-- internationalization boilerplate local MP = minetest.get_modpath(minetest.get_current_modname()) local S, NS = dofile(MP.."/intllib.lua") local dig_dust = function(pos, facing) local direction = minetest.facedir_to_dir(facing) return { amount = 10, time = 1.0, minpos = vector.subtract(pos, vector.new(0.5,0.5,0.5)), maxpos = vector.add(pos, vector.new(0.5,0.5,0.5)), minvel = vector.multiply(direction, -10), maxvel = vector.multiply(direction, -20), minacc = {x=0, y=-40, z=0}, maxacc = {x=0, y=-40, z=0}, minexptime = 0.25, maxexptime = 0.5, minsize = 2, maxsize = 5, collisiondetection = false, vertical = false, texture = "default_item_smoke.png^[colorize:#9F817080", } end local burn_smoke = function(pos, amount) return { amount = math.min(amount, 40), time = 1.0, minpos = vector.subtract(pos, vector.new(0.5,0.5,0.5)), maxpos = vector.add(pos, vector.new(0.5,0.5,0.5)), minvel = {x=0, y=2, z=0}, maxvel = {x=0, y=5, z=0}, minacc = {x=0, y=0, z=0}, maxacc = {x=0, y=0, z=0}, minexptime = 0.5, maxexptime = 1.5, minsize = 8, maxsize = 12, collisiondetection = false, vertical = false, texture = "default_item_smoke.png^[colorize:#000000DD", } end --Performs various tests on a layout to play warning noises and see if Digtron can move at all. local function neighbour_test(layout, status_text, dir) if layout.ignore_touching == true then -- if the digtron array touches unloaded nodes, too dangerous to do anything in that situation. Abort. minetest.sound_play("buzzer", {gain=0.25, pos=layout.controller}) return S("Digtron is adjacent to unloaded nodes.") .. "\n" .. status_text, 1 end if layout.water_touching == true then minetest.sound_play("sploosh", {gain=1.0, pos=layout.controller}) end if layout.lava_touching == true then minetest.sound_play("woopwoopwoop", {gain=1.0, pos=layout.controller}) end if dir and dir.y ~= -1 and layout.traction * digtron.config.traction_factor < table.getn(layout.all) then -- digtrons can't fly, though they can fall minetest.sound_play("squeal", {gain=1.0, pos=layout.controller}) return S("Digtron has @1 blocks but only enough traction to move @2 blocks.\n", table.getn(layout.all), layout.traction * digtron.config.traction_factor) .. status_text, 2 end return status_text, 0 end -- Checks if a player is within a layout's extents. local function move_player_test(layout, player) local player_pos = player:get_pos() if player_pos.x >= layout.extents_min_x - 1 and player_pos.x <= layout.extents_max_x + 1 and player_pos.y >= layout.extents_min_y - 1 and player_pos.y <= layout.extents_max_y + 1 and player_pos.z >= layout.extents_min_z - 1 and player_pos.z <= layout.extents_max_z + 1 then return true end return false end local node_inventory_table = {type="node"} -- a reusable parameter for get_inventory calls, set the pos parameter before using. local function test_stop_block(pos, items) node_inventory_table.pos = pos local inv = minetest.get_inventory(node_inventory_table) local item_stack = inv:get_stack("stop", 1) if not item_stack:is_empty() then for _, item in pairs(items) do if item == item_stack:get_name() then return true end end end return false end local function check_digtron_size(layout) if #layout.all > digtron.config.size_limit then return S("Size limit of @1 reached with @2 nodes!", digtron.config.size_limit, #layout.all) end end -- returns newpos, status string, and a return code indicating why the method returned (so the auto-controller can keep trying if it's due to unloaded nodes) -- 0 - success -- 1 - failed due to unloaded nodes -- 2 - failed due to insufficient traction -- 3 - obstructed by undiggable node -- 4 - insufficient fuel -- 5 - unknown builder error during testing -- 6 - builder with unset output -- 7 - insufficient builder materials in inventory -- 8 - size/node limit reached digtron.execute_dig_cycle = function(pos, clicker) local meta = minetest.get_meta(pos) local facing = minetest.get_node(pos).param2 local dir = minetest.facedir_to_dir(facing) local fuel_burning = meta:get_float("fuel_burning") -- get amount of burned