2021-10-30 04:25:12 +08:00
-- 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 metatables ' )
local unpack = table.unpack
X = 20 ; B = 30
local _G = getfenv ( )
setfenv ( 1 , setmetatable ( { } , { __index = _G } ) )
collectgarbage ( )
X = X + 10
assert ( X == 30 and _G.X == 20 )
B = false
assert ( B == false )
B = nil
assert ( B == 30 )
assert ( getmetatable { } == nil )
assert ( getmetatable ( 4 ) == nil )
assert ( getmetatable ( nil ) == nil )
a = { } ; setmetatable ( a , { __metatable = " xuxu " ,
__tostring = function ( x ) return x.name end } )
assert ( getmetatable ( a ) == " xuxu " )
local res , err = pcall ( tostring , a )
assert ( not res and err == " '__tostring' must return a string " )
-- cannot change a protected metatable
assert ( pcall ( setmetatable , a , { } ) == false )
a.name = " gororoba "
assert ( tostring ( a ) == " gororoba " )
local a , t = { 10 , 20 , 30 ; x = " 10 " , y = " 20 " } , { }
assert ( setmetatable ( a , t ) == a )
assert ( getmetatable ( a ) == t )
assert ( setmetatable ( a , nil ) == a )
assert ( getmetatable ( a ) == nil )
assert ( setmetatable ( a , t ) == a )
function f ( t , i , e )
assert ( not e )
local p = rawget ( t , " parent " )
return ( p and p [ i ] + 3 ) , " dummy return "
end
t.__index = f
a.parent = { z = 25 , x = 12 , [ 4 ] = 24 }
assert ( a [ 1 ] == 10 and a.z == 28 and a [ 4 ] == 27 and a.x == " 10 " )
collectgarbage ( )
a = setmetatable ( { } , t )
function f ( t , i , v ) rawset ( t , i , v - 3 ) end
t.__newindex = f
a [ 1 ] = 30 ; a.x = " 101 " ; a [ 5 ] = 200
assert ( a [ 1 ] == 27 and a.x == 98 and a [ 5 ] == 197 )
local c = { }
a = setmetatable ( { } , t )
t.__newindex = c
a [ 1 ] = 10 ; a [ 2 ] = 20 ; a [ 3 ] = 90
assert ( c [ 1 ] == 10 and c [ 2 ] == 20 and c [ 3 ] == 90 )
do
local a ;
a = setmetatable ( { } , { __index = setmetatable ( { } ,
{ __index = setmetatable ( { } ,
{ __index = function ( _ , n ) return a [ n - 3 ] + 4 , " lixo " end } ) } ) } )
a [ 0 ] = 20
for i = 0 , 10 do
assert ( a [ i * 3 ] == 20 + i * 4 )
end
end
do -- newindex
local foi
local a = { }
for i = 1 , 10 do a [ i ] = 0 ; a [ ' a ' .. i ] = 0 ; end
setmetatable ( a , { __newindex = function ( t , k , v ) foi = true ; rawset ( t , k , v ) end } )
foi = false ; a [ 1 ] = 0 ; assert ( not foi )
foi = false ; a [ ' a1 ' ] = 0 ; assert ( not foi )
foi = false ; a [ ' a11 ' ] = 0 ; assert ( foi )
foi = false ; a [ 11 ] = 0 ; assert ( foi )
foi = false ; a [ 1 ] = nil ; assert ( not foi )
foi = false ; a [ 1 ] = nil ; assert ( foi )
end
function f ( t , ... ) return t , { ... } end
t.__call = f
do
local x , y = a ( unpack { ' a ' , 1 } )
assert ( x == a and y [ 1 ] == ' a ' and y [ 2 ] == 1 and y [ 3 ] == nil )
x , y = a ( )
assert ( x == a and y [ 1 ] == nil )
end
local b = setmetatable ( { } , t )
setmetatable ( b , t )
function f ( op )
return function ( ... ) cap = { [ 0 ] = op , ... } ; return ( ... ) end
end
t.__add = f ( " add " )
t.__sub = f ( " sub " )
t.__mul = f ( " mul " )
