local serpent = require("serpent") local serialize = serpent.dump --[[ Penlight local serialize = require("pl.pretty").write --]] --[[ metalua require("serialize") -- this creates global serialize() function --]] --[[ lua-nucleo import = require("lua-nucleo.import_as_require").import local serialize = require("lua-nucleo.tserialize").tserialize --]] local b = {text="ha'ns", ['co\nl or']='bl"ue', str="\"\n'\\\000"} local c = function() return 1 end local d = {'sometable'} local a = { x=1, [true] = {b}, [not true]=2, -- boolean as key ['true'] = 'some value', -- keyword as a key z = c, -- function as value list={'a',nil,nil, -- embedded nils [9]='i','f',[5]='g',[7]={}, -- empty table ['3'] = 33, [-1] = -1, [1.2] = 1.2}, -- numeric and negative index [c] = print, -- function as key, global as value [io.stdin] = 3, -- global userdata as key ['label 2'] = b, -- shared reference [b] = 0/0, -- table as key, undefined value as value [math.huge] = -math.huge, -- huge as number value ignore = d -- table to ignore } a.c = a -- self-reference a[a] = a -- self-reference with table as key -- this weirdness is needed to force not just shared reference, -- but something that generates local variable. a[1] = {} a[1].more = {[a[1]] = "more"} a[1].moreyet = {[{__more = a[1]}] = "moreyet"} -- this weirdness is needed to use a table as key multiple times. a[2] = {} a[a[2]] = {more = a[2]} print("pretty: " .. serpent.block(a, {valignore = {[d] = true}}) .. "\n") print("line: " .. serpent.line(a, {valignore = {[d] = true}}) .. "\n") local str = serpent.dump(a, {valignore = {[d] = true}}) print("full: " .. str .. "\n") local loadstring = loadstring or load local fun, err = assert(loadstring(str)) assert(loadstring(serpent.line(a, {name = '_'})), "line() method produces deserializable output: failed") assert(loadstring(serpent.block(a, {name = '_'})), "block() method produces deserializable output: failed") local _a = fun() local _b = _a['label 2'] -- shared reference local _c = _a.z -- function assert(_a[not true] == 2, "boolean value as key: failed") assert(_a[true][1] == _b, "shared reference stays shared: failed") assert(_c() == 1, "serialized user function returns value: failed") assert(tostring(_a[_b]) == tostring(0/0), "table as key and undefined value: failed") assert(_a[math.huge] == -math.huge, "math.huge as key and value: failed") assert(_a[io.stdin] == 3, "io.stdin as key: failed") assert(_a[_c] == print, "shared function as key and global function as value: failed") assert(#(_a.list[7]) == 0, "empty table stays empty: failed") assert(_a.list[-1] == -1, "negative index is in the right place: failed") assert(_a.list['3'] == 33, "string that looks like number as index: failed") assert(_a.list[4] == 'f', "specific table element preserves its value: failed") assert(_a.ignore == nil, "ignored table not serialized: failed") -- test allowing keys _a = assert(loadstring(serpent.dump(a, {keyallow = {["list"] = true, ["x"] = true}})))() assert(_a.x == 1, "allowing key 'x': failed") assert(_a.list ~= nil, "allowing key 'list': failed") assert(_a[_c] == nil, "not allowing key '_c': failed") -- test ignore value types _a = assert(loadstring(serpent.dump(a, {valtypeignore = {["function"] = true, ["table"] = true}})))() assert(_a.z == nil, "ignoring value type 'function': failed") assert(_a[c] == nil, "ignoring value type 'function': failed") assert(_a.list == nil, "ignoring value type 'table': failed") assert(_a['true'] ~= nil, "not ignoring value type 'string': failed") assert(_a.x ~= nil, "not ignoring value type 'number': failed") -- test without sparsness to check the number of elements in the list with nil _a = assert(loadstring(serpent.dump(a, {sparse = false})))() assert(#(_a.list) == #(a.list), "size of array part stays the same: failed") local diffable = {sortkeys = true, comment = false, nocode = true, indent = ' '} assert(serpent.block(a, diffable) == serpent.block(_a, diffable), "block(a) == block(copy_of_a): failed") -- test maxlevel _a = assert(loadstring(serpent.dump(a, {sparse = false, nocode = true, maxlevel = 1})))() assert(#(_a.list) == 0, "nested table 1 is empty with maxlevel=1: failed") assert(#(_a[true]) == 0, "nested table 2 is empty with maxlevel=1: failed") -- test comment level local dump = serpent.block(a, {comment = 1, nocode = true}) assert(dump:find(tostring(a)), "first level comment is present with comment=1: failed") assert(not dump:find(tostring(a.list)), "second level comment is not present with comment=1: failed") assert(dump:find("function() --[[..skipped..]] end", 1, true), "nocode replaces functions with an empty body: failed") assert(serpent.line(nil) == 'nil', "nil value serialized as 'nil': failed") assert(serpent.line(123) == '123', "numeric value serialized as number: failed") assert(serpent.line("123") == '"123"', "string value serialized as string: failed") -- test shared references serialized from shared reference section do local a = {} local tbl = {'tbl'} a[3] = {[{}] = {happy = tbl}, sad = tbl} assert(loadstring(serpent.dump(a, {sparse = false, nocode = true})), "table as key with circular/shared reference: failed") end -- test shared functions do local a = {a={}} local function1 = function() end a.a[function1] = function() end a.b = a.a[function1] assert(loadstring(serpent.dump(a, {sparse = false, nocode = true})), "functions as shared references while processing shared refs: failed") end -- test serialization of metatable with __tostring do local mt = {} mt.__tostring = function(t) return 'table with ' .. #t .. ' entries' end local a = {'a', 'b'} setmetatable(a, mt) assert(loadstring(serpent.dump(a, {sparse = false, nocode = true, comment = true})), "metatable with __tostring serialized with a comment: failed") local shadow = {x = 11, y = 12} mt.__index = function(t, f) return shadow[f] end mt.__tostring = function(t) return {t[1], x = 1, y=t.y} end local _a = assert(loadstring(serpent.dump(a, {sparse = false, nocode = true, comment = 1})))() assert(_a.y == 12, "metatable with __tostring and __index 1: failed") assert(_a[1] == 'a', "metatable with __tostring and __index 2: failed") assert(_a.x == 1, "metatable with __tostring and __index 3: failed") end -- test circular reference in self-reference section do local a = {} local table1 = {} a[table1]={} a[table1].rec1=a[table1] local _a = assert(loadstring(serpent.dump(a, {sparse = false, nocode = true})))() local t1 = next(_a) assert(_a[t1].rec1, "circular reference in self-reference section 1: failed") assert(_a[t1].rec1 == _a[t1], "circular reference in self-reference section 2: failed") end -- test userdata with __tostring method that returns type starting with digits if _VERSION == 'Lua 5.1' then local userdata = newproxy(true) getmetatable(userdata).__tostring = function() return "1234 " end local a = {hi = "there", [{}] = 123, [userdata] = 23} assert(loadstring(serpent.dump(a, {sparse = false, nocode = true})), "userdata with type starting with digits: failed") end -- test userdata with __tostring method that returns a table if _VERSION == 'Lua 5.1' then local userdata = newproxy(true) getmetatable(userdata).__tostring = function() return {3,4,5} end local a = {hi = "there", [{}] = 123, [userdata] = 23, ud = userdata} local f = assert(loadstring(serpent.dump(a, {sparse = false, nocode = true})), "userdata with __tostring that returns a table 1: failed") local _a = f() assert(_a.ud, "userdata with __tostring that returns a table 2: failed") assert(_a[_a.ud] == 23, "userdata with __tostring that returns a table 3: failed") end -- test userdata with __tostring method that includes another userdata if _VERSION == 'Lua 5.1' then local userdata1 = newproxy(true) local userdata2 = newproxy(true) getmetatable(userdata1).__tostring = function() return {1,2,ud = userdata2} end getmetatable(userdata2).