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import std.bigint;
import deimos.ncurses;
import std.string : toStringz;
import std.math : floor, ceil;
import std.array : appender;
import std.range;
import std.format;
import std.stdio;
import spots : Spot, SpotSource;

public class Board {
    private SpotSource _source;
    // uint seed;
    // indexed as Spot = Board[y, x]

    this(SpotSource source) {
        _source = source;
    }

    Spot opIndex(BigInt y, BigInt x) {
        return _source[y, x];
    }

    Spot opIndex(long y, long x) {
        // possible per improvements
        return opIndex(BigInt(y), BigInt(x));
    }

    PartialBoard opIndex(BigInt[2] y, BigInt[2] x) {
        return new PartialBoard(y, x, _source);
    }

    PartialBoard opIndex(long[2] y, long[2] x) {
        return opIndex([BigInt(y[0]), BigInt(y[1])], [
                BigInt(x[0]), BigInt(x[1])
                ]);
    }

    PartialBoard opIndex(BigInt[2] y, BigInt x) {
        return opIndex(y, [x, x + 1]);
    }

    PartialBoard opIndex(long[2] y, long x) {
        return opIndex([BigInt(y[0]), BigInt(y[1])], BigInt(x));
    }

    PartialBoard opIndex(BigInt y, BigInt[2] x) {
        return opIndex([y, y + 1], x);
    }

    PartialBoard opIndex(long y, long[2] x) {
        return opIndex(BigInt(y), [BigInt(x[0]), BigInt(x[1])]);
    }

    BigInt[2] opSlice(size_t dimension)(BigInt x, BigInt y)
            if (dimension >= 0 && dimension < 2) {
        return [x, y];
    }

    long[2] opSlice(size_t dimension)(long x, long y)
            if (dimension >= 0 && dimension < 2) {
        return [x, y];
    }
    // be more generic. instead of long use T where IsIntegral!T
}

enum Edge {
    LEFT,
    RIGHT,
    TOP,
    BOT,
}

class BoardDisplay {
    private Board _board;
    private WINDOW* _window;
    private int _height, _width;
    private string _status;
    BigInt x = 0;
    BigInt y = 0;

    this(Board board, WINDOW* window) {
        _board = board;
        _window = window;
        getdims();
    }

    public void getdims() {
        getmaxyx(_window, _height, _width);
    }

    private void center() {
        mvprintw(_height, 0, toStringz(_status ~ " ".replicate(_width - status.length)));
        move(cast(int) ceil(_height / 2.0), cast(int) ceil(_width / 2.0));
    }

    @property string status() {
        return _status;
    }

    @property status(string s) {
        _status = s;
        center();
    }

    private BigInt edge(Edge e) { // templating??
        switch (e) {
        case Edge.LEFT:
            return BigInt(cast(int) floor(-_width / 2.0)) + x;
        case Edge.RIGHT:
            return BigInt(cast(int) floor(_width / 2.0)) + x;
        case Edge.TOP:
            return BigInt(cast(int) floor(-_height / 2.0)) + y;
        case Edge.BOT:
            return BigInt(cast(int) floor(_height / 2.0)) + y;
        default:
            assert(0);
        }
    }

    void print() {
        import std.stdio;
        import std.datetime;

        mvprintw(0, 0, toStringz(_board[edge(Edge.TOP) .. edge(Edge.BOT),
                    edge(Edge.LEFT) .. edge(Edge.RIGHT)].toString()));
        center();
    }

    void up() { // the cursor moves up, the map scrolls down, leaving an empty line at top
        y--;
        scrl(-1);
        mvprintw(0, 0, toStringz(_board[edge(Edge.TOP),
                    edge(Edge.LEFT) .. edge(Edge.RIGHT)].toString()));
        center();
    }

    void down() {
        y++;
        scrl(1);
        mvprintw(_height - 1, 0, toStringz(_board[edge(Edge.BOT) - 1,
                    // necessary because opSlice is exclusive
                    edge(Edge.LEFT) .. edge(Edge.RIGHT)].toString()));
        center();
    }

    void left() {
        x--;
        print();
    }

    void right() {
        x++;
        print();
    }
}

unittest {
    import std.stdio;
    import std.datetime;
    import lru : LRUCache;
    import spots : RandomSource, OverlaySource;

    SysTime starttime = Clock.currTime();
    auto random = new RandomSource();
    auto source = new OverlaySource(random);
    foreach (j; iota(100)) {
        foreach (i; iota(400)) {
            source[BigInt(i), BigInt(0)];
        }
    }
    writeln(Clock.currTime() - starttime);
    foreach (j; iota(100)) {
        foreach (i; iota(400)) {
            random[BigInt(i), BigInt(0)];
        }
    }
    writeln(Clock.currTime() - starttime);
}

class PartialBoard : Board {
    private BigInt[2] _yrange, _xrange;
    this(BigInt[2] y, BigInt[2] x, SpotSource source) {
        _yrange = y;
        _xrange = x;
        super(source);
    }

    override Spot opIndex(BigInt y, BigInt x) {
        return _source[y + _yrange[0], x + _xrange[0]];
    }

    override string toString() {
        auto strBuilder = appender!string;
        strBuilder.reserve(cast(ulong)((_yrange[1] - _yrange[0] + 2) * (_xrange[1] - _xrange[0] + 1)));
        foreach (y; iota(_yrange[0], _yrange[1])) {
            foreach (x; iota(_xrange[0], _xrange[1])) {
                strBuilder.put(_source[y, x].contents);
            }
            strBuilder.put("\n");
        }
        return strBuilder.data;
    }
}