t.__div = f ( " div " )
t.__mod = f ( " mod " )
t.__unm = f ( " unm " )
t.__pow = f ( " pow " )
assert ( b + 5 == b )
assert ( cap [ 0 ] == " add " and cap [ 1 ] == b and cap [ 2 ] == 5 and cap [ 3 ] == nil )
assert ( b + ' 5 ' == b )
assert ( cap [ 0 ] == " add " and cap [ 1 ] == b and cap [ 2 ] == ' 5 ' and cap [ 3 ] == nil )
assert ( 5 + b == 5 )
assert ( cap [ 0 ] == " add " and cap [ 1 ] == 5 and cap [ 2 ] == b and cap [ 3 ] == nil )
assert ( ' 5 ' + b == ' 5 ' )
assert ( cap [ 0 ] == " add " and cap [ 1 ] == ' 5 ' and cap [ 2 ] == b and cap [ 3 ] == nil )
b = b - 3 ; assert ( getmetatable ( b ) == t )
assert ( 5 - a == 5 )
assert ( cap [ 0 ] == " sub " and cap [ 1 ] == 5 and cap [ 2 ] == a and cap [ 3 ] == nil )
assert ( ' 5 ' - a == ' 5 ' )
assert ( cap [ 0 ] == " sub " and cap [ 1 ] == ' 5 ' and cap [ 2 ] == a and cap [ 3 ] == nil )
assert ( a * a == a )
assert ( cap [ 0 ] == " mul " and cap [ 1 ] == a and cap [ 2 ] == a and cap [ 3 ] == nil )
assert ( a / 0 == a )
assert ( cap [ 0 ] == " div " and cap [ 1 ] == a and cap [ 2 ] == 0 and cap [ 3 ] == nil )
assert ( a % 2 == a )
assert ( cap [ 0 ] == " mod " and cap [ 1 ] == a and cap [ 2 ] == 2 and cap [ 3 ] == nil )
assert ( - a == a )
assert ( cap [ 0 ] == " unm " and cap [ 1 ] == a )
assert ( a ^ 4 == a )
assert ( cap [ 0 ] == " pow " and cap [ 1 ] == a and cap [ 2 ] == 4 and cap [ 3 ] == nil )
assert ( a ^ ' 4 ' == a )
assert ( cap [ 0 ] == " pow " and cap [ 1 ] == a and cap [ 2 ] == ' 4 ' and cap [ 3 ] == nil )
assert ( 4 ^ a == 4 )
assert ( cap [ 0 ] == " pow " and cap [ 1 ] == 4 and cap [ 2 ] == a and cap [ 3 ] == nil )
assert ( ' 4 ' ^ a == ' 4 ' )
assert ( cap [ 0 ] == " pow " and cap [ 1 ] == ' 4 ' and cap [ 2 ] == a and cap [ 3 ] == nil )
t = { }
t.__lt = function ( a , b , c )
collectgarbage ( )
assert ( c == nil )
if type ( a ) == ' table ' then a = a.x end
if type ( b ) == ' table ' then b = b.x end
return a < b , " dummy "
end
function Op ( x ) return setmetatable ( { x = x } , t ) end
local function test ( )
assert ( not ( Op ( 1 ) < Op ( 1 ) ) and ( Op ( 1 ) < Op ( 2 ) ) and not ( Op ( 2 ) < Op ( 1 ) ) )
assert ( not ( Op ( ' a ' ) < Op ( ' a ' ) ) and ( Op ( ' a ' ) < Op ( ' b ' ) ) and not ( Op ( ' b ' ) < Op ( ' a ' ) ) )
assert ( ( Op ( 1 ) <= Op ( 1 ) ) and ( Op ( 1 ) <= Op ( 2 ) ) and not ( Op ( 2 ) <= Op ( 1 ) ) )
assert ( ( Op ( ' a ' ) <= Op ( ' a ' ) ) and ( Op ( ' a ' ) <= Op ( ' b ' ) ) and not ( Op ( ' b ' ) <= Op ( ' a ' ) ) )
assert ( not ( Op ( 1 ) > Op ( 1 ) ) and not ( Op ( 1 ) > Op ( 2 ) ) and ( Op ( 2 ) > Op ( 1 ) ) )
assert ( not ( Op ( ' a ' ) > Op ( ' a ' ) ) and not ( Op ( ' a ' ) > Op ( ' b ' ) ) and ( Op ( ' b ' ) > Op ( ' a ' ) ) )
assert ( ( Op ( 1 ) >= Op ( 1 ) ) and not ( Op ( 1 ) >= Op ( 2 ) ) and ( Op ( 2 ) >= Op ( 1 ) ) )
assert ( ( Op ( ' a ' ) >= Op ( ' a ' ) ) and not ( Op ( ' a ' ) >= Op ( ' b ' ) ) and ( Op ( ' b ' ) >= Op ( ' a ' ) ) )
end
test ( )
t.__le = function ( a , b , c )
assert ( c == nil )
if type ( a ) == ' table ' then a = a.x end