__tostring = function() return {3,4,ud = userdata2} end local a = {hi = "there", [{}] = 123, [userdata1] = 23, ud = userdata1} local f = assert(loadstring(serpent.dump(a, {sparse = false, nocode = true})), "userdata with __tostring that returns userdata 1: failed") local _a = f() assert(_a.ud, "userdata with __tostring that returns userdata 2: failed") assert(_a[_a.ud] == 23, "userdata with __tostring that returns userdata 3: failed") assert(_a.ud.ud == _a.ud.ud.ud, "userdata with __tostring that returns userdata 4: failed") end -- test userdata with __serialize method that includes another userdata if _VERSION == 'Lua 5.1' then local userdata1 = newproxy(true) local userdata2 = newproxy(true) getmetatable(userdata1).__serialize = function() return {1,2,ud = userdata2} end getmetatable(userdata2).__serialize = function() return {3,4,ud = userdata2} end local a = {hi = "there", [{}] = 123, [userdata1] = 23, ud = userdata1} local f = assert(loadstring(serpent.dump(a, {sparse = false, nocode = true})), "userdata with __serialize that returns userdata 1: failed") local _a = f() assert(_a.ud, "userdata with __serialize that returns userdata 2: failed") assert(_a[_a.ud] == 23, "userdata with __serialize that returns userdata 3: failed") assert(_a[_a.ud] == 23, "userdata with __serialize that returns userdata 3: failed") assert(_a.ud.ud == _a.ud.ud.ud, "userdata with __serialize that returns userdata 4: failed") end -- test that numerical keys are all present in the serialized table do local a = {[4]=1,[5]=1,[6]=1,[7]=1,[8]=1,[9]=1,[10]=1} local f = assert(loadstring(serpent.dump(a)), "serializing table with numerical keys: failed") local _a = f() for k,v in pairs(a) do assert(_a[k] == v, "numerical keys are all present: failed") end end -- test maxnum limit do local a = {a = {7,6,5,4,3,2,1}, b = {1,2}} local f = assert(loadstring(serpent.dump(a, {maxnum = 3})), "serializing table with numerical keys: failed") local _a = f() assert(#_a.a == 3, "table with maxnum=3 has no more than 3 elements 1/3: failed") assert(_a.a[3] == 5, "table with maxnum=3 has no more than 3 elements 2/3: failed") assert(#_a.b == 2, "table with maxnum=3 has no more than 3 elements 3/3: failed") end -- test serialization of mixed tables do local a = {a='a', b='b', c='c', [3]=3, [2]=2,[1]=1} local diffable = {sortkeys = true, comment = false, nocode = true, indent = ' '} local _a = assert(loadstring(serpent.dump(a, diffable)))() for k,v in pairs(a) do assert(v == _a[k], ("mixed table with sorted keys (key = '%s'): failed"):format(k)) end end -- test sorting is not called on numeric-only tables do local a = {1,2,3,4,5} local called = false local sortfunc = function() called = true end serpent.dump(a, {sortkeys = sortfunc, sparse = false}) assert(called == false, "sorting is not called on numeric-only tables: failed") called = false serpent.dump(a, {sortkeys = sortfunc, sparse = false, maxnum = 3}) assert(called == false, "sorting is not called on numeric-only tables with maxnum: failed") end do local ok, res = serpent.load(serpent.line(10)) assert(ok and res == 10, "deserialization of simple number values: failed") local ok, res = serpent.load(serpent.line(true)) assert(ok and res == true, "deserialization of simple boolean values: failed") local ok, res = serpent.load(serpent.line({3,4})) assert(ok and #res == 2 and res[1] == 3 and res[2] == 4, "deserialization of pretty-printed tables: failed") local ok, res = serpent.load(serpent.dump({3,4})) assert(ok and #res == 2 and res[1] == 3 and res[2] == 4, "deserialization of serialized tables: failed") local ok, res = serpent.load('{a = math.random()}') assert(not ok and res:find("cannot call functions"), "deserialization of unsafe values: failed") local ok, res = serpent.load('{a = math.random()}', {safe = false}) assert(ok and res and res.a > 0, "deserialization of unsafe values disabled: failed") end do local a = {1, 2, 3, 4, [false] = 0, [true] = 0} local f = assert(loadstring('return '..serpent.line(a)), "serializing table with numerical and boolean keys: failed") local _a = f() assert(#_a == #a, "table with array and hash parts has the right number of elements: failed") assert(_a[3] == a[3], "table with array and hash parts has the right