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lexys-labyrinth/js/algorithms.js

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JavaScript
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import { DIRECTIONS, DIRECTION_ORDER } from './defs.js';
export function trace_floor_circuit(level, start_cell, start_edge, on_wire, on_dead_end) {
let is_first = true;
let pending = [[start_cell, start_edge]];
let seen_cells = new Map;
while (pending.length > 0) {
let next = [];
for (let [cell, edge] of pending) {
let terrain = cell.get_terrain();
if (! terrain)
continue;
let edgeinfo = DIRECTIONS[edge];
let seen_edges = seen_cells.get(cell) ?? 0;
if (seen_edges & edgeinfo.bit)
continue;
let actor = cell.get_actor();
let wire_directions = terrain.wire_directions;
if ((actor?.wire_directions ?? null !== null) && (actor.movement_cooldown === 0 || level.compat.tiles_react_instantly))
{
wire_directions = actor.wire_directions;
}
// The wire comes in from this edge towards the center; see how it connects within this
// cell, then check for any neighbors
let connections = edgeinfo.bit;
if (! is_first && ((wire_directions ?? 0) & edgeinfo.bit) === 0) {
// There's not actually a wire here (but not if this is our starting cell, in which
// case we trust the caller)
if (on_dead_end) {
on_dead_end(terrain.cell, edge);
}
continue;
}
else if (terrain.type.wire_propagation_mode === 'none') {
// The wires in this tile never connect to each other
}
else if (terrain.type.wire_propagation_mode === 'cross' ||
(wire_directions === 0x0f && terrain.type.wire_propagation_mode !== 'all'))
{
// This is a cross pattern, so only opposite edges connect
if (wire_directions & edgeinfo.opposite_bit) {
connections |= edgeinfo.opposite_bit;
}
}
else {
// Everything connects
connections |= wire_directions;
}
seen_cells.set(cell, seen_edges | connections);
if (on_wire) {
on_wire(terrain, connections);
}
for (let [direction, dirinfo] of Object.entries(DIRECTIONS)) {
// Obviously don't go backwards, but that doesn't apply if this is our first pass
if (direction === edge && ! is_first)
continue;
if ((connections & dirinfo.bit) === 0)
continue;
let neighbor;
if ((terrain.wire_tunnel_directions ?? 0) & dirinfo.bit) {
// Search in this direction for a matching tunnel
neighbor = find_matching_wire_tunnel(level, cell.x, cell.y, direction);
}
else {
neighbor = level.get_neighboring_cell(cell, direction);
}
/*
if (! neighbor || (((neighbor.get_terrain().wire_directions ?? 0) & dirinfo.opposite_bit) === 0)) {
console.log("bailing here", neighbor, direction);
continue;
}
*/
if (! neighbor)
continue;
next.push([neighbor, dirinfo.opposite]);
}
}
pending = next;
is_first = false;
}
}
export function find_matching_wire_tunnel(level, x, y, direction) {
let dirinfo = DIRECTIONS[direction];
let [dx, dy] = dirinfo.movement;
let nesting = 0;
while (true) {
x += dx;
y += dy;
let candidate = level.cell(x, y);
if (! candidate)
return null;
let neighbor = candidate.get_terrain();
if (! neighbor)
continue;
if ((neighbor.wire_tunnel_directions ?? 0) & dirinfo.opposite_bit) {
if (nesting === 0) {
return candidate;
}
else {
nesting -= 1;
}
}
if ((neighbor.wire_tunnel_directions ?? 0) & dirinfo.bit) {
nesting += 1;
}
}
}
// TODO make this guy work generically for orange, red, brown buttons? others...?
export function find_implicit_connection() {
}
// Iterates over a grid in a diamond pattern, spreading out from the given start cell (but not
// including it). Only used for connecting orange buttons.
export function* iter_cells_in_diamond(levelish, x0, y0) {
let max_search_radius = Math.max(levelish.size_x, levelish.size_y) + 1;
for (let dist = 1; dist <= max_search_radius; dist++) {
// Start east and move counterclockwise
let sx = x0 + dist;
let sy = y0;
for (let direction of [[-1, -1], [-1, 1], [1, 1], [1, -1]]) {
for (let i = 0; i < dist; i++) {
let cell = levelish.cell(sx, sy);
if (cell) {
yield cell;
}
sx += direction[0];
sy += direction[1];
}
}
}
}
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