if type ( b ) == ' table ' then b = b.x end
return a <= b , " dummy "
end
test ( ) -- retest comparisons, now using both `lt' and `le'
-- test `partial order'
local function Set ( x )
local y = { }
for _ , k in pairs ( x ) do y [ k ] = 1 end
return setmetatable ( y , t )
end
t.__lt = function ( a , b )
for k in pairs ( a ) do
if not b [ k ] then return false end
b [ k ] = nil
end
return next ( b ) ~= nil
end
t.__le = nil
assert ( Set { 1 , 2 , 3 } < Set { 1 , 2 , 3 , 4 } )
assert ( not ( Set { 1 , 2 , 3 , 4 } < Set { 1 , 2 , 3 , 4 } ) )
assert ( ( Set { 1 , 2 , 3 , 4 } <= Set { 1 , 2 , 3 , 4 } ) )
assert ( ( Set { 1 , 2 , 3 , 4 } >= Set { 1 , 2 , 3 , 4 } ) )
assert ( ( Set { 1 , 3 } <= Set { 3 , 5 } ) ) -- wrong!! model needs a `le' method ;-)
t.__le = function ( a , b )
for k in pairs ( a ) do
if not b [ k ] then return false end
end
return true
end
assert ( not ( Set { 1 , 3 } <= Set { 3 , 5 } ) ) -- now its OK!
assert ( not ( Set { 1 , 3 } <= Set { 3 , 5 } ) )
assert ( not ( Set { 1 , 3 } >= Set { 3 , 5 } ) )
t.__eq = function ( a , b )
for k in pairs ( a ) do
if not b [ k ] then return false end
b [ k ] = nil
end
return next ( b ) == nil
end
local s = Set { 1 , 3 , 5 }
assert ( s == Set { 3 , 5 , 1 } )
assert ( not rawequal ( s , Set { 3 , 5 , 1 } ) )
assert ( rawequal ( s , s ) )
assert ( Set { 1 , 3 , 5 , 1 } == Set { 3 , 5 , 1 } )
assert ( Set { 1 , 3 , 5 } ~= Set { 3 , 5 , 1 , 6 } )
t [ Set { 1 , 3 , 5 } ] = 1
assert ( t [ Set { 1 , 3 , 5 } ] == nil ) -- `__eq' is not valid for table accesses
t.__concat = function ( a , b , c )
assert ( c == nil )
if type ( a ) == ' table ' then a = a.val end
if type ( b ) == ' table ' then b = b.val end
if A then return a .. b
else
return setmetatable ( { val = a .. b } , t )
end
end
c = { val = " c " } ; setmetatable ( c , t )
d = { val = " d " } ; setmetatable ( d , t )
A = true
assert ( c .. d == ' cd ' )
assert ( 0 .. " a " .. " b " .. c .. d .. " e " .. " f " .. ( 5 + 3 ) .. " g " == " 0abcdef8g " )
A = false
x = c .. d
assert ( getmetatable ( x ) == t and x.val == ' cd ' )
x = 0 .. " a " .. " b " .. c .. d .. " e " .. " f " .. " g "
assert ( x.val == " 0abcdefg " )
-- test comparison compatibilities
local t1 , t2 , c , d
t1 = { } ; c = { } ; setmetatable ( c , t1 )
d = { }
t1.__eq = function ( ) return true end
t1.__lt = function ( ) return true end
assert ( c ~= d and not pcall ( function ( ) return c < d end ) )
setmetatable ( d , t1 )
assert ( c == d and c < d and not ( d <= c ) )
t2 = { }
t2.__eq = t1.__eq
t2.__lt = t1.__lt
setmetatable ( d , t2 )
assert ( c == d and c < d and not ( d <= c ) )
-- test for several levels of calls
local i
local tt = {
__call = function ( t , ... )
i = i + 1
if t.f then return t.f ( ... )
else return { ... }
end
end
}
local a = setmetatable ( { } , tt )
local b = setmetatable ( { f = a } , tt )
local c = setmetatable ( { f = b } , tt )
i = 0
x = c ( 3 , 4 , 5 )
assert ( i == 3 and x [ 1 ] == 3 and x [ 3 ] == 5 )
assert ( _G.X == 20 )
