lua/testes/nextvar.lua

-- $Id: testes/nextvar.lua $
-- See Copyright Notice in file all.lua

print('testing tables, next, and for')

local function checkerror (msg, f, ...)
  local s, err = pcall(f, ...)
  assert(not s and string.find(err, msg))
end


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.."+"] = undef end
-- fill hash part with numeric indices testing size operator
for i=1,100 do
  a[i] = true
  assert(#a == i)
end

-- testing ipairs
local x = 0
for k,v in ipairs{10,20,30;x=12} do
  x = x + 1
  assert(k == x and v == x * 10)
end

for _ in ipairs{x=12, y=24} do assert(nil) end

-- test for 'false' x ipair
x = false
local i = 0
for k,v in ipairs{true,false,true,false} do
  i = i + 1
  x = not x
  assert(x == v)
end
assert(i == 4)

-- iterator function is always the same
assert(type(ipairs{}) == 'function' and ipairs{} == ipairs{})


do   -- overflow (must wrap-around)
  local f = ipairs{}
  local k, v = f({[math.mininteger] = 10}, math.maxinteger)
  assert(k == math.mininteger and v == 10)
  k, v = f({[math.mininteger] = 10}, k)
  assert(k == nil)
end

if not T then
  (Message or print)
    ('\n >>> testC not active: skipping tests for table sizes <<<\n')
else --[
-- testing table sizes


local function mp2 (n)   -- minimum power of 2 >= n
  local mp = 2^math.ceil(math.log(n, 2))
  assert(n == 0 or (mp/2 < n and n <= mp))
  return mp
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 C library sizes
do
  local s = 0
  for _ in pairs(math) do s = s + 1 end
  check(math, 0, mp2(s))
end


-- testing constructor sizes
local sizes = {0, 1, 2, 3, 4, 5, 7, 8, 9, 15, 16, 17,
  30, 31, 32, 33, 34, 254, 255, 256, 500, 1000}

for _, sa in ipairs(sizes) do    -- 'sa' is size of the array part
  local arr = {"return {"}
  for i = 1, sa do arr[1 + i] = "1," end    -- build array part
  for _, sh in ipairs(sizes) do    -- 'sh' is size of the hash part
    for j = 1, sh do   -- build hash part
      arr[1 + sa + j] = string.format('k%x=%d,', j, j)
    end
    arr[1 + sa + sh + 1] = "}"
    local prog = table.concat(arr)
    local f = assert(load(prog))
    collectgarbage("stop")
    f()    -- call once to ensure stack space
    -- make sure table is not resized after being created
    if sa == 0 or sh == 0 then
      T.alloccount(2);  -- header + array or hash part
    else
      T.alloccount(3);  -- header + array part + hash part
    end
    local t = f()
    T.alloccount();
    collectgarbage("restart")
    assert(#t == sa)
    check(t, sa, mp2(sh))
  end
end


-- tests with unknown number of elements
local a = {}
for i=1,sizes[#sizes] do a[i] = i end   -- build auxiliary table
for k in ipairs(sizes) do
  local t = {table.unpack(a,1,k)}
  assert(#t == k)
  check(t, k, 0)
  t = {1,2,3,table.unpack(a,1,k)}
  check(t, k+3, 0)
  assert(#t == k + 3)
end


-- testing tables dynamically built
local lim = 130
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

a = {}
for i = 1,lim do
  a['a'..i] = 1
  assert(#a == 0)
  check(a, 0, mp2(i))
end

a = {}
for i=1,16 do a[i] = i end
check(a, 16, 0)
do
  for i=1,11 do a[i] = undef end
  for i=30,50 do a[i] = true; a[i] = undef end   -- force a rehash (?)
  check(a, 0, 8)   -- 5 elements in the table
  a[10] = 1
  for i=30,50 do a[i] = true; a[i] = undef end   -- force a rehash (?)
  check(a, 0, 8)   -- only 6 elements in the table
  for i=1,14 do a[i] = true; a[i] = undef end
  for i=18,50 do a[i] = true; a[i] = undef end   -- force a rehash (?)
  check(a, 0, 4)   -- only 2 elements ([15] and [16])
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, table.unpack(a)) end


