--[[ cable_NS1 -> One connection from north to south cable_NW1_ES1 -> One connection from north to west, and another from east to south cable_NWE8_S8 -> One connection between north, west and east, 8bit single cable from south cable_0 -> The one cable without connection --]] local nodebox_single = { {-0.0625, -0.5, 0.25, 0.0625, -0.375, 0.5}, {-0.125, -0.5, 0.25, 0.125, -0.25, 0.5} } local nodebox_straight = { {-0.0625, -0.5, -0.5, 0.0625, -0.375, 0.5}, {-0.125, -0.5, -0.5, 0.125, -0.25, 0.5} } local nodeboxes_corner = { { {-0.5, -0.5, -0.0625, 0.0625, -0.375, 0.0625}, -- NodeBox1 {-0.0625, -0.5, 0.0625, 0.0625, -0.375, 0.5}, -- NodeBox2 }, { {-0.5, -0.5, -0.125, 0.125, -0.25, 0.125}, -- NodeBox1 {-0.125, -0.5, 0.125, 0.125, -0.25, 0.5}, -- NodeBox2 } } local nodeboxes_jump = { { {-0.5, -0.5, -0.0625, -0.1875, -0.375, 0.0625}, -- NodeBox2 {0.1875, -0.5, -0.0625, 0.5, -0.375, 0.0625}, -- NodeBox3 {-0.3125, -0.1875, -0.0625, 0.3125, -0.0625, 0.0625}, -- NodeBox4 {-0.3125, -0.375, -0.0625, -0.1875, -0.1875, 0.0625}, -- NodeBox5 {0.1875, -0.375, -0.0625, 0.3125, -0.1875, 0.0625}, -- NodeBox6 }, { {-0.5, -0.5, -0.125, -0.1875, -0.25, 0.125}, -- NodeBox2 {0.1875, -0.5, -0.125, 0.5, -0.25, 0.125}, -- NodeBox3 {-0.4375, -0.1875, -0.125, 0.4375, 0.0625, 0.125}, -- NodeBox4 {-0.4375, -0.25, -0.125, -0.1875, -0.1875, 0.125}, -- NodeBox5 {0.1875, -0.25, -0.125, 0.4375, -0.1875, 0.125}, -- NodeBox6 } } local nodeboxes_ccorner = { { {-0.5, -0.5, -0.0625, -0.1875, -0.375, 0.0625}, -- NodeBox1 {-0.0625, -0.5, 0.1875, 0.0625, -0.375, 0.5}, -- NodeBox2 {-0.3125, -0.5, 0.0625, -0.1875, -0.375, 0.3125}, -- NodeBox3 {-0.1875, -0.5, 0.1875, -0.0625, -0.375, 0.3125}, -- NodeBox4 }, { {-0.5, -0.5, -0.125, -0.125, -0.25, 0.125}, -- NodeBox1 {-0.125, -0.5, 0.125, 0.125, -0.25, 0.5}, -- NodeBox2 {-0.375, -0.5, 0.125, -0.125, -0.25, 0.375}, -- NodeBox4 } } local nodeboxes_tri = { { {-0.5, -0.5, -0.0625, 0.5, -0.375, 0.0625}, -- NodeBox1 {-0.0625, -0.5, 0.0625, 0.0625, -0.375, 0.5}, -- NodeBox2 }, { {-0.5, -0.5, -0.125, 0.5, -0.25, 0.125}, -- NodeBox1 {-0.125, -0.5, 0.125, 0.125, -0.25, 0.5}, -- NodeBox2 } } local nodeboxes_cross = { { {-0.5, -0.5, -0.0625, 0.5, -0.375, 0.0625}, -- NodeBox1 {-0.0625, -0.5, 0.0625, 0.0625, -0.375, 0.5}, -- NodeBox2 {-0.0625, -0.5, -0.5, 0.0625, -0.375, -0.0625}, -- NodeBox3 }, { {-0.5, -0.5, -0.125, 0.5, -0.25, 0.125}, -- NodeBox1 {-0.125, -0.5, 0.125, 0.125, -0.25, 0.5}, -- NodeBox2 {-0.125, -0.5, -0.5, 0.125, -0.25, -0.125}, -- NodeBox3 } } local nodebox_disconnected = {-0.125, -0.5, -0.125, 0.125, -0.25, 