11
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15
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19
20
21
22
23
24
25
26
27
28
..
30
31
32
33
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35
36
37
38
39
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41
42
43
44
..
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
..
89
90
91
92
93
94
95
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return string.format('starlit_tech:chem_lamp_%s',n)
end
local fab = starlit.type.fab {
element = { carbon = 8, magnesium = 2 };
cost = { power = 100 };
flag = { print = true };
time = { print = 5 };
reverseEngineer = {
complexity = 1;
sw = 'starlit_tech:schematic_chem_lamp';
};
};
for i = stages, 0, -1 do
minetest.register_node(chemLampID(i), {
short_description = 'Chem Lamp';
description = starlit.ui.tooltip {
title = 'Chem Lamp';
desc = "A simple carbon-frame chemical light source powered by ambient oxygen. Cheap, quick to print, and biodedragable, without any need for an electric grid or complex power storage mechanism. However, the light only lasts a few days, after which the lamp must be recycled or discarded.";
................................................................................
props = {
{title = 'Burn Remaining', desc=lib.math.timespec(stageTimeout * i), affinity=i > 4 and 'good' or 'bad'};
{title = 'Mass', desc='10g', affinity='info'};
};
};
drawtype = 'nodebox';
groups = {
object = 2;
attached_node = 1;
};
node_box = {
type = 'fixed';
fixed = {
-.4, -.5, -.20;
.4, -.3, .20;
................................................................................
on_timer = i ~= 0 and function(pos)
local me = minetest.get_node(pos)
minetest.swap_node(pos, {name=chemLampID(i-1), param2=me.param2})
return i > 1
end or nil;
_starlit = {
mass = 10;
fab = fab;
recover = starlit.type.fab {
element = {
carbon = 8;
magnesium = math.floor(lib.math.lerp(i/stages, 0, 2));
};
time = {
shred = .5;
................................................................................
cost = {
cycles = 8e9;
ram = 16e6;
};
rarity = 1;
})
end
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11
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15
16
17
18
19
20
21
22
23
24
..
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
..
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
..
88
89
90
91
92
93
94
95
96
97
98
99
100
101
102
103
104
105
106
107
108
109
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162
163
164
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166
167
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170
171
172
173
|
return string.format('starlit_tech:chem_lamp_%s',n)
end
local fab = starlit.type.fab {
element = { carbon = 8, magnesium = 2 };
cost = { power = 100 };
flag = { print = true };
time = { print = 5 };
};
for i = stages, 0, -1 do
minetest.register_node(chemLampID(i), {
short_description = 'Chem Lamp';
description = starlit.ui.tooltip {
title = 'Chem Lamp';
desc = "A simple carbon-frame chemical light source powered by ambient oxygen. Cheap, quick to print, and biodedragable, without any need for an electric grid or complex power storage mechanism. However, the light only lasts a few days, after which the lamp must be recycled or discarded.";
................................................................................
props = {
{title = 'Burn Remaining', desc=lib.math.timespec(stageTimeout * i), affinity=i > 4 and 'good' or 'bad'};
{title = 'Mass', desc='10g', affinity='info'};
};
};
drawtype = 'nodebox';
groups = {
object = 1;
attached_node = 1;
};
node_box = {
type = 'fixed';
fixed = {
-.4, -.5, -.20;
.4, -.3, .20;
................................................................................
on_timer = i ~= 0 and function(pos)
local me = minetest.get_node(pos)
minetest.swap_node(pos, {name=chemLampID(i-1), param2=me.param2})
return i > 1
end or nil;
_starlit = {
mass = 10;
reverseEngineer = {
complexity = 1;
sw = 'starlit_tech:schematic_chem_lamp';
};
recover = starlit.type.fab {
element = {
carbon = 8;
magnesium = math.floor(lib.math.lerp(i/stages, 0, 2));
};
time = {
shred = .5;
................................................................................
cost = {
cycles = 8e9;
ram = 16e6;
};
rarity = 1;
})
end
minetest.register_node('starlit_tech:crate', {
short_description = 'Crate';
description = starlit.ui.tooltip {
title = 'Crate';
desc = 'A sturdy but lightweight storage crate made from solid carbon polymer.';
props = { {title='Mass', affinity='info', desc='100g'} };
};
drawtype = 'nodebox';
node_box = {
type = 'fixed';
fixed = {
.4, .2, .4;
-.4, -.5, -.2;
};
};
groups = {
object = 3;
attached_node = 3;
};
paramtype2 = 'facedir';
tiles = {
'starlit-tech-crate-top.png';
'starlit-tech-crate-bottom.png';
'starlit-tech-crate-side.png^[transformFX';
'starlit-tech-crate-side.png';
'starlit-tech-crate-back.png';
'starlit-tech-crate-front.png';
};
_starlit = {
mass = 100;
reverseEngineer = {
complexity = 1;
sw = 'starlit_tech:schematic_crate';
};
recover = starlit.type.fab {
element = { carbon = 100; };
time = {
shred = 1;
shredPower = 3;
};
};
};
on_construct = function(pos)
local m = minetest.get_meta(pos)
local inv = m:get_inventory()
inv:set_size('starlit:contents', 12)
end;
on_rightclick = function(pos, node, luser)
if not luser then return end
local user = starlit.activeUsers[luser:get_player_name()]
user:openUI('starlit:box', 'index', {
inv={
{id = 'starlit:contents', pos=pos};
};
})
end;
})
starlit.item.sw.link('starlit_tech:schematic_crate', {
name = 'Crate Schematic';
kind = 'schematic';
input = starlit.type.fab {
element = { carbon = 100; };
flag = {print = true};
time = {print = 25};
cost = {power = 250};
};
output = 'starlit_tech:crate';
size = 48e6;
cost = {
cycles = 12e9;
ram = 16e6;
};
rarity = 1;
})
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