assert ( _G == getfenv ( 0 ) )
print ' + '
local _g = _G
setfenv ( 1 , setmetatable ( { } , { __index = function ( _ , k ) return _g [ k ] end } ) )
-- testing proxies
assert ( getmetatable ( newproxy ( ) ) == nil )
assert ( getmetatable ( newproxy ( false ) ) == nil )
assert ( getmetatable ( newproxy ( nil ) ) == nil )
local u = newproxy ( true )
getmetatable ( u ) . __newindex = function ( u , k , v )
getmetatable ( u ) [ k ] = v
end
getmetatable ( u ) . __index = function ( u , k )
return getmetatable ( u ) [ k ]
end
for i = 1 , 10 do u [ i ] = i end
for i = 1 , 10 do assert ( u [ i ] == i ) end
-- local k = newproxy(u)
-- assert(getmetatable(k) == getmetatable(u))
a = { }
rawset ( a , " x " , 1 , 2 , 3 )
assert ( a.x == 1 and rawget ( a , " x " , 3 ) == 1 )
print ' + '
--[[
-- testing metatables for basic types
mt = { }
debug.setmetatable ( 10 , mt )
assert ( getmetatable ( - 2 ) == mt )
mt.__index = function ( a , b ) return a + b end
assert ( ( 10 ) [ 3 ] == 13 )
assert ( ( 10 ) [ " 3 " ] == 13 )
debug.setmetatable ( 23 , nil )
assert ( getmetatable ( - 2 ) == nil )
debug.setmetatable ( true , mt )
assert ( getmetatable ( false ) == mt )
mt.__index = function ( a , b ) return a or b end
assert ( ( true ) [ false ] == true )
assert ( ( false ) [ false ] == false )
debug.setmetatable ( false , nil )
assert ( getmetatable ( true ) == nil )
debug.setmetatable ( nil , mt )
assert ( getmetatable ( nil ) == mt )
mt.__add = function ( a , b ) return ( a or 0 ) + ( b or 0 ) end
assert ( 10 + nil == 10 )
assert ( nil + 23 == 23 )
assert ( nil + nil == 0 )
debug.setmetatable ( nil , nil )
assert ( getmetatable ( nil ) == nil )
debug.setmetatable ( nil , { } )
] ] --
do
-- == must not do ref equality for tables and userdata in presence of __eq
local t = { }
local u = newproxy ( true )
-- print() returns nil which is converted to false
setmetatable ( t , { __eq = print } )
getmetatable ( u ) . __eq = print
assert ( t ~= t )
assert ( u ~= u )
end
do
-- verify that internal mt flags are set correctly after two table assignments
local mt = {
{ } , -- mixed metatable
__index = { X = true } ,
}
local t = setmetatable ( { } , mt )
assert ( t.X ) -- fails if table flags are set incorrectly
end
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do
-- verify __len behavior & error handling
local t = { 1 }
setmetatable ( t , { } )
assert ( # t == 1 )
setmetatable ( t , { __len = rawlen } )
assert ( # t == 1 )
setmetatable ( t , { __len = function ( ) return 42 end } )
assert ( # t == 42 )
setmetatable ( t , { __len = 42 } )
local ok , err = pcall ( function ( ) return # t end )
assert ( not ok and err : match ( " attempt to call a number value " ) )
setmetatable ( t , { __len = function ( ) end } )
local ok , err = pcall ( function ( ) return # t end )
assert ( not ok and err : match ( " '__len' must return a number " ) )
setmetatable ( t , { __len = error } )
local ok , err = pcall ( function ( ) return # t end )
assert ( not ok and err == t )
