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Port gates (finally)

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This commit is contained in:
Jeija
2012-12-10 19:46:24 +01:00
parent d5825f9602
commit 5904abbd79
2 changed files with 122 additions and 155 deletions
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222
mesecons_gates/init.lua
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@ -1,57 +1,111 @@
local outrules = {
{x=1, y=0, z=0},
}
local oneinput = {
{x=-1, y=0, z=0},
{x=1, y=0, z=0},
}
local twoinputs = {
{x=0, y=0, z=1},
{x=0, y=0, z=-1},
{x=1, y=0, z=0},
}
function get_gate_rules(param2, onlyout, singleinput)
if not param2 then return end
if onlyout then
rules = outrules
else
if singleinput then
rules = oneinput
else
rules = twoinputs
end
end
for rotations = 0, param2 - 1 do
function gate_rotate_rules(node)
for rotations = 0, node.param2 - 1 do
rules = mesecon:rotate_rules_left(rules)
end
return rules
end
function get_gate_rules_one(node)
print("gettin"..dump(node).." | PARAM2: "..node.param2)
return get_gate_rules(node.param2, false, true)
function gate_get_output_rules(node)
rules = {{x=1, y=0, z=0}}
return gate_rotate_rules(node)
end
function get_gate_rules_two(node)
return get_gate_rules(node.param2, false, false)
function gate_get_input_rules_oneinput(node)
rules = {{x=-1, y=0, z=0}, {x=1, y=0, z=0}}
return gate_rotate_rules(node)
end
function get_gate_rules_out(node)
return get_gate_rules(node.param2, true)
function gate_get_input_rules_twoinputs(node)
rules = {
{x=0, y=0, z=1},
{x=0, y=0, z=-1},
{x=1, y=0, z=0}}
return gate_rotate_rules(node)
end
gates = {"diode", "not", "nand", "and", "xor"}
for g in ipairs(gates) do gate = gates[g]
if g < 3 then
get_rules = get_gate_rules_one
else
get_rules = get_gate_rules_two
function update_gate(pos)
gate = get_gate(pos)
L = rotate_ports(
yc_get_real_portstates(pos),
minetest.env:get_node(pos).param2
)
if gate == "diode" then
set_gate(pos, L.a)
elseif gate == "not" then
set_gate(pos, not L.a)
elseif gate == "nand" then
set_gate(pos, not(L.b and L.d))
elseif gate == "and" then
set_gate(pos, L.b and L.d)
elseif gate == "xor" then
set_gate(pos, (L.b and not L.d) or (not L.b and L.d))
end
for on=0,1 do
nodename = "mesecons_gates:"..gate
end
function set_gate(pos, on)
gate = get_gate(pos)
local meta = minetest.env:get_meta(pos)
if on ~= gate_state(pos) then
yc_heat(meta)
minetest.after(0.5, yc_cool, meta)
if yc_overheat(meta) then
pop_gate(pos)
else
if on then
mesecon:swap_node(pos, "mesecons_gates:"..gate.."_on")
mesecon:receptor_on(pos,
gate_get_output_rules(minetest.env:get_node(pos)))
else
mesecon:swap_node(pos, "mesecons_gates:"..gate.."_off")
mesecon:receptor_off(pos,
gate_get_output_rules(minetest.env:get_node(pos)))
end
end
end
end
function get_gate(pos)
return minetest.registered_nodes[minetest.env:get_node(pos).name].mesecons_gate
end
function gate_state(pos)
name = minetest.env:get_node(pos).name
return string.find(name, "_on") ~= nil
end
function pop_gate(pos)
gate = get_gate(pos)
minetest.env:remove_node(pos)
minetest.after(0.2, yc_overheat_off, pos)
minetest.env:add_item(pos, "mesecons_gates:"..gate.."_off")
end
function rotate_ports(L, param2)
for rotations=0, param2-1 do
port = L.a
L.a = L.b
L.b = L.c
L.c = L.d
L.d = port
end
return L
end
gates = {
{name = "diode", inputnumber = 1},
{name = "not" , inputnumber = 1},
{name = "nand" , inputnumber = 2},
{name = "and" , inputnumber = 2},
{name = "xor" , inputnumber = 2}}
for i, gate in ipairs(gates) do
if gate.inputnumber == 1 then
get_rules = gate_get_input_rules_oneinput
elseif gate.inputnumber == 2 then
get_rules = gate_get_input_rules_twoinputs
end
for on = 0, 1 do
nodename = "mesecons_gates:"..gate.name
if on == 1 then
onoff = "on"
drop = nodename.."_off"
@ -61,13 +115,13 @@ for g in ipairs(gates) do gate = gates[g]
else
onoff = "off"
nodename = nodename.."_"..onoff
description = gate.." Gate"
description = gate.name.." Gate"
groups = {dig_immediate=2}
end
tiles = "jeija_microcontroller_bottom.png^"..
"jeija_gate_"..onoff..".png^"..
"jeija_gate_"..gate..".png"
"jeija_gate_"..gate.name..".png"
node_box = {
type = "fixed",
@ -100,98 +154,24 @@ for g in ipairs(gates) do gate = gates[g]
end,
groups = groups,
drop = drop,
mesecons_gate = gate.name,
mesecons =
{
receptor =
{
state = mesecon_state,
rules = get_gate_rules_out
rules = gate_get_output_rules
},
effector =
{
rules = get_rules,
action_change = function (pos, node)
update_gate(pos)
end
action_change = update_gate
}
}
})
end
end
function get_gate(pos)
return
string.gsub(
string.gsub(
string.gsub(
minetest.env:get_node(pos).name
, "mesecons_gates:", "") --gate
,"_on", "")
,"_off", "")
end
function gate_state(pos)
name = minetest.env:get_node(pos).name
return string.find(name, "_on") ~= nil
end
function pop_gate(pos)
gate = get_gate(pos)
minetest.env:remove_node(pos)
minetest.after(0.2, yc_overheat_off, pos)
minetest.env:add_item(pos, "mesecons_gates:"..gate.."_off")
end
function set_gate(pos, on)
gate = get_gate(pos)
local meta = minetest.env:get_meta(pos)
if on ~= gate_state(pos) then
yc_heat(meta)
minetest.after(0.5, yc_cool, meta)
if yc_overheat(meta) then
pop_gate(pos)
else
if on then
mesecon:swap_node(pos, "mesecons_gates:"..gate.."_on")
mesecon:receptor_on(pos, get_gate_rules(param2, true))
else
mesecon:swap_node(pos, "mesecons_gates:"..gate.."_off")
mesecon:receptor_off(pos, all_rules)
end
end
end
end
function rotate_ports(L, param2)
for rotations=0, param2-1 do
port = L.a
L.a = L.b
L.b = L.c
L.c = L.d
L.d = port
end
return L
end
function update_gate(pos)
gate = get_gate(pos)
L = rotate_ports(
yc_get_real_portstates(pos),
minetest.env:get_node(pos).param2
)
if gate == "diode" then
set_gate(pos, L.a)
elseif gate == "not" then
set_gate(pos, not L.a)
elseif gate == "nand" then
set_gate(pos, not(L.b and L.d))
elseif gate == "and" then
set_gate(pos, L.b and L.d)
elseif gate == "xor" then
set_gate(pos, (L.b and not L.d) or (not L.b and L.d))
end
end
minetest.register_craft({
output = 'mesecons_gates:diode_off',
recipe = {