--register stoppers for movestones/pistons
mesecon.mvps_stoppers = {}
mesecon.on_mvps_move = {}
mesecon.mvps_unmov = {}
--- Objects (entities) that cannot be moved
function mesecon.register_mvps_unmov(objectname)
mesecon.mvps_unmov[objectname] = true;
end
function mesecon.is_mvps_unmov(objectname)
return mesecon.mvps_unmov[objectname]
end
-- Nodes that cannot be pushed / pulled by movestones, pistons
function mesecon.is_mvps_stopper(node, pushdir, stack, stackid)
-- unknown nodes are always stoppers
if not minetest.registered_nodes[node.name] then
return true
end
local get_stopper = mesecon.mvps_stoppers[node.name]
if type (get_stopper) == "function" then
get_stopper = get_stopper(node, pushdir, stack, stackid)
end
return get_stopper
end
function mesecon.register_mvps_stopper(nodename, get_stopper)
if get_stopper == nil then
get_stopper = true
end
mesecon.mvps_stoppers[nodename] = get_stopper
end
-- Functions to be called on mvps movement
function mesecon.register_on_mvps_move(callback)
mesecon.on_mvps_move[#mesecon.on_mvps_move+1] = callback
end
local function on_mvps_move(moved_nodes)
for _, callback in ipairs(mesecon.on_mvps_move) do
callback(moved_nodes)
end
end
function mesecon.mvps_process_stack(stack)
-- update mesecons for placed nodes ( has to be done after all nodes have been added )
for _, n in ipairs(stack) do
mesecon.on_placenode(n.pos, minetest.get_node(n.pos))
end
end
-- tests if the node can be pushed into, e.g. air, water, grass
local function node_replaceable(name)
if name == "ignore" then return true end
if minetest.registered_nodes[name] then
return minetest.registered_nodes[name].buildable_to or false
end
return false
end
function mesecon.mvps_get_stack(pos, dir, maximum, all_pull_sticky)
-- determine the number of nodes to be pushed
local nodes = {}
local frontiers = {pos}
while #frontiers > 0 do
local np = frontiers[1]
local nn = minetest.get_node(np)
if not node_replaceable(nn.name) then
table.insert(nodes, {node = nn, pos = np})
if #nodes > maximum then return nil end
-- add connected nodes to frontiers, connected is a vector list
-- the vectors must be absolute positions
local connected = {}
if minetest.registered_nodes[nn.name]
and minetest.registered_nodes[nn.name].mvps_sticky then
connected = minetest.registered_nodes[nn.name].mvps_sticky(np, nn)
end
table.insert(connected, vector.add(np, dir))
-- If adjacent node is sticky block and connects add that
-- position to the connected table
for _, r in ipairs(mesecon.rules.alldirs) do
local adjpos = vector.add(np, r)
local adjnode = minetest.get_node(adjpos)
if minetest.registered_nodes[adjnode.name]
and minetest.registered_nodes[adjnode.name].mvps_sticky then
local sticksto = minetest.registered_nodes[adjnode.name]
.mvps_sticky(adjpos, adjnode)
-- connects to this position?
for _, link in ipairs(sticksto) do
if vector.equals(link, np) then
table.insert(connected, adjpos)
end
end
end
end
if all_pull_sticky then
table.insert(connected, vector.subtract(np, dir))
end
-- Make sure there are no duplicates in frontiers / nodes before
-- adding nodes in "connected" to frontiers
for _, cp in ipairs(connected) do
local duplicate = false
for _, rp in ipairs(nodes) do
if vector.equals(cp, rp.pos) then
duplicate = true
end
end
for _, fp in ipairs(frontiers) do
if vector.equals(cp, fp) then
duplicate = true
end
end
if not duplicate then
table.insert(frontiers, cp)
end
end
end
table.remove(frontiers, 1)
end
return nodes
end
function mesecon.mvps_push(pos, dir, maximum)
return mesecon.mvps_push_or_pull(pos, dir, dir, maximum)
end
function mesecon.mvps_pull_all(pos, dir, maximum)
return mesecon.mvps_push_or_pull(pos, vector.multiply(dir, -1), dir, maximum, true)
end
function mesecon.mvps_pull_single(pos, dir, maximum)
return mesecon.mvps_push_or_pull(pos, vector.multiply(dir, -1), dir, maximum)
end
