pressure logic: rewrite callbacks for horizontal rotation flowables to support singular and double-ended devices

This commit is contained in:
thetaepsilon-gamedev 2017-10-19 13:35:31 +01:00
parent 9df0ec7edb
commit b2b29a1737
2 changed files with 34 additions and 29 deletions

View File

@ -215,7 +215,7 @@ for s in ipairs(states) do
-- only register flow logic for the "on" ABM. -- only register flow logic for the "on" ABM.
-- this means that the off state automatically blocks flow by not participating in the balancing operation. -- this means that the off state automatically blocks flow by not participating in the balancing operation.
if states[s] ~= "off" then if states[s] ~= "off" then
new_flow_logic_register.directional_horizonal_rotate(nodename_valve_empty) new_flow_logic_register.directional_horizonal_rotate(nodename_valve_empty, true)
end end
end end
@ -263,7 +263,7 @@ minetest.register_node(nodename_valve_loaded, {
-- right-clicking a "loaded" valve (becoming an off valve) then turning it on again will yield a on-but-empty valve, -- right-clicking a "loaded" valve (becoming an off valve) then turning it on again will yield a on-but-empty valve,
-- but the flow logic will still function. -- but the flow logic will still function.
-- thus under new_flow_logic this serves as a kind of migration. -- thus under new_flow_logic this serves as a kind of migration.
new_flow_logic_register.directional_horizonal_rotate(nodename_valve_loaded) new_flow_logic_register.directional_horizonal_rotate(nodename_valve_loaded, true)
-- grating -- grating
@ -438,8 +438,8 @@ minetest.register_node(nodename_panel_loaded, {
on_rotate = pipeworks.fix_after_rotation on_rotate = pipeworks.fix_after_rotation
}) })
-- TODO: AFAIK the two panels have no visual difference, so are redundant under new flow logic - alias? -- TODO: AFAIK the two panels have no visual difference, so are redundant under new flow logic - alias?
new_flow_logic_register.directional_horizonal_rotate(nodename_panel_empty) new_flow_logic_register.directional_horizonal_rotate(nodename_panel_empty, true)
new_flow_logic_register.directional_horizonal_rotate(nodename_panel_loaded) new_flow_logic_register.directional_horizonal_rotate(nodename_panel_loaded, true)
@ -521,8 +521,8 @@ minetest.register_node(nodename_sensor_loaded, {
mesecons = pipereceptor_on, mesecons = pipereceptor_on,
on_rotate = pipeworks.fix_after_rotation on_rotate = pipeworks.fix_after_rotation
}) })
new_flow_logic_register.directional_horizonal_rotate(nodename_sensor_empty) new_flow_logic_register.directional_horizonal_rotate(nodename_sensor_empty, true)
new_flow_logic_register.directional_horizonal_rotate(nodename_sensor_loaded) new_flow_logic_register.directional_horizonal_rotate(nodename_sensor_loaded, true)
-- activate flow sensor at roughly half the pressure pumps drive pipes -- activate flow sensor at roughly half the pressure pumps drive pipes
local sensor_pressure_set = { { nodename_sensor_empty, 0.0 }, { nodename_sensor_loaded, 1.0 } } local sensor_pressure_set = { { nodename_sensor_empty, 0.0 }, { nodename_sensor_loaded, 1.0 } }
new_flow_logic_register.transition_simple_set(sensor_pressure_set, { mesecons=pipeworks.mesecons_rules }) new_flow_logic_register.transition_simple_set(sensor_pressure_set, { mesecons=pipeworks.mesecons_rules })

View File

@ -69,34 +69,39 @@ end
-- register a node as a directional flowable whose accepting sides depends upon param2 rotation. -- register a node as a directional flowable whose accepting sides depends upon param2 rotation.
-- used for entry panels, valves, flow sensors and spigots, -- used for entry panels, valves, flow sensors and spigots,
-- whose facing axis is always upwards and can only rotate horizontally. -- whose facing axis is always upwards and can only rotate horizontally.
local iseastwest = function(node) register.directional_horizonal_rotate = function(nodename, doubleended)
local data = node.param2 local rotations = {
local rotation = data % 4 {x= 0,y= 0,z= 1},
-- rotation 0 and 2 is the same axis, as is 1 and 3. {x= 1,y= 0,z= 0},
-- 0-3 starts at north and proceeds clockwise. {x= 0,y= 0,z=-1},
local axis = rotation % 2 {x=-1,y= 0,z= 0},
--pipeworks.logger("iseastwest() rotation="..tostring(rotation).." axis="..tostring(axis)) }
return (axis == 1) local getends = function(node)
end --local dname = "horizontal rotate getends() "
register.directional_horizonal_rotate = function(nodename) local param2 = node.param2
local north = {x= 0,y= 0,z= 1} -- the sole end of the spigot points in the direction the rotation bits suggest
local south = {x= 0,y= 0,z=-1} -- also note to self: lua arrays start at one...
local east = {x= 1,y= 0,z= 0} local mainend = (param2 % 4) + 1
local west = {x=-1,y= 0,z= 0} -- use modulus wrap-around to find other end for straight-run devices like the valve
local neighbourfn = function(node) local otherend = ((param2 + 2) % 4) + 1
if iseastwest(node) then local mainrot = rotations[mainend]
return { east, west } --pipeworks.logger(dname.."mainrot: "..dump(mainrot))
local result
if doubleended then
result = { mainrot, rotations[otherend] }
else else
return { north, south } result = { mainrot }
end end
--pipeworks.logger(dname.."result: "..dump(result))
return result
end
local neighbourfn = function(node)
return getends(node)
end end
local directionfn = function(node, direction) local directionfn = function(node, direction)
local result = false local result = false
if iseastwest(node) then for index, endvec in ipairs(getends(node)) do
--pipeworks.logger("horizontal rotate directionfn() eastwest=true") if vector.equals(direction, endvec) then result = true end
result = vector.equals(direction, east) or vector.equals(direction, west)
else
result = vector.equals(direction, north) or vector.equals(direction, south)
end end
return result return result
end end