order of elements 1/4: failed") assert(_a[4] == a[4], "table with array and hash parts has the right order of elements 2/4: failed") a = {1, [0] = 0} f = assert(loadstring('return '..serpent.line(a)), "serializing table with two numerical keys: failed") local _a = f() assert(_a[1] == 1, "table with array and hash parts has the right order of elements 3/4: failed") assert(_a[0] == 0, "table with array and hash parts has the right order of elements 4/4: failed") end -- based on https://gist.github.com/mpeterv/8360307 local function random_var(is_key, deep) local key = math.random(1000) if key <= 100 then return is_key and 0 or nil elseif key <= 200 then return false elseif key <= 500 then return math.random(-1e6, 1e6) elseif key <= 900 then local len = math.random(0, 100) local res = {} for i=1, len do table.insert(res, string.char(math.random(65, 90))) end return table.concat(res) else if deep > 3 or is_key then return 0 else local len = math.random(0, 10) local res = {} for i=1, len do if math.random(0, 1) == 0 then table.insert(res, random_var(false, deep+1)) else res[random_var(true, deep+1)] = random_var(false, deep+1) end end return res end end end local function deepsame(a1, a2) if type(a1) == type(a2) and type(a1) == 'table' then local e1, e2 while true do e1, e2 = next(a1, e1), next(a2, e2) -- looped through all the elements and they are the same if e1 == nil and e2 == nil then return true end local res if e1 == e2 then res = deepsame(a1[e1], a2[e2]) else res = deepsame(a1[e1], a2[e1]) and deepsame(a1[e2], a2[e2]) end -- found two different elements if not res then return false end end end return type(a1) == type(a2) and a1 == a2 end do local seed = os.time() math.randomseed(seed) local max = 100 for i = 1, max do local x = random_var(false, 0) local s = serpent.block(x) local ok, x2 = serpent.load(s) assert(ok, ("deserialization of randomly generated values %d/%d (seed=%d): failed"):format(i, max, seed)) assert(deepsame(x, x2), ("randomly generated values are the same after deserialization %d/%d (seed=%d): failed"):format(i, max, seed)) end end do -- test for Lua 5.2 compiled without loadstring local a = {function() return 1 end} local load, loadstring = _G.load, _G.loadstring local f = assert((loadstring or load)('load = loadstring or load; loadstring = nil; return '..serpent.line(a)), "serializing table with function as a value (1/2): failed") local _a = f() assert(_a[1]() == a[1](), "deserialization of function value without loadstring (1/2): failed") _G.load, _G.loadstring = load, loadstring local f = assert((loadstring or load)('return '..serpent.line(a)), "serializing table with function as a value (2/2): failed") local _a = f() assert(_a[1]() == a[1](), "deserialization of function value without loadstring (2/2): failed") end do local ok, res = serpent.load("do error('not allowed') end") assert(not ok and res:find("cannot call functions"), "not allowing calling functions from serialized content: failed") local print = _G.print local ok, res = serpent.load("do print = error end") assert(ok and _G.print == print and print ~= error, "not allowing resetting `print` from serialized content (1/3): failed") local ok, res = serpent.load("do _G.print = error end") assert(ok and _G.print == print and _G.print ~= error, "not allowing resetting `print` from serialized content (2/3): failed") local ok, res = serpent.load("do _G._G.print = error end") assert(ok and _G.print == print and print ~= error, "not allowing resetting `print` from serialized content (3/3): failed") end print("All tests passed.") if arg[1] == 'perf' then print("\nSerializing large numeric-only tables:") local a, str = {} for i = 1, 100000 do a[i] = i end local start = os.clock() str = serpent.dump(a) print("dump: "..(os.clock() - start), #str) start = os.clock() str = serpent.dump(a, {maxnum = 400}) print("dump/maxnum: "..(os.clock() - start), #str) start = os.clock() str = serpent.dump(a, {sparse = false}) print("dump/sparse=false: "..(os.clock() - start), #str) end