-- Table length with limit smaller than maximum value at array
local a = {}
for i = 1,64 do a[i] = true end    -- make its array size 64
for i = 1,64 do a[i] = nil end     -- erase all elements
assert(T.querytab(a) == 64)    -- array part has 64 elements
a[32] = true; a[48] = true;    -- binary search will find these ones
a[51] = true                   -- binary search will miss this one
assert(#a == 48)               -- this will set the limit
assert(select(4, T.querytab(a)) == 48)  -- this is the limit now
a[50] = true                   -- this will set a new limit
assert(select(4, T.querytab(a)) == 50)  -- this is the limit now
-- but the size is larger (and still inside the array part)
assert(#a == 51)

end  --]


-- test size operation on tables with nils
assert(#{} == 0)
assert(#{nil} == 0)
assert(#{nil, nil} == 0)
assert(#{nil, nil, nil} == 0)
assert(#{nil, nil, nil, nil} == 0)
assert(#{1, 2, 3, nil, nil} == 3)
print'+'


local nofind = {}

a,b,c = 1,2,3
a,b,c = nil


-- next uses always the same iteraction function
assert(next{} == next{})

local function find (name)
  local n,v
  while 1 do
    n,v = next(_G, n)
    if not n then return nofind end
    assert(_G[n] ~= undef)
    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


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"] = undef
assert(nofind==find("return"))
_G["xxx"] = 1
assert(xxx==find("xxx"))

-- invalid key to 'next'
checkerror("invalid key", next, {10,20}, 3)

-- both 'pairs' and 'ipairs' need an argument
checkerror("bad argument", pairs)
checkerror("bad argument", ipairs)

print('+')

a = {}
for i=0,10000 do
  if math.fmod(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

do   -- clear global table
  local a = {}
  for n,v in pairs(_G) do a[n]=v end
  for n,v in pairs(a) do
    if not package.loaded[n] and type(v) ~= "function" and
       not string.find(n, "^[%u_]") then
      _G[n] = undef
    end
    collectgarbage()
  end
end


--

local function checknext (a)
  local 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(#{} == 0)
assert(#{[-1] = 2} == 0)
for i=0,40 do
  local a = {}
  for j=1,i do a[j]=j end
  assert(#a == i)
end

-- 'maxn' is now deprecated, but it is easily defined in Lua
function table.maxn (t)
  local max = 0
  for k in pairs(t) do
    max = (type(k) == 'number') and math.max(max, k) or max
  end
  return max
end

assert(table.maxn{} == 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)

table.maxn = nil

-- int overflow
a = {}
for i=0,50 do a[2^i] = true end
assert(a[#a])

print('+')


do    -- testing 'next' with all kinds of keys
  local a = {
    [1] = 1,                        -- integer
    [1.1] = 2,                      -- float
    ['x'] = 3,                      -- short string
    [string.rep('x', 1000)] = 4,    -- long string
    [print] = 5,                    -- C function
    [checkerror] = 6,               -- Lua function
    [coroutine.running()] = 7,      -- thread
    [true] = 8,                     -- boolean
    [io.stdin] = 9,                 -- userdata
    [{}] = 10,                      -- table
  }
  local b = {}; for i = 1, 10 do b[i] = true end
  for k, v in pairs(a) do
    assert(b[v]); b[v] = undef
  end
  assert(next(b) == nil)        -- 'b' now is empty
end


