#!/usr/bin/env python3 import glob import gzip import os import subprocess import threading import time # Where logs and sampled data will wind up, and where the sequences are read. # Do note that the sequences variable is supposed to be a tuple, because you # could have multiple sets of sequences. logdir = "/tmp/rdcost/logs" ofdir = "/tmp/rdcost/data" sequences = ("/opt/test_seqs/custom_seqs/*/*.yuv",) # Note that n_kvazaars * len(dest_qps) has to be less than the max number of # fd's that a process can have (check it out: ulimit -a, likely 1024) smt_threads = 8 # Kinda lazy, but just match this to your cpu n_kvz_threads = 1 # How many threads each kvz instance is running? n_kvazaars = smt_threads // n_kvz_threads # You likely will not need to change anything below this line kvz_srcdir = lambda path: os.path.join( os.path.dirname( os.path.dirname( os.path.realpath(__file__) ) ), "src", path) dest_qps = tuple(range(51)) base_qps = tuple(range(12, 43)) kvzargs = [kvz_srcdir("kvazaar"), "--threads", str(n_kvz_threads), "--preset=ultrafast", "--fastrd-sampling", "--fast-residual-cost=0"] kvzenv = {"LD_LIBRARY_PATH": kvz_srcdir(".libs/")} class MultiPipeGZOutManager: pipe_fn_template = "%02i.txt" gzout_fn_template = "%02i.txt.gz" def __init__(self, odpath, dest_qps): self.odpath = odpath self.dest_qps = dest_qps self.pipe_fns = [] self.gzout_fns = [] for qp in dest_qps: pipe_fn = os.path.join(self.odpath, self.pipe_fn_template % qp) gzout_fn = os.path.join(self.odpath, self.gzout_fn_template % qp) self.pipe_fns.append(pipe_fn) self.gzout_fns.append(gzout_fn) def __enter__(self): os.makedirs(self.odpath, exist_ok=True) for pipe_fn in self.pipe_fns: try: os.unlink(pipe_fn) except FileNotFoundError: pass os.mkfifo(pipe_fn) return self def __exit__(self, *_): for pipe_fn in self.pipe_fns: os.unlink(pipe_fn) def items(self): for pipe_fn, gzout_fn in zip(self.pipe_fns, self.gzout_fns): yield (pipe_fn, gzout_fn) class MTSafeIterable: def __init__(self, iterable): self.lock = threading.Lock() self.iterable = iterable def __iter__(self): return self def __next__(self): with self.lock: return next(self.iterable) def combinations(xi, yi): for x in xi: for y in yi: yield (x, y) def chain(lol): for l in lol: for i in l: yield i # Would've used Popen with gzip, but "gzip [fifo]" with an unconnected fifo # will detect the situation and not block, but just consider it an empty # file. Don't like it when tools outsmart their user.. def do_gzip(in_fn, out_fn): BLOCK_SZ = 65536 PRINT_MULT = 1024 with open(in_fn, "rb") as inf, gzip.open(out_fn, "wb") as outf: num_read = 0 print_next_thres = BLOCK_SZ * PRINT_MULT while True: block = inf.read(BLOCK_SZ) num_read += len(block) if (num_read >= print_next_thres): print(" read %8i MB from %s" % (num_read / (1024 * 1024), in_fn)) print_next_thres += BLOCK_SZ * PRINT_MULT if (len(block) == 0): break outf.write(block) print(" finished %8i MB from %s" % (num_read / (1024 * 1024), in_fn)) def run_job(job): ifpath, qp = job ifname = os.path.basename(ifpath) jobname = "%s-qp%i" % (ifname, qp) hevcname = "%s.hevc" % jobname logname = "%s.log" % jobname odname = jobname hevcpath = os.path.join("/tmp", hevcname) logpath = os.path.join(logdir, logname) odpath = os.path.join(ofdir, odname) my_kvzargs = kvzargs + ["-i", ifpath, "--qp", str(qp), "-o", hevcpath, "--fastrd-outdir", odpath] with open(logpath, "w") as lf: with MultiPipeGZOutManager(odpath, dest_qps) as pipes_and_outputs: gzip_threads = [] for pipe_fn, out_fn in pipes_and_outputs.items(): gzip_thread = threading.Thread(target=do_gzip, args=(pipe_fn, out_fn)) gzip_thread.start() gzip_threads.append(gzip_thread) kvz = subprocess.Popen(my_kvzargs, env=kvzenv, stderr=lf) kvz.wait() def threadfunc(joblist): for job in joblist: run_job(job) def main(): assert(isinstance(sequences, tuple)) for d in (logdir, ofdir): os.makedirs(d, exist_ok=True) jobs = combinations(chain(map(glob.glob, sequences)), base_qps) joblist = MTSafeIterable(jobs) threads = [threading.Thread(target=threadfunc, args=(joblist,)) for _ in range(n_kvazaars)] for thread in threads: thread.start() for thread in threads: thread.join() if (__name__ == "__main__"): main()