Day 4: Ceres Search

Megathread guidelines

  • Keep top level comments as only solutions, if you want to say something other than a solution put it in a new post. (replies to comments can be whatever)
  • You can send code in code blocks by using three backticks, the code, and then three backticks or use something such as https://topaz.github.io/paste/ if you prefer sending it through a URL

FAQ

  • ystael@beehaw.org
    link
    fedilink
    arrow-up
    4
    ·
    edit-2
    15 days ago

    J

    Unsurprisingly this is the kind of problem that J is really good at. The dyadic case (table) of the adverb / is doing all the heavy lifting here: it makes a higher rank tensor by traversing items of the specified rank on each side and combining them according to the remaining frame of each side’s shape. The hard part is arranging the arguments so that your resulting matrix has its axes in the correct order.

    data_file_name =: '4.data'
    
    NB. cutopen yields boxed lines, so unbox them and ravel items to make a letter matrix
    grid =: ,. > cutopen fread data_file_name
    NB. pad the grid on every side with #'XMAS' - 1 spaces
    hpadded_grid =: (('   ' & ,) @: (, & '   '))"1 grid
    padded_grid =: (3 1 $ ' ') , hpadded_grid , (3 1 $ ' ')
    NB. traversal vectors
    directions =: 8 2 $ 1 0 1 1 0 1 _1 1 _1 0 _1 _1 0 _1 1 _1
    NB. rpos cpos matches rdir cdir if the string starting at rpos cpos in
    NB. direction rdir cdir is the string we want
    matches =: 4 : 0
    */ ,'XMAS' -: padded_grid {~ <"1 x +"1 y *"1 0 i. 4
    )"1
    positions =: (3 + i. 0 { $ grid) ,"0/ (3 + i. 1 { $ grid)
    result1 =: +/, positions matches/ directions
    
    NB. pairs of traversal vectors
    x_directions =: 4 2 2 $ 1 1 _1 1 1 1 1 _1 _1 _1 _1 1 _1 _1 1 _1
    NB. rpos cpos x_matches 2 2 $ rdir1 cdir1 rdir2 cdir2 if there is an 'A' at
    NB. rpos cpos and the string in each of dir1 and dir2 centered at rpos cpos
    NB. is the string we want
    x_matches =: 4 : 0
    NB. (2 2 $ rdir1 cdir1 rdir2 cdir2) *"1 0/ (_1 + i.3) yields a matrix
    NB. 2 3 $ (_1 * dir1) , (0 * dir1) , (1 * dir1) followed by the same for dir2
    */ ,'MAS' -:"1 padded_grid {~ <"1 x +"1 y *"1 0/ _1 + i. 3
    )"1 2
    result2 =: +/, positions x_matches/ x_directions