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-- A random assortment of methods used in various places in this mod.
digtron = { }
dofile ( minetest.get_modpath ( " digtron " ) .. " /util_item_place_node.lua " ) -- separated out to avoid potential for license complexity
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-- Apparently node_sound_metal_defaults is a newer thing, I ran into games using an older version of the default mod without it.
if default.node_sound_metal_defaults ~= nil then
digtron.metal_sounds = default.node_sound_metal_defaults ( )
else
digtron.metal_sounds = default.node_sound_stone_defaults ( )
end
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digtron.find_new_pos = function ( pos , facing )
-- finds the point one node "forward", based on facing
local dir = minetest.facedir_to_dir ( facing )
local newpos = { }
newpos.x = pos.x + dir.x
newpos.y = pos.y + dir.y
newpos.z = pos.z + dir.z
return newpos
end
digtron.mark_diggable = function ( pos , nodes_dug )
-- mark the node as dug, if the player provided would have been able to dig it.
-- Don't *actually* dig the node yet, though, because if we dig a node with sand over it the sand will start falling
-- and then destroy whatever node we place there subsequently (either by a builder head or by moving a digtron node)
-- I don't like sand. It's coarse and rough and irritating and it gets everywhere. And it necessitates complicated dig routines.
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-- returns fuel cost and what will be dropped by digging these nodes.
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local target = minetest.get_node ( pos )
-- prevent digtrons from being marked for digging.
if minetest.get_item_group ( target.name , " digtron " ) ~= 0 then
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return 0 , nil
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end
local targetdef = minetest.registered_nodes [ target.name ]
if targetdef.can_dig == nil or targetdef.can_dig ( pos , player ) then
nodes_dug : set ( pos.x , pos.y , pos.z , true )
if target.name ~= " air " then
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local in_known_group = false
local material_cost = 0
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if digtron.creative_mode ~= true then
if minetest.get_item_group ( target.name , " cracky " ) ~= 0 then
in_known_group = true
material_cost = math.max ( material_cost , digtron.dig_cost_cracky )
end
if minetest.get_item_group ( target.name , " crumbly " ) ~= 0 then
in_known_group = true
material_cost = math.max ( material_cost , digtron.dig_cost_crumbly )
end
if minetest.get_item_group ( target.name , " choppy " ) ~= 0 then
in_known_group = true
material_cost = math.max ( material_cost , digtron.dig_cost_choppy )
end
if not in_known_group then
material_cost = digtron.dig_cost_default
end
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end
return material_cost , minetest.get_node_drops ( target.name , " " )
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end
end
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return 0 , nil
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end
digtron.can_build_to = function ( pos , protected_nodes , dug_nodes )
-- Returns whether a space is clear to have something put into it
if protected_nodes : get ( pos.x , pos.y , pos.z ) then
return false
end
-- tests if the location pointed to is clear to move something into
local target = minetest.get_node ( pos )
if target.name == " air " or
dug_nodes : get ( pos.x , pos.y , pos.z ) == true or
minetest.registered_nodes [ target.name ] . buildable_to == true
then
return true
end
return false
end
digtron.can_move_to = function ( pos , protected_nodes , dug_nodes )
-- Same as can_build_to, but also checks if the current node is part of the digtron.
-- this allows us to disregard obstructions that *will* move out of the way.
