mirror of
https://github.com/lua/lua
synced 2024-12-29 13:49:44 +03:00
0c9bec0d38
Avoid silent conversions from int to unsigned int when calling 'luaH_resize'; avoid silent conversions from lua_Integer to int in 'table.create'; MAXASIZE corrected for the new implementation of arrays; 'luaH_resize' checks explicitly whether new size respects MAXASIZE. (Even constructors were bypassing that check.)
340 lines
8.9 KiB
Lua
340 lines
8.9 KiB
Lua
-- $Id: testes/sort.lua $
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-- See Copyright Notice in file all.lua
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print "testing (parts of) table library"
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local maxI = math.maxinteger
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local minI = math.mininteger
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local function checkerror (msg, f, ...)
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local s, err = pcall(f, ...)
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assert(not s and string.find(err, msg))
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end
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do print "testing 'table.create'"
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local N = 10000
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collectgarbage()
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local m = collectgarbage("count") * 1024
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local t = table.create(N)
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local memdiff = collectgarbage("count") * 1024 - m
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assert(memdiff > N * 4)
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for i = 1, 20 do
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assert(#t == i - 1)
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t[i] = 0
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end
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for i = 1, 20 do t[#t + 1] = i * 10 end
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assert(#t == 40 and t[39] == 190)
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assert(not T or T.querytab(t) == N)
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t = nil
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collectgarbage()
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m = collectgarbage("count") * 1024
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t = table.create(0, 1024)
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memdiff = collectgarbage("count") * 1024 - m
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assert(memdiff > 1024 * 12)
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assert(not T or select(2, T.querytab(t)) == 1024)
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checkerror("table overflow", table.create, (1<<31) + 1)
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checkerror("table overflow", table.create, 0, (1<<31) + 1)
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end
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print "testing unpack"
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local unpack = table.unpack
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checkerror("wrong number of arguments", table.insert, {}, 2, 3, 4)
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local x,y,z,a,n
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a = {}; local lim = _soft and 200 or 2000
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for i=1, lim do a[i]=i end
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assert(select(lim, unpack(a)) == lim and select('#', unpack(a)) == lim)
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x = unpack(a)
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assert(x == 1)
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x = {unpack(a)}
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assert(#x == lim and x[1] == 1 and x[lim] == lim)
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x = {unpack(a, lim-2)}
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assert(#x == 3 and x[1] == lim-2 and x[3] == lim)
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x = {unpack(a, 10, 6)}
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assert(next(x) == nil) -- no elements
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x = {unpack(a, 11, 10)}
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assert(next(x) == nil) -- no elements
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x,y = unpack(a, 10, 10)
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assert(x == 10 and y == nil)
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x,y,z = unpack(a, 10, 11)
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assert(x == 10 and y == 11 and z == nil)
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a,x = unpack{1}
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assert(a==1 and x==nil)
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a,x = unpack({1,2}, 1, 1)
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assert(a==1 and x==nil)
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do
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local maxi = (1 << 31) - 1 -- maximum value for an int (usually)
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local mini = -(1 << 31) -- minimum value for an int (usually)
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checkerror("too many results", unpack, {}, 0, maxi)
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checkerror("too many results", unpack, {}, 1, maxi)
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checkerror("too many results", unpack, {}, 0, maxI)
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checkerror("too many results", unpack, {}, 1, maxI)
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checkerror("too many results", unpack, {}, mini, maxi)
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checkerror("too many results", unpack, {}, -maxi, maxi)
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checkerror("too many results", unpack, {}, minI, maxI)
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unpack({}, maxi, 0)
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unpack({}, maxi, 1)
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unpack({}, maxI, minI)
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pcall(unpack, {}, 1, maxi + 1)
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local a, b = unpack({[maxi] = 20}, maxi, maxi)
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assert(a == 20 and b == nil)
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a, b = unpack({[maxi] = 20}, maxi - 1, maxi)
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assert(a == nil and b == 20)
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local t = {[maxI - 1] = 12, [maxI] = 23}
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a, b = unpack(t, maxI - 1, maxI); assert(a == 12 and b == 23)
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a, b = unpack(t, maxI, maxI); assert(a == 23 and b == nil)
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a, b = unpack(t, maxI, maxI - 1); assert(a == nil and b == nil)
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t = {[minI] = 12.3, [minI + 1] = 23.5}
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a, b = unpack(t, minI, minI + 1); assert(a == 12.3 and b == 23.5)
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a, b = unpack(t, minI, minI); assert(a == 12.3 and b == nil)
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a, b = unpack(t, minI + 1, minI); assert(a == nil and b == nil)