end
-- verify rawlen behavior
do
local t = { 1 }
setmetatable ( t , { __len = 42 } )
assert ( rawlen ( t ) == 1 )
assert ( rawlen ( " foo " ) == 3 )
local ok , err = pcall ( function ( ) return rawlen ( 42 ) end )
assert ( not ok and err : match ( " table or string expected " ) )
end
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-- verify that NaN/nil keys are passed to __newindex even though table assignment with them anywhere in the chain fails
do
assert ( pcall ( function ( ) local t = { } t [ nil ] = 5 end ) == false )
assert ( pcall ( function ( ) local t = { } setmetatable ( t , { __newindex = { } } ) t [ nil ] = 5 end ) == false )
assert ( pcall ( function ( ) local t = { } setmetatable ( t , { __newindex = function ( ) end } ) t [ nil ] = 5 end ) == true )
assert ( pcall ( function ( ) local t = { } t [ 0 / 0 ] = 5 end ) == false )
assert ( pcall ( function ( ) local t = { } setmetatable ( t , { __newindex = { } } ) t [ 0 / 0 ] = 5 end ) == false )
assert ( pcall ( function ( ) local t = { } setmetatable ( t , { __newindex = function ( ) end } ) t [ 0 / 0 ] = 5 end ) == true )
end
-- verify that __newindex gets called for frozen tables but only if the assignment is to a key absent from the table
do
local ni = { }
local t = table.create ( 2 )
t [ 1 ] = 42
-- t[2] is semantically absent with storage allocated for it
t.a = 1
t.b = 2
t.b = nil -- this sets 'b' value to nil but leaves key as is to exercise more internal paths -- no observable behavior change expected between b and other absent keys
setmetatable ( t , { __newindex = function ( _ , k , v )
assert ( v == 42 )
table.insert ( ni , k )
end } )
table.freeze ( t )
-- "redundant" combinations are there to test all three of SETTABLEN/SETTABLEKS/SETTABLE
assert ( pcall ( function ( ) t.a = 42 end ) == false )
assert ( pcall ( function ( ) t [ 1 ] = 42 end ) == false )
assert ( pcall ( function ( ) local key key = " a " t [ key ] = 42 end ) == false )
assert ( pcall ( function ( ) local key key = 1 t [ key ] = 42 end ) == false )
-- now repeat the same for keys absent from the table: b (semantically absent), c (physically absent), 2 (semantically absent), 3 (physically absent)
assert ( pcall ( function ( ) t.b = 42 end ) == true )
assert ( pcall ( function ( ) t.c = 42 end ) == true )
assert ( pcall ( function ( ) local key key = " b " t [ key ] = 42 end ) == true )
assert ( pcall ( function ( ) local key key = " c " t [ key ] = 42 end ) == true )
assert ( pcall ( function ( ) t [ 2 ] = 42 end ) == true )
assert ( pcall ( function ( ) t [ 3 ] = 42 end ) == true )
assert ( pcall ( function ( ) local key key = 2 t [ key ] = 42 end ) == true )
assert ( pcall ( function ( ) local key key = 3 t [ key ] = 42 end ) == true )
-- validate the assignment sequence
local ei = { " b " , " c " , " b " , " c " , 2 , 3 , 2 , 3 }
assert ( # ni == # ei )
for k , v in ni do
assert ( ei [ k ] == v )
end
end
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return ' OK '