I have been dealing a lot with Lua in the past few months, and I really like most of the features but I'm still missing something among those:
- Why is there no
- What workarounds are there for it?
The way that the language manages lexical scope creates issues with including both
continue. For example,
local a=0 repeat if f() then a=1 --change outer a end local a=f() -- inner a until a==0 -- test inner a
The declaration of
local a inside the loop body masks the outer variable named
a, and the scope of that local extends across the condition of the
until statement so the condition is testing the innermost
continue existed, it would have to be restricted semantically to be only valid after all of the variables used in the condition have come into scope. This is a difficult condition to document to the user and enforce in the compiler. Various proposals around this issue have been discussed, including the simple answer of disallowing
continue with the
repeat ... until style of loop. So far, none have had a sufficiently compelling use case to get them included in the language.
The work around is generally to invert the condition that would cause a
continue to be executed, and collect the rest of the loop body under that condition. So, the following loop
-- not valid Lua 5.1 (or 5.2) for k,v in pairs(t) do if isstring(k) then continue end -- do something to t[k] when k is not a string end
could be written
-- valid Lua 5.1 (or 5.2) for k,v in pairs(t) do if not isstring(k) then -- do something to t[k] when k is not a string end end
It is clear enough, and usually not a burden unless you have a series of elaborate culls that control the loop operation.
You can wrap loop body in additional
repeat until true and then use
do break end inside for effect of continue. Naturally, you'll need to set up additional flags if you also intend to really
break out of loop as well.
This will loop 5 times, printing 1, 2, and 3 each time.
for idx = 1, 5 do repeat print(1) print(2) print(3) do break end -- goes to next iteration of for print(4) print(5) until true end
This construction even translates to literal one opcode
JMP in Lua bytecode!
$ luac -l continue.lua main <continue.lua:0,0> (22 instructions, 88 bytes at 0x23c9530) 0+ params, 6 slots, 0 upvalues, 4 locals, 6 constants, 0 functions 1  LOADK 0 -1 ; 1 2  LOADK 1 -2 ; 3 3  LOADK 2 -1 ; 1 4  FORPREP 0 16 ; to 21 5  GETGLOBAL 4 -3 ; print 6  LOADK 5 -1 ; 1 7  CALL 4 2 1 8  GETGLOBAL 4 -3 ; print 9  LOADK 5 -4 ; 2 10  CALL 4 2 1 11  GETGLOBAL 4 -3 ; print 12  LOADK 5 -2 ; 3 13  CALL 4 2 1 14  JMP 6 ; to 21 -- Here it is! If you remove do break end from code, result will only differ by this single line. 15  GETGLOBAL 4 -3 ; print 16  LOADK 5 -5 ; 4 17  CALL 4 2 1 18  GETGLOBAL 4 -3 ; print 19  LOADK 5 -6 ; 5 20  CALL 4 2 1 21  FORLOOP 0 -17 ; to 5 22  RETURN 0 1
Our main concern with "continue" is that there are several other control structures that (in our view) are more or less as important as "continue" and may even replace it. (E.g., break with labels [as in Java] or even a more generic goto.) "continue" does not seem more special than other control-structure mechanisms, except that it is present in more languages. (Perl actually has two "continue" statements, "next" and "redo". Both are useful.)
As for a workaround, you can wrap the body of the loop in a function and
return early from that, e.g.
-- Print the odd numbers from 1 to 99 for a = 1, 99 do (function() if a % 2 == 0 then return end print(a) end)() end
Or if you want both
continue functionality, have the local function perform the test, e.g.
local a = 1 while (function() if a > 99 then return false; -- break end if a % 2 == 0 then return true; -- continue end print(a) return true; -- continue end)() do a = a + 1 end
I've never used Lua before, but I Googled it and came up with this:
Check question 1.26.
This is a common complaint. The Lua authors felt that continue was only one of a number of possible new control flow mechanisms (the fact that it cannot work with the scope rules of repeat/until was a secondary factor.)
In Lua 5.2, there is a goto statement which can be easily used to do the same job.
We encountered this scenario many times and we simply use a flag to simulate continue. We try to avoid the use of goto statements as well.
Example: The code intends to print the numbers from 1 to 10 except 3. In addition it also prints "loop start", loop end", "if start", and "if end" to simulate other statements that exist in your code and nested statements.
size = 10 for i=1, size do print("loop start") if whatever then print("if start") if (i == 3) then print("i is 3") --continue end print(j) print("if end") end print("loop end") end
is achieved by enclosing all remaining statements until the end scope of the loop with a test flag.
size = 10 for i=1, size do print("loop start") local continue = false; -- initialize flag at the start of the loop if whatever then print("if start") if (i == 3) then print("i is 3") continue = true end if continue==false then -- test flag print(j) print("if end") end end if (continue==false) then -- test flag print("loop end") end end
I'm not saying that this is the best approach but it works perfectly to us.
Thank you for your interest in this question.
Because it has attracted low-quality or spam answers that had to be removed, posting an answer now requires 10 reputation on this site (the association bonus does not count).
Would you like to answer one of these unanswered questions instead?