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end
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do -- length is not an integer
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local t = setmetatable({}, {__len = function () return 'abc' end})
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assert(#t == 'abc')
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checkerror("object length is not an integer", table.insert, t, 1)
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end
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print "testing pack"
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a = table.pack()
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assert(a[1] == undef and a.n == 0)
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a = table.pack(table)
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assert(a[1] == table and a.n == 1)
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a = table.pack(nil, nil, nil, nil)
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assert(a[1] == nil and a.n == 4)
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-- testing move
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do
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checkerror("table expected", table.move, 1, 2, 3, 4)
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local function eqT (a, b)
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for k, v in pairs(a) do assert(b[k] == v) end
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for k, v in pairs(b) do assert(a[k] == v) end
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end
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local a = table.move({10,20,30}, 1, 3, 2) -- move forward
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eqT(a, {10,10,20,30})
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-- move forward with overlap of 1
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a = table.move({10, 20, 30}, 1, 3, 3)
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eqT(a, {10, 20, 10, 20, 30})
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-- moving to the same table (not being explicit about it)
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a = {10, 20, 30, 40}
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table.move(a, 1, 4, 2, a)
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eqT(a, {10, 10, 20, 30, 40})
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a = table.move({10,20,30}, 2, 3, 1) -- move backward
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eqT(a, {20,30,30})
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a = {} -- move to new table
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assert(table.move({10,20,30}, 1, 3, 1, a) == a)
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eqT(a, {10,20,30})
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a = {}
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assert(table.move({10,20,30}, 1, 0, 3, a) == a) -- empty move (no move)
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eqT(a, {})
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a = table.move({10,20,30}, 1, 10, 1) -- move to the same place
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eqT(a, {10,20,30})
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-- moving on the fringes
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a = table.move({[maxI - 2] = 1, [maxI - 1] = 2, [maxI] = 3},
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maxI - 2, maxI, -10, {})
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eqT(a, {[-10] = 1, [-9] = 2, [-8] = 3})
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a = table.move({[minI] = 1, [minI + 1] = 2, [minI + 2] = 3},
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minI, minI + 2, -10, {})
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eqT(a, {[-10] = 1, [-9] = 2, [-8] = 3})
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a = table.move({45}, 1, 1, maxI)
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eqT(a, {45, [maxI] = 45})
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a = table.move({[maxI] = 100}, maxI, maxI, minI)
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eqT(a, {[minI] = 100, [maxI] = 100})
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a = table.move({[minI] = 100}, minI, minI, maxI)
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eqT(a, {[minI] = 100, [maxI] = 100})
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a = setmetatable({}, {
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__index = function (_,k) return k * 10 end,
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__newindex = error})
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local b = table.move(a, 1, 10, 3, {})
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eqT(a, {})
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eqT(b, {nil,nil,10,20,30,40,50,60,70,80,90,100})
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b = setmetatable({""}, {
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__index = error,
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__newindex = function (t,k,v)
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t[1] = string.format("%s(%d,%d)", t[1], k, v)
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end})
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table.move(a, 10, 13, 3, b)
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assert(b[1] == "(3,100)(4,110)(5,120)(6,130)")
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local stat, msg = pcall(table.move, b, 10, 13, 3, b)
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assert(not stat and msg == b)
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end
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do
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-- for very long moves, just check initial accesses and interrupt
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-- move with an error
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local function checkmove (f, e, t, x, y)
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local pos1, pos2
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local a = setmetatable({}, {
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__index = function (_,k) pos1 = k end,
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__newindex = function (_,k) pos2 = k; error() end, })
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local st, msg = pcall(table.move, a, f, e, t)
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assert(not st and not msg and pos1 == x and pos2 == y)
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end
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checkmove(1, maxI, 0, 1, 0)
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checkmove(0, maxI - 1, 1, maxI - 1, maxI)
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checkmove(minI, -2, -5, -2, maxI - 6)
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checkmove(minI + 1, -1, -2, -1, maxI - 3)
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checkmove(minI, -2, 0, minI, 0) -- non overlapping
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checkmove(minI + 1, -1, 1, minI + 1, 1) -- non overlapping
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end
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checkerror("too many", table.move, {}, 0, maxI, 1)
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checkerror("too many", table.move, {}, -1, maxI - 1, 1)
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checkerror("too many", table.move, {}, minI, -1, 1)
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checkerror("too many", table.move, {}, minI, maxI, 1)