fuel left over from last cycle local status_text = S("Heat remaining in controller furnace: @1", math.floor(math.max(0, fuel_burning))) local exhaust = meta:get_int("on_coal") local layout = DigtronLayout.create(pos, clicker) local status_text, return_code = neighbour_test(layout, status_text, dir) if return_code ~= 0 then return pos, status_text, return_code end local size_check_error = check_digtron_size(layout) if size_check_error then return pos, size_check_error, 8 end local controlling_coordinate = digtron.get_controlling_coordinate(pos, facing) ---------------------------------------------------------------------------------------------------------------------- local items_dropped = {} local digging_fuel_cost = 0 local particle_systems = {} -- execute the execute_dig method on all digtron components that have one -- This builds a set of nodes that will be dug and returns a list of products that will be generated -- but doesn't actually dig the nodes yet. That comes later. -- If we dug them now, sand would fall and some digtron nodes would die. if layout.diggers ~= nil then for k, location in pairs(layout.diggers) do local target = minetest.get_node(location.pos) local targetdef = minetest.registered_nodes[target.name] if targetdef.execute_dig ~= nil then local fuel_cost, dropped = targetdef.execute_dig(location.pos, layout.protected, layout.nodes_dug, controlling_coordinate, false, clicker) if dropped ~= nil then for _, itemname in pairs(dropped) do table.insert(items_dropped, itemname) end if digtron.config.particle_effects then table.insert(particle_systems, dig_dust(vector.add(location.pos, dir), target.param2)) end end digging_fuel_cost = digging_fuel_cost + fuel_cost else minetest.log(string.format("%s has digger group but is missing execute_dig method! This is an error in mod programming, file a bug.", targetdef.name)) end end end ---------------------------------------------------------------------------------------------------------------------- -- test if any digtrons are obstructed by non-digtron nodes that haven't been marked -- as having been dug. local can_move = true for _, location in pairs(layout.all) do local newpos = vector.add(location.pos, dir) if not digtron.can_move_to(newpos, layout.protected, layout.nodes_dug) then can_move = false end end if test_stop_block(pos, items_dropped) then can_move = false end if not can_move then -- mark this node as waiting, will clear this flag in digtron.config.cycle_time seconds minetest.get_meta(pos):set_string("waiting", "true") minetest.get_node_timer(pos):start(digtron.config.cycle_time) minetest.sound_play("squeal", {gain=1.0, pos=pos}) minetest.sound_play("buzzer", {gain=0.5, pos=pos}) return pos, S("Digtron is obstructed.") .. "\n" .. status_text, 3 --Abort, don't dig and don't build. end ---------------------------------------------------------------------------------------------------------------------- -- ask each builder node if it can get what it needs from inventory to build this cycle. -- This is a complicated test because each builder needs to actually *take* the item it'll -- need from inventory, and then we put it all back afterward. -- Note that this test may overestimate the amount of work that will actually need to be done so don't treat its fuel cost as authoritative. local can_build = true local test_build_return_code = nil local test_build_return_items = nil local failed_to_find = nil local test_items = {} local test_fuel_items = {} local test_build_fuel_cost = 0 if layout.builders ~= nil then for k, location in pairs(layout.builders) do local target = minetest.get_node(location.pos) local targetdef = minetest.registered_nodes[target.name] local test_location = vector.add(location.pos, dir) if targetdef.test_build ~= nil then test_build_return_code, test_build_return_items, failed_to_find = targetdef.test_build(location.pos, test_location, layout.inventories, layout.protected, layout.nodes_dug, controlling_coordinate, layout.controller) for k, return_item in pairs(test_build_return_items) do