-- 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] = undef
  collectgarbage()
  assert(t[k] == undef)
end
assert(n == 5)


do
  print("testing next x GC of deleted keys")
  -- bug in 5.4.1
  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


local function test (a)
  assert(not pcall(table.insert, a, 2, 20));
  table.insert(a, 10); table.insert(a, 2, 20);
  table.insert(a, 1, -1); table.insert(a, 40);
  table.insert(a, #a+1, 50)
  table.insert(a, 2, -2)
  assert(a[2] ~= undef)
  assert(a["2"] == undef)
  assert(not pcall(table.insert, a, 0, 20));
  assert(not pcall(table.insert, a, #a + 2, 20));
  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)
  assert(table.remove(a) == nil)
  assert(table.remove(a, #a) == 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 #a == 0 and a[-7] == "ban")

a = {[-1] = "ban"}
test(a)
assert(#a == 0 and table.remove(a) == nil and a[-1] == "ban")

a = {[0] = "ban"}
assert(#a == 0 and table.remove(a) == "ban" and a[0] == undef)

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)
assert(table.remove(a) == nil)

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.remove(a, 1) == nil)
assert(#a == 0 and a.n == nil)

a = {10,20,30,40}
assert(table.remove(a, #a + 1) == nil)
assert(not pcall(table.remove, a, 0))
assert(a[#a] == 40)
assert(table.remove(a, #a) == 40)
assert(a[#a] == 30)
assert(table.remove(a, 2) == 20)
assert(a[#a] == 30 and #a == 2)

do   -- testing table library with metamethods
  local function test (proxy, t)
    for i = 1, 10 do
      table.insert(proxy, 1, i)
    end
    assert(#proxy == 10 and #t == 10 and proxy[1] ~= undef)
    for i = 1, 10 do
      assert(t[i] == 11 - i)
    end
    table.sort(proxy)
    for i = 1, 10 do
      assert(t[i] == i and proxy[i] == i)
    end
    assert(table.concat(proxy, ",") == "1,2,3,4,5,6,7,8,9,10")
    for i = 1, 8 do
      assert(table.remove(proxy, 1) == i)
    end
    assert(#proxy == 2 and #t == 2)
    local a, b, c = table.unpack(proxy)
    assert(a == 9 and b == 10 and c == nil)
  end

  -- all virtual
  local t = {}
  local proxy = setmetatable({}, {
    __len = function () return #t end,
    __index = t,
    __newindex = t,
  })
  test(proxy, t)

  -- only __newindex
  local count = 0
  t = setmetatable({}, {
    __newindex = function (t,k,v) count = count + 1; rawset(t,k,v) end})
  test(t, t)
  assert(count == 10)   -- after first 10, all other sets are not new

  -- no __newindex
  t = setmetatable({}, {
    __index = function (_,k) return k + 1 end,
    __len = function (_) return 5 end})
  assert(table.concat(t, ";") == "2;3;4;5;6")

end


do   -- testing overflow in table.insert (must wrap-around)

  local t = setmetatable({},
            {__len = function () return math.maxinteger end})
  table.insert(t, 20)
  local k, v = next(t)
  assert(k == math.mininteger and v == 20)
end

if not T then
  (Message or print)
    ('\n >>> testC not active: skipping tests for table library on non-tables <<<\n')
else --[
  local debug = require'debug'
  local tab = {10, 20, 30}
  local mt = {}
  local u = T.newuserdata(0)
  checkerror("table expected", table.insert, u, 40)
  checkerror("table expected", table.remove, u)
  debug.setmetatable(u, mt)
  checkerror("table expected", table.insert, u, 40)
  checkerror("table expected", table.remove, u)
  mt.__index = tab
  checkerror("table expected", table.insert, u, 40)
  checkerror("table expected", table.remove, u)
  mt.__newindex = tab
  checkerror("table expected", table.insert, u, 40)
  checkerror("table expected", table.remove, u)
  mt.__len = function () return #tab end
  table.insert(u, 40)
  assert(#u == 4 and #tab == 4 and u[4] == 40 and tab[4] == 40)
  assert(table.remove(u) == 40)
  table.insert(u, 1, 50)
  assert(#u == 4 and #tab == 4 and u[4] == 30 and tab[1] == 50)

