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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

Update: (additional info was requested!)

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.

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  • 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
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My advice:
Simplify your cell-layout.

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.

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