-- pos: pos of mvps; stackdir: direction of building the stack
-- movedir: direction of actual movement
-- maximum: maximum nodes to be pushed
-- all_pull_sticky: All nodes are sticky in the direction that they are pulled from
function mesecon.mvps_push_or_pull(pos, stackdir, movedir, maximum, all_pull_sticky)
local nodes = mesecon.mvps_get_stack(pos, movedir, maximum, all_pull_sticky)
if not nodes then return end
-- determine if one of the nodes blocks the push / pull
for id, n in ipairs(nodes) do
if mesecon.is_mvps_stopper(n.node, movedir, nodes, id) then
return
end
end
-- remove all nodes
for _, n in ipairs(nodes) do
n.meta = minetest.get_meta(n.pos):to_table()
local node_timer = minetest.get_node_timer(n.pos)
if node_timer:is_started() then
n.node_timer = {node_timer:get_timeout(), node_timer:get_elapsed()}
end
minetest.remove_node(n.pos)
end
-- update mesecons for removed nodes ( has to be done after all nodes have been removed )
for _, n in ipairs(nodes) do
mesecon.on_dignode(n.pos, n.node)
end
-- add nodes
for _, n in ipairs(nodes) do
local np = vector.add(n.pos, movedir)
minetest.set_node(np, n.node)
minetest.get_meta(np):from_table(n.meta)
if n.node_timer then
minetest.get_node_timer(np):set(unpack(n.node_timer))
end
end
local moved_nodes = {}
local oldstack = mesecon.tablecopy(nodes)
for i in ipairs(nodes) do
moved_nodes[i] = {}
moved_nodes[i].oldpos = nodes[i].pos
nodes[i].pos = vector.add(nodes[i].pos, movedir)
moved_nodes[i].pos = nodes[i].pos
moved_nodes[i].node = nodes[i].node
moved_nodes[i].meta = nodes[i].meta
moved_nodes[i].node_timer = nodes[i].node_timer
end
on_mvps_move(moved_nodes)
return true, nodes, oldstack
end
mesecon.register_on_mvps_move(function(moved_nodes)
for _, n in ipairs(moved_nodes) do
mesecon.on_placenode(n.pos, n.node)
end
end)
function mesecon.mvps_move_objects(pos, dir, nodestack)
local objects_to_move = {}
local dir_k
local dir_l
for k, v in pairs(dir) do
if v ~= 0 then
dir_k = k
dir_l = v
break
end
end
for id, obj in pairs(minetest.object_refs) do
local obj_pos = obj:get_pos()
local cbox = obj:get_properties().collisionbox
local min_pos = vector.add(obj_pos, vector.new(cbox[1], cbox[2], cbox[3]))
local max_pos = vector.add(obj_pos, vector.new(cbox[4], cbox[5], cbox[6]))
local ok = true
for k, v in pairs(pos) do
local edge1, edge2
if k ~= dir_k then
edge1 = v - 0.51 -- More than 0.5 to move objects near to the stack.
edge2 = v + 0.51
else
edge1 = v - 0.5 * dir_l
edge2 = v + (#nodestack + 0.5) * dir_l
-- Make sure, edge1 is bigger than edge2:
if edge1 > edge2 then
edge1, edge2 = edge2, edge1
end
end
if min_pos[k] > edge2 or max_pos[k] < edge1 then
ok = false
break
end
end
if ok then
local ent = obj:get_luaentity()
if obj:is_player() or (ent and not mesecon.is_mvps_unmov(ent.name)) then
local np = vector.add(obj_pos, dir)
-- Move only if destination is not solid or object is inside stack:
local nn = minetest.get_node(np)
local node_def = minetest.registered_nodes[nn.name]
local obj_offset = dir_l * (obj_pos[dir_k] - pos[dir_k])
if (node_def and not node_def.walkable) or
(obj_offset >= 0 and
obj_offset <= #nodestack - 0.5) then
obj:move_to(np)
end
end
end
end
end
mesecon.register_mvps_stopper("doors:door_steel_b_1")
mesecon.register_mvps_stopper("doors:door_steel_t_1")
mesecon.register_mvps_stopper("doors:door_steel_b_2")
mesecon.register_mvps_stopper("doors:door_steel_t_2")
mesecon.register_mvps_stopper("default:chest_locked")
mesecon.register_on_mvps_move(mesecon.move_hot_nodes)
mesecon.register_on_mvps_move(function(moved_nodes)
for i = 1, #moved_nodes do
local moved_node = moved_nodes[i]
local node_def = minetest.registered_nodes[moved_node.node.name]
if node_def and node_def.mesecon and node_def.mesecon.on_mvps_move then
node_def.mesecon.on_mvps_move(moved_node.pos, moved_node.node,
moved_node.oldpos, moved_node.meta)
end
end
end)