if digtron.can_build_to ( pos , protected_nodes , dug_nodes ) == true or
minetest.get_item_group ( minetest.get_node ( pos ) . name , " digtron " ) ~= 0 then
return true
end
return false
end
digtron.move_node = function ( pos , newpos )
-- Moves nodes, preserving digtron metadata and inventory
local node = minetest.get_node ( pos )
minetest.add_node ( newpos , { name = node.name , param1 = node.param1 , param2 = node.param2 } )
local oldmeta = minetest.get_meta ( pos )
local oldinv = oldmeta : get_inventory ( )
local list = oldinv : get_list ( " main " )
local oldformspec = oldmeta : get_string ( " formspec " )
local newmeta = minetest.get_meta ( newpos )
local newinv = newmeta : get_inventory ( )
newinv : set_list ( " main " , list )
newmeta : set_string ( " formspec " , oldformspec )
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newmeta : set_string ( " triggering_player " , oldmeta : get_string ( " triggering_player " ) ) -- for auto-controllers
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newmeta : set_int ( " offset " , oldmeta : get_int ( " offset " ) )
newmeta : set_int ( " period " , oldmeta : get_int ( " period " ) )
newmeta : set_int ( " build_facing " , oldmeta : get_int ( " build_facing " ) )
newmeta : set_float ( " fuel_burning " , oldmeta : get_float ( " fuel_burning " ) )
newmeta : set_string ( " infotext " , oldmeta : get_string ( " infotext " ) )
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if minetest.get_item_group ( node.name , " digtron " ) == 4 then
digtron.update_builder_item ( newpos )
end
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-- remove node from old position
minetest.remove_node ( pos )
end
digtron.get_all_digtron_neighbours = function ( pos , player )
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-- returns table containing a list of all digtron node locations, lists of special digtron node types, a table of the coordinate extents of the digtron array, a Pointset of protected nodes, and a number to determine how many adjacent solid non-digtron nodes there are (for traction)
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local layout = { }
--initialize. We're assuming that the start position is a controller digtron, should be a safe assumption since only the controller node should call this
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layout.traction = 0
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layout.all = { }
layout.inventories = { }
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layout.fuelstores = { }
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layout.diggers = { }
layout.builders = { }
layout.extents = { }
layout.protected = Pointset.create ( ) -- if any nodes we look at are protected, make note of that. That way we don't need to keep re-testing protection state later.
layout.controller = { x = pos.x , y = pos.y , z = pos.z } --Make a deep copy of the pos parameter just in case the calling code wants to play silly buggers with it
table.insert ( layout.all , layout.controller )
layout.extents . max_x = pos.x
layout.extents . min_x = pos.x
layout.extents . max_y = pos.y
layout.extents . min_y = pos.y
layout.extents . max_z = pos.z
layout.extents . min_z = pos.z
-- temporary pointsets used while searching
local to_test = Pointset.create ( )
local tested = Pointset.create ( )
tested : set ( pos.x , pos.y , pos.z , true )
to_test : set ( pos.x + 1 , pos.y , pos.z , true )
to_test : set ( pos.x - 1 , pos.y , pos.z , true )
to_test : set ( pos.x , pos.y + 1 , pos.z , true )
to_test : set ( pos.x , pos.y - 1 , pos.z , true )
to_test : set ( pos.x , pos.y , pos.z + 1 , true )
to_test : set ( pos.x , pos.y , pos.z - 1 , true )
if minetest.is_protected ( pos , player : get_player_name ( ) ) and not minetest.check_player_privs ( player , " protection_bypass " ) then
layout.protected : set ( pos.x , pos.y , pos.z , true )
end
-- Do a loop on to_test positions, adding new to_test positions as we find digtron nodes. This is a flood fill operation
-- that follows node faces (no diagonals)
local testpos , _ = to_test : pop ( )
while testpos ~= nil do
tested : set ( testpos.x , testpos.y , testpos.z , true ) -- track nodes we've looked at to prevent infinite loops
local node = minetest.get_node ( testpos )
if node.name == " ignore " then
--buildtron array is next to unloaded nodes, too dangerous to do anything. Abort.
