-- The function get_name() should return a single string that is the name of the puzzle. -- function get_name() return "DIGITS" end -- The function get_description() should return an array of strings, where each string is -- a line of description for the puzzle. The text you return from get_description() will -- be automatically formatted and wrapped to fit inside the puzzle information box. -- function get_description() return { "OUTPUT THE HUNDREDS DIGIT OF IN.A TO OUT.X, THE TENS DIGIT TO OUT.Y, AND THE ONES DIGIT TO OUT.Z", "WHEN THERE IS NO APPLICABLE DIGIT, OUTPUT 0" } end -- The function get_streams() should return an array of streams. Each stream is described -- by an array with exactly four values: a STREAM_* value, a name, a position, and an array -- of integer values between -999 and 999 inclusive. -- -- STREAM_INPUT: An input stream containing up to 39 numerical values. -- STREAM_OUTPUT: An output stream containing up to 39 numerical values. -- STREAM_IMAGE: An image output stream, containing exactly 30*18 numerical values between 0 -- and 4, representing the full set of "pixels" for the target image. -- -- NOTE: Arrays in Lua are implemented as tables (dictionaries) with integer keys that start -- at 1 by convention. The sample code below creates an input array of 39 random values -- and an output array that doubles all of the input values. -- -- NOTE: To generate random values you should use math.random(). However, you SHOULD NOT seed -- the random number generator with a new seed value, as that is how TIS-100 ensures that -- the first test run is consistent for all users, and thus something that allows for the -- comparison of cycle scores. -- -- NOTE: Position values for streams should be between 0 and 3, which correspond to the far -- left and far right of the TIS-100 segment grid. Input streams will be automatically -- placed on the top, while output and image streams will be placed on the bottom. -- function get_streams() input = {} output_x = {} output_y = {} output_z = {} for i = 1,39 do digits = math.random(0, 2) if digits == 0 then input[i] = math.random(0, 9) elseif digits == 1 then input[i] = math.random(10, 99) elseif digits == 2 then input[i] = math.random(100, 999) end output_x[i] = input[i] / 100 output_y[i] = (input[i] % 100) / 10 output_z[i] = input[i] % 10 end return { { STREAM_INPUT, "IN.A", 1, input }, { STREAM_OUTPUT, "OUT.A", 0, output_x }, { STREAM_OUTPUT, "OUT.Y", 1, output_y }, { STREAM_OUTPUT, "OUT.Z", 2, output_z }, } end -- The function get_layout() should return an array of exactly 12 TILE_* values, which -- describe the layout and type of tiles found in the puzzle. -- -- TILE_COMPUTE: A basic execution node (node type T21). -- TILE_MEMORY: A stack memory node (node type T30). -- TILE_DAMAGED: A damaged execution node, which acts as an obstacle. -- function get_layout() return { TILE_COMPUTE, TILE_COMPUTE, TILE_DAMAGED, TILE_COMPUTE, TILE_COMPUTE, TILE_COMPUTE, TILE_COMPUTE, TILE_COMPUTE, TILE_COMPUTE, TILE_COMPUTE, TILE_COMPUTE, TILE_DAMAGED, } end