================================================================== --]] print("memory-allocation errors") checkerr("block too big", T.newuserdata, math.maxinteger) collectgarbage() local f = load"local a={}; for i=1,100000 do a[i]=i end" T.alloccount(10) checkerr(MEMERRMSG, f) T.alloccount() -- remove limit -- test memory errors; increase limit for maximum memory by steps, -- o that we get memory errors in all allocations of a given -- task, until there is enough memory to complete the task without -- errors. function testbytes (s, f) collectgarbage() local M = T.totalmem() local oldM = M local a,b = nil while true do collectgarbage(); collectgarbage() T.totalmem(M) a, b = T.testC("pcall 0 1 0; pushstatus; return 2", f) T.totalmem(0) -- remove limit if a and b == "OK" then break end -- stop when no more errors if b ~= "OK" and b ~= MEMERRMSG then -- not a memory error? error(a, 0) -- propagate it end M = M + 7 -- increase memory limit end print(string.format("minimum memory for %s: %d bytes", s, M - oldM)) return a end -- test memory errors; increase limit for number of allocations one -- by one, so that we get memory errors in all allocations of a given -- task, until there is enough allocations to complete the task without -- errors. function testalloc (s, f) collectgarbage() local M = 0 local a,b = nil while true do collectgarbage(); collectgarbage() T.alloccount(M) a, b = T.testC("pcall 0 1 0; pushstatus; return 2", f) T.alloccount() -- remove limit if a and b == "OK" then break end -- stop when no more errors if b ~= "OK" and b ~= MEMERRMSG then -- not a memory error? error(a, 0) -- propagate it end M = M + 1 -- increase allocation limit end print(string.format("minimum allocations for %s: %d allocations", s, M)) return a end local function testamem (s, f) testalloc(s, f) return testbytes(s, f) end -- doing nothing b = testamem("doing nothing", function () return 10 end) assert(b == 10) -- testing memory errors when creating a new state testamem("state creation", function () local st = T.newstate() if st then T.closestate(st) end -- close new state return st end) testamem("empty-table creation", function () return {} end) testamem("string creation", function () return "XXX" .. "YYY" end) testamem("coroutine creation", function() return coroutine.create(print) end) -- testing to-be-closed variables testamem("to-be-closed variables", function() local flag do local x = setmetatable({}, {__close = function () flag = true end}) flag = false local x = {} end return flag end) -- testing threads -- get main thread from registry (at index LUA_RIDX_MAINTHREAD == 1) mt = T.testC("rawgeti R 1; return 1") assert(type(mt) == "thread" and coroutine.running() == mt) function expand (n,s) if n==0 then return "" end local e = string.rep("=", n) return string.format("T.doonnewstack([%s[ %s;\n collectgarbage(); %s]%s])\n", e, s, expand(n-1,s), e) end G=0; collectgarbage(); a =collectgarbage("count") load(expand(20,"G=G+1"))() assert(G==20); collectgarbage(); -- assert(gcinfo() <= a+1) testamem("running code on new thread", function () return T.doonnewstack("x=1") == 0 -- try to create thread end) -- testing memory x compiler testamem("loadstring", function () return load("x=1") -- try to do load a string end) local testprog = [[ local function foo () return end local t = {"x"} a = "aaa" for i = 1, #t do a=a..t[i] end return true ]] -- testing memory x dofile _G.a = nil local t =os.tmpname() local f = assert(io.open(t, "w")) f:write(testprog) f:close() testamem("dofile", function () local a = loadfile(t) return a and a() end) assert(os.remove(t)) assert(_G.a == "aaax") -- other generic tests testamem("gsub", function () local a, b = string.gsub("alo alo", "(a)", function (x) return x..'b' end) return (a == 'ablo ablo') end) testamem("dump/undump", function () local a = load(testprog) local b = a and string.dump(a) a = b and load(b) return a and a() end) local t = os.tmpname() testamem("file creation", function () local f = assert(io.open(t, 'w')) assert (not io.open"nomenaoexistente") io.close(f); return not loadfile'nomenaoexistente' end) assert(os.remove(t)) testamem("table creation", function () local a, lim = {}, 10 for i=1,lim do a[i] = i; a[i..'a'] = {} end return (type(a[lim..'a']) == 'table' and a[lim] == lim) end) testamem("constructors", function () local a = {10, 20, 30, 40, 50; a=1, b=2, c=3, d=4, e=5} return (type(a) == 'table' and a.e == 5) end) local a = 1 close = nil testamem("closure creation", function () function close (b) return function (x) return b + x end end return (close(2)(4) == 6) end) testamem("using coroutines", function () local a = coroutine.wrap(function () coroutine.yield(string.rep("a", 10)) return {} end) assert(string.len(a()) == 10) return a() end) do -- auxiliary buffer local lim = 100 local a = {}; for i = 1, lim do a[i] = "01234567890123456789" end testamem("auxiliary buffer", function () return (#table.concat(a, ",") == 20*lim + lim - 1) end) end testamem("growing stack", function () local function foo (n) if n == 0 then return 1 else return 1 + foo(n - 1) end end return foo(100) end) -- }================================================================== do -- testing failing in 'lua_checkstack' local res = T.testC([[rawcheckstack 500000; return 1]]) assert(res == false) local L = T.newstate() T.alloccount(0) -- will be unable to reallocate the stack res = T.testC(L, [[rawcheckstack 5000; return 1]]) T.alloccount() T.closestate(L) assert(res == false) end do -- closing state with no extra memory local L = T.newstate() T.alloccount(0) T.closestate(L) T.alloccount() end do -- garbage collection with no extra memory local L = T.newstate() T.loadlib(L) local res = (T.doremote(L, [[ _ENV = require"_G" local T = require"T" local a = {} for i = 1, 1000 do a[i] = 'i' .. i end -- grow string table local stsize, stuse = T.querystr() assert(stuse > 1000) local function foo (n) if n > 0 then foo(n - 1) end end foo(180) -- grow stack local _, stksize = T.stacklevel() assert(stksize > 180) a = nil T.alloccount(0) collectgarbage() T.alloccount() -- stack and string table could not be reallocated, -- so they kept their sizes (without errors) assert(select(2, T.stacklevel()) == stksize) assert(T.querystr() == stsize) return 'ok' ]])) assert(res == 'ok') T.closestate(L) end print'+' -- testing some auxlib functions local function gsub (a, b, c) a, b = T.testC("gsub 2 3 4; gettop; return 2", a, b, c) assert(b == 5) return a end assert(gsub("alo.alo.uhuh.", ".", "//") == "alo//alo//uhuh//") assert(gsub("alo.alo.uhuh.", "alo", "//") == "//.//.uhuh.") assert(gsub("", "alo", "//") == "") assert(gsub("...", ".", "/.") == "/././.") assert(gsub("...", "...", "") == "") -- testing luaL_newmetatable local mt_xuxu, res, top = T.testC("newmetatable xuxu; gettop; return 3") assert(type(mt_xuxu) == "table" and res and top == 3) local d, res, top = T.testC("newmetatable xuxu; gettop; return 3") assert(mt_xuxu == d and not res and top == 3) d, res, top = T.testC("newmetatable xuxu1; gettop; return 3") assert(mt_xuxu ~= d and res and top == 3) x = T.newuserdata(0); y = T.newuserdata(0); T.testC("pushstring xuxu; gettable R; setmetatable 2", x) assert(getmetatable(x) == mt_xuxu) -- testing luaL_testudata -- correct metatable local res1, res2, top = T.testC([[testudata -1 xuxu testudata 2 xuxu gettop return 3]], x) assert(res1 and res2 and top == 4) -- wrong metatable res1, res2, top = T.testC([[testudata -1 xuxu1 testudata 2 xuxu1 gettop return 3]], x) assert(not res1 and not res2 and top == 4) -- non-existent type res1, res2, top = T.testC([[testudata -1 xuxu2 testudata 2 xuxu2 gettop return 3]], x) assert(not res1 and not res2 and top == 4) -- userdata has no metatable res1, res2, top = T.testC([[testudata -1 xuxu testudata 2 xuxu gettop return 3]], y) assert(not res1 and not res2 and top == 4) -- erase metatables do local r = debug.getregistry() assert(r.xuxu == mt_xuxu and r.xuxu1 == d) r.xuxu = nil; r.xuxu1 = nil end print'OK'