0.125} -- cable_NSEW0 for v=1,2 do logikraft.registerCable("NSEW"..tostring((v-1)*7+1),nodeboxes_cross[v],{(v-1)*16+8+4+2+1},table.constTable(1,#nodeboxes_cross[v])) end --[ -- cable_NW0_SE0 -- cable_NE0_SW0 -- cable_NS0_EW0 for v0=1,2 do for v1=1,2 do local nodeboxes = {} local nbconn = {} for _,nb in ipairs(nodeboxes_ccorner[v0]) do table.insert(nodeboxes, nb) table.insert(nbconn, 1) end for _,nb in ipairs(nodeboxes_ccorner[v1]) do table.insert(nodeboxes, logikraft.rotateNodebox(nb,2)) table.insert(nbconn, 2) end logikraft.registerCable("NW"..tostring((v0-1)*7+1).."_SE"..tostring((v1-1)*7+1),nodeboxes,{(v0-1)*16+8+1,(v1-1)*16+4+2},nbconn) local nodeboxes = {} local nbconn = {} for _,nb in ipairs(nodeboxes_ccorner[v0]) do table.insert(nodeboxes, logikraft.rotateNodebox(nb,1)) table.insert(nbconn, 1) end for _,nb in ipairs(nodeboxes_ccorner[v1]) do table.insert(nodeboxes, logikraft.rotateNodebox(nb,3)) table.insert(nbconn, 2) end logikraft.registerCable("NE"..tostring((v0-1)*7+1).."_SW"..tostring((v1-1)*7+1),nodeboxes,{(v0-1)*16+8+4,(v1-1)*16+2+1},nbconn) local nodeboxes = {} local nbconn = {} table.insert(nodeboxes, nodebox_straight[v0]) table.insert(nbconn, 1) for _,nb in ipairs(nodeboxes_jump[v1]) do table.insert(nodeboxes, logikraft.rotateNodebox(nb,2)) table.insert(nbconn, 2) end logikraft.registerCable("NS"..tostring((v0-1)*7+1).."_EW"..tostring((v1-1)*7+1),nodeboxes,{(v0-1)*16+8+2,(v1-1)*16+4+1},nbconn) end end -- cable_AB0_C0_D0 -- ("NW","NE","SE","SW") * (/ + C0 + D0 + C0D0) -- cable_AB0_C0_D0 -- ("NS" "EW") * (/ + C0 + D0 + C0D0) for v=1,2 do for v1=0,2 do for v2=0,2 do for r,rn in ipairs({{"NW","E","S"},{"NE","S","W"},{"SE","W","N"},{"SW","N","E"}}) do local nodeboxes = {} local nbconn = {} local connz = {logikraft.rotate4dir((v-1)*16+8+1,r-1)} for _,nb in ipairs(nodeboxes_corner[v]) do table.insert(nodeboxes, logikraft.rotateNodebox(nb,r-1)) table.insert(nbconn, 1) end if v1 ~= 0 then table.insert(nodeboxes, logikraft.rotateNodebox(nodebox_single[v1],r)) table.insert(nbconn, 2) table.insert(connz,logikraft.rotate4dir((v1-1)*16+4,r-1)) end if v2 ~= 0 then table.insert(nodeboxes, logikraft.rotateNodebox(nodebox_single[v2],r+1)) table.insert(nbconn, v1==0 and 2 or 3) table.insert(connz,logikraft.rotate4dir((v2-1)*16+2,r-1)) end logikraft.registerCable( rn[1]..tostring((v-1)*7+1).. (v1~=0 and ("_"..rn[2]..tostring((v1-1)*7+1)) or "").. (v2~=0 and ("_"..rn[3]..tostring((v2-1)*7+1)) or "") ,nodeboxes,connz,nbconn ) end for r,rn in ipairs({{"NS","E","W"},{"EW","N","S"}}) do local nodeboxes = {} local