table.insert(test_items, return_item) test_build_fuel_cost = test_build_fuel_cost + digtron.config.build_cost end if test_build_return_code > 1 then can_build = false break end else minetest.log(string.format("%s has builder group but is missing test_build method! This is an error in mod programming, file a bug.", targetdef.name)) end end end local test_fuel_needed = test_build_fuel_cost + digging_fuel_cost - fuel_burning local test_fuel_burned = 0 local power_from_cables = 0 if minetest.get_modpath("technic") then if layout.power_connectors ~= nil then local power_inputs = {} for _, power_connector in pairs(layout.power_connectors) do if power_connector.meta.fields.HV_network and power_connector.meta.fields.HV_EU_input then power_inputs[power_connector.meta.fields.HV_network] = tonumber(power_connector.meta.fields.HV_EU_input) end end for _, power in pairs(power_inputs) do power_from_cables = power_from_cables + power end power_from_cables = power_from_cables / digtron.config.power_ratio test_fuel_burned = power_from_cables end if test_fuel_needed - test_fuel_burned > 0 then -- check for the available electrical power test_fuel_burned = test_fuel_burned + digtron.tap_batteries(layout.battery_holders, test_fuel_needed, true) end end if (test_fuel_needed < test_fuel_burned) then exhaust = 0 -- all power needs met by electricity, don't blow smoke else -- burn combustible fuel if not enough power test_fuel_burned = test_fuel_burned + digtron.burn(layout.fuelstores, test_fuel_needed - test_fuel_burned, true) exhaust = 1 -- burning fuel produces smoke end --Put everything back where it came from for k, item_return in pairs(test_items) do digtron.place_in_specific_inventory(item_return.item, item_return.location, layout.inventories, layout.controller) end if test_fuel_needed > fuel_burning + test_fuel_burned then minetest.sound_play("buzzer", {gain=0.5, pos=pos}) return pos, S("Digtron needs more fuel."), 4 -- abort, don't dig and don't build. end if not can_build then minetest.get_meta(pos):set_string("waiting", "true") minetest.get_node_timer(pos):start(digtron.config.cycle_time) local return_string = nil local return_code = 5 if test_build_return_code == 3 then minetest.sound_play("honk", {gain=0.5, pos=pos}) -- A builder is not configured return_string = S("Digtron connected to at least one builder with no output material assigned.") .. "\n" return_code = 6 elseif test_build_return_code == 2 then minetest.sound_play("dingding", {gain=1.0, pos=pos}) -- Insufficient inventory return_string = S("Digtron has insufficient building materials. Needed: @1", failed_to_find:get_name()) .. "\n" return_code = 7 end return pos, return_string .. status_text, return_code --Abort, don't dig and don't build. end ---------------------------------------------------------------------------------------------------------------------- -- All tests passed, ready to go for real! minetest.sound_play("construction", {gain=1.0, pos=pos}) -- if the player is standing within the array or next to it, move him too. local move_player = move_player_test(layout, clicker) -- damage the weak flesh if digtron.config.damage_hp > 0 and layout.diggers ~= nil then for k, location in pairs(layout.diggers) do local target = minetest.get_node(location.pos) local targetdef = minetest.registered_nodes[target.name] if targetdef.damage_creatures ~= nil then targetdef.damage_creatures(clicker, location.pos, controlling_coordinate, items_dropped) end end end --move the array layout:move_layout_image(dir) if not layout:write_layout_image(clicker) then return pos, "unrecoverable write_layout_image error", 1 end local oldpos = {x=pos.x, y=pos.y, z=pos.z} pos = vector.add(pos, dir) meta = minetest.get_meta(pos) if move_player then clicker:moveto(vector.add(dir, clicker:get_pos()), true) end -- store or drop the products of the digger heads for _, itemname in pairs(items_dropped) do digtron.place_in_inventory(itemname, layout.inventories, oldpos) end digtron.award_item_dug(items_dropped, clicker) -- Achievements