I have a moderate sized map (~1M keys with relatively small values e.g. (first mymap) => ["7:21658846-21658846" {["C" "T"] {"central_nervous_system" 1}}]
) which is reduced to another map using the functions below (some secondary funcctions omitted because they aren't really relevant to the question - they are not impacting performance)
The new map is created using reduction (reduce-kv) because I need to cumulatively increase various nested values in the map as I parse each element from the original map.
This is not really a problem for about 100K entries, which takes about 40 seconds. It is a massive problem for my 1M size map (which is only going to get bigger with future runs) which hasnt finished yet after 20 mins.
Is there any obvious issues which are easily addressed? non-idiomatic approaches which can be changed to drastically improve performance? It doesn't seem particularly parallizable - but something in there is really inefficient - I expect the cumulative map.
Any advice appreciated.
*Edit - added assoc-in-sum defn
(defn add-mut-freq-firstTS
"Builds a map of Transcript -> {aapos -> {:aaposn_count :codon :aa {genomic_SNP_posn -> {:SNP_posn_count :frame {:genomic_ref :genomic_mut :SNP_count :aa_mut :codon_mut}}}}.
but only using one transcript per SNP. ***ONLY USED FOR STATS CALCS***"
[CDS-ref snp-freq]
(reduce-kv (fn [m k v](let [aa-ref (first (cosu/map-ts-aa-pos CDS-ref [k v]))] (add-mut-freq** m aa-ref aa-ref [k v]))) {} snp-freq) )
(defn add-mut-freq**
"Adds data for frequency of different mutations at a given position to a cumulative map m for a given transcript. Updates running totals
for frequency at aa position and genomic position as well."
[m ts first-ts snp-freq]
(let [[ts_ID SNP_aa_posn SNP_aa_frame _ gene strand] ts
[posn nt-mut-freq] snp-freq
m-pre (if (= ts first-ts) (assoc-in m [:ts ts_ID :snp-aa-pos SNP_aa_posn :snp-nt-posn posn :first] true) m)
m-init (assoc-in m-pre [:ts ts_ID :gene] gene)]
(reduce-kv (fn [m1 k v](
let [mut k
tiss-freq v
snp-count (apply + (vals tiss-freq))]
(-> m1 (u/assoc-in-sum [:ts ts_ID :ts-cnt] snp-count)
(assoc-in [:ts ts_ID :ts-strand] strand)
(u/assoc-in-sum [:ts ts_ID :snp-aa-pos SNP_aa_posn :aa-cnt] snp-count)
(u/assoc-in-sum [:ts ts_ID :snp-aa-pos SNP_aa_posn :snp-nt-posn posn :pos-cnt] snp-count)
(assoc-in [:ts ts_ID :snp-aa-pos SNP_aa_posn :snp-nt-posn posn :ts-frame] SNP_aa_frame)
(u/assoc-in-sum [:ts ts_ID :snp-aa-pos SNP_aa_posn :snp-nt-posn posn :mut-nt mut :posnt-cnt] snp-count)
(add-tissue-counts ts_ID SNP_aa_posn tiss-freq)
(assoc-in [:ts ts_ID :snp-aa-pos SNP_aa_posn :snp-nt-posn posn :mut-nt mut :mut-tiss-freq] tiss-freq))
)) m-init nt-mut-freq)))
(defn add-tissue-counts
[m ts_ID SNP_aa_posn tiss-map]
(reduce-kv (fn [m1 k v] (-> m1 (u/assoc-in-sum [:ts ts_ID :snp-aa-pos SNP_aa_posn :aa-tiss-cnt k] v)
(u/assoc-in-sum [:ts ts_ID :ts-tiss-cnt k] v)
(u/assoc-in-sum [:tiss-cnt k] v)
)) m tiss-map))
(defn assoc-in-sum
"Same as assoc-in except that if the key already exists, the value is added to instead of replaced"
[m key-vec v]
(let [ex-val (get-in m key-vec)
new-val (if ex-val (+ ex-val v) v)]
(assoc-in m key-vec new-val))
)
*-in
calls. Alsoassoc-in-sum
is(udpate-in m ks (fnil + 0) v)
.