layout.all = nil
return layout
end
if minetest.is_protected ( pos , player : get_player_name ( ) ) and not minetest.check_player_privs ( player , " protection_bypass " ) then
layout.protected : set ( testpos.x , testpos.y , testpos.z , true )
end
local group_number = minetest.get_item_group ( node.name , " digtron " )
if group_number > 0 then
--found one. Add it to the digtrons output
table.insert ( layout.all , testpos )
-- update extents
layout.extents . max_x = math.max ( layout.extents . max_x , testpos.x )
layout.extents . min_x = math.min ( layout.extents . min_x , testpos.x )
layout.extents . max_y = math.max ( layout.extents . max_y , testpos.y )
layout.extents . min_y = math.min ( layout.extents . min_y , testpos.y )
layout.extents . max_z = math.max ( layout.extents . max_z , testpos.z )
layout.extents . min_z = math.min ( layout.extents . min_z , testpos.z )
-- add a reference to this node's position to special node lists
if group_number == 2 then
table.insert ( layout.inventories , testpos )
elseif group_number == 3 then
table.insert ( layout.diggers , testpos )
elseif group_number == 4 then
table.insert ( layout.builders , testpos )
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elseif group_number == 5 then
table.insert ( layout.fuelstores , testpos )
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end
--queue up potential new test points adjacent to this digtron node
to_test : set_if_not_in ( tested , testpos.x + 1 , testpos.y , testpos.z , true )
to_test : set_if_not_in ( tested , testpos.x - 1 , testpos.y , testpos.z , true )
to_test : set_if_not_in ( tested , testpos.x , testpos.y + 1 , testpos.z , true )
to_test : set_if_not_in ( tested , testpos.x , testpos.y - 1 , testpos.z , true )
to_test : set_if_not_in ( tested , testpos.x , testpos.y , testpos.z + 1 , true )
to_test : set_if_not_in ( tested , testpos.x , testpos.y , testpos.z - 1 , true )
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elseif minetest.registered_nodes [ node.name ] . buildable_to ~= true then
-- Tracks whether the digtron is hovering in mid-air. If any part of the digtron array touches something solid it gains traction.
layout.traction = layout.traction + 1
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end
testpos , _ = to_test : pop ( )
end
return layout
end
digtron.place_in_inventory = function ( itemname , inventory_positions , fallback_pos )
--tries placing the item in each inventory node in turn. If there's no room, drop it at fallback_pos
local itemstack = ItemStack ( itemname )
for k , location in pairs ( inventory_positions ) do
local inv = minetest.get_inventory ( { type = " node " , pos = location } )
itemstack = inv : add_item ( " main " , itemstack )
if itemstack : is_empty ( ) then
return nil
end
end
minetest.add_item ( fallback_pos , itemstack )
end
digtron.place_in_specific_inventory = function ( itemname , pos , inventory_positions , fallback_pos )
--tries placing the item in a specific inventory. Other parameters are used as fallbacks on failure
--Use this method for putting stuff back after testing and failed builds so that if the player
--is trying to keep various inventories organized manually stuff will go back where it came from,
--probably.
local itemstack = ItemStack ( itemname )
local inv = minetest.get_inventory ( { type = " node " , pos = pos } )
local returned_stack = inv : add_item ( " main " , itemstack )
if not returned_stack : is_empty ( ) then
-- we weren't able to put the item back into that particular inventory for some reason.
-- try putting it *anywhere.*
digtron.place_in_inventory ( returned_stack , inventory_positions , fallback_pos )
end
end
digtron.take_from_inventory = function ( itemname , inventory_positions )
--tries to take an item from each inventory node in turn. Returns location of inventory item was taken from on success, nil on failure
local itemstack = ItemStack ( itemname )
for k , location in pairs ( inventory_positions ) do
local inv = minetest.get_inventory ( { type = " node " , pos = location } )
local output = inv : remove_item ( " main " , itemstack )
if not output : is_empty ( ) then
return location
end
end
return nil
end
digtron.move_digtron = function ( facing , digtrons , extents , nodes_dug )
-- move everything. Note! order is important or they'll step on each other, that's why this has complicated loops and filtering.
-- Nodes are moved in a "caterpillar" pattern - front plane first, then next plane back, then next plane back, etc.
-- positions in the digtron list will be updated when this method executes. Note that the inventories list shares
-- references to the node position tables in the digtron list, so it will reflect the updates too.