  mt.__newindex = nil
  mt.__len = nil
  local tab2 = {}
  local u2 = T.newuserdata(0)
  debug.setmetatable(u2, {__newindex = function (_, k, v) tab2[k] = v end})
  table.move(u, 1, 4, 1, u2)
  assert(#tab2 == 4 and tab2[1] == tab[1] and tab2[4] == tab[4])

end -- ]

print('+')

a = {}
for i=1,1000 do
  a[i] = i; a[i - 1] = undef
end
assert(next(a,nil) == 1000 and next(a,1000) == nil)

assert(next({}) == nil)
assert(next({}, nil) == nil)

for a,b in pairs{} do error"not here" end
for i=1,0 do error'not here' end
for i=0,1,-1 do error'not here' end
a = nil; for i=1,1 do assert(not a); a=1 end; assert(a)
a = nil; for i=1,1,-1 do assert(not a); a=1 end; assert(a)

do
  print("testing floats in numeric for")
  local a
  -- integer count
  a = 0; for i=1, 1, 1 do a=a+1 end; assert(a==1)
  a = 0; for i=10000, 1e4, -1 do a=a+1 end; assert(a==1)
  a = 0; for i=1, 0.99999, 1 do a=a+1 end; assert(a==0)
  a = 0; for i=9999, 1e4, -1 do a=a+1 end; assert(a==0)
  a = 0; for i=1, 0.99999, -1 do a=a+1 end; assert(a==1)

  -- float count
  a = 0; for i=0, 0.999999999, 0.1 do a=a+1 end; assert(a==10)
  a = 0; for i=1.0, 1, 1 do a=a+1 end; assert(a==1)
  a = 0; for i=-1.5, -1.5, 1 do a=a+1 end; assert(a==1)
  a = 0; for i=1e6, 1e6, -1 do a=a+1 end; assert(a==1)
  a = 0; for i=1.0, 0.99999, 1 do a=a+1 end; assert(a==0)
  a = 0; for i=99999, 1e5, -1.0 do a=a+1 end; assert(a==0)
  a = 0; for i=1.0, 0.99999, -1 do a=a+1 end; assert(a==1)
end

do   -- changing the control variable
  local a
  a = 0; for i = 1, 10 do a = a + 1; i = "x" end; assert(a == 10)
  a = 0; for i = 10.0, 1, -1 do a = a + 1; i = "x" end; assert(a == 10)
end

-- conversion
a = 0; for i="10","1","-2" do a=a+1 end; assert(a==5)

do  -- checking types
  local c
  local function checkfloat (i)
    assert(math.type(i) == "float")
    c = c + 1
  end

  c = 0; for i = 1.0, 10 do checkfloat(i) end
  assert(c == 10)

  c = 0; for i = -1, -10, -1.0 do checkfloat(i) end
  assert(c == 10)

  local function checkint (i)
    assert(math.type(i) == "integer")
    c = c + 1
  end

  local m = math.maxinteger
  c = 0; for i = m, m - 10, -1 do checkint(i) end
  assert(c == 11)

  c = 0; for i = 1, 10.9 do checkint(i) end
  assert(c == 10)

  c = 0; for i = 10, 0.001, -1 do checkint(i) end
  assert(c == 10)

  c = 0; for i = 1, "10.8" do checkint(i) end
  assert(c == 10)

  c = 0; for i = 9, "3.4", -1 do checkint(i) end
  assert(c == 6)

  c = 0; for i = 0, " -3.4  ", -1 do checkint(i) end
  assert(c == 4)

  c = 0; for i = 100, "96.3", -2 do checkint(i) end
  assert(c == 2)

  c = 0; for i = 1, math.huge do if i > 10 then break end; checkint(i) end
  assert(c == 10)

  c = 0; for i = -1, -math.huge, -1 do
           if i < -10 then break end; checkint(i)
          end
  assert(c == 10)