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checkerror("wrap around", table.move, {}, 1, maxI, 2)
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checkerror("wrap around", table.move, {}, 1, 2, maxI)
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checkerror("wrap around", table.move, {}, minI, -2, 2)
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print"testing sort"
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-- strange lengths
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local a = setmetatable({}, {__len = function () return -1 end})
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assert(#a == -1)
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table.sort(a, error) -- should not compare anything
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a = setmetatable({}, {__len = function () return maxI end})
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checkerror("too big", table.sort, a)
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-- test checks for invalid order functions
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local function check (t)
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local function f(a, b) assert(a and b); return true end
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checkerror("invalid order function", table.sort, t, f)
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end
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check{1,2,3,4}
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check{1,2,3,4,5}
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check{1,2,3,4,5,6}
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function check (a, f)
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f = f or function (x,y) return x<y end;
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for n = #a, 2, -1 do
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assert(not f(a[n], a[n-1]))
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end
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end
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a = {"Jan", "Feb", "Mar", "Apr", "May", "Jun", "Jul", "Aug", "Sep",
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"Oct", "Nov", "Dec"}
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table.sort(a)
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check(a)
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local function perm (s, n)
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n = n or #s
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if n == 1 then
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local t = {unpack(s)}
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table.sort(t)
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check(t)
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else
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for i = 1, n do
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s[i], s[n] = s[n], s[i]
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perm(s, n - 1)
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s[i], s[n] = s[n], s[i]
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end
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end
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end
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perm{}
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perm{1}
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perm{1,2}
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perm{1,2,3}
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perm{1,2,3,4}
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perm{2,2,3,4}
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perm{1,2,3,4,5}
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perm{1,2,3,3,5}
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perm{1,2,3,4,5,6}
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perm{2,2,3,3,5,6}
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local function timesort (a, n, func, msg, pre)
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local x = os.clock()
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table.sort(a, func)
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x = (os.clock() - x) * 1000
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pre = pre or ""
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print(string.format("%ssorting %d %s elements in %.2f msec.", pre, n, msg, x))
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check(a, func)
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end
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local limit = 50000
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if _soft then limit = 5000 end
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a = {}
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for i=1,limit do
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a[i] = math.random()
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end
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timesort(a, limit, nil, "random")
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timesort(a, limit, nil, "sorted", "re-")
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a = {}
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for i=1,limit do
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a[i] = math.random()
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end
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local x = os.clock(); local i = 0
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table.sort(a, function(x,y) i=i+1; return y<x end)
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x = (os.clock() - x) * 1000
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print(string.format("Invert-sorting other %d elements in %.2f msec., with %i comparisons",
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limit, x, i))
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check(a, function(x,y) return y<x end)
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table.sort{} -- empty array
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for i=1,limit do a[i] = false end
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timesort(a, limit, function(x,y) return nil end, "equal")
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for i,v in pairs(a) do assert(v == false) end
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AA = {"\xE1lo", "\0first :-)", "alo", "then this one", "45", "and a new"}
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table.sort(AA)
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check(AA)
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table.sort(AA, function (x, y)
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load(string.format("AA[%q] = ''", x), "")()
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collectgarbage()
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return x<y
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end)
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_G.AA = nil
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local tt = {__lt = function (a,b) return a.val < b.val end}
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a = {}
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for i=1,10 do a[i] = {val=math.random(100)}; setmetatable(a[i], tt); end
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table.sort(a)
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check(a, tt.__lt)
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check(a)
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print"OK"
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