local dir = digtron.facedir_to_dir_map [ facing ]
local increment
local filter
local index
local target
if dir == 1 then -- z+
filter = " z "
increment = - 1
index = extents.max_z
target = extents.min_z
extents.max_z = extents.max_z + 1
extents.min_z = extents.min_z + 1
elseif dir == 2 then -- x+
filter = " x "
increment = - 1
index = extents.max_x
target = extents.min_x
extents.max_x = extents.max_x + 1
extents.min_x = extents.min_x + 1
elseif dir == 3 then -- z-
filter = " z "
increment = 1
index = extents.min_z
target = extents.max_z
extents.max_z = extents.max_z - 1
extents.min_z = extents.min_z - 1
elseif dir == 4 then -- x-
filter = " x "
increment = 1
index = extents.min_x
target = extents.max_x
extents.max_x = extents.max_x - 1
extents.min_x = extents.min_x - 1
elseif dir == 5 then -- y-
filter = " y "
increment = 1
index = extents.min_y
target = extents.max_y
extents.max_y = extents.max_y - 1
extents.min_y = extents.min_y - 1
elseif dir == 6 then -- y+
filter = " y "
increment = - 1
index = extents.max_y
target = extents.min_y
extents.max_y = extents.max_y + 1
extents.min_y = extents.min_y + 1
end
while index ~= target + increment do
for k , location in pairs ( digtrons ) do
if location [ filter ] == index then
local newpos = digtron.find_new_pos ( location , facing )
digtron.move_node ( location , newpos )
--By updating the digtron position table in-place we also update all the special node tables as well
digtrons [ k ] . x = newpos.x
digtrons [ k ] . y = newpos.y
digtrons [ k ] . z = newpos.z
nodes_dug : set ( newpos.x , newpos.y , newpos.z , false ) -- we've moved a digtron node into this space, mark it so that we don't dig it.
end
end
index = index + increment
end
end
-- Used to determine which coordinate is being checked for periodicity. eg, if the digtron is moving in the z direction, then periodicity is checked for every n nodes in the z axis.
digtron.get_controlling_coordinate = function ( pos , facedir )
-- used for determining builder period and offset
local dir = digtron.facedir_to_dir_map [ facedir ]
if dir == 1 or dir == 3 then
return " z "
elseif dir == 2 or dir == 4 then
return " x "
else
return " y "
end
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end
-- Searches fuel store inventories for burnable items and burns them until target is reached or surpassed (or there's nothing left to burn). Returns the total fuel value burned
-- if the "test" parameter is set to true, doesn't actually take anything out of inventories. We can get away with this sort of thing for fuel but not for builder inventory because there's just one
-- controller node burning stuff, not multiple build heads drawing from inventories in turn. Much simpler.
digtron.burn = function ( fuelstore_positions , target , test )
local current_burned = 0
for k , location in pairs ( fuelstore_positions ) do
if current_burned > target then
break
end
local inv = minetest.get_inventory ( { type = " node " , pos = location } )
local invlist = inv : get_list ( " main " )
for i , itemstack in pairs ( invlist ) do
local fuel_per_item = minetest.get_craft_result ( { method = " fuel " , width = 1 , items = { itemstack : peek_item ( 1 ) } } ) . time
if fuel_per_item ~= 0 then
local actual_burned = math.min (
math.ceil ( ( target - current_burned ) / fuel_per_item ) , -- burn this many, if we can.
itemstack : get_count ( ) -- how many we have at most.
)
if test ~= true then
-- don't bother recording the items if we're just testing, nothing is actually being removed.
itemstack : set_count ( itemstack : get_count ( ) - actual_burned )
end
current_burned = current_burned + actual_burned * fuel_per_item
end
if current_burned > target then
break
end
end
if test ~= true then
-- only update the list if we're doing this for real.
inv : set_list ( " main " , invlist )
end
end
return current_burned
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end
digtron.remove_builder_item = function ( pos )
local objects = minetest.env : get_objects_inside_radius ( pos , 0.5 )
if objects ~= nil then
for _ , obj in ipairs ( objects ) do
if obj and obj : get_luaentity ( ) and obj : get_luaentity ( ) . name == " digtron:builder_item " then
obj : remove ( )
end
end
end
end
digtron.update_builder_item = function ( pos )
digtron.remove_builder_item ( pos )
local inv = minetest.get_inventory ( { type = " node " , pos = pos } )
local item_stack = inv : get_stack ( " main " , 1 )
if not item_stack : is_empty ( ) then
digtron.create_builder_item = item_stack : get_name ( )
minetest.add_entity ( pos , " digtron:builder_item " )
end
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end