  for i = math.mininteger, -10e100 do assert(false) end
  for i = math.maxinteger, 10e100, -1 do assert(false) end

end


do   -- testing other strange cases for numeric 'for'

  local function checkfor (from, to, step, t)
    local c = 0
    for i = from, to, step do
      c = c + 1
      assert(i == t[c])
    end
    assert(c == #t)
  end

  local maxi = math.maxinteger
  local mini = math.mininteger

  checkfor(mini, maxi, maxi, {mini, -1, maxi - 1})

  checkfor(mini, math.huge, maxi, {mini, -1, maxi - 1})

  checkfor(maxi, mini, mini, {maxi, -1})

  checkfor(maxi, mini, -maxi, {maxi, 0, -maxi})

  checkfor(maxi, -math.huge, mini, {maxi, -1})

  checkfor(maxi, mini, 1, {})
  checkfor(mini, maxi, -1, {})

  checkfor(maxi - 6, maxi, 3, {maxi - 6, maxi - 3, maxi})
  checkfor(mini + 4, mini, -2, {mini + 4, mini + 2, mini})

  local step = maxi // 10
  local c = mini
  for i = mini, maxi, step do
    assert(i == c)
    c = c + step
  end

  c = maxi
  for i = maxi, mini, -step do
    assert(i == c)
    c = c - step
  end

  checkfor(maxi, maxi, maxi, {maxi})
  checkfor(maxi, maxi, mini, {maxi})
  checkfor(mini, mini, maxi, {mini})
  checkfor(mini, mini, mini, {mini})
end


checkerror("'for' step is zero", function ()
  for i = 1, 10, 0 do end
end)

checkerror("'for' step is zero", function ()
  for i = 1, -10, 0 do end
end)

checkerror("'for' step is zero", function ()
  for i = 1.0, -10, 0.0 do end
end)

collectgarbage()


-- testing generic 'for'

local function f (n, p)
  local t = {}; for i=1,p do t[i] = i*10 end
  return function (_, n, ...)
           assert(select("#", ...) == 0)  -- no extra arguments
           if n > 0 then
             n = n-1
             return n, table.unpack(t)
           end
         end, nil, n
end

local x = 0
for n,a,b,c,d in f(5,3) do
  x = x+1
  assert(a == 10 and b == 20 and c == 30 and d == nil)
end
assert(x == 5)



-- testing __pairs and __ipairs metamethod
a = {}
do
  local x,y,z = pairs(a)
  assert(type(x) == 'function' and y == a and z == nil)
end

local function foo (e,i)
  assert(e == a)
  if i <= 10 then return i+1, i+2 end
end

local function foo1 (e,i)
  i = i + 1
  assert(e == a)
  if i <= e.n then return i,a[i] end
end

setmetatable(a, {__pairs = function (x) return foo, x, 0 end})

local i = 0
for k,v in pairs(a) do
  i = i + 1
  assert(k == i and v == k+1)
end

a.n = 5
a[3] = 30

-- testing ipairs with metamethods
a = {n=10}
setmetatable(a, { __index = function (t,k)
                     if k <= t.n then return k * 10 end
                  end})
i = 0
for k,v in ipairs(a) do
  i = i + 1
  assert(k == i and v == i * 10)
end
assert(i == a.n)


-- testing yield inside __pairs
do
  local t = setmetatable({10, 20, 30}, {__pairs = function (t)
    local inc = coroutine.yield()
    return function (t, i)
             if i > 1 then return i - inc, t[i - inc]  else return nil end
           end, t, #t + 1
  end})

  local res = {}
  local co = coroutine.wrap(function ()
    for i,p in pairs(t) do res[#res + 1] = p end
  end)

  co()     -- start coroutine
  co(1)    -- continue after yield
  assert(res[1] == 30 and res[2] == 20 and res[3] == 10 and #res == 3)
  
end

print"OK"