# Optimizing a lua table backup

I am trying to create a speedy Sudoku solver and in one of the steps I need to save the state of the puzzle. I started off by using various deep copy functions to do this, but found it quite slow. In the end I came up with these two functions but luatrace shows these two functions still taking up a significant amount of time.

Is there anything that can be done to optimize this or is time to write it in C?

``````local function backupCells(cells)
local serial = {{}, {}}
for i = 1, #cells do
serial[1][i] = {unpack(cells[i].domain)}
serial[2][i] = cells[i].value
end
return serial
end

local function restoreCells(cells, serial)
for i=1, #cells do
cells[i].domain = serial[1][i]
cells[i].value = serial[2][i]
end
end
``````

So, each cell in `cells` represents a square on the sudoku grid. The `value` property is set once the value of the cell has been determined (otherwise it's `nil`). The `domain` is a table of all possible values. Between the calls to `backupCells` and `restoreCells` forward checking is completed and the values/domains of cells change quite a bit - `serial` does not incur any such change.

In general the restore is an "undo" so that the solver can guess at another value and forward check from there.

• I'm not really sure why they are written as they are, for any useful answer the exact layout of `cells` (with semantics and rationale) are needed. Also of interest, what can happen to `cells` between the calls, and what might happen to `serial`. – Deduplicator Oct 19 '14 at 18:45
• I've updated the post to include some additional info about the sudoku solver! – FourierTransformer Oct 19 '14 at 21:03

Every cell is always a table containing all possible values, thus:

• If `not t[1]`, we obviously made an error.
• Otherwise, if `not t[2]`, `t[1]` is the value of the cell.
• Otherwise, `t` contains multiple possibilities.

Thus, you can copy a board like this:

``````local function cloneBoard(cells)
local r = {}
for i = 1, #cells do
-- Option 1
local t, cell = {}, cells[i]
r[i] = t
for j = 1, #cell, 1 do
t[j] = cell[j]
end
-- Option 2
r[i] = {unpack(cells[i])}
-- Measure which option is faster for you
end
return r
end
``````

Next, you throw away the old board, just use (a clone of) the saved board.