ref: 9ef8abbefa9171d713fba46d8f84ac0000cb758b
dir: /support/matchstats.myr/
use std use bio use math const atoi = {s match std.intparse(s) | `std.Some v: -> v | `std.None: std.fatal("error") ;; } const avg = {xs var sum sum = 0 for x : xs sum += x ;; -> (sum : flt64) / (xs.len : flt64) } const intcmp = {a, b if a < b -> `std.After elif a > b -> `std.Before else -> `std.Equal ;; } const percentile = {percent, xs var sorted var idx, i var ret sorted = std.sort(xs, intcmp) idx = ((percent : flt64) / 100.0) * (sorted.len : flt64) i = (math.floor(idx) : int) if idx == math.floor(idx) ret = (xs[i-1] : flt64) elif idx > 1.0 ret = ((xs[i-1] + xs[i]) / 2 : flt64) else std.fatal("percentile out-of-bunds\n") ;; -> ret } const maximum = {xs var m m = xs[0] for v : xs if v > m m = v ;; ;; -> m } const main = {args : byte[:][:] var f, locs, refcnts, sizes, heights, count if args.len < 2 std.put("need input file\n") std.exit(1) ;; match bio.open(args[1], bio.Rd) | `std.Ok fd: f = fd | `std.Err e: std.fatal("error opening {}: {}\n", args[0], e) ;; locs = [][:] refcnts = [][:] sizes = [][:] heights = [][:] count = 0 while true match bio.readto(f, ",") | `std.Ok loc: std.slpush(&locs, std.strstrip(loc)) | `std.Err `bio.Eof: break | `std.Err e: std.fatal("error read loc: {}\n", e) ;; match bio.readto(f, ",") | `std.Ok refcnt: std.slpush(&refcnts, atoi(std.strstrip(refcnt))) | `std.Err e: std.fatal("error read refcnt: {}\n", e) ;; match bio.readto(f, ",") | `std.Ok size: std.slpush(&sizes, atoi(std.strstrip(size))) | `std.Err e: std.fatal("error read size: {}\n", e) ;; match bio.readto(f, "\n") | `std.Ok height: std.slpush(&heights, atoi(std.strstrip(height))) | `std.Err e: std.fatal("error read height: {}\n", e) ;; count ++ ;; std.put("Sample count: {}\n", count) std.put("Dtree Refcnt\tavg: {s=3}\t95th percentile: {s=3}\t maximum: {}\n", avg(refcnts), percentile(95, refcnts), maximum(refcnts)) std.put("Dtree Size\tavg: {s=3}\t95th percentile: {s=3}\t maximum: {}\n", avg(sizes), percentile(95, sizes), maximum(sizes)) std.put("Dtree Height\tavg: {s=3}\t95th percentile: {s=3}\t maximum: {}\n", avg(heights), percentile(95, heights), maximum(heights)) bio.close(f) }