nbconn = {} local connz = {logikraft.rotate4dir((v-1)*16+8+2,r-1)} table.insert(nodeboxes, logikraft.rotateNodebox(nodebox_straight[v],r-1)) table.insert(nbconn, 1) if v1 ~= 0 then table.insert(nodeboxes, logikraft.rotateNodebox(nodebox_single[v1],r)) table.insert(nbconn, 2) table.insert(connz,logikraft.rotate4dir((v1-1)*16+4,r-1)) end if v2 ~= 0 then table.insert(nodeboxes, logikraft.rotateNodebox(nodebox_single[v2],r+2)) table.insert(nbconn, v1==0 and 2 or 3) table.insert(connz,logikraft.rotate4dir((v2-1)*16+1,r-1)) end logikraft.registerCable( rn[1]..tostring((v-1)*7+1).. (v1~=0 and ("_"..rn[2]..tostring((v1-1)*7+1)) or "").. (v2~=0 and ("_"..rn[3]..tostring((v2-1)*7+1)) or ""), nodeboxes,connz,nbconn ) end end end end -- "cable_A0_B0_C0_D0" -- (n s e w ns ...) for v1=0,2 do for v2=0,2 do for v3=0,2 do for v4=0,2 do local nodeboxes = {} local nbconn = {} local name = "" local connz = {} if v1 ~= 0 then table.insert(nodeboxes, logikraft.rotateNodebox(nodebox_single[v1],0)) table.insert(nbconn, 1) table.insert(connz,(v1-1)*16+8) name = name.."_N"..tostring((v1-1)*7+1) end if v2 ~= 0 then table.insert(nodeboxes, logikraft.rotateNodebox(nodebox_single[v2],1)) table.insert(nbconn, #nbconn+1) table.insert(connz,(v2-1)*16+4) name = name.."_E"..tostring((v2-1)*7+1) end if v3 ~= 0 then table.insert(nodeboxes, logikraft.rotateNodebox(nodebox_single[v3],2)) table.insert(nbconn, #nbconn+1) table.insert(connz,(v3-1)*16+2) name = name.."_S"..tostring((v3-1)*7+1) end if v4 ~= 0 then table.insert(nodeboxes, logikraft.rotateNodebox(nodebox_single[v4],3)) table.insert(nbconn, #nbconn+1) table.insert(connz,(v4-1)*16+1) name = name.."_W"..tostring((v4-1)*7+1) end if name ~= "" then -- Else there is no connection, we don't have to create a cable logikraft.registerCable(string.sub(name,2,-1),nodeboxes,connz,nbconn) end end end end end -- "cable_ABC0_D0" -- ("NEW","NES","ESW","SWN") * (/ + D0) for v=1,2 do for v1=0,2 do for r,rn in ipairs({{"NEW","S"},{"NES","W"},{"ESW","N"},{"SWN","E"}}) do local nodeboxes = {} local nbconn = {} local connz = {logikraft.rotate4dir((v-1)*16+8+4+1,r-1)} for _,nb in ipairs(nodeboxes_tri[v]) do table.insert(nodeboxes, logikraft.rotateNodebox(nb,r-1)) table.insert(nbconn, 1) end if v1 ~= 0 then table.insert(nodeboxes, logikraft.rotateNodebox(nodebox_single[v1],r+1)) table.insert(nbconn, 2) table.insert(connz,logikraft.rotate4dir((v1-1)*16+2,r-1)) end logikraft.registerCable( rn[1]..tostring((v-1)*7+1).. (v1~=0 and ("_"..rn[2]..tostring((v1-1)*7+1)) or ""), nodeboxes,connz,nbconn ) end end end