I'm writing a Clojure implementation of this coding challenge, attempting to find the average length of sequence records in Fasta format:
>1 GATCGA GTC >2 GCA >3 AAAAA
For more background see this related StackOverflow post about an Erlang solution.
My beginner Clojure attempt uses lazy-seq to attempt to read in the file one record at a time so it will scale to large files. However it is fairly memory hungry and slow, so I suspect that it's not implemented optimally. Here is a solution using the BioJava library to abstract out the parsing of the records:
(import '(org.biojava.bio.seq.io SeqIOTools)) (use '[clojure.contrib.duck-streams :only (reader)]) (defn seq-lengths [seq-iter] "Produce a lazy collection of sequence lengths given a BioJava StreamReader" (lazy-seq (if (.hasNext seq-iter) (cons (.length (.nextSequence seq-iter)) (seq-lengths seq-iter))))) (defn fasta-to-lengths [in-file seq-type] "Use BioJava to read a Fasta input file as a StreamReader of sequences" (seq-lengths (SeqIOTools/fileToBiojava "fasta" seq-type (reader in-file)))) (defn average [coll] (/ (reduce + coll) (count coll))) (when *command-line-args* (println (average (apply fasta-to-lengths *command-line-args*))))
and an equivalent approach without external libraries:
(use '[clojure.contrib.duck-streams :only (read-lines)]) (defn seq-lengths [lines cur-length] "Retrieve lengths of sequences in the file using line lengths" (lazy-seq (let [cur-line (first lines) remain-lines (rest lines)] (if (= nil cur-line) [cur-length] (if (= \> (first cur-line)) (cons cur-length (seq-lengths remain-lines 0)) (seq-lengths remain-lines (+ cur-length (.length cur-line)))))))) (defn fasta-to-lengths-bland [in-file seq-type] ; pop off first item since it will be everything up to the first > (rest (seq-lengths (read-lines in-file) 0))) (defn average [coll] (/ (reduce + coll) (count coll))) (when *command-line-args* (println (average (apply fasta-to-lengths-bland *command-line-args*))))
The current implementation takes 44 seconds on a large file compared to 7 seconds for a Python implementation. Can you offer any suggestions on speeding the code up and making it more intuitive? Is the usage of lazy-seq correctly parsing the file record by record as intended?