mod hook local building_fuel_cost = 0 local strange_failure = false -- execute_build on all digtron components that have one if layout.builders ~= nil then for k, location in pairs(layout.builders) do local target = minetest.get_node(location.pos) local targetdef = minetest.registered_nodes[target.name] if targetdef.execute_build ~= nil then --using the old location of the controller as fallback so that any leftovers land with the rest of the digger output. Not that there should be any. local build_return = targetdef.execute_build(location.pos, clicker, layout.inventories, layout.protected, layout.nodes_dug, controlling_coordinate, oldpos) if build_return < 0 then -- This happens if there's insufficient inventory, but we should have confirmed there was sufficient inventory during test phase. -- So this should never happen. However, "should never happens" happen sometimes. So -- don't interrupt the build cycle as a whole, we've already moved so might as well try to complete as much as possible. strange_failure = true build_return = (build_return * -1) - 1 elseif digtron.config.uses_resources then building_fuel_cost = building_fuel_cost + (digtron.config.build_cost * build_return) end else minetest.log(string.format("%s has builder group but is missing execute_build method! This is an error in mod programming, file a bug.", targetdef.name)) end end end if layout.auto_ejectors ~= nil then for k, location in pairs(layout.auto_ejectors) do local target = minetest.get_node(location.pos) local targetdef = minetest.registered_nodes[target.name] if targetdef.execute_eject ~= nil then targetdef.execute_eject(location.pos, target, clicker, layout) else minetest.log(string.format("%s has an ejector group but is missing execute_eject method! This is an error in mod programming, file a bug.", targetdef.name)) end end end local status_text = "" if strange_failure then -- We weren't able to detect this build failure ahead of time, so make a big noise now. This is strange, shouldn't happen. minetest.sound_play("dingding", {gain=1.0, pos=pos}) minetest.sound_play("buzzer", {gain=0.5, pos=pos}) status_text = S("Digtron unexpectedly failed to execute one or more build operations, likely due to an inventory error.") .. "\n" end local total_fuel_cost = math.max(digging_fuel_cost + building_fuel_cost - power_from_cables, 0) -- actually burn the fuel needed fuel_burning = fuel_burning - total_fuel_cost if digtron.config.particle_effects and exhaust == 1 then table.insert(particle_systems, burn_smoke(pos, total_fuel_cost)) end if fuel_burning < 0 then -- we tap into the batteries either way fuel_burning = fuel_burning + digtron.tap_batteries(layout.battery_holders, -fuel_burning, false) if exhaust == 1 then -- but we burn coal only if we must (exhaust = flag) fuel_burning = fuel_burning + digtron.burn(layout.fuelstores, -fuel_burning, false) end end meta:set_float("fuel_burning", fuel_burning) meta:set_int("on_coal", exhaust) status_text = status_text .. S("Heat remaining in controller furnace: @1", math.floor(math.max(0, fuel_burning))) -- Eyecandy for _, particles in pairs(particle_systems) do minetest.add_particlespawner(particles) end -- finally, dig out any nodes remaining to be dug. Some of these will have had their flag revoked because -- a builder put something there or because they're another digtron node. local node_to_dig, whether_to_dig = layout.nodes_dug:pop() while node_to_dig ~= nil do if whether_to_dig == true then minetest.log("action", string.format("%s uses Digtron to dig %s at (%d, %d, %d)", clicker:get_player_name(), minetest.get_node(node_to_dig).name, node_to_dig.x, node_to_dig.y, node_to_dig.z)) minetest.remove_node(node_to_dig) end -- all of the digtron's nodes wind up in nodes_dug, so this is an ideal place to stick -- a check to make sand fall after the digtron has passed. minetest.check_for_falling({x=node_to_dig.x, y=node_to_dig.y+1, z=node_to_dig.z}) node_to_dig, whether_to_dig = layout.nodes_dug:pop() end return pos, status_text, 0 end -- Simplified version of the above method that only moves, and doesn't execute diggers or builders. digtron.execute_move_cycle = function(pos, clicker) local meta = minetest.get_meta(pos) local layout = DigtronLayout.create(pos, clicker) local status_text = "" local status_text, return_code = neighbour_test(layout, status_text, nil) -- skip traction check for pusher by passing nil for direction if return_code ~= 0 then return pos, status_text, return_code end local size_check_error = check_digtron_size(layout) if size_check_error then return pos, size_check_error, 8 end local facing = minetest.get_node(pos).param2 local dir = minetest.facedir_to_dir(facing) local controlling_coordinate = digtron.get_controlling_coordinate(pos, facing) -- if the player is standing within the array or next to it, move him too. local move_player = move_player_test(layout, clicker) -- test if any digtrons are obstructed by non-digtron nodes layout:move_layout_image(dir) if not layout:can_write_layout_image() then -- mark this node as waiting, will clear this flag in digtron.config.cycle_time seconds minetest.get_meta(pos):set_string("waiting", "true") minetest.get_node_timer(pos):start(digtron.config.cycle_time) minetest.sound_play("squeal", {gain=1.0, pos=pos}) minetest.sound_play("buzzer", {gain=0.5, pos=pos}) return pos, S("Digtron is obstructed.") .. "\n" .. status_text, 3 --Abort, don't dig and don't build. end minetest.sound_play("truck", {gain=1.0, pos=pos}) --move the array if not layout:write_layout_image(clicker) then return pos, "unrecoverable write_layout_image error", 1 end pos = vector.add(pos, dir) if move_player then clicker:moveto(vector.add(clicker:get_pos(), dir), true) end return pos, "", 0 end -- Simplified version of the dig cycle that moves laterally relative to the controller's orientation ("downward") -- Does the dig portion of the cycle, but skips the build portion. -- returns newpos, status string, and a return code indicating why the method returned (so the auto-controller can keep trying if it's due to unloaded nodes) -- 0 - success -- 1 - failed due to unloaded nodes -- 2 - failed due to insufficient traction -- 3 - obstructed by undiggable node -- 4 - insufficient fuel digtron.execute_downward_dig_cycle = function(pos, clicker) local meta = minetest.get_meta(pos) local facing = minetest.get_node(pos).param2 local dir = digtron.facedir_to_down_dir(facing) local fuel_burning = meta:get_float("fuel_burning") -- get amount of burned fuel left over from last cycle local status_text = S("Heat remaining in controller furnace: @1", math.floor(math.max(0, fuel_burning))) local exhaust = meta:get_int("on_coal") local layout = DigtronLayout.create(pos, clicker) local status_text, return_code = neighbour_test(layout, status_text, dir) if return_code ~= 0 then return pos, status_text, return_code end local size_check_error = check_digtron_size(layout) if size_check_error then return pos, size_check_error, 8 end local controlling_coordinate = digtron.get_controlling_coordinate(pos, facing) ---------------------------------------------------------------------------------------------------------------------- local items_dropped = {} local digging_fuel_cost = 0 local particle_systems = {} -- execute the execute_dig method on all digtron components that have one -- This builds a set of nodes that will be dug and returns a list of products that will be generated -- but doesn't actually dig the nodes yet. That comes later. -- If we dug them now, sand would fall and some digtron nodes would die. if layout.diggers ~= nil then for k, location in pairs(layout.diggers) do local target = minetest.get_node(location.pos) local targetdef = minetest.registered_nodes[target.name] if targetdef.execute_dig ~= nil then local fuel_cost, dropped = targetdef.execute_dig(location.pos, layout.protected, layout.nodes_dug, controlling_coordinate, true, clicker) if dropped ~= nil then for _, itemname in pairs(dropped) do table.insert(items_dropped, itemname) end if digtron.config.particle_effects then table.insert(particle_systems, dig_dust(vector.add(location.pos, dir), target.param2)) end end digging_fuel_cost = digging_fuel_cost + fuel_cost else minetest.log(string.format("%s has digger group but is missing execute_dig method! This is an error in mod programming, file a bug.", targetdef.name)) end end end ---------------------------------------------------------------------------------------------------------------------- -- test if any digtrons are obstructed by non-digtron nodes that haven't been marked -- as having been dug. local can_move = true for _, location in pairs(layout.all) do local newpos = vector.add(location.pos, dir) if not digtron.can_move_to(newpos, layout.protected, layout.nodes_dug) then can_move = false end end if test_stop_block(pos, items_dropped) then can_move = false end if not can_move then -- mark this node as waiting, will clear this flag in digtron.config.cycle_time seconds minetest.get_meta(pos):set_string("waiting", "true") minetest.get_node_timer(pos):start(digtron.config.cycle_time) minetest.sound_play("squeal", {gain=1.0, pos=pos}) minetest.sound_play("buzzer", {gain=0.5, pos=pos}) return pos, S("Digtron is obstructed.") .. "\n" .. status_text, 3 --Abort, don't dig and don't build. end ---------------------------------------------------------------------------------------------------------------------- -- All tests passed, ready to go for real! minetest.sound_play("construction", {gain=1.0, pos=pos}) -- if the player is standing within the array or next to it, move him too. local move_player = move_player_test(layout, clicker) -- damage the weak flesh if digtron.config.damage_hp > 0 and layout.diggers ~= nil then for k, location in pairs(layout.diggers) do local target = minetest.get_node(location.pos) local targetdef = minetest.registered_nodes[target.name] if targetdef.damage_creatures ~= nil then targetdef.damage_creatures(clicker, location.pos, controlling_coordinate, items_dropped) end end end --move the array layout:move_layout_image(digtron.facedir_to_down_dir(facing)) if not layout:write_layout_image(clicker) then return pos, "unrecoverable write_layout_image error", 1 end local oldpos = {x=pos.x, y=pos.y, z=pos.z} pos = vector.add(pos, dir) meta = minetest.get_meta(pos) if move_player then clicker:moveto(vector.add(clicker:get_pos(), dir), true) end -- store or drop the products of the digger heads for _, itemname in pairs(items_dropped) do digtron.place_in_inventory(itemname, layout.inventories, oldpos) end digtron.award_item_dug(items_dropped, clicker) -- Achievements mod hook local status_text = "" -- actually burn the fuel needed fuel_burning = fuel_burning - digging_fuel_cost if digtron.config.particle_effects and exhaust == 1 then table.insert(particle_systems, burn_smoke(pos, digging_fuel_cost)) end if fuel_burning < 0 then -- we tap into the batteries either way fuel_burning = fuel_burning + digtron.tap_batteries(layout.battery_holders, -fuel_burning, false) if exhaust == 1 then -- but we burn coal only if we must (exhaust = flag) fuel_burning = fuel_burning + digtron.burn(layout.fuelstores, -fuel_burning, false) end end meta:set_float("fuel_burning", fuel_burning) meta:set_int("on_coal", exhaust) status_text = status_text .. S("Heat remaining in controller furnace: @1", math.floor(math.max(0, fuel_burning))) -- Eyecandy for _, particles in pairs(particle_systems) do minetest.add_particlespawner(particles) end -- finally, dig out any nodes remaining to be dug. Some of these will have had their flag revoked because -- a builder put something there or because they're another digtron node. local node_to_dig, whether_to_dig = layout.nodes_dug:pop() while node_to_dig ~= nil do if whether_to_dig == true then minetest.log("action", string.format("%s uses Digtron to dig %s at (%d, %d, %d)", clicker:get_player_name(), minetest.get_node(node_to_dig).name, node_to_dig.x, node_to_dig.y, node_to_dig.z)) minetest.remove_node(node_to_dig) end node_to_dig, whether_to_dig = layout.nodes_dug:pop() end return pos, status_text, 0 end